NETOP INNOVATIO132

March 23, 2018 | Author: khucngocnahanh | Category: Transmission Line, Coaxial Cable, Waveguide, Inductance, Electrical Resistance And Conductance
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Your Partner For Network Optimization!NETOP INNOVATION NETOP COMPANY OVERVIEW Mission Statement • Design, manufacture and deploy worldwide RF total solutions for telecommunication networks • Create value for our customers through innovative products, customized services and cost effective solutions • Highest quality standards, state-of-the-art manufacturing facilities and reliable supply chain management to achieve and exceed customer expectations • Socially responsible to our community and environment we do business in and committed to employee’s personnel development Core Values • • • • Value Innovation Customer Focus Sustainable Growth Social Responsibility About Netop Netop® is an international company devoted to providing the total “end-to-end” solution for enabling wireless coverage & optimizing mobile networks. We are a modern and dynamic company involved in both site and in-building wireless coverage business since 2004. Netop® has capabilities in R&D, manufacturing, logistics and on-site services. Netop® provides both off-the-shelf and customized products for our customers. Our major offerings include: 1) Total site solutions 2) In-building wireless coverage solutions 3) Customized components for OEM customers 4) Microwave and Satellite communication systems Our technical competencies are protected with patents and our products adhere to the highest technical standards. Netop® production base is located in Qingpu Industrial Park, Shanghai. The factory has over 14,000 sqm production facilities with more than 800 employees. To keep up with technological advancements, our R&D center in the United States is at the heart of technical innovations. We strive to be at the forefront of technology. Netop® also has an expansive sales and marketing network throughout the world. We have over 20 subsidiaries covering Asia Pacific, the Middle East, Africa, Europe and the Americas. Hence, we are able to be in constant contact with our local customers providing them with timely and quality services. CONTENT Technical Basics S-Optsite Network Optimization Solution TM 2 TMA Combiner Filter 12 14 16 S-Optcell Network Optimization Solution TM Line Amplifier and Repeater POI Passive Component WiFi Product IBS Antenna 20 63 65 73 76 S-Wave Base Station Antenna Solution ® Product Description Product Antenna 700/800/900 Dual Polarization +45º/–45º Antenna 800/900 Vertical Polarization Antenna 1800/1900/2000 Dual Polarization +45º/–45º Antenna 1800/1900/2000 Vertical Polarization Dual Band Antennas --2 ports(with Inner Combiner) Dual Polarization +45º/–45º Dual Band Antennas --4 ports Dual Polarization +45º/–45º Triple Band Antennas --6 ports Dual Polarization +45º/-45º Tri-Sector Antennas Dual Polarization +45º/-45º Remote Control Unit Mounting Configuration 84 92 118 127 143 146 155 173 178 180 181 Microwave & VSAT Systems Netop Microwave System Netop VSAT System 186 196 S-Link RF Cable Solution ® Feeder Cable Connector Stripping Tool Jumper Cable Surge Arrester Grounding Kit Installation Accessory 200 214 216 217 219 220 222 Technical Basics 2 TECHNICAL BASICS Glossary Attenuation The reduction of the amplitude of a signal after passing through a high-loss two port network. A section of a transmission line can be considered to be such a network. On a coaxial line, the sum of the following loss elements causes the attenuation of the transmitted electromagnetic wave: resistive loss of the inner conductor resistive loss of the outer conductor leakage loss between the inner and outer conductor whereby the resistive losses are influenced by the => skin effect especially at high frequencies. It must also be noted that the current routes are longer if the conductor surface is rough. The effective resistance and losses are greater than in the case of conductors with a smooth surface. The attenuation is normally stated as the logarithm of the ratio of the network input signal to the network output signal in Neper(N)or decibel(dB). The following equation is used to calculate the attenuation from the input U1 α = ln — [ N ] U2 U1 α = ln — [ dB ] U2 ZL ≈ gives a real value for the attenuation constants which is solely depend on the line parameters. Characteristic impedance Characteristic parameter of a transmission line for the calculation of the current and voltage distribution on the transmission line, if solely a traveling wave exists on the transmission line. On a low-loss transmission line where R’<<wL’ and G’<<Wc’, the characteristic impedance can be determined by L' — C' If the transmission line is coaxial and has an external conductor with diameter D, an inner conductor with diameter d and an insulation with the dielectric constant εr, then the characteristic impedance of the transmission line can be calculated using 60 D Z0 ≈ — ln — εr d Coaxial connector A coaxial connector should provide a connection between two lines of the same characteristic impedance, that is as uniform, reliable and reflection-free as possible. It should be simple to connect and disconnect, possess good electrical transmission characteristics and offer a high degree of insensitivity to electromagnetic interference. The => characteristic impedance of the connector can be very well matched to the characteristic impedance of the various cables. One can differentiate between two basic types of connector: the polarized connector, where one part has a(male)plug pin contact and the other part, a(female)socket contact, and the non-polarized connector, where the connector elements to be connected are generally symmetrical in form and the contact at the inner and outer conductors is achieved by a butt contact. The inner conductor is mostly retained within the outer conductor by means of a dielectric support. The design of this support significantly influences the reflection behavior of the connector. α[ N ] = 8, 686×α[ dB ] and out put power of the network: P1 α ≈ 10log — [ dB ] P2 Attenuation constants The real component of the =>propagation constant γis described as the attenuation constant. It describes the exponential reduction of the amplitudes of the current and voltage as a function of the line length. The attenuation constant is zero for zero-loss lines, i.e. for lines where the resistance per unit length and the conductance per unit length are equal to zero. For relatively low loss lines where G’ <<ωC’(C’ capacitance per unit length) and R’ <<ωL’(L’ inductance per unit length) the equation R' G'ZL α ≈ ln — + —— 2 2ZL Coaxial cavity resonator Transmission line section of particular lengths and termination resistances possess similar resonance characteristics to oscillating circuits comprising capacitance, inductance and resistance. Depending on the layout, parallel or serial resonance can be generated. The dielectric constant describes the behavior of the material in electric fields. The absolute dielectric constant ε0 =8,8542×10 As/Vm applies to a vacuum as an insulator. The relative dielectric constant εr is -12 to be observed for real materials used in practical applications. The relative dielectric constant εr is to be as low as possible for most applications. Examples of the relative dielectric constant for materials often used as insulators are: εr =1.0006 Air Polystyrol PTFE εr ≈2.56(frequency dependent) εr ≈2.04(frequency dependent) Crosstalk Mutual interference of signals in neighboring transmission lines or electrical systems by electrical, magnetic and/or electromagnetic coupling. =>Shielding =>EMC =>Transfer impedance EMC Electro-Magnetic Compatibility describes the degree of protection of an electrical system against external interference, or the degree of interference of other systems by this system. The mutual interference of the systems can be caused by electrical, magnetic or electromagnetic fields. The reduction of the interference and the associated increase in the EMC can be achieved mainly by appropriate =>shielding Cutoff frequency The highest frequency at which only the fundamental wave of the corresponding waveguide can become unstable above the cutoff frequency due to the occurrence of higher modes. The cutoff frequency for coaxial cables describes the maximum frequency at which only the fundamental wave of the => two-wire line, the TEM00 wave, can be propagated. It can be calculated by: 1 2c — fG ≈ π × —— εr D+d Where εr =relative dielectric constant of the insulator c =speed of light Equivalent line circuit The representation of the line circuit by means of locally concentrated circuit elements, which are calculated from the line parameters per unit length of the line section being considered. After applying these concentrated elements, line calculations can be performed using the general Kirchhoff’s laws. Free space impedance Free space impedance represents the ratio of electrical to magnetic field strength for a plane wave in a vacuum. The relationship in the equation for two-wire lines gives the so-called d,D =diameters of the inner and outer conductors Dielectric constant The insulation or dielectric materials used in electrical engineering are characterized by several material constants. The loss factor tanδand the relative dielectric constant εr of the insulating material are the main parameters to be considered when selecting the optimum dielectric material and the associated component design. Both parameters significantly influence the => propagation constant(and the => characteristic impedance Z0 of a line section, e.g. of a connector. free space impedance. Z0 = μ0 — ≈ 377Ω ε0 3 Technical Basics Technical Basics 4 Input impedance The input impedance is the quotient of the complex voltage and the complex current at the start of the line and is dependent upon the line parameters(=> characteristic impedance and => propagation constant), the line length and also the termination resistance. Depending upon the type of line terminator and the line length, the input impedance can behave as an inductance or a capacitance. It can be equal to the characteristic impedance or behave as a parallel or serial resonant circuit. This behavior is utilized to generate circuit elements such as inductance, capacitance or resonators based on such line sections. where D = diameter of the outer connector d = diameter of the inner connector μ0=1.256 * 10-6Vs/Am ε0=8.854 * 10-12As/Vm εr= relative dielectric constant of the dielectric used, in the case of air 1.0006 Line transformer Intermodulation Produced new, undefined and unwanted signals on non-linear characteristics at components in signals. Intermodulation factors: magnetic materials contact force, contact surface oxidized contact surface Transmission line sections possess certain transformation properties depending on their length, i .e. the resistance at the end of a line(termination resistance)is transformed into another resistance(input resistance)at the start of the line. The λ/4 and λ/2 transformers are of special significance in the respect. Measurement line Measurement lines are rigid transmission lines of the respective line type(e. g. waveguide or coaxial line)with which the field Line parameters The specific line parameters define the electrical properties of a line as the so-called primary => transmission line constants. They represent the circuit elements of the => line equivalent circuit related to the line length. The following are defined: Resistance per unit length R’ The ohmic line resistance for both the outgoing and return wires under consideration of the skin effect, related to a unit of length Inductance per unit length L’ The line inductance for both the outgoing and return wires related to a unit of length Conductance per unit length G’ The line conductance between the outgoing and return wires related to a unit of length Capacitance per unit length C’ The line capacitance between the outgoing and return wires related to a unit of length. The following values are typical for a low-loss coaxial line (G’ <<ωC’ and R’<<ωL’) distribution along the line is sample using a specially designed low power probe. The mismatched test specimen,(e. g. a piece of coaxial cable of unknown, to be determined, characteristic impedance), which is fitted to the measurement line as the terminating resistance, causes a standing wave on the measurement line; this in turn has a certain relationship between the maximum and minimum amplitudes, and from this, the => reflection coefficient of the specimen can be calculated. Mismatching If the termination resistance of a line is different to its characteristic impedance, then the line is mismatched. Mismatching causes reflections and results in losses which are generally undesirable. It is caused in coaxial connectors by deviations from the theoretical design dimensions(tolerances) and also by inaccuracies in the assumed material used for manufacture. The extent of the mismatching is characterized by the => reflection coefficient. Mono mode range for coaxial cables Frequency range within which only the Lecher wave is capable of propagation on the coaxial cable and which is in turn responsible for the propagation parameters. A=>cutoff frequency occurs at the higher end of this mono mode range. Above this frequency, additional wave type can be stimulated(e. g. by line discontinuities)in waveguide mode(E or H Modes)and can lead to irregularities. As an approximate calculation of the cutoff wavelength λc for other wave types in addition to the Lecher wave, the following equation is valid for the ratio d/D >0.2(D=diameter of the outer conductor and d=diameter of the inner conductor of the coaxial cable). π λc ≈ — (d+D)[ H11 ] 2 λc ≈ (D-d)[ E01 ] Phase speed The phase speed Vph is the speed with which a voltage phase relationship is propagated on a transmission line. It is equal to the ratio of the angular frequencyΩ=2πf and the phase constant β. It corresponds to the group velocity V gr for the Lecher or, on coaxial lines, TEM(Transversal Electro-Magnetic) waves and is the determinative velocity for the transmission of information. Propagation constant - γ The propagation constant describes the longitudinal wave propagation along a conductor. Together with the => characteristic impedance, it permits the calculation of the current and voltage distribution on the conductor and their transformation characteristics. Relatively simple => line equations can be stated for the special case of coaxial cables which represent the gradient of the Typical examples are coaxial cross section 3/7(N connector) coaxial cross section 7/16(7/16 connector) f c≈19 GHz f c≈8.3GHz voltage and current along the line as a function of the primary => transmission line constant(=> propagation constants per unit length)namely resistance per unit length R’, electrical conductance per unit length G’, capacitance per unit length C’ and the inductance per unit length L’. The propagation constant Multiple reflections As a general rule, most transmission lines do not have ideal terminations without reflections at both ends of the line. The waves that throughout the transmission system are reflected both at the input and the output ends are propagated. By this means, repeatedly reflected waves are propagated that superimpose themselves on the primary waves. Continuous new reflections finally cause a resulting multiple reflection wave. γ is given with => attenuation constant α and => phase constant β. γ= α+ j β The attenuation constant α is zero for zero-loss lines. Rated voltage Maximum voltage that can be continuously applied to a connector, a cable or any other electrical component without causing a permanent change to the technical parameters or even the destruction of the component. No-load impedance =>Input impedance of a line that is open at the remote end. Phase constant The imaginary component of the => propagation constant γ is designated as phase constant β. It indicates the gradient of the current and voltage phases as a function of the transmission line length. For relatively low-loss lines, where G’ <<ωC’(C’ capacitance per unit length)and R’ <<ωL’(L’ inductance per unit length), the equation gives a real value for the phase constant that is solely dependent on the line constants and the frequency. 5 Technical Basics Technical Basics 6 Reflection coefficient The ratio of the voltage returning from the load to the voltage supplied by the generator and measured at the terminating resistance is defined as the complex reflection coefficient. In the same manner, a definition based on the transmitted and reflected currents is also possible. The reflection coefficient is therefore related to the complex characteristic (Z-Z0) r = ——— (Z+Z0) Impedance Z 0 of the transmission line and the complex => termination resistance Z by the equation The values for the => voltage standing wave ratio and the => inverse voltage standing wave ratio can be calculated from the value of the reflection coefficient. As a practical example a reflection coefficient is named here resulting from the connection of a 50Ω connector with a 75Ω connector, which is quite possible with many connectors, e. g. a BNC, whether intended or not: (75-50) r = ——— = 0.2 (75+50) corresponding to a voltage standing wave ratio(VSWR)s=1.5 and an inverse voltage standing wave ratio m=0.67. Skin effect Alternating current do not uniformly occupy the entire cross section of the conductor, rather inductance effect in the conductor deflects the current towards the surface of the conductor, whereby this deflection increases with the frequency. The resistive attenuation of a transmission line increases with the frequency as a result of this skin effect. The skin depth(equivalent thickness of the layer in which current flows)can be determined using. 1 δ = ——— fπσμ0μr Where f σ = frequency = conductivity of the conductor material σAg = 62×106 S/m σCu = 58×106 S/m σ0 = 1,256 10-6 Vs/Am μr = relative permeability constant for the employed material Smith chart Representation of the complex plane of the => reflection coefficient within the restrictions of the unit circle. This contains lines of constant real components and constant imaginary components of complex resistances, each normalized respectively to the => characteristic impedance. Resistance transformations on transmission lines and corresponding matching circuits can be calculated relatively easily using the Return loss coefficient Logarithmic measure for => reflection coefficient α =-20log(r) Smith chart. => Line transformer. TEM wave Transversal Electro-Magnetic waves possess electrical and magnetic field components that lie exclusively in one plane that is transversal(vertical)to the propagation direction. No components exist in the propagation direction. The fundamental waves capable of propagation on => twin-wine lines(e.g. coaxial lines)are of the TEM type. Shielding Shielding structures made from various metals or combinations of metals(housing, braids, foil tape, etc. )are employed to minimize the influence of electrical and magnetic fields on electronic modules, components and circuits. The effectiveness of the shielding is dependent upon the quality and impermeability of the protective measures and the type of materials => transfer impedance. Test voltage The maximum voltage to which a component(e.g. connector)may be subjected under defined environmental conditions(temperature, atmospheric pressure)for a specified time without causing its destruction. Short circuit impedance => Input impedance of a line with a short circuit at the remote end. the portion of the electromagnetic wave carried down the coaxial cable that is radiated through the outer conductor. transmission line according to the equation (1+|r|) s = ——— (1-|r|) 7 Technical Basics . resistance per unit length R’. The value of s is linked with the => reflection coefficient r on a Transmission line constants The transmission line constants are the characters parameters of a transmission line. e. The reciprocal value of the VSWR is known as the inverse voltage standing wave ratio m(where 0≤m≤1). The connection points of the connector to the coaxial cable cause additional transfer impedance which increases approximately proportional to the frequency. and the secondary transmission line constants => characteristic impedance Z and the => propagation constant γ. VSWR (Voltage standing wave ratio) The ratio between the value of the largest and the smallest voltages on a loss-free line is known as the ripple or voltage standing wave ratio s(where 1≤s≤∞). lines which represent the gradient of the voltage and current along the line as a function of the primary => transmission line constants. transfer impedance per unit length. The specification of the specific transfer impedance i. cable.Transfer impedance The design of the outer conductor of coaxial cables is responsible for the shielding effect. and the electrical conductance per unit length G’). Special attention should be paid to the correct and low-inductance layout of these connection points. Relatively simple => line equations can be stated for two-wire A high frequency system consisting of cables with respective connectors is more impermeable when the transfer impedance of the system or its individual components is small at a comparable frequency. Transmission equations Using the transmission equations. mutually insulated conductors.g. ranging from a parallel conductor type cable to a concentric coaxial cable. The technical can vary considerably.e. The transfer impedance Z k of a section of line(e. is meaningful for coaxial cables. If the frequency is sufficiently high. i.g Measurement of the degree of transmission of a signal through a two port network: ratio of the transmitted wave voltage amplitudes to the wave at the input to the two port network. Two-wire line The most common type of electrical cable consists of two individual. Its impermeability. The most common wave mode encountered on a two-wire line is the Lecher wave(=> TEM mode). resistance per unit length C’ and the inductance per unit length L’. This possesses only transverse electrical or magnetic field components but none in the direction of propagation. The propagation of this type of wave on a line is possible for all wavelengths. this causing disturbances to the basic Lecher wave. Transmission coefficient . the current and voltage profiles on the line can be calculated as a function of the => transmission line constants(characteristic impedance and propagation constant)as well as the frequency and line length. and the following generally apply: R’<<ωL’ and G’<<ωC’ so that a real frequency-independent parameter Z0 results for the => characteristic impedance. R’ and G’ are small for the low-loss two-wire lines normally employed. special Type E or Type H waves can be propagated. is defined by the transfer impedance. a differentiation is made between the primary specific transmission line constants(capacitance per unit length L’. This characteristic impedance is solely dependent on the geometric dimensions of the line and the employed dielectric. connector)is defined as the quotient of the voltage difference measured between the ends if the outer conductor of the line section and the current flowing in the inner conductor. so that practical designs of two-wire lines and components can be quite simply dimensioned on this basis. Various propagation modes are possible. At frequencies higher than the cutoff frequency(that is dependent upon the geometry of the waveguide). Waveguides waves(mostly undesirable)can also stimulated and propagated in a coaxial cable. The most commonly used waveguides possess rectangular. The fundamental wave of a waveguide is the natural wave with the lowest cutoff of propagation. At frequencies below the cutoff frequency. 2π λ=— β mit(β = phase constant) β = ω L'C' or c0 λ=— f 1 c0 = —— = 2. the wave represents a critically damped field. The transmission characteristics of a waveguide are comparable to a high-pass. circular or elliptical cross-sections. Wavelength Local period duration of an oscillation.Technical Basics 8 Waveguide Waveguides are hollow tubes of variable dimensions with electrically conducting walls. the electromagnetic wave is propagated in a longitudinal direction. 997925×108 m/s ε0μ0 co=Velocity of light in a vacuum . in which electromagnetic waves can propagate in an axial direction. The mode range dictated by the geometry of the coaxial line must be carefully considered during design. The mono mode range of a waveguide defines the frequency range for which there is only one wave in the waveguide that is capable of propagation. 4+20Logf+20Logd +C(additional loss) f is frequency MHz d is distance km C is 99% coverage additional loss dB Edge RX level: P=Pt+Gt-Lt Pt – is output power of antenna port – dBm Gt is antenna gain—dB 9 Technical Basics . An n! EB = ———— χ n A χ! Σ χ=0 n is the number of trunks or servicing channels. The traffic is measured in Erlangs. and other traffic-carrying facilities required when such facilities are arranged in full-availability groups. during the busy hour. • In mobile telephony. typically 2 to 5%. — Proportion of blocked calls due to congestion. Erlang B equation Used to determine the number of trunks. • Grade of service (GOS) expresses the probability of meeting channels (trunks) required to the erlang congestion. C×T Traffic. the cost of a traffic channel and the restriction on radio spectrum call for a higher rate. Number of lost calls Grade of service = ——————————— Number of offered calls • In land-line telephone. • The traffic offered per subscriber is determined by: — calling rate (C) in calla/hour — holding time (T) in seconds • The product of C and T gives the amount of traffic offered by a subscriber during the busy hour.Inbuilding Coverage System Features System performance after in building RF distribution system installation • Ensure success telecom communication in all elevators • Telephone call success rate shall be above 98% • Call drop rate should be better than 1% in the acceptance test • HO success rate at building gate shall be above 99% • No spillage will occur and no cell re-selections & hand over between target area and outside Grade of service Performance for each system GSM900 • DL Rx level (dBm)≥-75 • DL Rx quality(0-2)≥98% • C/(N+I)>20dB area not less than 95% of all area • Coverage area not less than 99% all area • Call success rate>98% • Call drop rate <1% GSM1800 • DL Rx level(dBm)≥-75 • DL Rx quality(0-2)≥98 • DL Rx quality(0-4)≥99% • C/(N+I)>20dB area not less than 95% of all area • Coverage area not less than 99% all area • Call success rate>98% • Call drop rate<1% UMTS • CPICH RSCP≥-95dbm in 95% area • CPICH Ec/I o≥-15 dB • Coverage area not less than 99% all area Where • Number of load during the busy hour depends on: — Efficiency of trunk usage of higher return revenue. or blocking. EB is the grade of service using the Erlang B formula Link analysis The IBS downlink budget calculation is base on free space propagation plus additional loss Lt=32. Definition of traffic • Traffic demands and the desired system performance must be determined in order to estimate the system resources required. GOS is well below 1%. A = —— Erlangs 3600 • A expresses how large part of time a subscriber is busy using the system. A is the mean offered traffic (in Erlangs). switches. such as GSM. various mobile wireless networks are deployed. DCS. Filter. . CDMA. Netop S-Optsite solution offers a total package of antenna feeder subsystems including Base Station Antenna(BSA). WiFi and 3G. Our strong R&D team has expertise in all RF related and digital signal processing. All integrated products and components with advanced signal processing can be used individually or together to improve network performance. Diplexer and Triplexer – a one stop shop for site applications. Tower Mounted Amplifier(TMA).Network Optimization Solution With the development of modern wireless communication technology. We can guarantee the whole system meets performance guidelines while being cost-effective and meeting flexible configurations. The Outdoor RF environment is more congested and system interference poses greater challenges to overall network performance. Content TMA ---------------------------------------------------.16 .12 Combiner --------------------------------------------.14 Filter --------------------------------------------------. hence increasing network revenue. reduce dropped calls.TMA TMA 12 TMAs will increase successful call rates. maximize data transmission rate. DCS1800 and WCDMA2100 • Lightning protected • High reliability • Improved base station sensitivity • Simple installation . low weight • Dual duplexer • High linearity and low noise performance • Compatible with EGSM900. improve call quality and therefore extend handset battery life. Main Features • Compact. Quality improvements will lead to increased traffic volume and user satisfaction. Downlink DTA-09-DF-01 Frequency range Passband Insertion Input max power per port Intermodulation products in Rx band Return loss 925-960MHz 35MHz <0.6dB/25℃ Typ:2.5dB <180W(+52.4dB >-5dBm >7dBm <-18dB(normal mode) <-15dB(bypass mode) 13 TMA 2110-2170MHz .8dB/55℃ >-5dBm >7dBm <-18dB(normal mode) <-15dB(bypass mode) DTA-18-DF-01 1710-1785MHz 75MHz 12±1dB(-40℃~+55℃) <2.5dBm) CW <1600W(+62dBm) Peak <-117dBm(2 Tx carriers at +43dBm) <-18dB DTA-18-DF-01 1805-1880MHz 75MHz <0.5dB(bypass mode) Typ:1.1dB/55℃ >-5dBm >7dBm <-18dB(normal mode) <-15dB(bypass mode) DTA-21-DF-01 1920-1980MHz 60MHz 12±1dB(-40℃~+55℃) <2.5dBm) CW <1600W(+62dBm) Peak <-117dBm(2 Tx carriers at +43dBm) <-18dB Uplink DTA-09-DF-01 Frequency range Passband Gain(normal mode) Insertion(bypass mode) Noise figure Input P1dB IIP3 Return loss 880-915MHz 35MHz 12±1B(-40℃~+55℃) <2dB(bypass mode) Typ:1.5dB(bypass mode) Typ:1.5dB <180W(+52.5dB <180W(+52.4dB/25℃ Typ:1.5dBm) CW <1600W(+62dBm) Peak <-117dBm(2 Tx carriers at +43dBm) <-18dB DTA-21-DF-01 60MHz <0. COMBINER Combiner 14 • Suitable for co-siting purposes • Reduces infrastructure costs • Enables feeder sharing • Suitable for indoor or outdoor applications • Available as a single unit.5kg CB-2-DU-DF-02 1710-1880MHz 1920-2170MHz 0.3dB for DCS 0.5kg .3dB for DCS 0. or for Xpol antennas as a double unit • Can be used as a combiner or in reciprocal function • Wall or mast mounting • Low insertion loss • DC stop available as an accessory Main Features • High rejection • Low PIM • Low insertion loss • High isolation • Compact.3dB for UMTS 50dB <-20dB <-153dBc@2x43dBm 50Ω 7/16 Female 150W -40℃~+65℃ 0 to 95% 1 pce in box 230x180x65mm <3.3dB for UMTS 80dB <-20dB <-153dBc@2x43dBm 50Ω N Female 100W -40℃~+85℃ 0 to 95% 1 pce in box 230x145x55mm <3. low weight • High reliability Part Number Frequency DCS Frequency UMTS Insertion loss Isolation Return loss PIM Impedance Connectors type Power Temperature range Relative humidity Packing Dimensions Weight CB-2-DU-NF-01 1710-1880MHz 1920-2170MHz 0. 6dB for WLAN 80dB between any two bands <-20dB <-140dBc@2x43dBm 50Ω N Female 100W -25℃~+65℃ 0 to 95% 1 pce in box 200x160x64mm <3.7dB for UMTS 0.3dB for UMTS 60dB GSM to DCS/ GSM to UMTS 50dB DCS to UMTS 50dB UMTS to DCS <-20dB <-153dBc@2x43dBm 50Ω 7/16 Female 150W -40℃~+65℃ 0 to 95% 1 pce in box 230x200x64mm <3.6dB for WLAN 0.2dB for GSM 0.5dB for UMTS 0.3dB for UMTS 60dB GSM to DCS/ GSM to UMTS 45dB DCS to UMTS 35dB UMTS to DCS <-20dB <-153dBc@2x43dBm 50Ω 7/16 Female 100W -40℃~+65℃ 0 to 95% 1 pce in box 220x160x64mm <3.2dB for GSM 0.3dB for DCS 0.Part Number Frequency GSM Frequency DCS Frequency UMTS Insertion loss CB-3-GDW-DF-01 806-960MHz 1710-1880MHz 1920-2170MHz 0.5kg Rejection Return loss PIM Impedance Connectors type Power Temperature range Relative humidity Packing Dimensions Weight Part Number Frequency GSM Frequency DCS Frequency UMTS Frequency WLAN CB-4-GDWL-NF 880-960MHz 1710-1880MHz 1920-2170MHz 2400-2500MHz 0.5dB for DCS 0.55kg Insertion loss Ripple in band Rejection Return loss PIM Impedance Connectors type Power Temperature range Relative humidity Packing Dimensions Weight 15 Combiner .3dB for DCS 0.7dB for DCS 0.3dB for GSM 0.5kg CB-3-GDW-DF-02 806-960MHz 1710-1880MHz 1920-2170MHz 0.2dB for GSM 0. 5-898.FILTER Filter 16 • Suitable for indoor or outdoor applications • Available as a single unit. low weight • Low insertion loss • High rejection • High PIM • High reliability • Simple installation Part Number Frequency range Insertion loss FT-09-DF-05 897.0dB@897. or for Xpol antennas as a double unit • Wall or mast mounting • Low insertion loss • DC stop available as an accessory • Dielectric technology to achieve high rejection in narrow bandwidth Main Features • Compact.5MHz ≤0.5-915MHz.5-960MHz ≤1. 935-960MHz ≥45dB@≤894MHz ≥35dB@≥965MHz <-18dB <-150dBc@2x43dBm 50Ω 7/16 Female 250W -10℃~+65℃ 0 to 95% 1 pce in box 365x235x70mm Rejection Return loss PIM Impedance Connectors type Power Temperature range Relative humidity Packing Dimensions .5dB@898. 2MHz <2.0dB >30dB@2110-2170MHz FT-08-5.2 50Ω SMA Female -10℃~+65℃ 0 to 95% FT-G1-101 880-915MHz <1.2 50Ω SMA Female -10℃~+65℃ 0 to 95% Part Number Frequency range Insertion loss Rejection Return loss VSWR Impedance Connectors Temperature range Relative humidity FT-W1-101 1920-2060MHz <1.0dB >[email protected] 50Ω SMA Female -10℃~+65℃ 0 to 95% 50Ω N-Female -40℃~+85℃ 0 to 95% 17 Filter .0-840MHz <-18dB <1.6-829.4-NF(Dielectric) 824.Part Number Frequency range Insertion loss Rejection VSWR Impedance Connectors Temperature range Relative humidity FT-C1-101 824-851MHz <1.0dB >40dB@869-896MHz <1.0MHz >[email protected] >30dB@925-960MHz <1. 3G and even Wimax. POIs. Netop offers a multi-system coverage solution that can integrate different frequency signals from different operators via the application of a Point of Interconnection (POI) with low insertion loss. such as GSM. The signal out of the POI is then further distributed to a common DAS. DCS1800. . GSM900. CDMA. various mobile wireless networks are deployed. in-building and decorative antennas as well as WiFi coverage systems will be tailored to the comprehensive applications required by our customers.Network Optimization Solution In the early days of mobile communications. All Netop IBS products can operate in the range of either 800MHz to 2500MHz or 800MHz to 2700MHz. there was only outdoor coverage. the frequency range of all components must meet the frequency requests of all the input carriers. WiFi. With the development of modern wireless communication technology. In this chapter. IBS thoroughly improves mobile communication quality in-building. To ensure the multisystem coverage operates normally. WiFi and 3G. passive components. These ranges are compatible with CDMA800. the total IBS package including repeaters. DCS. The indoor signal coverage is becoming much more complicated. In-building coverage system (IBS) is proposed as it can uniformly distribute signals throughout the entire building to cover blind spots and weak signal areas. Today more and more sophisticated mobile services are required not only in outdoor environments but also in indoor environments. 65 WiFi Products --------------------------------------.Content Line Amplifier and Repeater -------------------.63 Passive Components ----------------------------.20 POI ---------------------------------------------------.76 .73 IBS Antenna ----------------------------------------. skyscrapers and underground environments. Line Amplifier and Repeater 20 Main Features • Adjustable attenuation range of 31dB at 1dB per step • Advanced digital controlled band selection to ensure high output of band rejection • Highly stable power design. especially to hotels.LINE AMPLIFIER Line amplifiers are devices to amplify signals bi-directionally and the downlink circuit is band-selective. The series has the capabilities of being remote monitored and alert reporting. which contains signal uncovered sites due to topographical condition or obstructive buildings. to work normally even in very tough power environments • ALC technology to maintain stable signal in coverage areas . It is able to detect system failure by itself. It can provide wireless service to the area. supermarkets. restaurants. 98MHz Downlink 33/37/40dBm 55dB Spurious emission Transmission delay Impedance RF connector type Power supply Power consumption rating Temperature range Relative humidity Applications Standard Dimensions(H×W×D) Weight Part Number SLAM-33-08-NF SLAM-37-08-NF SLAM-40-08-NF Downlink Output Power 33dBm 37dBm 40dBm 21 Line Amplifier and Repeater 870-880MHz .5 ≤3 . ±750kHz ≤-65dBc/30kHz.5μs 50Ω N Female AC170-260V <70W -5℃~+45℃ 0 to 95% Indoor 1 Pce in box 460x351x146mm <15Kg ≤-45dBc/30kHz. ±1.CDMA800 Line Amplifier Uplink Frequency range Output Power Gain Gain control range&step VSWR Ripple in band Noise figure Intermodulation(3rd order) Adjacent channel power ratio 9KHz-1GHz 1GHz-12.75GHz 825-835MHz 5dBm 55dB ≥30dB(1dB/step) ≤1.0dB ≤-40dBc ≤-42dBc/30kHz. ±900kHz ≤-59dBc/30kHz. ±1.98MHz ≤-36dBm ≤-30dBm ≤1.0dB ≤6. 0dB ≤6.GSM900 Line Amplifier Uplink Frequency range Output power Gain Gain control range&step VSWR Ripple in band Noise figure Intermodulation(3rd order) ALC control Max. 24V±10% 0℃~+45℃ 0 to 95% Indoor 1 Pce in box 460x350x150mm <15Kg 30/33/37/40dBm±2dB or shut down Downlink 935-960MHz 30/33/37/40dBm 55dB Line Amplifier and Repeater 22 Part Number SLAM-30-09-NF SLAM-33-09-NF SLAM-37-09-NF SLAM-40-09-NF Downlink Output Power 30dBm 33dBm 37dBm 40dBm . non-destructive input power Spurious emission Transmission delay Impedance RF connector type Power supply Temperature range Relative humidity Applications Standard Dimensions(H×W×D) Weight 9KHz-1GHz 1GHz-12.75GHz 890-915MHz 5dBm 55dB ≥20dB(1dB/step) ≤1.5 ≤3 .0dB ≤-40dBc 5dBm±2dB or shut down 13dBm ≤-36dBm ≤-30dBm ≤1.5μs 50Ω N Female AC220V±20% 45-55Hz or DC-48V±10%. 5 ≤3 .0dB ≤5.GSM1800 Line Amplifier Uplink Frequency range Output power Gain Gain control range&step VSWR Ripple in band Noise figure Intermodulation(3rd order) ALC control Spurious emission Transmission delay Impedance RF connector type Power supply Power consumption rating Temperature range Relative humidity Applications Standard Dimensions(H×W×D) Weight 9KHz-1GHz 1GHz-12.0μs 50Ω N Female AC170-260V <90W -5℃~+45℃ 0 to 95% Indoor 1 Pce in box 460x351x146mm <15Kg 27/30/33/37/40dBm±2dB or shut down Downlink 27/30/33/37/40dBm 55dB Part Number SLAM-27-18-NF SLAM-30-18-NF SLAM-33-18-NF SLAM-37-18-NF SLAM-40-18-NF Downlink Output Power 27dBm 30dBm 33dBm 37dBm 40dBm 23 Line Amplifier and Repeater 1805-1880MHz .75GHz 1710-1785MHz 5dBm 55dB ≥20dB(1dB/step) ≤1.0dB ≤-40dBc 5dBm±2dB or shut down ≤-36dBm ≤-30dBm ≤1. 50Hz±10% ≤100W -5℃~+45℃ 0 to 95% Indoor 1 Pce in box 460x351x146mm <15Kg 40dBm±2dB or shut down Downlink 2110-2170MHz 40dBm 50dB Spurious emission Transmission delay Impedance RF connector type Power supply Power consumption rating Temperature range Relative humidity Applications Standard Dimensions(H×W×D) Weight .5 ≤2 .84MHz ≤6.75GHz SLAM-40-21-NF Uplink 1920-1980MHz 5dBm 50dB ≥20dB(1dB/step) ≤1.5% ≤-35dB ≥45dBc@5MHz ≥50dBc@10MHz ≤-36dBm ≤-30dBm ≤1.5μs 50Ω N Female AC220V±20%.WCDMA Line Amplifier Part Number Line Amplifier and Repeater 24 Frequency range Output power Gain Gain control range&step VSWR Ripple in band Noise figure ALC control Max. non-destructive input power Error vector magnitude Peak code domain error Adjacent channel leakage ratio 9KHz-1GHz 1GHz-12.0dB 5dBm±2dB or shut down -10dBm ≤12.0dB@3. 0dB ≤-45dBc 0dBm±2dB or shut down ≤-36dBm ≤-30dBm ≤1.0dB ≤5.5 ≤3. 50Hz±10% ≤180W -25℃~+55℃ 0 to 95% IP65 1 Pce in box 610x445x215mm/670x420x230mm <35Kg 40dBm±2dB or shut down Downlink 935-960MHz 33/37/40dBm ≥45dB DCS Uplink 1710-1785MHz 0dBm ≥45dB ≥20dB(1dB/step) ≤1.0dB ≤-45dBc 0dBm±2dB or shut down ≤-36dBm ≤-30dBm ≤1.5 ≤3.0dB ≤5.5μs 40dBm±2dB or shut down Downlink 1805-1880MHz 33/37/40dBm ≥45dB Part Number SLAM-33-0918-NF SLAM-37-0918-NF SLAM-40-0918-NF Downlink Output Power 33dBm 37dBm 40dBm 25 Line Amplifier and Repeater .Dual band Line Amplifier --GSM&DCS Line Amplifier Part Number Frequency range Output power Gain Gain control range&step VSWR Ripple in band Noise figure Intermodulation(3rd order) ALC control Spurious emission Transmission delay Impedance RF connector type Power supply Power consumption rating Temperature range Relative humidity Applications Standard Dimensions(H×W×D) Weight 9KHz-1GHz 1GHz-12.75GHz GSM Uplink 890-915MHz 0dBm ≥45dB ≥20dB(1dB/step) ≤1.5μs 50Ω N Female AC220V±20%. 0dB ≤5.0dB ≤5 .0dB ≤-40dBc 0dBm±2dB or shut down ------------------≤-36dBm ≤-30dBm ≤1.0dB ≤-40dBc 0dBm±2dB or shut down ≤12.5 ≤3 .5% ≤-35dB ≥45dBc@5MHz ≥50dBc@10MHz ≤-36dBm ≤-30dBm ≤1.5μs 40dBm±2dB or shut down Downlink 2110-2170MHz 33/37/40dBm ≥40dB Line Amplifier and Repeater 26 Spurious emission Transmission delay Impedance RF connector type Power supply Power consumption rating Temperature range Relative humidity Applications Standard Dimensions(H×W×D) Weight Part Number SLAM-33-0921-NF SLAM-37-0921-NF SLAM-40-0921-NF Downlink Output Power 33dBm 37dBm 40dBm .5 ≤3 .5μs 50Ω N Female AC220V±20%.75GHz GSM Uplink 890-915MHz 0dBm ≥40dB ≥20dB(1dB/step) ≤1.Dual band Line Amplifier --GSM&WCDMA Line Amplifier Part Number Frequency range Output power Gain Gain control range&step VSWR Ripple in band Noise figure Intermodulation(3rd order) ALC control Error vector magnitude Peak code domain error Adjacent channel leakage ratio 9KHz-1GHz 1GHz-12. 50Hz±10% ≤180W -25℃~+55℃ 0 to 95% IP65 1 Pce in box 610x445x215mm/670x420x230mm <35Kg 40dBm±2dB or shut down Downlink 935-960MHz 33/37/40dBm ≥40dB WCDMA Uplink 1920-1980MHz 0dBm ≥40dB ≥20dB(1dB/step) ≤1. 0dB ≤5 .Dual band Line Amplifier --DCS&WCDMA Line Amplifier Part Number Frequency range Output power Gain Gain control range&step VSWR Ripple in band Noise figure Intermodulation(3rd order) ALC control Error vector magnitude Peak code domain error Adjacent channel leakage ratio 9KHz-1GHz 1GHz-12.0dB ≤5.0dB ≤-40dBc 0dBm±2dB or shut down ------------------≤-36dBm ≤-30dBm ≤1.5 ≤3 .0dB ≤-40dBc 0dBm±2dB or shut down ≤12.5 ≤3 .5μs 40dBm±2dB or shut down Downlink 2110-2170MHz 33/37/40dBm ≥40dB Spurious emission Transmission delay Impedance RF connector type Power supply Power consumption rating Temperature range Relative humidity Applications Standard Dimensions(H×W×D) Weight Part Number SLAM-33-1821-NF SLAM-37-1821-NF SLAM-40-1821-NF Downlink Output Power 33dBm 37dBm 40dBm 27 Line Amplifier and Repeater .5μs 50Ω N Female AC220V±20%.75GHz DCS Uplink 1710-1785MHz 0dBm ≥40dB ≥20dB(1dB/step) ≤1. 50Hz±10% ≤200W -25℃~+55℃ 0 to 95% IP65 1 Pce in box 610x445x215mm/670x420x230mm <35Kg 40dBm±2dB or shut down Downlink 1805-1880MHz 33/37/40dBm ≥40dB WCDMA Uplink 1920-1980MHz 0dBm ≥40dB ≥20dB(1dB/step) ≤1.5% ≤-35dB ≥45dBc@5MHz ≥50dBc@10MHz ≤-36dBm ≤-30dBm ≤1. and shops etc. These places are originally blocked by structures and obstacles. Line Amplifier and Repeater 28 Main Features • Adjustable gain • Fixed band • Automatic level control • Low power consumption • Cost effective . so it can provide excellent solution for the situation of poor signal coverage or blind area. Netop pico repeaters allow both the interface with donor BTS and coverage of the confined area by using separate antennas without any extra interconnection with the Operator Networks. malls.PICO REPEATER Pico Repeater amplifies signals from mobile phones and base stations. It’s ideal repeater for modern indoor coverage environments. Pico repeater can be applied in car parking lots. offices. CDMA800 Pico Repeater Uplink Frequency range Output power max Gain ALC control Gain control range&step Noise figure Transmission delay Intermodulation 3rd order Spurious emission Impedance Connector Power supply Power consumption rating Operating temperature Applications Humidity Packing Dimension Weight 9KHz-1GHz 1GHz-12.5 Kg Downlink 10/15/17dBm 60dB Part Number RB-10-08-NF/SF RB-15-08-NF/SF RB-17-08-NF/SF Downlink Output Power 10dBm 15dBm 17dBm 29 Line Amplifier and Repeater 870-880MHz .75GHz 825-835MHz 10/10/10dBm 60dB 20dB 31dB±2dB(1dB/step) ≤6dB ≤5μS -40dBc ≤-36dBm ≤-30dBm 50Ω N or SMA type. Female AC220V±30% 50Hz±10% ≤10 W -30℃~+55℃ Indoor use 0 to 95% 1 Pce in box 175x121x24mm ≤1. GSM900 Pico Repeater Uplink Frequency range Output power max Gain ALC control Gain control range&step Noise figure Transmission delay Intermodulation 3rd order Spurious emission Impedance Connector Power supply Power consumption rating Operating temperature Applications Humidity Packing Dimension Weight 9KHz-1GHz 1GHz-12.75GHz 890-915MHz 10/10/10dBm 60dB 20dB 31dB±2dB(1dB/step) ≤6dB ≤5μS -40dBc ≤-36dBm ≤-30dBm 50Ω N or SMA type. Female AC220V±30% 50Hz±10% ≤10W -30℃~+55℃ Indoor use 0 to 95% 1 Pce in box 175x121x24mm ≤1.5Kg Downlink 935-960MHz 10/15/17dBm 60dB Line Amplifier and Repeater 30 Part Number RB-10-09-NF/SF RB-15-09-NF/SF RB-17-09-NF/SF Downlink Output Power 10dBm 15dBm 17dBm . Female AC220V±30% 50Hz±10% ≤10W -30℃~+55℃ Indoor use 0 to 95% 1 Pce in box 175x121x24mm ≤1.75GHz 1710-1785MHz 10/10/10dBm 60dB 20dB 31dB±2dB(1dB/step) ≤6dB ≤5μS -40dBc ≤-36dBm ≤-30dBm 50Ω N or SMA type.DCS1800 Pico Repeater Uplink Frequency range Output power max Gain ALC control Gain control range&step Noise figure Transmission delay Intermodulation 3rd order Spurious emission Impedance Connector Power supply Power consumption rating Operating temperature Applications Humidity Packing Dimension Weight 9KHz-1GHz 1GHz-12.5 Kg Downlink 10/15/17dBm 60dB Part Number RB-10-18-NF/SF RB-15-18-NF/SF RB-17-18-NF/SF Downlink Output Power 10dBm 15dBm 17dBm 31 Line Amplifier and Repeater 1805-1880MHz . WCDMA2100 Pico Repeater Uplink Frequency range Output power max Gain ALC control Gain control range&step Noise figure Transmission delay Intermodulation 3rd order Spurious emission Impedance Connector Power Supply Power Consumption Rating Operating Temperature Applications Humidity Packing Dimension Weight 9KHz-1GHz 1GHz-12. Female AC220V±30% 50Hz±10% ≤10 W -30℃~+55℃ Indoor use 0 to 95% 1 Pce in box 175x121x24mm ≤1.5 Kg Downlink 2110-2170MHz 10/15/17dBm 60dB Line Amplifier and Repeater 32 Part Number RB-10-21-NF/SF RB-15-21-NF/SF RB-17-21-NF/SF Downlink Output Power 10dBm 15dBm 17dBm .75GHz 1920-1980MHz 10/10/10dBm 60dB 20dB 31dB±2dB(1dB/step) ≤6dB ≤5μS -40dBc ≤-36dBm ≤-30dBm 50Ω N or SMA type. special cabinets. Uses a pick up(donor) antenna to receive the radio signal from a donor cell and amplify the signal.BAND SELECTIVE REPEATER Band selective repeater works as a bi-directional amplifier to increase the signal between the Mobile Station and the Base Station. . then retransmit signal by the service antennas to the target coverage area. oversize battery backup or extra cooling • Advanced technology. flexibility and proven reliability • Modular design enables easy upgrade to additional bands at a relatively low cost • Reduced site rental costs Line Amplifier and Repeater 33 • Lower acquisition costs and lowest lifetime/operational costs . Main Features • Easy to install and small footprint with no need for expensive transmission lines. the variation of the output power can be controlled within 2dB or shut down repeater ≥30dB(1dB/step) ≤3dB ≤6dB ≤1.75GHz 825-835MHz 27/27/27/27dBm 85/85/85/90dB Downlink 870-880MHz 27/30/33/37dBm 85/85/85/90dB Line Amplifier and Repeater 34 When in max output power. 000 hours IP65 0 to 95% 351x 460x146mm ≤15Kg Part Number SLRB-27-08-NF SLRB-30-08-NF SLRB-33-08-NF SLRB-37-08-NF Downlink Output Power 27dBm 30dBm 33dBm 37dBm .CDMA800 Band Selective Repeater Uplink Frequency range Output power max Gain ALC control Gain control range&step Ripple in band Noise figure VSWR Transmission delay Intermodulation 3rd order Spurious emission Impedance Connector Power supply Power consumption rating Operating temperature MTBF Applications Humidity Dimension(H×W×D) Weight 9KHz-1GHz 1GHz-12. Female AC220V±30% 50Hz±10% ≤80W -25℃~+55℃ >50.5 ≤5μS -40dBc ≤-36dBm ≤-30dBm 50Ω N type. if increased 10dB input level. 5 ≤5μS ≤-36dBm ≤-30dBm ≤-36dBc ≥70dB 50Ω N type.75GHz 890-915MHz 27/27/27/27dBm 85/85/90/90dB 25MHz When in max output power. the variation of the output power can be controlled within 2dB or shut down repeater ≥30dB(1dB/step) ≤2.0dB ≤5. Female AC220V±30% 50Hz±10% or DC-48V ≤150W Defined in GB15842-1995 Defined in GB6833-87 +5℃~+40℃ ≤85% ≤650×500×300mm ≤30Kg Downlink 27/33/37/43dBm 85/85/90/95dB Part Number SLRB-27-09-NF SLRB-33-09-NF SLRB-37-09-NF SLRB-43-09-NF Downlink Output Power 27dBm 33dBm 37dBm 43dBm 35 Line Amplifier and Repeater 935-960MHz .GSM900 Band Selective Repeater Uplink Frequency range Output power max Gain Bandwidth ALC control Gain control range&step Ripple in band Noise figure VSWR Transmission delay Spurious emission IMD3 Out of band rejection (100K-4000MHz except for working band) Impedance Connector Power supply Power consumption rating Safety Electromagnetism compatibility Operating temperature Humidity Dimension(H×W×D) Weight 9KHz-1GHz 1GHz-12. if increased 10dB input level.0dB ≤1. 0dB ≤1. Female AC220V±30% 50Hz±10% or DC-48V ≤150W Defined in GB15842-1995 Defined in GB6833-87 +5℃~+40℃ ≤85% ≤650×500×300mm ≤30Kg Downlink 1805-1880MHz 27/33/37/43dBm 85/85/90/95dB Line Amplifier and Repeater 36 Part Number SLRB-27-18-NF SLRB-33-18-NF SLRB-37-18-NF SLRB-43-18-NF Downlink Output Power 27dBm 33dBm 37dBm 43dBm . if increased 10dB input level. the variation of the output power can be controlled within 2dB or shut down repeater ≥30dB(1dB/step) ≤2.DCS1800 Band Selective Repeater Uplink Frequency range Output power max Gain Bandwidth ALC control Gain control range&step Ripple in band Noise figure VSWR Transmission delay Spurious emission IMD3 Out of band rejection (100K-4000MHz except for working band) Impedance Connector Power supply Power consumption rating Safety Electromagnetism compatibility Operating temperature Humidity Dimension(H×W×D) Weight 9KHz-1GHz 1GHz-12.5 ≤5μS ≤-36dBm ≤-30dBm ≤-36dBc ≥70dB 50Ω N type.75GHz 1710-1785MHz 27/27/27/27dBm 85/85/90/90dB 25MHz When in max output power.0dB ≤5. 5% ≤-35dB ≥45dBc@5MHz ≥50dBc@10MHz ≤-15dBm/30KHz 9KHz-1GHz(Include 1GHz):-36dBm/30KHz 1GHz-12.960 ≤12.950 Out of band rejection Connector Power supply Power consumption rating Operating temperature Humidity Dimension(H×W×D) Weight Per band Part Number SLRB-27-21-NF SLRB-30-21-NF SLRB-33-21-NF SLRB-37-21-NF Downlink Output Power 27dBm 30dBm 33dBm 37dBm 37 Line Amplifier and Repeater 2110-2170MHz .WCDMA Band Selective Repeater Uplink Frequency range Output power max Gain ALC control Gain control range&step Ripple in band Noise figure VSWR Transmission delay Waveform quality Error vector magnitude Peak code domain error Adjacent channel leakage ratio In band Intermodulation Out of band 1920-1980MHz 27/27/27/27dBm 85/85/85/90dB Downlink 27/30/33/37dBm 85/85/85/90dB When in max output power. if increased 10dB input level.0dB ≤6.0dB ≤1. the variation of the output power can be controlled within 2dB or shut down repeater ≥30dB(1dB/step) ≤3.5MHz: ≤-40dB or ≤-13dBm/30KHz Δfc≥10MHz: ≤-60dB or ≤-33dBm/30KHz N type.5 ≤5μS ρ>0. Female AC220V±30% 50Hz±10% or DC-48V ≤150W +5℃~+40℃ ≤85% ≤650×500×300mm ≤30Kg ρ>0.75GHz:-30dBm/30KHz Δfc≥2. Uses a pick up(donor) antenna to receive the radio signal from a donor cell and amplify the signal. and works as a bi-directional amplifier to increase the signal between the Mobile Station and the Base Station. stable performance • Reduced site rental costs • Number of channels is customized .CHANNEL SELECTIVE REPEATER Channel selective repeater is capable of repeating only desired signals. then retransmit signal by the service antennas to the target coverage area. oversize battery backup or extra cooling • Advanced technology. special cabinets. Line Amplifier and Repeater 38 Main Features • Lower acquisition costs and lowest lifetime/operational costs • Easy to install and small footprint with no need for expensive transmission lines. thereby suppressing undesired interference and increasing network capacity. flexibility and proven reliability • Modular design enables easy upgrade to additional bands at a relatively low cost • High linear PA. GSM Channel Selective Repeaters Uplink Frequency range Output power max Gain Channel capacity(channels) ISelectivity ALC control Gain control range&step Ripple in band Noise figure VSWR Transmission delay Spurious emission IMD3 Out of band rejection(100K-4000MHz except for working band) Impedance Connector Power supply Power consumption rating Safety Electromagnetism compatibility Operating temperature Humidity Dimension(H×W×D) Weight 9KHz-1GHz 1GHz-12. the variation of the output power can be controlled within 2dB or shut down repeater ≥30dB(1dB/step) ≤2. if increased 10dB input level.5 ≤5μS ≤-36dBm ≤-30dBm ≤-36dBc ≥70dB 50Ω N type.75GHz -1dB middle frequency bandwidth -35dB middle frequency bandwidth 890-915MHz 27/27dBm 85/85dB 2/4/6/8 200KHz <1000KHz When in max output power. Female AC220V±30% 50Hz±10% or DC-48V ≤150W Defined in GB15842-1995 Defined in GB6833-87 +5℃~+40℃ ≤85% ≤650×500×300mm ≤30Kg Downlink 33/40dBm 85/90dB Part Number SLRC-27-09-NF SLRC-33-09-NF SLRC-37-09-NF SLRC-43-09-NF Downlink Output Power 27dBm 33dBm 37dBm 43dBm 39 Line Amplifier and Repeater 935-960MHz .0dB ≤1.0dB ≤5. WCDMA Channel Selective Repeaters Uplink Frequency range Output power max Gain Channel capacity(channels) Error vector magnitude Peak code domain error ACLR Gain control range&step Ripple in band Noise figure VSWR Transmission delay Connector 1920-1980MHz 27/27dBm 85/85dB 1-2 ≤12. ±10MHz≤-50dBc ≥25dB(1dB/step) ≤2.5 ≤5μS N type. 5MHz≤f-offset<35dB Power supply Power consumption Operating temperature Humidity Dimension(H×W×D) Weight 220 VAC+/.0dB ≤1. Female 2. 45-65Hz <135W -25℃~+55℃ ≤95% 435×575×165mm ≤30Kg Downlink 2110-2170MHz 33/37dBm 85/90dB Line Amplifier and Repeater 40 Part Number SLRC-33-21-02-NF SLRC-37-21-02-NF Downlink Output Power 33dBm 37dBm . 7≤f-offset<3. 5MHz<60dB Out-of-Band gain 3. 5≤f-offset<12. 5MHz<45dB 7. 5≤f-offset<7. 5MHz<45dB 12.20%.5% ≤-35dB ±5MHz≤-45dBc.0dB ≤5. wavelength division multiplexing can be utilized to allow the same fiber for both uplink and downlink. Optical fiber transmission up to 20km Line Amplifier and Repeater 41 • Suitable for large-scale indoor installation. Main Features • Integrated unit supporting multiple cellular standards • Laser technology with high linearity • Low noise and high reliability • Adjustable gain for link optimization • Combined fiber operation by using WDM • Full remote control of fiber optic repeaters • Easy commissioning with Windows based OMT software • Small optical transmitting loss. . The fiber optic repeater can distribute the received signal to the other co-located repeaters. Multiple nodes can be used with one master unit to facilitate large distribution systems. In order to reduce the number of fibers required by the system.FIBER OPTICAL REPEATERS The fiber otpical repeater distribution system is built up by a master unit and one or several master units. The system allows the master unit to be fed with a signal directly from the BTS. 1x500mm(19 inch 2U) 5Kg -10±3dB Downlink 870-880MHz Line Amplifier and Repeater 42 Part Number SLRO-27-08-NF(MU) SLRO-30-08-NF(MU) SLRO-33-08-NF(MU) SLRO-37-08-NF(MU) SLRO-40-08-NF(MU) SLRO-43-08-NF(MU) Downlink Output Power 0dBm 0dBm 0dBm 0dBm 0dBm 0dBm . +24V ≤15W >50000 hours 1 hour for CPU and remote control function 0℃~+45℃ 0 to 95% Indoor 1 Pce in box 482.5 ≤3dB 13dBm 50Ω N Female FC/APC DC–48V.CDMA800 Optical Fiber Repeater Master Unit Uplink Frequency range Output power(Optical) Optical return loss Length wave Optical distance link transmission Optical noise floor Gain Gain control range and step VSWR Ripple in band Max RF input power Impedance RF connector type Optical connector Power supply Power consumption rating MTBF Continuous working time for backup power Temperature range Relative humidity Applications Standard Dimensions(H×W×D) Weight 825-835MHz ≥0dBm ≤40dB 1310 and 1550nm WDM 100m to 18km ≤-132dBm/Hz(100m to 18km) -10±3dB ≥20dB(1dB/step) ≤1.6x88. 0dB ≤5.CDMA800 Optical Fiber Repeater Remote Unit Uplink Frequency range Output power(Optical) Optical return loss Output power(RF) Length wave Optical distance link transmission Optical noise floor Gain ALC control(plus 10dB input signal) Gain control range and step Reppile in band Noise figure VSWR Transmission delay Intermodulation(3rd order) Impedance RF connector type Optical connector Power supply Power consumption rating MTBF Temperature range Relative humidity Applications Mounted Standard Dimensions(H×W×D) Weight 825-835MHz ≥0dBm ≤40dB 27/30/33/37/40/43dBm 1310 and 1550nm WDM 100m to 18km ≤-132dBm/Hz(100m to 18km) 65±3dB 0dBm+2dB or shut down ≥20dB(1dB/step) ≤3. 50Hz±10% ≤120W >50000 hours -25℃~+55℃ 0 to 95% IP65 Wall or pole fixed 1 Pce in box 575x435x165mm 23Kg 65±3dB 27/30/33/37/40/43dBm+2dB or shut down Downlink Part Number SLRO-27-08-NF(RU) SLRO-30-08-NF(RU) SLRO-33-08-NF(RU) SLRO-37-08-NF(RU) SLRO-40-08-NF(RU) SLRO-43-08-NF(RU) Downlink Output Power 27dBm 30dBm 33dBm 37dBm 40dBm 43dBm 43 Line Amplifier and Repeater 870-880MHz .5 ≤5.0μs ≤-45dBc 50Ω N Female FC/PC AC220V±20%.0dB ≤1. 1x500mm 9Kg -10dB Downlink 930-960MHz Line Amplifier and Repeater 44 Part Number SLRO-33-09-NF(MU) SLRO-37-09-NF(MU) SLRO-40-09-NF(MU) SLRO-43-09-NF(MU) Downlink Output Power 0dBm 0dBm 0dBm 0dBm .6x88. 50Hz±10% or DC –48V ≤30W -25℃~+55℃ 0 to 95% Indoor 1 Pce in box 482.GSM900 Optical Fiber Repeater Master Unit Uplink Frequency range Output power(Optical) Length wave Optical distance link transmission Gain Gain control range and step VSWR Max RF input power Impedance RF connector type Optical connector Power supply Power consumption rating Temperature range Relative humidity Applications Standard Dimensions(H×W×D) Weight 885-915MHz +2dBm~+5dBm 1310 and 1550nm WDM 100m to 18km -8dB ≥20dB(1dB/step) ≤1.5 10dBm 50Ω N Female FC/APC AC220V±30%. 50Hz±10% or DC –48V ≤150W -25℃~+55℃ 0 to 95% 1 Pce in box 575x435x165mm 23Kg Intermodulation(3rd order) Impedance RF connector type Optical connector Power supply Power consumption rating Temperature range Relative humidity Standard Dimensions(H×W×D) Weight Part Number SLRO-33-09-NF(RU) SLRO-37-09-NF(RU) SLRO-40-09-NF(RU) SLRO-43-09-NF(RU) Downlink Output Power 33dBm 37dBm 40dBm 43dBm 45 Line Amplifier and Repeater 930-960MHz .0μS ≤-36dBm ≤-30dBm ≤-40dBc 50Ω N Female FC/PC AC220V±30%.75GHz 885-915MHz +2dBm~+5dBm 33/37/40/43dBm 1310 and 1550nm WDM 100m to 18km 50/60/63/63dB 50/60/65/65dB Downlink When in max output power. if increased 10dB input Level.0dB ≤1.0dB ≤5. the variation of the output power can be controlled within 2dB or shut down repeater ≥30dB(1dB/step) ≤3.5 ≤5.GSM900 Optical Fiber Repeater Remote Unit Uplink Frequency range Output power(Optical) Output power(RF) Length wave Optical distance link transmission Gain uplink ALC control Gain control range and step Reppile in band Noise figure VSWR Transmission delay Spurious emission 9KHz-1GHz 1GHz-12. 5 10dBm 50Ω N Female FC/APC AC220V±30%.1x500mm 9Kg -10dB Downlink 1805-1880MHz Line Amplifier and Repeater 46 Part Number SLRO-33-18-NF(MU) SLRO-37-18-NF(MU) SLRO-40-18-NF(MU) SLRO-43-18-NF(MU) Downlink Output Power 0dBm 0dBm 0dBm 0dBm .6x88. 50Hz±10% or DC –48V ≤30W -25℃~+55℃ 0 to 95% Indoor 1 Pce in box 482.DCS1800 Optical Fiber Repeater Master Unit Uplink Frequency range Output power(Optical) Length wave Optical distance link transmission Gain Gain control range and step VSWR Max RF input power Impedance RF connector type Optical connector Power supply Power consumption rating Temperature range Relative humidity Applications Standard Dimensions(H×W×D) Weight 1710-1785MHz +2dBm~+5dBm 1310 and 1550nm WDM 100m to 18km -8dB ≥20dB(1dB/step) ≤1. 0dB ≤5. if increased 10dB input Level.0dB ≤1.0μS ≤-36dBm ≤-30dBm ≤-40dBc 50Ω N Female FC/PC AC220V±30%. 50Hz±10% or DC –48V ≤150W -25℃~+55℃ 0 to 95% 1 Pce in box 575x435x165mm 23Kg Intermodulation(3rd order) Impedance RF connector type Optical connector Power supply Power consumption rating Temperature range Relative humidity Standard Dimensions(H×W×D) Weight Part Number SLRO-33-18-NF(RU) SLRO-37-18-NF(RU) SLRO-40-18-NF(RU) SLRO-43-18-NF(RU) Downlink Output Power 33dBm 37dBm 40dBm 43dBm 47 Line Amplifier and Repeater 1805-1880MHz . the variation of the output power can be controlled within 2dB or shut down repeater ≥30dB(1dB/step) ≤3.75GHz 1710-1785MHz +2dBm~+5dBm 33/37/40/43dBm 1310 and 1550nm WDM 100m to 18km 50/60/63/63dB 50/60/65/65dB Downlink When in max output power.5 ≤5.DCS1800 Optical Fiber Repeater Remote Unit Uplink Frequency range Output power(Optical) Output power(RF) Length wave Optical distance link transmission Gain uplink ALC control Gain control range and step Reppile in band Noise figure VSWR Transmission delay Spurious emission 9KHz-1GHz 1GHz-12. +24V±10% ≤25W 0℃~+45℃ 0 to 95% Indoor 1 Pce in box 482.1x500mm 9Kg Downlink 2110-2170MHz . 45-55Hz.6x88. or DC –48V±10%.WCDMA Optical Fiber Repeater Master Unit Part Number Line Amplifier and Repeater 48 Frequency range Output power(Optical) Length wave Optical distance link transmission Output power(RF) Gain control range and step VSWR Max RF input power Impedance RF connector type Optical connector Power supply Power consumption rating Temperature range Relative humidity Applications Standard Dimensions Weight SLRO-40-21-NF(MU) Uplink 1920-1980MHz ≥2dBm 1310 and 1550nm WDM 100m to 18km -10dBm ≥25dB(1dB/step) ≤1.5 13dBm 50Ω N Female FC/APC AC220±44V. 45-55Hz.WCDMA Optical Fiber Repeater Master Unit Part Number Frequency range Output power(Optical) Output power(RF) Length wave Optical distance link transmission Gain Gain control range and step ALC control Reppile in band Noise figure VSWR Transmission delay Error vector magnitude Peak code domain error Adjacent channel leakage ratio 9KHz-1GHz 1GHz-12. or DC –48V±10%.0dB ≤1. +24V±10% ≤120W -25℃~+55℃ 0 to 95% 1 Pce in box 575x435x165mm <23Kg Spurious emission Impedance RF connector type Optical connector Power supply Power consumption rating Temperature range Relative humidity Standard Dimensions(H×W×D) Weight 49 Line Amplifier and Repeater .0μs ≤12.0dB ≤5.75GHz SLRO-40-21-NF(RU) Uplink 1920-1980MHz ≥2dBm 40dBm 1310 and 1550nm WDM 100m to 18km 50dB ≥25dB(1dB/step) -10dBm ±2dB or shut down ≤2.5 ≤5.5% ≤-35dB ≥45dBc@5MHz ≥50dBc@10MHz ≤-36dBm ≤-30dBm 50Ω N Female FC/PC AC220±44V. Line Amplifier and Repeater 50 Main Features • overcomes the antenna isolation problem • Available in Low Output Power or High Output Power • Permits flexible network design using point-to-multipoint configuration . It will be vice versal for the remote site’s uplink signals. FSR Comprises of Master Unit and Remote Unit.FREQUENCY SHIFTING REPEATER FSR is a point-to-multipoint system. At remote site. links frequencies are being converted back to donor site signals to serve the target coverage area. Donor site downlink signals are converted to a different in-band or outof-band frequencies by the master unit and transmitted to remote repeater site. which using frequency shifting techniques between the links that overcomes the system isolation problem in conventional repeater system. GSM900 Frequency Shifting Repeater Master Unit Part Number Frequency range Link Frequency range Output power Gain Gain control(plus 10dB input signal) Gain control range and step Ripple in band Noise figure VSWR Transmission delay Spurious emission 9KHz-1GHz 1GHz-12.75GHz SLRS-37-09-NF(MU)-1.5G Uplink 885-909MHz 1444.5–1468.5MHz -10dBm 50dB -10dBm±2dB or shut down ≥30dB(1dB/step) ≤3.0dB ≤4.0dB ≤1.4 ≤5.0μs ≤-36dBm ≤-30dBm ≤-40dBc ≥-10dBm 50Ω N Female AC220V±20%, 50Hz±10% or DC-48V±10%, 24V±10% ≤65W -25℃~+55℃ 0 to 95% IP65 1 Pce in box 575x435x165mm ≤23Kg Downlink 930-954MHz 1493.5–1517.5MHz 37dBm 45dB 37dBm±2dB or shut down Intermodulation(3rd order) Max. non-destructive input power Impedance RF connector type Power supply Power consumption rating Temperature range Relative humidity Applications Standard Dimensions(H×W×D) Weight 51 Line Amplifier and Repeater GSM900 Frequency Shifting Repeater Remote Unit Uplink Frequency range Link Frequency range Output power Gain Gain control(plus 10dB input signal) Gain control range and step Ripple in band Noise figure VSWR Transmission delay Spurious emission 9KHz-1GHz 1GHz-12.75GHz 885-909MHz 1444.5–1468.5MHz 33dBm 85dB 33dBm±2dB or shut down ≥30dB(1dB/step) ≤3.0dB ≤4.0dB ≤1.4 ≤5.0μs ≤-36dBm ≤-30dBm ≤-40dBc ≥-10dBm 50Ω N Female AC220V±20%, 50Hz±10% or DC-48V±10%, 24V±10% ≤120W -25℃~+55℃ 0 to 95% IP65 1 Pce in box 575x435x165mm ≤23Kg Downlink 930-954MHz 1493.5–1517.5MHz 33/37/40dBm 92dB 33/37/40dBm±2dB or shut down Line Amplifier and Repeater 52 Intermodulation(3rd order) Max. non-destructive input power Impedance RF connector type Power supply Power consumption rating Temperature range Relative humidity Applications Standard Dimensions(H×W×D) Weight Part Number SLRS-33-09-NF(RU)-1.5G SLRS-37-09-NF(RU)-1.5G SLRS-40-09-NF(RU)-1.5G Downlink Output Power 33dBm 37dBm 40dBm GSM900 Frequency Shifting Repeater Master Unit Part Number Frequency range Link Frequency range Output power Gain Gain control(plus 10dB input signal) Gain control range and step Ripple in band Noise figure VSWR Transmission delay Spurious emission 9KHz-1GHz 1GHz-12.75GHz SLRS-37-09-NF(MU)-1.8G Uplink 885-909MHz 1710–1734MHz -10dBm 50dB -10dBm±2dB or shut down ≥30dB(1dB/step) ≤3.0dB ≤4.0dB ≤1.4 ≤5.0μs ≤-36dBm ≤-30dBm ≤-40dBc ≥-10dBm 50Ω N Female AC220V±20%, 50Hz±10% or DC-48V±10%, 24V±10% ≤65W -25℃~+55℃ 0 to 95% IP65 1 Pce in box 575×435×165mm ≤23Kg Downlink 930-954MHz 1805–1829MHz 37dBm 45dB 37dBm±2dB or shut down Intermodulation(3rd order) Max. non-destructive input power Impedance RF connector type Power supply Power consumption rating Temperature range Relative humidity Applications Standard Dimensions(H×W×D) Weight 53 Line Amplifier and Repeater GSM900 Frequency Shifting Repeater Remote Unit Uplink Frequency range Link Frequency range Output power Gain Gain control(plus 10dB input signal) Gain control range and step Ripple in band Noise figure VSWR Transmission delay Spurious emission 9KHz-1GHz 1GHz-12.75GHz 885-909MHz 1710–1734MHz 33dBm 85dB 33dBm±2dB or shut down ≥30dB(1dB/step) ≤3.0dB ≤4.0dB ≤1.4 ≤4.0μs ≤-36dBm ≤-30dBm ≤-40dBc ≥-10dBm 50Ω N Female AC220V±20%, 50Hz±10% or DC-48V±10%, 24V±10% ≤120W -25℃~+55℃ 0 to 95% IP65 1 Pce in box 575×435×165mm ≤23Kg Downlink 930-954MHz 1805–1829MHz 33/37/40dBm 92dB 33/37/40dBm±2dB or shut down Line Amplifier and Repeater 54 Intermodulation(3rd order) Max. non-destructive input power Impedance RF connector type Power supply Power consumption rating Temperature range Relative humidity Applications Standard Dimensions(H×W×D) Weight Part Number SLRS-33-09-NF(RU)-1.8G SLRS-37-09-NF(RU)-1.8G SLRS-40-09-NF(RU)-1.8G Downlink Output Power 33dBm 37dBm 40dBm Main Features • Easy to install and small footprint with no need for expensive transmission lines. flexibility and proven reliability • Modular design enables easy upgrade to additional bands at a relatively low cost • Allows operators with option of different two bands co-siting Line Amplifier and Repeater 55 • Lower acquisition costs and lowest lifetime/operational costs .DUAL BAND REPEATERS Dual band repeater is a cost-effective two bands selective repeater in one chassis that will reduce the overall cost of signal coverage extension without implementing more BTS sites. extra cooling • Advanced technology. then retransmit signal by the service antennas to target coverage area. and it works as a bi-directional amplifier to increase the signal between the Mobile Station and the Base Station. Uses a pick up(donor) antenna to receive the radio signal from a donor cell and amplify the signal. special cabinets. non-destructive input power RF connector type Power supply Power consumption rating Temperature range Relative humidity Applications Standard Dimensions(H×W×D) Weight 9KHz-1GHz 1GHz-12.0dB ≤5.0μs 27/33/37/40dBm±2dB or shut down Downlink 1805-1880MHz 27/33/37/40dBm ≥90dB ≥-10dBm Part Number SLRB-27-0918-NF SLRB-33-0918-NF SLRB-37-0918-NF SLRB-40-0918-NF Downlink Output Power 27dBm 33dBm 37dBm 40dBm .0μs 50Ω ≥-10dBm N Female AC220V±20%. 50Hz±10% ≤180W -25℃~+55℃ 0 to 95% IP65 1 Pce in box 610×445×215mm/670×420×230mm <35Kg 27/33/37/40dBm±2dB or shut down Downlink 935-960MHz 27/33/37/40dBm ≥90dB DCS Uplink 1710-1785MHz 27dBm ≥90dB ≥30dB(1dB/step) ≤1.0dB ≤-45dBc 27dBm±2dB or shut down ≤-36dBm ≤-30dBm ≤5.GSM&DCS Hybrid Repeater Part Number Line Amplifier and Repeater 56 Frequency range Output power Gain Gain control range and step VSWR Ripple in band Noise figure Intermodulation(3rd order) ALC control Spurious emission Transmission delay Impedance Max.5 ≤3 .75GHz GSM Uplink 890-915MHz 27dBm ≥90dB ≥30dB(1dB/step) ≤1.0dB ≤5 .5 ≤3 .0dB ≤-45dBc 27dBm±2dB or shut down ≤-36dBm ≤-30dBm ≤5. 5 ≤3 .0dB ≤-45dBc 27dBm±2dB or shut down ≤12.0dB ≤5 .0μs ≥-10dBm 27/33/37/400dBm±2dB or shut down 2110-2170MHz 27/33/37/40dBm ≥90dB Spurious emission Transmission delay Max.5 ≤3 .75GHz GSM Uplink 890-915MHz 27dBm ≥90dB ≥30dB(1dB/step) ≤1. 50Hz±10% ≤200W -25℃~+55℃ 0 to 95% IP65 1 Pce in box 610x445x215mm/670x420x230mm <35Kg 27/33/37/40dBm±2dB or shut down Downlink 935-960MHz 27/33/37/40dBm ≥90dB WCDMA 1920-1980MHz 27dBm ≥90dB ≥30dB(1dB/step) ≤1.0μs ≥-10dBm 50Ω N Female AC220V±20%. non-destructive input power Impedance RF connector type Power supply Power consumption rating Temperature range Relative humidity Applications Standard Dimensions(H×W×D) Weight Part Number SLRB-27-1821-NF SLRB-33-1821-NF SLRB-37-1821-NF SLRB-40-1821-NF Downlink Output Power 27dBm 33dBm 37dBm 40dBm 57 Line Amplifier and Repeater Uplink Downlink .0dB ≤5.5% ≤-35dB ≥45dBc@5MHz ≥50dBc@10MHz ≤-36dBm ≤-30dBm ≤5.GSM&WCDMA Hybrid Repeater Part Number Frequency range Output power Gain Gain control range and step VSWR Ripple in band Noise figure Intermodulation(3rd order) ALC control Error vector magnitude Peak code domain error Adjacent channel leakage ratio 9KHz-1GHz 1GHz-12.0dB ≤-45dBc 27dBm±2dB or shut down ------------------≤-36dBm ≤-30dBm ≤5. 0μs ≥-10dBm 27/33/37/40dBm±2dB or shut down Downlink 2110-2170MHz 27/33/37/40dBm ≥90dB Spurious emission Transmission delay Max. non-destructive input power Impedance RF connector type Power supply Power consumption rating Temperature range Relative humidity Applications Standard Dimensions(H×W×D) Weight Part Number SLRB-27-0921-NF SLRB-33-0921-NF SLRB-37-0921-NF SLRB-40-0921-NF Downlink Output Power 27dBm 33dBm 37dBm 40dBm .0μs ≥-10dBm 50Ω N Female AC220V±20%.0dB ≤-45dBc 27dBm±2dB or shut down ------------------≤-36dBm ≤-30dBm ≤5.5 ≤3 . 50Hz±10% ≤180W -25℃~+55℃ 0 to 95% IP65 1 Pce in box 610x445x215mm/670x420x230mm <35Kg 27/33/37/40dBm±2dB or shut down Downlink 1805-1880MHz 27/33/37/40dBm ≥90dB WCDMA Uplink 1920-1980MHz 27dBm ≥90dB ≥30dB(1dB/step) ≤1.DCS&WCDMA Hybrid Repeater Part Number Line Amplifier and Repeater 58 Frequency range Output power Gain Gain control range and step VSWR Ripple in band Noise figure Intermodulation(3rd order) ALC control Error vector magnitude Peak code domain error Adjacent channel leakage ratio 9KHz-1GHz 1GHz-12.5 ≤3 .5% ≤-35dB ≥45dBc@5MHz ≥50dBc@10MHz ≤-36dBm ≤-30dBm ≤5.0dB ≤5.0dB ≤-45dBc 27dBm±2dB or shut down ≤12.75GHz DCS Uplink 1710-1785MHz 27dBm ≥90dB ≥30dB(1dB/step) ≤1.0dB ≤5 . restores full operational capability against multi path fading and feedback signals by itself and all types of waveforms from both friendly and intentional sources of interference. • Overcome the limit of system isolation Line Amplifier and Repeater 59 • Easy to install and small footprint with no need for expensive . then retransmit signal by the service antennas to target coverage area. works as a bi-directional amplifier to increase the signal between the Mobile Station and the Base Station. Main Features transmission lines. flexibility and proven reliability • Modular design enables easy upgrade to additional bands at a relatively low cost • Easy to set up.ICS REPEATERS ICS Repeater system. special cabinets. oversize battery backup or extra cooling • Advanced technology. which is using DSP(Digital Signal Processing) technology. Uses a pick up(donor) antenna to receive the radio signal from a donor cell and amplify the signal. 0dB ≤-45dBc/1MHz @10W.GSM900 ICS Repeaters Uplink Frequency range Output power max Gain Channel Capacity(channels) ALC control Gain control range&step Operating maximum gain Power amplifier oscillation protection Interference cancellation range Ripple in Band Intermodulation(3rd order) Noise figure VSWR Frequency Error Transmission delay Spurious emission 9KHz-1GHz 1GHz-12.0dB ≤1. non-destructive input power Impedance Connector type Power supply Power consumption rating Temperature range Relative humidity Applications Standard Dimensions(H×W×D) Weight Part Number RC-37-09-NF-ICS RC-40-09-NF-ICS RC-43-09-NF-ICS Downlink Output Power 37dBm 40dBm 43dBm .Rated Power ≤6.75GHz 890-915MHz 27/27/27dBm ≥90dB 8-12 27dBm±2dB or shut down ≥30dB(1dB/step) ≥Antenna Isolation+10dB Interference Cancellation System ≥15dB ≤3. 50Hz±10% ≤200W -25℃~+55℃ 0 to 95% IP65 1 Pce in box 610×445×215mm <35Kg 37/40/43dBm±2dB or shut down Downlink 935-960MHz 37/40/43dBm ≥90dB Line Amplifier and Repeater 60 Max.0μS ≤-36dBm ≤-30dBm ≥-10dBm 50Ω N Female AC220V±20%.5 ≤0.05ppm ≤10. Rated Power ≤6.05ppm ≤10. 50Hz±10% ≤200W -25℃~+55℃ 0 to 95% IP65 1 Pce in box 610x445x215mm ≤35Kg 37/40/43dBm±2dB or shut down Downlink 37/40/43dBm ≥90dB Max.75GHz 1710-1785MHz 27/27/27dBm ≥90dB 8-12 27dBm±2dB or shut down ≥30dB(1dB/step) ≥Antenna Isolation+10dB Interference Cancellation System ≥15dB ≤3.0dB ≤-45dBc/1MHz @10W.5 ≤0. non-destructive input power Impedance Connector type Power supply Power consumption rating Temperature range Relative humidity Applications Standard Dimensions(H×W×D) Weight Part Number RC-37-18-NF-ICS RC-40-18-NF-ICS RC-43-18-NF-ICS Downlink Output Power 37dBm 40dBm 43dBm 61 Line Amplifier and Repeater 1805-1880MHz .0μS ≤-36dBm ≤-30dBm ≥-10dBm 50Ω N Female AC220V±20%.0dB ≤1.DCS1800 ICS Repeaters Uplink Frequency range Output power max Gain Channel Capacity(channels) ALC control Gain control range&step Operating maximum gain Power amplifier oscillation protection Interference cancellation range Ripple in Band Intermodulation(3rd order) Noise figure VSWR Frequency Error Transmission delay Spurious emission 9KHz-1GHz 1GHz-12. 50Hz±10% ≤200W -25℃~+55℃ 0 to 95% IP65 1 Pce in box 610x445x215mm ≤35Kg 37/40dBm±2dB or shut down Downlink 2110-2170MHz 37/40dBm ≥90dB Line Amplifier and Repeater 62 Max.0μS ≤-36dBm ≤-30dBm ≥-10dBm 50Ω N Female AC220V±20%.Rated Power ≤6.75GHz 1920-1980MHz 27/27dBm ≥90dB 1-3 27dBm±2dB or shut down ≥30dB(1dB/step) ≥Antenna Isolation+10dB Interference Cancellation System ≥15dB ≤2.5 ≤12.0dB in every channel ≤-45dBc/1MHz @10W. non-destructive input power Impedance Connector type Power supply Power consumption rating Temperature range Relative humidity Applications Standard Dimensions(H×W×D) Weight Part Number RC-37-21-NF-ICS RC-40-21-NF-ICS Downlink Output Power 37dBm 40dBm .5% ≤-35dB ≥45dBc@5MKHz ≥50dBc@10MKHz ≤10.0dB ≤1.WCDMA ICS Repeaters Uplink Frequency range Output power max Gain Channel capacity(channels) ALC control Gain control range&step Operating maximum gain Power amplifier oscillation protection Interference cancellation range Ripple in Band Intermodulation(3rd order) Noise figure VSWR Error vector magnitude Peak code domain error Adjacent channel leakage ratio Transmission delay Spurious emission 9KHz-1GHz 1GHz-12. public facilities. subways.1MHz 1935.9/2140.1–1964.1/2110.0dB ≤-18dB Intermodulation (3rd order) Power handling Insertion loss Return loss 63 POI .9MHz 60dB minimum ≥33dB 91dB minimum (2G&3G) 40dB minimum (GSM900&GSM1800) ≤-150dBc@2x20W 100W/Port ≤6.1–1950. which can integrate different frequency signals from different operators by the application of a Point of Interface (POI). This can avoid repeated investment of IBS for the same building by different Telecom operators. airports and government offices. low cost and minimum construction work. Main Features • Modular design technology – the connectors in the equipment are standard and every signal channel can be linked to a standard module • Low inter-modulation filter technology is used lowering the inter-modulation interference (less than 150 dBc) • High input power handling • High isolation capability minimizing signal interference • Compatible with all system signals from current wireless Block Diagram communication systems as POI inputs POI-5in2out CDMA800-1 CDMA800-2 Frequency GSM1800-1 GSM1800-2 Electrical data GSM1800-3 Isolation Same bands Different bands 829–835/874–880MHz 837–845/882–890MHz 1710 –1730/1805–1825MHz 1730–1750/1825–1845MHz 1750–1785/1845–1880MHz 40dB minimum 80dB minimum ≤-150dBc@2x20W 100W ≤5.3–2125.1–2140.0dB ≤-18dB POI-8in2out GSM900-1 GSM900-2 GSM1800-1 Frequency GSM1800-2 GSM1800-3 3G-1 3G-2 Electrical data 3G-3 Tx/Rx Isolation Same bands Different bands Intermodulation(3rd order) Power handling Insertion loss Return loss 890–900/935–945MHz 900–915/945–960MHz 1710 –1730/1805–1825MHz 1740–1760/1835–1855MHz 1760–1780/1855–1875MHz 1920. large exhibition centers.1/2125.1MHz 1950. railway stations.1–2154. It can also be easily extended and maintained. effectively integrate multi-signals to the same DAS with low insertion loss.POI Netop offers a multi-system integration solution.0–1935. A multi system integration solution is usually deployed in large office buildings. 5/1845–1860MHz 1765–1770/1722.1/2110.1–2154.0–1935.5–1817.1–1964.5-1730/1745–1750MHz 1860–1870/1817.1MHz 1935.5MHz 1717.5/1805–1812.5–1722.1/2125. 16dB Min GSM1800-3 Frequency GSM1800-4 GSM1800-5 Electrical data 3G-1 3G-2 3G-3 3G-4 3G-5 WiFi Isolation Same bands Different bands Intermodulation(3rd order) Power handling Insertion loss Return loss .0dB ≤-18dB POI 64 POI-13in2out CDMA800-1 CDMA800-2 GSM1800-1 GSM1800-2 820–835/865–880MHz 835– 845/880–890MHz 1710–1717.3–2125.1–1950.0dB (typical) 18dB typical.1–2140.5-1825/1840–1845MHz 1730–1745/1825–1840MHz 1755–1785/1870–1880MHz 1920–1930/2110–2120MHz 1930–1940/2120–2130MHz 1940–1945/2130–2135MHz 1945–1950/2135–2140MHz 1950–1965/2140–2155MHz 2412–2484MHz ≥40dB 100dB minimum ≤-150dBc@2x20W 100W/Port ≤9.9MHz 60dB minimum ≥33dB 91dB minimum (2G&3G) 40dB minimum (GSM900&GSM1800) ≤-150dBc@2x20W 100W/Port ≤6.1MHz 1950.POI-10in2out EGSM GSM900-1 GSM900-2 GSM1800-1 Frequency GSM1800-2 GSM1800-3 GSM1800-4 3G-1 Electrical data 3G-2 3G-3 Tx/Rx Isolation Same bands Different bands Intermodulation(3rd order) Power handling Insertion loss Return loss 885–890/930–935MHz 890–900/935–945MHz 900–915/945–960MHz 1710–1715/1805–1810MHz 1720–1730/1815–1825MHz 1740–1760/1835–1855MHz 1760–1780/1855–1875MHz 1920.9/2140.5/1750–1765MHz 1812. 5G Frequency range Impedance Return Loss/VSWR Power handling PIM Connectors type Temperature range Relative humidity Packing 800-2500MHz 50Ω -20. WLAN and UMTS.0dB typical Insertion Loss 0.8dB typical 6. All of them are Cavity Power Splitter 2. Its reactive design employs no resistors eliminating their contribution to PIM and the potential of their damage.8dB/1.0dB/1. GSM1800.25 200W -140dBc@2X20W N Female -35℃~+75℃ 0 to 95% 1 Pce in box with excellent amplitude and phase balance. the loss has been minimized and reliability enhanced.8dB typical 6. Its mechanical shape allows to be fixed on the wall or the pole easily.3dB typical 0.7G Frequency range Impedance Return Loss/VSWR Power handling PIM Connectors type Temperature range Relative humidity Packing Part Number SLS-2-6F-NF SLS-3-6F-NF SLS-4-6F-NF Split Loss 3dB typical 4. The RF power is evenly split to all outputs conformance to IP65 standard.1dB typical 0.1dB typical 0. Netop Cavity Power Splitters all operate from 800 to 2500MHz or 800-2700MHz.PASSIVE COMPONENTS Cavity Power Splitter The Cavity power splitter is designed to evenly split power cellular signals with minimal reflections and loss.3dB typical Weight 380g/pce 440g/pce 470g/pce 65 . allowing integration of CDMA800. GSM900.3dB typical 0.0dB typical Insertion Loss 0.20 300W -150dBc@2X20W N Female -35℃~+75℃ 0 to 95% 1 Pce in box Cavity Power Splitter 2. PCS.1dB typical Weight 380g/pce 440g/pce 470g/pce Part Number SLS-2-7F-NF SLS-3-7F-NF SLS-4-7F-NF Split Loss 3dB typical 4. With few solder joints and an air dielectric. Main Features • Low insertion loss • High return loss • High power handling • Low PIM • High reliability • Waterproof IP 65 • Low cost design for ease of mounting to pole or wall Passive Components 800-2700MHz 50Ω -19. 25 100W -140dBc@2X20W N Female -20℃~+75℃ 0 to 95% 1 Pce in box Part Number SLSM-2-6F-NF SLSM-3-6F-NF SLSM-4-6F-NF Split Loss 3dB typical 4.5G(Low Power) Frequency range Impedance Return loss/VSWR Power handling PIM Connectors type Temperature range Relative humidity Packing 800-2500MHz 50Ω -20.5G(High Power) Frequency range Impedance Return Loss/VSWR Power handling PIM Connectors type Temperature range Relative humidity Packing 800-2500MHz 50Ω ≤-19dB/1. Netop Microstrip Power Splitters all operate from 800 to 2500MHz.4dB typical Weight 240g/pce 460g/pce 600g/pce Part Number SLSM-2-6F-NF-02 SLSM-3-6F-NF-02 SLSM-4-6F-NF-02 Split Loss 3dB typical 4. PCS.Microstrip Power Splitter 2.4dB typical Weight 370g/pce 600g/pce 620g/pce .5dB typical 0.8dB typical 6.3dB typical 0.5G Microstrip power splitter is designed to evenly split power cellular signals with minimal reflections and loss.) • 50 watt average power rating • High reliability • 2-way. WLAN and UMTS.8dB typical 6. Its mechanical shape allows to be fixed ton the wall or the pole easily. low VSWR and Insertion Loss • Available in the frequency range from 800MHz to 2500MHz • 20dB Isolation(Min. GSM1800. All of them are conformance to IP65 standard.5dB typical 0.0dB typical Insertion Loss 0.8dB/1. allowing integration of CDMA800.3dB typical 0.2 50W -140dBc@2X20W N Female -20℃~+75℃ 0 to 95% 1 Pce in box Microstrip Power Splitter 2. Passive Components 66 Main Features • Superior RF performance.0dB typical Insertion Loss 0. 3-way and 4-way configurations • Waterproof IP 65 • Low cost design for ease of mounting to pole or wall Microstrip Power Splitter 2. GSM900. 3±0.1dB 0.35 for 5.8dB 10±1. 6.1±0.5dB/1.0dB 15±1.25 200W -140dBc@2X20W N Female -35℃~+75℃ 0 to 95% 1 Pce in box Insertion Loss 1.1±0.1dB 0.0dB 15±1.5dB 30±1.3±0.2dB 20±1.7dB 7±0.0±0.1dB Weight 370g typical 370g typical 370g typical 370g typical 370g typical 180g typical 180g typical 180g typical 180g typical the pole easily.5dB 67 .1dB 0.3dB 0.1±0.2dB 0.5dB 1..5dB 25±1. 10.4dB 1. All of them are conformance to IP65 standard.1dB/1. Passive Components 800-2700 50Ω ≤-19dB/1. Its mechanical shape allows to be fixed on the wall or band antennas and leaky cable systems.4dB 1.1dB 0. 40dB 200W -150dBc@2X20W N Female -35℃~+75℃ 0 to 95% 1 Pce in box Cavity Coupler(2.7dB 7±0.0±0.6dB 6±0.1±0.5dB Insertion Loss 1.1±0.3dB 0.7G) Frequency range Impedance Return Loss/VSWR Power handling PIM Connectors type Temperature range Relative humidity Packing Part Number SLC-5-6F-NF SLC-6-6F-NF SLC-7-6F-NF SLC-10-6F-NF SLC-13-6F-NF SLC-15-6F-NF SLC-20-6F-NF SLC-25-6F-NF SLC-30-6F-NF SLC-40-6F-NF Coupling Attenuation 5±0.0dB 13±1.Cavity Couplers Cavity coupler unevenly split high power cellular signals from 5dB to 40dB with minimal reflections or loss over the whole band 800-2500MHz or 800-2700MHz.3dB 0.1dB 0.3±0.2dB 0.1dB Weight 370g typical 370g typical 370g typical 370g typical 370g typical 370g typical 180g typical 180g typical 180g typical 180g typical Part Number SLC-6-7F-NF SLC-7-7F-NF SLC-10-7F-NF SLC-13-7F-NF SLC-15-7F-NF SLC-20-7F-NF SLC-25-7F-NF SLC-30-7F-NF SLC-40-7F-NF Coupling Attenuation 6±0.5dB 30±1.5G) Frequency range Impedance Return Loss/VSWR Power handling PIM Connectors type Temperature range Relative humidity Packing 800-2500 50Ω ≤-16.2±0. 25.2±0.0dB 13±1.8dB 10±1. 30.5±0. The ultra frequency range allows use with multi- Main Features • Low Insertion Loss • High Return Loss • High Power handling • Low PIM • High reliability • Complete Coupling Series • Waterproof IP 65 • Low cost design for ease of mounting to pole or wall Cavity Coupler(2. the loss is minimized and reliability enhanced. 15dB ≤-23.1dB 0.5dB 40±1.7±0.15 for 20.5dB 40±1.1±0.3dB 0.2dB 20±1.3dB 0.5dB 25±1.1±0.3dB 0.5±0.3±0. Designed without resistive components and soldering joint.1±0. 7. 0dB 30±1.8dB 7±0.2dB Weight 300g typical 300g typical 300g typical 300g typical 300g typical 300g typical 300g typical 300g typical 430g typical 430g typical . Units coupler off a defined fraction of signal with minimal reflections of loss.20 200W -140dBc@2X20W N Female -20℃~+75℃ 0 to 95% 1 Pce in box Part Number SLDCM-5-6F-NF SLDCM-6-6F-NF SLDCM-7-6F-NF SLDCM-10-6F-NF SLDCM-13-6F-NF SLDCM-15-6F-NF SLDCM-20-6F-NF SLDCM-25-6F-NF SLDCM-30-6F-NF SLDCM-40-6F-NF Coupling Attenuation 5±0.8dB 6±0.5dB 0.8dB 10±1.2dB 0.5dB 0. Passive Components 68 Main Features • Low Insertion Loss • High Return Loss • High Power handling • Low PIM • High reliability • Complete Coupling Series • Waterproof IP 65 • Low cost design for ease of mounting to pole or wall Microstrip Directional Couplers Frequency range Impedance Return loss/VSWR Power handling PIM Connectors type Temperature range Relative humidity Packing 800-2500MHz 50Ω ≤-20.3dB 1. All of them are conformance to IP65 specification.7dB 1.0dB 15±1.0dB Insertion Loss 2.Microstrip Directional Couplers Directional coupler is a stripline design for indoor/outdoor applications covering all the wireless services from 800 to 2500MHz.4dB 0.8dB/1.2dB 0.8dB 0.0dB 40±1.2dB 0.0dB 13±1. The ultra frequency range allows use with multi-band antennas and leaky cable systems. Its mechanical shape allows to be fixed on the wall or the pole easily.0dB 20±1.0dB 25±1. It is designed for decoupled combining of two transmitters/ receiver units with the same frequency range at 3dB loss. 2x 43dBm Tx Carriers at BTS port Impedance Operating temperature range Environmental sealing Connectors HM-3-7F-NF 800-2700MHz 3. Moisture sealed • RoHS complaint Part Number Frequency range Coupling Attenuation Return Loss. all ports Input Isolation Power handling Intermodulation.1±0. It can common port or to split an incoming signal equally to two output ports. It is a type of directional coupler where the input power is equally divided between two output ports. Low VSWR and Loss • Wide Band from 800-2500MHz or • High reliability.Hybrid Coupler Hybrid coupler is a passive device used in radio and telecommunications.1±0. Passive Components 800-2700MHz 69 also work as a combiner component to combine two signals to a Main Features • Guaranteed PIM performance • High Isolation.4dB 22dB 23dB 160W max -140dBC 50Ω -35℃~+75℃ IP65 ventilated N Female HM-3-6F-NF 800-2500MHz 3.2dB 22dB 23dB 160W max -140dBC 50Ω -35℃~+75℃ IP65 ventilated N Female . 4 6±0.7 20±0.5 15±0.7 30±1.4 6±0.2 maximum 50Ω N Male to N Female 0 to 95% Indoor Order Number SLA-3-2-N SLA-6-2-N SLA-10-2-N SLA-15-2-N SLA-20-2-N SLA-30-2-N SLA-3-5-N SLA-6-5-N SLA-10-5-N SLA-15-5-N SLA-20-5-N SLA-30-5-N Power Rating (W@25℃) 2 2 2 2 2 2 5 5 5 5 5 5 Attenuation (dB) 3±0. expanding power range and controlling power level.5 15±0. comprehensive tester or spectrum analyzer.7 30±1.Attenuator Coaxial fixed attenuators are used in absorbing energy of transmission line.5 15±0. flatness attenuation value.2 maximum 50Ω N Male to N Female 0 to 95% Indoor 10W. excellent capacity in antipulse and anti-burnout etc.5 15±0.3 6±0. Main Features • Wide frequency band • Low VSWR • Excellent capacity in anti-pulse and anti-burnout Passive Components 70 2W. 15W Attenuator Technical Specifications Frequency range VSWR Impedance Connectors Relative humidity Applications DC-3GHz 1.7 30±1. they are also used in accurately measuring power or spectrum of RF microwave transmitters accompany with small power meter.0 Weight (g) 100 typical 100 typical 100 typical 100 typical 100 typical 100 typical 100 typical 100 typical 100 typical 100 typical 100 typical 100 typical .7 30±1.7 20±0.0 Weight (g) 100 typical 100 typical 100 typical 100 typical 100 typical 100 typical 100 typical 100 typical 100 typical 100 typical 100 typical 100 typical Order Number SLA-3-10-N SLA-6-10-N SLA-10-10-N SLA-15-10-N SLA-20-10-N SLA-30-10-N SLA-3-15-N SLA-6-15-N SLA-10-15-N SLA-15-15-N SLA-20-15-N SLA-30-15-N Power Rating (W@25℃) 10 10 10 10 10 10 15 15 15 15 15 15 Attenuation (dB) 3±0.4 10±0.0 3±0.4 10±0. Coaxial fixed attenuators feature wide frequency band.3 10±0.7 20±0. low VSWR.3 6±0.7 20±0.0 3±0. 5W Attenuator Technical Specifications Frequency range VSWR Impedance Connectors Relative humidity Applications DC-3GHz 1.3 10±0. 5 10±0.4 10±0.6 15±0.0 20±1.0 30±1.7 15±1.2 maximum 50Ω N Male to N Female 0 to 95% Indoor 50W Attenuator Technical Specifications Frequency range VSWR Impedance Connectors Relative humidity Applications DC-3GHz 1.5 6±0.0 30±1.0 30±1.8 20±1.25W. 30W Attenuator Technical Specifications Frequency range VSWR Impedance Connectors Relative humidity Applications DC-3GHz 1.8 20±1.25 maximum N Male to N Female 0 to 95% Indoor Order Number SLA-3-25-N SLA-6-25-N SLA-10-25-N SLA-15-25-N SLA-20-25-N SLA-30-25-N SLA-3-30-N SLA-6-30-N SLA-10-30-N SLA-15-30-N SLA-20-30-N SLA-30-30-N Power Rating (W@25℃) 25 25 25 25 25 25 30 30 30 30 30 30 Attenuation (dB) 3±0.2 Weight (g) 150 typical 150 typical 150 typical 150 typical 150 typical 150 typical 150 typical 150 typical 150 typical 150 typical 150 typical 150 typical Order Number SLA-3-50-N SLA-6-50-N SLA-10-50-N SLA-15-50-N SLA-20-50-N SLA-30-50-N Power Rating (W@25℃) 50 50 50 50 50 50 Attenuation (dB) 3±0.4 10±0.4 6±0.2 Weight (g) 1200 typical 1200 typical 1200 typical 1200 typical 1200 typical 1200 typical 71 Passive Components 50Ω .2 3±0.6 15±0.4 6±0. They are also used as match ports in many multiport microwave devices such as circulators and directional couplers to make these ports which are not involved in the measurement be terminated in their characteristic impedance in order to ensure an accurate measurement.Termination Load Coaxial fixed terminations absorb RF& microwave energy and are commonly used as dummy loads of antenna and transmitter.25 maximum 50Ω -35℃~+45℃ 0 to 95% Indoor Main Features • DC-18GHz available. Passive Components 72 Termination Load Technical Specifications Frequency range VSWR Impedance Temperature range Relative humidity Applications DC-3GHz 1. • Wide frequency band • Low VSWR • N and 7-16 DIN type connectors are available • Excellent capacity in anti-pulse and anti-burnout Order Number SLL-2-NM SLL-5-NM SLL-10-NM SLL-10-NF SLL-15-NM SLL-15-NF SLL-20-NM SLL-20-NF SLL-25-NM SLL-25-NF SLL-30-NM SLL-30-NF SLL-50-NM SLL-50-NF SLL-100-NM SLL-100-NF SLL-20-DM SLL-20-DF SLL-25-DM SLL-25-DF SLL-30-DM SLL-30-DF SLL-50-DM SLL-50-DF SLL-100-DM SLL-100-DF Power Rating(W@25℃) 2 5 10 10 15 15 20 20 25 25 30 30 50 50 100 100 20 20 25 25 30 30 50 50 100 100 Connector N Male N Male N Male N Female N Male N Female N Male N Female N Male N Female N Male N Female N Male N Female N Male N Female 7-16 DIN Male 7-16 DIN Female 7-16 DIN Male 7-16 DIN Female 7-16 DIN Male 7-16 DIN Female 7-16 DIN Male 7-16 DIN Female 7-16 DIN Male 7-16 DIN Female Weight(g) 55 typical 70 typical 130 typical 130 typical 160 typical 160 typical 160 typical 160 typical 160 typical 160 typical 270 typical 270 typical 390 typical 390 typical 1500 typical 1500 typical 190 typical 190 typical 190 typical 190 typical 410 typical 410 typical 450 typical 450 typical 450 nomina 450 typical . 1x support . Main Features • Supports both 802.11g wireless stations • Bridge mode support • Client/Repeater access point • Simple configuration • DHCP client support • Security profiles • Multiple SSID isolation • VLAN support • WEP support • WPA support • Radius client support • Radius MAC authentication • Rogue AP detection • Access control • Password-protected configuration.WIFI PRODUCTS WiFi(Wireless Fidelity) is one protocol which is capable of connecting to internet by wireless communication. The autosensing capability of the Wireless Access Point allows packet transmission up to 54Mbps for maximum data rate. WiFi Products 73 • 802. meeting room. or automatic speed reduction to lower speeds when the environment does not permit maximum data rate. It can provide wireless wide band service for mobile users in hot spots such as office.11b and 802. etc. external 50Ω DC48V.11g IEEE802. 1. NDIS3.5MHz DSSS. DHCP.2A(Max.11b: 1/2/5.1x Ethernet type Antenna connector type Impedance Power supply Power consumption rating Operating temperature Relative humidity Standard Weight Part Number Downlink output power SLAP-30-24-NF 30dBm SLAP-18-24-AF 18dBm . -74dBm@54Mbps. AC adapter AC 100V~ 240V ≤2000mA@12V DC -20℃~+60℃ ≤95% 1 Pce in box 3Kg/0. NetBEUI.WIFI Access Point (AP) Uplink Frequency range Wireless medium Network standard Data rates Output power Sensitivity 2400–2483. IEEE 802. PER<8%.53Kg Downlink WiFi Products 74 Protocol supported Operating mode DHCP Base on web technology Multiple SSID VLAN Operating management function MAC address control WEP encryption WPA(Wi-Fi Protected Access) 802. TCP/IP. IPX/SPX.).11g: 6/9/12/18/24/36/48/54Mbps 18/30dBm -88dBm@11Mbps. PER<10% CSMA/CA. OFDM IEEE802.5/11Mbps IEEE802.11b. NDIS4. NDIS5 AP/CPE(Infrastructure and Ad Hoc)/Repeater/WDS PtP and PtMP DHCP server/client available Available Available Available Available Available 64-bit/128-bit/152-bit WEP data encryption Available Available RJ-45 N female/SMA. 4835GHz Spurious emission 1.2GHz 3.75GHz Impedance Power supply Power consumption rating Operating temperature Humidity Dimension(H×W×D) Connector 2400-2500MHz TDD 27±1dBm ≤-15dBm 15dB typical 15dB/1dB step 2~20dB Forward ≤3.5dB typical ≤1. Female 75 WiFi Products ≤2.5VDC -30℃~+70℃ 0 to 95% 92x78x20mm N type.4~2.WIFI Line Amplifier SLAM-27-24-NF Reverse Frequency range Cellular standard Output power max Max input power Gain Gain control range Ripple in band Noise figure VSWR Switch time 30~1GHz 2.5μS ≤-36dBm/100kHz ≤-33dBm/100kHz ≤-40dBm/1MHz ≤-40dBm/1MHz ≤-30dBm/1MHz 50Ω AC220V±30% 50Hz±10% ≤[email protected]~3.8 : 1 ≤1.53GHz Others 1GHz~12.0dB .9~2. 5Kg Ø190×100MM 300MM On ceiling IBS Antenna 76 Vpol 806-960/1710-2700 3dBi 360º Ceiling Antenna Part Number Frequency range VSWR Connector type Gain Polarization Impedance Max.5 1×N(F) 3dBi Vertical 50Ω 50W 0. power per input Weight Dimension Pigtail Mounting S-Wave 7FW-OD-3-L500 806-960MHz/1710-2700MHz <1.5 1×N(F) >3 Vertical 50Ω 50W 0.IBS ANTENNA Vpol 806-960/1710-2500 3dBi 360º Ceiling Antenna Part Number Frequency range VSWR Connector type Gain Polarization Impedance Max. power per input Weight Dimension Pigtail Mounting S-Wave 6F-OD-3 806-960MHz/1710-2500MHz <1.5Kg Ø190×100MM 500MM On ceiling Vpol 806-960/1710-2500 3/5dBi 360º Ceiling Antenna Part Number Frequency range VSWR Connector type Gain Polarization Impedance Max.4 1×N(F) 3/5dBi Vertical 50Ω 50W 0. power per input Weight Dimension Pigtail Mounting S-Wave 6F-OD-3/5-A 806-960MHz/1710-2500MHz <1.5Kg Ø160×130MM 500MM On ceiling . 9Kg 210×180×44MM 300MM On wall 77 IBS Antenna 0.5 1×N(F) 4/4. power per input Weight Dimension Pigtail Mounting S-Wave 6F-180-4/4.5 806-960MHz/1710-2500MHz <1. power per input Weight Dimension Pigtail Mounting 50Ω 100W 0.5Kg .5dBi Vertical 180º 50Ω 50W Ø160×130MM 300MM On ceiling Vpol 806-960/1710-2500 90º Directional Antenna Part Number Frequency range VSWR Connector type S-Wave 6F-90-7 806-960MHz/1710-2500MHz <1.Vpol 806-960/1710-2500 3dBi 180º Ceiling Antenna Part Number Frequency range VSWR Connector type Gain Polarization Horizontal-3dB beamwidth Impedance Max.5 1×N(F) 6dBi(806-960MHz) Gain 9dBi(1710-2300MHz) 10dBi(2300-2500MHz) Polarization Vertical 95º(806-960MHz) Horizontal-3dB beamwidth 65º(1710-2300MHz) 40º(2300-2500MHz) 80º(806-960MHz) Vertical-3dB beamwidth 55º(1710-2300MHz) 50º(2300-2500MHz) Impedance Max. 49Kg 773MM 380MM Ø40-Ø50MM 60 Vpol 1710-1880 12dBi Yagi Antenna Part Number Frequency range VSWR Connector type Gain Polarization Horizontal-3dB beamwidth Vertical-3dB beamwidth Front to back ratio Impedance Max. power per input Weight Dimension Pigtail Mounting pipe Rated wind velocity S-Wave 18-12-YG 1710-1880MHz ≤1. 1710-2700MHz <1. power per input Weight Dimension Pigtail Mounting pipe Rated wind velocity IBS Antenna 78 S-Wave 0809-12-YG 806-960MHz ≤1.9Kg 210×180×44MM 500MM On wall Vpol 806-960 12dBi Yagi Antenna Part Number Frequency range VSWR Connector type Gain Polarization Horizontal-3dB beamwidth Vertical-3dB beamwidth Front to back ratio Impedance Max.8 1×N(F) 7dBi Vertical 65º 60º 50Ω 100W 0.5 1×N(F) 12dBi Vertical 46±4º 45±4º ≥14 50Ω 100W 0.426Kg 584MM 300MM Ø40-Ø50MM 200Km/h . power per input Weight Dimension Pigtail Mounting S-Wave 7FW-60-7-L500 806-960MHz.Vpol 806-960/1710-2700 60º Directional Antenna Part Number Frequency range VSWR Connector type Gain Polarization Horizontal-3dB beamwidth Vertical-3dB beamwidth Impedance Max.5 1×N(F) 12dBi Vertical 50±5º 40±5º ≥14 50Ω 100W 0. 5 1×N(F) 13dBi Vertical 41±5º 36±5º ≥14 50Ω 100W 0. power per input Weight Dimension Pigtail Mounting pipe Rated wind velocity S-Wave U-13-YG 1710-2170MHz ≤1.5 1×N(F) 4-5dBi(824-960MHz) 7.Vpol 1710-2170 13dBi Yagi Antenna Part Number Frequency range VSWR Connector type Gain Polarization Horizontal-3dB beamwidth Vertical-3dB beamwidth Front to back ratio Impedance Max.5Kg 200×210×85MM 300MM On wall Vertical-3dB beamwidth Impedance Max.5±1dBi(1710-2500MHz) Vertical 63-89º(824-960MHz) 45-75º(1710-2500MHz) 75-102º(824-960MHz) 45-75º(1710-2500MHz) 50Ω 100W 0.45Kg 847MM 300MM Ø40-Ø50MM Vpol 824-960/1710-2500 Directional Antenna Part Number Frequency range VSWR Connector type Gain Polarization Horizontal-3dB beamwidth S-Wave M6F-90-BD01-7 824-960MHz/1710-2500MHz <1. power per input Weight Dimension Pigtail Mounting 79 IBS Antenna 200Km/h . 5dBi(824-960MHz) 7dBi(1710-2500MHz) Vertical 360º 30-48º(824-960MHz) 16-25º(1710-2500MHz) 20±5º(824-960MHz) 11±3º(1710-2500MHz) 50Ω 200W 5Kg Φ200×1000MM 300MM Elevation Impedance Max.5-7dBi Vertical 45-89º 45-130º 50Ω 20W 1.5 1×N(F) 4. power per input Weight Dimension Pigtail Mounting S-Wave M6F-90-BH01-7 824-960MHz/1710-2500MHz <1.5/7 824-960MHz/1710-2500MHz <1.7Kg 420×320×28MM 300MM On wall IBS Antenna 80 Vpol 824-960/1710-2500 Omni Antenna Part Number Frequency range VSWR Connector type Gain Polarization Horizontal-3dB beamwidth Vertical-3dB beamwidth S-Wave M6F-OD-CPD01-4. power per input Weight Dimension Pigtail .Vpol 824-960/1710-2500 Directional Antenna Part Number Frequency range VSWR Connector type Gain Polarization Horizontal-3dB beamwidth Vertical-3dB beamwidth Impedance Max.5 1×N(F) 4. 5 1×N(F) 3/4dBi Vertical 360º 65-102/40-65º 6-17º 50Ω 100W 0.4Kg Φ100×240MM 300MM Vpol 806-960/1710-2500 Directional Antenna Part Number Frequency range VSWR Connector type Gain Polarization Horizontal-3dB beamwidth S-Wave M6F-70-CPP01-9 824-960MHz/1710-2500MHz <1.8Kg 400×300×75MM 300MM On wall Vertical-3dB beamwidth Impedance Max.Vpol 824-960/1710-2500 Omni Antenna Part Number Frequency range VSWR Connector type Gain Polarization Horizontal-3dB beamwidth Vertical-3dB beamwidth Elevation Impedance Max. power per input Weight Dimension Pigtail Mounting 81 IBS Antenna . power per input Weight Dimension Pigtail S-Wave M6F-OD-MG01-3 824-960MHz/1710-2500MHz <1.5 1×N(F) 8-10dBi Vertical 61-68º(824-960MHz) 70-110º(1710-2500MHz) 60-72º(824-960MHz) 29-80º(1710-2500MHz) 50Ω 20W 3. Based on the comprehensive experience of our R&D team. IE3d. the S-Wave antenna solutions. we have developed our own Microwave CAD software. Design Philosophy Netop adopts state-of-the-art simulation tools. This will guarantee design efficiency and also improve analysis. It is designed to meet the toughest application and ® functional operation requirements covering narrow band. simulation and optimization. Through extensive testing. and Designer.g. ® antenna guarantees excellent mechanical and electrical performance. e.Base Station Antenna Solution Netop’s S-Wave antenna solution covers frequencies from 700MHz to 2500MHz. broadband and multi-band models. optimization and integration of antenna radiation/circuits parameters. Every antenna series is based on the experience and solid theoretical knowledge of our strong R&D team. Netop is committed to supplying high quality and cost effective . HFSS. 92 Antenna 700/800/900 Dual Polarization +45º/–45º ------------------------------------------------------.127 Antenna 1800/1900/2000 Vertical Polarization --------------------------------------------------------------.173 Tri-Sector Antennas Dual Polarization +45º/-45º ------------------------------------------------------------.84 Product Series ---------------------------------------------------------------------------------------------------------.146 Dual Band Antennas --4 ports Dual Polarization +45º/–45º ----------------------------------------------.92 Antenna 800/900 Vertical Polarization ------------------------------------------------------------------------.Content Product Description ---------------------------------------------------------------------------------------------------.180 Mounting Configurations----------------------------------------------------------------------------------------------.181 .178 Remote Control Unit --------------------------------------------------------------------------------------------------.155 Triple Band Antennas --6 ports Dual Polarization +45º/-45º ----------------------------------------------.118 Antenna 1800/1900/2000 Dual Polarization +45º/–45º --------------------------------------------------.143 Dual Band Antennas --2 ports(with Inner Combiner) Dual Polarization +45º/–45º ---------------. PRODUCT DESCRIPTION S-Wave 0809/U-65/60-15/17DT3/T6CS Tri-Pol(3 in 1)Antenna C: inner combiner blank: no inner combiner 2 frequency electrical down tilt nd Logo 1 frequency electrical down st Polarization(D---+/-45º. Blank---Vertical) 2 frequency gain(dBi) nd 1 frequency gain(dBi) st 2 frequency 3dB Horizontal beamwidth(degree) st 1 frequency 3dB Horizontal beamwidth(degree) st 2 frequency band symbol nd Base Station Antenna Solution 84 1 frequency band symbol st Frequency Band (MHz) 698-896 806-896 870-960 806-960 1710-1880 1850-1990 1710-2170 1920-2170 Symbol 07 08 09 0809 18 19 U 21 Electrical Down Tilt Fixed electrical downtilt Manual adjustable variable electrical downtilt No electrical down tilt Symbol T V Blank . 5D S-Wave 07-65-14.5DT6 S-Wave 0809-30-21D S-Wave 0809-30-21DT3 S-Wave 0809-30-21DT6 S-Wave 07-65-14.5D Frequency 806-896 806-896 806-896 870-960 870-960 870-960 806-960 806-960 806-960 806-960 806-960 806-960 698-896 698-896 698-896 806-896 806-896 806-896 806-896 806-896 806-896 806-896 806-896 806-896 870-960 870-960 870-960 870-960 870-960 870-960 870-960 870-960 870-960 806-960 806-960 806-960 806-960 Horizontal Beamwidth 30º 30º 30º 30º 30º 30º 30º 30º 30º 30º 30º 30º 65º 65º 65º 65º 65º 65º 65º 65º 65º 65º 65º 65º 65º 65º 65º 65º 65º 65º 65º 65º 65º 65º 65º 65º 65º Gain 20dBi 20dBi 20dBi 20dBi 20dBi 20dBi 18.5D S-Wave 0809-30-18.5dBi 14.5dBi 18.Antenna 700/800/900 Dual Polarization +45º/–45º Type S-Wave 08-30-20D S-Wave 08-30-20DT3 S-Wave 08-30-20DT6 S-Wave 09-30-20D S-Wave 09-30-20DT3 S-Wave 09-30-20DT6 S-Wave 0809-30-18.5dBi Tilt 0º 3º 6º 0º 3º 6º 0º 3º 6º 0º 3º 0º 3º 6º 0º 3º 6º 0º 3º 6º 0º 3º 6º 0º 3º 6º 0º 3º 6º 0º 3º 6º 0º 3º 6º 0º 85 Base Station Antenna Solution 6º .5dBi 18.5DT3 S-Wave 0809-30-18.5DT6 S-Wave 08-65-15D S-Wave 08-65-15DT3 S-Wave 08-65-15DT6 S-Wave 08-65-17D S-Wave 08-65-17DT3 S-Wave 08-65-17DT6 S-Wave 08-65-18D S-Wave 08-65-18DT3 S-Wave 08-65-18DT6 S-Wave 09-65-15D S-Wave 09-65-15DT3 S-Wave 09-65-15DT6 S-Wave 09-65-17D S-Wave 09-65-17DT3 S-Wave 09-65-17DT6 S-Wave 09-65-18D S-Wave 09-65-18DT3 S-Wave 09-65-18DT6 S-Wave 0809-65-15D S-Wave 0809-65-15DT3 S-Wave 0809-65-15DT6 S-Wave 0809-65-16.5DT3 S-Wave 07-65-14.5dBi 15dBi 15dBi 15dBi 17dBi 17dBi 17dBi 18dBi 18dBi 18dBi 15dBi 15dBi 15dBi 17dBi 17dBi 17dBi 18dBi 18dBi 18dBi 15dBi 15dBi 15dBi 16.5dBi 14.5dBi 21dBi 21dBi 21dBi 14. 5DV10 S-Wave 0809-65-18DV8 S-Wave 08-90-17D S-Wave 08-90-17DT3 S-Wave 08-90-17DT6 Frequency 806-960 806-960 806-960 806-960 806-960 806-896 806-896 870-960 870-960 806-960 806-960 806-960 806-896 806-896 806-896 870-960 870-960 870-960 806-960 806-960 806-960 806-960 806-960 806-960 806-960 Horizontal Beamwidth 65º 65º 65º 65º 65º 65º 65º 65º 65º 65º 65º 65º 90º 90º 90º 90º 90º 90º 90º 90º 90º 90º 90º 90º 90º Gain 16.5DV8 S-Wave 0809-65-15DV14 S-Wave 0809-65-16.5dBi 18dBi 17dBi 17dBi 17dBi 17dBi 17dBi 17dBi 15.5D S-Wave 0809-90-15.5DT6 S-Wave 0809-65-18D S-Wave 0809-65-18DT3 S-Wave 0809-65-18DT6 S-Wave 08-65-15DV14 S-Wave 08-65-17.5dBi 17dBi 17dBi 17dBi 17dBi Tilt 3º 6º 0º 3º 6º 0º-14º 0º-8º 0º-14º 0º-8º 0º-14º 0º-10º 0º-8º 0º 3º 6º 0º 3º 6º 0º 3º 6º 0º 3º 6º 0º-10º Base Station Antenna Solution 86 S-Wave 09-90-17D S-Wave 09-90-17DT3 S-Wave 09-90-17DT6 S-Wave 0809-90-15.5dBi 16.5dBi 15dBi 16.5DT3 S-Wave 0809-65-16.5DT6 S-Wave 0809-90-17D S-Wave 0809-90-17DT3 S-Wave 0809-90-17DT6 S-Wave 0809-90-17DV10 .5dBi 15dBi 17.5DV8 S-Wave 09-65-15DV14 S-Wave 09-65-17.5DT3 S-Wave 0809-90-15.5dBi 15.Antenna 700/800/900 Dual Polarization +45º/–45º Type S-Wave 0809-65-16.5dBi 15.5dBi 18dBi 18dBi 18dBi 15dBi 17. Antenna 800/900 Vertical Polarization Type S-Wave 08-30-20 S-Wave 08-30-20T3 S-Wave 08-30-20T6 S-Wave 09-30-20 S-Wave 09-30-20T3 S-Wave 09-30-20T6 S-Wave 0809-30-20 S-Wave 0809-30-20T3 S-Wave 0809-30-20T6 S-Wave 08-65-15 S-Wave 08-65-15T3 S-Wave 08-65-15T6 S-Wave 08-65-17 S-Wave 08-65-17T3 S-Wave 08-65-17T6 S-Wave 08-65-18 S-Wave 08-65-18T3 S-Wave 08-65-18T6 S-Wave 09-65-15 S-Wave 09-65-15T3 S-Wave 09-65-15T6 S-Wave 09-65-17 S-Wave 09-65-17T3 S-Wave 09-65-17T6 S-Wave 09-65-18 S-Wave 09-65-18T3 S-Wave 09-65-18T6 Frequency 806-896 806-896 806-896 870-960 870-960 870-960 806-960 806-960 806-960 806-896 806-896 806-896 806-896 806-896 806-896 806-896 806-896 806-896 870-960 870-960 870-960 870-960 870-960 870-960 870-960 870-960 870-960 Horizontal Beamwidth 30º 30º 30º 30º 30º 30º 30º 30º 30º 65º 65º 65º 65º 65º 65º 65º 65º 65º 65º 65º 65º 65º 65º 65º 65º 65º 65º Gain 20dBi 20dBi 20dBi 20dBi 20dBi 20dBi 20dBi 20dBi 20dBi 15dBi 15dBi 15dBi 17dBi 17dBi 17dBi 18dBi 18dBi 18dBi 15dBi 15dBi 15dBi 17dBi 17dBi 17dBi 18dBi 18dBi 18dBi Tilt 0º 3º 6º 0º 3º 6º 0º 3º 6º 0º 3º 6º 0º 3º 6º 0º 3º 6º 0º 3º 6º 0º 3º 6º 0º 3º 6º 87 Base Station Antenna Solution . 5DV10 S-Wave U-65-15DV14 S-Wave U-65-18DV10 .5dBi 15.5DT3 S-Wave U-65-15.5DV10 S-Wave 21-65-17.5dBi 15.5DT6 S-Wave U-65-18D S-Wave U-65-18DT3 S-Wave U-65-18DT6 S-Wave U-65-19D S-Wave U-65-19DT3 S-Wave U-65-19DT6 S-Wave 18-65-17.Antenna 1800/1900/2000 Dual Polarization +45º/–45º Type S-Wave 18-33-21D S-Wave 18-33-21DT3 S-Wave 18-33-21DT6 S-Wave 21-33-21D S-Wave 21-33-21DT3 S-Wave 21-33-21DT6 S-Wave U-33-21D S-Wave U-33-21DT3 S-Wave U-33-21DT6 S-Wave 18-65-18D S-Wave 18-65-18DT3 S-Wave 18-65-18DT6 S-Wave 18-65-19D S-Wave 18-65-19DT3 S-Wave 18-65-19DT6 Frequency 1710-1880 1710-1880 1710-1880 1920-2170 1920-2170 1920-2170 1710-2170 1710-2170 1710-2170 1710-1880 1710-1880 1710-1880 1710-1880 1710-1880 1710-1880 1920-2170 1920-2170 1920-2170 1920-2170 1920-2170 1920-2170 1710-2170 1710-2170 1710-2170 1710-2170 1710-2170 1710-2170 1710-2170 1710-2170 1710-2170 1710-1880 1920-2170 1710-2170 1710-2170 Horizontal Beamwidth 33º 33º 33º 33º 33º 33º 33º 33º 33º 65º 65º 65º 65º 65º 65º 65º 65º 65º 65º 65º 65º 65º 65º 65º 65º 65º 65º 65º 65º 65º 65º 65º 65º 65º Gain 21dBi 21dBi 21dBi 21dBi 21dBi 21dBi 21dBi 21dBi 21dBi 18dBi 18dBi 18dBi 19dBi 19dBi 19dBi 18dBi 18dBi 18dBi 19dBi 19dBi 19dBi 15.5dBi 18dBi 18dBi 18dBi 19dBi 19dBi 19dBi 17.5dBi 17.5dBi 15dBi 18dBi Tilt 0º 3º 6º 0º 3º 6º 0º 3º 6º 0º 3º 6º 0º 3º 6º 0º 3º 6º 0º 3º 6º 0º 3º 6º 0º 3º 6º 0º 3º 6º 0º-10º 0º-10º 0º-14º 0º-10º Base Station Antenna Solution 88 S-Wave 21-65-18D S-Wave 21-65-18DT3 S-Wave 21-65-18DT6 S-Wave 21-65-19D S-Wave 21-65-19DT3 S-Wave 21-65-19DT6 S-Wave U-65-15.5D S-Wave U-65-15. Antenna 1800/1900/2000 Dual Polarization +45º/–45º Type S-Wave U-90-17D S-Wave U-90-17DT3 S-Wave U-90-17DT6 S-Wave U-90-17DV10 Frequency 1710-2170 1710-2170 1710-2170 1710-2170 Horizontal Beamwidth 90º 90º 90º 90º Gain 17dBi 17dBi 17dBi 17dBi Tilt 0º 3º 6º 0º-10º Antenna 1800/1900/2000 Vertical Polarization Type S-Wave 18-65-18 S-Wave 18-65-18T3 S-Wave 18-65-18T6 S-Wave 21-65-18 S-Wave 21-65-18T3 S-Wave 21-65-18T6 S-Wave U-65-18 S-Wave U-65-18T3 S-Wave U-65-18T6 Frequency 1710-1880 1710-1880 1710-1880 1920-2170 1920-2170 1920-2170 1710-2170 1710-2170 1710-2170 Horizontal Beamwidth 65º 65º 65º 65º 65º 65º 65º 65º 65º Gain 18dBi 18dBi 18dBi 18dBi 18dBi 18dBi 18dBi 18dBi 18dBi Tilt 0º 3º 0º 3º 6º 0º 3º 6º Dual Band Antennas --2 ports(with Inner Combiner) Dual Polarization +45º/–45º Type S-Wave 0809/U-65-14/17DC Frequency 806-960 1710-2170 Horizontal Beamwidth 65º 65 65º 65 65º 65 65º 65 65º 65 65º 65 65º 65 65º 65 65º 65 Gain 14dBi 17dBi 14dBi 17dBi 16dBi 18dBi 16dBi 18dBi 17dBi 18dBi 17dBi 18dBi 14dBi 17dBi 16dBi 18dBi 17dBi 18dBi Tilt 0º 0º 2º 6º 0º 0º 6º 6º 0º 0º 6º 6º 0º-14º 0º-8º 0º-8º 0º-8º 0º-8º 0º-8º S-Wave 0809/U-65-14/17DT2/T6C 806-960 1710-2170 806-960 1710-2170 806-960 1710-2170 806-960 1710-2170 806-960 1710-2170 806-960 1710-2170 806-960 1710-2170 806-960 1710-2170 S-Wave 0809/U-65-16/18DC S-Wave 0809/U-65-16/18DT6C S-Wave 0809/U-65-17/18DC S-Wave 0809/U-65-17/18DT6C S-Wave 0809/U-65-14/17DV14/V8C S-Wave 0809/U-65-16/18DV8C S-Wave 0809/U-65-17/18DV8C 89 Base Station Antenna Solution 6º . Dual Band Antennas --4 ports Dual Polarization +45º/–45º Type S-Wave 09/18-65-15/17D Frequency 870-960 1710-1880 Horizontal Beamwidth 65º 65 65º 65 65º 65 65º 65 65º 65 65º 65 65º 65 65º 65 65º 65 65º 65 65º 65 65º 65 65º 65 65º 65 65º 65º 65º 65º 65º 65º 65º 65º 65º 65º Gain 15dBi 17dBi 15dBi 17dBi 17dBi 18dBi 17dBi 18dBi 18dBi 18dBi 18dBi 18dBi 15dBi 17dBi 15dBi 17dBi 17dBi 18dBi 17dBi 18dBi 18dBi 18dBi 18dBi 18dBi 18dBi 18dBi 18dBi 18dBi 17dBi 18dBi 16dBi 18dBi 17dBi 18dBi 16dBi 18dBi 18dBi 18dBi Tilt 0º 0º 6º 6º 0º 0º 6º 6º 0º 0º 6º 6º 0º 0º 6º 6º 0º 0º 6º 6º 0º 0º 6º 6º 0º 0º 6º 6º 0º-8º 0º-8º 0º-8º 0º-8º 0º-8º 0º-8º 0º-8º 0º-8º 0º-8º 0º-8º S-Wave 09/18-65-15/17DT6 870-960 1710-1880 870-960 1710-1880 870-960 1710-1880 870-960 1710-1880 870-960 1710-1880 806-960 1710-2170 806-960 1710-2170 806-960 1710-2170 806-960 1710-2170 806-960 1710-2170 806-960 1710-2170 1710-2170 1710-2170 1710-2170 1710-2170 870-960 1710-1880 870-960 1710-1880 806-960 1710-2170 806-960 1710-2170 1710-2170 1710-2170 S-Wave 09/18-65-17/18D S-Wave 09/18-65-17/18DT6 S-Wave 09/18-65-18/18D S-Wave 09/18-65-18/18DT6 S-Wave 0809/U-65-15/17D S-Wave 0809/U-65-15/17DT6 Base Station Antenna Solution 90 S-Wave 0809/U-65-17/18D S-Wave 0809/U-65-17/18DT6 S-Wave 0809/U-65-18/18D S-Wave 0809/U-65-18/18DT6 S-Wave U/U-65-18/18D S-Wave U/U-65-18/18DT6 S-Wave 09/18-65-17/18DV8 S-Wave 09/18-65-16/18DV8 S-Wave 0809/U-65-17/18DV8 S-Wave 0809/U-65-16/18DV8 S-Wave U/U-65-18/18DV8 . 0DV8 1710-1880 1920-2170 806-960 S-Wave 0809/U/U-65-15/17/17DV12/V8/V8 1710-2170 1710-2170 806-960 S-Wave 0809/U/U-65-17.0dBi 15dBi 17dBi 17dBi 17.5dBi 17.0dBi 15.5/18.Triple Band Antennas --6 ports Dual Polarization +45°/-45° Type S-Wave 09/18/21-65-17.5dBi 18.0dBi 18.5/17.0dBi 18.5/18.5dBi 18dBi 18dBi Tilt 0º-8º 0º-8º 0º-8º 0º-8º 0º-8º 0º-8º 0º-12º 0º-8º 0º-8º 0º-8º 0º-8º 0º-8º S-Wave 0809/18/21-65-17.0dBi 17.0dBi 15.0dBi 18.5/17.0DV8 Frequency 870-960 1710-1880 1920-2170 870-960 Horizontal Beamwidth 65º 65º 65º 65º 65º 65º 65º 65º 65º 65º 65º 65º Gain 17.0dBi Tilt 0º-14º 0º-14º 0º-14º 0º-8º 0º-8º 0º-8º S-Wave U/U/U-65-18DV8S 1710-2170 1710-2170 Remote Control Unit Type S-Wave RCU-001 S-Wave RCU-002 Mounting Configurations Type S-Wave 67-1-mounting bracket S-Wave 70-2-mounting bracket 91 Base Station Antenna Solution .5/18/18DV8 1710-2170 1710-2170 Tri-Sector Antennas Dual Polarization +45°/-45° Type S-Wave U/U/U-65-15DV14S Frequency 1710-2170 1710-2170 1710-2170 1710-2170 Horizontal Beamwidth 65º 65º 65º 65º 65º 65º Gain 15.5dBi 17.5dBi 18. 3º.0dBi FET0º.0dBi 32º 9º 0º. 3º. 0º Impedance VSWR IMD3@2×43dBm carrier Max.4 <-150dBc 500W S-Wave 08-30-20D S-Wave 08-30-20DT3 S-Wave 08-30-20DT6 Antenna 700/800/900Dual Polarization +45°/–45° 92 806~896 +45º 806~896 -45º 7-16 DIN 7-16 DIN Mechanical Specifications Connector type 2×7-16DIN(F) 40Kg 200Km/h 2300×565×100MM Horizontal Pattern 806-896MHz Vertical Pattern Weight Max. copolar Isolation Cross-polar ratio. wind velocity Dimension . 6º. Fixed >16dB >28dB >30dB >20dB 50Ω <1. 6º Part Number Electrical specifications Frequency range Polarization Gain Horizontal 3dB beam width Vertical 3dB beam width Electrical down tilt First Upper sidelobe suppression Front to back ratio. power per input 806-896MHz ±45º 20.PRODUCT SERIES Antenna 700/800/900 Dual Polarization +45º/–45º Xpol Panel 806-896 30º 20. 0dBi FET0º. wind velocity Dimension 93 Antenna 700/800/900Dual Polarization +45°/–45° . 3º. 3º. Fixed >16dB >28dB >30dB >20dB 50Ω <1. 870~960 -45º. power per input 870-960MHz ±45º 20dBi 30º 8. 0º Impedance VSWR IMD3@2×43dBm carrier Max. copolar Isolation Cross-polar ratio. 6º. 6º Part Number Electrical specifications Frequency range Polarization Gain Horizontal 3dB beam width Vertical 3dB beam width Electrical down tilt First Upper sidelobe suppression Front to back ratio. 7-16 DIN 7-16 DIN Mechanical Specifications Connector type 2×7-16DIN(F) 40Kg 200Km/h 2300×565×100 Horizontal Pattern 870-960MHz Vertical Pattern Weight Max.5º 0º.4 <-150dBc 500W S-Wave 09-30-20D S-Wave 09-30-20DT3 S-Wave 09-30-20DT6 870~960 +45º.Xpol Panel 870-960 30º 20. Fixed >15dB >30dB >30dB >18dB >10dB 50Ω <1. 3º.Xpol Panel 806-960 30º 18. 3º.5dBi FET0º.5D S-Wave 0809-30-18. 6º. 3º.5DT3 S-Wave 0809-30-18. copolar Isolation Cross-polar ratio. 0º ±60º Impedance VSWR IMD3@2×43dBm carrier Max. wind velocity Dimension Horizontal Pattern 870-960MHz Vertical Pattern .5dBi 29º 14º 0º.5DT6 806-896MHz ±45º 18dBi 31º 15º 0º. Fixed >15dB >30dB >30dB >18dB >10dB 806~960 +45º 806~960 -45º Antenna 700/800/900Dual Polarization +45°/–45° 94 7-16 DIN 7-16 DIN Mechanical Specifications Connector type 2×7-16DIN(F) 22Kg 200Km/h 1296×565×100MM Horizontal Pattern 806-896MHz Vertical Pattern Weight Max.4 <-150dBc 500W 870-960MHz ±45º 18. 6º. power per input S-Wave 0809-30-18. 6º Part Number Electrical specifications Frequency range Polarization Gain Horizontal 3dB beam width Vertical 3dB beam width Electrical down tilt First Upper sidelobe suppression Front to back ratio. 6º. 3º. 3º. Fixed >15dB >30dB >30dB >18dB >10dB 50Ω <1.5º 0º.4 <-150dBc 500W 870-960MHz ±45º 20. 3º.5º 0º. 6º. 806×960 -45º. 0º ±60º Impedance VSWR IMD3@2×43dBm carrier Max. copolar Isolation Cross-polar ratio. Fixed >15dB >30dB >30dB >18dB >10dB 7-16 DIN 7-16 DIN Mechanical Specifications Connector type 2×7-16DIN(F) 40Kg 200Km/h 2416×565×100MM Horizontal Pattern 806-896MHz Vertical Pattern Weight Max. .Xpol Panel 806-960 30º 21dBi FET0º. power per input S-Wave 0809-30-21D S-Wave 0809-30-21DT3 S-Wave 0809-30-21DT6 806-896MHz ±45º 20dBi 31º 8. wind velocity Dimension Horizontal Pattern 870-960MHz Vertical Pattern 95 Antenna 700/800/900Dual Polarization +45°/–45° 806×960 +45º. 6º Part Number Electrical specifications Frequency range Polarization Gain Horizontal 3dB beam width Vertical 3dB beam width Electrical down tilt First Upper sidelobe suppression Front to back ratio.5dBi 29º 7. 3º.Xpol Panel 698-896 65º 14. power per input S-Wave 07-65-14. Fixed >12dB >25dB >30dB >18dB >10dB 50Ω <1.5dBi FET0º. 0º ±60º Impedance VSWR IMD3@2×43dBm carrier Max. copolar Isolation Cross-polar ratio.4 <-150dBc 500W 698-896 +45º 698-896 -45º Antenna 700/800/900Dual Polarization +45°/–45° 96 7-16 DIN 7-16 DIN Mechanical Specifications Connector type 2×7-16DIN(F) 15Kg 200Km/h 1300×300×180MM Horizontal Pattern 698-896MHz Vertical Pattern Weight Max.5D S-Wave 07-65-14.3dBi 65º 16º 0º. 6º. wind velocity Dimension . 3º.5DT6 698-896MHz ±45º 14.5DT3 S-Wave 07-65-14. 6º Part Number Electrical specifications Frequency range Polarization Gain Horizontal 3dB beam width Vertical 3dB beam width Electrical down tilt First Upper sidelobe suppression Front to back ratio. Fixed >15dB >25dB >30dB >18dB >10dB 50Ω <1. copolar Isolation Cross-polar ratio. power per input S-Wave 08-65-15D S-Wave 08-65-15DT3 S-Wave 08-65-15DT6 806-896MHz ±45º 15dBi 65º 15º 0º.Xpol Panel 806-896 65º 15.0dBi FET0º. 3º. 3º. 0º ±60º Impedance VSWR IMD3@2×43dBm carrier Max.4 <-150dBc 500W 7-16 DIN 7-16 DIN Mechanical Specifications Connector type Weight 2×7-16DIN(F) 13Kg 200Km/h 1300×282×100MM Horizontal Pattern 698-896MHz Vertical Pattern Max. 6º Part Number Electrical specifications Frequency range Polarization Gain Horizontal 3dB beam width Vertical 3dB beam width Electrical down tilt First Upper sidelobe suppression Front to back ratio. 6º. wind velocity Dimension 97 Antenna 700/800/900Dual Polarization +45°/–45° 806~896 +45º 806~896 -45º . 3º.Xpol Panel 806-896 65º 17.5dBi 65º 10º 0º. 3º.0dBi FET0º. Fixed >16dB >25dB >30dB >18dB >10dB 50Ω <1. 0º ±60º Impedance VSWR IMD3@2×43dBm carrier Max. 6º Part Number Electrical specifications Frequency range Polarization Gain Horizontal 3dB beam width Vertical 3dB beam width Electrical down tilt First Upper sidelobe suppression Front to back ratio. wind velocity Dimension .4 <-150dBc 500W 806~896 +45º 806~896 -45º Antenna 700/800/900Dual Polarization +45°/–45° 98 7-16 DIN 7-16 DIN Mechanical Specifications Connector type 2×7-16DIN(F) 16Kg 200Km/h 1950×282×100MM Horizontal Pattern 698-896MHz Vertical Pattern Weight Max. power per input S-Wave 08-65-17D S-Wave 08-65-17DT3 S-Wave 08-65-17DT6 806-896MHz ±45º 16. 6º. copolar Isolation Cross-polar ratio. 3º.Xpol Panel 806-896 65º 18. 0º ±60º Impedance VSWR IMD3@2×43dBm carrier Max. 3º. wind velocity Dimension 99 Antenna 700/800/900Dual Polarization +45°/–45° 806~896 +45º 806~896 -45º . 6º Part Number Electrical specifications Frequency range Polarization Gain Horizontal 3dB beam width Vertical 3dB beam width Electrical down tilt First Upper sidelobe suppression Front to back ratio.0dBi FET0º. power per input S-Wave 08-65-18D S-Wave 08-65-18DT3 S-Wave 08-65-18DT6 806-896MHz ±45º 17. 6º. copolar Isolation Cross-polar ratio.4 <-150dBc 500W 7-16 DIN 7-16 DIN Mechanical Specifications Connector type Weight 2×7-16DIN(F) 21Kg 200Km/h 2640×282×100MM Horizontal Pattern 698-896MHz Vertical Pattern Max.8dBi 65º 7.5º 0º. Fixed >16dB >25dB >30dB >18dB >10dB 50Ω <1. Xpol Panel 870-960 65º 15. 6º. 3º. wind velocity Dimension . 3º. power per input S-Wave 09-65-15D S-Wave 09-65-15DT3 S-Wave 09-65-15DT6 870-960MHz ±45º 15dBi 65º 14º 0º. Fixed >15dB >25dB >30dB >18dB >10dB 50Ω <1. copolar Isolation Cross-polar ratio. 6º Part Number Electrical specifications Frequency range Polarization Gain Horizontal 3dB beam width Vertical 3dB beam width Electrical down tilt First Upper sidelobe suppression Front to back ratio.0dBi FET0º.4 <-150dBc 500W 870~960 +45º 870~960 -45º Antenna 700/800/900Dual Polarization +45°/–45° 100 7-16 DIN 7-16 DIN Mechanical Specifications Connector type 2×7-16DIN(F) 12Kg 200Km/h 1300×282×100MM Horizontal Pattern 870-960MHz Vertical Pattern Weight Max. 0º ±60º Impedance VSWR IMD3@2×43dBm carrier Max. 0dBi FET0º.0º 0º. 0º ±60º Impedance VSWR IMD3@2×43dBm carrier Max. Fixed >16dB >25dB >30dB >18dB >10dB 50Ω <1.4 <-150dBc 500W 7-16 DIN 7-16 DIN Mechanical Specifications Connector type 2×7-16DIN(F) 15Kg 200Km/h 1950×282×100MM Horizontal Pattern 870-960MHz Vertical Pattern Weight Max. 6º.Xpol Panel 870-960 65º 17. 3º. power per input S-Wave 09-65-17D S-Wave 09-65-17DT3 S-Wave 09-65-17DT6 870-960MHz ±45º 17dBi 65º 9. wind velocity Dimension 101 Antenna 700/800/900Dual Polarization +45°/–45° 870~960 +45º 870~960 -45º . 3º. copolar Isolation Cross-polar ratio. 6º Part Number Electrical specifications Frequency range Polarization Gain Horizontal 3dB beam width Vertical 3dB beam width Electrical down tilt First Upper sidelobe suppression Front to back ratio. 0º 0º.Xpol Panel 870-960 65º 18.0dBi 65º 7. 6º. power per input S-Wave 09-65-18D S-Wave 09-65-18DT3 S-Wave 09-65-18DT6 870-960MHz ±45º 18. 0º ±60º Impedance VSWR IMD3@2×43dBm carrier Max. Fixed >16dB >25dB >30dB >18dB >10dB 50Ω <1. wind velocity Dimension . 3º. 6º Part Number Electrical specifications Frequency range Polarization Gain Horizontal 3dB beam width Vertical 3dB beam width Electrical down tilt First Upper sidelobe suppression Front to back ratio.0dBi FET0º. copolar Isolation Cross-polar ratio.4 <-150dBc 500W 870~960 +45º 870~960 -45º Antenna 700/800/900Dual Polarization +45°/–45° 102 7-16 DIN 7-16 DIN Mechanical Specifications Connector type 2×7-16DIN(F) 21Kg 200Km/h 2640×282×100MM Horizontal Pattern 870-960MHz Vertical Pattern Weight Max. 3º. 5dBi 68º 16º 0º.4 <-150dBc 500W 870-960MHz ±45º 15dBi 65º 15º 0º. 3º. Fixed >25dB >30dB >18dB >10dB 806~896 +45º 806~896 -45º 7-16 DIN 7-16 DIN Mechanical Specifications Connector type 2×7-16DIN(F) 11Kg 200Km/h 1300×282×100MM Horizontal Pattern 806-896MHz Vertical Pattern Weight Max. copolar Isolation Cross-polar ratio. 6º Part Number Electrical specifications Frequency range Polarization Gain Horizontal 3dB beam width Vertical 3dB beam width Electrical down tilt Front to back ratio. 6º.Xpol Panel 806-960 65º 15dBi FET0º. wind velocity Dimension Horizontal Pattern 870-960MHz Vertical Pattern 103 Antenna 700/800/900Dual Polarization +45°/–45° . 3º. 0º ±60º Impedance VSWR IMD3@2×43dBm carrier Max. 3º. 6º. power per input S-Wave 0809-65-15D S-Wave 0809-65-15DT3 S-Wave 0809-65-15DT6 806-896MHz ±45º 14. Fixed >25dB >30dB >18dB >10dB 50Ω <1. 5dBi 65º 9º 0º. Fixed >16dB >25dB >30dB >18dB >10dB 806~960 +45º 806~960 -45º Antenna 700/800/900Dual Polarization +45°/–45° 104 7-16 DIN 7-16 DIN Mechanical Specifications Connector type 2×7-16DIN(F) 18Kg 200Km/h 1996×282×100MM Horizontal Pattern 806-896MHz Vertical Pattern Weight Max.5D S-Wave 0809-65-16. 3º. power per input S-Wave 0809-65-16. 3º.5DT3 S-Wave 0809-65-16.5dBi FET0º.Xpol Panel 806-960 65º 16. copolar Isolation Cross-polar ratio. Fixed >16dB >25dB >30dB >18dB >10dB 50Ω <1. 6º. wind velocity Dimension Horizontal Pattern 870-960MHz Vertical Pattern . 6º. 0º ±60º Impedance VSWR IMD3@2×43dBm carrier Max.5DT6 806-896MHz ±45º 16dBi 68º 10º 0º. 3º.4 <-150dBc 500W 870-960MHz ±45º 16. 6º Part Number Electrical specifications Frequency range Polarization Gain Horizontal 3dB beam width Vertical 3dB beam width Electrical down tilt First Upper sidelobe suppression Front to back ratio. 3º. power per input S-Wave 0809-65-18D S-Wave 0809-65-18DT3 S-Wave 0809-65-18DT6 806-896MHz ±45º 17. Fixed >16dB >25dB >30dB >18dB >10dB 7-16 DIN 7-16 DIN Mechanical Specifications Connector type 2×7-16DIN(F) 21Kg 200Km/h 2640×282×100MM Horizontal Pattern 806-896MHz Vertical Pattern Weight Max. Fixed >16dB >25dB >30dB >18dB >10dB 50Ω <1. 3º. 6º Part Number Electrical specifications Frequency range Polarization Gain Horizontal 3dB beam width Vertical 3dB beam width Electrical down tilt First Upper sidelobe suppression Front to back ratio. 0º ±60º Impedance VSWR IMD3@2×43dBm carrier Max. 3º.4 <-150dBc 500W 870-960MHz ±45º 17. wind velocity Dimension Horizontal Pattern 870-960MHz Vertical Pattern 105 Antenna 700/800/900Dual Polarization +45°/–45° 806~960 +45º 806~960 -45º .5dBi 65º 7º 0º. 6º. copolar Isolation Cross-polar ratio. 6º.2dBi 68º 7.Xpol Panel 806-960 65º 18dBi FET0º.5º 0º. 5 <-150dBc 400W S-Wave 08-65-15DV14 806-896 +45º 806-896 -45º Antenna 700/800/900Dual Polarization +45°/–45° 106 7-16 DIN 7-16 DIN Mechanical Specifications Horizontal Pattern 806-896MHz Vertical Pattern Connector type Weight Max. wind velocity Dimension 2×7-16DIN(F) 12Kg 200Km/h 1300×282×100MM .8dBi 65º 15º 0º-14º >14dB >25dB >30dB >18dB >10dB 50Ω <1. 0º ±60º Impedance VSWR IMD3@2×43dBm carrier Max. power per input 806-896MHz ±45º 14.Xpol Panel 806-896 65º 15dBi VET0º-14º Adjust. copolar Isolation Cross-polar ratio. Electrical Downtilt set by hand or by optional RCU Part Number Electrical specifications Frequency range Polarization Gain Horizontal 3dB beam width Vertical 3dB beam width Electrical down tilt First Upper sidelobe suppression Front to back ratio. 0º ±60º Impedance VSWR IMD3@2×43dBm carrier Max.5 <-150dBc 400W S-Wave 08-65-17. wind velocity Dimension 2×7-16DIN(F) 18Kg 200Km/h 2254×282×100MM 107 Antenna 700/800/900Dual Polarization +45°/–45° . copolar Isolation Cross-polar ratio.5dBi VET0º-8º Adjust.Xpol Panel 806-896 65º 17. Electrical Downtilt set by hand or by optional RCU Part Number Electrical specifications Frequency range Polarization Gain Horizontal 3dB beam width Vertical 3dB beam width Electrical down tilt First Upper sidelobe suppression Front to back ratio.2dBi 65º 9º 0º-8º >16dB >25dB >30dB >18dB >10dB 50Ω <1.5DV8 806-896 +45º 806-896 -45º 7-16 DIN 7-16 DIN Mechanical Specifications Horizontal Pattern 806-896MHz Vertical Pattern Connector type Weight Max. power per input 806-896MHz ±45º 17. copolar Isolation Cross-polar ratio.Xpol Panel 870-960 65º 15dBi VET0º-14º Adjust. 0º ±60º Impedance VSWR IMD3@2×43dBm carrier Max. power per input 870-960MHz ±45º 15. Electrical Downtilt set by hand or by optional RCU Part Number Electrical specifications Frequency range Polarization Gain Horizontal 3dB beam width Vertical 3dB beam width Electrical down tilt First Upper sidelobe suppression Front to back ratio. wind velocity Dimension .5 <-150dBc 400W S-Wave 09-65-15DV14 870-960 +45º 870-960 -45º Antenna 700/800/900Dual Polarization +45°/–45° 108 7-16 DIN 7-16 DIN Mechanical Specifications Connector type 2×7-16DIN(F) 12Kg 200Km/h 1300×282×100MM Horizontal Pattern 870-960MHz Vertical Pattern Weight Max.0dBi 65º 15º 0º-14º >14dB >25dB >30dB >18dB >10dB 50Ω <1. Xpol Panel 870-960 65º 17. Electrical Downtilt set by hand or by optional RCU Part Number Electrical specifications Frequency range Polarization Gain Horizontal 3dB beam width Vertical 3dB beam width Electrical down tilt First Upper sidelobe suppression Front to back ratio.5DV8 870-960 +45º 870-960 -45º 7-16 DIN 7-16 DIN Mechanical Specifications Connector type 2×7-16DIN(F) 22Kg 200Km/h 2580×282×100MM Horizontal Pattern 870-960MHz Vertical Pattern Weight Max.5 <-150dBc 400W S-Wave 09-65-17. 0º ±60º Impedance VSWR IMD3@2×43dBm carrier Max.5dBi VET0º-8º Adjust. copolar Isolation Cross-polar ratio.5º 0º-8º >16dB >25dB >30dB >18dB >10dB 50Ω <1. wind velocity Dimension 109 Antenna 700/800/900Dual Polarization +45°/–45° . power per input 870-960MHz ±45º 17.5dBi 65º 8. 5dBi 68º 16º 0º-14º >25dB >30dB >18dB >10dB 50Ω <1.5 <-150dBc 400W 870-960MHz ±45º 15dBi 65º 15º 0º-14º >25dB >30dB >18dB >10dB S-Wave 0809-65-15DV14 806~960 +45º 806~960 -45º Antenna 700/800/900Dual Polarization +45°/–45° 110 7-16 DIN 7-16 DIN Horizontal Pattern 806-896MHz Vertical Pattern Mechanical Specifications Connector type Weight Max. copolar Isolation Cross-polar ratio. wind velocity Dimension 2×7-16DIN(F) 12Kg 200Km/h 1300×282×100MM Horizontal Pattern 870-960MHz Vertical Pattern . 0º ±60º Impedance VSWR IMD3@2×43dBm carrier Max. power per input 806-896MHz ±45º 14. Electrical Downtilt set by hand or by optional RCU Part Number Electrical specifications Frequency range Polarization Gain Horizontal 3dB beam width Vertical 3dB beam width Electrical down tilt Front to back ratio.Xpol Panel 806-960 65º 15dBi VET0º-14º Adjust. power per input 806-896MHz ±45º 15. 0º ±60º Impedance VSWR IMD3@2×43dBm carrier Max.5DV10 7-16 DIN 7-16 DIN Horizontal Pattern 806-896MHz Vertical Pattern Mechanical Specifications Connector type Weight Max.5dBi VET0º-10º Adjust.Xpol Panel 806-960 65º 16.8dBi 68º 10º 0º-10º >25dB >30dB >18dB >10dB 50Ω <1. wind velocity Dimension 2×7-16DIN(F) 18Kg 200Km/h 1996×282×100MM Horizontal Pattern 870-960MHz Vertical Pattern 111 Antenna 700/800/900Dual Polarization +45°/–45° 806~960 +45º 806~960 -45º .5º 0º-10º >25dB >30dB >18dB >10dB S-Wave 0809-65-16. copolar Isolation Cross-polar ratio. Electrical Downtilt set by hand or by optional RCU Part Number Electrical specifications Frequency range Polarization Gain Horizontal 3dB beam width Vertical 3dB beam width Electrical down tilt Front to back ratio.5 <-150dBc 400W 870-960MHz ±45º 16.2dBi 65º 9. power per input 806-896MHz ±45º 17dBi 68º 7.5º 0º-8º >25dB >30dB >18dB >10dB 50Ω <1. wind velocity Dimension 2×7-16DIN(F) 23Kg 200Km/h 2640×282×100MM Horizontal Pattern 870-960MHz Vertical Pattern .Xpol Panel 806-960 65º 18dBi VET0º-8º Adjust.3º 0º-8º >25dB >30dB >18dB >10dB S-Wave 0809-65-18DV8 806~960 +45º 806~960 -45º Antenna 700/800/900Dual Polarization +45°/–45° 112 7-16 DIN 7-16 DIN Horizontal Pattern 806-896MHz Vertical Pattern Mechanical Specifications Connector type Weight Max. Electrical Downtilt set by hand or by optional RCU Part Number Electrical specifications Frequency range Polarization Gain Horizontal 3dB beam width Vertical 3dB beam width Electrical down tilt Front to back ratio. 0º ±60º Impedance VSWR IMD3@2×43dBm carrier Max.5dBi 65º 7. copolar Isolation Cross-polar ratio.5 <-150dBc 400W 870-960MHz ±45º 17. 4 <-150dBc 500W 7-16 DIN 7-16 DIN Mechanical Specifications Connector type 2×7-16DIN(F) 20Kg 200Km/h 2500×282×100MM Horizontal Pattern 806-896MHz Vertical Pattern Weight Max. Fixed >16dB >23dB >30dB >18dB >10dB 50Ω <1. power per input S-Wave 08-90-17D S-Wave 08-90-17DT3 S-Wave 08-90-17DT6 806-896MHz ±45º 16. 0º ±60º Impedance VSWR IMD3@2×43dBm carrier Max.6dBi 90º 8.0º 0º. wind velocity Dimension 113 Antenna 700/800/900Dual Polarization +45°/–45° 806~896 +45º 806~896 -45º . 6º. 3º. 6º Part Number Electrical specifications Frequency range Polarization Gain Horizontal 3dB beam width Vertical 3dB beam width Electrical down tilt First Upper sidelobe suppression Front to back ratio. 3º.Xpol Panel 806-896 90º 17. copolar Isolation Cross-polar ratio.0dBi FET0º. Fixed >16dB >23dB >30dB >18dB >10dB 50Ω <1. 3º. wind velocity Dimension . copolar Isolation Cross-polar ratio.5º 0º. 6º Part Number Electrical specifications Frequency range Polarization Gain Horizontal 3dB beam width Vertical 3dB beam width Electrical down tilt First Upper sidelobe suppression Front to back ratio.4 <-150dBc 500W 870-960 +45º 870-960 -45º Antenna 700/800/900Dual Polarization +45°/–45° 114 7-16 DIN 7-16 DIN Mechanical Specifications Connector type 2×7-16DIN(F) 20Kg 200Km/h 2500×282×100MM Horizontal Pattern 870-960MHz Vertical Pattern Weight Max. 3º. 6º.Xpol Panel 870-960 90º 17.0dBi FET0º. power per input S-Wave 09-90-17D S-Wave 09-90-17DT3 S-Wave 09-90-17DT6 870-960MHz ±45º 17dBi 90º 7. 0º ±60º Impedance VSWR IMD3@2×43dBm carrier Max. 5DT3 S-Wave 0809-90-15. 6º Part Number Electrical specifications Frequency range Polarization Gain Horizontal 3dB beam width Vertical 3dB beam width Electrical down tilt First Upper sidelobe suppression Front to back ratio. 6º. power per input S-Wave 0809-90-15. wind velocity Dimension 2×7-16DIN(F) 14Kg 200Km/h 1936×282×100MM Horizontal Pattern 870-960MHz Vertical Pattern 115 Antenna 700/800/900Dual Polarization +45°/–45° 806~960 +45º 806~960 -45º .5dBi FET0º.Xpol Panel 806-960 90º 15.5 <-150dBc 500W 870-960MHz ±45º 15.5º 0º. 0º ±60º Impedance VSWR IMD3@2×43dBm carrier Max.3dBi 90º 10. Fixed >15dB >23dB >30dB >18dB >10dB 50Ω <1. 3º. copolar Isolation Cross-polar ratio.5D S-Wave 0809-90-15.5DT6 806-896MHz ±45º 15 . 3º.5dBi 88º 10º 0º. Fixed >15dB >23dB >30dB >18dB >10dB 7-16 DIN 7-16 DIN Mechanical Specifications Horizontal Pattern 806-896MHz Vertical Pattern Connector type Weight Max. 3º. 6º. 3º.8dBi 88º 8º 0º. wind velocity Dimension Horizontal Pattern 870-960MHz Vertical Pattern . copolar Isolation Cross-polar ratio.5º 0º. 3º. 6º. 0º ±60º Impedance VSWR IMD3@2×43dBm carrier Max.5 <-150dBc 500W 870-960MHz ±45º 16. 3º. power per input S-Wave 0809-90-17D S-Wave 0809-90-17DT3 S-Wave 0809-90-17DT6 806-896MHz ±45º 16. 6º Part Number Electrical specifications Frequency range Polarization Gain Horizontal 3dB beam width Vertical 3dB beam width Electrical down tilt First Upper sidelobe suppression Front to back ratio. Fixed >16dB >23dB >30dB >18dB >10dB 806~960 +45º 806~960 -45º Antenna 700/800/900Dual Polarization +45°/–45° 116 7-16 DIN 7-16 DIN Mechanical Specifications Connector type 2×7-16DIN(F) 17Kg 200Km/h 2400×282×100MM Horizontal Pattern 806-896MHz Vertical Pattern Weight Max.Xpol Panel 806-960 90º 17dBi FET0º. 6º. Fixed >16dB >23dB >30dB >18dB >10dB 50Ω <1.5dBi 85º 8. 5 <-150dBc 400W 870-960MHz ±45º 16.Xpol Panel 806-960 90º 17dBi VET0º-10º Adjust. copolar Isolation Cross-polar ratio.5º 0º-10º >23dB >30dB >30dB >18dB >10dB S-Wave 0809-90-17DV10 7-16 DIN 7-16 DIN Mechanical Specifications Connector type 2×7-16DIN(F) 18Kg 200Km/h 2580×282×100MM Horizontal Pattern 806-896MHz Vertical Pattern Weight Max. power per input 806-896MHz ±45º 16dBi 90º 8º 0º-10º >23dB >30dB >30dB >18dB >10dB 50Ω <1. wind velocity Dimension Horizontal Pattern 870-960MHz Vertical Pattern 117 Antenna 700/800/900Dual Polarization +45°/–45° 806~960 +45º 806~960 -45º . Electrical Downtilt set by hand or by optional RCU Part Number Electrical specifications Frequency range Polarization Gain Horizontal 3dB beam width Vertical 3dB beam width Electrical down tilt First Upper sidelobe suppression Front to back ratio. 0º ±60º Impedance VSWR IMD3@2×43dBm carrier Max.2dBi 88º 7. 0dBi FET0º.0dBi 32º 9º 0º.0 S-Wave 08-30-20. 3º. 6º S-Wave 08-30-20. Fixed >16dB >28dB >30dB 50Ω <1. 6º.0T6 806-896MHz Vertical 20.Antenna 800/900 Vertical Polarization Vpol Panel 806-896 30º 20. wind velocity Dimension . power per input Antenna 800/900Vertical Polarization 118 806~896 +45º 806~896 -45º 7-16 DIN 7-16 DIN Mechanical Specifications Connector type 2×7-16DIN(F) 40Kg 200Km/h 2300×565×100MM Horizontal Pattern 806-896MHz Vertical Pattern Weight Max.0T3 S-Wave 08-30-20.4 <-150dBc 500W Part Number Electrical specifications Frequency range Polarization Gain Horizontal 3dB beam width Vertical 3dB beam width Electrical down tilt First upper sidelobe suppression IMD3@2×43dBm carrier Isolation Impedance VSWR IMD3@2×43dBm carrier Max. 3º. 0T6 870-960MHz Vertical 20dBi 30º 8.5º 0º. 6º. 3º.0 S-Wave 09-30-20. 870~960 -45º. power per input 870~960 +45º. 3º. 6º S-Wave 09-30-20.0T3 S-Wave 09-30-20.0dBi FET0º.4 <-150dBc 500W Part Number Electrical specifications Frequency range Polarization Gain Horizontal 3dB beam width Vertical 3dB beam width Electrical down tilt First upper sidelobe suppression IMD3@2×43dBm carrier Isolation Impedance VSWR IMD3@2×43dBm carrier Max. wind velocity Dimension 119 Antenna 800/900Vertical Polarization . Fixed >16dB >28dB >30dB 50Ω <1.Vpol Panel 870-960 30º 20. 7-16 DIN 7-16 DIN Mechanical Specifications Connector type 2×7-16DIN(F) 40Kg 200Km/h 2300×565×100MM Horizontal Pattern 870-960MHz Vertical Pattern Weight Max. Fixed >16dB >28dB >30dB 50Ω <1. 6º. 3º. 6º. 3º. 6º Part Number Electrical specifications Frequency range Polarization Gain Horizontal 3dB beam width Vertical 3dB beam width Electrical down tilt First upper sidelobe suppression IMD3@2×43dBm carrier Isolation Impedance VSWR IMD3@2×43dBm carrier Max.0dBi 29º 8. 3º.5º 0º.4 <-150dBc 500W 870-960MHz ±45º 20.0º 0º. wind velocity Dimension 2×7-16DIN(F) 40Kg 200Km/h 2300×565×100MM Horizontal Pattern 870-960MHz Vertical Pattern .Vpol Panel 806-960 30º 20dBi FET0º. Fixed >16dB >28dB >30dB 806~960 +45º 806~960 -45º Antenna 800/900Vertical Polarization 120 7-16 DIN 7-16 DIN Mechanical Specifications Horizontal Pattern 806-896MHz Vertical Pattern Connector type Weight Max. power per input S-Wave 0809-30-20 S-Wave 0809-30-20T3 S-Wave 0809-30-20T6 806-896MHz ±45º 19.7dBi 31º 9. 0T6 806-896MHz Vertical 15dBi 65º 15º 0º. 3º. 6º Part Number Electrical specifications Frequency range Polarization Gain Horizontal 3dB beam width Vertical 3dB beam width Electrical down tilt First upper sidelobe suppression IMD3@2×43dBm carrier Isolation Impedance VSWR IMD3@2×43dBm carrier Max. Fixed >15dB >25dB >30dB 50Ω <1. power per input S-Wave 08-65-15.0dBi FET0º. wind velocity Dimension 2×7-16DIN(F) 12Kg 200Km/h 1300×282×100MM 121 Antenna 800/900Vertical Polarization .4 <-150dBc 500W 806~896 +45º. 6º.0T3 S-Wave 08-65-15. 7-16 DIN 7-16 DIN Mechanical Specifications Horizontal Pattern 806-896MHz Vertical Pattern Connector type Weight Max. 3º.Vpol Panel 806-896 65º 15.0 S-Wave 08-65-15. 806~896 -45º. power per input S-Wave 08-65-17. 6º Part Number Electrical specifications Frequency range Polarization Gain Horizontal 3dB beam width Vertical 3dB beam width Electrical down tilt First upper sidelobe suppression IMD3@2×43dBm carrier Isolation Impedance VSWR IMD3@2×43dBm carrier Max.5dBi 65º 10º 0º.0 S-Wave 08-65-17. Fixed >16dB >25dB >30dB 50Ω <1. 3º.0dBi FET0º. wind velocity Horizontal Pattern 806-896MHz Vertical Pattern Dimension .0T6 806-896MHz Vertical 16.0T3 S-Wave 08-65-17.4 <-150dBc 500W 806~896 +45º. Antenna 800/900Vertical Polarization 122 7-16 DIN 7-16 DIN Mechanical Specifications Connector type 2×7-16DIN(F) 18Kg 200Km/h 1950×282×100MM Weight Max.Vpol Panel 806-896 65º 17. 806~896 -45º. 6º. 3º. 3º. 3º.0dBi FET0º. wind velocity Horizontal Pattern 806-896MHz Vertical Pattern Dimension 123 Antenna 800/900Vertical Polarization . 7-16 DIN 7-16 DIN Mechanical Specifications Connector type 2×7-16DIN(F) 22Kg 200Km/h 2640×282×100MM Weight Max. power per input S-Wave 08-65-18.0 S-Wave 08-65-18.Vpol Panel 806-896 65º 18. 6º. Fixed >16dB >25dB >30dB 50Ω <1. 806~896 -45º. 6º Part Number Electrical specifications Frequency range Polarization Gain Horizontal 3dB beam width Vertical 3dB beam width Electrical down tilt First upper sidelobe suppression IMD3@2×43dBm carrier Isolation Impedance VSWR IMD3@2×43dBm carrier Max.4 <-150dBc 500W 806~896 +45º.0T3 S-Wave 08-65-18.5º 0º.8dBi 65º 7.0T6 806-896MHz Vertical 17. 3º.4 <-150dBc 500W 870~960 +45º. 3º. Antenna 800/900Vertical Polarization 124 7-16 DIN 7-16 DIN Mechanical Specifications Connector type 2×7-16DIN(F) 12Kg 200Km/h 1300×282×100MM Horizontal Pattern 870-960MHz Vertical Pattern Weight Max.0T3 S-Wave 09-65-15. 6º. 6º Part Number Electrical specifications Frequency range Polarization Gain Horizontal 3dB beam width Vertical 3dB beam width Electrical down tilt First upper sidelobe suppression IMD3@2×43dBm carrier Isolation Impedance VSWR IMD3@2×43dBm carrier Max.0dBi FET0º.Vpol Panel 870-960 65º 15.0T6 870-960MHz Vertical 15dBi 65º 14º 0º. Fixed >15dB >25dB >30dB 50Ω <1. power per input S-Wave 09-65-15.0 S-Wave 09-65-15. 870~960 -45º. wind velocity Dimension . 870~960 -45º.0T3 S-Wave 09-65-17. 6º Part Number Electrical specifications Frequency range Polarization Gain Horizontal 3dB beam width Vertical 3dB beam width Electrical down tilt First upper sidelobe suppression IMD3@2×43dBm carrier Isolation Impedance VSWR IMD3@2×43dBm carrier Max. 3º.0 S-Wave 09-65-17. 3º. Fixed >16dB >25dB >30dB 50Ω <1. power per input S-Wave 09-65-17.0º 0º.0dBi FET0º. wind velocity Dimension 125 Antenna 800/900Vertical Polarization . 7-16 DIN 7-16 DIN Mechanical Specifications Connector type 2×7-16DIN(F) 18Kg 200Km/h 1950×282×100MM Horizontal Pattern 870-960MHz Vertical Pattern Weight Max.4 <-150dBc 500W 870~960 +45º. 6º.0T6 870-960MHz Vertical 17dBi 65º 9.Vpol Panel 870-960 65º 17. wind velocity Dimension .0dBi FET0º. power per input S-Wave 09-65-18. Antenna 800/900Vertical Polarization 126 7-16 DIN 7-16 DIN Mechanical Specifications Connector type 2×7-16DIN(F) 22Kg 200Km/h 2640×282×100MM Horizontal Pattern 870-960MHz Vertical Pattern Weight Max.0º 0º. 3º.4 <-150dBc 500W 870~960 +45º.0T3 S-Wave 09-65-18. 6º. 3º.0T6 870-960MHz Vertical 18. Fixed >16dB >25dB >30dB 50Ω <1. 870~960 -45º.Vpol Panel 870-960 65º 18. 6º Part Number Electrical specifications Frequency range Polarization Gain Horizontal 3dB beam width Vertical 3dB beam width Electrical down tilt First upper sidelobe suppression IMD3@2×43dBm carrier Isolation Impedance VSWR IMD3@2×43dBm carrier Max.0 S-Wave 09-65-18.0dBi 65º 7. 5dBi 35º 7.5º 0º. 3º. 6º S-Wave 18-33-21D S-Wave 18-33-21DT3 S-Wave 18-33-21DT6 1710-1880MHz ±45º 20. wind velocity Dimension 127 Antenna 1800/1900/2000 Dual Polarization +45°/–45° . copolar Isolation Cross-polar ratio.Antenna 1800/1900/2000 Dual Polarization +45º/–45º Xpol Panel 1710-1880 33º 21. 3º. 0º Impedance VSWR IMD3@2×43dBm carrier Max.4 <-150dBc 300W Part Number Electrical specifications Frequency range Polarization Gain Horizontal 3dB beam width Vertical 3dB beam width Electrical down tilt First upper sidelobe suppression Front to back ratio. power per input 1710-1880 +45º 1710-1880 -45º 7-16 DIN 7-16 DIN Mechanical Specifications Connector type 2×7-16DIN(F) 15Kg 200Km/h 1300×320×72MM Horizontal Pattern 1710-1880MHz Vertical Pattern Weight Max.0dBi FET0º. Fixed >15dB >28dB >30dB >18dB 50Ω <1. 6º. 0º 0º. 6º Part Number Electrical specifications Frequency range Polarization Gain Horizontal 3dB beam width Vertical 3dB beam width Electrical down tilt First upper sidelobe suppression Front to back ratio.4 <-150dBc 300W Antenna 1800/1900/2000 Dual Polarization +45°/–45° 128 1920-2170 +45º 1920-2170 -45º 7-16 DIN 7-16 DIN Mechanical Specifications Connector type 2×7-16DIN(F) 15Kg 200Km/h 1310×320×72MM Horizontal Pattern 1920-2170MHz Vertical Pattern Weight Max.0dBi FET0º. power per input S-Wave 21-33-21D S-Wave 21-33-21DT3 S-Wave 21-33-21DT6 1920-2170MHz ±45º 21.Xpol Panel 1920-2170 33º 21. 3º. copolar Isolation Cross-polar ratio. 6º. Fixed >15dB >28dB >30dB >18dB 50Ω <1. 0º Impedance VSWR IMD3@2×43dBm carrier Max. 3º. wind velocity Dimension .0dBi 33º 7. 6º Part Number Electrical specifications Frequency range Polarization Gain Horizontal 3dB beam width Vertical 3dB beam width Electrical down tilt First upper sidelobe suppression Front to back ratio.4 <-150dBc 250W 1850-1990MHz ±45º 20. 0º ±60º Impedance VSWR IMD3@2×43dBm carrier Max. 3º.5º 0º. 3º.Xpol Panel 1710-2170 33º 21dBi FET0º. Fixed >16dB >30dB >30dB >18dB >10dB Horizontal Pattern 1710-1880MHz Vertical Pattern Horizontal Pattern 1850-1990MHz Vertical Pattern 1710~2170 +45º 1710~2170 -45º 7-16 DIN 7-16 DIN Mechanical Specifications Connector type 2×7-16DIN(F) 16Kg 200Km/h 1304×320×72MM Horizontal Pattern 1920-2170MHz Vertical Pattern Weight Max. 3º. 6º. Fixed >16dB >30dB >30dB >18dB >10dB 50Ω <1. 3º. power per input S-Wave U-33-21D S-Wave U-33-21DT3 S-Wave U-33-21DT6 1710-1880MHz ±45º 20dBi 36º 7.5dBi 33º 6. Fixed >16dB >30dB >30dB >18dB >10dB 1920-2170MHz ±45º 20. 6º. wind velocity Dimension 129 Antenna 1800/1900/2000 Dual Polarization +45°/–45° . 6º. copolar Isolation Cross-polar ratio.3dBi 35º 7º 0º.3º 0º. 0º 0º. 3º. copolar Isolation Cross-polar ratio. power per input S-Wave 18-65-18D S-Wave 18-65-18DT3 S-Wave 18-65-18DT6 1710-1880MHz ±45º 17.0dBi FET0º.Xpol Panel 1710-1880 65º 18. 3º.8dBi 65º 7. 6º Part Number Electrical specifications Frequency range Polarization Gain Horizontal 3dB beam width Vertical 3dB beam width Electrical down tilt First upper sidelobe suppression Front to back ratio.4 <-150dBc 300W 1710-1880 +45º 1710-1880 -45º Antenna 1800/1900/2000 Dual Polarization +45°/–45° 130 7-16 DIN 7-16 DIN Mechanical Specifications Connector type 2×7-16DIN(F) 13Kg 200Km/h 1310×160×72MM Horizontal Pattern 1710-1880MHz Vertical Pattern Weight Max. wind velocity Dimension . 0º ±60º Impedance VSWR IMD3@2×43dBm carrier Max. 6º. Fixed >16dB >25dB >30dB >18dB >10dB 50Ω <1. 0º ±60º Impedance VSWR IMD3@2×43dBm carrier Max.4 <-150dBc 300W 1710-1880 +45º 1710-1880 -45º 7-16 DIN 7-16 DIN Mechanical Specifications Connector type 2×7-16DIN(F) 16Kg 200Km/h 1950×160×72MM Horizontal Pattern 1710-1880MHz Vertical Pattern Weight Max. 6º Part Number Electrical specifications Frequency range Polarization Gain Horizontal 3dB beam width Vertical 3dB beam width Electrical down tilt First upper sidelobe suppression Front to back ratio.0dBi FET0º. 3º. copolar Isolation Cross-polar ratio. 6º.5º 0º. 3º. power per input S-Wave 18-65-19D S-Wave 18-65-19DT3 S-Wave 18-65-19DT6 1710-1880MHz ±45º 18.Xpol Panel 1710-1880 65º 19. wind velocity Dimension 131 Antenna 1800/1900/2000 Dual Polarization +45°/–45° . Fixed >18dB >25dB >30dB >18dB >10dB 50Ω <1.8dBi 65º 4. 3º. copolar Isolation Cross-polar ratio.0º 0º. wind velocity Dimension . 6º Part Number Electrical specifications Frequency range Polarization Gain Horizontal 3dB beam width Vertical 3dB beam width Electrical down tilt First upper sidelobe suppression Front to back ratio. 3º. 0º ±60º Impedance VSWR IMD3@2×43dBm carrier Max.Xpol Panel 1920-2170 65º 18. 6º.4 <-150dBc 300W Antenna 1800/1900/2000 Dual Polarization +45°/–45° 132 1920-2170 +45º 1920-2170 -45º 7-16 DIN 7-16 DIN Mechanical Specifications Connector type 2×7-16DIN(F) 15Kg 200Km/h 1310×160×72MM Horizontal Pattern 1920-2170MHz Vertical Pattern Weight Max.0dBi 65º 6. power per input S-Wave 21-65-18D S-Wave 21-65-18DT3 S-Wave 21-65-18DT6 1920-2170MHz ±45º 18.0dBi FET0º. Fixed >16dB >25dB >30dB >18dB >10dB 50Ω <1. 0dBi 65º 4.4 <-150dBc 300W 1920-2170 +45º 1920-2170 -45º 7-16 DIN 7-16 DIN Mechanical Specifications Connector type 2×7-16DIN(F) 15Kg 200Km/h 1950×160×72MM Horizontal Pattern 1920-2170MHz Vertical Pattern Weight Max. power per input S-Wave 21-65-19D S-Wave 21-65-19DT3 S-Wave 21-65-19DT6 1920-2170MHz ±45º 19. 3º. 6º. copolar Isolation Cross-polar ratio. wind velocity Dimension 133 Antenna 1800/1900/2000 Dual Polarization +45°/–45° . 3º.5º 0º. Fixed >18dB >25dB >30dB >18dB >10dB 50Ω <1. 0º ±60º Impedance VSWR IMD3@2×43dBm carrier Max.0dBi FET0º. 6º Part Number Electrical specifications Frequency range Polarization Gain Horizontal 3dB beam width Vertical 3dB beam width Electrical down tilt First upper sidelobe suppression Front to back ratio.Xpol Panel 1920-2170 65º 19. Fixed >15dB >25dB >30dB >18dB >10dB 1920-2170MHz ±45º 15. 0º ±60º Impedance VSWR IMD3@2×43dBm carrier Max. 3º.5DT6 1710-1880MHz ±45º 15.7dBi 64º 11º 0º. 3º.5D S-Wave U-65-15. 3º. power per input S-Wave U-65-15.2dBi 66º 13º 0º. 3º. Fixed >15dB >25dB >30dB >18dB >10dB 50Ω <1. copolar Isolation Cross-polar ratio.5dBi 66º 12º 0º.5dBi FET0º. 6º. wind velocity Dimension 2×7-16DIN(F) 5Kg 200Km/h 735×160×72MM . 6º.5DT3 S-Wave U-65-15.5 <-150dBc 250W 1850-1990MHz ±45º 15.Xpol Panel 1710-2170 65º 15. 6º. 6º Part Number Electrical specifications Frequency range Polarization Gain Horizontal 3dB beam width Vertical 3dB beam width Electrical down tilt First upper sidelobe suppression Front to back ratio. Fixed >15dB >25dB >30dB >18dB >10dB Antenna 1800/1900/2000 Dual Polarization +45°/–45° 134 Horizontal Pattern 1710-1880MHz Vertical Pattern Horizontal Pattern 1850-1990MHz Vertical Pattern 1710~2170 +45º 1710~2170 -45º 7-16 DIN 7-16 DIN Mechanical Specifications Horizontal Pattern 1920-2170MHz Vertical Pattern Connector type Weight Max. power per input S-Wave U-65-18D S-Wave U-65-18DT3 S-Wave U-65-18DT6 1710-1880MHz ±45º 17. 6º. 3º.5dBi 68º 6. 6º.5º 0º.7dBi 65º 6. 3º. Fixed >15dB >25dB >30dB >18dB >10dB Horizontal Pattern 1710-1880MHz Vertical Pattern Horizontal Pattern 1850-1990MHz Vertical Pattern 1710~2170 +45º 1710~2170 -45º 7-16 DIN 7-16 DIN Mechanical Specifications Connector type 2×7-16DIN(F) 12Kg 200Km/h 1302×160×72MM Horizontal Pattern 1920-2170MHz Vertical Pattern Weight Max. Fixed >15dB >25dB >30dB >18dB >10dB 50Ω <1. Fixed >15dB >25dB >30dB >18dB >10dB 1920-2170MHz ±45º 18dBi 63º 5.Xpol Panel 1710-2170 65º 18dBi FET0º. 6º Part Number Electrical specifications Frequency range Polarization Gain Horizontal 3dB beam width Vertical 3dB beam width Electrical down tilt First upper sidelobe suppression Front to back ratio. 3º. copolar Isolation Cross-polar ratio. 3º. wind velocity Dimension 135 Antenna 1800/1900/2000 Dual Polarization +45°/–45° . 6º.4 <-150dBc 250W 1850-1990MHz ±45º 17. 0º ±60º Impedance VSWR IMD3@2×43dBm carrier Max.1º 0º.7º 0º. 6º. wind velocity Dimension .Xpol Panel 1710-2170 65º 19dBi FET0º. 3º. 0º ±60º Impedance VSWR IMD3@2×43dBm carrier Max.3º 0º.5º 0º. 3º. power per input S-Wave U-65-19D S-Wave U-65-19DT3 S-Wave U-65-19DT6 1710-1880MHz ±45º 18. 3º.7dBi 68º 4. Fixed >15dB >25dB >30dB >18dB >10dB 50Ω <1. 3º. 6º.2dBi 63º 4.1º 0º. Fixed >15dB >25dB >30dB >18dB >10dB Antenna 1800/1900/2000 Dual Polarization +45°/–45° 136 Horizontal Pattern 1710-1880MHz Vertical Pattern Horizontal Pattern 1850-1990MHz Vertical Pattern 1710~2170 +45º 1710~2170 -45º 7-16 DIN 7-16 DIN Mechanical Specifications Connector type 2×7-16DIN(F) 13Kg 200Km/h 1942×160×72MM Horizontal Pattern 1920-2170MHz Vertical Pattern Weight Max. Fixed >15dB >25dB >30dB >18dB >10dB 1920-2170MHz ±45º 19. copolar Isolation Cross-polar ratio.5 <-150dBc 250W 1850-1990MHz ±45º 19dBi 65º 4. 6º Part Number Electrical specifications Frequency range Polarization Gain Horizontal 3dB beam width Vertical 3dB beam width Electrical down tilt First upper sidelobe suppression Front to back ratio. 6º. wind velocity Dimension 137 Antenna 1800/1900/2000 Dual Polarization +45°/–45° .5 <-150dBc 300W S-Wave 18-65-17.5DV10 1710-1880 +45º 1710-1880 -45º 7-16 DIN 7-16 DIN Mechanical Specifications Connector type 2×7-16DIN(F) 13Kg 200Km/h 1314×160×72MM Horizontal Pattern 1710-1880MHz Vertical Pattern Weight Max.0º 0º-10º >16dB >25dB >30dB >18dB >10dB 50Ω <1. Electrical Downtilt set by hand or by optional RCU Part Number Electrical specifications Frequency range Polarization Gain Horizontal 3dB beam width Vertical 3dB beam width Electrical down tilt First upper sidelobe suppression Front to back ratio.Xpol Panel 1710-1880 65º 17. 0º ±60º Impedance VSWR IMD3@2×43dBm carrier Max. copolar Isolation Cross-polar ratio. power per input 1710-1880MHz ±45º 17.3dBi 65º 7.5dBi VET0º-10º Adjust. 0º ±60º Impedance VSWR IMD3@2×43dBm carrier Max. Electrical Downtilt set by hand or by optional RCU Part Number Electrical specifications Frequency range Polarization Gain Horizontal 3dB beam width Vertical 3dB beam width Electrical down tilt First upper sidelobe suppression Front to back ratio. power per input 1920-2170MHz ±45º 17. copolar Isolation Cross-polar ratio.5dBi VET0º-10º Adjust.5º 0º-10º >16dB >25dB >30dB >18dB >10dB 50Ω <1. wind velocity Dimension .5dBi 65º 6.5 <-150dBc 300W S-Wave 21-65-17.5DV10 Antenna 1800/1900/2000 Dual Polarization +45°/–45° 138 1920-2170 +45º 1920-2170 -45º 7-16 DIN 7-16 DIN Mechanical Specifications Connector type 2×7-16DIN(F) 16Kg 200Km/h 1314×160×100MM Horizontal Pattern 1920-2170MHz Vertical Pattern Weight Max.Xpol Panel 1920-2170 65º 17. 8dBi 66º 13.5dBi 68º 14º 0º-14º >15dB >25dB >30dB >18dB >10dB 50Ω <1. 0º ±60º Impedance VSWR IMD3@2×43dBm carrier Max.5 <-150dBc 250W 1850-1990MHz ±45º 14.Xpol Panel 1710-2170 65º 15dBi VET 0º-14º Adjust. wind velocity Dimension 139 Antenna 1800/1900/2000 Dual Polarization +45°/–45° . power per input 1710-1880MHz ±45º 14.5º 0º-14º >15dB >25dB >30dB >18dB >10dB 1920-2170MHz ±45º 15dBi 64º 13º 0º-14º >15dB >25dB >30dB >18dB >10dB S-Wave U-65-15DV14 Horizontal Pattern 1710-1880MHz Vertical Pattern Horizontal Pattern 1850-1990MHz Vertical Pattern 1710~2170 +45º 1710~2170 -45º 7-16 DIN 7-16 DIN Mechanical Specifications Connector type 2×7-16DIN(F) 6Kg 200Km/h 662×160×72MM Horizontal Pattern 1920-2170MHz Vertical Pattern Weight Max. Electrical Downtilt set by hand or by optional RCU Part Number Electrical specifications Frequency range Polarization Gain Horizontal 3dB beam width Vertical 3dB beam width Electrical down tilt First upper sidelobe suppression Front to back ratio. copolar Isolation Cross-polar ratio. 1º 0º-10º >15dB >25dB >30dB >18dB >10dB S-Wave U-65-18DV10 Antenna 1800/1900/2000 Dual Polarization +45°/–45° 140 Horizontal Pattern 1710-1880MHz Vertical Pattern Horizontal Pattern 1850-1990MHz Vertical Pattern 1710~2170 +45º 1710~2170 -45º 7-16 DIN 7-16 DIN Mechanical Specifications Connector type 2×7-16DIN(F) 8Kg 200Km/h 1302×160×72MM Horizontal Pattern 1920-2170MHz Vertical Pattern Weight Max. power per input 1710-1880MHz ±45º 17.Xpol Panel 1710-2170 65º 18dBi VET 0º-10º Adjust.5º 0º-10º >15dB >25dB >30dB >18dB >10dB 1920-2170MHz ±45º 17.4dBi 68º 6. Electrical Downtilt set by hand or by optional RCU Part Number Electrical specifications Frequency range Polarization Gain Horizontal 3dB beam width Vertical 3dB beam width Electrical down tilt First upper sidelobe suppression Front to back ratio.7º 0º-10º >15dB >25dB >30dB >18dB >10dB 50Ω <1.7dBi 66º 6.9dBi 64º 6. wind velocity Dimension .5 <-150dBc 250W 1850-1990MHz ±45º 17. 0º ±60º Impedance VSWR IMD3@2×43dBm carrier Max. copolar Isolation Cross-polar ratio. 8º 0º. 3º.7dBi 87º 6. Fixed >15dB >23dB >30dB >18dB >10dB Horizontal Pattern 1710-1880MHz Vertical Pattern Horizontal Pattern 1850-1990MHz Vertical Pattern 1710~2170 +45º 1710~2170 -45º 7-16 DIN 7-16 DIN Mechanical Specifications Connector type 2×7-16DIN(F) 13Kg 200Km/h 1302×160×72MM Horizontal Pattern 1920-2170MHz Vertical Pattern Weight Max. 6º Part Number Electrical specifications Frequency range Polarization Gain Horizontal 3dB beam width Vertical 3dB beam width Electrical down tilt First upper sidelobe suppression Front to back ratio. 3º. 6º.5º 0º.5dBi 88º 6. 3º.2º 0º. wind velocity Dimension 141 Antenna 1800/1900/2000 Dual Polarization +45°/–45° . 3º. Fixed >15dB >23dB >30dB >18dB >10dB 1920-2170MHz ±45º 16.Xpol Panel 1710-2170 90º 17dBi FET0º. power per input S-Wave U-90-17D S-Wave U-90-17DT3 S-Wave U-90-17DT6 1710-1880MHz ±45º 16. 6º. Fixed >15dB >23dB >30dB >18dB >10dB 50Ω <1.5 <-150dBc 250W 1850-1990MHz ±45º 16. copolar Isolation Cross-polar ratio.9dBi 85º 6. 0º ±60º Impedance VSWR IMD3@2×43dBm carrier Max. 6º. copolar Isolation Cross-polar ratio. Electrical Downtilt set by hand or by optional RCU Part Number Electrical specifications Frequency range Polarization Gain Horizontal 3dB beam width Vertical 3dB beam width Electrical down tilt First upper sidelobe suppression Front to back ratio.3º 0º-10º >15dB >23dB >30dB >18dB >10dB S-Wave U-90-17DV10 Antenna 1800/1900/2000 Dual Polarization +45°/–45° 142 Horizontal Pattern 1710-1880MHz Vertical Pattern Horizontal Pattern 1850-1990MHz Vertical Pattern 1710~2170 +45º 1710~2170 -45º 7-16 DIN 7-16 DIN Mechanical Specifications Connector type 2×7-16DIN(F) 7. power per input 1710-1880MHz ±45º 16.Xpol Panel 1710-2170 90º 17dBi VET 0º-10º Adjust.5º 0º-10º >15dB >23dB >30dB >18dB >10dB 1920-2170MHz ±45º 16.5dBi 90º 7º 0º-10º >15dB >23dB >30dB >18dB >10dB 50Ω <1. 0º ±60º Impedance VSWR IMD3@2×43dBm carrier Max.5 <-150dBc 250W 1850-1990MHz ±45º 16.7dBi 88º 6. wind velocity Dimension .5Kg 200Km/h 1574×160×72MM Horizontal Pattern 1920-2170MHz Vertical Pattern Weight Max.8dBi 88º 6. copolar Isolation Impedance VSWR IMD3@2×43dBm carrier Max. Fixed >16dB >25dB >30 dB 50Ω <1.0º 0º. 6º S-Wave 18-65-18 S-Wave 18-65-18T3 S-Wave 18-65-18T6 1710-1880MHz Vertical 17. 3º.Antenna 1800/1900/2000 Vertical Polarization Vpol Panel 1710-1880 65º 18. 3º. power per input 1710-1880 +45º 1710-1880 -45º 7-16 DIN 7-16 DIN Mechanical Specifications Connector type 2×7-16DIN(F) 13Kg 200Km/h 1310×160×72MM Horizontal Pattern 1710-1880MHz Vertical Pattern Weight Max. wind velocity Dimension 143 Antenna 1800/1900/2000 Vertical Polarization .0dBi FET0º.4 <-150dBc 300W Part Number Electrical specifications Frequency range Polarization Gain Horizontal 3dB beam width Vertical 3dB beam width Electrical down tilt First upper sidelobe suppression Front to back ratio.8dBi 65º 7. 6º. 0dBi FET0º.0º 0º.0T3 S-Wave 21-65-18. 3º.Vpol Panel 1920-2170 65º 18. 6º Part Number Electrical specifications Frequency range Polarization Gain Horizontal 3dB beam width Vertical 3dB beam width Electrical down tilt First upper sidelobe suppression Front to back ratio. 6º. power per input S-Wave 21-65-18.0 S-Wave 21-65-18.4 <-150dBc 300W 1920-2170 +45º 1920-2170 -45º Antenna 1800/1900/2000 Vertical Polarization 144 7-16 DIN 7-16 DIN Mechanical Specifications Connector type 2×7-16DIN(F) 13Kg 200Km/h 1310×160×72MM Horizontal Pattern 1920-2170MHz Vertical Pattern Weight Max. wind velocity Dimension .0T6 1920-2170MHz Vertical 18.0dBi 65º 6. 3º. Fixed >16dB >25dB >30 dB 50Ω <1. copolar Isolation Impedance VSWR IMD3@2×43dBm carrier Max. 6º.6º 0º. copolar Impedance VSWR IMD3@2×43dBm carrier Max. wind velocity Dimension 145 Antenna 1800/1900/2000 Vertical Polarization . Fixed >15 dB >25 dB 1920-2170MHz ±45º 18 dBi 63º 6. Fixed >15dB >25 dB 50Ω <1. 3º.5 <-150dBc 250W 1850-1990MHz ±45º 17. 6º. power per input S-Wave U-65-18 S-Wave U-65-18T3 S-Wave U-65-18T6 1710-1880MHz ±45º 17.5 dBi 68º 7º 0º.7dBi 65º 6. 6º. Fixed >15dB >25dB Horizontal Pattern 1710-1880MHz Vertical Pattern Horizontal Pattern 1850-1990MHz Vertical Pattern 1710~2170 V pol 7-16 DIN Mechanical Specifications Connector type 2×7-16DIN(F) 13Kg 200Km/h 1302×160×72MM Horizontal Pattern 1920-2170MHz Vertical Pattern Weight Max. 3º. 3º.Vpol Panel 1710-2170 65º 18dBi FET0º.3º 0º. 6º Part Number Electrical specifications Frequency range Polarization Gain Horizontal 3dB beam width Vertical 3dB beam width Electrical down tilt First upper sidelobe suppression Front to back ratio. 3º. 5 >30dB <-150dBc 250W 450W The insertion loss is included in the given antenna values. power per input Inner combiner 806-960MHz 806-896MHz ±45º 14dBi 68º 15º 0º >14dB >25dB >18dB >10dB 50Ω <1. wind velocity Dimension .5Kg 200Km/h 1316×262×139MM Horizontal Pattern 1710-2170MHz Vertical Pattern Weight Max.8dBi 64º 6.8º 0º >15dB >25dB >18dB >10dB S-Wave 0809/U-65-14/17DC Dual Band Antennas --2 ports(with Inner Combiner) Dual Polarization +45º/–45º 146 Horizontal Pattern 806-896MHz Vertical Pattern 806~960 +45º C 1710~2170 +45º 806~960 -45º C 1710~2170 -45º 7-16 DIN 7-16 DIN Mechanical Specifications Connector type 2×7-16DIN(F) 16.6dBi 66º 7.Dual Band Antennas --2 ports(with Inner Combiner) Dual Polarization +45º/–45º XXpol Panel C 806-960/1710-2170 65º 14/17dBi FET0º/0º Part Number Electrical specifications Frequency range Polarization Gain Horizontal 3dB beam width Vertical 3dB beam width Electrical down tilt First upper sidelobe suppression Front to back ratio.5 1850-1990MHz ±45º 16. <-150dBc 200W 806-896MHz ±45º 14dBi 65º 14º 0º >14dB >25dB >18dB >10dB 1710-2170MHz 1710-1880MHz ±45º 16. 0º ±60º Impedance VSWR Isolation IMD3@2×43dBm carrier Max. power Max.3º 0º >15dB >25dB >18dB >10dB 1920-2170MHz ±45º 16. copolar Cross-polar ratio.5º 0º >15dB >25dB >18dB >10dB 50Ω <1.3dBi 68º 7. 5 >30dB <-150dBc 250W 450W The insertion loss is included in the given antenna values.8dBi 64º 6. power per input Inner combiner 806-960MHz 806-896MHz ±45º 14dBi 68º 15º 2º >14dB >25dB >18dB >10dB 50Ω <1. power Max. copolar Cross-polar ratio.8º 6º >15dB >25dB >18dB >10dB S-Wave 0809/U-65-14/17DT2/T6C Horizontal Pattern 806-896MHz Vertical Pattern 806~960 +45º C 1710~2170 +45º 806~960 -45º C 1710~2170 -45º 7-16 DIN 7-16 DIN Mechanical Specifications Connector type 2×7-16DIN(F) 16.3dBi 68º 7.5Kg 200Km/h 1316×262×139MM Horizontal Pattern 1710-2170MHz Vertical Pattern Weight Max.XXpol Panel C 806-960/1710-2170 65º 14/17dBi FET2º/6º Part Number Electrical specifications Frequency range Polarization Gain Horizontal 3dB beam width Vertical 3dB beam width Electrical down tilt First upper sidelobe suppression Front to back ratio.6dBi 66º 7.3º 6º >15dB >25dB >18dB >10dB 1920-2170MHz ±45º 16. wind velocity Dimension 147 Dual Band Antennas --2 ports(with Inner Combiner) Dual Polarization +45º/–45º 200W . 0º ±60º Impedance VSWR Isolation IMD3@2×43dBm carrier Max.5 1850-1990MHz ±45º 16.5º 6º >15dB >25dB >18dB >10dB 50Ω <1. <-150dBc 806-896MHz ±45º 14dBi 65º 14º 2º >14dB >25dB >18dB >10dB 1710-2170MHz 1710-1880MHz ±45º 16. 7º 0º >15dB >25dB >18dB >10dB Dual Band Antennas --2 ports(with Inner Combiner) Dual Polarization +45º/–45º 148 Horizontal Pattern 806-896MHz Vertical Pattern 806~960 +45º C 1710~2170 +45º 806~960 -45º C 1710~2170 -45º 7-16 DIN 7-16 DIN Mechanical Specifications Connector type 2×7-16DIN(F) 23Kg 200Km/h 1916×262×139MM Horizontal Pattern 1710-2170MHz Vertical Pattern Weight Max. copolar Cross-polar ratio. wind velocity Dimension .XXpol Panel C 806-960/1710-2170 65º 16/18dBi FET0º/0º Part Number Electrical specifications Frequency range Polarization Gain Horizontal 3dB beam width Vertical 3dB beam width Electrical down tilt First upper sidelobe suppression Front to back ratio.5dBi 68º 10º 0º >15dB >25dB >18dB >10dB 50Ω <1. 0º ±60º Impedance VSWR Isolation IMD3@2×43dBm carrier Max.8dBi 66º 5º 0º >15dB >25dB >18dB >10dB 1920-2170MHz ±45º 18dBi 64º 4.5 >30dB <-150dBc 250W 450W The insertion loss is included in the given antenna values. <-150dBc 200W 806-896MHz ±45º 16dBi 65º 9.2º 0º >15dB >25dB >18dB >10dB 50Ω <1. power Max.5dBi 68º 5.5º 0º >15dB >25dB >18dB >10dB 1710-2170MHz 1710-1880MHz ±45º 17. power per input Inner combiner S-Wave 0809/U-65-16/18DC 806-960MHz 806-896MHz ±45º 15.5 1850-1990MHz ±45º 17. 8dBi 66º 5º 6º >15dB >25dB >18dB >10dB 1920-2170MHz ±45º 18dBi 64º 4. power per input Inner combiner S-Wave 0809/U-65-16/18DT6C 806-960MHz 806-896MHz ±45º 15.5 1850-1990MHz ±45º 17. power Max.5dBi 68º 5. 0º ±60º Impedance VSWR Isolation IMD3@2×43dBm carrier Max.7º 6º >15dB >25dB >18dB >10dB Horizontal Pattern 806-896MHz Vertical Pattern 806~960 +45º C 1710~2170 +45º 806~960 -45º C 1710~2170 -45º 7-16 DIN 7-16 DIN Mechanical Specifications Connector type 2×7-16DIN(F) 23Kg 200Km/h 1916×262×139MM Horizontal Pattern 1710-2170MHz Vertical Pattern Weight Max.5º 6º >15dB >25dB >18dB >10dB 1710-2170MHz 1710-1880MHz ±45º 17.5dBi 68º 10º 6º >15dB >25dB >18dB >10dB 50Ω <1.5 >30dB <-150dBc 250W 450W <-150dBc 200W 806-896MHz ±45º 16dBi 65º 9.XXpol Panel C 806-960/1710-2170 65º 16/18dBi FET6º/6º Part Number Electrical specifications Frequency range Polarization Gain Horizontal 3dB beam width Vertical 3dB beam width Electrical down tilt First upper sidelobe suppression Front to back ratio. wind velocity Dimension 149 Dual Band Antennas --2 ports(with Inner Combiner) Dual Polarization +45º/–45º The insertion loss is included in the given antenna values. copolar Cross-polar ratio. .2º 6º >15dB >25dB >18dB >10dB 50Ω <1. 5º 0º >15dB >25dB >18dB >10dB 1710-2170MHz 1710-1880MHz ±45º 17.5dBi 68º 8º 0º >15dB >25dB >18dB >10dB 50Ω <1.8dBi 66º 5º 0º >15dB >25dB >18dB >10dB 1920-2170MHz ±45º 18dBi 64º 4.XXpol Panel C 806-960/1710-2170 65º 17/18dBi FET0º/0º Part Number Electrical specifications Frequency range Polarization Gain Horizontal 3dB beam width Vertical 3dB beam width Electrical down tilt First upper sidelobe suppression Front to back ratio. <-150dBc 200W 806-896MHz ±45º 16. 0º ±60º Impedance VSWR Isolation IMD3@2×43dBm carrier Max. power Max.2º 0º >15dB >25dB >18dB >10dB 50Ω <1. power per input Inner combiner S-Wave 0809/U-65-17/18DC 806-960MHz 806-896MHz ±45º 16.5dBi 68º 5.5 >30dB <-150dBc 250W 450W The insertion loss is included in the given antenna values. copolar Cross-polar ratio.8dBi 65º 7.7º 0º >15dB >25dB >18dB >10dB Dual Band Antennas --2 ports(with Inner Combiner) Dual Polarization +45º/–45º 150 Horizontal Pattern 806-896MHz Vertical Pattern 806~960 +45º C 1710~2170 +45º 806~960 -45º C 1710~2170 -45º 7-16 DIN 7-16 DIN Mechanical Specifications Connector type 2×7-16DIN(F) 26Kg 200Km/h 2516×262×139MM Horizontal Pattern 1710-2170MHz Vertical Pattern Weight Max.5 1850-1990MHz ±45º 17. wind velocity Dimension . 5dBi 68º 8º 6º >15dB >25dB >18dB >10dB 50Ω <1.XXpol Panel C 806-960/1710-2170 65º 17/18dBi FET6º/6º Part Number Electrical specifications Frequency range Polarization Gain Horizontal 3dB beam width Vertical 3dB beam width Electrical down tilt First upper sidelobe suppression Front to back ratio.5º 6º >15dB >25dB >18dB >10dB 1710-2170MHz 1710-1880MHz ±45º 17.5dBi 68º 5. . 0º ±60º Impedance VSWR Isolation IMD3@2×43dBm carrier Max.7º 6º >15dB >25dB >18dB >10dB Horizontal Pattern 806-896MHz Vertical Pattern 806~960 +45º C 1710~2170 +45º 806~960 -45º C 1710~2170 -45º 7-16 DIN 7-16 DIN Mechanical Specifications Connector type 2×7-16DIN(F) 26Kg 200Km/h 2516×262×139MM Horizontal Pattern 1710-2170MHz Vertical Pattern Weight Max.8dBi 66º 5º 6º >15dB >25dB >18dB >10dB 1920-2170MHz ±45º 18dBi 64º 4. copolar Cross-polar ratio. power Max.5 1850-1990MHz ±45º 17. power per input Inner combiner S-Wave 0809/U-65-17/18DT6C 806-960MHz 806-896MHz ±45º 16.5 >30dB <-150dBc 250W 450W <-150dBc 200W 806-896MHz ±45º 16.8dBi 65º 7. wind velocity Dimension 151 Dual Band Antennas --2 ports(with Inner Combiner) Dual Polarization +45º/–45º The insertion loss is included in the given antenna values.2º 6º >15dB >25dB >18dB >10dB 50Ω <1. Electrical Downtilt set by hand or by optional RCU Part Number Electrical specifications Frequency range Polarization Gain Horizontal 3dB beam width Vertical 3dB beam width Electrical down tilt First upper sidelobe suppression Front to back ratio.8dBi 64º 6.8º 0º-8º >15dB >25dB >18dB >10dB S-Wave 0809/U-65-14/17DV14/V8C Dual Band Antennas --2 ports(with Inner Combiner) Dual Polarization +45º/–45º 152 Horizontal Pattern 806-896MHz Vertical Pattern 806~960 +45º C 1710~2170 +45º 806~960 -45º C 1710~2170 -45º 7-16 DIN 7-16 DIN Mechanical Specifications Connector type 2×7-16DIN(F) 16. <-150dBc 200W 806-896MHz ±45º 14dBi 65º 14º 0º-14º >14dB >25dB >18dB >10dB 1710-2170MHz 1710-1880MHz ±45º 16.5 >30dB <-150dBc 250W 450W The insertion loss is included in the given antenna values.5 1850-1990MHz ±45º 16. 0º ±60º Impedance VSWR Isolation IMD3@2×43dBm carrier Max.3º 0º-8º >15dB >25dB >18dB >10dB 1920-2170MHz ±45º 16. copolar Cross-polar ratio.6dBi 66º 7. power per input Inner combiner 806-960MHz 806-896MHz ±45º 14dBi 68º 15º 0º-14º >14dB >25dB >18dB >10dB 50Ω <1.5º 0º-8º >15dB >25dB >18dB >10dB 50Ω <1.5Kg 200Km/h 1316×262×139MM Horizontal Pattern 1710-2170MHz Vertical Pattern Weight Max. wind velocity Dimension .3dBi 68º 7. power Max.XXpol Panel C 806-960/1710-2170 65º 14/17dBi VET0º-14º/ VET0º-8º Adjust. wind velocity Dimension 153 Dual Band Antennas --2 ports(with Inner Combiner) Dual Polarization +45º/–45º The insertion loss is included in the given antenna values.5 1850-1990MHz ±45º 17.5dBi 68º 10º 0º-6º >15dB >25dB >18dB >10dB 50Ω <1.5 >30dB <-150dBc 250W 450W <-150dBc 200W 806-896MHz ±45º 16dBi 65º 9. copolar Cross-polar ratio. power Max. 0º ±60º Impedance VSWR Isolation IMD3@2×43dBm carrier Max.5º 0º-6º >15dB >25dB >18dB >10dB 1710-2170MHz 1710-1880MHz ±45º 17. Electrical Downtilt set by hand or by optional RCU Part Number Electrical specifications Frequency range Polarization Gain Horizontal 3dB beam width Vertical 3dB beam width Electrical down tilt First upper sidelobe suppression Front to back ratio.8dBi 66º 5º 0º-6º >15dB >25dB >18dB >10dB 1920-2170MHz ±45º 18dBi 64º 4. .2º 0º-6º >15dB >25dB >18dB >10dB 50Ω <1. power per input Inner combiner 806-960MHz 806-896MHz ±45º 15.5dBi 68º 5.7º 0º-6º >15dB >25dB >18dB >10dB S-Wave 0809/U-65-16/18DV8C Horizontal Pattern 806-896MHz Vertical Pattern 806~960 +45º C 1710~2170 +45º 806~960 -45º C 1710~2170 -45º 7-16 DIN 7-16 DIN Mechanical Specifications Connector type 2×7-16DIN(F) 23Kg 200Km/h 1916×262×139MM Horizontal Pattern 1710-2170MHz Vertical Pattern Weight Max.XXpol Panel C 806-960/1710-2170 65º 16/18dBi VET0º-6º Adjust. 7º 0º-6º >15dB >25dB >18dB >10dB S-Wave 0809/U-65-17/18DV8C Dual Band Antennas --2 ports(with Inner Combiner) Dual Polarization +45º/–45º 154 Horizontal Pattern 806-896MHz Vertical Pattern 806~960 +45º C 1710~2170 +45º 806~960 -45º C 1710~2170 -45º 7-16 DIN 7-16 DIN Mechanical Specifications Connector type 2×7-16DIN(F) 26Kg 200Km/h 2516×262×139MM Horizontal Pattern 1710-2170MHz Vertical Pattern Weight Max. power per input Inner combiner 806-960MHz 806-896MHz ±45º 16. power Max.8dBi 65º 7.5dBi 68º 8º 0º-6º >15dB >25dB >18dB >10dB 50Ω <1.5 >30dB <-150dBc 250W 450W The insertion loss is included in the given antenna values.5dBi 68º 5. Electrical Downtilt set by hand or by optional RCU Part Number Electrical specifications Frequency range Polarization Gain Horizontal 3dB beam width Vertical 3dB beam width Electrical down tilt First upper sidelobe suppression Front to back ratio. 0º ±60º Impedance VSWR Isolation IMD3@2×43dBm carrier Max.XXpol Panel C 806-960/1710-2170 65º 17/18dBi VET0º-6º Adjust. <-150dBc 200W 806-896MHz ±45º 16.5 1850-1990MHz ±45º 17.5º 0º-6º >15dB >25dB >18dB >10dB 1710-2170MHz 1710-1880MHz ±45º 17.2º 0º-6º >15dB >25dB >18dB >10dB 50Ω <1.8dBi 66º 5º 0º-6º >15dB >25dB >18dB >10dB 1920-2170MHz ±45º 18dBi 64º 4. wind velocity Dimension . copolar Cross-polar ratio. 5 <-150dBc 400W 1710-1880MHz ±45º 16.8º 0ºFixed >15dB >25dB >30dB >18dB >10dB 50Ω <1.0º 0ºFixed >14dB >25dB >30dB >18dB >10dB 50Ω <1. wind velocity Dimension Horizontal Pattern 1710-1880MHz Vertical Pattern 155 Dual Band Antennas --4 ports Dual Polarization +45º/–45º 870~960 +45º 1710~1880 +45º 870~960 -45º 1710~1880 -45º . 0º ±60º Impedance VSWR IMD3@2×43dBm carrier Max.0dBi 65º 15.5 <-150dBc 300W S-Wave 09/18-65/65-15/17D 7-16 DIN 7-16 DIN 7-16 DIN 7-16 DIN Mechanical Specifications Connector type 4×7-16DIN(F) 15Kg 200Km/h 1350×262×139MM Horizontal Pattern 870-960MHz Vertical Pattern Weight Max. copolar Isolation Cross-polar ratio.8dBi 66º 7. power per input 870-960MHz ±45º 15.Dual Band Antennas --4 ports Dual Polarization +45º/–45º XXpol Panel 870-960/1710-1880 65º/65º 15/17dBi FET0º Part Number Electrical specifications Frequency range Polarization Gain Horizontal 3dB beam width Vertical 3dB beam width Electrical down tilt First upper sidelobe suppression Front to back ratio. 8dBi 65º 15.XXpol Panel 870-960/1710-1880 65º/65º 15/17dBi FET6º Part Number Electrical specifications Frequency range Polarization Gain Horizontal 3dB beam width Vertical 3dB beam width Electrical down tilt First upper sidelobe suppression Front to back ratio.7dBi 63º 7.5 <-150dBc 300W 870~960 +45º 1710~1880 +45º 870~960 -45º 1710~1880 -45º Dual Band Antennas --4 ports Dual Polarization +45º/–45º 156 7-16 DIN 7-16 DIN 7-16 DIN 7-16 DIN Mechanical Specifications Connector type 4×7-16DIN(F) 15Kg 200Km/h 1350×262×139MM Horizontal Pattern 870-960MHz Vertical Pattern Weight Max.0º 6ºFixed >14dB >25dB >30dB >18dB >10dB 50Ω <1. wind velocity Dimension Horizontal Pattern 1710-1880MHz Vertical Pattern . copolar Isolation Cross-polar ratio. 0º ±60º Impedance VSWR IMD3@2×43dBm carrier Max.8º 6ºFixed >15dB >25dB >30dB >18dB >10dB 50Ω <1.5 <-150dBc 400W 1710-1880MHz ±45º 16. power per input S-Wave 09/18-65/65-15/17DT6 870-960MHz ±45º 14. power per input S-Wave 09/18-65/65-17/18D 870-960MHz ±45º 17.0dBi 62º 6.5 <-150dBc 300W 870~960 +45º 1710~1880 +45º 870~960 -45º 1710~1880 -45º 7-16 DIN 7-16 DIN 7-16 DIN 7-16 DIN Mechanical Specifications Connector type 4×7-16DIN(F) 22Kg 200Km/h 1936×262×139MM Horizontal Pattern 870-960MHz Vertical Pattern Weight Max.0dBi 65º 9.5º 0ºFixed >16dB >25dB >30dB >18dB >10dB 50Ω <1. wind velocity Dimension Horizontal Pattern 1710-1880MHz Vertical Pattern 157 Dual Band Antennas --4 ports Dual Polarization +45º/–45º .5º 0ºFixed >16dB >25dB >30dB >18dB >10dB 50Ω <1.XXpol Panel 870-960/1710-1880 65º/65º 17/18dBi FET0º Part Number Electrical specifications Frequency range Polarization Gain Horizontal 3dB beam width Vertical 3dB beam width Electrical down tilt First upper sidelobe suppression Front to back ratio. 0º ±60º Impedance VSWR IMD3@2×43dBm carrier Max.5 <-150dBc 400W 1710-1880MHz ±45º 18. copolar Isolation Cross-polar ratio. power per input S-Wave 09/18-65/65-17/18DT6 870-960MHz ±45º 17.0dBi 65º 9. 0º ±60º Impedance VSWR IMD3@2×43dBm carrier Max.5º 6ºFixed >16dB >25dB >30dB >18dB >10dB 50Ω <1.XXpol Panel 870-960/1710-1880 65º/65º 17/18dBi FET6º Part Number Electrical specifications Frequency range Polarization Gain Horizontal 3dB beam width Vertical 3dB beam width Electrical down tilt First upper sidelobe suppression Front to back ratio.5 <-150dBc 400W 1710-1880MHz ±45º 18.5 <-150dBc 300W Dual Band Antennas --4 ports Dual Polarization +45º/–45º 158 870~960 +45º 1710~1880 +45º 870~960 -45º 1710~1880 -45º 7-16 DIN 7-16 DIN 7-16 DIN 7-16 DIN Mechanical Specifications Connector type 4×7-16DIN(F) 22Kg 200Km/h 1936×262×139MM Horizontal Pattern 870-960MHz Vertical Pattern Weight Max.0dBi 62º 6.5º 6ºFixed >16dB >25dB >30dB >18dB >10dB 50Ω <1. copolar Isolation Cross-polar ratio. wind velocity Dimension Horizontal Pattern 1710-1880MHz Vertical Pattern . 5dBi 65º 7.XXpol Panel 870-960/1710-1880 65º/65º 18/18dBi FET0º Part Number Electrical specifications Frequency range Polarization Gain Horizontal 3dB beam width Vertical 3dB beam width Electrical down tilt First upper sidelobe suppression Front to back ratio.0dBi 62º 6. wind velocity Dimension Horizontal Pattern 1710-1880MHz Vertical Pattern 159 Dual Band Antennas --4 ports Dual Polarization +45º/–45º 870~960 +45º 1710~1880 +45º 870~960 -45º 1710~1880 -45º . copolar Isolation Cross-polar ratio.5 <-150dBc 300W 7-16 DIN 7-16 DIN 7-16 DIN 7-16 DIN Mechanical Specifications Connector type 4×7-16DIN(F) 24Kg 200Km/h 2640×262×139MM Horizontal Pattern 870-960MHz Vertical Pattern Weight Max.5º 0ºFixed >16dB >25dB >30dB >18dB >10dB 50Ω <1.0º 0ºFixed >16dB >25dB >30dB >18dB >10dB 50Ω <1. 0º ±60º Impedance VSWR IMD3@2×43dBm carrier Max.5 <-150dBc 400W 1710-1880MHz ±45º 18. power per input S-Wave 09/18-65/65-18/18D 870-960MHz ±45º 17. power per input S-Wave 09/18-65/65-18/18DT6 870-960MHz ±45º 17. copolar Isolation Cross-polar ratio.0dBi 62º 6.5dBi 65º 7.XXpol Panel 870-960/1710-1880 65º/65º 18/18dBi FET6º Part Number Electrical specifications Frequency range Polarization Gain Horizontal 3dB beam width Vertical 3dB beam width Electrical down tilt First upper sidelobe suppression Front to back ratio.0º 6ºFixed >16dB >25dB >30dB >18dB >10dB 50Ω <1. 0º ±60º Impedance VSWR IMD3@2×43dBm carrier Max.5º 6ºFixed >16dB >25dB >30dB >18dB >10dB 50Ω <1.5 <-150dBc 300W 870~960 +45º 1710~1880 +45º 870~960 -45º 1710~1880 -45º Dual Band Antennas --4 ports Dual Polarization +45º/–45º 160 7-16 DIN 7-16 DIN 7-16 DIN 7-16 DIN Mechanical Specifications Connector type 4×7-16DIN(F) 25Kg 200Km/h 2640×262×139MM Horizontal Pattern 870-960MHz Vertical Pattern Weight Max. wind velocity Dimension Horizontal Pattern 1710-1880MHz Vertical Pattern .5 <-150dBc 400W 1710-1880MHz ±45º 18. copolar Cross-polar ratio. wind velocity Dimension 161 Dual Band Antennas --4 ports Dual Polarization +45º/–45º .0º 0ºFixed >14dB >25dB >18dB >10dB 50Ω <1.5 870-960MHz ±45º 15.2º 1710-2170MHz 1710-1880MHz ±45º 16.2º 1920-2170MHz ±45º 17.0dBi 65º 14.0dBi 62º 7.5dBi 65º 7. power per input S-Wave 0809/U -65-15/17D 806-960MHz 806-894MHz ±45º 14.0º Horizontal Pattern 806-960MHz Vertical Pattern 806~960 +45º 1710~2170 +45º 806~960 -45º 1710~2170 -45º 7-16 DIN 7-16 DIN 7-16 DIN 7-16 DIN Mechanical Specifications Connector type 4×7-16DIN(F) 15Kg 200Km/h 1350×262×139MM Horizontal Pattern 1710-2170MHz Vertical Pattern Weight Max.5º 0ºFixed >16dB >25dB >18dB >10dB 1850-1990MHz ±45º 16.5 >30dB <-150dBc 400W 300W <1.8dBi 63º 7.7dBi 68º 15.XXpol Panel 806-960/1710-2170 65º/65º 15/17dBi FET0º Part Number Electrical specifications Frequency range Polarization Gain Horizontal 3dB beam width Vertical 3dB beam width Electrical down tilt First upper sidelobe suppression Front to back ratio. 0º ±60º Impedance VSWR Isolation IMD3@2×43dBm carrier Max. 5dBi 65º 7.2º 1710-2170MHz 1710-1880MHz ±45º 16.2º 1920-2170MHz ±45º 17.5º 6º Fixed >16dB >25dB >18dB >10dB 1850-1990MHz ±45º 16. copolar Cross-polar ratio.0º 6º Fixed >14dB >25dB >18dB >10dB 50Ω <1.5 870-960MHz ±45º 15.7dBi 68º 15. power per input S-Wave 0809/U -65-15/17DT6 806-960MHz 806-894MHz ±45º 14.5 >30dB <-150dBc 400W 300W <1. wind velocity Dimension .0º Dual Band Antennas --4 ports Dual Polarization +45º/–45º 162 Horizontal Pattern 806-960MHz Vertical Pattern 806~960 +45º 1710~2170 +45º 806~960 -45º 1710~2170 -45º 7-16 DIN 7-16 DIN 7-16 DIN 7-16 DIN Mechanical Specifications Connector type 4×7-16DIN(F) 15Kg 200Km/h 1350×262×139MM Horizontal Pattern 1710-2170MHz Vertical Pattern Weight Max.0dBi 65º 14. 0º ±60º Impedance VSWR Isolation IMD3@2×43dBm carrier Max.8dBi 63º 7.XXpol Panel 806-960/1710-2170 65º/65º 15/17dBi FET6º Part Number Electrical specifications Frequency range Polarization Gain Horizontal 3dB beam width Vertical 3dB beam width Electrical down tilt First upper sidelobe suppression Front to back ratio.0dBi 62º 7. power per input S-Wave 0809/U -65-17/18D 806-960MHz 806-894MHz ±45º 16. copolar Cross-polar ratio.8dBi 63º 6.0dBi 65º 9.5dBi 65º 6.7dBi 68º 10.2º 1920-2170MHz ±45º 18.5 870-960MHz ±45º 17. 0º ±60º Impedance VSWR Isolation IMD3@2×43dBm carrier Max.5 >30dB <-150dBc 400W 300W <1.XXpol Panel 806-960/1710-2170 65º/65º 17/18dBi FET0º Part Number Electrical specifications Frequency range Polarization Gain Horizontal 3dB beam width Vertical 3dB beam width Electrical down tilt First upper sidelobe suppression Front to back ratio.5º 0ºFixed >16dB >25dB >18dB >10dB 1850-1990MHz ±45º 17.0º Horizontal Pattern 806-960MHz Vertical Pattern 806~960 +45º 1710~2170 +45º 806~960 -45º 1710~2170 -45º 7-16 DIN 7-16 DIN 7-16 DIN 7-16 DIN Mechanical Specifications Connector type 4×7-16DIN(F) 22Kg 200Km/h 1936×262×139MM Weight Max.0º 0ºFixed >16dB >25dB >18dB >10dB 50Ω <1.5º 1710-2170MHz 1710-1880MHz ±45º 17. wind velocity Horizontal Pattern 1710-2170MHz Vertical Pattern Dimension 163 Dual Band Antennas --4 ports Dual Polarization +45º/–45º .0dBi 62º 6. 7dBi 68º 10.0dBi 65º 9.5º 1710-2170MHz 1710-1880MHz ±45º 17.5 >30dB <-150dBc 400W 300W <1.0º 6º Fixed >16dB >25dB >18dB >10dB 50Ω <1. wind velocity Horizontal Pattern 1710-2170MHz Vertical Pattern Dimension .0º Dual Band Antennas --4 ports Dual Polarization +45º/–45º 164 Horizontal Pattern 806-960MHz Vertical Pattern 806~960 +45º 1710~2170 +45º 806~960 -45º 1710~2170 -45º 7-16 DIN 7-16 DIN 7-16 DIN 7-16 DIN Mechanical Specifications Connector type 4×7-16DIN(F) 22Kg 200Km/h 1936×262×139MM Weight Max. 0º ±60º Impedance VSWR Isolation IMD3@2×43dBm carrier Max. power per input S-Wave 0809/U -65-17/18DT6 806-960MHz 806-894MHz ±45º 16.5 870-960MHz ±45º 17.0dBi 62º 6.XXpol Panel 806-960/1710-2170 65º/65º 17/18dBi FET6º Part Number Electrical specifications Frequency range Polarization Gain Horizontal 3dB beam width Vertical 3dB beam width Electrical down tilt First upper sidelobe suppression Front to back ratio.2º 1920-2170MHz ±45º 18.5dBi 65º 6.8dBi 63º 6.5º 6º Fixed >16dB >25dB >18dB >10dB 1850-1990MHz ±45º 17. copolar Cross-polar ratio. 5º 0ºFixed >16dB >25dB >18dB >10dB 1850-1990MHz ±45º 17.5º Horizontal Pattern 806-960MHz Vertical Pattern 806~960 +45º 1710~2170 +45º 806~960 -45º 1710~2170 -45º 7-16 DIN 7-16 DIN 7-16 DIN 7-16 DIN Mechanical Specifications Connector type 4×7-16DIN(F) 25Kg 200Km/h 2640×262×139MM Horizontal Pattern 1710-2170MHz Vertical Pattern Weight Max.6dBi 65º 7.0º 1920-2170MHz ±45º 18.8dBi 63º 6. power per input S-Wave 0809/U -65-18/18D 806-960MHz 806-894MHz ±45º 17.0º 1710-2170MHz 1710-1880MHz ±45º 17.3dBi 68º 7.5º 0ºFixed >16dB >25dB >18dB >10dB 50Ω <1. 0º ±60º Impedance VSWR Isolation IMD3@2×43dBm carrier Max. wind velocity Dimension 165 Dual Band Antennas --4 ports Dual Polarization +45º/–45º .5dBi 65º 6.5 870-960MHz ±45º 17. copolar Cross-polar ratio.0dBi 62º 5.5 >30dB <-150dBc 400W 300W <1.XXpol Panel 806-960/1710-2170 65º/65º 18/18dBi FET0º Part Number Electrical specifications Frequency range Polarization Gain Horizontal 3dB beam width Vertical 3dB beam width Electrical down tilt First upper sidelobe suppression Front to back ratio. 5º 6º Fixed >16dB >25dB >18dB >10dB 50Ω <1.3dBi 68º 7. copolar Cross-polar ratio. 0º ±60º Impedance VSWR Isolation IMD3@2×43dBm carrier Max.0º 1920-2170MHz ±45º 18.0dBi 62º 5.5 >30dB <-150dBc 400W 300W <1. wind velocity Dimension .0º 1710-2170MHz 1710-1880MHz ±45º 17.5dBi 65º 6.5º Dual Band Antennas --4 ports Dual Polarization +45º/–45º 166 Horizontal Pattern 806-960MHz Vertical Pattern 806~960 +45º 1710~2170 +45º 806~960 -45º 1710~2170 -45º 7-16 DIN 7-16 DIN 7-16 DIN 7-16 DIN Mechanical Specifications Connector type 4×7-16DIN(F) 25Kg 200Km/h 2640×262×139MM Horizontal Pattern 1710-2170MHz Vertical Pattern Weight Max. power per input S-Wave 0809/U -65-17/18DT6 806-960MHz 806-894MHz ±45º 17.6dBi 65º 7.5º 6º Fixed >16dB >25dB >18dB >10dB 1850-1990MHz ±45º 17.8dBi 63º 6.XXpol Panel 806-960/1710-2170 65º/65º 18/18dBi FET6º Part Number Electrical specifications Frequency range Polarization Gain Horizontal 3dB beam width Vertical 3dB beam width Electrical down tilt First upper sidelobe suppression Front to back ratio.5 870-960MHz ±45º 17. 0º ±60º Impedance VSWR Isolation IMD3@2×43dBm carrier Max. power per input S-Wave U/U -65-18/18D 1710-2170MHz 1710-1880MHz ±45º 17.5 >30dB <-150dBc 400W 300W <1.5 1850-1990MHz ±45º 17.8º 1920-2170MHz ±45º 17.6dBi 63º 6.5dBi 65º 7.XXpol Panel 1710-2170/1710-2170 65º/65º 18/18dBi FET0º Part Number Electrical specifications Frequency range Polarization Gain Horizontal 3dB beam width Vertical 3dB beam width Electrical down tilt First upper sidelobe suppression Front to back ratio. wind velocity Dimension 167 Dual Band Antennas --4 ports Dual Polarization +45º/–45º .5º 1710-2170MHz 1710-1880MHz ±45º 17.8dBi 62º 6.5º Horizontal Pattern 1710-2170MHz Vertical Pattern 1710~2170 +45º 1710~2170 +45º 1710~2170 -45º 1710~2170 -45º 7-16 DIN 7-16 DIN 7-16 DIN 7-16 DIN Mechanical Specifications Connector type 4×7-16DIN(F) 18Kg 200Km/h 1320×310×76MM Horizontal Pattern 1710-2170MHz Vertical Pattern Weight Max.0º 0ºFixed >16dB >25dB >18dB >10dB 1850-1990MHz ±45º 17. copolar Cross-polar ratio.5dBi 65º 7.8º 1920-2170MHz ±45º 17.0º 0ºFixed >16dB >25dB >18dB >10dB 50Ω <1.6dBi 63º 6.8dBi 62º 6. 0º 6ºFixed >16dB >25dB >18dB >10dB 50Ω <1.XXpol Panel 1710-2170/1710-2170 65º/65º 18/18dBi FET6º Part Number Electrical specifications Frequency range Polarization Gain Horizontal 3dB beam width Vertical 3dB beam width Electrical down tilt First upper sidelobe suppression Front to back ratio. wind velocity Dimension . power per input S-Wave U/U -65-18/18DT6 1710-2170MHz 1710-1880MHz ±45º 17. copolar Cross-polar ratio.5º 1710-2170MHz 1710-1880MHz ±45º 17.5dBi 65º 7.8dBi 62º 6. 0º ±60º Impedance VSWR Isolation IMD3@2×43dBm carrier Max.5º Dual Band Antennas --4 ports Dual Polarization +45º/–45º 168 Horizontal Pattern 806-960MHz Vertical Pattern 1710~2170 +45º 1710~2170 +45º 1710~2170 -45º 1710~2170 -45º 7-16 DIN 7-16 DIN 7-16 DIN 7-16 DIN Mechanical Specifications Connector type 4×7-16DIN(F) 18Kg 200Km/h 1320×310×76MM Horizontal Pattern 1710-2170MHz Vertical Pattern Weight Max.6dBi 63º 6.0º 6ºFixed >16dB >25dB >18dB >10dB 1850-1990MHz ±45º 17.5 >30dB <-150dBc 400W 300W <1.5dBi 65º 7.5 1850-1990MHz ±45º 17.8º 1920-2170MHz ±45º 17.8º 1920-2170MHz ±45º 17.8dBi 62º 6.6dBi 63º 6. XXpol Panel 870-960/1710-1880 65º/65º 17/18dBi VET0º-8º Adjust.5º 0º-8º >16dB >25dB >30dB >18dB >10dB 50Ω <1. wind velocity Dimension Horizontal Pattern 1710-1880MHz Vertical Pattern 169 Dual Band Antennas --4 ports Dual Polarization +45º/–45º 870~960 +45º 1710~1880 +45º 870~960 -45º 1710~1880 -45º . power per input 870-960MHz ±45º 17.5 <-150dBc 300W S-Wave 09/18-65/65-17/18DV8 7-16 DIN 7-16 DIN 7-16 DIN 7-16 DIN Mechanical Specifications Connector type 4×7-16DIN(F) 25Kg 200Km/h 1936×262×139MM Horizontal Pattern 870-960MHz Vertical Pattern Weight Max.0dBi 62º 6.0dBi 65º 9. copolar Isolation Cross-polar ratio. Electrical Downtilt set by hand or by optional RCU Part Number Electrical specifications Frequency range Polarization Gain Horizontal 3dB beam width Vertical 3dB beam width Electrical down tilt First upper sidelobe suppression Front to back ratio. 0º ±60º Impedance VSWR IMD3@2×43dBm carrier Max.5 <-150dBc 400W 1710-1880MHz ±45º 18.5º 0º-8º >16dB >25dB >30dB >18dB >10dB 50Ω <1. wind velocity Dimension Horizontal Pattern 1710-1880MHz Vertical Pattern .5º 0º-8º >16dB >25dB >30dB >18dB >10dB 50Ω <1.0dBi 65º 10. 0º ±60º Impedance VSWR IMD3@2×43dBm carrier Max. power per input 870-960MHz ±45º 16.XXpol Panel 870-960/1710-1880 65º/65º 16/18dBi VET0º-8º Adjust.0º 0º-8º >16dB >25dB >30dB >18dB >10dB 50Ω <1.5 <-150dBc 300W S-Wave 09/18-65/65-16/18DV8 870~960 +45º 1710~1880 +45º 870~960 -45º 1710~1880 -45º Dual Band Antennas --4 ports Dual Polarization +45º/–45º 170 7-16 DIN 7-16 DIN 7-16 DIN 7-16 DIN Mechanical Specifications Connector type 4×7-16DIN(F) 23Kg 200Km/h 1700×262×139MM Horizontal Pattern 870-960MHz Vertical Pattern Weight Max. copolar Isolation Cross-polar ratio.0dBi 62º 6. Electrical Downtilt set by hand or by optional RCU Part Number Electrical specifications Frequency range Polarization Gain Horizontal 3dB beam width Vertical 3dB beam width Electrical down tilt First upper sidelobe suppression Front to back ratio.5 <-150dBc 400W 1710-1880MHz ±45º 18. 8dBi 63º 6.0º S-Wave 0809/U -65-17/18DV8 Horizontal Pattern 806-960MHz Vertical Pattern 806~960 +45º 1710~2170 +45º 806~960 -45º 1710~2170 -45º 7-16 DIN 7-16 DIN 7-16 DIN 7-16 DIN Mechanical Specifications Horizontal Pattern 1710-2170MHz Vertical Pattern Connector type Weight Max. 0º ±60º Impedance VSWR Isolation IMD3@2×43dBm carrier Max.5º 1710-2170MHz 1710-1880MHz ±45º 17.7dBi 68º 10.0dBi 62º 6.5 >30dB <-150dBc 400W 300W <1. copolar Cross-polar ratio.0dBi 65º 9. power per input 806-960MHz 806-894MHz ±45º 16. Electrical Downtilt set by hand or by optional RCU Part Number Electrical specifications Frequency range Polarization Gain Horizontal 3dB beam width Vertical 3dB beam width Electrical down tilt First upper sidelobe suppression Front to back ratio. wind velocity Dimension 4×7-16DIN(F) 25Kg 200Km/h 1936×262×139MM 171 Dual Band Antennas --4 ports Dual Polarization +45º/–45º .5dBi 65º 6.5 870-960MHz ±45º 17.5º 0º-8º >16dB >25dB >18dB >10dB 1850-1990MHz ±45º 17.0º 0º-8º >16dB >25dB >18dB >10dB 50Ω <1.2º 1920-2170MHz ±45º 18.XXpol Panel 806-960/1710-2170 65º/65º 17/18dBi VET0º-8º Adjust. 0dBi 65º 10.0º S-Wave 0809/U -65-16/18DV8 Dual Band Antennas --4 ports Dual Polarization +45º/–45º 172 Horizontal Pattern 806-960MHz Vertical Pattern 806~960 +45º 1710~2170 +45º 806~960 -45º 1710~2170 -45º 7-16 DIN 7-16 DIN 7-16 DIN 7-16 DIN Mechanical Specifications Horizontal Pattern 1710-2170MHz Vertical Pattern Connector type Weight Max. power per input 806-960MHz 806-894MHz ±45º 15. wind velocity Dimension 4×7-16DIN(F) 23Kg 200Km/h 1700×262×139MM .0º 1710-2170MHz 1710-1880MHz ±45º 17.5 870-960MHz ±45º 16.0º 0º-8º >15dB >25dB >18dB >10dB 50Ω <1.5 >30dB <-150dBc 400W 300W <1.5º 0º-8º >16dB >25dB >18dB >10dB 1850-1990MHz ±45º 17.0dBi 62º 6.XXpol Panel 806-960/1710-2170 65º/65º 16/18dBi VET0º-8º Adjust.2º 1920-2170MHz ±45º 18.5dBi 65º 6.8dBi 63º 6. Electrical Downtilt set by hand or by optional RCU Part Number Electrical specifications Frequency range Polarization Gain Horizontal 3dB beam width Vertical 3dB beam width Electrical down tilt First upper sidelobe suppression Front to back ratio.7dBi 68º 11. copolar Cross-polar ratio. 0º ±60º Impedance VSWR Isolation IMD3@2×43dBm carrier Max. 5 >30dB <-150dBc 400W 300W <1.8º 1920-2170MHz ±45º 17.5dBi 65º 7.5º 1710-2170MHz 1710-1880MHz ±45º 17. 0º ±60º Impedance VSWR Isolation IMD3@2×43dBm carrier Max.8dBi 62º 6.6dBi 63º 6.5 1850-1990MHz ±45º 17.5dBi 65º 7.5º S-Wave U/U -65-18/18DV8 Horizontal Pattern 1710-2170MHz Vertical Pattern 1710~2170 +45º 1710~2170 +45º 1710~2170 -45º 1710~2170 -45º 7-16 DIN 7-16 DIN 7-16 DIN 7-16 DIN Mechanical Specifications Connector type 4×7-16DIN(F) 16Kg 200Km/h 1320×310×76MM Horizontal Pattern 1710-2170MHz Vertical Pattern Weight Max.XXpol Panel 1710-2170/1710-2170 65º/65º 18/18dBi VET0º-8º Adjust.0º 0º-8º >16dB >25dB >18dB >10dB 1850-1990MHz ±45º 17.8º 1920-2170MHz ±45º 17. Electrical Downtilt set by hand or by optional RCU Part Number Electrical specifications Frequency range Polarization Gain Horizontal 3dB beam width Vertical 3dB beam width Electrical down tilt First upper sidelobe suppression Front to back ratio. wind velocity Dimension 173 Dual Band Antennas --4 ports Dual Polarization +45º/–45º . power per input 1710-2170MHz 1710-1880MHz ±45º 17.6dBi 63º 6.8dBi 62º 6.0º 0º-8º >16dB >25dB >18dB >10dB 50Ω <1. copolar Cross-polar ratio. power per input 870-960MHz ±45º 17.Triple Band Antennas --6 ports Dual Polarization +45º/-45º XXXpol Panel 870-960/1710-1880/1920-2170 65º 17. 0º ±60º Impedance VSWR Isolation IMD3@2×43dBm carrier Max. copolar Cross-polar ratio.0º 0º-8º >15dB >25dB >18dB >10dB 50Ω <1.0DV8 Triple Band Antennas --6 ports Dual Polarization +45º/-45º 174 Horizontal Pattern 870-960MHz Vertical Pattern 870~960 +45º 870~960 -45º 1710~1880 -45º 1920~2170 -45º Horizontal Pattern 1710-1880MHz Vertical Pattern 1710~1880 +45º 1920~2170 +45º 7-16 DIN 7-16 DIN 7-16 DIN 7-16 DIN 7-16 DIN 7-16 DIN Mechanical Specifications Connector type Weight Max. Electrical Downtilt set by hand or by optional RCU Part Number Electrical specifications Frequency range Polarization Gain Horizontal 3dB beam width Vertical 3dB beam width Electrical down tilt First upper sidelobe suppression Front to back ratio.5dBi 65º 7.4º 0º-8º >16dB >25dB >18dB >10dB S-Wave 09/18/21-65-17.5/17.5 <1.5/17. wind velocity 6×7-16DIN(F) 42Kg 200Km/h 2628×262×149MM Horizontal Pattern 1920-2170MHz Vertical Pattern Dimension .7º 0º-8º >16dB >25dB >18dB >10dB 1920-2170MHz ±45º 18.5/18.5 >30dB <-150dBc 250W 200W <1.5 1710-1880MHz ±45º 17.5dBi 65º 4.0dBi VET0º-8º Adjust.5/18.0dBi 63º 4. copolar Cross-polar ratio.4º 0º-8º >15dB >25dB >18dB >10dB 50Ω <1.4º 0º-8º >16dB >25dB >18dB >10dB S-Wave 0809/18/21-65-17. 0º ±60º Impedance VSWR Isolation IMD3@2×43dBm carrier Max.5/18.5 >30dB <-150dBc 250W 200W <1.8º 1710-1880MHz ±45º 17.5/17.5dBi 65º 4. Electrical Downtilt set by hand or by optional RCU Part Number Electrical specifications Frequency range Polarization Gain Horizontal 3dB beam width Vertical 3dB beam width Electrical down tilt First upper sidelobe suppression Front to back ratio.5 824-894MHz ±45º 17. wind velocity Dimension 6×7-16DIN(F) 42Kg 200Km/h 2628×262×149MM Horizontal Pattern 1920-2170MHz Vertical Pattern 175 Triple Band Antennas --6 ports Dual Polarization +45º/-45º .0DV8 Horizontal Pattern 806-960MHz Vertical Pattern 806~960 +45º 1710~1880 +45º 1920~2170 +45º 806~960 -45º 1710~1880 -45º 1920~2170 -45º Horizontal Pattern 1710-1880MHz Vertical Pattern 7-16 DIN 7-16 DIN 7-16 DIN 7-16 DIN 7-16 DIN 7-16 DIN Mechanical Specifications Connector type Weight Max.5dBi 64º 6.XXXpol Panel 806-960/1710-1880/1920-2170 65º 17.7º 0º-8º >16dB >25dB >18dB >10dB 1920-2170MHz ±45º 18.3dBi 66º 7.1dBi 69º 7.5 <1.5/17. power per input 870-960MHz 806-866MHz ±45º 17.2º 880-960MHz ±45º 17.0dBi 63º 4.0dBi VET0º-8º Adjust.5/18. 0dBi VET0º-12º/ VET0º-8º/ VET0º-8º Adjust.2º S-Wave 0809/U/U-65-15/17/17DV12/V8/V8 Triple Band Antennas --6 ports Dual Polarization +45º/-45º 176 Horizontal Pattern 806-960MHz Vertical Pattern 806~960 +45º 1710~2170 +45º 1710~2170 +45º 806~960 -45º 1710~2170 -45º 1710~2170 -45º Horizontal Pattern 1710-2170MHz Vertical Pattern 7-16 DIN 7-16 DIN 7-16 DIN 7-16 DIN 7-16 DIN 7-16 DIN Mechanical Specifications Connector type Weight Max. Electrical Downtilt set by hand or by optional RCU Part Number Electrical specifications Frequency range Polarization Gain Horizontal 3dB beam width Vertical 3dB beam width Electrical down tilt First upper sidelobe suppression Front to back ratio.5dBi 69º 14º 0º-12º >14dB >25dB >18dB >10dB 50Ω <1. wind velocity Dimension 6×7-16DIN(F) 26Kg 200Km/h 1500×262×149MM Horizontal Pattern 1710-2170MHz Vertical Pattern .5 >30dB <-150dBc 250W 200W <1.8dBi 66º 13.5 824-894MHz ±45º 14.XXXpol Panel 806-960/1710-2170/1710-2170 65º 15. 0º ±60º Impedance VSWR Isolation IMD3@2×43dBm carrier Max.0/17.5º 1920-2170MHz ±45º 17.7º 0º-8º >16dB >25dB >18dB >10dB 1850-1990MHz ±45º 16.0/17.8dBi 63º 6.5º 880-960MHz ±45º 15.0dBi 64º 13 º 1710-2170MHz/1710-2170 MHz 1710-1880MHz ±45º 16. copolar Cross-polar ratio.5dBi 65º 6. power per input 806-960MHz 806-866MHz ±45º 14.0dBi 62º 6. XXXpol Panel 806-960/1710-2170/1710-2170 65º 17.4º S-Wave 0809/U/U-65-17.0/18.3dBi 66º 7.5dBi 64º 6.5/18.4º 0º-8º >15dB >25dB >18dB >10dB 50Ω <1. copolar Cross-polar ratio. wind velocity Dimension 6×7-16DIN(F) 42Kg 200Km/h 2628×262×149MM Horizontal Pattern 1710-2170MHz Vertical Pattern 177 Triple Band Antennas --6 ports Dual Polarization +45º/-45º .2º 880-960MHz ±45º 17.5dBi 65º 4. 0º ±60º Impedance VSWR Isolation IMD3@2×43dBm carrier Max.7º 0º-8º >16dB >25dB >18dB >10dB 1850-1990MHz ±45º 17. Electrical Downtilt set by hand or by optional RCU Part Number Electrical specifications Frequency range Polarization Gain Horizontal 3dB beam width Vertical 3dB beam width Electrical down tilt First upper sidelobe suppression Front to back ratio.1dBi 69º 7.5 >30dB <-150dBc 250W 200W <1.0dBi 62º 4.5º 1920-2170MHz ±45º 18.8º 1710-2170MHz/1710-2170 MHz 1710-1880MHz ±45º 17.8dBi 63º 4.5 824-894MHz ±45º 17.0/18.0DV8 Horizontal Pattern 806-960MHz Vertical Pattern 806~960 +45º 1710~2170 +45º 1710~2170 +45º 806~960 -45º 1710~2170 -45º 1710~2170 -45º Horizontal Pattern 1710-2170MHz Vertical Pattern 7-16 DIN 7-16 DIN 7-16 DIN 7-16 DIN 7-16 DIN 7-16 DIN Mechanical Specifications Connector type Weight Max.0dBi VET0º-8º Adjust.5/18. power per input 806-960MHz 806-866MHz ±45º 17. 0º ±60º Impedance VSWR Isolation IMD3@2×43dBm carrier Max. Electrical Downtilt set by hand or by optional RCU Part Number Electrical specifications Frequency range Polarization Gain Horizontal 3dB beam width Vertical 3dB beam width Electrical down tilt First upper sidelobe suppression Front to back ratio.Tri-Sector Antennas Dual Polarization +45º/-45º Xpol Tri-Sector 1710-2170 65º 15.0dBi VET0º-14º Adjust.5 <1.5 1710-2170MHz ±45º 15dBi 65º 12º 0º-14º >15dB >25dB >18dB >10dB 1710-2170MHz ±45º 15dBi 63º 12º 0º-14º >15dB >25dB >18dB >10dB S-Wave U/U/U-65-15DV14S Tri-Sector Antenna Dual Polarization +45°/–45° 178 Horizontal Pattern 1710-2170MHz Vertical Pattern 7-16 DIN 240º +45º 1710-2170 7-16 DIN -45º 7-16 DIN +45º 1710-2170 -45º 7-16 DIN 120º Horizontal Pattern 1710-2170MHz Vertical Pattern 1710-2170 +45º -45º 7-16 DIN 0º 7-16 DIN Mechanical Specifications Connector type Weight Max.5 >30dB <-150dBc 250W <1. wind velocity 6×7-16DIN(F) 35Kg 200Km/h Φ250×1300MM Horizontal Pattern 1710-2170MHz Vertical Pattern Dimension . power per input 1710-2170MHz ±45º 15dBi 65º 12º 0º-14º >15dB >25dB >18dB >10dB 50Ω <1. copolar Cross-polar ratio. Electrical Downtilt set by hand or by optional RCU Part Number Electrical specifications Frequency range Polarization Gain Horizontal 3dB beam width Vertical 3dB beam width Electrical down tilt First upper sidelobe suppression Front to back ratio. power per input 1710-2170MHz ±45º 17. copolar Cross-polar ratio.5 1710-2170MHz ±45º 17.8dBi 65º 7.5 >30dB <-150dBc 250W <1.Xpol Tri-Sector 1710-2170 65º 18.8dBi 63º 7.5 <1.0º 0º-8º >16dB >25dB >18dB >10dB 1710-2170MHz ±45º 17.0dBi VET0º-8º Adjust. 0º ±60º Impedance VSWR Isolation IMD3@2×43dBm carrier Max.0º 0º-8º >16dB >25dB >18dB >10dB S-Wave U/U/U-65-18DV8S Horizontal Pattern 1710-2170MHz Vertical Pattern 7-16 DIN 240º +45º 1710-2170 7-16 DIN -45º 7-16 DIN +45º 1710-2170 -45º 7-16 DIN 120º Horizontal Pattern 1710-2170MHz Vertical Pattern 1710-2170 +45º -45º 7-16 DIN 0º 7-16 DIN Mechanical Specifications Connector type Weight Max. wind velocity 6×7-16DIN(F) 70Kg 200Km/h Φ250×2230MM Horizontal Pattern 1710-2170MHz Vertical Pattern Dimension 179 Tri-Sector Antenna Dual Polarization +45°/–45° .0º 0º-8º >16dB >25dB >18dB >10dB 50Ω <1.8dBi 65º 7. 0 • Compact size • Daisy Chain feasibility • Suitable for operation under outdoor conditions Type No. the RCU must be switched to the appropriate standard of the Primary before installation. Start-up operation of the RCU S-WaveRCU-001 is only possible in a RET system supporting AISG 1.30 V(pin 1. • Compliant to AISG 1.REMOTE CONTROL UNIT Remote Control Unit(RCU)for Netop base station antennas with adjustable electrical down-tilt and appropriate mechanical interface. <15 W(motor activated) S-Wave RCU-002 3GPP/AISG 2.0.1 and 3GPP/AISG 2.0 2×8 pin connector according to IEC 60130-9.0 and vice versa with a vendor specific command..1 to 3GPP/AISG 2. DC return(pin 7). Hardware interfaces power supply(pin 1. Please contact Netop for further information.8 – 1. 2)The tightening torque for fixing the connector must be 0..0 compliant to AISG 1.1 and 3GPP/AISG 2. according to AISG Adjustment time(full range) Adjustment cycles Temperature range Protection class Weight Packing size Dimensions(H×W×D) 120 sec(typically. Daisy chain out: female RS 485A/B(pin 5. pin 3).2 Nm(‘hand-tightened’). The connector should be tightened by hand only! Standards: • ETS 301 489-8 • ETS 301 489-23 • ETS 300 342-2 • EMC Directive 83/336/EEC • RTTE Directive 99/5/EEC • IEC 62305-4 Scope of supply: • Remote Control Unit • Assembly paste . pin 6).1 and start-up Remote Control Unit 180 operation of the RCU S-WaveRCU-002 is only possible in a RET system supporting 3GPP/AISG 2. according to AISG Daisy chain in: male.000 –40 ºC…+65 ºC IP 65 460g 240×90×100 mm 167×59x 46 mm 1)The protocol of the logical interface can be switched from AISG 1. pin 6) < 2 W(stand by). depending on antenna type) > 50. Please note: If the Primary of the RET system doesn’t support the standard of the RCU. Protocols Logical interface ex factory 1) Input voltage range Power consumption Connectors 2) S-Wave RCU-001 AISG 1.1 10. MOUNTING CONFIGURATIONS Standard Downtilt Part Number S-Wave 67-1-mounting bracket 181 Mounting Configurations . Part Number S-Wave 67-1-mounting bracket Mounting Configurations 182 . Part Number S-Wave 70-2-mounting bracket 183 Mounting Configurations . enabling cellular operators to extend their networks efficiently and economically. Netop incorporates the latest technology to deliver a solution optimized to provide wireless connectivity for telecoms and enterprises.Microwave & VSAT Systems In order to fulfill the growing demand of transmission networks. Netop Microwave System Netop Digital Microwave System is a robust and flexible point-to-point digital microwave platform to dramatically reduce the total cost of network planning. These systems are easily adaptable to multiple configurations of data capacity and transmission distances. geographic barriers or terrestrial infrastructure. broadband fixed wireless access and mobile backhaul networks. deployment and maintenance. irrespective of distance. Netop VSAT System The Netop VSAT system for Cellular Network Solutions uses optimization technology to bridge the gap between dispersed areas. . Netop has developed a full series of Microwave and VSAT systems. 186 Netop VSAT System -------------------------------------.Content Netop Microwave System ------------------------------.196 . upgradeable capacity • Adaptive Reed-Solomon Forward Error Correction (FEC) • Automatic Transmit Power Control (ATPC) • Integrated WEB server • SNMP based network management system • Comprehensive. integrated performance monitoring and logging • Available in protected and unprotected configurations • High Link performance and reliability System Topology Microwave System 186 . STM-1. deployment and maintenances. Fast ethernet tributary interface options by flexible plug-in module • Software programmable output power level • Software-selectable frequency. Netop incorporates the latest technology to deliver a solution optimized to provide wireless connectivity for telecom and enterprise.MICROWAVE SYSTEM Netop Digital Microwave System is a robust and flexible pointto-point digital microwave platform to dramatically reduce the total cost for network planning. Main Features • Operates in Broad frequency including all ITU frequency bands from 6 to 38GHz • E1. broadband fixed wireless access and mobile backhaul networks. Indoor Unit(IDU) and Outdoor Unit(ODU) System Specification Frequency Range (GHz) T-R Spacings (MHz) Occupied Bandwidth (MHz) Modulation Type Frequency Source Synthesizer Step Size (kHz) Frequency Stability (ppm) Systems Configurations RF Channel Selection Digital Line Code E1 Interface Ethernet RBER Loopbacks Power Supply (V) Consumption (W) RF Flange 2. RJ45 100Mbit/s.90 4 5 5 5 5 6 6 _ _ _ -10 -84 -81 _ -84/-80 -81/-77 /-74 -84/-80 -81/-77 /-74 -84/-80 -81/-77 /-74 -84/-80 -81/-77 /-74 -83/-79 -80/-76 /-73 -83/-79 -80/-76 /-73 Auxiliary & NMS Order Wire Auxiliary Data NMS Channel 1 NMS Channel 2 Operation system 1 channel.2kbit/s.1 20 25 25 20 20 18 18 Receiver Noise Figure Rx IF Frequency (MHz) RF Input Range (dBm) 4×E1 threshold (dBm) BER=1E-6 8×E1 16×E1 32×E1 Overload (dBm) 4 70 .2kbit/s. RJ45 WIN2000 / WINDOWS NT / WINXP Mechanical Dimension Weight IDU: 482×44×265 IDU: 3.8 82 7/14/28 7 154/161 3.5Kg ENVIRONMENTAL Temperature Range Relative Humidity Altitude (m) IDU: -10~+50℃ IDU: 20%~90% ≤4500 ODU: -33~+55℃ ODU: All weather conditions 187 Microwave System -87 -87 -87/-83 -87/-83 -87/-83 -87/-83 -86/-82 -86/-82 .5Kg IDU: 3. RS232C. RS232C.5 23 1008/1232 Transmitter Tx IF Frequency (MHz) RF Output Power (dBm) ATPC Range TX Spectrum Mask 310 24 +5dBm ~ max As per ETSI EN 301 128 V1. 3.5Kg ODU: 265×265×110 ODU: 5. Local&Remote DC -48V±20% 35 N 30 N 35 UBR84/N 35 UBR84/N 30 UBR140 30 UBR140 30 UBR220 30 UBR220 5.4 55 3.5Kg ODU: 5.5/7 QPSK Synthesizer 250/500 ± 10 Non-Protected (1+0) 1+1 hot standby Space and frequency diversity IDU Controlled or via NMS HDB3 for E1 and E3 E1 75Ω unbalanced-DB37 /120Ω balanced RJ-48 10/100BASE-T 100W balanced RJ45 better than 10×E-11 Baseband/IF.2. RJ45 115. 10/100BASE-T.5mm(1/8 inch) mini-jacks 19.5/7/14/28 QPSK/16QAM 8 119/126 13 266 15 420/490 18 1010/1092.20 ~ . 2m/1.725-8.85 6.2-23.3m/0.0m/2.925-6.425 7.5m/1.4-15.9m/1.7 24.5 12.2m Frequency Range 1 GHz ~40GHz Polarization Single Polarization /Dual Polarization Coding Rule S-Wave HS77 .Microwave Antenna Parabolic Diameter 0.125-7.8m/2. D: Dual Polarization H: High.5 37-40 Code 57 64 77 127 177 242 370 Microwave System 188 21.7-11.5-29. S: Standard and V: Ultra-High Performance Logo Microwave Antenna Frequency(GHz) 4.25-26.6m/0.725-5.25 17.12 Diameter of Parabolic Frequency Band S: Single Polarization.5m/3.7 14.5 .7-19.6 26.4-5 5.75-13.35 Code 44 59 71 107 144 212 295 Frequency(GHz) 5.125 7.725 10.425-7. 30 4.3 33.6 31.8 41.3 31.2 XPD.75 2.6 33.10 3.5 F/B (dB) 39 52 56 40 52 57 43 55 60 44 56 61 45 58 64 47 59 66 51 61 64 48 61 66 50 60 68 55 59 62 VSWR 1.90 3.9 31.5 30.9 34.7 39.5 44.1 31.0 31.8 35.2 38.90 1.7-19.4-15.5 31.2 38.2 1.4 30.2 1.25 1.2 34.1 37.6 31.6m Microwave Antenna Frequency (GHz) 7.1 31.7 37.3 35.50 1.30 4.2 1.2 1.5 41.8 30.6 30.56 1.7 35.6 30.2 40.6 S-Wave HS212-06 CLASS-2 S-Wave VS212-06 CLASS-3 S-Wave SS242-06 CLASS-1 24.75 2.37 1.4 30.25 0.15 1.7 41.2 1.15 1.7 38.10 2.2 1.6 35.8 42.15 1.3 31.8 44.8 34.5 30.7 S-Wave HS17703 CLASS-2 S-Wave VS177-03 CLASS-3 S-Wave SS212-03 CLASS-1 21.2 1.90 1.8 34.2 1.2 XPD.7 30.3 34.1 34.7 35 35 35 37.2 35.5 38.5 30.2 1.7 S-Wave HS107-06 CLASS-2 S-Wave VS107-06 CLASS-3 S-Wave SS127-06 CLASS-1 12.2 1.3 42.2 34.7 40.00 5.30 3.7 39.7 36 36 36 38.2 1.50 2.10 3.50 2.25 PN ETSI Class Gain (dBi) Low Med.5 39.5 41.2 1.725 PN S-Wave SS71-06 S-Wave HS71-06 S-Wave VS71-06 S-Wave SS77-06 ETSI Class CLASS-1 CLASS-2 CLASS-3 CLASS-1 CLASS-2 CLASS-3 Gain (dBi) Low Med.91 PBR84 PBR84 PBR84 PBR84 PBR84 PBR84 PBR100 PBR100 PBR100 PBR140 PBR140 PBR140 PBR140 PBR140 PBR140 PBR220 PBR220 PBR220 PBR220 PBR220 PBR220 PBR220 PBR220 PBR220 PBR320 PBR320 PBR320 PBR320 PBR320 PBR320 Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward 7.70 2.7 40.4 31.5 39.80 1.6 34.5 S-Wave HS77-06 S-Wave VS77-06 10.30 3.2 1.5 36.7 38.15 1.5 40.2-23.8 36.90 3.5 29.725-8.5 44.2 1.15 1.3 32.15 1.8 33.8 34.5 41.7 F/B (dB) 40 50 55 40 52 59 42 54 61 43 55 60 44 56 61 44 56 61 48 58 63 VSWR 1.7 34.5 38.8 33.75-13.7 S-Wave HS177-06 CLASS-2 S-Wave VS177-06 CLASS-3 S-Wave SS212-06 CLASS-1 21.3m Microwave Antenna Frequency (GHz) 12.56 1.1 37.80 PBR140 PBR140 PBR140 PBR140 PBR140 PBR140 PBR220 PBR220 PBR220 PBR220 PBR220 PBR220 PBR220 PBR220 PBR220 PBR320 PBR320 PBR320 PBR320 PBR320 PBR320 Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward S-Wave SS127-03 CLASS-1 S-Wave HS127-03 CLASS-2 S-Wave VS127-03 CLASS-3 S-Wave SS144-03 CLASS-1 14.2 1.2 1.7 33.2 1.5 29.2 41 41 41 42.7 35.2 1.8 41.7 34.2 1.70 4.5-29.1 31.5-29.70 4.8 36.5 45.5 45.5 S-Wave HS242-03 CLASS-2 S-Wave VS242-03 CLASS-3 S-Wave SS265-03 CLASS-1 26.5 S-Wave HS265-03 CLASS-2 S-Wave VS265-03 CLASS-3 S-Wave SS37-03 37-40 S-Wave HS37-03 S-Wave VS37-03 CLASS-1 CLASS-2 CLASS-3 Φ0.30 3.70 4.8 30.9 31.Φ0.7 35.70 3. High 30.2 1.7 37.8 35.80 1.7 34.25 S-Wave HS127-06 CLASS-2 S-Wave VS127-06 CLASS-3 S-Wave SS144-06 CLASS-1 14. High 29.5 35.7-11.5 40.3 45 45 45 31.7 34.2 1.25-26.37 1.2 1.4-15.5 40.0 30.70 2.6 34.5 S-Wave HS265-06 CLASS-2 S-Wave VS265-06 CLASS-3 S-Wave SS37-06 CLASS-1 CLASS-2 CLASS-3 37-40 S-Wave HS37-06 S-Wave VS37-06 189 Microwave System S-Wave SS107-06 CLASS-1 Forward .5 38.2 1. (dB) 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 Iso.2 1.5 42.70 4.35 2.2 1.8 32.00 4.3 35.2 1.8 33.0 30.1 32.75 2.2 30.2 1.8 32.8 37.2 1. (dB) 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 Iso.2 35.6 33.2 1.6 31.37 1.3 42.56 1.2 1.90 3.7 34.8 36.1 31.15 1.35 1.2 1.1 34.6 31.00 5.30 2.125-7.35 2.8 39 39 39 40.3 32.2 35.2 1.2 1.5 30.2 1.7 33.15 1.1 39.91 0.2 1.7 40.91 0.5 S-Wave HS242-06 CLASS-2 S-Wave VS242-06 CLASS-3 S-Wave SS265-06 CLASS-1 26.5 35.2 40. dB ------------------------------------------- HPBW WG Feed (º) Flange Means 5.15 1.35 S-Wave HS144-06 CLASS-2 S-Wave VS144-06 CLASS-3 S-Wave SS177-06 CLASS-1 17.8 45.70 2.6 33.1 35.8 31.8 42.6 34.1 31.5 38. dB ------------------------------------------------------------- HPBW WG Feed (º) Flange Means 4.5 36.5 39.6 32.2 1.70 4.25 1.25-26.6 34.2 1.90 1.2-23.2 1.6 S-Wave HS212-03 CLASS-2 S-Wave VS212-03 CLASS-3 S-Wave SS242-03 CLASS-1 24.7-19.2 35.35 S-Wave HS144-03 CLASS-2 S-Wave VS144-03 CLASS-3 S-Wave SS177-03 CLASS-1 17.75-13.2 1.2 1.3 36. 8 39.8 37.3 40.1 1.15 1.425-7. High 34 34 34 34.2 41.60 1.15 1.20 2.35 1.5 46.6 40.2 41.4 36.1 36.6 36.35 1.15 1.8 34.2 40.85 PN S-Wave SS57-12 S-Wave HS57-12 S-Wave VS57-12 S-Wave SS59-12 ETSI Class CLASS-1 CLASS-2 CLASS-3 CLASS-1 CLASS-2 CLASS-3 CLASS-1 CLASS-2 CLASS-3 CLASS-1 CLASS-2 CLASS-3 CLASS-1 CLASS-2 CLASS-3 CLASS-1 CLASS-2 CLASS-3 CLASS-1 CLASS-2 CLASS-3 CLASS-1 CLASS-2 CLASS-3 CLASS-1 CLASS-2 CLASS-3 CLASS-1 CLASS-2 CLASS-3 CLASS-1 CLASS-2 CLASS-3 CLASS-1 CLASS-2 CLASS-3 Gain (dBi) Low Med.8 41.8 41. dB ------------------------------------35 35 35 ------35 35 35 ------------------- HPBW WG Feed (º) Flange Means 3.15 1.15 1.20 1.75-13.15 1.2 41.725-8.6 40.1 1.00 2.6 40.5 44.7-19.35 1.4 34.8 39.8 39.6 35.20 1.8 43.6 37.8 41.2 1.2 1.1 43.125-7.2 42.8 39.25 ` S-Wave VS127-12 S-Wave SD127-12 S-Wave HD127-12 S-Wave VD127-12 S-Wave SS144-12 Microwave System 190 14.8 34.6 40.2 41.5 F/B (dB) 43 55 60 45 55 60 47 56 61 45 58 62 46 58 63 49 61 66 49 61 66 50 62 67 50 62 67 51 64 70 53 65 72 56 66 69 VSWR 1.125 S-Wave HS64-12 S-Wave VS64-12 S-Wave SS71-12 7.25 XPD.97 0.4-15.15 1.925-6.8 36.5 41.2 1.3 37.15 1.6 40.5 34.7 S-Wave VS107-12 S-Wave SD107-12 S-Wave HD107-12 S-Wave VD107-12 S-Wave SS127-12 S-Wave HS127-12 12.5 34.1 35.1 35.60 1.2 36 36 36 37.20 2.5 45.7 S-Wave HS177-12 S-Wave VS177-12 S-Wave SS212-12 21.2 40.36 2.2m Microwave Antenna Frequency (GHz) 5.1 37.2 40.25 1.1 45 45 45 46.3 37.2 1.8 44.1 43.2-23.5 34.90 2.15 1.5 42.6 40.15 1.00 3.15 1.6 41.60 2.425 S-Wave HS59-12 S-Wave VS59-12 S-Wave SS64-12 6.2 1.2 40.97 0.5 41.36 2.2 1.7-11.60 1.60 1.5 41.4 35.15 1.60 2.6 35.5 S-Wave HS77-12 S-Wave VS77-12 S-Wave SS107-12 S-Wave HS107-12 10.8 42.5 41.2 1.2 40.15 1.90 2.6 44 44 44 45.2 41.5 34.2 1.2 1.4 36.15 1.80 PDR70 PDR70 PDR70 PDR70 PDR70 PDR70 PDR70 PDR70 PDR70 PBR84 PBR84 PBR84 PBR84 PBR84 PBR84 PBR100 PBR100 PBR100 PBR100 PBR100 PBR100 PBR140 PBR140 PBR140 PBR140 PBR140 PBR140 PBR140 PBR140 PBR140 PBR220 PBR220 PBR220 PBR220 PBR220 PBR220 Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward 5.15 1.20 1.90 2.25 1.8 41.725-5.8 41.2 1.5 46. (dB) 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 Iso.2 41.Φ1.6 42.2 35.4 37 37 37 39.4 34.80 0.36 2.5 41.35 1.725 S-Wave HS71-12 S-Wave VS71-12 S-Wave SS77-12 7.15 1.2 1.2 1.6 S-Wave HS212-12 S-Wave VS212-12 .8 35.6 42.1 37.20 0.5 45.1 1.60 1.8 42.8 41.2 35.00 3.15 1.1 37.8 36.8 39.5 46 46 46 35 35 35 35.60 1.60 2.35 1.97 0.80 0.35 1.5 44.6 37.15 1.35 S-Wave HS144-12 S-Wave VS144-12 S-Wave SS177-12 17. 6 42.6 44. High 35.5m Microwave Antenna Frequency (GHz) 5.08 1.6 41.5 46.35 S-Wave HS144-15 S-Wave VS144-15 S-Wave SS177-15 17.7 S-Wave HS107-15 S-Wave VS107-15 S-Wave SS127-15 12.425 S-Wave HS59-15 S-Wave VS59-15 S-Wave SS64-15 6.7 36.8 38.63 PDR70 PDR70 PDR70 PDR70 PDR70 PDR70 PDR70 PDR70 PDR70 PDR84 PDR84 PDR84 PDR84 PDR84 PDR84 PBR100 PBR100 PBR100 PBR140 PBR140 PBR140 PBR140 PBR140 PBR140 PBR220 PBR220 PBR220 PBR220 PBR220 PBR220 Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward 5.125-7. (dB) 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 Iso.70 1.25 1.1 45.4 43.75-13.1 42.5 37.5 38.9 36.08 1.3 47.10 1.85 PN S-Wave SS57-15 S-Wave HS57-15 S-Wave VS57-15 S-Wave SS59-15 ETSI Class CLASS-1 CLASS-2 CLASS-3 CLASS-1 CLASS-2 CLASS-3 CLASS-1 CLASS-2 CLASS-3 CLASS-1 CLASS-2 CLASS-3 CLASS-1 CLASS-2 CLASS-3 CLASS-1 CLASS-2 CLASS-3 CLASS-1 CLASS-2 CLASS-3 CLASS-1 CLASS-2 CLASS-3 CLASS-1 CLASS-2 CLASS-3 CLASS-1 CLASS-2 CLASS-3 Gain (dBi) Low Med.4-15.5 38.1 47.6 39.90 1.80 0.25 1.2 36.15 1.Φ1.27 2.925-6.9 43.7 30.20 1.70 1.6 S-Wave HS212-15 S-Wave VS212-15 191 Microwave System .725 S-Wave HS71-15 S-Wave VS71-15 S-Wave SS77-15 7.9 37.2 38.15 1.6 43.90 0.0 38.5 37.6 42.1 44.2 37.10 1.6 41.9 43.7-11.425-7.06 2.5 S-Wave HS77-15 S-Wave VS77-15 S-Wave SS107-15 10.8 36.08 1.6 46.0 38.6 42.3 F/B (dB) 46 58 63 48 60 65 48 59 64 47 59 64 48 60 65 51 63 68 52 64 69 53 65 72 55 67 74 58 68 73 VSWR 1.20 1.725-8.725-5.0 46.10 1.6 39.15 1.90 1.8 38.9 44.9 35.40 2.4 36.06 1.3 48.08 1.3 39.0 41.63 0.9 35.7 38.2-23.63 0.2 38.15 1.1 43.9 42.27 2.90 1.0 39.6 44.10 0.4 36.9 36.125 S-Wave HS64-15 S-Wave VS64-15 S-Wave SS71-15 7.25 1.8 47.0 48.08 1.2 38.90 0. dB ------------------------------------------------------------- HPBW WG Feed (º) Flange Means 2.5 39.5 46.25 S-Wave HS127-15 S-Wave VS127-15 S-Wave SS144-15 14.10 1.15 1.1 46.8 47.3 42.8 39.9 45.10 1.15 1.4 36.90 0.40 2.7 30.4 43.2 37.2 36.0 39.08 1.5 47.1 42.9 36.15 1.80 0.6 42.7-19.3 36.2 39.3 47.15 1.20 1.7 36.15 1.15 1.5 38.2 30.15 XPD.0 38.0 46.9 42.3 39.1 44.0 47.4 44.0 47.7 37.20 1.3 48.15 1.70 1.0 47.15 1.7 S-Wave HS177-15 S-Wave VS177-15 S-Wave SS212-15 21.40 2.20 1.06 2.15 1.20 1.27 2.15 1.80 0.1 45. 6 44.1 41.07 1.90 0.6 44..0 48.35 S-Wave HS144-18 S-Wave VS144-18 S-Wave SS177-18 17.1 45.7-19.2 39.7-11.4 44.2 1.7 38.5 47.2 1.5 48.65 0.08 1.4 41.8 43.15 1.08 1.08 1.08 1. dB ------------------------------35 35 35 ------35 35 35 ------35 35 35 ------------- HPBW WG Feed (º) Flange Means 2.8 40.6 45.1 45.5 48.2 43.725-8.15 1.1 46.725 S-Wave HS71-18 S-Wave VS71-18 S-Wave SS77-18 S-Wave HS77-18 7.2 38.90 1.8 40.2 44.46 1.0 46.2 43.08 1.5 38.5 40.90 0.08 1. High 37.1 43.08 1.1 41.72 1.7 43.6 44.40 1.08 1.125 S-Wave HS64-18 S-Wave VS64-18 S-Wave SS71-18 7.15 1.15 1.04 1.15 1.0 48.7 S-Wave VS107-18 S-Wave SD107-18 S-Wave HD107-18 S-Wave VD107-18 S-Wave SS127-18 S-Wave HS127-18 12.8 40.6 44.0 40.2 40.2 44.2 .5 48.04 0.425-7.6 45.6 45.2 43.75-13.0 38.5 40.5 38..40 1.15 1.80 0.5 F/B (dB) 50 55 60 45 57 64 47 59 66 50 62 67 50 62 67 50 62 67 52 64 69 52 64 69 54 66 71 54 66 71 54 66 73 56 68 75 VSWR 1.4 41.2 40.7 43.925-6.5 41.65 0.6 46.0 40.2 44.5 47.08 1.6 44.90 1.80 0.5 46.5 39.90 0.25 ` S-Wave VS127-18 S-Wave SD127-18 S-Wave HD127-18 S-Wave VD127-18 S-Wave SS144-18 Microwave System 192 14.2 43.5 37.425 S-Wave HS59-18 S-Wave VS59-18 S-Wave SS64-18 6.46 1.125-7.08 1.15 1.8 40.5 38.7 43.2 44.15 1.8 40.72 1.5 38 38 38 38.07 1.7 43.2 45.8 40.08 1.6 45.85 PN S-Wave SS57-18 S-Wave HS57-18 S-Wave VS57-18 S-Wave SS59-18 ETSI Class CLASS-1 CLASS-2 CLASS-3 CLASS-1 CLASS-2 CLASS-3 CLASS-1 CLASS-2 CLASS-3 CLASS-1 CLASS-2 CLASS-3 CLASS-1 CLASS-2 CLASS-3 CLASS-1 CLASS-2 CLASS-3 CLASS-1 CLASS-2 CLASS-3 CLASS-1 CLASS-2 CLASS-3 CLASS-1 CLASS-2 CLASS-3 CLASS-1 CLASS-2 CLASS-3 CLASS-1 CLASS-2 CLASS-3 CLASS-1 CLASS-2 CLASS-3 Gain (dBi) Low Med.15 1.9.Φ1.04 1.7 S-Wave HS177-18 S-Wave VS177-18 . (dB) 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 Iso.5 37.04 1.4 41.08 1.08 1..2 38.7 39.08 1.1 45.65 PDR70 PDR70 PDR70 PDR70 PDR70 PDR70 PDR70 PDR70 PDR70 PDR84 PDR84 PDR84 PDR84 PDR84 PDR84 PDR84 PDR84 PDR84 PBR100 PBR100 PBR100 PBR100 PBR100 PBR100 PBR140 PBR140 PBR140 PBR140 PBR140 PBR140 PBR140 PBR140 PBR140 PBR220 PBR220 PBR220 Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward 5.15 1.4 41.2 .0 48.00 1.15 XPD.7 43.5 40.46 1.7 38.1 41.58 1.1 41.08 1.4-15.58 1.725-5.5 .8m Microwave Antenna Frequency (GHz) 5.0 39.0 46.08 1.8 41.2 43.0 40.2 40.1 45.7 45.5 45.80 0.5 39.58 1.00 2.1 45.90 0.08 1.9.07 1.90 0.9.5 47.1 41.40 1.00 2.2 40.6 45.4 41.72 1.04 1.90 1.90 0.15 1.0 39.2 44.2 44.2 1.5 46.0 40.8 40.04 1.5 45.5 S-Wave VS77-18 S-Wave SD77-18 S-Wave HD77-18 S-Wave VD77-18 S-Wave SS107-18 S-Wave HS107-18 10.6 45.08 1. 4 41.4 40.0m Microwave Antenna Frequency (GHz) 5.4 42.43 1.94 0.4 44.08 1.7 38.07 1.2 43. High 38.31 0.07 1.7 38.9 40.9 39.1 40.4 45.4 42.90 1.2 F/B (dB) 45 57 64 46 58 65 48 60 66 50 62 67 51 63 68 51 63 68 53 65 70 53 65 70 VSWR 1.1 40.2 38.70 1.08 1.7 30.7 29.2 30.07 1.08 1.4 42.3 44.4 41.9 40.08 1.6 39.9 41.2 44.2 43.6 39.125 S-Wave HS64-20 S-Wave VS64-20 S-Wave SS71-20 7.7-11.2 43.5 30.94 0.94 0.1 39.7 S-Wave VS107-20 S-Wave SD107-20 S-Wave HD107-20 S-Wave VD107-20 193 Microwave System . (dB) 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 Iso.31 1.70 1.90 1.07 1.08 1.70 1.07 1.07 1.6 40.0 30.07 1. dB ------------------------------35 35 35 ------35 35 35 HPBW WG Feed (º) Flange Means 1.3 43.94 PDR70 PDR70 PDR70 PDR70 PDR70 PDR70 PDR70 PDR70 PDR70 PDR84 PDR84 PDR84 PDR84 PDR84 PDR84 PDR84 PDR84 PDR84 PBR100 PBR100 PBR100 PBR100 PBR100 PBR100 Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward 5.725-8.7 39.08 1.31 1.55 1.2 44.125-7.9 41.07 1.94 0.43 1.4 41.6 38.9 38.425 S-Wave HS59-20 S-Wave VS59-20 S-Wave SS64-20 6.4 40.7 43.07 1.4 41.925-6.55 1.9 38.5 42.90 1.9 41.725-5.08 1.07 1.Φ2.6 39.07 1.6 38.5 41.9 40.1 39.94 0.07 XPD.9 44.08 1.7 43.7 43.9 41.425-7.4 41.55 1.7 38.0 41.07 1.2 44.43 1.2 44.4 41.2 43.1 40.4 42.9 41.31 1.9 40.1 39.31 1.07 1.9 41.85 PN S-Wave SS57-20 S-Wave HS57-20 S-Wave VS57-20 S-Wave SS59-20 ETSI Class CLASS-1 CLASS-2 CLASS-3 CLASS-1 CLASS-2 CLASS-3 CLASS-1 CLASS-2 CLASS-3 CLASS-1 CLASS-2 CLASS-3 CLASS-1 CLASS-2 CLASS-3 CLASS-1 CLASS-2 CLASS-3 CLASS-1 CLASS-2 CLASS-3 CLASS-1 CLASS-2 CLASS-3 Gain (dBi) Low Med.9 39.725 S-Wave HS71-20 S-Wave VS71-20 S-Wave SS77-20 S-Wave HS77-20 7.5 S-Wave VS77-20 S-Wave SD77-20 S-Wave HD77-20 S-Wave VD77-20 S-Wave SS107-20 S-Wave HS107-20 10.5 29.31 1.4 42.7 43.07 1.7 43.08 1. 07 1.3 41.2 42.5 38.07 1.07 1.125 S-Wave VS64-25 S-Wave SD64-25 S-Wave HD64-25 S-Wave VD64-25 S-Wave SS71-25 S-Wave HS71-25 7.07 1.07 1.5 46.8 41. High 38.0 43.925-6.5 S-Wave VS77-25 S-Wave SD77-25 S-Wave HD77-25 S-Wave VD77-25 S-Wave SS107-25 S-Wave HS107-25 10.05 1.2 42.6 46.5m Microwave Antenna Frequency (GHz) PN S-Wave SS44-25 S-Wave HS44-25 4.5 39. (dB) 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 Iso.8 41.05 1.07 1.0 47. dB ------35 35 35 ------35 35 35 ------35 35 35 ------35 35 35 ------35 35 35 ------35 35 35 HPBW WG Feed (º) Flange Means 1.3 42.1 43.7 42.3 41.0 43.5 39.42 1.7 42.07 1.80 1.1 44.6 43.42 1.0 39.6 43.5 46.1 44.42 1.42 1.05 0.75 0.1 43.8 40.8 40.8 42.1 43.75 0.5 38.07 1.14 1.80 1.80 1.14 1.07 1.0 47.8 41.07 1.07 1.07 1.5 43.07 1.7 41.07 1.7 S-Wave VS107-25 S-Wave SD107-25 S-Wave HD107-25 S-Wave VD107-25 ETSI Class CLASS-1 CLASS-2 CLASS-3 CLASS-1 CLASS-2 CLASS-3 CLASS-1 CLASS-2 CLASS-3 CLASS-1 CLASS-2 CLASS-3 CLASS-1 CLASS-2 CLASS-3 CLASS-1 CLASS-2 CLASS-3 CLASS-1 CLASS-2 CLASS-3 CLASS-1 CLASS-2 CLASS-3 CLASS-1 CLASS-2 CLASS-3 CLASS-1 CLASS-2 CLASS-3 CLASS-1 CLASS-2 CLASS-3 CLASS-1 CLASS-2 CLASS-3 Gain (dBi) Low Med.07 1.07 1.7-11.07 1.0 47.14 1.36 1.07 1.5 38.5 39.0 43.8 41.7 42.07 1.07 1.75 0.5 46.7 43.8 40.1 43.36 1.0 47.07 1.05 1.36 1.5 43.07 1.0 39.0 43.80 1.8 41.0 39.07 XPD.07 1.07 1.07 1.07 1.5 38.7 42.7 42.5 43.2 42.5 42.0 39.425 S-Wave VS59-25 S-Wave SD59-25 S-Wave HD59-25 S-Wave VD59-25 S-Wave SS64-25 S-Wave HS64-25 6.5 39.5 42.75 0.2 42.75 PDR48 PDR48 PDR48 PDR48 PDR48 PDR48 PDR70 PDR70 PDR70 PDR70 PDR70 PDR70 PDR70 PDR70 PDR70 PDR70 PDR70 PDR70 PDR84 PDR84 PDR84 PDR84 PDR84 PDR84 PDR84 PDR84 PDR84 PDR84 PDR84 PDR84 PBR100 PBR100 PBR100 PBR100 PBR100 PBR100 Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Microwave System 194 .14 1.14 1.0 46.1 47.0 F/B (dB) 46 59 66 46 59 66 48 61 68 48 61 68 50 62 69 50 62 69 51 63 68 51 63 68 52 64 69 52 64 69 55 67 72 55 67 72 VSWR 1.1 44.36 1.07 1.3 41.5 44.5 43.42 1.5 46.7 41.07 1.2 43.7 41.07 1.8 40.5 43.5 39.36 1.6 43.0 46.07 1.5 39.725-8.0 47.0 41.80 1.05 1.0 46.5 38.0 39.8 40.1 46.1 43.75 0.3 41.7 41.6 43.1 44.1 44.5 43.5 42.07 1.5 41.Φ2.7 41.0 46.4-5 S-Wave VS44-25 S-Wave SD44-25 S-Wave HD44-25 S-Wave VD44-25 S-Wave SS59-25 S-Wave HS59-25 5.2 42.07 1.0 43.7 42.07 1.07 1.5 46.05 1.8 41.5 42.80 1.14 1.125-7.07 1.42 1.0 39.6 43.5 40.725 S-Wave VS71-25 S-Wave SD71-25 S-Wave HD71-25 S-Wave VD71-25 S-Wave SS77-25 S-Wave HS77-25 7.36 1.5 42.3 41.425-7.0 46.0 43. 3 48.97 0.1 44.06 1.8 48.07 1.3 F/B (dB) 49 61 68 49 61 68 50 63 70 50 63 70 52 64 71 52 64 71 54 66 73 54 66 73 55 67 74 55 67 74 57 69 76 57 69 76 VSWR 1.07 1.82 0.07 1.07 1.6 44.3 49.06 0.97 0.7 S-Wave VS107-32 S-Wave SD107-32 S-Wave HD107-32 S-Wave VD107-32 ETSI Class CLASS-1 CLASS-2 CLASS-3 CLASS-1 CLASS-2 CLASS-3 CLASS-1 CLASS-2 CLASS-3 CLASS-1 CLASS-2 CLASS-3 CLASS-1 CLASS-2 CLASS-3 CLASS-1 CLASS-2 CLASS-3 CLASS-1 CLASS-2 CLASS-3 CLASS-1 CLASS-2 CLASS-3 CLASS-1 CLASS-2 CLASS-3 CLASS-1 CLASS-2 CLASS-3 CLASS-1 CLASS-2 CLASS-3 CLASS-1 CLASS-2 CLASS-3 Gain (dBi) Low Med.88 0.07 1.4 39.88 0.4 39.1 44.97 0.9 39.8 43.6 43.3 45.9 45.3 43.3 45.8 45.4 40.3 48. dB ------35 35 35 ------35 35 35 ------35 35 35 ------35 35 35 ------35 35 35 ------35 35 35 HPBW WG Feed (º) Flange Means 1.6 43.82 0.4 49.425-7.07 1.3 45.82 0.4 40.06 1.8 40.1 45.8 43.07 1.4 43.4 46.4 48.1 44.7-11.07 1.3 43.59 0.07 1.125-7.8 46.9 45.8 42.07 1.59 0.4 39.6 44.07 1.4 45.6 44.88 0.07 1.3 44.3 48.07 1.8 44.8 48.3 48.8 44.425 S-Wave VS59-32 S-Wave SD59-32 S-Wave HD59-32 S-Wave VD59-32 S-Wave SS64-32 S-Wave HS64-32 6.4 39.4 40.8 42.3 43.07 1.6 45.8 43.07 1.9 48.07 1.9 39.4 42.40 1.3 45.8 42.06 1.8 44.59 0.4 45.06 1.07 1.8 42.4 45.07 1.8 48.97 0.9 45.8 45.3 49.40 1.4 40.07 1.40 1.9 45.07 1.4 40.8 45.3 49.88 0.3 43.4 46.8 43.8 42.925-6.07 1.07 1.4 46.3 39.8 45.8 43.07 1.88 0.4 39.725 S-Wave VS71-32 S-Wave SD71-32 S-Wave HD71-32 S-Wave VD71-32 S-Wave SS77-32 S-Wave HS77-32 7.4 46.5 S-Wave VS77-32 S-Wave SD77-32 S-Wave HD77-32 S-Wave VD77-32 S-Wave SS107-32 S-Wave HS107-32 10.8 45.8 43.6 44.40 1.125 S-Wave VS64-32 S-Wave SD64-32 S-Wave HD64-32 S-Wave VD64-32 S-Wave SS71-32 S-Wave HS71-32 7.07 1.3 49.59 0.07 1.07 XPD.9 39.9 39.3 49.4-5 S-Wave VS44-32 S-Wave SD44-32 S-Wave HD44-32 S-Wave VD44-32 S-Wave SS59-32 S-Wave HS59-32 5.8 45.97 0.3 45.4 46.07 1.88 0. (dB) 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 Iso.Φ3.8 48.40 1.3 43.3 45.07 1.82 0.9 43.59 0.4 45.07 1.3 48.6 44.1 44.6 43.8 48.9 39.6 43.725-8.40 1.4 45.8 44.9 45.07 1.07 1.07 1.1 44.07 1.6 44.6 43.8 44.07 1.06 1.07 1.2m Microwave Antenna Frequency (GHz) PN S-Wave SS44-32 S-Wave HS44-32 4.82 0.59 PDR48 PDR48 PDR48 PDR48 PDR48 PDR48 PDR70 PDR70 PDR70 PDR70 PDR70 PDR70 PDR70 PDR70 PDR70 PDR70 PDR70 PDR70 PDR84 PDR84 PDR84 PDR84 PDR84 PDR84 PDR84 PDR84 PDR84 PDR84 PDR84 PDR84 PBR100 PBR100 PBR100 PBR100 PBR100 PBR100 Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward Forward 195 Microwave System . High 39.82 0.97 0.07 1.8 44. Cellular Backhaul over Satellite Solutions Abis optimization Voice Compression BTS BSC MSC PSTN Air-Um Abis A interface E interface Why Satellite Backhauling Satellite communication advantage • Wide coverage • Fast deployment • Flexible and Reliable communication • Support point to multi-point service • Easily expandable VSAT System 196 Characteristics of BSC/BTS traffic • Large number of BTSs typically connected to one BSC • BTS dispersed over large territories • Microwave or terrestrial infrastructure is cost-prohibitive when covering long distances to reach BTS in rural areas • Rural BTS’ traffic is lower in volume and more peaky So Satellite is ideally suitable for cellular operators to: • Profitably expand into under-served regions where there is no terrestrial build-out or microwave reach is limited • Be first-to-market to gain customer’s commitment • Rapidly adjust to changing traffic and subscriber growth • Leverage greater revenue opportunities and increase customer loyalty by easily adding new services • Provide rapid means to meet regular requirements of universal access .VSAT SYSTEM VSAT stands for Very Small Aperture Terminal. enabling cellular operators to extend their networks efficiently and economically. It is an earthbound station used in satellite communications of data. irrespective of distance. Netop VSAT systems for Cellular Network Solutions use optimization technology to bridge the gap between dispersed areas. voice and video signals. geographic barriers or terrestrial infrastructure. a satellite link is the only option for efficiently transmitting the voice. For a wide range of users. where the wire line access or radio infrastructure does not exit or is not feasible. Netop VSAT systems meet the demands of cellular operators. Data and Video over Satellite Applications • Cellular backhaul • Emergency response and disaster recovery • Corporations dedicated networks • National and international branch networks • Trunking traffic for carriers • IP based voice/video/data communications 197 VSAT System .Satellite Communications are a lifeline in many areas of the world. government operations and enterprises or corporations with most cost-effective and flexible solutions. service providers. Voice. data and video traffic between the remote locations and a communication centre. S-Link ® RF Cable Solution Netop supplys complete RF subsystem for site application with Rosenberger S-Link ® site solution package which include feeder cables. Designed and engineered with both your link and cost budgets in mind. Rosenberger offers a complete cable range from 1/4”R to 1-5/8”R. the Rosenberg S-Link ® feeder cable solution offers outstanding electrical and mechanical performance around the world. For the feeder sub-system. The system performs at a low VSWR. excellent 3rd intermodulation. Rosenberger also offers a whole series of low loss coaxial cables and can be at your site quickly via our global distribution network. and has a high power rating which can be reliable and durable in any situation. And the cables are constructed with inner conductor. connectors. outer conductor and protective jacket. CDMA and 3G network systems around the world. etc. Rosenberger low loss RF coaxial cables continue to provide long-time outstanding quality and excellent performance that has been delivered for telecommunications industry applications for decades. a low attenuation. Rosenberger offers a complete cable range from 1/4”R to 1-5/8”R. With worldwide manufacturing experience. The whole system’s waterproof class complies with the harshest standard IP68 and can be installed easily. Rosenberger has more than 50 years RF expertise and their solution is already being successfully used in GSM. . foam dielectric. grounding kits. surge arresters. jumpers. 216 Jumper Cable --------------------------------------------.217 Surge Arrester -------------------------------------------.219 Grounding Kit --------------------------------------------.222 .220 Installation Accessory ---------------------------------.200 Connector -------------------------------------------------.214 Stripping Tool ---------------------------------------------.Content Feeder Cable ---------------------------------------------. SL 038R PE. This foam insulator consists of a mixture of low dielectric polyethylene melted and extruded with an insert gas injection process. And the cables are constructed with inner conductor. a smooth or corrugated copper tube according to cable size. outer conductor and protective jacket. earth station antenna jumpers. SL 078R PE. The outer conductor is made of annularly welded copper tubes that provide excellent screening while offering fl exibility. foam dielectric. With low density. SL 158R PE FRNC=Flame Retardant Non Corrosive(Halogen free) Rosenberger S-Link® RF Cable Solution 200 .S-Link® Flexible Cables Outline Rosenberger S-Link ® flexible cables feature annularly corrugated outer conductor and mainly used for cellular and personal communications. SL 012R PE. close and homogenous cell dielectric can ensure remarkable low loss and prevent water penetration. it can guarantee excellent low loss. With high conductivity copper. land mobile radio. SL 114R PE. Rosenberger offers a complete cable range from 1/4”R to 1-5/8”R. The inner conductor is made of a copper clad aluminum wire. *SL is abbreviation of S-Link ® cable series *R is a trade mark of this flexible cables series SL 014R PE. equipment room and antenna jumper etc. 527 Frequency [MHz ] 1000MHz 1500MHz 1800MHz 1900MHz 2000MHz 2200MHz 2500MHz Attenuation [dB/100m ] 14.Rating [KW ] 0. non-corrosive jacket Mechanical Characteristic Inner conductor Dielectric Diameter over outer conductor Diameter over outer jacket Copper wire Foamed PE Corrugated copper tube PE/FRNC 2.4mm 7.821 0. repeated Number of bends.11 17.313 201 Rosenberger S-Link® RF Cable Solution . minimum(typical) Recommended hanger spacing Permissable temperature range.548 0.98 5.7Ω/km 3.4mm 6.5Ω/km 26dB 24dB Attenuation value and power rating Attenuation value typical at 20℃ ambient temperature Mean power rating at 40℃ ambient temperature Frequency [MHz ] 50MHz 150MHz 200MHz 400MHz 450MHz 800MHz 900MHz 960MHz Attenuation [dB/100m ] 2.61 21. bending radius.195μH/m 15. volts RMS Inner conductor DC-resistance Outer conductor DC-resistance Return loss 800-1000MHz Return loss 1700-2500MHz 2200V 5000V 5.354 0. single Min.64 9.850 0.38 19.5mm 10.26 M.1/4” R Cable Part Number SL 014R PE SL 014R FRNC Standard polyethylene jacket Flame retardant.366 0.410 1.P.92 20.21 6.5KW DC breakdown voltage Jacket spark.03 8.80 M.67 23.Rating [KW ] 2.220 0.585 0.8GHz 19GHz 10.15 12.460 1.411 0. bending radius.377 0. operation 107(129) kg/km 600N 50 mm 120 mm 15(50) 0. installation Permissable temperature range.P.53 13.521 0.2mm Cable with standard UV resistant and halogen free PE/FRNC Cable weight PE(FRNC) Tensile strength Min.6 m -40℃ to +60℃ -55℃ to +85℃ Electrical Characteristic Impedance Relative velocity of propagation Capacitance Inductance Maximum operating frequency Cutoff frequency Peak power rating 50 +/-1Ω 83% 80pF/m 0.336 0.35 13.62 19. 05 7.5mm 11.92 7.2mm Cable with standard UV resistant and halogen free PE/FRNC Cable weight PE(FRNC) Tensile strength Min.989 0.P.40 16.5GHz 15.451 0.90 M.Rating [KW ] 0.45 4.2mm 9. repeated Number of bends.718 0.80 18.44 3.650 0.467 0.159 1.30 15.4KW DC breakdown voltage Jacket spark.655 Frequency [MHz ] 1000MHz 1500MHz 1800MHz 1900MHz 2000MHz 2200MHz 2500MHz Attenuation [dB/100m ] 11. minimum(typical) Recommended hanger spacing Permissable temperature range. operation 127(132) kg/km 600N 50mm 110mm 15(50) 0.3/8” R Cable Part Number SL 038R PE SL 038R FRNC Standard polyethylene jacket Flame retardant.9Ω/km 26dB 24dB Rosenberger S-Link® RF Cable Solution 202 Attenuation value and power rating Attenuation value typical at 20℃ ambient temperature Mean power rating at 40℃ ambient temperature Frequency [MHz ] 50MHz 150MHz 200MHz 400MHz 450MHz 800MHz 900MHz 960MHz Attenuation [dB/100m ] 2. non-corrosive jacket Mechanical Characteristic Inner conductor Dielectric Diameter over outer conductor Diameter over outer jacket Copper-clad alu wire Foamed PE Corrugated copper tube PE/FRNC 3.517 0.P.30 10.1mm 7.195μH/m 13.30 M.685 0.80 16.6m -40℃ to +60℃ -55℃ to +85℃ Electrical Characteristic Impedance Relative velocity of propagation Capacitance Inductance Maximum operating frequency Cutoff frequency Peak power rating 50 +/-1Ω 88% 76pF/m 0.510 1. bending radius.413 0. single Min.50 10.054 0.8Ω/km 2.80 17.1GHz 15.80 11.053 2.Rating [KW ] 3.391 . bending radius.50 14. volts RMS Inner conductor DC-resistance Outer conductor DC-resistance Return loss 800-1000MHz Return loss 1700-2500MHz 2500V 5000V 3.439 0. installation Permissable temperature range. 15 10.730 0.46 6.85 7.5Ω/km 1.28 9.450 1.Rating [KW ] 5. non-corrosive jacket Mechanical Characteristic Inner conductor Dielectric Diameter over outer conductor Diameter over outer jacket Copper-clad-alu wire Foamed PE Corrugated copper tube PE/FRNC 4.39 4.P.20 12. repeated Number of bends. single Min. Mean power rating at 40℃ ambient temperature Frequency [MHz ] 50MHz 150MHz 200MHz 400MHz 450MHz 800MHz 900MHz 960MHz Attenuation [dB/100m ] 1. installation Permissable temperature range.0GHz 40KW DC breakdown voltage Jacket spark.590 1. bending radius.170 1.66 3.8mm 12.673 0.8 m -40℃ to +60℃ -55℃ to +85℃ Electrical Characteristic Impedance Relative velocity of propagation Capacitance Inductance Maximum operating frequency Cutoff frequency Peak power rating 50 +/-1Ω 88% 76pF/m 0.720 1.9Ω/km 26dB 24dB Attenuation value and power rating Attenuation value typical at 20℃ ambient temperature.8GHz 10.11 4.060 Frequency [MHz ] 1000MHz 1500MHz 1800MHz 1900MHz 2000MHz 2200MHz 2500MHz Attenuation [dB/100m ] 7.10 10.753 0.710 0.52 2. minimum(typical) Recommended hanger spacing Permissable temperature range.1mm 13.75 6.050 2.820 0. bending radius.1/2” R Cable Part Number SL 012R PE SL 012R FRNC Standard polyethylene jacket Flame retardant.Rating [KW ] 1.70 11.12 M. operation 237(266) kg/km 1150N 50 mm 125 mm 15(50) 0.190μH/m 8. volts RMS Inner conductor DC-resistance Outer conductor DC-resistance Return loss 800-1000MHz Return loss 1700-2500MHz 6000V 8000V 1.P.620 203 Rosenberger S-Link® RF Cable Solution .0mm Cable with standard UV resistant and halogen free PE/FRNC Cable weight PE(FRNC) Tensile strength Min.100 1.040 0.10 M.880 2.8mm 16.40 10. 270 3.P.12 5.920 1.190μH/m 5.330 .11 6.680 1.730 1.190 1.2GHz 91KW DC breakdown voltage Jacket spark.340 2.310 6.0 m -40℃ to +60℃ -55℃ to +85℃ Electrical Characteristic Impedance Relative velocity of propagation Capacitance Inductance Maximum operating frequency Cutoff frequency Peak power rating 50 +/-1Ω 88% 76pF/m 0. bending radius.400 1.9mm 27.630 1.830 6.81 1.86 3.95 M.71 2.4mm 24. non-corrosive jacket Mechanical Characteristic Inner conductor Dielectric Diameter over outer conductor Diameter over outer jacket Copper tube Foamed PE Corrugated copper tube PE/FRNC 9.970 3.17Ω /km 26dB 24dB Rosenberger S-Link® RF Cable Solution 204 Attenuation value and power rating Attenuation value typical at 20℃ ambient temperature Mean power rating at 40℃ ambient temperature Frequency [MHz ] 50MHz 150MHz 200MHz 400MHz 450MHz 800MHz 900MHz 960MHz Attenuation [dB/100m ] 0. volts RMS Inner conductor DC-resistance Outer conductor DC-resistance Return loss 800-1000MHz Return loss 1700-2500MHz 10000V 8000V 1. minimum(typical) Recommended hanger spacing Permissable temperature range.75 5.0mm 22.95 M.5mm Cable with standard UV resistant and halogen free PE/FRNC Cable weight PE(FRNC) Tensile strength Min.P.46 6.480 2.21Ω /km 1. bending radius.18 5. operation 530(587) kg/km 1450N 120 mm 250 mm 15(50) 1. installation Permissable temperature range. single Min.Rating [KW ] 2.63 3.46 1.730 2. repeated Number of bends.48 2.0GHz 5.520 Frequency [MHz ] 1000MHz 1500MHz 1800MHz 1900MHz 2000MHz 2200MHz 2500MHz Attenuation [dB/100m ] 4.7/8” R Cable Part Number SL 078R PE SL 078R FRNC Standard polyethylene jacket Flame retardant.64 3.92 6.Rating [KW ] 12. 420 2.290 8.Rating [KW ] 18.P.450 10.690 3.P. volts RMS Inner conductor DC-resistance Outer conductor DC-resistance Return loss 800-1000MHz Return loss 1700-2500MHz 10000V 10000V 0.8mm 39.1mm 32.48 4.2 m -40℃ to +60℃ -55℃ to +85℃ Electrical Characteristic Impedance Relative velocity of propagation Capacitance Inductance Maximum operating frequency Cutoff frequency Peak power rating 50 +/-1Ω 88% 76pF/m 0.0mm Cable with standard UV resistant and halogen free PE/FRNC Cable weight PE(FRNC) Tensile strength Min.38 4. single Min.310 2. non-corrosive jacket Mechanical Characteristic Inner conductor Dielectric Diameter over outer conductor Diameter over outer jacket Copper tube Foamed PE Corrugated copper tube PE/FRNC 13.3GHz 3.85 2.500 Frequency [MHz ] 1000MHz 1500MHz 1800MHz 1900MHz 2000MHz 2200MHz 2500MHz Attenuation [dB/100m ] 3. operation 980(1117) kg/km 2500N 200 mm 380 mm 15(50) 1.84 4.410 3.19 1.97 M.810 5.360 2.04 1. Mean power rating at 40℃ ambient temperature Frequency [MHz ] 50MHz 150MHz 200MHz 400MHz 450MHz 800MHz 900MHz 960MHz Attenuation [dB/100m ] 0. bending radius.58 1.27 4. bending radius.880 3.1-1/4” R Cable Part Number SL 114R PE SL 114R FRNC Standard polyethylene jacket Flame retardant.030 205 Rosenberger S-Link® RF Cable Solution .190μH/m 3.81 1.690 5. repeated Number of bends.54Ω/km 24dB 24dB Attenuation value and power rating Attenuation value typical at 20℃ ambient temperature.540 2.14 M.5mm 35. installation Permissable temperature range.03 3.66 2.710 2.190 2.7GHz 200KW DC breakdown voltage Jacket spark.75 5.92 2.Rating [KW ] 3.7Ω /km 0. minimum(typical) Recommended hanger spacing Permissable temperature range. bending radius.870 2.81 4.970 4.260 2.84 0. single Min.5mm 50. repeated Number of bends.69 3. operation 1185(1349) kg/km 3500N 300 mm 510 mm 15(50) 1.530 13.34 2.020 7.050 2.19 3. installation Permissable temperature range.Rating [KW ] 25.Rating [KW ] 4.3mm 43.1-5/8” R Cable Part Number SL 158R PE SL 158R FRNC Standard polyethylene jacket Flame retardant.2 m -40℃ to +60℃ -55℃ to +85℃ Electrical Characteristic Impedance Relative velocity of propagation Capacitance Inductance Maximum operating frequency Cutoff frequency Peak power rating 50 +/-1Ω 88% 76pF/m 0.70GHz 3.450 5. volts RMS Inner conductor DC-resistance Outer conductor DC-resistance Return loss 800-1000MHz Return loss 1700-2500MHz 15000V 10000V 0.85Ω /km 0.49 3.P.640 .650 3.55Ω /km 23dB 23dB Rosenberger S-Link® RF Cable Solution 206 Attenuation value and power rating Attenuation value typical at 20℃ ambient temperature Mean power rating at 40℃ ambient temperature Frequency [MHz ] 50MHz 150MHz 200MHz 400MHz 450MHz 800MHz 900MHz 960MHz Attenuation [dB/100m ] 0.98 1. bending radius.5mm 46.670 3.810 11.57 3.760 Frequency [MHz ] 1000MHz 1500MHz 1800MHz 1900MHz 2000MHz 2200MHz 2500MHz Attenuation [dB/100m ] 2.41 M.190μH/m 2.330 4.44 M.970 3. non-corrosive jacket Mechanical Characteristic Inner conductor Dielectric Diameter over outer conductor Diameter over outer jacket Copper tube Foamed PE Corrugated copper tube PE/FRNC 17.P. minimum(typical) Recommended hanger spacing Permissable temperature range.840 8.05 4.0GHz 310KW DC breakdown voltage Jacket spark.47 0.56 2.45 1.18 2.0mm Cable with standard UV resistant and halogen free PE/FRNC Cable weight PE(FRNC) Tensile strength Min. SL 038S PE and SL 012S PE FRNC= Flame Retardant Non Corrosive(Halogen free) 207 Rosenberger S-Link® RF Cable Solution . high flexibility especially in shelters or plenum while outstanding mechanical and electrical performance are available. S-Link ® super flexible cables feature more flexible characteristic compare with flexible series cables. *SL is abbreviation of S-Link ® cable series *S is a mark of this super flexible cables series SL 014S PE. halogen-free material according to client requirement. With unique spiral corrugated process. These series super flexible cables covered by 1/4”S. outer conductor and protective jacket. Rosenberger offers outer jacket with polyethylene or flame-retardant. foam dielectric.S-Link® Super Flexible Cables Outline Rosenberger S-Link ® super flexible cables are manufactured with deep spiral corrugation in the outer conductor and designed for applications which require smaller bending radius. 3/8”S and 1/2”S and constructed with inner conductor. 351 0. installation Permissable temperature range.9mm 4.212 .60 24.50 18.06 7.0GHz 6.256 0.6 m -40℃ to +60℃ -55℃ to +85℃ Electrical Characteristic Impedance Relative velocity of propagation Capacitance Inductance Maximum operating frequency Cutoff frequency Peak power rating 50 +/-1Ω 83% 80pF/m 0.359 Frequency [MHz ] 1000MHz 1500MHz 1800MHz 1900MHz 2000MHz 2200MHz 2500MHz Attenuation [dB/100m ] 19.20 8.10 17.50 19.Rating [KW ] 0.249 0. volts RMS Inner conductor DC-resistance Outer conductor DC-resistance Return loss 800-1000MHz Return loss 1700-2500MHz 2000V 5000V 9. bending radius.P.4mm 6.Rating [KW ] 1.1/4” S Cable Part Number SL 014S PE SL 014S FRNC Standard polyethylene jacket Flame retardant.558 0.8Ω/km 6.828 0.373 0. bending radius.50 M.395 0.40 13.36 12.228 0.281 0.4KW DC breakdown voltage Jacket spark.704 0.242 0.4GHz 25.P.90 27.50 30. single Min. repeated Number of bends.50 26. minimum(typical) Recommended hanger spacing Permissable temperature range.527 0.70 28.4mm 7.20 32.961 0.7mm Cable with standard UV resistant and halogen free PE/FRNC Cable weight PE(FRNC) Tensile strength Min.6Ω/km 26dB 24dB Rosenberger S-Link® RF Cable Solution 208 Attenuation value and power rating Attenuation value typical at 20℃ ambient temperature Mean power rating at 40℃ ambient temperature Frequency [MHz ] 50MHz 150MHz 200MHz 400MHz 450MHz 800MHz 900MHz 960MHz Attenuation [dB/100m ] 4. operation 70(78) kg/km 600N 13 mm 25 mm 20(50) 0. non-corrosive jacket Mechanical Characteristic Inner conductor Dielectric Diameter over outer conductor Diameter over outer jacket Copper-Clad Alu Wire Foamed PE Corrugated copper tube Jacket PE/FRNC 1.20 M.195μH/m 20. 920 1.4GHz 16.50 M.640 0. bending radius.6mm 6.451 0. single Min.05 8.411 0.1GHz 11.94 4.16 6.918 0.4Ω/km 26dB 24dB Attenuation value and power rating Attenuation value typical at 20℃ ambient temperature.367 0. bending radius. repeated Number of bends.575 Frequency [MHz ] 1000MHz 1500MHz 1800MHz 1900MHz 2000MHz 2200MHz 2500MHz Attenuation [dB/100m ] 14.70 21.50 13.386 0.18 12.3/8” S Cable Part Number SL 038S PE SL 038S FRNC Standard polyethylene jacket Flame retardant. non-corrosive jacket Mechanical Characteristic Inner conductor Dielectric Diameter over outer conductor Diameter over outer jacket Copper-Clad Alu Wire Foamed PE Corrugated copper tube PE 2.1mm 10.30 13.9KW DC breakdown voltage Jacket spark.3Ω /km 4.P.6 m -40℃ to +60℃ -55℃ to +85℃ Electrical Characteristic Impedance Relative velocity of propagation Capacitance Inductance Maximum operating frequency Cutoff frequency Peak power rating 50 +/-1Ω 82% 83pF/m 0.71 9. minimum(typical) Recommended hanger spacing Permissable temperature range.601 0.2mm Cable with standard UV resistant and halogen free PE/FRNC Cable weight PE(FRNC) Tensile strength Min.398 0.563 0.195μH/m 13.90 M.50 20.80 23. operation 125(130) kg/km 600N 13 mm 25 mm 20(50) 0.338 209 Rosenberger S-Link® RF Cable Solution .Rating [KW ] 2.738 1.Rating [KW ] 0.10 20. installation Permissable temperature range. volts RMS Inner conductor DC-resistance Outer conductor DC-resistance Return loss 800-1000MHz Return loss 1700-2500MHz 2500V 5000V 5.327 0.P.70 19.7mm 9.871 0.20 17. Mean power rating at 40℃ ambient temperature Frequency [MHz ] 50MHz 100MHz 200MHz 400MHz 450MHz 800MHz 900MHz 960MHz Attenuation [dB/100m ] 2. 69Ω/km 3.40 11.48 7.95 7.930 Frequency [MHz ] 1000MHz 1500MHz 1800MHz 1900MHz 2000MHz 2200MHz 2500MHz Attenuation [dB/100m ] 11.30 M.23 4. minimum(typical) Recommended hanger spacing Permissable temperature range.550 2.8 m -40℃ to +60℃ -55℃ to +85℃ Electrical Characteristic Impedance Relative velocity of propagation Capacitance Inductance Maximum operating frequency Cutoff frequency Peak power rating 50 +/-1Ω 83% 81pF/m 0.35 4.195μH/m 10.2mm 13.59 10.615 0.889 0.P. non-corrosive jacket Mechanical Characteristic Inner conductor Dielectric Diameter over outer conductor Diameter over outer jacket Copper-Clad Alu Wire Foamed PE Corrugated copper tube PE/FRNC 3.35 16.0mm 12.162 1. operation 171(184) kg/km 750N 25 mm 35 mm 20(50) 0.523 .00 16.0GHz 16KW DC breakdown voltage Jacket spark.Rating [KW ] 4.010 0. single Min. installation Permissable temperature range.590 2.20 19. repeated Number of bends.50 17.61 M.634 0.00 11.P.6mm Cable with standard UV resistant and halogen free PE/FRNC Cable weight PE(FRNC) Tensile strength Min.564 0.6mm 9. bending radius.20 18. volts RMS Inner conductor DC-resistance Outer conductor DC-resistance Return loss 800-1000MHz Return loss 1700-2500MHz 2500V 5000V 2.950 0.404 1.54Ω/km 26dB 24dB Rosenberger S-Link® RF Cable Solution 210 Attenuation value and power rating Attenuation value typical at 20℃ ambient temperature Mean power rating at 40℃ ambient temperature Frequency [MHz ] 50MHz 150MHz 200MHz 400MHz 450MHz 800MHz 900MHz 960MHz Attenuation [dB/100m ] 2.2GHz 13. bending radius.707 0.Rating [KW ] 0.597 0.50 14.1/2” S Cable Part Number SL 012S PE SL 012S FRNC Standard polyethylene jacket Flame retardant.380 1. S-Link® Low Loss Cables Outline SL 078 R L PE & SL 158R L PE From Rosenberger Asia Pacific Electronic Co. Designed and engineered with both your link and cost budgets in advance. Rosenberger SL 078R L PE & SL 158R L PE RF coaxial cables can be at your site quickly via our global distribution network. Ltd. Engineers can now meet system link using Rosenberger SL 078R L PE & SL 158R L PE RF coaxial cable in certain taller tower applications. are new-designed low attenuation RF coaxial cable in the industry application. Rosenberger SL 078R L PE & SL 158R L PE RF coaxial cables continue provide the long-time outstanding quality and excellence performance that delivered to the communication industry application for decades.. With Rosenberger SL 078R L PE & SL 158R L PE cable . With worldwide manufactory experience . *SL is abbreviation of S-Link ® cable series *L is a mark of this Low Loss cables series SL 078R L PE & SL 158R L PE FRNC = Flame Retardant Non Corrosive(Halogen free) 211 Rosenberger S-Link® RF Cable Solution . instead of cable which would have been required before. system designers and operators can cut cable subsystem costs by up to 30% and gain cable height at the same time. 74 1.01 6.0 m -30℃ to +60℃ -45℃ to +85℃ 510kg/km 567kg/km Electrical Characteristic Impedance Relative velocity of propagation Capacitance Inductance Maximum operating frequency Cutoff frequency Peak power rating 50 +/-1Ω 89% 74pF/m 0.195μH/m 5.75 2.P. operation FRNC jacket 1450N 120 mm 250 mm 15(50) 1.77 5.45mm 22.40 4.17Ω /km ≤-26dB ≤-24dB Rosenberger S-Link® RF Cable Solution 212 * Can provide special cable according to customer’s requirement Attenuation value and power rating Attenuation value typical at 20℃ ambient temperature Mean power rating at 40℃ ambient temperature Frequency [MHz ] 50MHz 150MHz 200MHz 400MHz 450MHz 800MHz 900MHz 960MHz Attenuation [dB/100m ] 0.70 1.35 1.Rating [KW ] 2. bending radius.97 6.75 1.05 3. installation Permissable temperature range.35 5.0GHz 5.62 2.59 Frequency [MHz ] 1000MHz 1500MHz 1800MHz 1900MHz 2000MHz 2200MHz 2500MHz Attenuation [dB/100m ] 3.7/8” L Cable Part Number SL 078R L PE SL 078R L FRNC Standard polyethylene jacket Flame retardant.25Ω /km 1.34 2.49 1.5mm Cable with standard UV resistant and halogen free compliant PE jacket Cable weight Tensile strength Min. repeated Number of bends.81 2.Rating [KW ] 12.45 3.59 2. bending radius. volts RMS Inner conductor DC-resistance Outer conductor DC-resistance Return loss 800-1000MHz Return loss 1700-2500MHz 10000V 8000V 1.61 3.45 5.P.48 M.84 4.4mm 25.4mm 27. single Min. non-corrosive jacket Mechanical Characteristic Inner conductor Dielectric Diameter over outer conductor Diameter over outer jacket Copper tube Highly foamed polyethylene Regular Corrugated copper tube PE/FRNC 9.49 3.2GHz 95KW DC breakdown voltage Jacket spark.60 1.79 1. minimum(typical) Recommended hanger spacing Permissable temperature range.53 .98 1.69 M.62 6.56 6. 8mm Cable with standard UV resistant and halogen free compliant PE jacket Cable weight Tensile strength Min. non-corrosive jacket Mechanical Characteristic Inner conductor Dielectric Diameter over outer conductor Diameter over outer jacket Spiral corrugated copper tube Highly foamed polyethylene Regular corrugated copper tube PE/FRNC 17. minimum(typical) Recommended hanger spacing Permissable temperature range.0mm 46.51 2.38 3. repeated Number of bends.54 4.2 m -40℃ to +60℃ -55℃ to +85℃ 1185kg/km 1349kg/km Electrical Characteristic Impedance Relative velocity of propagation Capacitance Inductance Maximum operating frequency Cutoff frequency Peak power rating 50 +/-1Ω 90% 74pF/m 0.1-5/8” L Cable Part Number SL 158R L PE SL 158R L FRNC Standard polyethylene jacket Flame retardant. bending radius.P.9GHz 310KW DC breakdown voltage Jacket spark.82 4.190μH/m 2.09 2.05 Frequency [MHz ] 1800MHz 2000MHz 2200MHz 2500MHz Attenuation [dB/100m ] 3.34 * Maximum attenuation value shall be 105% of the nominal attenuation value 213 Rosenberger S-Link® RF Cable Solution .29 4.82 2.52 2.Rating [KW ] 2. installation Permissable temperature range.24 2.24 4.6mm 41.68 2.35 M.25Ω/km 0.7GHz 2.P.57 3. single Min.11 M. bending radius.65Ω /km ≤-23dB ≤-23dB * Can provide special cable according to customer’s requirement Attenuation value and power rating Attenuation value typical at 20℃ ambient temperature Mean power rating at 40℃ ambient temperature Frequency [MHz ] 450MHz 800MHz 900MHz 1000MHz Attenuation [dB/100m ] 1. volts RMS Inner conductor DC-resistance Outer conductor DC-resistance Return loss 800-1000MHz Return loss 1700-2500MHz 15000V 10000V 1.5mm 49. operation FRNC jacket 3500N 300 mm 510 mm 15(50) 1.Rating [KW ] 6. S-Link® Connectors Rosenberger offers a complete range S-Link ® connectors covered N and 7/16 DIN series which are used for a variety of S-Link ® cable from 1/4” to 1-5/8”. As a result, a bespoke connection solution for mobile radio station is possible. With excellent electrical, mechanical and climatic characteristics, S-Link ® connectors ensure your RF cable line and system more durable and reliable. N Series Nominal impedance Frequency range Insertion loss Intermodulation RF-Leakage Operation temperature 50Ω DC-11GHz 0.1dB -158dBc@2×20W <-128dB@1GHz -45ºC to +85ºC 7/16 Series 50Ω DC-8.3GHz 0.05dB -158dBc@2×20W <-128dB@1GHz -45ºC to +85ºC Rosenberger S-Link® RF Cable Solution 214 Connector 1C7 Series S-Link ® 1C7 connectors are extremely robust, waterproof coaxial connectors with outstanding electrical, mechanical and climatic characteristics. The product range covers straight and right angle plus for various types of S-Link ® cables from 1/4” to 1-5/8”. Return Loss Up to 35dB(2.7GHz) Insertion loss Intermodulation <0.1dB <160dBc Cable Type 1/2” S Connector Type N straight jack N straight plug N plug right angle N straight jack Order Number 53K1C7-C08N1 53S1C7-C08N1 53S2C7-C08N1 53K1C7-C03N1 53S1C7-C03N1 53S2C7-C03N1 53K1C7-CX5N1 53S1C7-CX5N1 53K1C7-C06N1 53S1C7-C06N1 53K1C7-C07N1 53S1C7-C07N1 1/2” R N straight plug N plug right angle 7/8” R & 7/8” L N straight jack N straight plug N straight jack N straight plug N straight jack N straight plug 1-1/4” R 1-5/8” R Cable Type 1/2” S Connector Type 7-16 DIN straight jack 7-16 DIN straight plug 7-16 DIN plug right angle 7-16 DIN straight jack Order Number 60S1C7-C08N1 60S2C7-C08N1 60K1C7-C03N1 60S1C7-C03N1 60S2C7-C03N1 60K1C7-CX5N1 60S1C7-CX5N1 60K1C7-C06N1 60S1C7-C06N1 60K1C7-C07N1 60S1C7-C07N1 1/2” R 7-16 DIN straight plug 7-16 DIN plug right angle 7/8” R & 7/8” L 7-16 DIN straight jack 7-16 DIN straight plug 1-1/4” R 7-16 DIN straight jack 7-16 DIN straight plug 1-5/8” R 7-16 DIN straight jack 7-16 DIN straight plug 215 Rosenberger S-Link® RF Cable Solution 60K1C7-C08N1 S-Link® Stripping Tools Rosenberger S-Link ® stripping tools are ideal for fast and easy using and reliable preparation of the connector assembly on the antenna mast. The cutting blades ensure a smooth cut on the outer and inner conductor. S-Link ® stripping tools have been newly constructed and are available for the complete S-Link® cable range from 1/4” to 1-5/8”. Rosenberger S-Link® RF Cable Solution 216 S-Link® Jumper Cables Outline S-Link ® jumpers are commonly used for the connection of the RF cable lines with the antenna or with the radios. S-Link ® jumpers are ideal for daily use even under diffi cult conditions and featured by the following characteristics: ● ● ● ● Long trouble-free fi eld life as a result of tried and tested materials and production technologies Designed for outdoor applications under extreme climatic conditions(longitudinal waterproofi ng) High fl exibility and small bending diameters Specially developed connectors using soldering technology, that guarantees superior electrical characteristics: Screening attenuation >120dB Low intermodulation product IM3 >160dBc ● ● ● ● ● Excellent return loss due to silver-plated connectors and attenuation-optimized cable materials Integrated lighting protection technology saves setup time, that is site-optimized and reduces system attenuation Hot-polyamide moulding between connector and cable jacket Waterproof to safety class IP68 Used cable jacket of fl ame retardant, halogen-free material(FRNC) 217 Rosenberger S-Link® RF Cable Solution 600N > 35 mm > 25 mm max. 1150N Environment Waterproof to safety class(IEC 529) Max operating temperature range Installation temperature range Mechanical Vibration Shock resistance Corrosion resistance IP 68 -40℃ to + 80℃ -15℃ to + 60℃ MIL STD 202 Meth.9KW 1/2” S DC to 2200MHz 16KW 50Ω >28dB >26dB 1/2” R 40KW ≤0.4KW 3/8” S 11.10dB(2connectors) ≤0.07dB/m(cable) + 0.26dB/m(cable) + 0.10dB/m(cable) + 0.11dB/m(cable) + 0.10dB(2connectors) ≤0.10dB(2connectors) ≤0.10dB(2connectors) 82% bis 84% > 160dBc(3rd order product with 2 x 43dBm) Mechanical Characteristic Bending diameter repeated bending Bending diameter single bending Tensile strength > 25 mm > 13 mm max.17dB/m(cable) + 0. black and PE black brass/CuBe. 600N > 25 mm > 13 mm max.10dB(2connectors) ≤0.10dB(2connectors) ≤0.10dB(2connectors) ≤0.10dB(2connectors) ≤0.10dB(2connectors) ≤0. silver-plated brass.18dB/m(cable) + 0.30dB/m(cable) + 0. silver-plated/Optargen PP/PE/PTFE hot-polyamide moulding annular corrugated copper tube *Provide special jumper cable according to customer’s requirement .13dB/m(cable) + 0.10dB(2connectors) ≤0.16dB/m(cable) + 0.10dB(2connectors) ≤0.Technical Specification Electrical Characteristic Frequency range Peak power rating Nominal impedance Return loss 30 . 101 Material Inner conductor Dielectric Outer conductor Jacket options Connector Insulator Sealing Inner conductor Outer conductor spiral corrugated copper tube copper clad aluminum wire copper clad aluminum wire copper clad aluminum wire copper clad aluminum wire Rosenberger S-Link® RF Cable Solution 218 Cable highly foamed polyethylene spiral corrugated copper tube spiral corrugated copper tube FRNC.2200MHz 900MHz Insertion loss 1800MHz 2200MHz Relative velocity of propagation Intermodulation at 900MHz +1800MHz +2200MHz 1/4” S 6. 750N > 125 mm > 50 mm max.10dB/m(cable) + 0. 213/B MIL STD 202 Meth.20dB/m(cable) + 0.10dB(2connectors) ≤0.22dB/m(cable) + 0.1000MHz 1000 . 204/B MIL STD 202 Meth. 960 to 1700MHz ≥26dB. the safe and effective lighting and EMP protections must be installed. 800 to 960MHz ≥21dB. above. against overvoltage damages.S-Link® Surge Arresters Outline Surge Arresters can lead to voltage surge of up to 50Kv/m-within a few microseconds. Connector Confi guration Antenna side interface RxTx side interface Order Number Female Male 60HK561-S00N1 7-16 Series Male Female 60HK561-S00N1 Female Female 60HK561-K00N1 219 Rosenberger S-Link® RF Cable Solution . 2400 to 2500MHz Order Information * No direction requirement on appliction. Return Loss: ≥26dB. Rosenberger offers coaxial surge arresters with N and 7/16 interfaces. connections and base station. “loss of air time”. These high voltages are enormous loads for electronic system. To protect whole system-antenna. 1700 to 2400MHz ≥23dB.g. 1/4λ Wideband Surge Arresters Application for a broad frequency range from 800MHz to 2500MHz grounded center contact. e. cables. mobile base stations. extremely high repair costs and. and can lead to serious damage. SLGK001 series Specifi cation SLGK001-C02-XXX SLGK001-C03-XXX SLGK001-C05-XXX SLGK001-C06-XXX SLGK001-C07-XXX for 3/8” cable for 1/2” cable for 7/8” cable for 1-1/4” cable for 1-5/8” cable SLGK002 series Specifi cation SLGK002-C02-XXX SLGK002-C03-XXX SLGK002-C05-XXX SLGK002-C06-XXX SLGK002-C07-XXX for 3/8” cable for 1/2” cable for 7/8” cable for 1-1/4” cable for 1-5/8” cable Rosenberger S-Link® RF Cable Solution 220 * XXX: Length. the kits can eliminate corrosion caused by moisture and have long life expectancy.S-Link® Grounding Kits Rosenberger S-Link ® Grounding kits are designed to withstand possible lighting strikes for reliability of system operation. With premium material solid copper construction. More than four kits options are available according to customer’s requirements. upon customer’s requests . SLGK003 series Specifi cation SLGK003-C02-XXX SLGK003-C03-XXX SLGK003-C05-XXX SLGK003-C06-XXX SLGK003-C07-XXX for 3/8” cable for 1/2” cable for 7/8” cable for 1-1/4” cable for 1-5/8” cable SLGK004 series Specifi cation SLGK004-C02-XXX SLGK004-C03-XXX SLGK004-C05-XXX SLGK004-C06-XXX SLGK004-C07-XXX for 3/8” cable for 1/2” cable for 7/8” cable for 1-1/4” cable for 1-5/8” cable SLGK005 series Specifi cation SLGK005-C02-XXX SLGK005-C03-XXX SLGK005-C05-XXX SLGK005-C06-XXX SLGK005-C07-XXX for 3/8” cable for 1/2” cable for 7/8” cable for 1-1/4” cable for 1-5/8” cable * XXX: Length. upon customer’s requests 221 Rosenberger S-Link® RF Cable Solution . An additional feature is to prevent the loosing of connectors at jumper cable interfaces caused by vibration. Specification SLAA Rosenberger S-Link® RF Cable Solution 222 SLAA-3/4 Accept for Snap-in angle adapters with 3/8”× 3/4” tapped holes . Order Information Order Number SLWK001-000 SLWK001-001 SLWK002-000 SLWK003-000 SLWK004-000 SLWK005-000 Description 3M 2166 6pcs+3M 1712(38mm) 1pc+3M 1712(18mm) 2 pcs 3M 2166 4pcs+3M 1712(38mm) 1pc+3M 1712(18mm) 1 pc 3M 23 1pcs+3M 33 1pc 3M 2228 1pc+3M 33 1pc 3M J20 2pcs+3M 33 1pc 3M J20 2pcs +3M 1712 1pc Weatherproofing Kits This accessory is used for mounting cable to angle tower members including hanger attachment hardware. splices and interfaces that are exposed to corrosive environmental conditions. easy to install and owing stable performance.S-Link® Installation Accessories Weatherproofing Kits Weatherproofi ng Tape The tapes and mastics are used for protection of connectors. They are manufactured from stainless steel. Specification Butterfly Clip Hanger SLCH-C03 SLCH-C05 SLCH-C06 SLCH-C07 for 1/2” cable for 7/8” cable for 1-1/4” cable for 1-5/8” cable Hanger Hardware Kit Slotted hex head bolts. 3/8” * 3/4” Lock washers.Butterfly Clip Hangers SLCH The Butterfl y Hangers are the traditional option for securing the coaxial cable safely to all type of structures. 3/8” Nuts. and supplied in a kit which can convenientlybe used with the Angle Adapter or Round Member Adapter Kit. 3/8” 223 Rosenberger S-Link® RF Cable Solution . The product is designed & shaped in a way so as to ensure effective installation. The Butterfly Hanger is supplied with all the associated hardwarerequired. ) Specification SLSA381-103 SLSA381-306 match round member clip 1” to 3” match round member clip 3” to 6” SLSA341 SLSA341 with 3/4” tapped hole (Round Member Clip not inc.3” OD(Stainless Steel) 3” . SLSA341 combined with SLRMC have 3/4” tapped hole to accommodate all types of Snap-in Hanger.6” OD(Stainless Steel) Application . ensuring effective installation for any cables system. They are supplied with screws and lock washers. The standard design for the stand off kit has a threaded hole to accommodate a 3/8” or threaded rod.2” OD(Stainless Steel) 2” . which allows hangers to be mounted effi ciently to the member.5” OD(Stainless Steel) 5” .) Specification SLSA341-103 SLSA341-306 match round member clip 1” to 3” match round member clip 3” to 6” Rosenberger S-Link® RF Cable Solution 224 Round Member Clip SLRMC SLRMC001-102 SLRMC001-203 SLRMC001-304 SLRMC001-405 SLRMC001-506 1” .4” OD(Stainless Steel) 4” . Stand-off Adapter SLSA381 SLSA381 with 3/8” tapped hole (Round Member Clip not inc.Stand-off Adapter Kits SLSA381 combined with SLRMC provides a versatile means enable hangers to be mounted to the round member of a structure. these clamps can provide sturdy. Cable Clamp Single Hole Specification SLCC1X1-C03 SLCC1X1-C05 SLCC1X1-C06 SLCC1X1-C07 for 1/2” cable for 7/8” cable for 1-1/4” cable for 1-5/8” cable Double Cable Clamp Double Hole Specification SLCC2X1-C03 SLCC2X1-C05 SLCC2X1-C06 SLCC2X1-C07 for 1/2” cable for 7/8” cable for 1-1/4” cable for 1-5/8” cable Cable Clamp Without Angle Adapter Specification SLCC0X1-C03 SLCC0X1-C05 SLCC0X1-C06 SLCC0X1-C07 for 1/2” cable without adapter for 7/8” cable without adapter for 1-1/4” cable without adapter for 1-5/8” cable without adapter * X: Quantity.Cable Clamps Each Cable Clamp products conform to most or all brands of coaxial cables and are designed to ultimately ease the installation process. long-term support to system by means of tough and UV material. reliable. Without additional adapters. upon customer’s requests 225 Rosenberger S-Link® RF Cable Solution . Rosenberger S-Link® RF Cable Solution 226 Specification SLEP001-101 SLEP001-102 SLEP001-103 SLEP001-202 SLEP001-106 SLEP001-203 SLEP001-204 SLEP001-206 SLEP001-304 SLEP001-404 SLEP001-306 SLEP001-406 4” Cable Entry Plate. Specification SLHG001-C03 SLHG001-C05 SLHG001-C06 SLHG001-C07 for 1/2” cable for 7/8” cable for 1-1/4” cable for 1-5/8” cable Cable Entry Plates & Boot Accessories SLEP Cable Entry Plates with round ports are easy to install when you require multiple entries for a variety cables. 6 Port 4” Cable Entry Plate. 12 Port 4” Cable Entry Plate. 3 Port 4” Cable Entry Plate. 12 Port 4” Cable Entry Plate. 8 Port 4” Cable Entry Plate. 24 Port * Rosenberger provides all kinds of Cable Entry Plates as customer’s requirement. 18 Port 4” Cable Entry Plate. 6 Port 4” Cable Entry Plate. 1 Port 4” Cable Entry Plate. . it allow for quick and effi cient installation.Hoisting Grips SLHG Hoisting Grips are available for lace-up installation at any point on coaxial cable. made up of mesh grip with single eye support. 16 Port 4” Cable Entry Plate. 2 Port 4” Cable Entry Plate. 4 Port 4” Cable Entry Plate. with 1 hole for 1 1/4” cable 4” cable entry boot kit.SLEB Cable Boot Entry Kits are supplied inclusive of cable boot assembly and insert. with 4 hole for 7/8” cable 4” cable entry boot kit. providing one piece design simplifi es installation. with 4 hole for 1/2” R cable 4” cable entry boot kit. with 2 hole for 1/2” R cable 4” cable entry boot kit. with 2 hole for 7/8” cable 4” cable entry boot kit. with 1 hole for 1/2” R cable 4” cable entry boot kit. with 3 hole for 7/8” cable 4” cable entry boot kit. Specification SLEB011-C03 SLEB021-C03 SLEB031-C03 SLEB041-C03 SLEB011-C05 SLEB021-C05 SLEB031-C05 SLEB041-C05 SLEB011-C06 SLEB011-C07 4” cable entry boot kit. with 1 hole for 7/8” cable 4” cable entry boot kit. with 3 hole for 1/2” R cable 4” cable entry boot kit. with 1 hole for 1 5/8” cable 227 Rosenberger S-Link® RF Cable Solution . Qingpu Industrial Zone. B2. Shanghai. 303. No.com .. China Post Code: 201707 Tel: (+8621) 69214567 Fax: (+8621) 69214018 www. Xinke Road. Ltd.Netop Technology Co.netop-technology.
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