ANALOG RF Microwave and Millimeter Wave IC Selection Guide 2016



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RF, MICROWAVE, AND MILLIMETER WAVE IC Selection Guide 2016 Visit analog.com/RF-Microwave 2 RF, Microwave, and Millimeter Wave IC Selection Guide 2016 Introduction From Antenna to Bits and Back … using a unique combination of design skills, systems understanding, and process technologies, Analog Devices offers the broadest portfolio of RF ICs, covering the entire RF signal chain from dc to beyond 90 GHz. With over 1000 high performance RF ICs, ADI offers a wide variety of RF function blocks, as well as highly integrated solutions for the communication, T&M instrumentation, and military markets. These products are supported by a full range of design resources to ease the development of RF systems, including free design tools, FMC rapid prototyping platforms, Circuits from the Lab® reference designs, and EngineerZone® technical forums. For more information, please visit www.analog.com/rf. LPF Variable ADC Gain and ADC Driver Attenuator Attenuator Mixer I/Q LNA Demod ADC Driver ADC Tx/Rx PLL/VCO Clock Diplexer Divider Distribution Multiplier and Cleanup Variable RF Switch Tunable LPF Gain and Filter Attenuator DAC PA Ф Amp I/Q Mod Mixer Gain/Phase DAC Adjust/Detect RF Detector Visit analog.com 3 Table of Contents RF Amplifiers 4 Frequency Dividers, Multipliers, and Detectors 23 RF/IF Differential Amplifiers 4 Frequency Dividers, Prescalers, and Counters 23 Low Noise Amplifiers 4 Frequency Multipliers—Active 23 Gain Blocks and Driver Amplifiers 5 Frequency Multipliers—Passive 24 Wideband Distributed Amplifiers 6 Phase Frequency Detectors 24 Linear and Power Amplifiers 7 GaN Power Amplifiers 8 Tunable Harmonic Low-Pass Filters 25 Variable Gain Amplifiers 9 RF Power Detectors 25 Analog Controlled VGAs 9 TruPwr RMS Responding Detectors 25 Digitally Controlled VGAs 9 Non-RMS Responding RF Detectors 25 Baseband Programmable VGA Filters 9 Envelope and Peak Detectors 26 SDLVAs 26 Attenuators 10 Digital Step Attenuators 10 RF Switches 27 Voltage Variable Attenuators 10 SPST 27 Fixed Attenuators 10 SPDT 27 SP3T, SP4T, SP6T, SP8T 27 RF Mixers 11 Bypass, Diversity, Matrix, and Transfer 27 Single, Double, and Triple Balanced Mixers 11 I/Q Mixers and Image Reject Mixers 12 Phase Shifters and Vector Modulators 28 Subharmonic Mixers 12 Analog Phase Shifters 28 I/Q Downconverters/Receivers 13 Digital Phase Shifters 28 I/Q Upconverters/Transmitters 13 Vector Modulators 28 Mixers with Integrated LO 14 Analog Multipliers 28 I/Q Modulators and Demodulators 15 Timing ICs and Clocks 29 I/Q Modulators 15 Multioutput Clock Generators 29 I/Q Demodulators 15 Clock Generators and Synchronizers 30 I/Q Modulators with Integrated LO 15 Clock Buffers and Dividers 30 I/Q Demodulators with Integrated LO 16 RF Design Tools 31 Integrated Transceivers, Transmitters, ADIsimRF 31 and Receivers 17 ADIsimPLL 31 Microwave and Millimeter Wave Transmitters/Receivers 17 ADIsimFrequencyPlanner 31 ADIsimCLK 31 PLL/Synth 18 Virtual Eval 31 Integer-N PLLs 18 Fractional-N/Integer-N PLLs 18 Design Resources 32 Integer-N PLLs with Integrated VCO 18 Circuits from the Lab Reference Designs 32 Narrow-Band RF Fractional-N/Integer-N PLLs with VCO 19 EngineerZone 32 Narrow-Band Fractional-N/Integer-N PLLs with Integrated VCO 19 Software-Defined Radio Rapid Prototyping and Development Platforms 32 Wideband Fractional-N/Integer-N PLLs with Integrated VCO 19 Voltage Controlled Oscillators 21 Low Current VCOs 21 High Performance VCOs 21 High Power and Frequency VCOs 22 Ultrawideband VCOs 22 New: recently released parts that are also available for samples. Upcoming: parts planned for release. Samples may be available—for sample availability, please contact your local ADI sales person. Export Control License Disclaimer: The Export Control Classification Number (ECCN) information shown for each part in the selection guide is for informational purposes only and is not a representation or warranty regarding the proper classification. All information is provided as is and is subject to change without notice. 5 16 28 2.0 53 5 × 5 LFCSP EAR 99 HMC565LC5 HMC565 LNA 6000 to 20.5 3. 3200 –3 to +18 50 –84/–100 5.7 5 250 5 × 5 LFCSP EAR 99 AD8376ACPZ-R7 1 dB step AD8370 Diff DGA. 700 –11. +15.8 5 28.000 20 16 28 1.000 17 19 28 1.3 Internal 3.5 47 –104/–87 7.1 External 5.0 136 3 × 3 LFCSP EAR 99 HMC375LP3E HMC382 LNA 1700 to 2200 17 16 30 1 Internal 5.2 Internal 5.000 13 16 25 2.5 80 3 × 3 LFCSP EAR 99 HMC902LP3E HMC902 LNA 5000 to 10.0 90 SOT-26 EAR 99 HMC374E HMC374 LNA 300 to 3000 15 17 35 1.0 110 SOT-89 EAR 99 HMC639ST89E HMC374 LNA 300 to 3000 15 22 37 1. 30 SOIC EAR 99 AD8350ARZ15-REEL7 AD8350 Fixed-gain diff amp 900 +20 28 –66/–65 6. .5 53 –108/–103 8. and Millimeter Wave IC Selection Guide 2016 RF Amplifiers RF/IF Differential Amplifiers 2nd/3rd Noise Figure Frequency Gain Range Output IP3 Package ECCN Part Number Description (MHz) (dB) (dBm) Harmonic at Max Gain VS (V) ISY (mA) (mm) Ordering Part Number (dBc) (dB) Code Dual diff DGA.8 External 5.6 Internal 3.5 Internal 3.0 30 Die EAR 99 HMC-ALH435 HMC902 LNA 5000 to 10.3 Internal 5.7/–100 6.5 dB step Diff DGA with parallel ADL5202 and serial control.5 to +20 50 –86/–105 7.0 65 4 × 4 LFCSP EAR 99 HMC392ALC4 Upcoming HMC717A LNA 4800 to 6000 16.0 104 3 × 3 LFCSP EAR 99 HMC356LP3E ADL5521 LNA 400 to 4000 20. 5 148 4 × 4 LFCSP EAR 99 ADL5567ACPZN-R2 range dual diff amp Programmable VGA.3 5 125 4 × 4 LFCSP EAR 99 AD8375ACPZ-R7 1 dB step Diff DGA with parallel ADL5201 and serial control.9 External 5.5 5 210 6 × 6 LFCSP EAR 99 ADL5202ACPZ-R7 0.5 21 34 0.6 3.000 21 10 20 2.3 75 SC70 EAR 99 HMC374SC70E HMC356 LNA 350 to 550 17 21 38 1 External 5.b ADL5523ACPZ-R7 HMC373 LNA 700 to 1000 14 20 35 1 Internal 5. +12.4 Internal 5. 5 37 3 × 3 LFCSP EAR 99 AD8352ACPZ-R7 diff amp ADL5561 Pin strap diff amp 2900 +6.4 Internal 5. 5 70.0 117 3 × 3 LFCSP EAR 99 HMC618ALP3E HMC375 LNA 1700 to 2200 17 18 34 0.5 90 Die EAR 99 HMC903 HMC565 LNA 6000 to 20. 30 MSOP EAR 99 AD8350ARMZ20-REEL7 Resistor programmed AD8351 2200 0 to +26 31 –79/–81 15.000 17 18 30 1. 4 RF.0 73 3 × 3 LFCSP EAR 99 HMC376LP3E HMC372 LNA 700 to 1000 15 21 34 1 External 5.0 55 4 × 4 LFCSP EAR 99 HMC753LP4E HMC-ALH444 LNA 1000 to 12. AD8372 130 –9 to +32 35 –78/–85 7.5 Internal 5.8 5 28.0 100 3 × 3 LFCSP EAR 99 HMC372LP3E HMC753 LNA 1000 to 11.000 15 13 25 1.000 19 16 28 1.5 Internal 5.500 22 10 18 2. 700 –11.7 Internal 5.b ADL5521ACPZ-R7 ADL5523 LNA 400 to 4000 21.8 22 37 0.58 3.5 dB step Dual diff DGA.5 3.7 3.9 External 5.5 19 32 1.0 90 3 × 3 LFCSP EAR 99 HMC373LP3E HMC376 LNA 700 to 1000 15 21 36 0.0 120 SOT-89 EAR 99 HMC599ST89E HMC639 LNA 200 to 4000 13 22 38 2. +12.8 3.000 22 10 20 2. +15.0 60 3 × 3 LFCSP 5A991.0 60 3 × 3 LFCSP 5A991.5 80 Die EAR 99 HMC902 HMC903 LNA 6000 to 17.3 40 3 × 3 LFCSP EAR 99 ADL5561ACPZ-R7 Diff DGA with parallel ADA4961 and serial control.5 80 3 × 3 LFCSP EAR 99 HMC903LP3E HMC903 LNA 6000 to 18.5 to +20 51 –89/–97 7.000 19 15 27 1. AD8375 630 –4 to +20 50 –85/–92 8.8 Internal 3.0 120 MSOP EAR 99 HMC549MS8GE HMC599 LNA 50 to 1000 14 19 39 2.0 53 Die EAR 99 HMC565 HMC963 LNA 6000 to 26.0 67 3 × 3 LFCSP EAR 99 HMC382LP3E HMC772 LNA 2000 to 12. 5 150 4 × 4 LFCSP EAR 99 ADA4961ACPZN-R7 1 dB step ADL5562 Pin strap diff amp 3300 +6. 80 3 × 3 LFCSP EAR 99 ADL5565ACPZ-R7 Ultrahigh dynamic ADL5567 New 4800 +16 45 –94/–104 6.3 80 3 × 3 LFCSP EAR 99 ADL5562ACPZ-R7 Dual pin strap diff ADL5566 4500 +16 51 –94.5 49 –95/–87 8 3.0 73 3 × 3 LFCSP EAR 99 HMC717ALP3E Upcoming HMC-ALH435 LNA 5000 to 20.7 Internal 3.6 Internal 3. 5 140.5 Internal 3. +12.3 3.3. +15.0 55 Die EAR 99 HMC-ALH444 HMC618A New LNA 1200 to 2200 19 20 36 0. ADL5205 New 1200 –9 to +26 47 –91/–101 6.3.5 Internal 5.5 5 110 4 × 4 LFCSP EAR 99 ADL5201ACPZ-R7 0.000 18 14 25 1.75 External 5.5 3.5 45 4 × 4 LFCSP EAR 99 HMC963LC4  = Simulation models available in ADI’s ADIsimRF and/or ADIsimPLL simulation tools. 5 79 TSSOP EAR 99 AD8370AREZ-RL7 AD8350 Fixed-gain diff amp 900 +15 28 –66/–65 6.8 Internal 4.6 Internal 3. 5 140 6 × 6 LFCSP 5A991.2 Internal 5. Microwave. 5 28 MSOP EAR 99 AD8351ACPZ-R7 diff amp Resistor programmed AD8352 2200 +3 to +25 41 –83/–82 15.9 5 212 5 × 5 LFCSP EAR 99 AD8372ACPZ-R7 1 dB step Dual diff DGA.2 3.b ADL5205ACPZ-R7 1 dB step Low Noise Amplifiers Gain Output P1dB Output IP3 Noise Figure Device Package Ordering Part Part Number Description Frequency (MHz) VS (V) ISY (mA) ECCN Code (dB) (dBm) (dBm) (dB) Match (mm) Number HMC549 LNA 40 to 960 5 12 27 3.0 45 4 × 4 LFCSP EAR 99 HMC772LC4 HMC392A LNA 3500 to 7000 15. 160 4 × 4 LFCSP EAR 99 ADL5566ACPZ-R7 amp ADL5565 Pin strap diff amp 7000 +6. AD8376 700 –4 to +20 50 –82/–91 8. step <1 dB 750 –8 to +34 35 –65/–62 7.0 50 Die EAR 99 HMC392A Upcoming HMC392A LNA 3500 to 7000 16 16 28 2.5 Internal 5. 0 120 SOT-89 EAR 99 HMC599ST89E HMC639 LNA 200 to 4000 13 22 38 2.000 15 15 28 4 Internal 5.d HMC-ALH244 HMC263 LNA 24.500 13 13 23 2.0 65 Die 3A001.0 50 Die 3A001.000 14 20 33 7 Internal 5.0 100 3 × 3 LFCSP EAR 99 ADL5531ACPZ-R7 ADL5536 Gain block 20 to 1000 20 20 45 2.0 50 Die EAR 99 HMC405 HMC397 Gain block 0 to 10.0 65 5 × 5 LFCSP EAR 99 HMC516LC5 HMC549 LNA 40 to 960 5 12 27 3.000 to 29.b.000 22 12 — 3.000 to 25.0 90 Die 5A991.000 20 8 18 2.2.000 to 40. Visit analog.b.0 120 MSOP EAR 99 HMC549MS8GE HMC599 LNA 50 to 1000 14 19 39 2.000 20 5 13 3.0 54 Die EAR 99 HMC395 HMC589A Gain block 0 to 4000 21 21 33 4.000 15 14 23 3 Internal 3.000 to 36.b.9 20 41 2.2.5 External 5.000 20 12 — 3 Internal 2.8 Internal 3.9 Internal 8.2.d HMC263LP4E HMC263 LNA 24.d HMC-ALH140 HMC-ALH244 LNA 24.b.d HMC-ALH445 HMC519 LNA 18.000 22 9 20 3.5 Internal 2.000 21 7 — 2 Internal 5.000 18 14 — 2.000 14.000 15 13 24 4.2.h HMC504LC4B HMC-ALH476 LNA 14.0 110 2 × 3 LFCSP EAR 99 ADL5530ACPZ-WP HMC395 Gain block 0 to 4000 15 15 28 4.5 54 Die 5A991.000 15 12 23 3 Internal 3.2 Internal 4.0 67 4 × 4 LFCSP EAR 99 HMC517LC4B HMC517 LNA 17.b.5 Internal 3.8 22 37 3 Internal 3.8 Internal 3.d HMC263 HMC-ALH364 LNA 24.000 19 13 23 2.000 to 86.d HMC-ALH369 HMC1040 LNA 24.0 55 3 × 3 LFCSP EAR 99 HMC311LP3 HMC311 Gain block 0 to 8000 15 15 30 5 External 5.b.5 52 Die 3A001.5 Internal 3.5 Internal 3.8 Internal 3.000 10 12 — 3.0 65 Die EAR 99 HMC516 HMC490 LNA 12.2.000 to 26.0 50 SOT-26 EAR 99 HMC313 HMC311 Gain block 0 to 6000 15 16 32 5 External 5.0 45 Die 3A001.5 11 25 3.000 13 8 19 2.000 to 31.000 to 32.000 11.5 Internal 4.0 200 5 × 5 LFCSP EAR 99 HMC490LP5E HMC342 LNA 13.g HMC8325 Upcoming Gain Blocks and Driver Amplifiers Part Frequency Output P1dB Output IP3 Noise Figure Description Gain (dB) Match VS (V) ISY (mA) Package (mm) ECCN Code Ordering Part Number Number (MHz) (dBm) (dBm) (dB) HMC754 Gain block 0 to 1000 14.5 64 Die EAR 99 HMC-ALH382 HMC-ALH508 LNA 71.0 58 Die 3A001.000 to 40.5 Internal 3.000 to 26.5 Internal 5.000 to 40.d HMC-ALH364 HMC-ALH369 LNA 24.9 Internal 5.000 19.2 Internal 5.0 82 SOT-89 EAR 99 HMC589AST89 Upcoming HMC480 Gain block 0 to 5000 19 20 34 2.0 76 2 × 2 LFCSP EAR 99 HMC788ALP2E 0.2.2.0 56 Die EAR 99 HMC396 HMC405 Gain block 0 to 10.0 60 Die 3A001.000 13 7 — 5 Internal 2.5 Internal 5.d HMC566LP4E HMC-ALH376 LNA 35.b.5 52 Die 3A001.000 16 6 — 2 Internal 4.000 16 13 25 4 Internal 5.000 21 13 22 3.0 35 3 × 3 LFCSP EAR 99 HMC341LC3B HMC-ALH311 LNA 22.000 21 12 — 4 Internal 2.5 16 32 4.4 11 23 3 Internal 3.000 27 26 35 2 Internal 5.5 15 — 4 Internal 4.5 Internal 5.000 to 42.0 30 Die EAR 99 HMC341 HMC341 LNA 21.2.000 22 11 — 2 Internal 5.h HMC-ALH476 HMC517 LNA 17.b.0 51 4 × 4 LFCSP EAR 99 HMC564LC4 HMC962 LNA 7500 to 26.000 to 65.d HMC566 HMC566 LNA 29.5 Internal 5.000 to 45.0 82 SOT-89 EAR 99 HMC480ST89 HMC313 Gain block 0 to 6000 17 14 27 6.b.0 87 Die 3A001.5 Internal 5.5 Internal 3.b.d HMC-ALH313 HMC566 LNA 29.5 70 3 × 3 LFCSP 3A001.2.0 25 2 × 3 LFCSP EAR 99 AD8354ACPZ-REEL7 AD8353 Gain block 1 to 2700 20 9 24 5.5 Internal 3.000 to 32.2.000 to 26.5 Internal 5.0 73 4 × 4 LCC EAR 99 HMC751LC4 HMC-ALH445 LNA 18.3 Internal 5.0 55 SC70 EAR 99 HMC311SC70E HMC396 Gain block 0 to 8000 12 14 30 6 Internal 5.6 Internal 5.0 68 Die 3A001.2 Internal 3.0 82 4 × 4 LFCSP 3A001.004 to HMC3587 Gain block 14.5 17 26 2.b.0 56 Die EAR 99 HMC397 HMC788A Gain block 0 to 10.2.000 to 31.d HMC1040LP3CE HMC752 LNA 24.000 12 13 — 3.000 22 8 17 2 Internal 3.000 to 36.0 160 SOIC EAR 99 HMC754S8GE ADL5530 Gain block 0 to 1000 16.5 Internal 5.d HMC518 HMC341 LNA 21.000 13 6 16 2.2.0 50 Die EAR 99 HMC-ALH509 HMC8325 LNA 71.0 43 Die EAR 99 HMC342 HMC342 LNA 13.2.2.000 to 27.5 70 4 × 4 LFCSP EAR 99 HMC962LC4 HMC516 LNA 9000 to 18.000 20 12 24 2.0 90 4 × 4 LFCSP 5A991.000 25 13 25 2.2 Internal 4.000 to 28.500 25 12 — 3 Internal 2.b.com 5 Low Noise Amplifiers (Continued) Gain Output P1dB Output IP3 Noise Figure Device Package Ordering Part Part Number Description Frequency (MHz) VS (V) ISY (mA) ECCN Code (dB) (dBm) (dBm) (dB) Match (mm) Number HMC564 LNA 7000 to 14.000 to 86.000 to 33.8 Internal 3.0 51 Die EAR 99 HMC564 HMC564 LNA 7000 to 14.000 17 12 24 1.000 to 17.7 Internal 3.0 44 3 × 3 LFCSP EAR 99 HMC3587LP3BE 10.000 21 13 20 2 Internal 3.000 to 36.000 to 16.h HMC-ALH216 HMC504 LNA 14.000 25 13 26 2.0 65 Die EAR 99 HMC517 HMC751 LNA 17.000 17 13 25 1.000 to 29.000 to 27.0 75 Die EAR 99 HMC519 HMC518 LNA 20.b.5 21 38 5.b.0 75 4 × 4 LFCSP EAR 99 HMC519LC4 HMC519 LNA 18.5 Internal 5.2 Internal 3.000 to 25.0 58 3 × 3 LFCSP 3A001.5 Internal 5.0 66 Die 3A001.0 90 Die 5A991.000 21 12 24 2.000 14 7 — 5 Internal 2.0 90 SOT-26 EAR 99 HMC374E HMC516 LNA 9000 to 18. .000 20 11 23 2 Internal 3.4 30 Die EAR 99 HMC-ALH508 HMC-ALH509 LNA 71.0 98 5 × 5 LFCSP EAR 99 ADL5534ACPZ-R7 ADL5531 Gain block 20 to 500 20.5 Internal 5.000 to 40.000 to 43.6 Internal 3.000 20 13 25 2 Internal 3.5 Internal 4.0 200 Die EAR 99 HMC490 HMC490 LNA 12.0 44 3 × 3 LFCSP EAR 99 HMC3653LP3BE AD8354 Gain block 1 to 2700 20 5 19 4.0 43 3 × 3 LFCSP EAR 99 HMC342LC4 HMC-ALH216 LNA 14.5 Internal 5.b.0 45 Die 3A001.000 to 86.000 27 25 35 2.0 105 SOT-89 EAR 99 ADL5536ARKZ-R7  = Simulation models available in ADI’s ADIsimRF and/or ADIsimPLL simulation tools.0 70 4 × 4 LFCSP EAR 99 HMC752LC4 HMC-ALH313 LNA 27.000 to 27.d HMC-ALH310 HMC-ALH382 LNA 57.h HMC-ALH311 HMC-ALH140 LNA 24.000 to 27.500 22 12 22 2.000 to 36.7 Internal 2.2.000 20 14 — 2 Internal 4.0 110 SOT-89 EAR 99 HMC639ST89E HMC374 LNA 300 to 3000 15 22 37 1.0 42 2 × 3 LFCSP EAR 99 AD8353ACPZ-REEL7 ADL5534 Gain block 20 to 500 21 20 40 2.0 55 SOT-89 EAR 99 HMC311ST89E HMC311 Gain block 0 to 6000 14.5 Internal 3.000 HMC3653 Gain block 7 to 15.0 80 Die 3A001.d HMC-ALH376 HMC-ALH310 LNA 37. 0 70 Die EAR 99 HMC1049 distributed amp LNA.0 300 Die EAR 99 HMC659 distributed amp Wideband HMC659 0 to 15.0 93 3 × 3 LFCSP EAR 99 ADL5602ARKZ-R7 ADL5541 Gain block 50 to 6000 14.000 15 21 — — Internal 5.2 Internal 5.d — distributed amp LNA.5 Internal 8.0 75 Die EAR 99 HMC460 distributed amp Wideband HMC460 0 to 20.000 12 28 28 4.0 160 5 × 5 LFCSP EAR 99 HMC465LP5 distributed amp Wideband HMC-AUH249 0 to 35.0 200 Die 3A001.5 Internal 8.d HMC5805ALS6 Upcoming distributed amp Wideband HMC6980 10 to 20.2.000 10 10 — 2.0 97 SOT-89 EAR 99 ADL5535ARKZ-R7 ADL5545 Gain block 30 to 6000 24.0 75 5 × 5 LFCSP EAR 99 HMC460LC5 distributed amp Wideband HMC465 0 to 20.0 307 4 × 4 LFCSP EAR 99 ADL5605ACPZ-R7 ADL5604 Driver amp 700 to 2700 12.0 400 Die EAR 99 HMC637A New distributed amp Wideband HMC659 0 to 15.0 56 SOT-89 EAR 99 ADL5545ARKZ-R7 ADL5544 Gain block 30 to 6000 17.000 19 28 35 2. 6 RF.2.000 16 14 — 1.5 Internal 5. .3 Internal 5.000 14 17 30 2. wideband HMC-ALH482 2000 to 20.5 Internal 5.000 14 16 28 2.0 318 4 × 4 LFCSP EAR 99 ADL5604ACPZ-R7 HMC789 Driver amp 700 to 2800 18 25 42 3.0 83 SOT-89 EAR 99 ADL5601ARKZ-R7 ADL5602 Gain block 50 to 4000 19.2 29 42 4.1 Internal 5.0 130 MSOP EAR 99 HMC326MS8G Wideband Distributed Amplifiers Gain Output P1dB Output IP3 Noise Figure Package Ordering Part Part Number Description Frequency (MHz) Match VS (V) ISY (mA) ECCN Code (dB) (dBm) (dBm) (dB) (mm) Number HMC637A Wideband 0 to 6000 13 29 44 5 Internal 12.8 External 5.1 Internal 5.6 External 5. Microwave.0 175 6 × 6 LFCSP 3A001.3 31 46 4.0 55 SOT-89 EAR 99 ADL5544ARKZ-R7 ADL5610 Gain block 30 to 6000 18.1 18 36 2.3 47 SOT-89 EAR 99 ADL5320ARKZ-R7 ADL5324 Driver amp 400 to 4000 14 29 44 3.8 Internal 7.d HMC-AUH249 distributed amp Wideband HMC-AUH232 0 to 45.0 60 Die EAR 99 HMC463 distributed amp  = Simulation models available in ADI’s ADIsimRF and/or ADIsimPLL simulation tools.b.0 125 SOT-89 EAR 99 HMC789ST89E ADL5606 Driver amp 1800 to 2700 24.3 37 SOT-89 EAR 99 ADL5321ARKZ-R7 HMC326 Driver amp 3000 to 4500 21 24 36 5 Internal 5.0 96 SOT-89 EAR 99 HMC741ST89E HMC740 Gain block 50 to 3000 15 18 40 3.7 16 39 3.000 14 17 — 4.000 15 15 29 1.0 290 Die EAR 99 HMC459 distributed amp Wideband HMC559 0 to 20.0 290 Die EAR 99 HMC464 distributed amp Wideband HMC464 2000 to 20.b.0 90 3 × 3 LFCSP EAR 99 ADL5541ACPZ-R7 HMC636 Gain block 200 to 4000 13 22 40 2.0 45 Die EAR 99 HMC-ALH482 distributed amp Wideband HMC-ALH102 2000 to 20.5 Internal 10.0 400 Die EAR 99 HMC559 distributed amp Wideband HMC460 0 to 20.0 300 5 × 5 LFCSP EAR 99 HMC659LC5 distributed amp Wideband HMC459 0 to 18.4 External 3.000 17 22 30 2.b.0 89 SOT-89 EAR 99 ADL5602ARKZ-R7 ADL5542 Gain block 50 to 6000 18.5 15 — — — — — 5 × 5 LFCSP EAR 99 HMC606LC5 distributed amp LNA.2 Internal 5.0 88 SOT-89 EAR 99 HMC740ST89E ADL5601 Gain block 50 to 4000 15 19 43 3.000 16 15 27 1. wideband HMC1049 300 to 20.0 70 5 × 5 LFCSP EAR 99 HMC1049LP5E distributed amp Wideband HMC-AUH312 500 to 65.0 362 4 × 4 LFCSP EAR 99 ADL5606ACPZ-R7 ADL5321 Driver amp 2300 to 4000 14 26 41 4 External 3.000 13.0 60 Die 3A001.0 160 Die EAR 99 HMC465 distributed amp Wideband HMC465 0 to 20.000 16 26 30 4 Internal 8.5 Internal 5.5 Internal 8.4 18 35 2.7 Internal 5.0 180 Die 3A001.5 External 3.3 60 SOT-89 EAR 99 ADL5324ARKZ-R7 ADL5605 Driver amp 700 to 1000 23 31 44 4. wideband HMC1049 300 to 19.2.2.000 10 — — — Internal 8.f HMC-AUH312 distributed amp Low phase noise HMC606 2000 to 18.2.000 19 27 35 2 Internal 8.5 Internal 12.8 Internal 5.0 91 SOT-89 EAR 99 ADL5611ARKZ-R7 HMC741 Gain block 50 to 3000 20 19 42 2.000 14 16 29 2.9 Internal 5.000 14 28 36 4 Internal 10.0 290 5 × 5 LFCSP EAR 99 HMC464LP5E distributed amp Wideband HMC463 2000 to 20.0 400 5 × 5 LFCSP EAR 99 HMC637ALP5E New distributed amp HMC637A Wideband 0 to 6000 13 29 44 5 Internal 12.d HMC-AUH232 distributed amp HMC5805A Wideband 0 to 40.7 External 5.9 Internal 5.5 22 33 5. and Millimeter Wave IC Selection Guide 2016 Gain Blocks and Driver Amplifiers (Continued) Part Frequency Output P1dB Output IP3 Noise Figure Description Gain (dB) Match VS (V) ISY (mA) Package (mm) ECCN Code Ordering Part Number Number (MHz) (dBm) (dBm) (dB) ADL5535 Gain block 20 to 1000 16 19 46 3.7 Internal 4.0 155 SOT-89 EAR 99 HMC636ST89 ADL5320 Driver amp 400 to 2700 13.8 External 5.000 15 23 28 3 Internal 8.2 Internal 5.5 13 22 7 Internal — 64 Die EAR 99 HMC606 distributed amp Low phase noise HMC606 2000 to 18.1 21 39 2.000 17 25 32 3 Internal 8.2 26 42 4.b.000 14 26 30 4 Internal 8.0 345 3A001.0 55 Die EAR 99 HMC-ALH102 distributed amp Wideband HMC464 2000 to 20.2 Internal 5.5 Internal 2.4 21 38 2.5 Internal 8.000 13.0 91 SOT-89 EAR 99 ADL5610ARKZ-R7 ADL5611 Gain block 30 to 6000 22.3 19 42 3.7 Internal 7.000 12.b.7 18 39 3. d HMC1127 distributed amp Wideband HMC1126 2000 to 50.000 19.d HMC1126 distributed amp Wideband HMC633 5000 to 17.0 725 SOT-89 EAR 99 HMC453ST89 HMC450 Driver amp 800 to 1000 26 26 40 8.0 220 3 × 3 QFN EAR 99 HMC1082LP4E HMC591 Power amp 6000 to 9500 18 33 41 — Internal 7.000 11 15 28 — — 5.500 29 27 33 6.h HMC-APH596  = Simulation models available in ADI’s ADIsimRF and/or ADIsimPLL simulation tools.5 External 3.0 500 QSOP EAR 99 HMC457QS16G HMC461 Power amp 1700 to 2200 12 30 45 6.000 12.5 Internal 5. Visit analog.000 to 20.0 1340 5 × 5 QFN EAR 99 HMC591LP5E HMC591 Power amp 6000 to 10.0 Internal 5.5 Internal 5.d HMC562 distributed amp Wideband HMC1127 2000 to 50.0 820 5 × 5 QFN EAR 99 HMC590LP5E HMC441 Driver amp 6000 to 18.0 114 3 × 3 QFN EAR 99 HMC451LC3 HMC408 Power amp 5100 to 5900 20 30 43 6.000 to 30.000 21 22 29 7.000 15 15 27 2.8 Internal 5.0 250 MSOP EAR 99 HMC327MS8GE HMC409 Power amp 3300 to 3800 31 31 46 5.0 External 5.000 29 23 30 8 Internal 5.b.000 22 20 30 Internal 5.0 External 5.0 65 Die 3A001.000 to 40.0 1300 5 × 5 QFN EAR 99 HMC487LP5E HMC952A Power amp 9000 to 14.0 120 3 × 3 QFN EAR 99 HMC451LP3E HMC451 Driver amp 5000 to 20.0 310 QSOP EAR 99 HMC450QS16GE HMC413 Power amp 1600 to 2200 22 27 40 5.0 615 3 × 3 LFCSP EAR 99 HMC409LP4E HMC415 Driver amp 4900 to 5900 20 22 32 6.000 to 30.0 External 5.500 15 20 32 4.5 Internal 5.000 17 20 32 4.5 External 5.000 18.b.8 External 5.0 230 MSOP EAR 99 HMC407MS8GE HMC451 Driver amp 5000 to 20.0 90 1 × 1 QFN EAR 99 HMC441LM1 HMC441 Driver amp 7000 to 15.0 485 QSOP EAR 99 HMC452QS16GE HMC454 Power amp 400 to 2500 13 27 42 6.0 180 4 × 4 LFCSP EAR 99 HMC633LC4 distributed amp Wideband HMC635 18.5 Internal 5.5 Internal 5.0 280 4 × 4 LFCSP 3A001.0 External 5.500 16 19 30 4.0 300 MSOP EAR 99 HMC406MS8GE HMC407 Driver amp 5000 to 7000 15 25 40 5.0 External 5.000 20 32 36 8.d HMC1121LP6GE Upcoming HMC1082 Driver amp 5500 to 18.5 18 27 3 Internal 8.000 16 20 32 4.0 2200 — 3A001.0 Internal 5.0 External 5.000 23 33 43 — Internal 7.2.b.000 14 18 28 2.5 External 5.0 Internal 7.000 to 33.0 400 Die 5A991.000 26 34 44 — External 6.0 280 Die 3A001.000 to 27.0 Internal 5.000 22 24 35 — Internal 5.000 17 29 37 — Internal 5.000 30 23 30 8 Internal 5.0 63 Die EAR 99 HMC462 distributed amp Wideband HMC462 2000 to 20.000 21 31 40 — Internal 7.0 66 Die 3A001.2.0 820 Die EAR 99 HMC590 HMC590 Power amp 6000 to 10.0 External 5.5 22 27 8 Internal 5.000 14 12 22 — — 5.5 External 5.5 Internal 5.0 310 4 × 4 QFN EAR 99 HMC608LC4 HMC383 Driver amp 12.0 Internal 5.0 1100 6 × 6 LFCSP EAR 99 HMC6981LS6 HMC-APH462 Power amp 15.0 Internal 5.0 60 5 × 5 LFCSP EAR 99 HMC463LP5 distributed amp Wideband HMC463 2000 to 20.000 25 32 41 — Internal 7.5 Internal 5.0 1400 5 × 5 LFCSP EAR 99 HMC952ALP5GE HMC608 Driver amp 9500 to 11.0 External 3.0 285 3 × 3 LFCSP EAR 99 HMC415LP3E HMC406 Driver amp 5000 to 6000 18 26 38 6.500 14 18 29 4.000 22 23 31 7.0 66 5 × 5 LFCSP EAR 99 HMC462LP5 distributed amp Wideband HMC562 2000 to 35.0 100 4 × 4 QFN EAR 99 HMC383LC4 HMC6981 Power amp 15.2.b.2.000 17 24 33 — Internal 5.2.0 95 Die EAR 99 HMC441 HMC441 Driver amp 6000 to 18.com 7 Wideband Distributed Amplifiers (Continued) Gain Output P1dB Output IP3 Noise Figure Package Ordering Part Part Number Description Frequency (MHz) Match VS (V) ISY (mA) ECCN Code (dB) (dBm) (dBm) (dB) (mm) Number Wideband HMC463 2000 to 20.0 60 LFCSP EAR 99 HMC463LH250 distributed amp Wideband HMC462 2000 to 20. .5 Internal 5.0 510 SOT-89 EAR 99 HMC452ST89 HMC452 Power amp 400 to 2200 23 30 48 7.000 33 36 43 — Internal 6.b.b.5 23 29 8 Internal 5.0 300 MSOP EAR 99 HMC414MS8GE HMC327 Power amp 3000 to 4000 21 27 40 5.0 1200 4 × 4 QFN EAR 99 HMC7357LP5GE HMC1121 Power amp 5500 to 8500 28 36 44 — Internal 7.0 1440 Die EAR 99 HMC-APH462 HMC-APH596 Driver amp 16.000 to 40.0 180 Die EAR 99 HMC634 distributed amp Wideband HMC634 5000 to 20.5 Internal 5.000 15 17 25 7.0 180 Die EAR 99 HMC633 distributed amp Wideband HMC634 5000 to 20.000 18 20 28 7.0 150 SOT-89 EAR 99 HMC454ST89 HMC453 Power amp 450 to 2200 21 32 49 6.0 95 3 × 3 QFN EAR 99 HMC441LP3 HMC441 Driver amp 7000 to 15.d HMC635LC4 distributed amp Linear and Power Amplifiers Gain Output P1dB Output IP3 Noise Figure Package Ordering Part Part Number Description Frequency (MHz) Match VS (V) ISY (mA) ECCN Code (dB) (dBm) (dBm) (dB) (mm) Number HMC453 Power amp 400 to 2200 22 33 50 6.0 95 3 × 3 QFN EAR 99 HMC441LC3B HMC441 Driver amp 6500 to 13.0 180 4 × 4 LFCSP EAR 99 HMC634LC4 distributed amp Wideband HMC633 5500 to 17.0 750 3 × 3 QFN EAR 99 HMC408LP3E HMC7357 Power amp 5500 to 8500 29 35 42 — Internal 8.5 Internal 5.d HMC635 distributed amp Wideband HMC635 18.0 100 Die EAR 99 HMC383 HMC383 Driver amp 12.000 19 19 30 7.000 13 14 25 2.6 270 QSOP EAR 99 HMC413QS16GE HMC457 Power amp 1700 to 2200 27 31 46 5.0 1340 Die EAR 99 HMC591 HMC590 Power amp 6000 to 10.0 725 QSOP EAR 99 HMC453QS16GE HMC452 Power amp 400 to 2200 21 30 49 7.0 150 3 × 3 LFCSP EAR 99 HMC455LP3E HMC414 Power amp 2200 to 2800 20 27 39 — External 5.0 300 3 × 3 LFCSP EAR 99 HMC461LP3E HMC455 Power amp 1700 to 2500 13 27 42 — External 5.0 80 Die 3A001.5 Internal 5.000 16 16 25 7.0 127 Die EAR 99 HMC451 HMC451 Driver amp 5000 to 20.0 90 5 × 5 LFCSP EAR 99 HMC441LH5 HMC487 Power amp 9000 to 12.2.000 13 18 26 3 Internal 5. 0 295 Die 3A001.000 to 24.0 18.0 84 Die EAR 99 HMC442 HMC442 Driver amp 17.b.2.2.5 1200 5 × 5 LFCSP 3A001.d HMC-APH478 HMC-APH518 Power amp 21.g HMC-AUH317 HMC-APH634 Driver amp 81.5 Internal 39.0 5.b.2.2.5 Internal 39.0 200 4 × 4 QFN 3A001.2.5 Internal 5.000 to 70.0 84 3 × 3 QFN EAR 99 HMC442LC3B HMC-AUH256 Driver amp 17.000 19 21 28 — Internal 4.000 13 16 25 — Internal 5.0 Internal 40.c HMC1087F10 HMC1086 GaN power amp 2000 to 6000 22 48 48.5 28 100 5 × 5 QFN EAR 99 HMC1099LP5DE New HMC7149 GaN power amp 6000 to 18.2.5 Internal 40.c HMC7149 HMC1087 GaN power amp 2000 to 20.b.d HMC499LC4 HMC-APH608 Power amp 22.000 15 28 37 — Internal 5.000 to 32.b.2.35 LCC EAR 99 HMC442LM1 HMC442 Driver amp 17. .d HMC943ALP5E Upcoming HMC1131 Driver amp 24.b.2.c HMC1087 HMC1087 GaN power amp 2000 to 20.5 Internal 5.2.b.c HMC-APH518 HMC499 Driver amp 21.0 Internal 5.b.0 85 1.d HMC7441 HMC-ABH264 Driver amp 34.000 17 23 34 5.000 to 30.000 20 24 31 — Internal 5.000 to 86.000 19 40 39.000 to 45.000 21 23 32 — Internal 5.0 160 Die 3A001.0 5.d HMC-APH510 HMC-APH473 Power amp 37.000 to 86.000 11 45 44.b.b.000 22 18 — — Internal 4.000 to 40.d HMC-ABH264 HMC7229 Power amp 37.500 13 22 27 8.b.g HMC-APH634 GaN Power Amplifiers Frequency Gain Output Output IP3 Noise PSAT Package Ordering Part Part Number Description Match VS (V) ISY (mA) ECCN Code (MHz) (dB) P1dB (dBm) (dBm) Figure (dB) (dBm) (mm) Number HMC1099 GaN power amp 10 to 1100 19 40 48.5 10.0 950 Die EAR 99 HMC-APH608 HMC943A Power amp 24.0 28 850 Flange 3A001.000 24 18 — — Internal 4.0 Internal 5.g HMC-AUH318 HMC-APH633 Driver amp 71.b.000 to 31500 14 28 37 — Internal 5.0 900 Die EAR 99 HMC-APH460 HMC1132 Power amp 27.000 to 31500 21 32 41 — Internal 5.2.b.d HMC-APH473 HMC-APH403 Driver amp 37.2.b.b.0 130 Die 3A001.0 130 Die 3A001.000 24 32 40 — Internal 6.000 to 42.0 400 Die EAR 99 HMC-APH196 HMC442 Driver amp 17.4 HMC1086 HMC1086 GaN power amp 2000 to 6000 22 48 48. 8 RF.000 to 66.000 17 31 39 — Internal 5.2.2.b.b.0 950 Die 3A001.b.000 14 22 28 6.000 13 20 — — Internal 4.b.0 200 Die 3A001.000 21 20 27 — Internal 5.000 15 15 — — Internal 4.0 1080 Die 3A001.000 to 40.500 to 26.f HMC-AUH320 HMC-AUH317 Driver amp 81.f HMC-ABH209 HMC-AUH318 Driver amp 71.b.b.d HMC-AUH256 HMC-APH478 Power amp 18.5 28 1100 Flange 3A001.2.2.000 to 40.000 19 18 29 6.000 12 19 — — Internal 4.0 14.2.b.0 250 4 × 4 QFN EAR 99 HMC498LC4 HMC-APH196 Driver amp 17.0 600 5 × 5 LFCSP 3A001.f HMC-ABH241 HMC-ABH209 Driver amp 55.0 220 Die 3A001.000 to 65.000 18 30 39 — Internal 5.d HMC7229LS6 HMC-APH510 Driver amp 37.b.0 28 850 Die 3A001.0 1000 Die 3A001.0 14.0 Internal 5.000 to 32.000 to 76.2.2.a.500 to 24.0 Internal 44.b.000 20 26 35 — Internal 5.500 15 22 28 5.0 475 Die 3A001.0 900 Die 3A001.0 1200 6 × 6 LFCSP 3A001.b.f HMC-APH403 HMC1144 Driver amp 40.0 28 680 Die 3A001.2.a. Microwave.b. and Millimeter Wave IC Selection Guide 2016 Linear and Power Amplifiers (Continued) Gain Output P1dB Output IP3 Noise Figure Package Ordering Part Part Number Description Frequency (MHz) Match VS (V) ISY (mA) ECCN Code (dB) (dBm) (dBm) (dB) (mm) Number HMC498 Driver amp 17.2.0 320 Die 3A001.2.2.000 to 24.000 to 76.b.d HMC1131LC4 New HMC-APH460 Power amp 27.0 240 Die 3A001.0 120 Die 3A001.000 16 24 33 — Internal 5.000 22 30 35 — Internal 6.000 to 20.000 24 17 25 — Internal 5.0 Internal 44.500 to 41.5 28 1100 Die 3A001.000 22 25 36 4.000 to 32.0 240 Die 3A001.000 to 86.0 640 Die 3A001.000 to 35.0 225 4 × 4 LFCSP 3A001.500 17 30 38 — Internal 5.4 HMC1086F10  = Simulation models available in ADI’s ADIsimRF and/or ADIsimPLL simulation tools.2.000 to 24.500 to 25.500 to 25.2.000 11 45 44.2.g HMC-APH633 HMC-AUH320 Driver amp 71.0 250 Die EAR 99 HMC498 HMC498 Driver amp 17.b.5 Internal 5.2.000 22 24 35 — Internal 5.d HMC1132LP5DE Upcoming HMC7441 Power amp 27500 to 31500 23 34 38 — Internal 6.000 24 25 34 — Internal 5.f HMC1144 New HMC-ABH241 Driver amp 50.2.d HMC499 HMC499 Driver amp 21.0 80 Die 3A001. baseband VGA LF to 600 +4.5 33 6 5 87.5 38 4.5 6.4 to +34.5 34 2 5 120 4 × 4 LFCSP EAR 99 HMC996LP4E HMC694 Analog variable gain amplifier 6000 to 17.000 0 to +23 30 5 5 170 Die EAR 99 HMC694 HMC694 Analog variable gain amplifier 6000 to 17.1 5 175.1 5 80 5 × 5 LFCSP 5A991.5 36.5 50 7.000 to 86.9 5 93 5 × 5 LFCSP 5A991.5 5 × 5 LFCSP 5A991.7 5 2 × 125 5 × 5 LFCSP EAR 99 AD8376ACPZ-R7 ADL5201 Diff VGA parallel/serial control LF to 700 –11.5 to +18 0.3 360 5 × 5 LFCSP EAR 99 ADRF6516ACPZ-R7 ADRF6510 Dual.5 5 × 5 LFCSP EAR 99 HMC625BLP5E Upcoming serial control ADL5240 Gain block/VGA parallel/serial control 100 to 4000 –13.5 to +20.000 +17 27.3 0.3.5 50 7.b ADL5246ACPZN-R7 HMC996 Analog variable gain amplifier 5000 to 12.5 5 60 4 × 4 LFCSP EAR 99 AD8368ACPZ-REEL7 Cascadable IF VGAs with ADL5336 LF to 1000 –25.com 9 Variable Gain Amplifiers Analog Controlled VGAs Part Output IP3 Noise Description Bandwidth (MHz) Gain Range (dB) VS (V) IS (mA) Package (mm) ECCN Code Ordering Part Number Number (dBm) Figure (dB) AD8367 Single-ended IF VGA with AGC LF to 500 –2.5 5 2 × 110 6 × 6 LFCSP EAR 99 ADL5202ACPZ-R7 AD8370 Diff VGA LF to 750 –8 to +34 Variable 35 7.5 30 6 5 70 4 × 4 LFCSP EAR 99 HMC960LP4E parallel control HMC680 5-bit diff VGA 30 to 400 –4 to +19 1 40 5 5 250 4 × 4 LFCSP EAR 99 HMC680LP4E AD8366 Dual BB VGA LF to 600 +4.5 37 1.3 360 5 × 5 LFCSP EAR 99 ADRF6518ACPZ-R7 HMC1023 Dual.5 5 170 4 × 4 LFCSP EAR 99 HMC997LC4 HMC6187 Analog variable gain amplifier 27.5 to +18.d HMC6187LP4E Analog variable gain amplifier/ HMC8120 71.5 30 3.000 +5.b ADL5243ACPZ-R7 serial control HMC742A 6-bit VGA serial/parallel control 500 to 4000 –19.5 5 110 4 × 4 LFCSP EAR 99 ADL5201ACPZ-R7 ADL5202 Dual diff VGA parallel/serial control LF to 700 –11.5 to +12 0.5 40 3.b HMC8121 driver amp Digitally Controlled VGAs Part Bandwidth Gain Range Step Output IP3 Noise ECCN Ordering Part Description (MHz) (dB) (dB) (dBm) VS (V) IS (mA) Package (mm) Number Figure (dB) Code Number AD8372 Programable dual diff VGA LF to 130 –9 to +32 1 35 7. Visit analog.0 265 Die 5A991.9 5 2 × 106 5 × 5 LFCSP EAR 99 AD8372ACPZ-R7 Dual channel diff VGA with serial/ HMC960 0 to 100 0 to +40 0.b ADL5240ACPZ-R7 Gain block/VGA/driver amp parallel/ ADL5243 100 to 4000 –1. diff VGA with variable low-pass filter LF to 1100 –36 to +66 36 16 3.5 39 4 5 150 5 × 5 LFCSP EAR 99 HMC742ALP5E Baseband Programmable VGA Filters Part Bandwidth Output IP3 Noise Figure Ordering Part Description Gain Range (dB) VS (V) IS (mA) Package (mm) ECCN Code Number (MHz) (dBm) (dB) Number AD8366 Dual. baseband.5 to +20.0 250 Die 5A991.2 3 to 5 79 TSSOP EAR 99 AD8370AREZ HMC628 5-bit VGA 50 to 800 –8 to +15 1 35 5 5 65 4 × 4 LFCSP EAR 99 HMC628LP4E HMC681A 6-bit VGA serial control 0 to 1000 +13.5 7 3 to 5 37 TSSOP EAR 99 AD8369ARUZ AD8375 Diff VGA LF to 630 –4 to +20 1 50 8. diff VGA with variable low-pass filter LF to 31 –5 to +45 40 25 3. 5 141.5 5 230 4 × 4 LFCSP 3A001. baseband.2. 270 5 × 5 LFCSP 5A991.000 +15 30 — 4.8 3.7 5 176 5 × 5 LFCSP EAR 99 HMC681ALP5E HMC625B Gain block/VGA/driver amp parallel/ 0 to 6000 –13.b HMC8120 driver amp Analog variable gain amplifier/ HMC8121 81.000 0 to +23 30 6 5 170 4 × 4 LFCSP EAR 99 HMC694LP4E HMC997 Analog variable gain amplifier 17.b.7 28 7.5 to 50 0/+10 30 12 5 130 5 × 5 LFCSP EAR 99 HMC900LP5E ADRF6518 Dual.5 36 2.4 5 180 5 × 5 LFCSP EAR 99 AD8366ACPZ-R7 HMC900 Dual.5 to +20 0.500 +6 to +19 31 4.5 — 4.000 to 76. diff VGA with variable low-pass filter LF to 31 –5 to +45 27 28 5 258 5 × 5 LFCSP EAR 99 ADRF6510ACPZ-R7  = Simulation models available in ADI’s ADIsimRF and/or ADIsimPLL simulation tools. programmable low-pass filter 3.5 to +45 0.5 9 5 215 4 × 4 LFCSP EAR 99 ADL5330ACPZ-R2 ADL5246 Variable gain LNA/driver amp 600 to 3000 –12 to +31.000 to 27. .5 to +42.000 to 31.25 45 11.g ADL5356ACPZ-R7 programmable rms detector ADL5331 Differential Tx VGA LF to 1200 — 47 9 5 240 4 × 4 LFCSP EAR 99 ADL5331ACPZ-R7 ADL5330 Differential Tx VGA LF to 3000 –32 to +21 31.25 0.2 to +31.4 5 2 × 90 5 × 5 LFCSP EAR 99 AD8366ACPZ-R7 AD8369 Diff VGA LF to 600 –5 to +40 3 19.25 45 11.000 –3.1 to +18 0.5 to +20. programmable low-pass filter 5 to 72 0/+10 30 10 5 240 5 × 5 LFCSP EAR 99 HMC1023LP5E ADRF6516 Dual.2 3 to 5 26 14-lead TSSOP EAR 99 AD8367ARUZ AD8368 Single-ended IF VGA with AGC LF to 800 –12 to +22 34 9.3 5 125 4 × 4 LFCSP EAR 99 AD8375ACPZ-R7 AD8376 Dual diff VGA LF to 700 –4 to +20 1 50 8.5 to +20 0. 5 27 — 2 × 2 QFN EAR 99 HMC652LP2E HMC653 Fixed passive attenuator 0 to 25.8 0.5 4.5 to 33 0.7 25 0 to –5 3 × 3 LFCSP EAR99 HMC346ALP3E HMC712A Upcoming Analog VVA 5.3 to +5 4 × 4 LFCSP EAR 99 HMC1122LP4ME HMC425A Upcoming 6-bit DSA 2200 to 8000 3. .1 dB Control Input ECCN Ordering Part Part Number Description Package (mm) (MHz) (dB) (dB) (dB) (dBm) (dBm) (VDC) Code Number HMC802A New 1-bit DSA 0 to 10.000 20 ±0.5 57 30 0/+5 4 × 4 LFCSP EAR 99 HMC1095LP4E HMC759 7-bit serial DSA 10 to 300 3.4 to 32.000 3.2 4 to 34 1 43 25 0/+5 Die EAR 99 HMC939A HMC941A 5-bit DSA 100 to 40.000 0.5 0.h HMC-VVD104 Fixed Attenuators Nominal Part Attenuation Max Input Power Die size Ordering Part Description Frequency (MHz) Attenuation Package (mm) ECCN Code Number Accuracy (dBm) (mm) Number Range (dB) HMC652 Fixed passive attenuator 0 to 25.000 to 27.5 1.7 1 54 31 +3.000 15 ±0.7 1.5 52 28 +3.15 ±0.8 0.5 25 — 2 × 2 QFN EAR 99 HMC654LP2E HMC656 Fixed passive attenuator 0 to 25.5 55 30 +3.4 to 34.5 50 30 0/+5 4 × 4 LFCSP EAR 99 HMC542BLP4E HMC792A 6-bit serial DSA 0 to 6000 1.25 50 28 0/+5 3 × 3 LFCSP EAR 99 HMC539ALP3E HMC1019A Upcoming 5-bit DSA 100 to 30.4 1.5 40 21 0/+5 3 × 3 LFCSP EAR 99 HMC425ALP3E HMC542B New 6-bit serial DSA 0 to 4000 1.5 to 31.7 0.000 to 50.7 1 55 26 0/+5 3 × 3 LFCSP EAR 99 HMC468ALP3E HMC468A New 3-bit DSA 100 to 6.5 to 18 0.000 to 30.000 20 ±2 25 — 2 × 2 QFN EAR 99 HMC658LP2E HMC650 Through line 0 to 50.000 3 3 to 33 33 0 to –3 Die EAR99 HMC985A HMC-VVD106 Analog VVA 35.4 0.5 1.3 3.5 32 0 to –5 3 × 3 LFCSP EAR99 HMC712ALP3CE HMC812A Upcoming Analog VVA 5.5 0.5 54 30 0/+5 4 × 4 LFCSP EAR 99 HMC472ALP4E HMC424A 6-bit DSA 0 to 13.2 1.000 to 40.000 to 26.9 0.5 26 — 2 × 2 QFN EAR 99 HMC653LP2E HMC654 Fixed passive attenuator 0 to 25.15 ±0.000 3 3 to 33 28 0 to –5 4 × 4 LFCSP EAR99 HMC812ALC4 HMC985A Upcoming Analog VVA 10.h HMC-VVD102 HMC985A Upcoming Analog VVA 20.8 to 17.3 3.3 to 16.5 25 0 to –5 MSOP EAR99 HMC346AMS8GE HMC346A Upcoming Analog VVA 100 to 14.5 1 42 22 0/+5 4 × 4 LFCSP EAR 99 HMC1018ALP4E HMC941A 5-bit DSA 100 to 30.3 1.5 1.000 2 ±0.3 0.25 40 — 0/+5 3 × 3 LFCSP EAR 99 HMC759LP3E HMC1119 Upcoming 7-bit serial/parallel DSA 100 to 6000 1.7 to 31.4 to 32. and Millimeter Wave IC Selection Guide 2016 Attenuators Digital Step Attenuators Frequency Insertion Loss Atten Range Step Input IP3 P0.3 to 32.000 4 ±0.7 1.5 55 30 0/+5 4 × 4 LFCSP EAR 99 HMC624ALP4E HMC1095 New 6-bit.3/+5 4 × 4LFCSP EAR 99 HMC305SLP4E HMC472A New 6-bit DSA 0 to 3800 1.9 1 48 — +3.000 4 ±0.3 to 35 0.2 26 17 × 18 Die EAR 99 HMC653 HMC654 Fixed passive attenuator 0 to 50.3 1 45 20 0/+5 3 × 3 LFCSP EAR 99 HMC470ALP3E HMC539A New 5-bit DSA 0 to 4000 1 0.000 1.25 54 30 +3.5 1.7 1.3 to 32.000 3.000 3 ±0.5 35 0 to +5 3 × 3 LFCSP EAR99 HMC973ALP3E HMC346A Upcoming Analog VVA 100 to 8000 1.5 3.7 4 54 26 SOT-26 EAR 99 HMC291SE HMC468A New 3-bit DSA 0 to 6000 0.3 to 17 0.000 5.9 to 32.000 0.5 42 23 0/–5 MSOP EAR99 HMC424AG16 HMC1122 Upcoming 6-bit DSA 100 to 6000 1.9 0.2 3 to 18 0.000 to 50.5 1 to 31 1 43 25 0/+5 4 × 4 LFCSP EAR 99 HMC939ALP4E HMC939A Upcoming 5-bit DSA 100 to 40.5 to 20 20 55 30 +3.5 to 19.3/+5 MSOP EAR 99 HMC273AMS10GE HMC306A New 5-bit DSA 700 to 3800 1.5 to 15.000 3.9 0.000 3 3 to 33 33 0 to –3 4 × 4 LFCSP EAR99 HMC985ALP4KE HMC-VVD102 Analog VVA 17.3 3.3/+5 4 × 4 LFCSP EAR 99 HMC1119LP4ME Voltage Variable Attenuators Part Number Description Frequency (MHz) Insertion Loss (dB) Atten Range (dB) Input IP3 (dBm) Control Input (VDC) Package (mm) ECCN Code Ordering Part Number HMC973A New Analog VVA 500 to 6000 3. Microwave.000 2 2 to 16 — –5 V to +5 V Die 5A991.5 1.3/+5 3 × 3 LFCSP EAR 99 HMC802ALP3E HMC291S Upcoming 2-bit DSA 700 to 4000 0. serial and HMC629A Upcoming 0 to 6000 2.7 to 15.2 — 23 × 18 Die EAR 99 HMC651 HMC652 Fixed passive attenuator 0 to 50.8 1.5 3 to 45 3 50 — 0/+5 4 × 4 LFCSP EAR 99 HMC629ALP4E parallel control DSA HMC540S New 4-bit parallel DSA 100 to 8000 0.2 27 17 × 18 Die EAR 99 HMC652 HMC653 Fixed passive attenuator 0 to 50.000 1.5 42 23 0/–5 3 × 3 QFN EAR 99 HMC424ALP3E HMC424A 6-bit DSA 100 to 13.000 0.5 to 29.1 25 17 × 18 Die EAR 99 HMC656 HMC657 Fixed passive attenuator 0 to 50. 75 Ω DSA 0 to 3000 1.5 0.3 to 33.5 52 25 +3.4 25 17 × 18 Die EAR 99 HMC657 HMC658 Fixed passive attenuator 0 to 50.5 to 23.5 0.000 3 3 to 34.5 25 — 2 × 2 QFN EAR 99 HMC656LP2E HMC657 Fixed passive attenuator 0 to 25.000 10 ±1.5 45 25 0/+5 Die EAR 99 HMC941A HMC273A Upcoming 5-bit DSA 700 to 3700 2.h HMC-VVD106 HMC-VVD104 Analog VVA 70.7 to 12.5 to 31.3/+5 MSOP EAR 99 HMC306AMS10GE HMC305S New 5-bit.5 1. 10 RF.2 — 17 × 18 Die EAR 99 HMC650 HMC651 Through line 0 to 50.5 45 25 0/+5 4 × 4 LFCSP EAR 99 HMC1019ALP4E HMC1018A Upcoming 5-bit DSA 100 to 30.45 0.5 0.500 3.000 to 86.2 1.3 to 35.5 0.5 to 35.6 0.000 4 2.000 15 ±2 25 — 2 × 2 QFN EAR 99 HMC657LP2E HMC658 Fixed passive attenuator 0 to 25.000 4 0.5 25 23 × 18 Die EAR 99 HMC658  = Simulation models available in ADI’s ADIsimRF and/or ADIsimPLL simulation tools.000 1.5 17 –4 V to +4 V Die 5A991.5 43 24 0/+5 4 × 4 LFCSP EAR 99 HMC941ALP4E HMC939A Upcoming 5-bit DSA 100 to 33.5 42 24 0/–5 Die EAR 99 HMC424A HMC424A 6-bit DSA 0 to 13. glitch free DSA 400 to 7000 1.000 3.3 to 33 0.000 10 ±0.7 to 8.000 4.5 to 31.000 1.000 2 ±0.7 to 7.000 3 ±0.3 3.8 0.2 25 17 × 18 Die EAR 99 HMC654 HMC656 Fixed passive attenuator 0 to 50.5 1 to 8 1 55 26 0/+5 3 × 3 LFCSP EAR99 HMC468ALP3E 4-bit digital.5 42 23 0/–5 5 × 5 QFN EAR99 HMC424ALH5 HMC424A 6-bit DSA 100 to 3.000 5.5 17 0 to +4 Die 5A991.3/+5 3 × 3 LFCSP EAR 99 HMC540SLP3E HMC470A Upcoming 5-bit DSA 0 to 3000 2 1.25 53 31 0/+5 4 × 4 LFCSP EAR 99 HMC792ALP4E HMC624A 6-bit serial/parallel DSA 0 to 6000 2.5 3.8 1.3 to 34. Double.3 36 33 18 8.2 10 0 5A991.000 10.3 25 31 33 9.b ADL5355ACPZ-R7 2500 2470 450 LFCSP and IF amp 1700 to 1400 to 30 to 6×6 ADL5356 Passive mixer +8.8 10 0 5A991.b AD831APZ mixer 200 High linearity 1 to 1 to 2×3 ADL5350 1 to 4000 –6.b ADL5802ACPZ-R7 mixer 6000 6000 3000 LFCSP Active receive 400 to 470 to 70 to 3×3 AD8344ACPZ- AD8344 +4.6 25 0 5A991.g ADL5356ACPZ-R7 2200 2100 450 LFCSP Passive mixer 1700 to 1700 to 0 to HMC687 –8 35 32 29 8 23 0 4 × 4 QFN EAR 99 HMC687LP4E with LO amp 2200 2400 500 Passive mixer 1700 to 1500 to 0 to HMC685 –8 35 30 30 8 24 0 4 × 4 QFN EAR 99 HMC685LP4E with LO amp 2200 2200 500 Dual channel receive mixer 1700 to 1400 to 60 to HMC682 +6 25 25 22 12 15 0 6 × 6 QFN EAR 99 HMC682LP6CE with LO amp 2200 2000 400 and switch Passive mixer 2000 to 2000 to 0 to HMC689 –7.b ADL5350ACPZ-R2 Y-mixer 4000 4000 LFCSP Active mixer.b ADL5358ACPZ-R7 1000 1670 450 LFCSP and IF amp Passive mixer 700 to 850 to 0 to 4×4 HMC686 –7.000 4000 LFCSP  = Simulation models available in ADI’s ADIsimRF and/or ADIsimPLL simulation tools.7 25 13 29 6.6 13 0 5A991.4 27 39 13 9.b ADL5367ACPZ-R7 with LO amp 1700 1700 450 LFCSP Passive mixer 500 to 700 to 30 to 5×5 ADL5357 with LO amp +8.9 11 0 5A991.5 25 0 4 × 4 QFN EAR 99 HMC688LP4E with LO amp 2700 2400 700 HMC1048A 2000 to 2000 to 0 to 3×3 Passive mixer –10 22 37 25 10 12 +13 EAR 99 HMC1048ALC3B Upcoming 18.000 18.8 29 31 27 9.6 27 47 7 9.4 19 +4 5A991.b ADL5363ACPZ-R7 with LO amp 2900 3350 450 LFCSP Dual channel receive mixer 2200 to 1750 to 30 to 6×6 ADL5354 +8.b AD8342ACPZ-R2 mixer 4100 2400 LFCSP High IP3 active 0 to 0 to AD8343 0 to 2500 +7 17 18 44 14 3 –10 TSSP 5A991. Visit analog.7 31 32 22 7.5 35 25 27 7. and Triple Balanced Mixers LO/RF LO/IF LO Drive LO IF Conversion IP3 Input NF (Typ) P1dB Input Package ECCN Ordering Part Part Number Description RF (MHz) Isolation Isolation Nominal (MHz) (MHz) Gain (dB) (Typ) (dBm) (dB) (Typ) (dBm) (mm) Code Number (dB) (dB) (dBm) Active receive 1 to 0 to 3×3 AD8342 1 to 3800 +3.5 23 16 20 11 11 0 EAR 99 HMC683LP6CE 1000 900 500 LFCSP with LO amp Passive mixer 1200 to 1230 to 0 to 5×5 ADL5365 –7.6 26 37 21 10.4 11 0 5A991.3 25 0 5A991.b ADL5365ACPZ-R7 with LO amp 2500 2470 450 LFCSP Passive mixer 1200 to 1230 to 30 to 5×5 ADL5355 with LO amp +8.5 24 48 23 10.5 28 30 37 11 12 0 5A991.2 8 0 5A991.b ADL5354ACPZ-R7 with LO amp 2700 2670 450 LFCSP and switch Passive mixer 2200 to 2230 to 30 to 5×5 ADL5353 with LO amp +9 24 38 15 9.com 11 RF Mixers Single. .g ADL5811ACPZ-R7 2800 2800 450 LFCSP and IF amp Passive mixer 700 to 530 to 30 to 6×6 ADL5358 with LO amp +8.5 24 0 EAR 99 HMC686LP4E with LO amp 1500 1500 500 LFCSP Passive mixer 700 to 600 to 0 to 4×4 HMC684 –7 32 23 30 7 25 0 EAR 99 HMC684LP4E with LO amp 1000 1000 450 LFCSP Dual channel 700 to 570 to 60 to 6×6 HMC683 receive mixer +7.5 32 34 26 7.b ADL5353ACPZ-R7 2700 3150 450 LFCSP and IF amp HMC557A 2500 to 2500 to 0 to 4×4 Passive mixer –7 22 47 34 7 10 +15 EAR 99 HMC557ALC4 Upcoming 7000 7000 3000 LFCSP HMC787A 3000 to 3000 to 0 to 3×3 Passive mixer –9 23 55 42 9 15 17 EAR 99 HMC787ALC3B Upcoming 10.1 10 0 EAR 99 ADL5357ACPZ-R8 1700 1700 450 LFCSP and IF amp Dual Passive mixers with 700 to 250 to 30 to 6×6 ADL5812 +6.9 11 0 5A991.b AD8343ARUZ mixer 2500 2500 Low distortion 0 to AD831 0 to 500 0 to 500 0 24 70 30 10.5 23 0 4 × 4 QFN EAR 99 HMC689LP4E with LO amp 2700 3000 800 Passive mixer 2000 to 1700 to 0 to HMC688 –7.5 24 0 5A991.7 27 46 37 11.3 25 0 5A991.000 4000 LFCSP Passive mixer 2300 to 2330 to 0 to 5×5 ADL5363 –7.7 34 40 15 8.g ADL5812ACPZ-R7 LO amp and IF 2800 2800 450 LFCSP amp Passive mixer 700 to 250 to 30 to 5×5 ADL5811 with LO amp +7.5 28 25 40 10.5 34 26 41 7.7 23 55 27 12.b mixer 1200 1600 400 LFCSP REEL7 Passive mixer 500 to 700 to 30 to 5×5 ADL5367 –7.2 31 35 24 9.75 13 0 5A991.3 10 –10 PLCC 5A991. 10 to 1 to 4×4 ADL5801 New 10 to 6000 +1.7 13 0 5A991.b ADL5801ACPZ-R7 high IP3 6000 600 LFCSP Dual active 100 to 100 to 0 to 4×4 ADL5802 +1. 5 21 35 35 10.000 26.000 to 3×3 HMC1063 0 to 3000 –9.000 16.000 LFCSP I/Q and image 8000 to 8000 to 4×4 HMC1056 0 to 4000 –8 18 21 40 37 +9 10 EAR 99 HMC1056LP4BE reject mixer 12.000 90.000 50.000 to 0 to Passive mixer to –8 19 38 40 8 12 13 Die EAR 99 HMC292A Upcoming 32.000 8000 LFCSP HMC774A 7000 to 7000 to 0 to 3×3 Passive mixer –10.5 13 15 EAR 99 HMC774ALC3B Upcoming 34.500 to 3×3 HMC264 0 to 6000 –9 12 30 40 3 — –4 EAR 99 HMC264LC3B mixer 31.000 43.000 Subharmonic I/Q 54.000 to 27.000 16.000 to 10.000 Subharmonic 21.5 14 13 EAR 99 HMC292ALC3B Upcoming 30.5 21 35 35 9.000 to 0 to 3×3 Passive mixer to –7.5 20 40 32 8.000 15.000 to 0 to HMC1106 New Passive mixer to –11 16 38 32 9 0 15 Die EAR 99 HMC1106 36000 24. 12 RF.000 16.000 32.000 26.000 15.000 24.5 16 30 20 7.5 10 12 Die EAR 99 HMC1081 75.000 18.h HMC-MDB172 reject mixer 33.000 2500 20.500 LFCSP Subharmonic 20.000 40.000 12.000 HMC329A 24.000 8000 LFCSP HMC774A 7000 to 7000 to 0 to Passive mixer –9.000 to 700 to HMC265 3 10 30 55 2 — –4 Die EAR 99 HMC265 mixer 32.000 LFCSP I/Q and image 19.5 7 30 30 30 –2 10 Die 5A991.000 to 10.5 13 13 3 × 3 QFN EAR 99 HMC329ALM3 Upcoming 32.000 to 0 to HMC-MDB169 Passive mixer to –8 13 30 25 8 4 13 Die 5A991.000 6000 LFCSP 20.5 17 25 35 20 +8 16 Die 5A991.000 to 19.000 8000 32.5 11 13 EAR 99 HMC554ALC3B Upcoming 20.000 to 24.000 to 10.000 8000 32.000 70.000 to 10.000 54.000 HMC292A 16.000 54. .000 I/Q Mixers and Image Reject Mixers Image LO/RF LO/IF LO Drive Conversion IP3 Input P1dB Input Package ECCN Ordering Part Part Number Description RF (MHz) LO (MHz) IF (MHz) Rejection Isolation isolation (Typ) (dBm) Nominal (mm) Gain (dB) (Typ) (dBm) Code Number (dB) (dB) (dB) (dBm) HMC8191 I/Q and image 6000 to 6000 to 4×4 0 to 5000 –9 20 25 42 41 +12 18 EAR 99 HMC8191LC4 Upcoming reject mixer 26.000 Subharmonic Mixers Part Conversion IIP3 LO/RF LO/IF P1dB Image LO drive Package ECCN Ordering Part Description RF (MHz) LO (MHz) IF (MHz) Number Gain (dB) (dBm) Isolation (dB) Isolation (dB) (dBm) Rejection (dB) (dBm) (mm) Code Number Subharmonic 17.000 to 35.000 15.000 70.000 6000 LFCSP HMC773A 6000 to 6000 to 0 to 3×3 Passive mixer –9 19 37 37 9 10 13 EAR 99 HMC773ALC3B Upcoming 26.000 to 0 to HMC-MDB277 Passive mixer to –12 — — — — — 14 Die 5A991.000 3000  = Simulation models available in ADI’s ADIsimRF and/or ADIsimPLL simulation tools. Microwave.5 13 13 Die EAR 99 HMC774A Upcoming 43.000 34.4 18 44 41 8.000 to 0 to 3×3 Passive mixer to –8.000 14.000 5000 64.000 Subharmonic 20.000 26. and Millimeter Wave IC Selection Guide 2016 Single.000 to 9000 to HMC337 0 to 3000 –9 10 27 47 0 — –5 Die EAR 99 HMC337 mixer 25.h HMC-MDB277 90.h HMC-MDB218 mixer 64.000 to HMC264 0 to 6000 –10 13 37 40 4 — –4 Die EAR 99 HMC264 mixer 32.000 12.000 to HMC-MDB218 0 to 3000 –12.000 to 0 to HMC1081 New Passive mixer to –7.000 I/Q and image 24.000 45. Double.000 33.000 15.000 11.000 18.000 8000 LFCSP 30.000 28.5 18 38 40 10.000 HMC554A 11.h HMC-MDB171 mixer 45.000 to HMC-MDB171 0 to 5000 –12.000 LFCSP Subharmonic I/Q 35.000 50.000 to HMC264 0 to 4000 –9 12 35 40 4 — –4 3 × 3 QFN EAR 99 HMC264LM3 mixer 30. and Triple Balanced Mixers (Continued) LO/RF LO/IF LO Drive LO IF Conversion IP3 Input NF (Typ) P1dB Input Package ECCN Ordering Part Part Number Description RF (MHz) Isolation Isolation Nominal (MHz) (MHz) Gain (dB) (Typ) (dBm) (dB) (Typ) (dBm) (mm) Code Number (dB) (dB) (dBm) Passive mixer 3100 to 2800 to 0 to 4×4 HMC666 –9 31 27 29 9 23 0 EAR 99 HMC666LP4E with LO amp 3900 3600 800 LFCSP 3500 to 3500 to 0 to HMC218B New Passive mixer –7 17 38 32 7 10 13 MSOP EAR 99 HMC218BMS8GE 8000 8000 1600 HMC129A 4000 to 4000 to 0 to 4×4 Passive mixer –7 17 40 40 7 10 15 EAR 99 HMC129ALC4 Upcoming 8000 8000 3000 LFCSP HMC558A 5500 to 5500 to 0 to 3×3 Passive mixer –8 22 40 25 8 12 15 EAR 99 HMC558ALC3B Upcoming 14.4 11 13 MSOP EAR 99 HMC412BMS8GE Upcoming 15.5 17 21 38 40 +8 10 EAR 99 HMC1063LP3E reject mixer 28.000 85.h HMC-MDB169 64.000 Subharmonic 20.5 18 46 40 7.000 HMC292A 18.000 to HMC-MDB172 0 to 5000 –8 17 25 35 23 +8 16 Die 5A991.000 to 0 to Passive mixer to –10.000 8000 HMC412B 9000 to 9000 to 0 to Passive mixer –8. 5 400. 80. 3 Die 5A991.000 to 700 to HMC265 3 10 28 47 2 — –4 3 × 3 QFN EAR 99 HMC265LM3 mixer 31.000 16.4.000 to 11.000 to 11.000 to 8500 to HMC1093 0 to 7500 –11 26 15 18 18 — –1 Die EAR 99 HMC1093 mixer 46.b HMC7587 86.500 to 0 to 4×4 HMC1065 12 –2 17 3 2 3.830 to 0 to 175.000 LFCSP transmitter I/Q HMC9060 12.500 20.000 14.500 Subharmonic 24.500 11.700 3500 LFCSP I/Q downconverter/ 21.830 to 0 to 175.000 11.000 12300 3500 LFCSP I/Q downconverter/ 17.5 160 EAR 99 HMC966LP4E receiver 20.000 to 13.000 3500 LFCSP I/Q downconverter/ 27.600 LFCSP transmitter Wideband I/Q ADRF6780 5900 to 5400 to 5×5 upconverter/ 0 to 3500 13 26 25 0 3.5 125 EAR 99 HMC572LC5 receiver 28.000 to HMC404 0 to 3000 –11 16 35 35 6 22 2 Die EAR 99 HMC404 I/Q mixer 33. 80.5 170 EAR 99 HMC967LP4E receiver 24.000 16.000 15.0 240 EAR 99 HMC1065LP4E receiver 34. Visit analog.5 3.000 to 7500 to 0 to 4×4 HMC966 14 0 40 3 6 3.000 12.500 to 7100 to 5×5 upconverter/ 0 to 3500 18 33 30 4 5.000 I/Q Downconverters/Receivers Image NF LO Drive Conversion IP3 Input VSUPPLY ISUPPLY (Typ) Package ECCN Ordering Part Part Number Description RF (MHz) LO (MHz) IF (MHz) Rejection (Typ) Nominal Gain (dB) (Typ) (Typ) (V) (mA) (mm) Code Number (dBc) (dB) (dBm) I/Q downconverter/ 5600 to 5600 to 0 to 5×5 HMC951B New 13 +1 24 2 2 3. .000 12.000 to HMC338 0 to 2500 –9 10 32 40 1 — –5 Die 5A991.000 to 8300 to 0 to 4×4 HMC977 14 +2 21 3 6 3.5 125 Die EAR 99 HMC570 receiver 21.000 to 9000 to 0 to 5×5 HMC571 11 +6 23 3 4 3.000 12.000 43.000 to 8800 to 0 to 4×4 HMC967 15 +1 25 3 6 3.5 125 EAR 99 HMC571LC5 receiver 25.000 to 12.000 to 3×3 HMC338 0 to 3000 –11 13 33 50 5 — –5 5A991.000 4000 LFCSP I/Q downconverter/ 20.000 LFCSP transmitter I/Q HMC9059 9500 to 6000 to 5×5 upconverter/ 0 to 3500 15 30 22 2 2. 4 160 EAR 99 HMC1113LP5E receiver 16.000 50 receiver I/Q Upconverters/Transmitters Sideband Conversion Output IP3 LO Drive VSUPPLY ISUPPLY (Typ) Package ECCN Part Number Description RF (MHz) LO (MHz) IF (MHz) Rejection Ordering Part Number Gain (dB) (Typ) (dBm) Nominal (Typ) (V) (mA) (mm) Code (dBc) I/Q HMC6505A 5600 to 5600 to 5×5 upconverter/ 0 to 3500 13 35 24 2 3.000 to 16.500 to 0 to 5×5 HMC6147A 13 +2 25 4 3 3.b HMC338 mixer 33. 160 5A991.330 10.5.5 125 Die EAR 99 HMC571 receiver 25.000 22. 240 EAR 99 HMC9059LP5E New 13.500 3000 Subharmonic 26. 5 100.b HMC338LC3B mixer 34.500 3500 LFCSP I/Q downconverter/ 17. 3 Die 5A991.000 to 13.000 to 7500 to 0 to 5×5 HMC904 12 0 32 3 4 3.000 14.000 to 29.500 LFCSP Subharmonic 26.5 –1 28 5 2 4.000 12.000 to 10.5.000 to 9000 to 0 to HMC571 11 +5 24 3 4 3.000 16.330 10.000 13.750 3500 LFCSP I/Q downconverter/ 17.3.000 3500 I/Q downconverter/ 17. 5 100.000 to 16.000 43.000 3500 LFCSP I/Q downconverter/ 21.000 19.5 125 EAR 99 HMC570LC5 receiver 21.0 320 EAR 99 HMC7911LP5E New 20.000 to 9000 to 0 to 5×5 HMC572 10 +6 20 4 4 3.4. 1.000 14.5 160 EAR 99 HMC6505ALC5 Upcoming 8600 11.5 160 EAR 99 HMC904LC5 receiver 24.000 to 11.5 170 EAR 99 HMC977LP4E receiver 28.000 3500 LFCSP I/Q downconverter/ 23.b HMC7586 76000 14.500 to HMC339 0 to 3000 –10 10 37 40 0 — 2 Die EAR 99 HMC339 mixer 42000 21.500 to 9000 to 5×5 upconverter/ 0 to 3500 15 32 25 2 2.500 Subharmonic 33.000 11.000 16.000 to 10.com 13 Subharmonic Mixers (Continued) Part Conversion IIP3 LO/RF LO/IF P1dB Image LO drive Package ECCN Ordering Part Description RF (MHz) LO (MHz) IF (MHz) Number Gain (dB) (dBm) Isolation (dB) Isolation (dB) (dBm) Rejection (dB) (dBm) (mm) Code Number Subharmonic 20. 240 EAR 99 HMC9060LP5E New 16.600 14. HMC7586 New downconverter/ 12.000 Subharmonic 71.000 Subharmonic 37.000 LFCSP transmitter I/Q HMC7911 17.000 15.000 to 7000 to 0 to 5×5 HMC570 10 +2 17 3 4 3.000 15.000 50 receiver E-band I/Q 81.000 to 7000 to 0 to HMC570 12 +1 22 4 3.h ADRF6780ACPZN-R7 New 23.000 4000 LFCSP I/Q downconverter/ 37.000 to 29.600 LFCSP transmitter  = Simulation models available in ADI’s ADIsimRF and/or ADIsimPLL simulation tools. HMC7587 New downconverter/ 10 –2 30 6 2 4.0 225 EAR 99 HMC6147ALC5A receiver 44.500 17.500 3500 LFCSP E-band I/Q 71. 1.000 to 0 to HMC1057 –12 13 50 30 0 16 13 Die EAR 99 HMC1057 I/Q mixer 86.000 Subharmonic 71.000 to 0 to 5×5 HMC1113 New 12 +1 25 2 6 3.000 3500 I/Q downconverter/ 21.5 160 EAR 99 HMC951BLP4E receiver 8600 8600 3500 LFCSP I/Q downconverter/ 10.000 to 0 to HMC1058 –11 6 28 20 0 — 9 Die EAR 99 HMC1058 mixer 86. h HMC1190ALP6NETR 2388 4000 350 LFSCP with fractional-N PLL and VCO Dual active mixer and tunable balun 700 to 200 to 40 to 7×7 ADRF6612 9.000 to 11.3 — 5A991.3 260 to 5A991.000 to 5×5 HMC6146B upconverter/ 0 to 4000 11 28 18 4 3.b ADRF6604ACPZ-R7 PLL and VCO 3600 2900 500 LFCSP  = Simulation models available in ADI’s ADIsimRF and/or ADIsimPLL simulation tools.000 to 16.b ADRF6602ACPZ-R7 PLL and VCO 3100 2150 500 LFCSP Active mixer with 1100 to 2100 to 0 to 6×6 ADRF6603 6.000 14.000 transmitter E-band I/Q HMC8119 81.0 350 EAR 99 HMC6146BLC5A 44.5 –118 –139 27 10 5.000 14.5 5 253 to 281 5A991.000 to 10.000 14.830 to 0 to upconverter/ 11 — 22 2 4.330 10.330 10. 14 RF.g ADRF6612ACPZ-R7 and PLL and VCO 3000 2700 500 LFCSP (Rx only) Dual active mixer and tunable balun 700 to 200 to 20 to MC-GSM MC-GSM 7×7 ADRF6614 9.h ADRF6614ACPZ-R7 and PLL and VCO 3000 2700 500 compliant compliant LFCSP (Rx only) Active mixer with 1000 to 1550 to 0 to 6×6 ADRF6602 6.8 –87 –126 27 15.000 22.000 LFCSP transmitter I/Q 40.b ADRF6603ACPZ-R7 PLL and VCO 3200 2600 500 LFCSP Active mixer with 1200 to 2500 to 0 to 6×6 ADRF6604 6.830 to 0 to upconverter/ 10 — 22 2 4.5 5 135 to 276 5A991.0 320 EAR 99 HMC7912LP5E New 24.b ADRF6655ACPZ-R7 PLL and VCO 2500 2300 2200 LFCSP Active mixer with 300 to 750 to 0 to 6×6 ADRF6601 6.b ADRF6601ACPZ-R7 PLL and VCO 2500 1160 500 LFCSP Wideband dual Selectable Rx mixers with 690 to Programmable 7×7 ADRF6658 N/A — N/A N/A 12 to 29 13 3.0 350 EAR 99 HMC6787ALC5A 40. .500 to 5×5 HMC6787A upconverter/ 0 to 4000 10 26 17 4 3.3 28 11.000 LFCSP transmitter E-band I/Q HMC8118 71.6 5 235 to 261 5A991.5 LFCSP 440 amplifiers Broadband high IP3 dual channel 700 to 50 to 50 to 6×6 HMC1190A downconverter 8.3 5.5 12 5 235 to 263 5A991. 1.7 –99 –135 30.5 175.000 to 18. 1.5 175.b HMC8118 New 76.7 –88 –128 29.b HMC8119 New 86.h ADRF6658BCPZ-RL7 integrated IF 3800 26.6 260.3 –80 –138 28 11.000 LFCSP transmitter I/Q HMC815B 21.000 to 8500 to 5×5 upconverter/ 0 to 3500 14 32 18 4 5.000 to 11.000 transmitter Mixers with Integrated LO PLL Phase VCO Phase Noise @ Noise @ Input Noise Part RF LO IF Power Gain VSUPPLY ISUPPLY (Typ) Package ECCN Ordering Part Description 10 kHz 1 MHz IP3 Figure (Typ) Number (MHz) (MHz) (MHz) (dB) (V) (mA) (mm) Code Number Offset Offset (dBm) (dBm) (dBc/Hz) (dBc/Hz) Active mixer with 100 to 1050 to LF to 6×6 ADRF6655 6 –83 –136 29 12 5 260 to 285 5A991.000 14.6 260. 80 Die 5A991.5 –92 –128 29.500 LFCSP transmitter I/Q 37. 80 Die 5A991.000 22. Microwave. 260 5A991. 3.5 350 EAR 99 HMC815BLC5 Upcoming 27. 260 5A991.3 5. 3. 3. and Millimeter Wave IC Selection Guide 2016 I/Q Upconverters/Transmitters (Continued) Sideband Conversion Output IP3 LO Drive VSUPPLY ISUPPLY (Typ) Package ECCN Part Number Description RF (MHz) LO (MHz) IF (MHz) Rejection Ordering Part Number Gain (dB) (Typ) (dBm) Nominal (Typ) (V) (mA) (mm) Code (dBc) I/Q HMC7912 21.500 to 5×5 upconverter/ 0 to 3750 12 27 22 4 4.3 15.9 13. b ADL5591ACPZ-R7 modulator Narrow-band I/Q 1500 to ADL5372 –45 –45 –158 14. HMC1197 with –110 –134.2 31.5 –40 –45 –160 11 30 600 — 7 × 7 QFN 5A991. 2× LO AD8348 I/Q demodulator 50 to 1000 0. 62 TSSOP 5A991.b ADRF6755ACPZ 2310 LFCSP integrated LO I/Q modulators 400 to 6×6 ADRF6701 with –113 –135 –45 –40 –159.b ADL5375-05ACPZ-R2 modulator 6000 Narrow-band I/Q 500 to ADL5371 –50 –55 -159 14.b ADL5387ACPZ-WP I/Q demodulator LFCSP Broadband I/Q 4×4 ADL5380 400 to 6000 0.b ADL5380ACPZ-WP demodulator LFCSP Broadband I/Q 4×4 ADL5382 700 to 2700 0.b ADL5371ACPZ-R7 modulator 1500 Low power I/Q 700 to AD8349 –45 –35 –155 7.5 10.2 27 500 5 165 4 × 5 LFCSP 5A991.8 26 500 5 174 4 × 4 LFCSP 5A991.3 integrated LO I/Q modulators 300 to 8×8 ADRF6755 with –93 –133 –45 –45 –162 8 21 600 5 — 5A991. 5 47.2 12 13 31 240 5 180 5A991. 2× LO 4×4 ADL5387 50 to 2000 0.2 11.b AD8347ARUZ and VGA LFCSP I/Q Modulators with Integrated LO PLL Phase PLL Phase Baseband RF Noise @ Noise LO Sideband Output Output Part Noise Bandwidth VS ISY Package ECCN Description Frequency 10 kHz 1 MHz Spur Suppression (dBm/Hz) P1dB IP3 Ordering Part Number Number @ 3 dB (V) (mA) (mm) Code (MHz) Offset Offset (dBm) (dBc) (dBm) (dBm) (MHz) (dBc/Hz) (dBc/Hz) I/Q modulators 100 to 5.7 1000 3.6 27.b ADRF6720ACPZ-R7 3000 LFCSP integrated LO I/Q modulators 400 to 6×6 ADRF6720-27 with –92.05 0.5 10.5 25 80 3.2 15.b AD8349AREZ modulator 2700 Low power I/Q 800 to AD8346 –42 –36 –147 –3 20 70 3. 68 5A991.6 14.6 21 160 5 135 TSSOP 5A991.b HMC1197LP7FE 4000 3. 5 58.b AD8348ARUZ and VGA Broadband.b ADL5386ACPZ-R7 and AGC Wideband I/Q 3.b ADRF6701ACPZ-R7 1250 LFCSP integrated LO I/Q modulators 700 to 6×6 ADRF6720 with –91.1 1000 3.7 35. 5 64. Visit analog.5 370 5 220 5A991.4 –136.8 750 5 200 4 × 4 LFCSP 5A991.7 11.3 — 5A991.b ADL5370ACPZ-R7 modulator 1000 2× LO broadband 300 to ADL5385 –46 –50 –159 11 26 500 5 215 4 × 4 LFCSP 5A991.4 30.8 –44 –40.8 –159.4 26.3 — 5A991.75 13 28 125 3.8 31.3.1 25 700 5 230 6 × 6 LFCSP 5A991.b ADL5382ACPZ-WP demodulator LFCSP I/Q demodulator 4×4 AD8347 800 to 2700 0.b AD8346ARUZ modulator 2500 Narrow-band I/Q 805 to ADL5591 — –47 –157 16 30 250 5 170 6 × 6 LFCSP 5A991.8 390 5 245 5A991. . 51 TSSOP 5A991.b ADL5372ACPZ-R2 modulator 2500 Narrow-band I/Q 2300 to ADL5373 –32 –57 –157 13. HMC795 modulator with 50 to 2800 — –53 –156 11 25 440 127 5 × 5 QFN EAR 99 HMC795LP5E 5 VGA 100 to HMC1097 Direct quadrature –40 –40 –162 11 29 700 5 170 4 × 4 LFCSP EAR 99 HMC1097LP4E 6000 Low power I/Q 140 to AD8345 –42 –42 –155 2.3 1 11 –2 11.7 11.b AD8345AREZ modulator 1000 Narrow-band I/Q 300 to ADL5370 –50 –41 –160 11 24 500 5 205 4 × 4 LFCSP 5A991.b ADL5590ACPZ-R7 modulator 1905 Narrow-band I/Q ADL5590 869 to 900 — –50 –157 16 29 250 5 170 6 × 6 LFCSP 5A991.25 0.05 0.b ADL5373ACPZ-WP modulator 3000 I/Q Demodulators Baseband Part RF Frequency Gain Error Phase Error Noise Input Input IP3 Package ECCN Ordering Part Description (MHz) (dB/°) (dB/°) Bandwidth @ VS (V) ISY (mA) (mm) Number Figure (dB) P1dB (dBm) (dBm) Code Number 3 dB (MHz) Broadband. 5 43 .b ADRF6720-27ACPZ-R7 3000 LFCSP integrated LO  = Simulation models available in ADI’s ADIsimRF and/or ADIsimPLL simulation tools.b ADL5385ACPZ-R7 I/Q modulator 2200 Broadband I/Q 400 to ADL5375 -46 -52 –160 9. 45 TSSOP 5A991.7 750 5 — 5A991.5 65 3.5 27 500 5 175 4 × 4 LFCSP 5A991.5 –136.8 –40 –38 –157 12.com 15 I/Q Modulators and Demodulators I/Q Modulators Baseband RF Sideband Output Part LO Spur Noise Output IP3 Bandwidth ISY Package Description Frequency Suppression (dBm/Hz) P1dB VS (V) ECCN Code Ordering Part Number Number (dBm) (dBm) @ 3 dB (mA) (mm) (MHz) (dBc) (dBm) (MHz) 2× LO I/Q ADL5386 modulator and VVA 50 to 2200 –38 –46 –160 11.07 0. 5 12.7 –141.3 –138.6 0.8 –124.1 27.3 12. Microwave.8 –129.3.6 13.b ADRF6850BCPZ 1000 LFCSP and VCO Broadband I/Q demodulator 695 to 3.1 0.2 28. 6×6 ADRF6820 –94.3 –125.3 14.6 30.2 –41 –37. 310 5A991.1 12.b ADRF6702ACPZ-R7 2400 LFCSP integrated LO I/Q modulators 1550 to 6×6 ADRF6703 with –98.6 –40 –53.b ADRF6806ACPZ-R7 LFCSP and VCO I/Q demodulator 100 to 8×8 ADRF6850 and frac-N PLL –98 –136 0.2 750 5 — 5A991. and Millimeter Wave IC Selection Guide 2016 I/Q Upconverters/Transmitters (Continued) PLL Phase PLL Phase Baseband RF Noise @ Noise LO Sideband Output Output Part Noise Bandwidth VS ISY Package ECCN Description Frequency 10 kHz 1 MHz Spur Suppression (dBm/Hz) P1dB IP3 Ordering Part Number Number @ 3 dB (V) (mA) (mm) Code (MHz) Offset Offset (dBm) (dBc) (dBm) (dBm) (MHz) (dBc/Hz) (dBc/Hz) I/Q modulators 950 to 8×8 ADRF6750 with –93 –133 –45 –45 –162 8.8 26.7 –158.5 32.b ADRF6704ACPZ-R7 3000 LFCSP integrated LO I/Q Demodulators with Integrated LO PLL Phase PLL Phase Baseband RF Noise @ Noise Phase Noise Input Input Part Gain Error Bandwidth VS Package ECCN Ordering Part Description Frequency 10 kHz 1 MHz Error Figure P1dB IP3 ISY (mA) Number (dB/°) @ 3 dB (V) (mm) Code Number (MHz) Offset Offset (dB/°) (dB) (dBm) (dBm) (MHz) (dBc/Hz) (dBc/Hz) I/Q demodulator 6×6 ADRF6806 and frac-N PLL 50 to 525 — — 0.1 750 5 — 5A991.1 0.5 20 14.5 23 600 5 — 5A991.2 12.5 13.b ADRF6750ACPZ-R7 1575 LFCSP integrated LO I/Q modulators 1200 to 6×6 ADRF6702 with –110. 270 5A991.7 170 3.b ADRF6801ACPZ-R7 1150 LFCSP and VCO  = Simulation models available in ADI’s ADIsimRF and/or ADIsimPLL simulation tools.05 0.5 25 275 5 262 5A991. 16 RF.5 11 12 22. 5 86.7 13.5 37 1400 83.2 –40 –44 –159.5 300 3 350 5A991.b ADRF6703ACPZ-R7 2650 LFCSP integrated LO I/Q modulators 2050 to 6×6 ADRF6704 with –92.1 0. .5 170 3.3 12.b ADRF6820ACPZ-R7 and frac-N PLL 2700 5 LFCSP and VCO I/Q demodulator 700 to 6×6 ADRF6807 and frac-N PLL –107 –137 0. 5 86.5 0.7 750 5 — 5A991.b ADRF6807ACPZ-R7 1050 LFCSP and VCO I/Q demodulator 750 to 6×6 ADRF6801 and frac-N PLL –88.9 –159. 227 5A991.1 0. continuous time data acquisition ADC data sheet AFE 7 × 7 LFCSP — ADAR7251WBCSZ Low power ADSP-BF70x series of Blackfin+® embedded DSP processors with ADSP-BF70X DSP — — — 512 kB L2 SRAM and DDR2/LPDDR interface ADSP-2147X ADSP-2147X SHARC® DSP DSP — — — Transmit Channel Signal Generation Tx MMIC PLL Ramp Generator *M VCO PA DSP Receive Channel Signal Processing AFE Rx MMIC ADC AAF PGA LNA EQ ADC AAF EQ Data Port PGA LNA DSP n n=4 n ADC AAF PGA LNA EQ Antenna .h ADF4159CCPZ ADF4158 6 GHz.com 17 Integrated Transceivers.000 receiver 24 GHz ADAS Radar Chipset Part Number Description Function Package (mm) ECCN Ordering Part Number ADF4159 13 GHz. frac-N FMCW ramping PLL Ramp generator 4 × 4 LFCSP 5A991. Visit analog.h ADF4158CCPZ ADF5901 New 24 GHz.61 BGA 5A991.8 BGA 5A991. frac-N FMCW ramping PLL Ramp generator 4 × 4 LFCSP 5A991. ISM band 2-channel FMCW transmitter Tx MMIC 5 × 5 LFCSP EAR 99 ADF5901WCCPZ ADF5904 New 24 GHz.000 to integrated 65 67 6 1800 –86 — 500/540 0. and ADC AFE 10 × 10 TQFP — AD8284WCSVZ ADAR7251 4-channel. 16-bit. 4-channel receiver downconverter Rx MMIC 5 × 5 LFCSP EAR 99 ADF5904ACPZ AD8283 Radar receive path AFE: 6-channel LNA/PGA/AAF with ADC AFE 10 × 10 LFCSP — AD8283WBCPZ AD8284 Radar receive path AFE: 4-channel mux with LNA. Transmitters.000 transmitter 60 GHz HMC6301 57. AAF. PGA.000 to integrated 17 38 — 1800 –86 12 500/540 0. and Receivers Microwave and Millimeter Wave Transmitters/Receivers Transmitter/Receiver Millimeter Wave ICs Modulation Phase Noise @ Part RF Frequency Gain Range Max Gain Noise Figure P1dB Synthesizer Package ECCN Ordering Part Description Bandwidth 1 MHz Offset Power Number (MHz) (dB) (dB) (dBm) (dBm) Step (MHz) (mm) Code Number (MHz) (dBc/Hz) 60 GHz HMC6300 57.h HMC6300BG46 Upcoming 64.h HMC6301BG46 Upcoming 64. and Millimeter Wave IC Selection Guide 2016 PLL/Synth Integer-N PLLs Part Number Description Frequency (MHz) Figure of Merit (dBc/Hz) PFDMAX (MHz) VS (V) ISY (mA) Package (mm) ECCN Code Ordering Part Number HMC1031 Integer-N 0 to 500 –208 140 3 2 MSOP EAR 99 HMC1031MS8E ADF4002 Integer-N 5 to 400 –222 104 3 5 4 × 4 LFCSP 5A991.b ADF4113HVBCPZ-RL7 ADF4106 Integer-N 500 to 6000 –223 104 3 13 4 × 4 LFCSP 5A991. /2 –216 8 3.b ADF4007BCPZ-RL7 ADF4108 Integer-N 1000 to 8000 –223 104 3 15 4 × 4 LFCSP 5A991.7 to 5.7 to 5.b ADF4001BCPZ-RL7 HMC440 Integer-N 10 to 2800 –233 1300 5 250 QSOP 3A001.7 to 5.b ADF4158CCPZ-RL7 ADF4156 Fractional-N 500 to 6200 –220 32 3 26 TSSOP 5A991. Microwave.11.b ADF4360-6BCPZRL7 integrated VCO 1250 Integer-N PLLs with 1200 to ADF4360-5 –110 /1. 5.a.5 8.7 to 5. /2 Internal –216 8 3.a.3 25 to 45 4 × 4 LFCSP 5A991.5 6.b ADF4118YRUZ-RL7 HMC699 Integer-N 160 to 7000 –233 1300 5 310 5 × 5 QFN 3A001.7 to 5. 37 6 × 6 LFCSP EAR 99 HMC702LP6CE HMC704 Fractional-N 0.3 42 5 × 5 LFCSP 5A991.000 –221 100 3 30 4 × 4 LFCSP 5A991.3 65 4 × 4 LFCSP 5A991.b ADF4002BCPZ-RL7 ADF4001 Integer-N 10 to 200 –217 — 2. 5 90.5 TSSOP 5A991.b ADF4360-4BCPZRL7 integrated VCO 1750  = Simulation models available in ADI’s ADIsimRF and/or ADIsimPLL simulation tools.7 to 5.11.5 TSSOP 5A991.01 to 14.b ADF4155BCPZ-RL7 RF_PFD 30 ADF4252 Fractional-N/integer-N PLLs 250 to 3000 –214 3 13 4 × 4 LFCSP 5A991.5 4.7 to 5.b ADF4360-7BCPZRL7 integrated VCO 1800 frequency range Integer-N PLLs with 1050 to ADF4360-6 –110 /1.5 TSSOP 5A991. 18 RF.b ADF4360-9BCPZRL7 integrated VCO frequency range Integer-N PLLs with Ext L sets ADF4360-8 65 to 400 –120 No –216 8 3. 6 4 × 4 LFCSP EAR 99 HMC703LP4E HMC701 Fractional-N with sweeper 0.b ADF4212BRUZ-RL7 ADF4113 Integer-N 200 to 3700 –217 — 2.b HMC699LP5E ADF4212L Integer-N 200 to 2400 –215 75 3 7.b ADF4157BCPZ-RL7 ADF4158 Integer-N and fractional-N 500 to 6100 –216 32 3 23 4 × 4 LFCSP 5A991.b ADF4156BRUZ-RL7 ADF4156 Fractional-N 500 to 6200 –220 32 3 26 4 × 4 LFCSP 5A991. /2 Internal –216 8 3. .3.b ADF4154BCPZ-RL7 ADF4157 Fractional-N/integer-N PLLs 500 to 6000 –211 32 3 23 TSSOP 5A991.5 4.5 11 4 × 4 LFCSP 5A991.5 4.3 25 to 45 4 × 4 LFCSP 5A991. 5 52.b ADF4151BCPZ-RL7 ADF4155 Integer-N and fractional-N 100 to 600 –223 125 3.b ADF4116BRUZ-REEL7 ADF4111 Integer-N 80 to 1200 –213 — 2.01 to 8000 –230 100 3.b HMC698LP5E ADF4117 Integer-N 100 to 1200 –213 55 2.a.b ADF4107BCPZ-REEL7 ADF4007 Integer-N 1000 to 7500 –219 120 3 15 4 × 4 LFCSP 5A991.h ADF4193RL7 ADF4196 Integer-N and fractional-N 400 to 6000 –216 25 3 68 5 × 5 LFCSP 5A991.5 4.5 TSSOP 5A991.b ADF4110BCPZ-RL7 ADF4116 Integer-N 80 to 550 –211 55 2.3. 5 136.5 TSSOP 5A991.11.5 4 × 4 LFCSP EAR 99 HMC700LP4E ADF4150 Fractional-N/integer-N PLLs 10 to 250 –223 32 3.500 –224 130 3.b ADF4196BCPZ-RL7 ADF4153A Fractional-N/integer-N PLLs 500 to 4000 –223 32 3 20 TSSOP 5A991.3.b ADF4360-5BCPZRL7 integrated VCO 1400 Integer-N PLLs with 1450 to ADF4360-4 –110 /1. 6 4 × 4 LFCSP EAR 99 HMC704LP4E HMC703 Fractional-N with sweeper 0.b ADF4159CCPZ-RL7 fractional-N (for radars) ADF4169 Fractional-N/integer-N PLLs 500 to 13.3 50 5 × 5 LFCSP 5A991.5 4 × 4 LFCSP 5A991.b ADF4153ABCPZ-RL7 ADF4153 Fractional-N/integer-N PLLs 500 to 4000 –220 32 3 20 TSSOP 5A991.3.b HMC4069LP4E ADF4110 Integer-N 50 to 550 –213 — 2.3.3 38 4 × 4 LFCSP 5A991.3 25 to 50 4 × 4 LFCSP 5A991.b ADF4153ABRUZ ADF4153A Fractional-N/integer-N PLLs 500 to 4000 –223 32 3 20 4 × 4 LFCSP 5A991.5 4 × 4 LFCSP 5A991.11.b ADF4153BRUZ-RL7 ADF4153 Fractional-N/integer-N PLLs 500 to 4000 –220 32 3 20 4 × 4 LFCSP 5A991.b ADF4156BCPZ-RL7 Swept frequency integer-N and ADF4159 500 to 13.7 to 5.b ADF4169CCPZ-RL7 Integer-N PLLs with Integrated VCO Part Frequency VCO Phase Noise @ VCO Tuning Figure of Merit PFDMAX VS Package ECCN Description Divider ISY (mA) Ordering Part Number Number (MHz) 100 kHz (dBc/Hz) Inductor (dBc/Hz) (MHz) (V) (mm) Code Integer-N PLLs with Ext L sets ADF4360-9 2 to 200 –120 /2 to /62 –218 8 3.01 to 8000 –230 100 3. 5 52.b ADF4154BRUZ-RL7 ADF4154 Fractional-N/integer-N PLLs 500 to 4000 –220 32 3 20 4 × 4 LFCSP 5A991.b ADF4360-8BCPZRL7 integrated VCO frequency range Integer-N PLLs with 350 to Ext L sets ADF4360-7 –116 /1.b HMC440QS16GE HMC4069 New Integer-N 10 to 2900 –233 1300 5 295 4 × 4 LFCSP 3A001.000 –224 110 3 33 4 × 4 LFCSP 5A991.b ADF4106BCPZ-R7 ADF4107 Integer-N 1000 to 7000 –223 104 3 17 4 × 4 LFCSP 5A991.b ADF41020BCPZ-RL7 Fractional-N/Integer-N PLLs Part Number Description Frequency (MHz) Figure of Merit (dBc/Hz) PFDMAX (MHz) VS (V) ISY (mA) Package (mm) ECCN Code Ordering Part Number HMC702 Fractional-N with sweeper 0.01 to 8000 –221 75 3.000 –221 75 3. 5 90.b ADF4150BCPZ-RL7 ADF4151 Integer-N and fractional-N 10 to 250 –221 32 3.b ADF4111BRUZ-RL7 HMC698 Integer-N 80 to 7000 –233 1300 5 310 5 × 5 QFN 3A001.b ADF4157BRUZ-RL7 ADF4157 Fractional-N/integer-N PLLs 500 to 6000 –211 32 3 23 4 × 4 LFCSP 5A991. /2 Internal –216 8 3.b ADF4113BCPZ-RL7 ADF4113HV Integer-N 200 to 3700 –212 5 2.5 4 × 4 LFCSP 5A991.a.1 to 8000 –221 105 3.3 20 to 40 4 × 4 LFCSP 5A991.b ADF4108BCPZ-RL7 ADF41020 Integer-N 4000 to 18.5 4.b ADF4117BRUZ ADF4118 Integer-N 100 to 3000 –216 55 2.3 25 to 45 4 × 4 LFCSP 5A991.b ADF4151BCPZ-RL7 ADF4150HV Integer-N and fractional-N 10 to 300 –213 26 3.b ADF4153BCPZ-RL7 ADF4154 Fractional-N/integer-N PLLs 500 to 4000 –220 32 3 20 TSSOP 5A991.3 20 to 40 4 × 4 LFCSP 5A991. 37 6 × 6 LFCSP EAR 99 HMC701LP6CE HMC700 Fractional-N with sweeper 0.b ADF4252BCPZ-R7 IF_PFD 55 ADF4193 Fractional-N/integer-N PLLs 400 to 3500 –216 30 3 68 5 × 5 LFCSP 5A991.3 50 4 × 4 LFCSP 5A991. b ADF4360-1BCPZRL7 integrated VCO 2450 Integer-N PLLs with 2400 to ADF4360-0 –110 /1.b ADF4360-3BCPZRL7 integrated VCO 1950 Integer-N PLLs with 1850 to ADF4360-2 –110 /1.3/5 47/97 6 × 6 LFCSP EAR 99 HMC840LP6CE triband VCO 2620 to 2830 –111 –139 +9 Narrow-Band Fractional-N/Integer-N PLLs with Integrated VCO Part VCO Phase Noise @ POUT Figure of Merit PFDMAX Frac-N Package ECCN Ordering Part Description Frequency (MHz) (dBm) (dBc/Hz) VS (V) ISY(mA) Number 100 kHz (dBc/Hz) Mode (MHz) (mm) Code Number HMC764 Frac-N/int-N PLL with VCO 7300 to 8200 –140 15 –226 105 3.3/5 51/97 6 × 6 LFCSP EAR 99 HMC824LP6CE HMC836 Fractional-N PLL 3365 to 3705 –111 –136 0 –227 fVCO/20 3.com 19 Integer-N PLLs with Integrated VCO (Continued) Part Frequency VCO Phase Noise @ VCO Tuning Figure of Merit PFDMAX VS Package ECCN Description Divider ISY (mA) Ordering Part Number Number (MHz) 100 kHz (dBc/Hz) Inductor (dBc/Hz) (MHz) (V) (mm) Code Integer-N PLLs with 1600 to ADF4360-3 –110 /1.5 –230 fVCO/20 3.3/5 47/94 6 × 6 LFCSP EAR 99 HMC837LP6CE triband VCO 4100 to 4600 –108 –135 -0.600 –107 –129 –221 125 3.5 –229 fVCO/20 3. HMC839 2100 to 2410 –116 –140 +7.3 25 to 50 4 × 4 LFCSP 5A991.b ADF4360-2BCPZRL7 integrated VCO 2170 Integer-N PLLs with 2050 to ADF4360-1 –110 /1.3/5 90/245 6 × 6 LFCSP EAR 99 HMC765LP6CE HMC767 Frac-N/int-N PLL with VCO 8450 to 9550 –138 12 –230 100 3. Visit analog.b ADF4355BCPZ integrated VCO Wideband fractional-N/ ADF4355-3 New integer-N PLLs with 5156 to 6600 –118 –140 –222 125 3.3/5 54/272 6 × 6 LFCSP EAR 99 HMC769LP6CE HMC778 Frac-N/int-N PLL with VCO 9600 to 10.3/5 51/97 6 × 6 LFCSP EAR 99 HMC831LP6CE 1025 to 1150 –120 –147 +12 Fractional-N PLL.5 –229 fVCO/20 3.3/5 51/77 6 × 6 LFCSP EAR 99 HMC838LP6CE triband VCO 3180 to 3780 –112 –112 –4 HMC824 Fractional-N PLL 780 to 870 –123 –148 +14 –229 fVCO/20 3. HMC820 2190 to 2550 –116 –141 +6.5 –227 fVCO/20 3.400 to 13.5 –227 fVCO/20 3.3/5 51/97 6 × 6 LFCSP EAR 99 HMC822LP6CE triband VCO 2660 to 3300 –112 –136 +4 795 to 945 –123 –148 +10 Fractional-N PLL.3/5 52/185 6 × 6 LFCSP EAR 99 HMC833LP6GE integrated VCO  = Simulation models available in ADI’s ADIsimRF and/or ADIsimPLL simulation tools.400 –132 8 –226 105 3.150 –140 12 –230 100 3.3/5 52/185 6 × 6 LFCSP EAR 99 HMC834LP6GE integrated VCO 2800 to 4200 Wideband fractional-N/ ADF4355 New integer-N PLLs with 55 to 6800 –120 –142 –222 125 3.800 –140 9 –230 100 3.3 25 to 50 4 × 4 LFCSP 5A991.3/5 51/78 6 × 6 LFCSP EAR 99 HMC839LP6CE triband VCO 4200 to 4820 –109 –135 –4 1095 to 1275 –122 –147 +10 Fractional-N PLL.b ADF5355BCPZ integrated VCO Wideband fractional-N/ 45 to 1050 HMC834 integer-N PLLs with 1400 to 2100 –108 –134 –227 100 3.3/5 90/205 6 × 6 LFCSP EAR 99 HMC807LP6CE Wideband Fractional-N/Integer-N PLLs with Integrated VCO VCO Phase VCO Phase Frequency Figure of Merit PFDMAX Frac-N Package ECCN Ordering Part Part Number Description (MHz) Noise @ 100 kHz Noise @ 1 MHz (dBc/Hz) VS (V) ISY (mA) (dBc/Hz) (dBc/Hz) Mode (MHz) (mm) Code Number Wideband fractional-N/ ADF5355 New integer-N PLLs with 54 to 13.3/5 51/97 6 × 6 LFCSP EAR 99 HMC836LP6CE 860 to 1040 –122 –147 +10 Fractional-N PLL. HMC837 2050 to 2300 –114 –141 +10.5  –229 fVCO/20 3.500 to 12. /2 Internal –216 8 3.3/5 90/245 6 × 6 LFCSP EAR 99 HMC764LP6CE HMC765 Frac-N/int-N PLL with VCO 7800 to 8800 –140 13 –226 105 3.b ADF4355-3BCPZ integrated VCO Wideband fractional-N/ HMC833 integer-N PLLs with 25 to 6000 –116 –141 –227 100 3. HMC822 1330 to 1650 –118 –142 +6.3/5 54/272 6 × 6 LFCSP EAR 99 HMC778LP6CE HMC783 Frac-N/int-N PLL with VCO 11. 1310 to 1415 –117 –145 +10 HMC840 –230 fVCO/20 3. /2 Internal –216 8 3.5 1050 to 1205 –121 –146 +10 Fractional-N PLL.3 25 to 50 4 × 4 LFCSP 5A991.3/5 51/97 6 × 6 LFCSP EAR 99 HMC828LP6CE 665 to 825 –124 –148 +11 Fractional-N PLL. /2 Internal –216 8 3.3/5 110/80 5 × 5 LFCSP 5A991.3 25 to 50 4 × 4 LFCSP 5A991.3/5 110/80 5 × 5 LFCSP 5A991. HMC821 1720 to 2080 –116 –141 +6.3 146 5 × 5 LFCSP 5A991. .500 –134 10 –226 105 3.5 –229 fVCO/20 3. /2 Internal –216 8 3.3/5 90/145 6 × 6 LFCSP EAR 99 HMC783LP6CE HMC807 Frac-N/int-N PLL with VCO 12.3/5 54/257 6 × 6 LFCSP EAR 99 HMC767LP6CE HMC769 Frac-N/int-N PLL with VCO 9050 to 10.3/5 51/97 6 × 6 LFCSP EAR 99 HMC821LP6CE triband VCO 3440 to 4160 –110 –135 –4 HMC826 Fractional-N PLL 990 to 1105 –121 –146 +11 –229 fVCO/20 3.3/5 51/97 6 × 6 LFCSP EAR 99 HMC820LP6CE triband VCO 4380 to 5100 –110 –135 –4 Fractional-N PLL.3/5 51/97 6 × 6 LFCSP EAR 99 HMC826LP6CE HMC831 Fractional-N PLL 1815 to 2010 –118 –143 +7.b ADF4360-0BCPZRL7 integrated VCO 2725 Narrow-Band RF Fractional-N/Integer-N PLLs with VCO VCO Phase VCO Phase PFDMAX Part Noise @ POUT Figure of Merit Package Ordering Part Description Frequency (MHz) Noise @ 1 MHz (dBm) (dBc/Hz) Frac-N Mode VS (V) ISY (mA) (mm) ECCN Code Number 100 kHz Number (dBc/Hz) (MHz) (dBc/Hz) HMC828 Fractional-N PLL 1285 to 1415 –118 –143 +10 –229 fVCO/20 3. HMC838 1590 to 1890 –118 –118 +7. g ADF4355–2BCPZ integrated VCO Wideband fractional-N/ 112 to ADF4351 integer-N PLLs with 35 to 4400 –114 –134 –221 32 3.3 5 × 5 LFCSP 5A991.b HMC830LP6GE integrated VCO Wideband fractional-N/ HMC832 integer-N PLLs with 25 to 3000 –116 –139 –226 100 3.3/5 52/185 6 × 6 LFCSP 5A991.3/5 110/80 5 × 5 LFCSP 5A991. Microwave.3/5 48/220 6 × 6 LFCSP 5A991.b ADF4350BCPZ 4400 136 integrated VCO 45 to 1050 Wideband fractional-N/ 1400 to 2100 HMC829 integer-N PLLs with –108 –134 –227 100 3. 20 RF. .3 219 6 × 6 LFCSP 5A991.b HMC832LP6GE integrated VCO  = Simulation models available in ADI’s ADIsimRF and/or ADIsimPLL simulation tools.b HMC835LP6GE integrated VCO Wideband fractional-N/ HMC830 integer-N PLLs with 25 to 3000 –116 –141 –227 100 3.3/5 52/185 6 × 6 LFCSP EAR 99 HMC829LP6GE 2800 to 4200 integrated VCO 5600 to 8400 Wideband fractional-N/ HMC835 integer-N PLLs with 33 to 4100 –108 –134 –227 100 3.5 to 112 to ADF4350 integer-N PLLs with –114 –134 –220 32 3. and Millimeter Wave IC Selection Guide 2016 Integer-N PLLs with Integrated VCO (Continued) VCO Phase VCO Phase Frequency Figure of Merit PFDMAX Frac-N Package ECCN Ordering Part Part Number Description (MHz) Noise @ 100 kHz Noise @ 1 MHz (dBc/Hz) VS (V) ISY (mA) (dBc/Hz) (dBc/Hz) Mode (MHz) (mm) Code Number Wideband fractional-N/ ADF4355-2 New integer-N PLLs with 55 to 4400 –120 –142 –222 125 3.3 5 × 5 LFCSP 5A991.b ADF4351BCPZ 148 integrated VCO Wideband fractional-N/ 137. 600 to HMC534 5300 to 5900 –82 –110 11 2 to 13 5 350 5 × 5 LFCSP 3A001. .100 VCO with f0/2 9500 to HMC530 4750 to 5400 –85 –110 11 2 to 13 5 350 5 × 5 LFCSP 3A001.620 VCO with f0/2 11.500 VCO with f0/2 11.650  = Simulation models available in ADI’s ADIsimRF and/or ADIsimPLL simulation tools.500 to HMC515 5750 to 6250 –83 –110 10 2 to 13 5 200 5 × 5 LFCSP 3A001.a.900 VCO with f0/2 14250 to HMC632 7125 to 7825 –80 –107 9 2 to 13 5 350 5 × 5 LFCSP 3A001.620 VCO with f0/2 11.100 to HMC582 5550 to 6200 –83 –110 9 2 to 13 5 350 5 × 5 LFCSP 3A001.b HMC531LP5E and divide by 4 14.b HMC584LP5E and divide by 4 13.800 VCO with f0/2 9600 to HMC512 4800 to 5400 –85 –111 9 2 to 13 5 330 5 × 5 LFCSP 3A001.11.020 11.5 0 to 10 3 35 4 × 4 LFCSP EAR 99 HMC385LP4E HMC386 VCO with buffer 2600 to 2800 –88 –115 5 0 to 10 3 35 4 × 4 LFCSP EAR 99 HMC386LP4E HMC416 VCO with buffer 2750 to 3000 –89 –114 4.11.800 11.470 to HMC1168 New VCO with f0/2 6235 to 6860 –85 –113 10 2 to 13 5 190 5 × 5 LFCSP EAR 99 HMC1168LP5E 13.720 VCO with f0/2 12.11.a.070 to HMC1165 New VCO with f0/2 5535 to 5810 –88 –113 8 2 to 13 5 210 5 × 5 LFCSP EAR 99 HMC1165LP5E 11.b HMC583LP5E and divide by 4 12.300 VCO with f0/2 12.b HMC510LP5E and divide by 4 HMC1161 New VCO with f0/2 8710 to 9550 4355 to 4775 –90 –115 11 2 to 13 5 250 5 × 5 LFCSP EAR 99 HMC1161LP5E 9050 to HMC511 VCO with f0/2 4525 to 5075 –88 –115 13 2 to 13 5 265 5 × 5 LFCSP EAR 99 HMC511LP5E 10.800 12.a.900 12.070 VCO with f0/2 13.b HMC530LP5E and divide by 4 10.11.11.430 to HMC513 5215 to 5730 –85 –110 7 2 to 13 5 275 5 × 5 LFCSP 3A001.a.400 12.b HMC512LP5E and divide by 4 10.800 9650 to HMC1163 New VCO with f0/2 4825 to 5205 –87 –114 11 2 to 13 5 205 5 × 5 LFCSP EAR 99 HMC1163LP5E 10.com 21 Voltage Controlled Oscillators Low Current VCOs Part Frequency VCO Phase Noise @ VCO Phase Noise @ POUT VCC Ordering Part Description VTUNE (V) ICC (mA) Package (mm) ECCN Code Number (MHz) 10 kHz (dBc/Hz) 100 kHz (dBc/Hz) (dBm) (V) Number HMC384 VCO with buffer 2050 to 2250 –89 –112 3.380 to HMC1164 New VCO with f0/2 5190 to 5650 –86 –114 8 2 to 13 5 200 5 × 5 LFCSP EAR 99 HMC1164LP5E 11.a.a.500 to HMC584 6250 to 6950 –81 –110 10 2 to 13 5 330 5 × 5 LFCSP 3A001.400 VCO with f0/2 11.a.a.400 to HMC529 6200 to 6700 –83 –110 8 2 to 13 5 260 5 × 5 LFCSP 3A001.a.170 to HMC1167 New VCO with f0/2 6085 to 6650 -86 –113 10 2 to 13 5 200 5 × 5 LFCSP EAR 99 HMC1167LP5E 13.b HMC515LP5E and divide by 4 12.a.11.11.b HMC513LP5E and divide by 4 11.11.7 0 to 10 3 42 4 × 4 LFCSP EAR 99 HMC390LP4E HMC391 VCO with buffer 3900 to 4450 –81 –106 5 0 to 10 3 30 4 × 4 LFCSP EAR 99 HMC391LP4E HMC429 VCO with buffer 4450 to 5000 –79 –105 4 0 to 10 3 30 4 × 4 LFCSP EAR 99 HMC429LP4E HMC430 VCO with buffer 5000 to 5500 –80 –103 2 0 to 10 3 27 4 × 4 LFCSP EAR 99 HMC430LP4E HMC431 VCO with buffer 5500 to 6100 –80 –102 2 0 to 10 3 27 4 × 4 LFCSP EAR 99 HMC431LP4E HMC358 VCO with buffer 5800 to 6800 –82 –110 11 0 to 10 3 100 MSOP EAR 99 HMC358MS8GE HMC466 VCO with buffer 6100 to 6720 –73 –101 4.7 0 to 10 3 41 4 × 4 LFCSP EAR 99 HMC389LP4E HMC390 VCO with buffer 3550 to 3900 –87 –112 4. Visit analog.11.5 0 to 10 3 13 4 × 4 LFCSP EAR 99 HMC466LP4E HMC505 VCO with buffer 6800 to 7400 –80 –106 11 1 to 11 3 80 4 × 4 LFCSP EAR 99 HMC505LP4E HMC532 VCO with buffer 7100 to 7900 –80 –101 14 1 to 13 3 85 4 × 4 LFCSP EAR 99 HMC532LP4E HMC506 VCO with buffer 7800 to 8700 –80 –103 14 1 to 11 3 77 4 × 4 LFCSP EAR 99 HMC506LP4E High Performance VCOs VCO Phase VCO Phase Frequency Primary Divide POUT Package Ordering Part Part Number Description Noise @ 10 kHz Noise @ 100 kHz (dBm) VTUNE (V) VCC (V) ICC (mA) ECCN Code (MHz) Output (MHz) (mm) Number (dBc/Hz) (dBc/Hz) HMC507 VCO with f0/2 6650 to 7650 3325 to 3825 –90 –115 13 2 to 13 5 230 5 × 5 LFCSP EAR 99 HMC507LP5E HMC508 VCO with f0/2 7300 to 8200 3650 to 4100 –90 –116 15 2 to 13 5 240 5 × 5 LFCSP EAR 99 HMC508LP5E HMC509 VCO with f0/2 7800 to 8800 3900 to 4400 –90 –115 13 2 to 13 5 250 5 × 5 LFCSP EAR 99 HMC509LP5E HMC1160 New VCO with f0/2 8450 to 9300 4225 to 4650 –90 –116 12 2 to 13 5 260 5 × 5 LFCSP EAR 99 HMC1160LP5E VCO with f0/2 HMC510 8450 to 9550 4225 to 4775 –92 –116 13 2 to 13 5 315 5 × 5 LFCSP 3A001.9 0 to 10 3 39 4 × 4 LFCSP EAR 99 HMC388LP4E HMC389 VCO with buffer 3350 to 3550 –89 –112 4.b HMC534LP5E and divide by 4 11.11.b HMC529LP5E and divide by 4 13.500 to HMC583 5750 to 6400 –80 –110 11 2 to 13 5 350 5 × 5 LFCSP 3A001.920 to HMC1169 New VCO with f0/2 6460 to 7035 –86 –113 11 2 to 13 5 220 5 × 5 LFCSP EAR 99 HMC1169LP5E 14.5 0 to 10 3 35 4 × 4 LFCSP EAR 99 HMC384LP4E HMC385 VCO with buffer 2250 to 2500 –89 –115 4.a.150 9250 to HMC1162 New VCO with f0/2 4625 to 5050 –86 –115 11 2 to 13 5 230 5 × 5 LFCSP EAR 99 HMC1162LP5E 10.410 to HMC1166 New VCO with f0/2 5705 to 6310 –89 –115 11 2 to 13 5 220 5 × 5 LFCSP EAR 99 HMC1166LP5E 12.170 to HMC514 5585 to 6010 –87 –110 7 2 to 13 3 275 5 × 5 LFCSP EAR 99 HMC514LP5E and divide by 4 12.a.11.410 10.b HMC582LP5E and divide by 4 12.b HMC632LP5E and divide by 4 15.11.5 0 to 10 3 37 4 × 4 LFCSP EAR 99 HMC416LP4E HMC388 VCO with buffer 3150 to 3400 –88 –113 4.600 to HMC531 6800 to 7450 –81 –110 10 2 to 13 5 330 5 × 5 LFCSP 3A001.460 VCO with f0/2 10.300 VCO with f0/2 10. 500 –65 –93 5 0 to 13 5 55 4 × 4 LFCSP EAR 99 HMC588LC4B HMC6380 New Wideband VCO 8000 to 16.800 to 26.25 to +23 5 70 4 × 4 LFCSP EAR 99 HMC733LC4B .000 1750 to 1875 –75 –110 6 1 to 13 5 325 TSSOP 3A001.800 to 24.b HMC734LP5E HMC735 VCO with divide by 4 10. and Millimeter Wave IC Selection Guide 2016 Higher Power and Frequency VCOs VCO Phase VCO Phase Part Primary Divide POUT VCC ICC Package Ordering Part Description Frequency (MHz) Noise @ 10 kHz Noise @ 100 kHz (dBm) VTUNE (V) (V) (mA) (mm) ECCN Code Number Output (GHz) Number (dBc/Hz) (dBc/Hz) HMC734 VCO with divide by 4 8600 to 10.a.900 to 23.200 2150 to 2550 –70 –100 18 1 to 13 5 218 5 × 5 LFCSP 3A001.11. Microwave.b HMC738LP4E divide by 16 HMC533 VCO with divide by 16 23.000 7250 to 7500 –80 –105 9 1 to 13 4.a.000 –64 –92 6 0 to 23 5 75 4 × 4 LFCSP EAR 99 HMC6380LC4B HMC733 Wideband VCO 10.11.a.11.000 to 15.b HMC735LP5E HMC398 VCO with divide by 8 14.900 to 15.2 150 4 × 4 LFCSP EAR 99 HMC737LP4E VCO with f0/2 and HMC738 20.a.950 –65 –95 9 1 to 13 5 200 4 × 4 LFCSP 3A001.11.11.400 –64 –93 8 1 to 13 5 200 4 × 4 LFCSP 3A001.000 –60 –90 2 –0.b HMC533LP4E VCO with f0/2 and HMC739 23.000 –65 –95 1 0 to 23 5 57 4 × 4 LFCSP EAR 99 HMC732LC4B HMC588 Wideband VCO 8000 to 12.450 to 11.900 10.11.b HMC739LP4E divide by 16 Ultrawideband VCOs VCO Phase VCO Phase ICC Ordering Part Part Number Description Frequency (MHz) Noise @ 10 kHz Noise @ 100 kHz POUT (dBm) VTUNE (V) VCC (V) (mA) Package (mm) ECCN Code Number (dBc/Hz) (dBc/Hz) HMC586 Wideband VCO 4000 to 8000 –75 –100 5 0 to 18 5 55 4 × 4 LFCSP EAR 99 HMC586LC4B HMC587 Wideband VCO 5000 to 10.500 7450 to 7750 –80 –105 9 1 to 13 4.500 to 15.000 to 20.800 11900 to 13.b HMC398QS16GE HMC736 VCO with f0/2 14.5 to 1550 –70 –95 12 1 to 13 5 220 4 × 4 LFCSP 3A001.a. 22 RF.200 2625 to 3050 –75 –100 17 1 to 13 5 217 5 × 5 LFCSP 3A001.500 to 12.000 –65 –95 5 0 to 18 5 55 4 × 4 LFCSP EAR 99 HMC587LC4B HMC732 Wideband VCO 6000 to 12.2 150 4 × 4 LFCSP EAR 99 HMC736LP4E HMC737 VCO with f0/2 14.a.800 1487. Visit analog.com 23 Frequency Dividers.a.000 +3 17 –132 5 81 3 × 3 LFCSP EAR 99 HMC578LC3B HMC942 ×2 active 12.3 30 3 × 3 LFCSP EAR 99 ADF5000BCPZ-RL7 HMC437 Fixed divide by 3 0 to 7000 0 to 2334 –12 to +12 –1 –153 5 69 MSOP 3A001.11.000 +3 17 –132 5 82 Die EAR 99 HMC576 HMC576 ×2 active 9000 to 14.000 +5 17 –139 5 98 3 × 3 LFCSP EAR 99 HMC561LP3E HMC573 ×2 active 4000 to 11.a.400 to 13.500 24.000 0 to 3250 –15 to +10 +7 –151 5 120 Hermetic SMT 3A001.a.a.500 18.000 to 23.a.000 +4 17 — 4.500 25.11.b.000 +5 15 — 5 175 Die EAR 99 HMC598 HMC578 ×2 active 12.500 19.11.300 13.000 0 to 3000 –15 to +10 –6 –149 5 68 SOIC 3A001.5 9900 to 11.200 –15 4 –142 5 52 4 × 4 LFCSP EAR 99 HMC443LP4E HMC695 ×4 active 2850 to 3300 11.b.000 to 31.000 +2 13 –140 5 75 4 × 4 LFCSP EAR 99 HMC368LP4E HMC369 ×2 active 4950 to 6350 9900 to 12.600 +4 17 –136 5 88 3 × 3 LFCSP EAR 99 HMC814LC3B HMC576 ×2 active 9000 to 14.400 –15 0 –140 5 55 4 × 4 LFCSP EAR 99 HMC370LP4E HMC1110 New ×6 active 11.000 to 33.500 27.000 +3 9 –127 5 70 Die EAR 99 HMC579 HMC1096 New ×2 active 1900 to 2800 3700 to 5600 0 12 –142 5 100 3 × 3 LFCSP EAR 99 HMC1096LP3E HMC443 ×4 active 2450 to 2800 9000 to 11.11.a.200 –15 7 –140 5 60 4 × 4 LFCSP EAR 99 HMC695LP4E HMC370 ×4 active 3600 to 4100 14.d HMC3658G HMC365 Fixed divide by 4 0 to 13.a.11.3 30 3 × 3 LFCSP EAR 99 ADF5001BCPZ-RL7 HMC447 Fixed divide by 4 10.000 to 33.d HMC365S8GE HMC493 Fixed divide by 4 0 to 18.b HMC361G8 HMC361 Fixed divide by 2 0 to 10.000 to 29.000 +3 17 –132 5 82 3 × 3 LFCSP EAR 99 HMC576LC3B HMC448 ×2 active 9500 to 12.000 0 11 –135 5 48 Die EAR 99 HMC448 HMC598 ×2 active 11.a.000 0 to 1500 –15 to +10 +4 –153 5 90 Hermetic SMT 3A001.a.3 5-bit counter.5 to 1400 9900 to 11.11.000 to 16.75 to 687.b HMC437MS8GE HMC433 Fixed divide by 4 0 to 8000 0 to 2000 –12 to +12 –2 –150 3 53 SOT-26 3A001.000 to 86. Prescalers.11.000 0 to 2250 –20 to +10 –4 –150 5 103 3 × 3 LFCSP 3A001.a. Multipliers.a.000 to 23. HMC983 0 to 7000 Variable –15 to –30 –160 1.000 32.b HMC361 HMC361 Fixed divide by 2 0 to 13.000 to 24.11.000 to 46.11.b HMC3638G HMC363 Fixed divide by 8 0 to 12.11.a.000 0 to 3000 –15 to +10 –6 –149 5 68 Die 3A001.000 to 15.11.000 500 to 2250 –10 to +10 –5 –153 3.000 to 31.000 0 to 3250 –15 to +10 +5 –151 5 120 Die 3A001.000 to 25.500 18.000 +3 13 — 4 255 Die EAR 99 HMC1110 HMC444 ×8 active 1237.000 0 to 9000 –20 to +10 –4 –150 5 78 3 × 3 LFCSP 3A001.200 –15 6 –136 5 68 4 × 4 LFCSP EAR 99 HMC444LP4E HMC445 ×16 active 618.b HMC362 HMC362 Fixed divide by 4 0 to 12.000 to 8000 9000 to 16.2.000 0 to 6000 –15 to +10 +3 –148 5 83 Die 3A001.000 to 29.11.b HMC492LP3E ADF5000 Fixed divide by 2 4000 to 18.b HMC394LP4E by n = 2 to 32 HMC432 Fixed divide by 2 0 to 8000 0 to 4000 –12 to +12 –3 –148 3 42 SOT-26 3A001.000 2500 to 5500 –15 to +10 –4 –150 5 96 3 × 3 LFCSP 3A001.a.a.b HMC362S8GE HMC365 Fixed divide by 4 0 to 13. and Counters Phase Noise @ Part Input Frequency Output Frequency Input Power Output Power VS Ordering Part Description 100 kHz Offset ISY (mA) Package (mm) ECCN Code Number (MHz) (MHz) (dBm) (dBm) (V) Number (dBc/Hz) Programmable divide HMC705 100 to 6500 Variable –15 to +10 0 –153 5 190 4 × 4 LFCSP EAR 99 HMC705LP4E by n = 1 to 17 Programmable divide HMC794 200 to 2000 Variable –2 to +10 +10 –160 5 135 3 × 3 LFCSP EAR 99 HMC794LP3E by n = 1 to 4 Programmable divide HMC905 400 to 6000 Variable 0 to +10 +3 –158 3.700 0 4 –142 5 46 3 × 3 LFCSP EAR 99 HMC369LP3E HMC814 ×2 active 6500 to 12.b HMC493LP3E ADF5001 Fixed divide by 4 4000 to 18.11.000 2000 to 4500 –10 to +10 –5 –150 3.b HMC363S8GE HMC494 Fixed divide by 8 0 to 18.b HMC438MS8GE HMC434 Fixed divide by 8 0 to 8000 0 to 1000 –10 to +12 –2 –150 3 62 SOT-26 3A001.600 +4 17 –136 5 88 Die EAR 99 HMC814 HMC814 ×2 active 6500 to 12.11. 244 5 × 5 LFCSP EAR 99 HMC983LP5E programmable 100 Ω 3.b HMC361S8GE HMC492 Fixed divide by 2 0 to 18.b HMC365 HMC365 Fixed divide by 4 0 to 13.400 to 16.11.a.a.3 30 3 × 3 LFCSP EAR 99 ADF5002BCPZ-RL7 Frequency Multipliers—Active Input Frequency Output Frequency Input Power Output Power 100 kHz Phase Ordering Part Part Number Description VS (V) ISY (mA) Package (mm) ECCN Code (MHz) (MHz) (dBm) (dBm) Noise (dBc/Hz) Number HMC575 ×2 active 3000 to 4500 6000 to 9000 +3 17 –140 5 90 4 × 4 LFCSP EAR 99 HMC575LP4E HMC561 ×2 active 4000 to 10.5 214 4 × 4 LFCSP EAR 99 HMC942LP4E HMC577 ×2 active 13.000 +3 17 –132 5 81 Die EAR 99 HMC578 HMC578 ×2 active 12.b HMC447LC3 HMC438 Fixed divide by 5 0 to 7000 0 to 1400 –15 to +10 –1 –153 5 80 MSOP 3A001.b HMC494LP3E ADF5002 Fixed divide by 8 4000 to 18.000 8000 to 22.000 +5 17 –139 5 98 Die EAR 99 HMC561 HMC561 ×2 active 4000 to 10.000 22.000 –15 7 –130 5 78 4 × 4 LFCSP EAR 99 HMC445LP4E .830 to 14.11.300 13.2.000 0 to 4500 –20 to +10 –4 –150 5 96 3 × 3 LFCSP 3A001.500 8000 to 21. and Detectors Frequency Dividers.330 71.000 to 16.000 +5 12 –134 5 92 3 × 3 LFCSP EAR 99 HMC573LC3B HMC368 ×2 active 45.b HMC433 HMC362 Fixed divide by 4 0 to 12.a.500 8000 to 21.3 100 3 × 3 LFCSP EAR 99 HMC905LP3E by n = 1 to 4 48-bit SD +2 V p–p into 5.11.b HMC432E HMC361 Fixed divide by 2 0 to 12.11.500 to 15.000 to 24. divide HMC394 100 to 2200 Variable –15 to +10 +4 –153 5 194 4 × 4 LFCSP 3A001.000 to 46.11.a.b HMC434E HMC363 Fixed divide by 8 0 to 12.000 0 to 1500 –15 to +10 –6 –153 5 90 SOIC 3A001.000 0 to 5000 –15 to +10 +3 –148 5 83 SOIC 3A001.000 to 26.000 0 to 6500 –15 to +10 +4 –148 5 83 Hermetic SMT 3A001.000 0 to 3250 –15 to +10 +5 –151 5 120 SOIC 3A001.000 +5 20 –128 5 213 4 × 4 LFCSP EAR 99 HMC577LC4B HMC579 ×2 active 16.500 24.a.000 2000 to 9000 –10 to +10 –5 –147 3.000 0 to 1500 –15 to +10 –6 –153 5 90 Die 3A001.b HMC363 HMC363 Fixed divide by 8 0 to 12. b HMC3716LP4E frequency detector .000 40.5 5. and Millimeter Wave IC Selection Guide 2016 Frequency Multipliers—Passive Input Frequency Output Frequency Input Drive Conversion 1 F0 Isolation 4 F0 Isolation Package ECCN Ordering Part Part Number Description (MHz) (MHz) (dBm) Loss (dB) (dB) (dB) (mm) Code Number HMC-XDB112 ×2 passive 10.h HMC-XDB112 HMC1105 ×2 passive 20. 24 RF.02 to 2.000 72.000 20.h HMC-XTB110 Phase Frequency Detectors Input Power 10 kHz Phase Output Level Ordering Part Input Freq Description Input Freq (MHz) VCC (V) ICC (mA) Package (mm) ECCN Code (dBm) Noise (dBc/Hz) (mA) Number Frequency detector and HMC984 0 to 350 +3 to +12 — 0.000 to 30.000 11 to 15 11 41 46 Die EAR 99 HMC1105 HMC-XTB110 ×3 passive 24.a.000 10 to 15 13 30 — Die 5A991.b HMC439QS16GE frequency detector High frequency phase HMC3716 New 10 to 1300 –10 to +5 –153 2 V p-p 5 115 4 × 4 LFCSP 3A001.000 to 80.a. 27 4 × 4 LFCSP EAR 99 HMC984LP4E charge pump High frequency phase HMC439 10 to 1300 –10 to +10 –153 2 V p-p 5 96 QSOP 3A001.000 to 90.000 to 15.11. Microwave. 3 97.11.000 to 40.000 to 30.000 10 to 15 19 — — Die 5A991. 1 2 × 2 SC70 5A991.5 3.3 91 3 × 3 LFCSP EAR 99 HMC948LP3E HMC662 Millimeter wave log detector 8000 to 30.5 3.8 WLCSP 5A991.500 45 ±0.0 5 20 TSSOP 5A991.000 50 ±0.b ADL5500ACBZ-P7 ADL5903 Linear-in-dB 200 to 6000 35 ±0.b ADL5505ACBZ-P7 ADL5902 Linear-in-dB 50 to 9000 65 ±0.5 MSOP EAR 99 AD8314ARMZ-REEL7 AD8314 Log amplifier 100 to 2700 45 ±1 3 to 5 4.b AD8364ACPZ-WP AD8362 Linear-in-dB LF to 3800 65 ±1.5 3.75 5 55 4 × 4 LFCSP EAR 99 HMC1020LP4E HMC1021 Linear-in-dB with envelope detector DC to 3900 70 ±0.8 0.b ADL5504ACBZ-P7 ADL5505 Linear in V/V rms 450 to 6000 30 ±0.3 to 5 17 3 × 3 LFCSP EAR 99 HMC713LP3E AD8314 Log amplifier 100 to 2700 45 ±1 3 to 5 4.3 to 5 22 2 × 3 LFCSP EAR 99 AD8319ACPZ-WP AD8317 Log detector/controller 1 to 10.5 5 143 5 × 5 LFCSP EAR 99 HMC1030LP5E HMC1120 Linear-in-dB with envelope detector DC to 3900 72 ±0.1 5 21.5 — — Die EAR 99 HMC7447 .3 3 3 × 3 LFCSP EAR 99 ADL5904ACPZN-R7 Upcoming ADL5906 Linear-in-dB 10 to 10.b AD8361ARMZ-REEL7 AD8364 Dual linear-in-dB LF to 2700 60 ±0.3 to 5 22 2 × 2 LFCSP EAR 99 AD8317ACPZ-WP AD8317 Log detector/controller 1 to 10.5 5 68 4 × 4 LFCSP EAR 99 AD8318ACPZ-WP HMC602 Log detector/controller 1 to 8000 72 ±1 5 113 4 × 4 LFCSP EAR 99 HMC602LP4E AD8319 Log detector/controller 1 to 10.8 WLCSP 5A991.2 1 × 1.25 3 to 5 1.2 3 to 5 2.000 54 ±0.1 3 1.1 SOT-23 5A991.5 3.5 5 73 4 × 4 LFCSP 5A991.5 3 to 5 29 4 × 4 LFCSP EAR 99 HMC600LP4E ADL5506 Log amplifier 30 to 4500 45 ±1 3 to 5 3.3 5 3 2 × 2 LFCSP 5A991.5 3.000 45 ±0.5 3 to 5 31 3 × 3 WLCSP EAR 99 ADL5513ACPZ-WP HMC601 Log detector/controller 10 to 4000 75 ±0.3 to 5 22 Die EAR 99 AD8317ACHIPS HMC611 Log detector/controller 1 to 10.g AD8312ACBZ-P2 ADL5513 Log detector/controller 1 to 4000 80 ±0.5 3.5 3.1 SOIC 5A991.5 3.5 5 48 4 × 4 LFCSP EAR 99 HMC1010LP4E HMC1020 Linear-in-dB DC to 3900 72 ±0.000 69 ±1 5 106 4 × 4 LFCSP EAR 99 HMC611LP4E ADL5519 Dual log amplifier 1 to 10.000 55 ±0.5 3 to 5 4.5 5 42 4 × 4 LFCSP EAR 99 HMC909LP4E ADL5511 Linear in V/V rms with envelope detector DC to 6000 47 ±0. Visit analog.5 4 × 4 LFCSP EAR 99 ADL5511ACPZ-R7 AD8363 Linear-in-dB 0.3 to 5 60 5 × 5 LFCSP EAR 99 ADL5519ACPZ-WP HMC1094 Millimeter wave log detector 1000 to 23.000 55 ±0.8 1.3 88 3 × 3 LFCSP EAR 99 HMC662LP3E ADL6010 Linear-in-V/V 500 to 43.1 3 1.b ADL5903ACPZN-R7 ADL5502 Linear in V/V rms with peak/env detector 450 to 6000 35 ±0.75 3 to 5 29 4 × 4 LFCSP EAR 99 HMC612LP4E AD8312 Log amplifier 50 to 3500 45 ±0. harmonic HMC1044 0 to 3025 Digital 16 bits 1000 to 3000 — 10 10 3 × 3 LFCSP EAR 99 HMC1044LP3E low-pass filter RF Power Detectors TruPwr™ RMS Responding Detectors Part Input Frequency Input Range Temperature Description VS (V) ISY (mA) Package (mm) ECCN Code Ordering Part Number Number (MHz) (dB) Drift (dB) AD8361 Linear in V/V rms 2500 30 ±0.8 × 1.000 69 ±1 5 106 Die EAR 99 HMC611 HMC611 Log detector/controller 1 to 10.1 3 3 3 × 3 WLCSP 5A991.25 3 to 5 1.25 3 to 5 1 1 × 1 WLCSP 5A991.b ADL6010ACPZN-R7 HMC7447 E-band detector linear-in-V/V 71.b ADL5501AKSZ-R2 ADL5500 Linear in V/V rms 100 to 6000 30 ±0.5 5 60 4 × 4 LFCSP 5A991.b ADL5906ACPZN-R2 Non-RMS Responding RF Detectors Input Range Temperature ISY Part Number Description Input Frequency (MHz) VS (V) Package (mm) ECCN Code Ordering Part Number (dB) Drift (dB) (mA) AD8306 Log/limiting amplifier 5 to 400 100 ±1 3 to 5 16 Die EAR 99 AD8306ACHIPS AD8306 Log/limiting amplifier 5 to 400 100 ±1 3 to 5 16 SOP EAR 99 AD8306ARZ-RL7 AD8310 Log amplifier 0 to 440 95 ±1 3 to 5 8 Die EAR 99 AD8310ACHIPS AD8310 Log amplifier 0 to 440 95 ±1 3 to 5 8 MSOP EAR 99 AD8310ARMZ-REEL7 AD8307 Log amplifier DC to 500 92 ±1 3 to 5 8 SOIC EAR 99 AD8307ARZ-RL7 AD8307 Log amplifier 0 to 500 92 ±1 3 to 5 8 PDIP EAR 99 AD8307ANZ AD8309 Log/limiter amplifier 5 to 500 100 ±1 3 to 5 16 TSSOP EAR 99 AD8309ARUZ-REEL7 AD8313 Log amplifier 100 to 2500 70 ±1.1 3 to 5 1.com 25 Tunable Harmonic Low-Pass Filters Part Frequency Cutoff Freq Stop Band Frequency Tuning Return Loss Package Ordering Part Description Control ECCN Code Number (MHz) Range (MHz) (Rej > 20 dB) Response (ns) (dB) (mm) Number Programmable.b AD8363ACPZ-WP ADL5501 Linear in V/V rms 50 to 6000 30 ±0.5 3.000 62 ±0.5 5 70 5 × 5 LFCSP 5A991.2 WLCSP 5A991.5 5 75 4 × 4 LFCSP EAR 99 HMC1021LP4E HMC1030 Dual linear-in-dB with envelope detector DC to 3900 70 ±0.5 3 70 4 × 4 LFCSP EAR 99 HMC1120LP4E HMC909 Linear-in-dB DC to 5800 40 ±0.b ADL5506ACBZ-R7 AD8318 Log detector/controller 1 to 8000 70 ±0.3 85 3 × 3 LFCSP EAR 99 HMC1094LP3E HMC948 Millimeter wave log detector 1000 to 23.05 to 6000 60 ±0.25 3 to 5 13.b ADL5902ACPZ-WP ADL5904 Linear-in-dB rms with threshold detector DC to 6000 45 ±0.b ADL5502ACBZ-P7 ADL5504 Linear in V/V rms excellent rms accuracy 450 to 6000 30 ±0.5 WLCSP 5A991.b AD8362ARUZ-REEL7 HMC1010 Linear-in-dB DC to 3900 60 ±0.75 0.000 to 86.b AD8361ARTZ-RL7 AD8361 Linear in V/V rms 2500 30 ±0.5 3 to 5 30 4 × 4 LFCSP EAR 99 HMC601LP4E HMC600 Log detector/controller 50 to 4000 70 ±0.000 24 ±0.8 × 0.7 MSOP EAR 99 AD8313ARMZ-REEL7 AD8302 Gain and phase 0 to 2700 60 ±1 3 to 5 19 TSSOP EAR 99 AD8302ARUZ-RL7 HMC713 Log detector/controller 45 to 2700 54 ±1 3 to 5 17 MSOP EAR 99 HMC713MS8E HMC713 Log detector/controller 50 to 8000 54 ±0.000 54 ±0.5 2 × 2 LFCSP 5A991.5 2 × 3 LFCSP EAR 99 AD8314ACPZ-RL7 HMC612 Log detector/controller 0 to 3000 74 ±0.2 × 0.000 60 ±1 5 70 4 × 4 LFCSP 5A991. 6 to 20 5 to 10 59 ±0.5 3.3 150 4 × 4 LFCSP EAR 99 HMC813LC4B HMC913 SDLVA 0.500 500 45 ±0.3 183 4 × 4 LFCSP EAR 99 HMC1013LP4E .5 –62 3.5 5 to 15 67 ±0. Microwave.5 –53 3.5 5 143 5 × 5 LFCSP EAR 99 HMC1030LP5E HMC1021 RMS linear-in-dB with envelope detector 0 to 3900 150 70 ±0.500 45 45 ±0.3 80 4 × 4 LFCSP EAR 99 HMC913LC4B HMC613 SDLVA 0.3 5 3 2 × 2 LFCSP 5A991. 26 RF.5 to 18.3 83 4 × 4 LFCSP EAR 99 HMC613LC4B HMC1013 High range SDLVA 0.5 –54 3.5 –54 3. and Millimeter Wave IC Selection Guide 2016 Envelope and Peak Detectors Envelope Input Part Frequency Temperature Ordering Part Description Bandwidth Range VS (V) ISY (mA) Package (mm) ECCN Code Number (MHz) Drift (dB) Number (MHz) (dB) HMC1030 Dual RMS linear-in-dB with envelope detector 0 to 3900 150 70 ±0.1 5 21.5 3 70 4 × 4 LFCSP EAR 99 HMC1120LP4E ADL5511 RMS linear-in-V/V with envelope detector 0 to 6000 130 47 ±0.5 5 75 4 × 4 LFCSP EAR 99 HMC1021LP4E HMC1120 Linear-in-dB with envelope detector 100 to 3900 150 72 ±0.3 3 3 × 3 LFCSP EAR 99 ADL5904ACPZN-R7 Upcoming ADL6010 Linear-in-V/V 500 to 43.b ADL6010ACPZN-R7 ADL6012 Linear-in-V/V 500 to 43.3 5 26 3 × 2 LFCSP — ADL6012ACPZN-R7 Upcoming SDLVAs Part Frequency Rise/Fall Time Input Range Temperature Threshold Ordering Part Description VS (V) ISY (mA) Package (mm) ECCN Code Number (MHz) (ns) (dB) Drift (dB) (dBm) Number HMC813 SDLVA with limited output 1 to 26 5 to 10 55 ±0.1 3 3 3 × 3 WLCSP 5A991.5 4 × 4 LFCSP EAR 99 ADL5511ACPZ-R7 ADL5502 RMS linear-in-V/V with peak/envelope detector 450 to 6000 10 35 ±0.b ADL5502ACBZ-P7 ADL5910 Threshold detector DC to 6000 — 45 ±0.1 to 20 4 to 18 59 ±0. fail-safe 200 to 2700 0. Diversity. reflective 0 to 3000 0. fail-safe 0 to 6000 0.25 30 38 36 63 0/+3 to +8 8-lead MSOP EAR 99 HMC574AMS8E HMC595A New SPDT. nonreflective 0 to 3500 0. reflective 0 to 3000 0.000 SP3T.com 27 RF Switches SPST Part RF Frequency Insertion Loss Isolation Input P1dB Input P0.2 36 24 20 43 TTL/CMOS 4 × 4 LFCSP EAR 99 HMC253ALC4 HMC253A SP8T 0 to 3500 1.7 32 — 46 74 0/+3 to +8 2 × 2 LFCSP EAR 99 HMC646LP2E HMC784A Upcoming SPDT T/R. nonreflective 100 to 14.000 1.7 40 26 22 47 TTL/CMOS Hermetic SMT EAR 99 HMC244AG16 HMC245A SP3T 0 to 2500 0.3 27 — 21 45 0/+3 to +8 2 × 2 DFN EAR 99 HMC546LP2E HMC197B SPDT. reflective 0 to 3000 0.3 3 × 3 LFCSP EAR 99 HMC1118LP3DE HMC646 SPDT T/R.7 43 30 26 47 TTL/CMOS 3 × 3 LFCSP EAR 99 HMC241ALP3E HMC241A SP4T 0 to 4000 0.2 to 5 SOT-26 EAR 99 HMC550AE HMC1055 SPST.6 50 — 46 68 0/+3. 10 W 100 to 4. and Transfer RF Frequency Insertion Loss Input P1dB Input P0.3 43 22 — 38 0/–5 4 × 4 LFCSP EAR 99 HMC641ALC4 HMC641A SP4T 0 to 20. high isolation 0 to 3000 0.8 62 30 27 54 0/+5 MSOP EAR 99 HMC435AMS8GE HMC544 SPDT Tx/Rx 0 to 4000 0.000 to 30.27 31 30 27 46 0/+3.3 3 × 3 LGA EAR 99 ADRF5020BCCZN ADRF5130 SPDT. nonreflective 100 to 20.000 2. high isolation 0 to 4000 0.5 27 — 33 52 0/+3 to +5 8-lead MSOP.8 60 36 35 60 0/+3. nonreflective 100 to 6.3 to +5 4 × 4 LFCSP EAR 99 HMC8038LP4CE HMC270A New SPDT.000 2. reflective 100 to 50.7 45 35 33 58 0/+3.9 67 34 30 53 0/+5 4 × 4 LFCSP EAR 99 HMC349ALP4CE HMC349A SPDT.5 57 30 27 47 0/–5 4 × 4 LFCSP EAR 99 HMC232ALP4E HMC1118 New SPDT.3 to +5 3 × 3 LFCSP EAR 99 ADRF5130BCPZ HMC986A Upcoming SPDT.4 30 26 22 42 0/–5 4 × 4 LFCSP EAR 99 HMC322ALP4E HMC345A SP4T 0 to 8000 2.000 1 52 28 — 42 0/–5 MSOP EAR 99 HMC270AMS8GE HMC347A Upcoming SPDT.7 30 — 34 52 0/+3 to +5 2 × 2 DFN EAR 99 HMC536LP2E HMC232A SPDT high isolation 0 to 12.6 56 37 — 62 0/+3.3 41 22 — 36 0/–5 4 × 4 LFCSP EAR 99 HMC641ALP4E HMC1084 SP4T 23. Tx/Rx 0 to 3000 0.5 43 22 — 27 0/3 to 5 4 × 4 LFCSP EAR 99 HMC596LP4E HMC427A Transfer 100 to 12. SP8T RF Frequency Insertion Loss Isolation Input P1dB Input P0.8 41 24 — 46 0/+3.25 23 39 37 55 0/+3 to +5 SOT-26 EAR 99 HMC544AE HMC849A SPDT.000 1.4 25 28 27 55 0/+5 MSOP EAR 99 HMC199AMS8E HMC546 SPDT. Tx/Rx 0 to 3000 0.1 dB Control Input Ordering Part Description Input IP3 Package (mm) ECCN Code Number (MHz) (dB) (dB) (dB) (dB) (VDC) Number HMC550A SPST. 5 W.6 30 41 — 62 0/+3 to +8 MSOP EAR 99 HMC784AMS8GE HMC8038 New SPDT.8 41 29 26 48 TTL/CMOS TSSOP EAR 99 HMC241AQS16E HMC244A SP4T 0 to 4000 0. 3 W.000 1.000 0.7 45 23 — 43 0/–5 Die EAR 99 HMC347A HMC347A Upcoming SPDT.4 56 27 — 50 0/+3.9 40 23 — 46 0/–5 3 × 3 LFCSP EAR 99 HMC547ALP3E ADRF5020 SPDT.1 dB Input IP3 Control Input Ordering Part Part Number Description Isolation (dB) Package (mm) ECCN Code (GHz) (dB) (dB) (dB) (dBm) (VDC) Number HMC596 4 × 2 matrix 200 to 3000 6. SP4T.000 0.000 1. high isolation 0 to 4000 0.5 35 23 — 40 0/+5 4 × 4 LFCSP EAR99 HMC321ALP4E Bypass. EAR 99 HMC536MS8GE HMC536 SPDT Tx/Rx 0 to 6000 0. nonreflective 0 to 3500 0.8 40 21 19 40 0/–5 3 × 3 LFCSP EAR 99 HMC344ALP3E HMC322A New SP8T 0 to 8000 2.5 55 30 28 53 0/+5 8-lead MSOP EAR 99 HMC194AMS8E HMC221B SPDT.2 32 21 19 45 0/+5 3 × 3 LFCSP EAR 99 HMC345ALP3E HMC641A SP4T 0 to 20. 44 W. pin MMIC 2 30 — — — –1 Die 5A991. SP6T. nonreflective 100 to 8. nonreflective 0 to 13.5 44 26 24 48 TTL/CMOS TSSOP EAR 99 HMC245AQS16E HMC253A SP8T 0 to 3500 1.9 60 34 32 52 0/+3 to +5 4 × 4 LFCSP EAR 99 HMC849ALP4CE HMC536 SPDT Tx/Rx 0 to 6000 0.7 36 25 21 40 0/–3 Die EAR 99 HMC986A 55.000 2.000 1. 10 W.000 to HMC-SDD112 SPDT.25 30 38 36 64 0/+3 to +10 SOT-26 EAR 99 HMC595AE HMC545A SPDT 0 to 3000 0.6 38 30 — 47 0/5 3 × 3 LFCSP EAR99 HMC427ALP3E  = Simulation models available in ADI’s ADIsimRF and/or ADIsimPLL simulation tools.8 26 — — 47 0/–3 4 × 4 LFCSP EAR 99 HMC1084LC4 HMC7992 New SP4T 100 to 6000 0.7 25 — 32 52 0/2.000 0.100 0.4 30 30 27 55 0/+3 8-lead MSOP EAR 99 HMC190BMS8E HMC574A New SPDT. reflective 700 to 3500 0. nonreflective 0 to 4000 0. nonreflective 100 to 28.1 dB Input Control Input ECCN Ordering Part Part Number Description Package (mm) (MHz) Loss (dB) (dB) (dB) (dB) IP3 (VDC) Code Number HMC199A Dual SPDT switch 0 to 2500 0.5 45 29 27 50 0/+5 8-lead MSOP EAR 99 HMC284AMS8GE HMC349A SPDT. Matrix.3 to +5 QSOP EAR 99 HMC545AE HMC284A SPDT.4 28 30 28 45 0/+3 SOT-26 EAR 99 HMC197BE HMC194A SPDT. 40 W 100 to 2.6 44 23 — 43 0/–5 3 × 3 LFCSP EAR 99 HMC347ALP3E HMC547A Upcoming SPDT.4 29 30 27 55 0/+3 SOT-26 EAR 99 HMC221BE HMC190B SPDT. nonreflective 100 to 30. nonreflective 0 to 6000 0. Visit analog.9 70 34 32 53 0/+5 MSOP EAR 99 HMC349AMS8GE HMC435A SPDT.000 1.1 Input Control Input Ordering Part Part Number Description Package (mm) ECCN Code (MHz) (dB) (dB) (dB) dB (dB) IP3 (VDC) Number HMC252A New SP6T 0 to 3000 0.h HMC-SDD112 86.3 to +5 3 × 3 LFCSP EAR99 HMC7992LP3DE HMC321A SP8T 100 to 8000 2.000 1. fail-safe 200 to 2700 0.6 36 32 28 63 0/3 SOT-26 EAR 99 HMC1055LP2CE SPDT RF Frequency Insertion Isolation Input P1dB Input P0. .4 22 — 41 64 0/+3 to +8 MSOP EAR 99 HMC546MS8GE HMC546 SPDT.2 36 24 20 43 TTL/CMOS QSOP EAR 99 HMC253AQS24E HMC344A New SP4T 0 to 8000 1. 10 W.3 to +5 QSOP EAR 99 HMC252AQS24E HMC241A SP4T 0 to 4000 0. Microwave.b AD8341ACPZ-WP 2400 LFCSP Vector modulator 200 to 4×4 ADL5390 230 –150 — 360 — 13 5 130 5A991.625° 1. and Millimeter Wave IC Selection Guide 2016 Phase Shifters and Vector Modulators Analog Phase Shifters Part Frequency Loss Phase Range @ Phase Range @ 2nd Harmonic @ PIN Input IP3 Control Voltage Package ECCN Ordering Part Description Number (MHz) (dB) Min Frequencyt (°) Max Freq (°) = –10 dBm (dBc) (dBm) Rane (V) (mm) Code Number Analog phase HMC247 500 to 18.8 46 30 5 × 5 LFCSP EAR 99 HMC1133LP5E HMC642A New 6-bit digital phase shifter 9000 to 12.b ADL5390ACPZ-REEL7 (need ext 90°) 2400 LFCSP 700 to 3×3 HMC630 Vector modulator 180 –162 40 360 34 17 8 92 EAR 99 HMC630LP3E 1000 LFCSP 1800 to 3×3 HMC500 Vector modulator 150 –162 40 360 33 16 8 90 EAR 99 HMC500LP3E 2200 LFCSP 1800 to 3×3 HMC631 Vector modulator 160 –160 40 360 35 21 8 93 EAR 99 HMC631LP3E 2700 LFCSP Analog Multipliers Part Dynamic Response Ordering Part description Function Accuracy (dB) VS (V) ISY (mA) Package (mm) ECCN Code Number Range (dB) Time (ns) Number ADL5391 RF/IF multiplier 0 to 2000 60 ±0.5 50 31 6 × 6 LFCSP EAR 99 HMC647ALP6E HMC649A New 6-bit digital phase shifter 3000 to 6000 8 360 6-bit.b AD8340ACPZ-WP 1000 LFCSP 1500 to 4×4 AD8341 Vector modulator 230 –151 — 360 — 8. 5.500 7 360 6-bit.000 4 500 100 –80 32 0 to –10 Die EAR 99 HMC247 shifter Analog time delay/ 8000 to HMC877 — 504 485 –35 — 2.5 35 30 5 × 5 LFCSP EAR 99 HMC642ALC5 Vector Modulators Part Frequency I/Q Bandwidth Noise Floor Gain Range Phase Input IP3 P1dB Package ECCN Description (MHz) (MHz) (dBm/Hz) (dB) VS (V) ISY (mA) (mm) Ordering Part Number Number Range (°) (dBm) (dBm) Code 700 to 4×4 AD8340 Vector modulator 230 –149 — 360 — 11 5 130 5A991.b ADL5391ACPZ-WP .5 5 130 5A991.625° 2.625° 4 40 31 6 × 6 LFCSP EAR 99 HMC649ALP6E HMC1133 New 6-bit digital phase shifter 5000 to 6000 5 360 6-bit.9 3 × 3 SMT EAR 99 HMC877LC3 phase shifter 23. 5. 28 RF. 5. 5.2 60 4.75 to 5.000 Digital Phase Shifters Loss Phase Range Phase Adjust RMS Phase Input IP3 Input P1dB ECCN Ordering Part Part Number Description Frequency (MHz) Package (mm) (dB) Frequency (°) Resolution Error (°) (dBm) (dBm) Code Number HMC647A New 6-bit digital phase shifter 2500 to 3100 4 360 6-bit.7 to 3.5 135 3 × 3 LFCSP 5A991.625° 4. 64-lead AD9520-0 — 3. 64-lead AD9516-2 — 3.3 1 5 5 1 No 1200 LVDS. 64-lead AD9516-3 — 3. <0.4 Serial EAR 99 AD9516-2BCPZ-REEL7 LFCSP LVPECL CMOS. LFCSP LVPECL AD9523-1 — — — — — — — — — 187 fs — — EAR 99 AD9523-1BCPZ-REEL7 CMOS.3 2 12/24 4 0 Yes 800 <0.3 2 14 5 4 Yes 2250 LVDS. 0. 64-lead AD9516-0 — 3. <0.225 Serial EAR 99 AD9511BCPZ-REEL7 LFCSP LVPECL CMOS. <0. 48-lead AD9517-0 — 3. <0. HSTL. 64-lead AD9510 — 3.4 Serial EAR 99 AD9516-4BCPZ-REEL7 LFCSP LVPECL CMOS. <0. 64-lead AD9516-1 — 3. 48-lead AD9524 — 3.4 Serial EAR 99 AD9518-0ABCPZ-RL7 LFCSP AD9518-1 — — — — — — — 2650 — — — — EAR 99 AD9518-1ABCPZ-RL7 AD9518-2 — — — — — — — 2335 — — — — EAR 99 AD9518-2ABCPZ-RL7 AD9518-3 — — — — — — — 2250 — — — — EAR 99 AD9518-3ABCPZ-RL7 AD9518-4 — — — — — — — 1800 — — — — EAR 99 AD9518-4ABCPZ-RL7 Serial LVPECL.4 Serial EAR 99 AD9516-0BCPZ-REEL7 LFCSP LVPECL CMOS.3 2 14 5 4 Yes 2650 LVDS. 64-lead AD9516-5 — 3.3 2 6 6 0 Yes 1000 225 fs Serial EAR 99 AD9524BCPZ-REEL7 LVDS.3 2 6 3 0 Yes 2950 LVPECL <0. 64-lead AD9522-0 — 3. LFCSP LVPECL .3 2 12 4 4 Yes 2950 LVDS. <0.3 1 8 8 2 No 1200 LVDS.4 Serial EAR 99 AD9516-1BCPZ-REEL7 LFCSP LVPECL CMOS. <0. Visit analog.3 2 14 5 4 No 2400 LVDS.08 Serial EAR 99 AD9525BCPZ-REEL7 CM LFCSP CMOS.4 Serial EAR 99 AD9516-3BCPZ-REEL7 LFCSP LVPECL CMOS. 64-lead AD9516-4 — 3.4 Serial EAR 99 AD9516-5BCPZ-REEL7 LFCSP LVPECL LVPECL/ 48-lead AD9525 — 3.3 2 14 5 4 Yes 2335 LVDS.4 Serial EAR 99 AD9517-0ABCPZ-RL7 LFCSP LVPECL AD9517-1 — — — — — — — 2650 — — — — EAR 99 AD9517-1ABCPZ-RL7 AD9517-2 — — — — — — — 2335 — — — — EAR 99 AD9517-2ABCPZ-RL7 AD9517-3 — — — — — — — 2250 — — — — EAR 99 AD9517-3ABCPZ-RL7 AD9517-4 — — — — — — — 1800 — — — — EAR 99 AD9517-4ABCPZ-RL7 48-lead AD9518-0 — 3.3 2 14 5 4 Yes 2950 LVDS.3 3 9 2 0 No 3600 0. 48-lead AD9511 — 3.3 2 14 14 0 Yes 1000 225 fs Serial EAR 99 AD9523BCPZ-REEL7 LVDS. 0. AD9520-3 — — — — — — — — — — — EAR 99 AD9520-3BCPZ-REEL7 2250 AD9520-5 — — — — — — No 2400 — — — — EAR 99 AD9520-5BCPZ-REEL7 Serial LVDS.3 2 12/24 4 0 Yes 2950 <0.com 29 Timing ICs and Clocks Multioutput Clock Generators Max Wideband Number of Number On-Chip Part Supply Number of Number of Output Output Random I/O Package ECCN Description Reference of Delay VCO or Ordering Part Number Number Voltage (V) Outputs Dividers Frequency Logic Jitter (per Interface (mm) Code Inputs Lines DCO (MHz) rms) CMOS.4 with EAR 99 AD9522-0BCPZ-REEL7 CMOS LFCSP EEPROM AD9522-1 — — — — — — — — — — — — EAR 99 AD9522-1BCPZ-REEL7 AD9522-2 — — — — — — — — — — — — EAR 99 AD9522-2BCPZ-REEL7 AD9522-3 — — — — — — — — — — — — EAR 99 AD9522-3BCPZ-REEL7 AD9522-4 — — — — — — — — — — — — EAR 99 AD9522-4BCPZ-REEL7 AD9522-5 — — — — — — No — — — — — EAR 99 AD9522-5BCPZ-REEL7 CMOS.225 Serial EAR 99 AD9510BCPZ-REEL7 LFCSP LVPECL CMOS. HSTL.3 2 14 5 4 Yes 1800 LVDS.4 with EAR 99 AD9520-0BCPZ-REEL7 CMOS LFCSP EEPROM AD9520-1 — — — — — — — 2650 — — — — EAR 99 AD9520-1BCPZ-REEL7 AD9520-2 — — — — — — — 2335 — — — — EAR 99 AD9520-2BCPZ-REEL7 1800. 72-lead AD9523 — 3. 3.8. 32-lead AD9552 1. 3.5 Serial EAR 99 AD9558BCPZ-REEL7 LVDS LFCSP HSTL. 3.8.8.3 8 8 4 1 Yes 450 LVPECL. 72-lead AD9559 1.8. 3. 3. 64-lead AD9547 1.3 1 2 2 0 Yes 810 0.7 Serial EAR 99 AD9547BCPZ-REEL7 LVPE LFCSP CMOS. 32-lead AD9515 3. 16-lead ADCLK907 2.3 2 2 2 0 Yes 900 0. 32-lead AD9513 3.075 — EAR 99 ADCLK946BCPZ-REEL7 LFCSP LVDS.11 — EAR 99 ADCLK914BCPZ-WP CML LFCSP 40-lead ADCLK954 3. 3. 16-lead ADCLK914 3.3 1 3 3 1 No 800 0.06 — EAR 99 ADCLK925BCPZ-WP LFCSP LVPECL HVDS. 0.3 1 1 — — No 6000 PECL.3 4 6 4 0 Yes 1250 0. 0.6 Serial EAR 99 AD9549ABCPZ-REEL7 HSTL LFCSP LVDS.3 3 2 2 0 Yes 810 0. 3.3 1 2 2 1 No 1600 LVDS.15 — EAR 99 ADCLK846BCPZ-REEL7 CMOS LFCSP .5 Serial EAR 99 AD9553BCPZ-REEL7 LVPE LFCSP HSTL.8. 0. 30 RF. 32-lead AD9553 1.5 N/A EAR 99 AD9550BCPZ-REEL7 LV LFCSP LVDS. 64-lead AD9549 1. 3.075 — EAR 99 ADCLK954BCPZ-REEL7 LFCSP 24-lead ADCLK946 3.5 to 3.8.225 Pin select EAR 99 AD9515BCPZ-REEL7 LFCSP LVPECL ECL. and Millimeter Wave IC Selection Guide 2016 Clock Generators and Synchronizers Wideband Number of Number On-Chip Max Output Part Supply Number of Number of Output Random I/O Package ECCN Reference of Delay VCO or Frequency Ordering Part Number Number Voltage (V) Outputs Dividers Logic Jitter (per Interface (mm) Code Inputs Lines DCO (MHz) rms) LVDS.15 — EAR 99 ADCLK854BCPZ-REEL7 CMOS LFCSP LVDS.3 2 2 1 0 Yes 750 0.8.3 2 2 — — No 6000 PECL.5 Serial EAR 99 AD9557BCPZ-REEL7 LVDS LFCSP HSTL.3 Pin select EAR 99 AD9513BCPZ-REEL7 LVDS LFCSP CMOS. 40-lead AD9557 1.3 2 2 2 0 Yes 1250 0. 24-lead ADCLK846 1. 16-lead ADCLK905 2. 0. 88-lead AD9548 1.3 4 4 4 0 Yes 1250 0.5 to 3.7 Serial EAR 99 AD9548BCPZ-REEL7 LFCSP CMOS LVPECL.3 1 2 — — No 6000 PECL.3 2 12 0 0 No 4800 LVPECL 0. Microwave. 3.5 Serial EAR 99 AD9552BCPZ-REEL7 LVPE LFCSP LVDS.06 — EAR 99 ADCLK907BCPZ-WP LFCSP LVPECL ECL.3 2 2 2 1 Yes 450 0.8 1 6 0 0 No 1200 0.5 to 3.8 2 12 0 0 No 1200 0. 16-lead ADCLK925 2.8. 32-lead AD9550 1. 64-lead AD9558 1.3 1 1 0 0 No 7500 0.06 — EAR 99 ADCLK905BCPZ-WP LFCSP LVPECL ECL.3 1 6 0 0 No 4800 LVPECL 0. 0. 48-lead ADCLK854 1.8.5 Serial EAR 99 AD9559BCPZ-REEL7 LVDS LFCSP Clock Buffers and Dividers Wideband Number of Number On-Chip Max Output Part Supply Number of Number of Output Random I/O Package ECCN Reference of Delay VCO or Frequency Ordering Part Number Number Voltage (V) Outputs Dividers Logic Jitter (per Interface (mm) Code Inputs Lines DCO (MHz) rms) CMOS. com/adisimpll ADIsimFrequencyPlanner ADIsimFrequencyPlanner enables fast. and output frequencies.analog. IP3. and more robust. It enables direct modification of parameters.analog.analog. and total power consumption. such as loop bandwidth. The optimum PFD frequency is selected by changing the output divider of the clock generation chip and changing the reference input divider of the PLL/VCO. and optimize designs. ADIsimCLK™ allows users to rapidly develop.com/adisimclk Virtual Eval Virtual Eval™ accurately models the typical performance characteristics of many of ADI’s high speed converters. thereby speeding design times.com/adisimfrequencyplanner ADIsimCLK Developed specifically for ADI’s range of ultralow jitter clock distribution and clock generation products. and many other product specific anomalies. accurate simulation and elimination of integer boundary spurs from Analog Devices PLL synthesizers. faster. divide ratios. Visit www. clock jitter. and shows the performance effects of the changes in real time. ADIsimRF ADIsimRF™ provides calculations for the most important parameters within the RF signal chain. P1dB.analog. It reproduces the errors associated with both static and dynamic features such as ac linearity. evaluate. more accurate. noise figure. Visit www. Visit www. It is the most comprehensive PLL design tool available today.com/adisimrf ADIsimPLL ADIsimPLL™ enables the rapid and reliable evaluation of ADI’s high performance PLL synthesizers. The tool analyzes the user’s output requirements. and then optimizes the PFD frequency for each output step to give the best integer boundary spur performance. Visit beta-tools. phase offsets. These tools reduce design risk and time to market by making the overall RF-to-digital design process simpler. including cascaded gain. It performs simulations of all key nonlinear effects that impact PLL performance and removes iterations from the design process.com/virtualeval .com 31 RF Design Tools ADI supports its broad product portfolio with a comprehensive suite of design tools. Visit analog. Visit www.analog. Analog Devices.A. These rapid prototyping radio platforms drastically reduce design times from months to days by providing verified. share knowledge.21.3113 Fax: 813. EngineerZone EngineerZone is ADI’s online support community for engineers using the company’s products to ask products. Analog Devices.262.0 GHz band.4700 Fax: 49. Ahead of What’s Possible is a trademark of Analog Devices. Inc. All rights reserved. software-defined radio applications. Analog Devices. XX AD-FMCOMMS1-EBZ: 2 × 2 complete agile discrete component high performance RF transceiver covering the 400 MHz to 4.76903.com Norwood. mixed-signal. Box 9106 80807 München South Tower Building 2290 Zuchongzhi Road analog. device drivers. XX AD-FMCOMMS2-EBZ: 2 × 2 complete agile single-chip RF transceiver addressing the entire 56 MHz to 6. Analog Devices. high performance transceiver signal chains for a wide range of compute-intensive.0 GHz band. and RF design challenges. and search for answers to their design questions. Inc. MA 02062-9106 Germany 1-16-1 Kaigan. Analog Devices.157 Japan Shanghai. Inc.O. Tel: 49. Minato-ku. Analog Devices. Trademarks and Worldwide Headquarters Europe Headquarters Japan Headquarters Asia Pacific Headquarters registered trademarks are the property of their respective owners.5402. bill of materials. 60-64 New Pier Takeshiba 5F.8222 .329.2320. schematics. PCB layout files. XX AD-FMCOMMS3-EBZ: 2 × 2 complete agile single-chip RF transceiver configured for wideband tuning across the 56 MHz to 6. KK Analog Devices G13181-0-6/16(D) One Technology Way Otl-Aicher-Str.1064 Fax: 86.Design Resources Circuits from the Lab Reference Designs Circuits from the Lab® reference designs are engineered and tested for quick and easy system integration to help solve today’s analog.com/circuits. Analog Devices. When connected to an FPGA development platform. these AD-FMCOMMSX-EBZ platforms provide the complete physical layer and firmware necessary to quickly begin prototyping a wide variety of wireless communications SDR applications. Inc.8000 Fax: 781. Zhangjiang Hi-Tech Park U. configured for best noise performance at the 2. XX AD-FMCOMMS4-EBZ: 1 × 1 complete agile single-chip RF transceiver configurable for both wideband tuning across the 56 MHz to 6. Inc.89.89. Each reference circuit has been thoroughly documented.21. and many provide test data.461.5402.5643. These circuits represent easy to understand subsystem level building blocks intended for time-saving evaluation and easy integration.0 GHz band.2320.0 GHz band.com. Collaborate with ADI engineers and other designers in this open forum at ez. only) Tel: 813.S. ©2016 Analog Devices.76903.A. design/layout guidelines. Inc.S.analog. U. Find RF circuits at www. Inc. China 201203 (800. and evaluation hardware.0 Tokyo.analog. Software-Defined Radio Rapid Prototyping and Development Platforms Analog Devices offers a variety of complete agile RF transceiver reference designs that operate seamlessly within the Xilinx®-FPGA development ecosystem. production-ready.8200 Tel: 86.7 GHz.7 GHz band. and optimized noise performance at 2. FPGA-based. 105-6891 Pudong New District Tel: 781. Sandhill Plaza P.
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