Informa PMD-A User Manual



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User ManualINFORMA PMD-A Data Acquisition Unit Document ID: 40-08557-01 www.qualitrolcorp.com Legal Information in this document is subject to change without notice. This document is provided to purchasers of ® QUALITROL products for use in the installation, operation and servicing of such products. No other use, nor any reproduction, distribution or the making of any derivatives of this document is authorized, without the express prior written permission of Qualitrol. ® QUALITROL endeavors to ensure the accuracy and quality of its published materials; however, no warranty, expressed ® or implied, is provided. QUALITROL disclaims any responsibility or liability for any direct or indirect damages resulting from the use of the information in this manual or products described in it. Mention of any product or brand does not ® constitute an endorsement by QUALITROL of that product or brand. This document was originally composed in English and was subsequently translated into other languages. The fidelity of subsequent translations cannot be guaranteed. In case of conflict between the English version and another language version, the English version takes precedence. ©2010 QUALITROL Company LLC, an ISO 9001 system certified company. All rights reserved. Information subject to change without notice. All trademarks are properties of their respective companies, as noted herein. 40-08557-01. ® www.qualitrolcorp.com Certificate Note Please contact Qualitrol for detailed test report for Class A certification. www.qualitrolcorp.com Contents Contents 1. About This Manual ................................................................................. 2 1.1. 1.2. 1.3. Symbols Used................................................................................................2 Abbreviations and Acronyms.......................................................................3 Standards and References ...........................................................................4 INFORMA PMD-A License.............................................................................6 Safety Summary ............................................................................................6 Customer Helpline Information ....................................................................7 Environmental Requirements.......................................................................9 Power Supply and Earthing ..........................................................................9 Standard Power Supply..................................................................................... 9 UPS ................................................................................................................ 10 +12 VDC External Power Supply..................................................................... 12 2. Overview of INFORMA PMD-A .............................................................. 6 2.1. 2.2. 2.3. 3. Components and Specifications .......................................................... 9 3.1. 3.2. 3.2.1. 3.2.2. 3.2.3. 3.3. 3.4. 3.5. 3.6. Physical Details ...........................................................................................13 Front Panel Description ..............................................................................14 Rear Panel Description ...............................................................................16 Rear Panel of the INFORMA PMD-A 3U Device ............................................. 16 Rear Panel of the INFORMA PMD-A 6U Device ............................................. 17 MMI CPU Mode............................................................................................... 18 MMI LCD Navigation ....................................................................................... 18 MMI Overview Screen..................................................................................... 20 CPU Overview Screen .................................................................................... 21 CPU Main Menu Screen.................................................................................. 22 LED Functions ................................................................................................ 28 Shutdown Switch............................................................................................. 31 Reset Switch ................................................................................................... 32 PPH/PPM/IRIG-B In/IRIG-B Out...................................................................... 32 Fiber/Differential PPS...................................................................................... 32 Ethernet Connections...................................................................................... 33 Serial Ports ..................................................................................................... 34 USB Functionality............................................................................................ 36 USB Functions with or Without Script and MMI-LCD ....................................... 37 LED Indication................................................................................................. 37 3.5.1. 3.5.2. 3.6.1. 3.6.2. 3.6.3. 3.6.4. 3.6.5. 3.6.6. Standard MMI ...............................................................................................18 3.7. 3.8. Shutdown and Reset ...................................................................................31 Communication Ports .................................................................................32 3.7.1. 3.7.2. 3.8.1. 3.8.2. 3.8.3. 3.8.4. 3.9. USB...............................................................................................................36 3.9.1. 3.9.2. 3.9.3. 3.10. Clock Synchronization ............................................................................38 INFORMA PMD-A as Master ......................................................................... 38 INFORMA PMD-A as Slave ........................................................................... 40 INFORMA PMD-A Time Accuracy.................................................................. 41 PPS Detection, Stability, and Lock Mechanism .............................................. 41 3.10.1. 3.10.2. 3.10.3. 3.10.4. Contents i www.qualitrolcorp.com ..................... 6.............................5......................................2.2................................................................ Swell.... 7.........5...............1. 58 5................2...1..... 6...............................................................2......... 114 7.............................................................. 55 Checking for Correct Operation:....................2................................... 124 During File Upload to INFORMA PMD-A .............2..............122 7...5.......................................................................7............... 4.................................................. 6. 110 FR Sensor Channels......................................... 6.....................................................................................................................................................2................................................................1.................................2..........................2.. and Interruption .................52 Accessories ....1........... 7..................... 7.8....................1......4.55 Setting up the Device ...2.............. 4.... Installation.......................11............2.............................. 112 6...................................80 Connection Diagrams....1..................................................................... 99 EN 50160 reports (standard threshold and user threshold) ..................55 Installation Procedure .............. 129 7.....5.... 6............................ 6........................................................3..........1............11.. 94 Communications ........... 7.................... 98 PQ Configuration.................................................................... 58 5...........................10....... General Maintenance ......... 4...........................2.........2...........43 TX-AFE................3.................... 43 HIA-AFE........................... 6...................... 43 3........................1.............6............................ Serial Ports.............................................................. 106 DSI – Dip/Sag. 4............................................................................................ 56 4................................... 6.....2..........2..............1.. 55 Starting the Device.....................................................................11. 80 6.53 Device Communication Settings........... 3....... Configuration ... 104 RMS Envelope ................................................ 122 Transport.........................2.13............................... 5......2...................................... 7........................... 6.............................................qualitrolcorp..............................2....11....1........................................2.. 122 Routine Maintenance ...4.................... 95 PQ Overview. 6.............9. Software Configuration......................... 102 IEC 61000-3-6/7 Report ..58 PPPD on Serial ................ 123 INFORMA PMD-A Firmware Upgrade Procedure...........1..................... 52 4....3................ 7.............................................3...14.............. 4.....52 INFORMA PMD-A Installation Specifications ...............................................1.. Functionality/Service .................... 4................... Digital Inputs ... 3...........................................................................2....................3..................... 108 FR General ......................3. 114 Points to Remember ... 111 Data Storage......2.....................44 Alarm Output .................. Firmware Upgrade .. 99 Continuous Recording......1.........................2................... Hardware Configuration................2............... 103 Histograms....................................2.............4...................Contents 3...............................................................................1..................2............................................. Analog Inputs .............................................90 7............................ 121 Storage ....................................... Calibration......................................................................3............ 6........... 6............................... 3.......2............................................................................ 7......1..................124 7...................................... Contents ii www.. 122 UPS Maintenance ............................................................ 6... 6....................5......................................................114 Calibration Procedure...2....................... 6.....................com .............. 80 Configuration Overview .............................13.......................................................................................46 Unpacking Procedure ................................. 6............................12................................................................................... 107 Rapid Voltage Change ..................1..................................................................12................. 4........................................................ Maintenance............................................................. ..........................2......................202 CPU MMI Modes .................................................................. 7..................................................................................................................................................... And Interruptions (DSI).................................... 7...................................194 Appendix E – Battery Replacement Procedure...............................134 7............................ Swells...................................... 7.............................................................................................................................. 166 Delta Topology ..................................................................................144 Appendix B – INFORMA PMD-A Functions .201 LED Functions on the DSP Board...................... 160 PQ Sensor Types ...3................ 150 Magnitude of Supply Voltage .........................4..................................... During CPU File Upload to INFORMA PMD-A. 161 Handling Time Changes ................................... 158 Power Quality Sensors ........................................qualitrolcorp...... 151 Flicker.........3......................................com ...................... 154 Inter-Harmonics ....................... 157 Rapid Voltage Change (RVC).........................4.........................163 Forward Time Shift ............... 153 Harmonics ......................................... 176 Types of Fault Recording ................................. 130 System and Diagnostic Information.. 150 Power Quality Parameters ... Troubleshooting .......................................... 152 Voltage Unbalance .................................................................................................................... Appendix A – Technical Specifications .......198 Appendix F – On-Board LED Functionalities ............................................................................................................................4..............................................................................................................................................4........................................................................ 138 7............ 163 Backward Time Shift..........................................232 Contents iii www............................. 200 Appendix F – On-Board LED Functionalities .........................................................3.....................................................................................................................Contents 7..............................4........ 232 TX-AFE Linearity Report. 155 Mains Signaling Voltage .....................................160 PQ Sensor Functionality ....................................................................................................................................................... 7............................................................. 206 Appendix H – Linearity Report of TX-AFE and HIA-AFE .........203 Appendix G – On-Board Jumper Settings ....................................................................................................................................... 141 EMC Standards.......................................................................... 198 Battery Replacement Procedure for an INFORMA PMD-A 3U Device....................................................181 Appendix C – Recording Data Rates and Memory Consumption Rates 188 Appendix D – License Updates .......................3.................................................................................................................................................................................................................................................................................................................................................. 156 Dips..180 DFR....... 131 Power Healthy LED on the Front Panel is Off.................... 193 Modifying an Existing License..............................................................4...................................1...................................... 163 PQ Calculated Quantities .......................................................................................... 136 Communication LED is Off ..................150 Power Line Frequency (10-second) ................ 137 Clock Sync LED is Off .. 180 DFR Sensor Types ... 138 Test Points to Verify the Supply Voltages......................................................................................................................................................................................4.........................................................................166 STAR Topology ........................................................................................................................................ 201 LED Functions on the Motherboard .............................................. ................ 240 Contents iv www...com ......................................................................Contents References..........qualitrolcorp.... About This Manual Chapter 1 About This Manual 1 www.com .qualitrolcorp. Risk of danger ~ Alternating current Direct Current Protective Earth USB Communication GPS Antenna 2 www. About This Manual The manual assumes that the user has minimum operational knowledge of this type of monitoring equipment.qualitrolcorp.About This Manual 1. Symbols Used The following table lists the symbols used on the device and in the manual. Risk of electrical shock Potentially dangerous situation A Caution identifies conditions and actions that may damage the test instrument. Operate the device. Symbol Description A Warning identifies conditions and actions that pose hazard(s) to the user. This manual provides instructions to help the user to: • • • • Install the device and connect its accessories. Configure the device.com . Maintain and troubleshoot the device. 1.1. Interruption Digital Signal Processing Data Terminal Equipment Electro Magnetic Compatibility Field Programmable Gate Array Fault Recording Global Positioning System High Impedance Anti-aliasing.About This Manual 1. Swell. and Average (For PQ parameters) Man Machine Interface Not Applicable Network Time Protocol Performance Measuring and Monitoring Device Point-to-Point Protocol Daemon Pulse Per Second Power Quality Relative Humidity Ring Indicator Restriction of Hazardous Substances Real Time Clock Request To Send Rapid Voltage Change Sequence of Events Recorder Single-Pole Single Throw Total Harmonic Distortion 3 www. INFORMA PMD-A AC AWG BCD CF CPU/Motherboard CTS DC DCE DFE DFR DSI DSP DTE EMC FPGA FR GPS HIA-AFE iQ+ LCD LED MMA MMI NA NTP PMD PPPD PPS PQ RH RI RoHS RTC RTS RVC SER SPST THD Data Acquisition Unit Name Alternating Current American Wire Gauge Binary Coded Decimal Control Function Processor Card Clear To Send Direct Current Data Communication Equipment Digital Front End Digital Fault Recorder Dip/Sag.com .Analog Front End Master Station Software Liquid Crystal Display Light Emitting Diode Minimum. Abbreviations and Acronyms The following table lists the various abbreviations and acronyms used in this manual.2. Maximum.qualitrolcorp. Analog Front End Uninterrupted Power Supply R. and EHV power systems Electromagnetic compatibility (EMC) – Part 3-7: Limits – Assessment of emission limits while connecting “fluctuating installations” to MV. Waste Electrical and Electronic Equipment 1.Section 15: Flicker meter .com .S.3. HV. This Standard issued by the CENELEC specifies voltage quality requirements for distribution networks Electromagnetic compatibility (EMC) – Part 3-6: Limits – Assessment of emission limits while connecting “distorting installations” to MV.About This Manual INFORMA PMD-A TOD TX-AFE UPS Urms (1/2) WEEE Data Acquisition Unit Name Time Of the Day Transformer . induced by radio frequency fields” “Electromagnetic Compatibility (EMC) – Part 4-7: Testing and Measurement Techniques – General guide on harmonics and inter-harmonics measurements and instrumentation for power supply systems and equipment connected thereto” “Electromagnetic compatibility (EMC) .qualitrolcorp.M.Functional and design specifications” “Electromagnetic Compatibility (EMC) – Part 4-30: Testing and Measurement Techniques – Power quality measurement methods” IEC 61000-3-6 IEC 61000-3-7 IEC 61000-4-6 IEC 61000-4-7 IEC 61000-4-15 IEC 61000-4-30 4 www. and EHV power systems “Electromagnetic Compatibility (EMC) – Part 4-6: Testing and Measurement Techniques – Immunity to conducted disturbances. HV. voltage refreshed each half-cycle. Standards and References The following table lists the different standards followed in this document.Part 4: Testing and measurement techniques . Standards EN 50160 References “Voltage Characteristics of electricity supplied by public distribution system”. qualitrolcorp.com .Overview Chapter 2 Overview 5 www. Additional licenses may be purchased to activate the required functionalities. 2.2. provides a powerful platform for the monitoring. when coupled with its complementary master station software iQ+. Safety Summary Warnings and Cautions are presented throughout the manual to alert the user to potentially hazardous situations.Overview 2. INFORMA PMD-A License The INFORMA PMD-A device is a licensed product.com . The performance of the equipment may be adversely affected if used in extreme conditions. and maintenance of the equipment. Overview of INFORMA PMD-A INFORMA PMD-A is an advanced multifunctional data acquisition device designed to perform the following: • • • Monitor Power Quality parameters (for recording and reports) Support Fault Recording functions Provide Fast Transient Recording This product. The equipment must be operated within its stated parameters. Read the User Manual before using the equipment. 2.1. Consequently. some features of this multifunctional device may not be available as described in this manual. Note Refer to Appendix D for details about any INFORMA PMD-A license updates.qualitrolcorp. and reporting of data and information about power system networks and substations. operation. analyzing. Remember the following: • Only qualified personnel must perform installation. Note Refer to Appendix B for details about INFORMA PMD-A functions. • • 6 www. Northern Ireland Telephone: +44 28 9022 5200 Fax: +44 28 9022 5225 Qualitrol Instruments 8 Av.com Technical Support contact: From Austria: +43 (0)1 79 576 203 From Belgium: +32 (0)10 235 237 From France: 0825 540 050 From Germany: +49(0)69 50 07 13 46 From Switzerland: +41 (0)44 80 09 931 From UK: +44 28 9022 5200 From other countries: +44 28 9022 5200 Technical support E-mail: csc@qualitrolcorp. Newton B-1300 Wavre Belgium Telephone: +32 10 22 67 16 Fax: +32 10 22 69 98 Technical support: +32 10 235 237 Qualitrol Company LLC 1385 Fairport Road. NY 14450 USA Telephone: +1 585 586 1515 Web site: www.com . Improper use shall void all warranty.3.Overview • Do not use the equipment for any purpose other than the measurement of voltages and currents that are within the measuring ranges and categories. • • • • • 2. BT12 6TA. Ensure that the power cables and connecting cables are not damaged and are in proper working condition. Fairport. Belfast. Customer Helpline Information For any customer or technical support. At least 10 cm free space shall be available on either side of the enclosure for air flow/ventilation. Use only those accessories that are supplied with the equipment.qualitrolcorp. contact: Qualitrol Corporation-Instrumentation Division 15 Wildflower Way.qualitrolcorp. Install the equipment in such a manner that its power cable is accessible at all times and can easily be disconnected.com 7 www. Refer the equipment to the authorized service personnel if any damage or defect is found. qualitrolcorp.com .Components and Specifications Chapter 3 Components and Specifications 8 www. com .2. Standard Power Supply INFORMA PMD-A supports three types of power supply modules. Requirements -5°C to +50°C (irrespective of the UPS module) -30°C to +70°C 0 to 95% RH non-condensing 3.1.300 VDC).1. Power Supply and Earthing This section provides the power requirements for the device.Components and Specifications 3. Parameters Operating Temperature Storage Temperature Humidity Note: • Conforms to RoHS and WEEE.qualitrolcorp. 3. The specifications are as follows: Power Supply Input Range Type 1: 90 – 264 VAC (88 . 9 www. Environmental Requirements The following table lists the environmental requirements for the device. 3. • Cold start is not possible below 0°C. 47 –63 Hz Type 2: 36 – 72 VDC Type 3: 18 – 36 VDC Maximum Load 40 VA for 3U INFORMA PMD-A device and 80 VA for 6U INFORMA PMD-A device Typical Load 25 VA for 3U INFORMA PMD-A device and 50 VA for 6U INFORMA PMD-A device Note Wire gauge to be used at TB1: 12–22 AWG.2. Components and Specifications This chapter describes the different components of the INFORMA PMD-A device and its specifications. This earth stud should be connected to the system substation earth.com . An ON/OFF switch is provided on the rear panel to control the power to the device.Components and Specifications 6U 3U Figure 3.2. In normal operating conditions. The battery must be charged for 12 hours to provide a minimum backup of 15 minutes. UPS The UPS card provides power supply to the INFORMA PMD-A device for a minimum of 15 minutes. 3.qualitrolcorp. the user can expect battery backup for 30 minutes with a new and fully charged battery.1 – Standard Power Supply Terminal Connect the power cord to the power socket on the rear panel of the device (through screw terminal blocks). In a 6U configuration. The labels L and N are for line and neutral of the AC supply (+ and – indicate the polarity of the DC supply).2. Note Refer to Appendix E for details about the battery replacement procedure. 10 www. the battery is external and interfaced to the INFORMA PMD-A device through a connector (Reference designator is “UPS I/P”) on the rear panel. It is very important to connect an earth to the main earth stud. then the shelf life of the battery is reduced. Maximum 90% RH +15°C ~ +35°C. Details Manufacturer Part Number/Reference Battery Specifications Rated Capacity (minimum) 3. Maximum 90% RH Storage Environment Short Period less than 1 month Long Period more than 3 months Recommended storage -20°C ~ +45°C. The shelf life of the battery is 6 months when stored at 25°C.9 Ah with 0. <= 80% RH 0°C to 45°C.Components and Specifications The following table describes the details of the two batteries that are used in the INFORMA PMD-A device.5 C Charging and 0. then it has to be discharged • completely and recharged to 50% power. Maximum 90% RH Discharging -20°C ~ +60°C. Maximum 90% RH -10°C ~ +30°C. If the storage temperature exceeds 25°C over a 6-month period.qualitrolcorp.5 C Discharging 4. Maximum 85% RH Notes • • If the battery is not used for more than 3 months. <21°C -20°C ~ +60°C<= 80% RH -10°C to 50°C. NH2054HD24 Operating Environment Charging 0°C – +45°C. there can be a serious effect on the battery life. <= 80% RH 11 www. Inc.8 Ah 4S2P5SWB-SB Rajamane Telectric Private Limited 4S2P5SWB-SB-002 NH2054 INSPIRED ENERGY.com . If the batteries are not used for more than 6 months. +12 VDC External Power Supply TB2 provides an auxiliary DC output for external devices.qualitrolcorp. The Qualitrol reference number for this battery is 3601-0087. 3. Note Refer to Section 7.External Power Supply The +12 VDC External Power Supply has the following specifications: • Output voltage: +12 V@750 mA Maximum Note Wire gauge to be used at TB2: 12-24 AWG. 12 www.com .5 for further information about UPS maintenance.2. 3U 6U Figure 3.3.2.2 .Components and Specifications The Rajamane battery is the default battery. Devices Physical Dimensions Net Weight (Approx. 265.Components and Specifications 3. 26 kg with two external batteries. 15. 362.3.2 mm Device deep • • 23 kg without any external battery 24 kg with two external batteries • • 13 www.5 PMD-A 3U mm high. Includes packaging and accessories if any. Includes packaging and accessories if any. Physical Details The following table provides the mechanical dimensions for the INFORMA PMD-A 3U and INFORMA PMD-A 6U devices.) • 15 kg without battery.5 kg with battery Gross Weight (Approx. INFORMA 487 mm wide. 25 kg without battery. Includes packaging and accessories if any.com . Includes packaging and accessories if any.qualitrolcorp. 362. 132.2 mm Device deep • INFORMA 487 mm wide.8 PMD-A 6U mm high.5 kg with battery.) • • 15 kg without battery 15. Used to display information related to the device.4.3 – INFORMA PMD-A 3U Front View 14 www. Figure 3. Label Name 1 2 3 LED Indicators LCD Display Keypad Description Status is configured to indicate different alarm conditions.Components and Specifications 3. A picture of the front panel of INFORMA PMD-A 3U device is shown below. Front Panel Description This section provides a description of the different components on the front panel of the INFORMA PMD-A 3U and INFORMA PMD-A 6U devices. The following table lists the labels for the front panel of the INFORMA PMD-A 3U and INFORMA PMD-A 6U devices. Used to navigate.qualitrolcorp.com . Components and Specifications A picture of the front panel of the INFORMA PMD-A 6U device is shown below.4 – INFORMA PMD-A 6U Front View 15 www.qualitrolcorp.com . Figure 3. 5.5 – INFORMA PMD-A 3U Rear View The following table lists the different components on the rear panel of the INFORMA PMD-A 3U device.1.com . 750 mA) Alarm output NA NA Differential PPS Out (Master mode)/In (Slave mode) RS485 Communication 32 Digital inputs Connecting 9 analog channels IRIG-B INPUT (TTL/AM)/PPM IN/PPH IN IRIG-B OUTPUT (TTL/AM) RS232 Communication Wired Ethernet Communication Fiber Ethernet Communication GPS antenna PPS Out/In Power ON/OFF the device Earthing connection 16 www. TB5 TB6. Rear Panel Description This section describes the different components on the rear panel of the INFORMA PMD-A 3U and INFORMA PMD-A 6U devices. 3. TB7 TB8 TB9 TB10 TB11 Description 3 pin AC/DC power input connector DC power output connector (+12 V.Components and Specifications 3.qualitrolcorp.5. Rear Panel of the INFORMA PMD-A 3U Device A picture of the rear panel of INFORMA PMD-A 3U device is shown below. Figure 3. Label 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 BNC Connector -Out DB9 Connector RJ45 Connector Fiber Connector BNC Connector Fiber Connector Tx/Rx On/Off Switch Earth Post Name AC Power Socket DC Power Socket Phoenix Connector 2*4 Pin connector 2*10 Pin connector Phoenix Connector 1*5 Pin Connector 4*10 Pin Connector 18 Pin Terminal Block BNC Connector -In Labels on the Rear Panel TB1 TB2 TB3 TB4. Rear Panel of the INFORMA PMD-A 6U Device A picture of the rear panel of INFORMA PMD-A 6U device is shown below.6 – INFORMA PMD-A 6U Rear View The following table lists the different components on the rear panel of the INFORMA PMD-A 6U device.qualitrolcorp.2. 750 mA) Alarm output NA NA Differential PPS Out (Master mode)/In (Slave mode) RS485 Communication 128 Digital inputs Connecting 36 analog channels IRIG-B INPUT (TTL/AM)/PPM IN/PPH IN IRIG-B OUTPUT (TTL/AM) RS232 Communication Wired Ethernet Communication Fiber Ethernet Communication GPS antenna PPS Out/In 11 12 13 14 15 17 www. TB5 TB6.Components and Specifications 3. Figure 3.com .5. TB7 T B8 TB9 TB10 TB11 Description 3 pin AC/DC power input connector DC power output connector (+12 V. Label 1 2 3 4 5 6 7 8 9 10 Name AC Power Socket DC Power Socket Phoenix Connector 4*4 Pin connector 4*10 Pin connector Phoenix Connector 1*5 Pin Connector 8*10 Pin Connector 4*18 Pin Terminal Block BNC Connector -In BNC Connector -Out DB9 Connector RJ45 Connector Fiber Connector BNC Connector Fiber Connector Tx/Rx Labels on the Rear Panel TB1 TB2 TB3 TB4. 6. The ENTER key is used to enter into the screen.com . • • • • • • • • The front panel keypad consists of 7 keys.6. Standard MMI Standard MMI includes the LCD. and the LEDs. The right arrow key is used to navigate to CPU 2. The up arrow key is used to scroll up in the screen. The ESC key is used to navigate to previous screen.qualitrolcorp.7 – Standard MMI 18 www. 3. The left arrow key is used to navigate to CPU 1. MMI CPU Mode MMI operates in the following modes: • • • 2 CPU mode (INFORMA PMD-A 6U device) 1 CPU mode with LCD (INFORMA PMD-A 3U device/INFORMA PMD-A 6U device) 1 CPU mode without LCD (INFORMA PMD-A 3U device) Refer to Appendix F for MMI CPU modes. A keypad is provided to navigate between the screens. The RESET key is reserved for future use.Components and Specifications 16 17 On/Off Switch Earth Post Power ON/OFF the device Earthing connection 3. keypad. MMI LCD Navigation The LCD display format is 240X80 dots.1. The down arrow key is used to scroll down in the screen. Figure 3.2. 3.6. MMI Overview CPU Overview Main Menu System Information Alarms/ Logs Communic ations Data Download Clock Synchroniz ation Channel Check Relay Test Manual Trigger Display Settings Firmware Information System Diagnostic Log RS232-1 Log Clock synch Status Digital Inputs FR Manual trigger Memory Information Reboot History RS232-2 FR Analog Inputs FL Manual trigger Diagnostic Report Time Synch Status Log RS232-3 CSS FL Lines TR Manual trigger Programmi ng Status Event Status Log RS485 PQ Continuous Line Module Status DTF result Ethernet 1 PQ Othres FL Log Ethernet 2 RMS Env DFR Log FL TR Log TR Figure 3. Using the left or right arrow key. the user can view detailed information of the device.com . The Overview screen on the LCD reflects the status of the device.8 – MMI LCD Navigation Flowchart 19 www.qualitrolcorp. The following flowchart illustrates the MMI LCD navigation.Components and Specifications MMI communicates with CPU to obtain the status and other information. Figure 3. Clock Synchronization icon. MMI Overview Screen The default screen displayed on the LCD interface is the Overview screen of the device.6.com . 20 www. the 1 CPU scenario is discussed. Figure 3. For the purpose of this document.10 – MMI Overview Screen for One CPU The following table lists the icons displayed in the MMI Overview screen and their descriptions.qualitrolcorp. Indicates that the status is healthy.3. Communication icon. and for details about CPU 2. It shows the CPU's overview status.9 – MMI Overview Screen The following screen is displayed if there is only one CPU. the user must press the left arrow key. Icons Description Power Health icon.Components and Specifications 3. the user must press the right arrow key. The following screen is displayed if there are two CPUs. To display details about CPU 1. Any number next to this icon represents the number of times the clock has been unlocked since the device was switched on.6.6. device name. time synchronization information. Note If there are no status icons. If there is no number next to this icon. Indicates that the clock is locked.qualitrolcorp. and network information (IP address of the device. Refer to Section 3. Figure 3. Indicates that the clock is unlocked. It also displays the functionality and menus based on the license purchased. This screen displays the system (CPU) date and time. it means that the clock has never been locked. CPU Overview Screen Pressing the left arrow key displays the information of CPU 1. station name. 3.11).Components and Specifications Icons Description Indicates that the status is unhealthy. Any number next to this icon represents the number of times the clock has been locked since the device was switched on (refer to Figure 3.6 for details.11 – CPU Overview Screen 21 www. Indicates that the device is running with an internal UPS.com . Indicates that the Power Health status is bad. Indicates that an alarm condition has occurred. it means that the status is unknown. and default gateway). .4. 5. PIC.Components and Specifications 3.12 – CPU Main Menu Screen System information: This menu provides information about the following: Figure 3. • 22 www. Pressing Enter on each option displays its details. Figure 3. The user can use the up and down arrow keys to scroll through the options. The Main menu displays the following options.com . and ADC. Programming Status – Displays the various peripheral programming statuses. FPGA. Diagnostic Report – Displays the status of Power Health.13 – System Information • • • Firmware Information – Displays the CPU and peripheral’s firmware information.qualitrolcorp. SD RAM. CPU Main Menu Screen If the enter key is pressed on the CPU Overview screen. Memory Information – Displays the CPU RAM and file system information.6. the CPU Main Menu screen is displayed. DTF Results . Reboot History – Displays the last five reboot conditions.com . Event Status Log – Displays information about the FR and PQ trigger events. Time Sync Status Log – Displays the status log for time synchronization.Diag. FL Log – Is displayed if this feature/license is available. • • • Figure 3.Displays the DTF result with corresponding configured unit (Miles/kilometer).15 – Transient Log 23 www.qualitrolcorp. This menu displays the following: Figure 3.Components and Specifications Alarms/Logs – This menu provides the options for viewing various logs. Log – Displays the system diagnostic log.14 – Alarms/Logs • • • • • Sys. DFR Log – Displays the DFR logs. Transient Log – Is displayed if this feature/license is available. It displays the serial communication and Ethernet communication status.Components and Specifications Communication – This menu provides the communication status.16 – Communication • • • • • • RS232-1 RS232-2 RS232-3 RS485 Ethernet-1 Ethernet-2 24 www. This menu displays the following options: Figure 3.qualitrolcorp.com . PQ reports. PQ Continuous record. USB should be connected to the device in order to download logs and records.qualitrolcorp. The number of days of data required to be downloaded is specified using the up and down arrow keys. DFR record. Figure 3. This menu will display the submenus to download the log. CSS record.Components and Specifications Data Download – This menu provides the option for user to download the data from the device to the USB. MMI LCD will display the downloading status.17 – Data Download 25 www. RMS record and FL/TR record respectively.com . and additional information based on source. This menu displays the following options: Figure 3.qualitrolcorp. Source of clock.Components and Specifications Clock Synchronization: This menu provides the CPU clock source information.18 – Clock Synchronization Manual Trigger: This menu provides options for the user to give a manual trigger.com .19 – Manual Trigger FR Manual Trigger – Gives a manual trigger to the FR engine. 26 www. Figure 3. This menu displays the Time mode of CPU. status of synchronization. This menu displays the following options: Figure 3. Figure 3. as shown in the following figure. The relay is selected using the up and down arrow key. Digital Inputs . The analog channel is selected using the up and down arrow keys.Displays the channel state of all 64 digital channels. as shown in the following figure.Components and Specifications Channel Check: This menu provides the user with the option to test the analog. FL Lines – Displays the FL channel status.22 – Display Settings 27 www. digital channels and FL channels. This screen displays the selected analog channel status.com .qualitrolcorp. • • Relay Test: This menu provides the user with the option to test the relay.20 – Channel Check • Analog Inputs . Figure 3.21 – Relay Test Display Settings: This menu provides the user with the option to change the LCD and backlight settings.Navigates the screen to the Analog Inputs Check screen. If a communication failure occurs during the upgrade. If the firmware is upgrading. and amber) LEDs on the INFORMA PMD-A front panel. Once the firmware is upgraded successfully. then the right side LEDs scroll from top to bottom and the left side LEDs scroll from bottom to top in green.6. No. LED Functions Normal Run Time Mode There are nine tri-colored (green. LED 1 Feature Healthy Purpose To check the health condition of the device LED Color Green LED Status ON-INFORMA PMD-A is Healthy.Components and Specifications 3.6. all nine LEDs flash in red.23 – LED Indicators Sl. all nine LEDs keep flashing (anti-clock wise direction) in green for a maximum of 3 minutes. only the Health LEDs flash in green and the others are in an OFF state. Problem in hardware module No Power Ethernet/RS232/RS485 communication is in Progress Communication error (Error in any one of the Ethernet/RS232/RS485 communication) No communication Red Off LED 2 Comms Communication Green Red Off 28 www. When the device is on. Flashing.com .INFORMA PMD-A is initializing. Figure 3.qualitrolcorp. red. This indicates that the LCD interface is booting up. Components and Specifications Sl. No. LED 3 Feature Clock Sync Purpose To check the clock synchronization LED Color Green Red LED 4 Battery Off To check Green whether the device is running on raw power or battery Red back-up Off LED Status INFORMA PMD-A is locked (The internal clock is synchronized with the external clock). INFORMA PMD-A is unlocked. Nil INFORMA PMD-A is running on raw power and device is fitted with UPS card (Battery backup is available). INFORMA PMD-A is running on battery backup. INFORMA PMD-A is running on raw power and device is not fitted with UPS card (Battery backup is not available in the device.) DFR/TR/FL trigger in progress Nil No trigger Nil Indicates 90% Memory full or phase error in any of the channels selected by user, or user-configured event. No problem occurred. LED 5 Trigger To check DFR/TR triggering status. User Configurable: Default events are 90% Memory full or phase error in any of the channels. Or User can configure for any event. User Configurable: Default event is Channel Saturation event Or User can configure for any event. Green Red Off Green Red LED 6 Alarm Off LED 7 Status 1 Green On/Flashing – User-configured event occurred. On/Flashing -- Channel Saturation/user-configured event occurred. No Channel Saturation/Userconfigured event Red Off 29 www.qualitrolcorp.com Components and Specifications Sl. No. LED 8 Feature Status 2 Purpose User Configurable: Default event is Maintenance Mode start Or User can configure for any event. User configurable: Default state is USB communication Or User can configure for any event. LED Color Green Red LED Status On/Flashing – User-configured event occurred. On/Flashing – Maintenance Mode started/user-configured event occurred. INFORMA PMD-A is in Normal Mode/No user-configured event. Off LED 9 Status 3 Green Flashing – Firmware updating/ Configuration download/ Configuration updating/Data download is through USB/userconfigured event occurred. On – If the USB communication process is completed/Userconfigured event occurred. USB communication error/Userconfigured event occurred. No USB communication/No userconfigured event. Red Off Channel Check Mode in 1 CPU Mode Without LCD When the Enter key in the MMI keypad is pressed, or when the shutdown switch (refer to Section 3.7.1 for shutdown information) is pressed for 3 seconds or less (if the shutdown switch is pressed for more than 3 seconds, the device will shut down), the front panel LEDs will display the status of the analog channels. The nine LEDs on the front panel display the status of the first nine analog channels as shown in the following table (9 LEDs and 9 analog channels are mapped one-to-one; LED 1 indicates the status of Channel 1, LED 2 indicates the status of Channel 2, and so on). LED Status Off Green Channel State Channel is not measuring. Channel is measuring. Description Amplitude is less than 10% of the nominal voltage. Amplitude is in between 10% and 120% of the nominal voltage and the phase sequence is proper. Phase sequence is not proper. Amplitude is greater than 120% of the nominal voltage. Amber Red Phase error in the Channel Channel is saturated. 30 www.qualitrolcorp.com Components and Specifications The Channel Check mode is terminated and moved to the default state when: • • The Enter key is pressed, or After 5 minutes (fixed length timeout). Channel Check Mode in 1 CPU Mode with LCD and 2 CPU Modes The user can select the Channel Check mode menu option by using the LCD and the keypad (refer to Figure 3.20). In this mode, the user can observe the sub menu options as: • • Analog Inputs Digital Inputs The Analog Inputs Check screen is editable for changing the channel numbers using the up and down arrow keys. The screen displays the RMS magnitude and transformer ratio of the selected channel. Alarm LEDs represent the phase error status of the selected channel. For example, suppose Channel 1 is configured as phase A, Channel 2 is configured as phase B, and Channel 3 is configured as phase C. If the user selects Channel 1, and if any phase error occurs, then alarm LED will glow Red. For details, refer to the LED 6 indication provided in the table in Section 3.6.6. For standalone, the Phase error indication is not applicable. The Digital inputs screen displays the state of the 64 digital channels. The user has to scroll using the up and down arrow keys to check the state of all the 64 channels. 3.7. Shutdown and Reset Pressing the reset or the shutdown switch when the device is running may lead to the loss of data that is under acquisition. However, the data that is already available in the device will not be affected. 3.7.1. Shutdown Switch The INFORMA PMD-A device can be shut down gracefully by pressing the shutdown switch for more than 3 seconds. After the device shuts down, the Healthy LED (on the front panel of the device) stops glowing, indicating a successful shutdown. Now, the user can switch off the power supply to the device. Switching off the device without a graceful shutdown might corrupt the memory device. If the user releases the shutdown switch before 3 seconds, the device enters into the Channel check mode (for details about the Channel check mode, refer to Section 3.6.6). The shutdown switch is available on the motherboard/CPU. Refer to section 7.4.4. 31 www.qualitrolcorp.com Components and Specifications 3.7.2. Reset Switch When the device is functioning abnormally, the user can reset the device by pressing the reset switch, which is available on the motherboard. When the user presses this switch, the CPU and all other peripherals restart immediately. The reset switch is available on the motherboard/CPU. Refer to section 7.4.4. 3.8. Communication Ports 3.8.1. PPH/PPM/IRIG-B In/IRIG-B Out 6U 3U Figure 3.23 – INFORMA PMD-A PPH/PPM Note A default 75 Ω IRIG-B termination is provided by the INFORMA PMD-A device. If a 120 Ω termination is required, then the user must use an external BNC adapter. A suitable 75 to 120 Ohm terminator similar to L-Com part number ACC 8060 is required. 3.8.2. Fiber/Differential PPS Figure 3.24 – INFORMA PMD-A Fiber/Differential PPS The master INFORMA PMD-A sends PPS signals to the slave INFORMA PMD-A by using either a differential PPS (TB8) or a fiber PPS. 32 www.qualitrolcorp.com The white connector is used to transmit and the grey connector is used to receive. Ethernet port 2 uses a default IP address until the user changes the default IP address (192.qualitrolcorp. The user can find the ST-fiber connectors on the rear panel of the device. referred to as Ethernet port 1 and Ethernet port 2. The 100 Base-FX connection is done through two ST fiber connectors and is used for longer-range communication over fiber optic cables.5/125 micron multi-mode fiber cable. The default IP address used by Ethernet port 1 is 192.Components and Specifications Note Wire Gauge to be used at TB8 (PPS Out/In): 14–26 AWG.0.8.com . in which the user can assign a range of IP addresses that can be allocated to other devices connected to the network. 3. 6U • • 3U Figure 3. a 10/100 Base-T that is operated at a speed of 10/100 Mbit/second. INFORMA PMD-A has two RJ45 Ethernet ports.1.168. one each on the front and the rear panel.25 – INFORMA PMD-A PPH/PPM INFORMA PMD-A can be assigned an IP address statically or dynamically (by setting “DHCP status” as “DHCP Client”). Ethernet Connections INFORMA PMD-A supports two types of Ethernet connections.11. and a 100 Base-FX that is operated at a speed of 100 Mbit/second. 33 www.11) to any other IP address. The connectors are suitable for 62. INFORMA PMD-A has the capability to act as a DHCP server (by setting “DHCP status” as “DHCP Server”).168.3. • The 10/100 Base-T connection is done through the RJ45 socket and is used for shortrange communication over standard twisted pair cables. In addition. The wavelength used is 1300 nm. respectively. Subnet Mask.8.Components and Specifications For network related configuration. allowing a trained technician to analyze or debug problems. and the RS232-2. RS232-3. and RS485 are provided in the following table. 3. forwarding IP packets to another network device. The SSH connection provides authentication and encryption. IP address. and RS485 are accessible from the rear panel. The RS232-1 port is accessible from the front panel (open the front panel). consult the network administrator.qualitrolcorp. An incorrect network configuration will prevent proper equipment communication and network access. File Transfer Protocol (FTP): FTP is used to transfer files between INFORMA PMD-A and the user’s computer over the network.4. Secure Shell (SSH): SSH is a network protocol used to create a secure connection between INFORMA PMD-A and a user’s computer. The pin out details for the RS232-1. DNS IP. and DHCP. RS232-3. Network Services Provided by INFORMA PMD-A Through Ethernet Telnet: Telnet is a network protocol that allows users to connect to an INFORMA PMD-A device over a TCP/IP network. IP Forwarding enables one device to act as a gateway.com . Serial Ports INFORMA PMD-A has four serial ports. IP Forwarding: IP Forwarding allows network requests to be redirected to a specified IP address that might be located on another network. RS232-2. RS232-1 Pin 1 Pin 2 Pin 3 Pin 4 Pin 5 Pin 6 Pin 7 Pin 8 Pin 9 GND DCE RTS CTS RXD TXD RS232-2 Pin 1 Pin 2 Pin 3 Pin 4 Pin 5 Pin 6 Pin 7 Pin 8 Pin 9 SD RXD TXD DTE GND DCE RTS CTS RI RS232-3 Pin 1 Pin 2 Pin 3 Pin 4 Pin 5 Pin 6 Pin 7 Pin 8 Pin 9 GND DCE RTS CTS RXD TXD RS485 Pin 1 Pin 2 Pin 3 Pin 4 Pin 5 +RXD -RXD +TXD -TXD GND 34 www. It provides access to a command-line interface. Gateway. 35 www.com . Port Name RS232-1 Functionality/Services Debug port Cable Type Simple null modem without handshaking Null modem with loop back handshaking Standard modem cable (DTE-DCE) Simple null modem without handshaking Simple null modem without handshaking Null modem with loop back handshaking - RS232-2 PPPD on SERIAL PPPD on MODEM RS232-3 Protocols * IRIG-J PPPD on SERIAL PIC Programming (on-boot up) RS485 Protocols (DNP/Mod bus/IEC 60870/IEC 61850) - *: Optional PPPD on SERIAL: This service is enabled or used when the INFORMA PMD-A device needs to be connected directly to a computer without a modem.Components and Specifications The following table provides details of the services that can be run on each port and the corresponding serial cable type to be used.qualitrolcorp. PPPD on MODEM: This service is enabled or used when the INFORMA PMD-A device needs to be accessed through a modem. qualitrolcorp.26 – Standard Modem Cable 3. Figure 3. USB Functionality When a user plugs in a USB storage device to INFORMA PMD-A. the INFORMA PMD-A device parses the script file to perform any of the following operations: 36 www.24 – Simple Null Modem Without Handshaking Figure 3.25 – Null Modem With Loop Back Handshaking Figure 3. USB 3.9.9. Once the digital signature is verified.1.Components and Specifications Cable Types The following figures show the different cable types.com . the device checks for a specific folder and validates the unique serial number and digital signature available in the script file inside the folder. Solid Green Red OFF 37 www. USB Functions with or Without Script and MMI-LCD The following table lists the different scenarios of the USB script file and the LCD interface.qualitrolcorp. The USB communication process is completed.9. Note The USB script is a future enhancement. The USB performs the data download operation through the LCD interface.9. LED Indication The following table lists the LED indications: LED Indicators Flashing Green Description For any operation.2. The USB does not perform any operation. the user can select and download data to the USB through the MMI.Components and Specifications • • • Upload and download configuration Firmware upload Data download In addition. 3. Both the script file and the LCD interface are available. An error occurred in the USB communication process.3. such as a firmware update/configuration download/configuration update or a data download that happens through the USB. Scenarios Script file is available but the LCD interface is not available. The USB performs operations according to the script because the script has higher priority. USB Operation The USB performs operations according to the script. No USB communication. The script file is not available but the LCD interface is available. 3.com . Both the script file and the LCD interface are not available. using clock synchronization.10.10. or IRIG-J. the external substation pulses of PPM or PPH correct any drift in the RTC time. INFORMA PMD-A as Master Using an External GPS PPS An external GPS antenna shall be connected to the BNC connector on the rear panel of the INFORMA PMD-A device.2).27 – USB LED Indication 3. When INFORMA PMD-A uses internal RTC as a time reference for its operation. Clock Synchronization Each INFORMA PMD-A device has an internal clock for maintaining the time-stamp for recorded data. all INFORMA PMD-A devices can be synchronized to the same time and synchronously sampled to the GPS. internal RTC.qualitrolcorp. 38 www. internal RTC. Therefore.Components and Specifications Figure 3. The antenna cable type is RG6 with BNC terminations connected to a Trimble Bullet antenna (maximum length is 45 m without an amplifier). or IRIG-J. When multiple INFORMA PMD-A devices are installed at any one site. IRIG-B. Alternatively. This clock can be synchronized to an external GPS. IRIG-B. Using Internal RTC INFORMA PMD-A can be configured to use its internal RTC as the time reference.1. any one device (the time master) can be used to synchronize the other devices (time slaves) by using a PPS signal (Refer to Figure 4.com . 3. If the PPM signal is received beyond this ±10-second time window. Therefore. the device will experience frequent “Abrupt Time Shifts”.qualitrolcorp. Internal PPH signal should only be used when the line frequency has a tolerance of 0.06% tolerance. it is rejected and no actions are performed. a user must initially set the time on the INFORMA PMD-A device to an accuracy of 5 minutes while using the external PPH.06%. INFORMA PMD-A can be configured as the time master using iQ+. If the frequency in the selected voltage channel is beyond 0. Refer to iQ+ help for additional information. This would typically be used to eliminate a long-term drift in the internal RTC time when an external time reference is not available.Components and Specifications INFORMA PMD-A can be configured to generate an internal PPH signal by counting the 50/60 Hz line frequency signal from a configured FR Frequency reference voltage channel. a user must initially set the time on the INFORMA PMD-A device to an accuracy of 10 seconds while using the external PPM.com .Time Management 39 www.28 . it is rejected and no actions are performed. the device will experience frequent “Abrupt Time Shifts”. Figure 3. as shown in the following figure. Therefore. If the amplitude in the selected voltage channel is below 10% of nominal voltage. If the PPH signal is received beyond this ±5-minute time window. External PPH signal is validated only if it is within ±5 minutes of an hour boundary as determined by RTC time. External PPM signal is validated only if it is within ±10 seconds of a minute boundary as determined by RTC time. INFORMA PMD-A can be configured as a time slave using iQ+. as shown in the following figure. CF (includes year information).Components and Specifications Using IRIG-B INFORMA PMD-A can be configured to use an external IRIG-B time source as the time reference. Connect the serial cable from the IRIG-J time source to the RS232-2 port. CF (includes year information).com . INFORMA PMD-A IRIG-B supports the following: 1. For INFORMA PMD-A to be fully time-synchronized as a time slave. : BCD (does not include year information). Frequency/Resolution: No carrier The INFORMA PMD-A device to which the IRIG-B time source is connected will be the time master. IRIG-B 001 Modulation Type Coded expression 2. INFORMA PMD-A as Slave When INFORMA PMD-A is configured as a time slave. This time master INFORMA PMD-A device may now be used to provide time synchronization to other slave INFORMA PMD-A devices. it receives PPS input from the time master and derives the time of the day by using NTP over the network. using the differential or Fiber connection for PPS synchronization.qualitrolcorp. INFORMA PMD-A IRIG-J supports IRIG-J-14. The IRIG-J-14 baud rate is 1200. also called DC level shift. IRIG-J-14 The IRIG-J-14 is a Time-of-Year format with a 1-second resolution and frame length. Frequency/Resolution: 1000 Hz carrier : Unmodulated. Connect the IRIG-B cable from the IRIG-B time source to the BNC connector. 3. Refer to iQ+ help for additional information. 40 www.2. using the differential or Fiber connection for PPS synchronization. The INFORMA PMD-A device to which the IRIG-J time source is connected will be the time master. IRIG-B 121 Modulation Type: Coded expression: Amplitude Modulated Sine Wave BCD (does not include year information).10. This time master INFORMA PMD-A device may now be used to provide time synchronization to other slave INFORMA PMD-A devices. Using IRIG-J INFORMA PMD-A can be configured to use an external IRIG-J time source as the time reference. both PPS and NTP are required from the time master. 41 www. and Lock Mechanism INFORMA PMD-A can be configured with any one of the external PPS sources for time reference.Components and Specifications Figure 3. and it must exceed a minimum of 100 ms for the PPS to be validated. PPS Detection. the “ON” duration of the PPS pulse is checked.4.3. INFORMA PMDA will use NTP time as the time reference from the configured NTP server. Stability. 3.com .29 – INFORMA PMD-A Time Master/Slave Configuration Note In the absence of PPS input for the slave mode of operation. Because INFORMA PMD-A is not synchronized with the PPS time marker. the accuracy of time synchronization is impacted. Once the edge of the external PPS is detected. INFORMA PMD-A Time Accuracy Figure 3.qualitrolcorp.10.INFORMA PMD-A Time Accuracy 3.30 .10. time correction occurs. after the device is switched on. When multiple INFORMA PMD-A devices are in the locked state. The time difference is not within the acceptable jitter limit. it is rejected. No.5 minutes. then the INFORMA-PMD-A internal time will be abruptly shifted to the external time.5 seconds with respect to the external time. When there is a transition of INFORMA-PMD-A internal PPS from not-locked to a locked state.) 10 µs 1 ms 1 ms 1 ms This check is performed continuously and the status of the PPS stability is updated every 16 seconds.Components and Specifications The next level of validation is the “PPS stability check”. If the external PPS is stable for 16 seconds. INFORMA PMD-A is said to be in “Not-Locked State” if any of the following conditions occurs: • • The external PPS does not pass the stability check. ADC sampling is synchronized. then the PPS is declared as stable. Abrupt Time Shift If the difference in time is greater than 0. 42 www. INFORMA PMD-A is said to be “locked to External time source” when the internal time is synchronized with the external time source within an acceptable band of time accuracy.qualitrolcorp.5 seconds. As a result. the time required to perform the correction for a 0. else. The external PPS pulse is said to be stable.5 minutes to turn on indicating the system is locked.5-second error is 8. the clock synchronization LED might take a maximum of 8. The maximum error correction allowed per cycle is approximately half of the intersample delay. 1 2 3 4 External Time Source (PPS) GPS INT RTC IRIG-B IRIG-J Jitter Limit (+/. as long as the PPS to PPS duration remains constant within the acceptable jitter limit as mentioned in below table. The time correction can happen in any of the following ways: • • Gradual time correction Abrupt time shift Gradual Time Correction The INFORMA-PMD-A internal time is corrected gradually if the difference is less than 0. Approximately.com . Sl. The abrupt shift in time is always indicated to the user. Analog Inputs The INFORMA PMD-A 3U device supports 9 analog channels and the INFORMA PMD-A 6U device supports 9/18/27/36 analog channels. HIA-AFE HIA-AFE analog channels have the following characteristics: • • • 24-bit resolution for voltage/current Phase angle between channels: Accuracy ≤ 0.1 MΩ (at 440 V) 3. For TX-AFE and HIA-AFE.Components and Specifications 3.11.1.2. TX-AFE TX-AFE analog channels have the following characteristics: • • • 16-bit resolution for voltage and 20-bit resolution for current Phase angle between channels: Accuracy ≤ 0. 1 MΩ (at 230 V).1° Channel Input Impedance of > 2.1° Channel input impedance of 4 MΩ Refer to Appendix A for details on the technical specifications.com .qualitrolcorp.11. INFORMA PMD-A has the following types of analog inputs: • • TX-AFE HIA-AFE 3.5 V 120 V 240 V 440 V 1A 2A 5A 10 A 12 V 120 V 240 V 480 V (4-20) mA current loop External current clamp Full Scale Deflection (FSD) 140 V 270 V 480 V 800 V 10 A 20 A 50 A 100 A AC Current DC input Voltages Current inputs 43 www.5 MΩ (at 63 V). > 2 MΩ (at 110 V). and > 0. the range of input of the analog channels is listed in the following table: Channel Type AC Voltage Nominal Values 63.11. • The signals taken from the HIA-AFE channel are processed in order to detect a trigger condition (when the transients occur). The appropriate FSD of any channel is configured at the factory as per the customer order.12. Note Wire gauge to be used for TX-AFE and HIA-AFE analog inputs: 12-22 AWG. Digital Inputs The INFORMA PMD-A 3U device supports 32 digital inputs and the INFORMA PMD-A 6U device supports 32/64/96/128 digital inputs. the user must always ensure that the selected input channel is a current channel before connecting a CT circuit. Fast Transient Recording (optional) The fast transient recording card is optional and need to fit in the factory. and to allow the digital recording of the waveforms before and after the trigger. Sampling rates (user configurable): 20 MHz 10 MHz 5 MHz 2. All analog channels are calibrated at the factory and there is no need for site calibration. INFORMA PMD-A supports two voltage levels configured at the factory as per the customer order as shown below. When there is a combination of current and voltage channels.com .25 MHz • • • TR analog channels have a 12-bit resolution.5 kHz to 5 MHz. 3.6 times of nominal voltage (maximum input voltage) for 10 seconds. • For nominal voltage 24 V to a maximum input of 250 V: Less than 12 V – No activation o 44 www. TX-AFE and HIA-AFE support a maximum overload of 1000 V continuous. The transient voltage (up to 6 kV) is detected by the TR module with a bandwidth of 2.Components and Specifications Selection of the nominal value is through jumper settings that are available internally to the TX-AFE and HIA-AFE boards.5 MHz 1. All the input channels are bi-directional.qualitrolcorp. 3. The minimum pulse width of the digital inputs that can be detected and recorded is greater than 0.5 ms. 3U < Figure 3. to a maximum input of 250 V: Less than 30 V – No activation (30-35) V – Undefined Above 35 V – Activation o o o The scanning rate of digital inputs is 2 kHz. 110 V. The purpose of digital inputs is to monitor the state of external contacts normally associated with protection relays and circuit breakers. The debounce time of digital inputs ranges from 0 to 1000 ms in 1 ms steps.qualitrolcorp.com . and 220 V.31 – INFORMA PMD-A Digital Inputs 45 www.Components and Specifications o o • (12-17) V – Undefined Above 18 V – Activation For nominal voltage 48 V. The digital input connections are done through terminal blocks that plug into TB10 for an INFORMA PMD-A 3U device.qualitrolcorp. and TB10 and TB12 for an INFORMA PMD-A 6U device. Terminal 10 is earth and must be connected to the system earth.Components and Specifications 6U Digital inputs are in groups of 8 and each group is galvonically isolated from the other group. Note Wire gauge to be used for Digital inputs: 14-26 AWG. Terminal 9 is common for digital inputs (1-8). Alarm Output 46 www.com .13. • • • Terminals 1-8 are digital inputs. 3. 000.000 operations/hour) : 100. 3.000 operations minimum (at 18.800 operations/hour under rated load) : SPST – NO/SPST – NC : 5 VDC Contact Rating : 5 A at 250 VDC/30 VAC. However.qualitrolcorp. 8 A at 250 VAC/30 VDC 47 www.Components and Specifications INFORMA PMD-A supports alarm outputs 1 to 4 on the TB3 terminal block. relays 2. and 4 are configurable. 6U 3U Figure 3.com . Note Relay 1 is not configurable.000 operations minimum (at 1.32 – INFORMA PMD-A Alarm Outputs Relay Specifications Contact Form Coli Voltage Service Life Mechanical Electrical : 50. iQ+ does not support. 10 Min threshold crossed • Histogram .3 for details. Pin 1 Pin 2 Pin 3 Pin 4 Alarm Configuration Relay1 Out + Relay1 Out Relay2 Out + Relay2 Out - Indication Pulse Width (ms) Default State Normally Closed (NC) System Healthy DHCP configuration changed Memory threshold crossed for linear mode of recordings • RMS envelope recording • PQP 10 Min record threshold crossed • Free Interval record threshold crossed • Histogram .IEC 61000 3-6/7 report memory threshold crossed Any PQ sensor triggered Any FR sensor triggered DFR manual trigger activated by user. Pin No.com . 100 500 Normally Open (NO) 350 350 500 48 www.Components and Specifications The following pin out table lists the different alarm configurations. Refer to Figure 6.Free Interval threshold crossed • Busbar1 – EN 50160 Standard threshold Report memory threshold crossed • Busbar1 – EN 50160 User threshold Report memory threshold crossed • Busbar1 .qualitrolcorp.IEC 61000 3-6/7 report memory threshold crossed • Busbar2 – EN 50160 Standard threshold Report memory threshold crossed • Busbar2 – EN 50160 User threshold Report memory threshold crossed • Busbar2 .24 in Section 6. com .24 in Section 6. Pulse Width (ms) 500 500 500 Default State Normally Open (NO) 500 500 Pin 7 Pin 8 Pin 9 Pin 10 Relay4 Out + Relay4 Out Internally connected to GND Temperature Over/Under Threshold crossed 65535 Normally Open (NO) 49 www.Components and Specifications Pin No. Pin 5 Alarm Configuration Relay3 Out + Indication Pin 6 Relay3 Out - Device shutdown Manual Time set by user Memory full for linear mode of recordings • RMS envelope recording • PQP 10 Min record threshold recording • Free Interval record threshold recording • Histogram .IEC 61000 3-6/7 report memory threshold recording TR recordings DFR recording Refer to Figure 6.qualitrolcorp.Free Interval threshold recording • Busbar1 – EN 50160 Standard threshold Report memory threshold recording • Busbar1 – EN 50160 User threshold Report memory threshold recording • Busbar1 .10 Min threshold recording • Histogram .3 for details.IEC 61000 3-6/7 report memory threshold recording • Busbar2 – EN 50160 Standard threshold Report memory threshold recording • Busbar2 – EN 50160 User threshold Report memory threshold recording • Busbar2 . Components and Specifications The relay default settings are done at the factory as per the customer order.qualitrolcorp.com . 50 www. Note Wire gauge to be used for Alarm outputs: 14-26 AWG. qualitrolcorp.com .Installation Chapter 4 Installation 51 www. Accessories Following accessories are provided: • • • • • • Serial port cable RJ45 cable 2 m (straight) RJ45 cable 2 m (crossover) Operating manual Configuration CD (containing the standalone configuration tool) Four loose empty “labels” that the customer can place over existing labels if any settings are changed at a later stage.com . Test reports (including the serial port communication default settings of the device) • 52 www.Installation 4. Unpacking Procedure Verify the package is not damaged if so contact courier.qualitrolcorp. Remove and verify contents from package.2. 4. 4. Installation This chapter describes the installation procedure of the INFORMA PMD-A device.1. qualitrolcorp. INFORMA PMD-A Installation Specifications The following figure shows a single INFORMA PMD-A communication to a computer through Ethernet or Modem. 1.Installation 4.3. Figure 4.1 – Standalone INFORMA PMD-A   53 www.com . also known as 100Base-FX. It is not recommended that the user extend twisted pair Ethernet cables beyond an adjacent cubicle in a substation environment. they communicate with each other using twisted pair or fiber-optic Ethernet as shown in the following figure. #3. and have a maximum range of 100 m (300 ft) under normal conditions for error free communication.2 – Networked INFORMA PMD-A In Figure 4.com . and #4 are configured as time slaves. • Note The twisted pair Ethernet communications are also known as 10/100 Base-T.Installation If multiple INFORMA PMD-A devices are installed at a given location or across different locations. when being used in multi-mode fiber. is recommended for long distance communication that can be extended over 1 km.qualitrolcorp. This is done to avoid induced transients from other conductors. Figure 4. • 54 www. INFORMA PMD-A #1 is configured as the time master and INFORMA PMD-A #2.2. Fiber-optic Ethernet network. com . Switch on the power supply using the button located on the rear panel of the device. Ensure that the device is in the operating temperature range and humidity conditions as specified in Appendix A before switching it ON. Once the changes are done. This could lead to serious injury or death from electric shock. 3. Open the configuration window and make the respective changes in the communication port settings of Ethernet. If a UPS card is present. Installation Procedure Remember the following: • In order to ensure safe operation. the following needs to be checked.5. Make sure that the device is installed in an area where heat dissipation is not restricted. 4. 3. Before connecting the circuits.6. • • • • 4. 55 www. This indicates that the device is booting up.qualitrolcorp.5). and an Earth symbol. Connect analog and digital inputs. 4. When the INFORMA PMD-A device is powered ON. 5.Installation 4. 6. Device Communication Settings 1. The 3-pin power terminal block is labeled with L. first connect the device to protective earth and then connect it to the power supply.2. N.5.4. and alarm outputs as per the specified configuration instructions (refer to Section 3. Connect the device using default communication settings of the device. all the LEDs on the front panel must flash in green (in anti-clock wise direction). Connect the power cord to the 3-pin terminal block located on the rear panel of the device. modem and serial ports 4. Do not use leads and accessories that do not fulfill the relevant safety standards.5. 4. INFORMA PMD-A takes about 6-7 minutes for boot-up process. 2.1. ensure that the UPS is switched ON. user can send the configuration to the device by clicking on the button ‘Send To Device’ in the configuration window of iQ+. User can change the device communication settings in the iQ+. ensure that the maximum measuring voltage and maximum voltage to earth are not exceeded. Starting the Device To ensure that the device has been installed correctly. Refer section 5. Setting up the Device 1. Mount the device on the rack.2. 2. The power cord must be connected accordingly. 4.3. This indicates that the device is installed correctly and is ready to use.com .Installation Note If the user has upgraded the firmware for standard MMI.qualitrolcorp. then during the next boot up of INFORMA PMD-A. and the LEDs on the left flash from bottom to top in green. the LEDs on the right flash from top to bottom. Checking for Correct Operation: The front panel Healthy LED must be green. 56 www.5. This is in addition to the normal boot up mode. com .qualitrolcorp.Serial Connection to Informa PMD-A Chapter 5 Serial Connection to INFORMA PMD-A 57 www. 1.1.1. click on Create a new connection. In Windows-XP. go to Start->Control Panel->Network and Internet Connections >Network Connections. The type of cable need to be used for this service is Null Modem with loop back handshaking. Serial Ports This chapter provides instructions to configure serial connections to the INFORMA PMD-A device. 2.qualitrolcorp. PPPD on Serial User has to enable/ use this service. 58 www. 5.1 – New Connection Wizard 3. Figure 5.Serial Connection to Informa PMD-A 5. Functionality/Service 5.com . when the INFORMA PMD-A device is connected directly to a PC without a modem. In the Network Tasks. The following wizard should appear for creating the new connection. Click on ‘Next >’ button. Steps to establish a PPPD connection over Serial 1. com . Select the radio button “Set up an advanced connection” and click on ‘Next>’ button. Figure 5. Select the radio button “Connect directly to another computer” and click on ‘Next>’ button.qualitrolcorp. 59 www.Serial Connection to Informa PMD-A Figure 5.3 – Advanced Connection Options 5.2 – Network Connection Type 4. qualitrolcorp. Mention any name say ‘LnT’ and click on ‘Next>’ button.com .Serial Connection to Informa PMD-A Figure 5. 60 www. Figure 5.4 – Host or Guest Page 6.5 – Connection Name 7. Select the radio button “Guest” and then click on ‘Next>’button. 61 www.com .qualitrolcorp.7 – Connection Availability 9.Serial Connection to Informa PMD-A   Figure 5. Select ‘Communications Port (COM x)’ and then click on ‘Next>’ button.6 – Select a Device 8. Figure 5. Select the radio button ‘Anyone’s use’ and then click on ‘Next>’ button. Serial Connection to Informa PMD-A Figure 5.9 – Connect to LnT 62 www. A shortcut icon for serial connectivity is created on the desktop of the PC.qualitrolcorp.8 – Completing the New Connection 10. Check on ‘ Add a shortcut to this connection to my desktop’ and then click on ‘Finish’ button. 11.com . below wizard appears Figure 5. Now double click on the created shortcut icon. then the below wizard appears Figure 5.11 – Modem Configuration 63 www. Click on “Configure”.Serial Connection to Informa PMD-A 12. Click on “Properties” then the below wizard appears Figure 5.10 – LnT Properties 13.com .qualitrolcorp. Serial Connection to Informa PMD-A 14. Figure 5. User has to de-select the “Enable hardware flow control”.com . (The default baud rate of serial port on INFORMA PMD-A device is set to 38400). Click on OK.qualitrolcorp. User has to enter any password. From the Maximum speed (bps) drop down list provided user has to select the speed as “38400”. 64 www. Click on connect. then the below screens will appear. 18. then the below wizard appears. 15.11 – Modem Configuration 17. 16. PC name appears in the User name by default. com .Serial Connection to Informa PMD-A Figure 5. 4. Go to Start->Control Panel-> Network and Internet Connections -> Network Connections Figure 5.qualitrolcorp. 5. To check the status of connection: 1. 3. Click on ‘Details’ tab. This implies the connection is formed. Double Click on Direct ->LnT to know the status of connection.13 – Status-General 2. A popup screen “LnT Status” will be displayed In the ‘General’ tab user has to observe the status as connected. the screen appears as shown below 65 www.12 – Verifying and Completing Registration 19. 14 – Status-Details Note • Server IP address: It is the new / temporary IP address assigned to INFORMA PMD-A device and meant only for the PPPD on serial link.2 in the above mentioned example screen) to access the INFORMA PMD-A device via PPPD serial link. Client IP address: It is the new / temporary IP address assigned to PC and meant only for the PPPD on serial link. The Server IP address & Client IP address is user configurable.38. Once the drivers are installed and modem is connected to the PC. PPPD ON MODEM: User can enable/ use this service. user has to follow the below procedure to verify whether modem is detected or not.Serial Connection to Informa PMD-A Figure 5. when the INFORMA PMD-A device need to be accessed via modem. • • User has to use Server IP address (10.qualitrolcorp.com . User has to use Standard Modem cable type for this service.0. Pre Requisites: User has to make sure that appropriate modem drivers are installed and the modem is detected by the PC. Note 66 www. Please refer to the CD/Manual provided by the Modem manufacturer for driver installation instructions. 15 – Phone and Modem Options Under the tab ”Modems” user can observe the installed modems as shown below. go to Start->Control Panel-> Printers and Other Hardware->Phone and Modem Options.qualitrolcorp.Serial Connection to Informa PMD-A In the PC.com . Figure 5. 67 www. qualitrolcorp.Serial Connection to Informa PMD-A Figure 5. Go to Start->Control Panel-> Network and Internet Connections -> Network Connections 2. user has to follow the below steps for establishing the PPPD connection over Modem.16 – Modems Ex: In the above screen the modem detected is “Conexant ACF External PnP ….Modem”. Steps to establish a PPPD connection over Modem Once the Pre-requisites are met.com .. Click on Create New Connection 68 www. 1. In Windows-XP. 17 – New Connection Wizard 3. Click on ‘Next’ button. Figure 5.18 – Network Connection Type 69 www. Figure 5.Serial Connection to Informa PMD-A The following wizard will appear for creating the new connection.com .qualitrolcorp. com .qualitrolcorp.20 – Connection Name 70 www. Select the radio button “Connect to the network at my workplace” and click on ‘Next>’ button Figure 5.Serial Connection to Informa PMD-A 4. Select the radio button “Dial-up connection” and click on ‘Next>’ button Figure 5.19 – Network Connection 5. qualitrolcorp.0 prefixing etc.21 – Phone Number to Dial 7. The below wizard appears.Serial Connection to Informa PMD-A 6.. Enter the name on your choice under the Company Name (In this case it is LnT ) and click on ‘Next>’ button.com . Figure 5. 8. Please refer to the instructions present in the wizard for entering correct number with appropriate area code . User has to enter the phone number (which user wishes to dial) under Phone Number and click on ‘Next>’ button. 71 www. Click on Finish by selecting the option “Add a Shortcut to this connection to my desktop” for creating a shortcut to the dial up connection on the desktop.22 – Connection Availability 9.Serial Connection to Informa PMD-A Figure 5. 72 www.com .23 – Completing the New Connection Wizard 10. User can select either “Anyone’s use / My use” and then click ‘Next>’ button Figure 5.qualitrolcorp. user will be able to see a connection formed with LnT (in this example) short cut in the desktop as well as in the Network connections (in control panel) Figure 5. Now double click on LnT shortcut present on the desktop for the following wizard Figure 5.24 – Network Connections 11.Serial Connection to Informa PMD-A Now.qualitrolcorp.25 – Connect LnT 73 www.com . com .26 – Lnt Properties 13.27 – Modem Configuration 74 www.A window appears as shown below Figure 5.Serial Connection to Informa PMD-A 12. For setting the Baud rate user has to click on “Properties” . Click on “Configure” Figure 5.qualitrolcorp. qualitrolcorp.28 – Connect LnT Note If user wishes to change the number. Click on OK. Figure 5. Click on ‘Dial’ button. The below mentioned wizard appears. 75 www. 17.Serial Connection to Informa PMD-A 14. 18. the below screens will appear. Change the “Maximum Speed” to “38400” 15. 16. Ensure that all ‘Hardware Features’ are enabled. Enter any password.com . then edit in the click on ‘Dial’ column provided. Go to Start->Control Panel-> Network and Internet Connections -> Network Connections 76 www.29 – Verifying and Completing Registration 19. This implies the connection is formed.com . To check the status of connection: 1.qualitrolcorp.Serial Connection to Informa PMD-A Figure 5. Figure 5.com . Double Click on Direct ->LnT to know the status of connection.30 – LnT Status 2. Click on ‘Details’ tab. 3.qualitrolcorp. the below screen will appear.Serial Connection to Informa PMD-A Figure 5. 4. 5.31 – Status Details 77 www. A popup screen “LnT Status” will be displayed In the ‘General’ tab the status should be connected. Client IP address: It is the new / temporary IP address assigned to PC and meant only for the PPPD on modem link. • • User has to use Server IP address (10.qualitrolcorp. The Server IP address & Client IP address is user configurable.2 in the above mentioned example screen) to access the INFORMA PMD-A device via PPPD modem link 78 www.com .Serial Connection to Informa PMD-A Note • Server IP address: It is the new / temporary IP address assigned to INFORMA PMD-A device and meant only for the PPPD on modem link.0.38. com .Configuration Chapter 6 Configuration 79 www.qualitrolcorp. Configuration This chapter provides instructions to configure the INFORMA PMD-A device and the iQ+ software.Configuration 6.1. 2-conductor network connections are shown in Figure 5. refer to iQ+ Help.5.1 – Single Phase Network Note For more information about configuration.1.1.qualitrolcorp. The connections to the channels must be made as per the labels on the analog channel port shown in Section 3.1.com . 80 www. 6. Figure 6. Connection Diagrams Single Phase Network Single-phase. Hardware Configuration INFORMA PMD-A supports the following cabling configuration: 6. The actual threephase total power can be determined accurately using this method. The device does not correct the systemic phase shift of 30° between phase-to-phase voltage and associated current. the individual phase power values are calculated values and might deviate considerably from the actual values.Configuration 3-Wire Network – 2 Current Sensors L1. This method is applicable only if IL1 + IL2 + IL3 =0.qualitrolcorp. that is. Figure 6. refer to iQ+ Help.com .5. L3 (Aron Method/Two Wattmeter Method) The connections to the channels must be made as per the labels on the analog channel port as shown in Section 3. • • The following figure shows 3-wire network (Aron measuring circuit) connections.2 – Aron Method/Two Wattmeter Method Note For more information about configuration. • Note Observe the polarity of voltage connection V1 (V1+ and V1-) and current sensor I1 (I1+ and I1-). 81 www. if there is no N conductor. 3 – 3-Wire Network (3U3I) Note Refer to iQ+ Help for associated software settings.5. Figure 6. The connections to the channels must be made as per the labels on the analog channel port shown in Section 3.qualitrolcorp. 82 www.com .Configuration 3-Wire Network (3U3I) 3-wire network (3U3I–Three Wattmeter method) connections are shown below. Configuration 4-Wire Network (4U4I) 4-wire network (4U4I) connections are shown below.qualitrolcorp. 83 www.4 – 4-Wire Network (4U4I) Note Refer to iQ+ Help for associated software settings. Figure 6. The connections to the channels must be made as per the labels on the analog channel port shown in Section 3.com .5. 84 www. Figure 6.2M4U in Star Configuration Note Refer to iQ+ Help for associated software settings. 3 phase voltages and the respective N conductor voltages can be determined in two star connected three-phase systems. Two 4-wire network (2M4U) connections are shown below.5 .qualitrolcorp.5.Configuration Two 4-Wire Networks (2M4U) in Star Configuration With this method.com . The connections to the channels must be made as per the labels on the analog channel port shown in Section 3. The connections to the channels must be made as per the labels on the analog channel port shown in Section 3. 85 www.2M3U in Delta Configuration Note Refer to iQ+ Help for associated software settings.qualitrolcorp.com .6 . Two 3-wire network (2M3U) connections are shown below. Figure 6.Configuration Two 3-Wire Networks (2M3U) in Delta Configuration This method is used to measure 3 phase-to-phase voltages in two delta configured threephase systems.5. 5.Configuration 3U 3U (Star configuration) connections are shown below.7 – 3U Configuration Note Refer to iQ+ Help for associated software settings. Figure 6. The connections to the channels must be made as per the labels on the analog channel port shown in Section 3. 86 www.qualitrolcorp.com . qualitrolcorp.8 – 4U Configuration Note Refer to iQ+ Help for associated software settings.com .Configuration 4U 4U (Star configuration) connections are shown below. 87 www. The connections to the channels must be made as per the labels on the analog channel port shown in Section 3.5. Figure 6. qualitrolcorp.com . Figure 6. 88 www. The connections to the channels must be made as per the labels on the analog channel port shown in Section 3.5.9 – 3U6I Configuration Note Refer to iQ+ Help for associated software settings.Configuration 3U6I 3U6I (Star configuration) connections are shown below. qualitrolcorp. 89 www.10 – 6U3I Configuration Note Refer to iQ+ Help for associated software settings.5.Configuration 6U3I 6U3I (Star configuration) connections are shown below.com . Figure 6. The connections to the channels must be made as per the labels on the analog channel port shown in Section 3. com .2. Figure 6. Software Configuration To establish the communication using iQ+. Start iQ+.qualitrolcorp.Configuration 6.11 – Starting iQ+ 90 www. the following steps must be performed: 1. 12 – Creating a New Device 91 www. To create a new device. right click All Devices as shown below: Figure 6.qualitrolcorp.com .Configuration 2. Configuration 3.com . Select INFORMA PMD-A from the device list. Figure 6.13 – Selecting INFORMA PMD-A Device 92 www.qualitrolcorp. ) 93 www.qualitrolcorp.Configuration 4. Right click the INFORMA PMD-A device and select Retrieve Configuration. A new device is created. (Factory default settings are loaded when the INFORMA PMD-A device is initialized for the first time. The previously configured settings are loaded.com . Enter the device details and save this information.14 – Creating a Device 5. 6. Figure 6. Configuration Overview Figure 6.qualitrolcorp.com . The file is saved in the database and also sent to the INFORMA PMD-A device for measurements. The user needs to refer to iQ+ Help for detailed procedures to configure INFORMA PMD-A for different Power Quality and Fault Recording measurements.1. the file is saved in the database.15 . Send To Device: To convert the configuration to XML and send it to the server.Configuration 6. 2.Configuration Overview 1. • INFORMA PMD-A must be configured for all required parameters including the device name and substation name through navigation across all subfields of the overview tree structure as described in the following sections. the user can save it in the database or save and send the configuration to the device by clicking the following buttons: • Save to Database: To convert the configuration to XML file and send it to the server.2. After modifying the configuration. • 94 www. Through Serial Ports: To communicate using serial ports. If the user selects the Modem Type as None. 95 www.2.2.qualitrolcorp. then the modem service will not run in INFORMA PMD-A. RS232-2 is the configuration editor for INFORMA PMD-A device in iQ+.com . Communications Through Ethernet Ports: Figure 6. port RS232-2 must be configured for the internal or external modem (the user needs to select the Modem Type). the user must configure the hardware settings for the respective port.Configuration 6.16 – Ethernet Ports configuration with default values Through Modem: To communicate using modem. For more information about configuration.Configuration Figure 6.com .qualitrolcorp. 96 www.17 – RS232-2 • • Note Internal modem is optional. refer to iQ+ Help. com . refer to iQ+ Help.qualitrolcorp.18 – RS232-3 Note For more information about configuration.Configuration Figure 6. 97 www. 2.3. 98 www.19 – PQ Overview Flow Chart Note Each record and report can be enabled or disabled. PQ Overview Figure 6.Configuration 6.qualitrolcorp.com . 20 – PQ Configuration The user can enable or disable any of the PQ records and report generating functions. • • 99 www.2. 10-minute frequency. Maximum.10-minute MMA data. A maximum of 1188 out of 3634 parameters (total number of parameters depend on the cabling configuration) can be configured including 10-second frequency. Output: MMA values for each of the selected parameters except for 10-minute frequency flicker and 10-second frequency. and Average values are calculated using 200 ms data.4.30 shows the options for disabling and enabling PQ records and report generating functions. according to IEC 61000-4-30 Class A) • • Minimum. PQ Configuration Figure 6.Configuration 6.5. The user can also configure the power and energy window and reference channel for system frequency. Power and energy will be logged according to the configured window. 10-minute flicker.2.com . and 10-second frequency. Figure 6. 6. Continuous Recording Ten Minute Recordings (Standard PQ measurement.qualitrolcorp. Configurable data types: . 3 seconds. 3 seconds data is aggregated for aggregation intervals of 3 seconds. Maximum.Configuration Figure 6. 30 seconds. and 1 minute to 1440 minutes.qualitrolcorp. 15 seconds.21 – PQ 10-Minute Continuous Recording Free Interval Recordings • Minimum. The user can configure the PQ parameters to be recorded (limited to 256 parameters).com . 2 seconds. For aggregation interval as 200 ms. 15 seconds. 6 seconds. For an aggregation interval greater than 30 minutes. 6 seconds. The user can configure the aggregation interval as 200 ms. 1 second. 200 ms data is considered and the record will contain only the average value. • • • • • • • 100 www. and Average values are calculated using data as per the aggregation interval configured. Maximum. and Average values for each of the selected parameters for the entire duration. 30 seconds. 200 ms data is aggregated for aggregation intervals of 1 second and 2 seconds. 10-minute data is aggregated. and 1 minute to 30 minutes. Output available will be Minimum. com .Configuration Figure 6.qualitrolcorp.22 – PQ Free Interval Continuous Recording 101 www. com . The report provides a tabular summary of these tally counts across a reporting period of one week. therefore. The report provides a tabular summary of these tally counts across a reporting period of one week. EN 50160 reports (standard threshold and user threshold) EN 50160 Report with Standard Limits (For Busbar 1) The EN 50160 report is based on 10-minute average values (except for frequencies that use 10-second values). Figure 6. Parameter limits are defined in the standard. Each parameter value is checked against its limits and is used to increment the ‘total’ tally count or a ‘bad’ tally count accordingly.2.6. Each parameter value is checked against its limits and is used to increment the ‘total’ or ‘bad’ tally count accordingly.qualitrolcorp.23 – EN 50160 Standard Report – Standard Limits (Busbar 1) EN 50160 Report with User-Defined Limits (For Busbar 1) The EN 50160 is based on 10-minute average values (except for frequencies that use 10second values). this report is not restricted to the limits specified by the standard. The user can configure the parameter limits.Configuration 6. 102 www. Configuration Figure 6. IEC 61000-3-6/7 Report Figure 6.25 .7.com .qualitrolcorp.2.IEC 61000-3-6/7 Report 103 www.24 – EN 50160 User Report – User-defined Limits (Busbar 1) 6. which indicates to what duration the 3-second values of the selected parameter should be aggregated before considering it for a histogram plot. This report contains the histogram of the selected parameter and also the minimum and maximum values of the selected parameter for the report duration. and 10-minute frequency. The duration of histograms can be defined by the user from 10 minutes to a maximum of 24 hours.qualitrolcorp.com . 104 www.2.26 – 10-Minute Histogram Report Free Interval Histogram Report This creates a histogram from 3-second values. 10-minute flicker. • Figure 6. The number of bins for each histogram is common for all the parameters selected. the 3-second values will be aggregated for each minute before considering it for the histogram plot. There is a configuration item called “aggregation interval”. or average values of the parameter for the histogram plot. The user can select the minimum. Histograms Ten Minute Histogram Report This is a histogram report of the selected parameters derived from 10-minute data. • Configurable data types: 10-minute MMA data. For example. if the report duration is of 60 minutes and the aggregation interval is 1 minute. As a result.8. 6. the histogram will display 60 points. Output: Histogram data of all parameters for the entire duration. maximum.Configuration This creates a compliance report according to the IEC 61000 3-6/7 standards. com . Output: Histogram data of all the parameters for the entire duration. maximum. The user can also select the minimum. The user can configure the number of bins and their sizes. it should be a proper fraction of the report duration for proper data points.Configuration Free interval histogram can be configured from 1 minute to 24 hours.27 – Free Interval Histogram Report 105 www.qualitrolcorp. or average values of the parameter for the histogram plot. Figure 6. However. • • Configurable parameters: 3 second MMA data and 10 second frequency. Aggregation interval should be less than the report duration. RMS Envelope The user can set the values of Pre-trigger time. and Current Dead band as required. Note For more information about configuration.qualitrolcorp. 106 www.2.28 . RMS Envelope Figure 6.9.Configuration 6. refer to iQ+ Help. Dead band is a non-sensitive band that is used to avoid the recording of multiple half-cycle data with minor variations.com . Voltage Dead band. and to save the storage memory. com .2. and UA-Both sensor types. 107 www. refer to iQ+ Help.Configuration 6.qualitrolcorp. UA-Over.DSI and User Alarm • • Note Refer to Appendix B for more information. Figure 6.Under. Swell.10. DSI – Dip/Sag. Swell. and Interruptions as per the IEC 61000-4-30 standard. For more information about configuration. Alarm1 and Alarm2 configurations are applicable for UA. and Interruption The user must select the Apply default values option to set the default values of Dip.29 . qualitrolcorp. Steady Voltage Noise: During a steady state time window.Configuration 6. all user entries are disabled. Time window: Defines the time at which the rate of change of voltage is calculated. Steady Hold Time: Defines the steady state time window based on which the steady state averages are calculated. Figure 6.11. the steady voltage noise defines the maximum amplitude of noise to maintain the steady state. Note For more information about configuration. Rapid Voltage Change An RVC-PQ sensor operation is detected when the magnitude and the rate of change of voltage between two steady state averages exceeds the user settings. and is used for voltage magnitude change and voltage gradient checking.2. The user must select the Apply default values option to set the default values. refer to iQ+ Help. When the user selects this option. 108 www. Steady Time Out: Defines the timeout period after which the “no steady state detected” warning is issued.30 – Rapid Voltage Change Voltage change: Defines the amplitude of change between the two steady state averages.com . Configuration Power Quality (PQ) Sensor Channels Figure 6. For more information about configuration. • 109 www. refer to iQ+ Help.PQ Sensor Channels Note • For details about PQ Sensor Channels.qualitrolcorp.com . refer to PQ Sensor Types in Appendix B.31 . 128. 64. the user can specify the following settings: • • • • • Pre-fault time between 10 ms and 10000 ms Sample rate as 32.FR General Note For more information about configuration.com . 110 www.2.32 .12.Configuration 6. refer to iQ+ Help. 256. FR General The user must select the reference channel for FR frequency.qualitrolcorp. or 512 samples per cycle Post-fault time between 10 ms and 10000 ms Operational limit between 100 ms and 30000 ms Priority between 1 and 100 Figure 6. In addition. threshold limits.2.FR Sensor Channels Note • For details about FR Sensor. refer to iQ+ Help. and other specifications for each sensor channel. For more information about configuration. sensor type. Figure 6.33 .Configuration 6. nominal value.qualitrolcorp. as required. refer to DFR Sensor Types in Appendix B. • 111 www. FR Sensor Channels The user can select the FR parameter.com .13. The user must make a backup of the existing data before configuring memory.14. Recording is stopped if configured in the linear mode and the memory limit has been reached. If configured in the circular mode. the oldest file is automatically overwritten.Configuration 6. 112 www.2. Recorded data is stored into the memory allocated to each recording.qualitrolcorp. then there is a potential chance of loss of data. The user has an option of configuring in linear or circular mode. If the user configures memory that is less than the already allocated memory.34 – Data Storage The memory configuration for various records and reports are configured here.com . Data Storage Figure 6. Maintenance Chapter 7 Maintenance 113 www.com .qualitrolcorp. 1.36. Open a Web browser and enter the following URL: <http://Board_ip_address/mfgindex> Board IP is the IP address configured for the device and it must be mentioned in the URL. if the user has changed the FSD jumper setting or the nominal frequency. Calibration Procedure Calibration source details are as follows: • • Voltage source error < 0.1.qualitrolcorp.Maintenance 7.02% of full scale The following steps must be performed for calibration: 1. Figure 7.168. Click the Calibration tab.1.1 – PMD-A Manufacturing Utility Homepage 114 www. However. 7.com . Calibration 7.02% of full scale Current source error < 0. For example: <http://192. then the device shall be re-calibrated as per the following procedure.226/mfgindex> Default user and password (mfgindex/tabindex): Username: qualitrol Password: qualcorp_techSupport10 For changing password go to: http://<ip address of device>/tabindex_password 2. Maintenance INFORMA PMD-A is shipped after calibration. 3. 4. click Calibrate System. select Type as Current 10 AC and Group as 1.Maintenance 3. Select the channel types based on the jumper/tap settings of analog channels and group similar channel types. and 5 are voltage channels with tap settings 140 V For channels 1. and 5. and 7.com .2 – Calibrating the System 115 www. perform the following during calibration: • • Figure 7. Identify the analog channel types (voltage/current) that physically exist on the acquisition board. 3. This indicates that Group 2 corresponds to a set of channels of type Voltage 140 AC. Once the grouping is done. For channels 2. In this situation.qualitrolcorp. Consider the following example: The acquisition unit has 3 current and 3 voltage channels in the following manner: • • Channels 1. and 7 are current channels with tap settings 10 A and Channels 2. select Type as Voltage 140 AC and Group as 2. 4. This indicates that Group 1 corresponds to a set of channels of type Current 10 AC. Figure 7.com . Select the group that needs to be calibrated. and then click Continue.qualitrolcorp.3 – Offset Calibration 116 www.Maintenance 4. The device performs offset calibration. Maintenance 5.com . apply Zero current/voltage to channels under calibration.4 Shorting the Channels 117 www. After shorting all the channels displayed. click Continue to proceed further.qualitrolcorp. The following Web page allows the user to short the input channels under calibration. Figure 7. When calibrating with Relay Test Set. 6 – System Prompt TX-AFE: • • For Voltage/mA loop/DC calibration. and the data recording is paused. the device proceeds for only low gain calibration For Current/External Clamp CT. Figure 7. the system prompts the user for confirmation to perform a low gain calibration. the device enters the Calibration mode in which all sensors are disabled. Figure 7. After the offset calibration is done.qualitrolcorp.Maintenance 6. the device proceeds for low gain as well as high gain calibration. The delay is introduced by the GUI to allow the device to settle with the specified input. In HIA-AFE. all channels have only one gain calibration.com . HIA-AFE: • 118 www. During offset calibration.5 – Calibration in Progress 7. The calibration command is sent to the device after a delay of 10 seconds. Voltage Calibration 119 www.7 .com .Maintenance Figure 7.qualitrolcorp. The utility sends the command to the device after a 10 second delay.8 Current Low Calibration 8.qualitrolcorp.com . 120 www. The same process is followed as mentioned earlier for the high gain factor of the channels under calibration.Maintenance Figure 7. Click Continue to allow the device to perform low gain calibration. For normal TX-AFE current calibration. the device performs a high gain calibration. 9 – High Gain Calibration 7. Points to Remember • • The voltage/current source channels must be connected properly.com . the user has to load the default calibration values.1. the user has to form a DFR and check whether the values are proper with respect to the applied values to the device. In case of an inaccurate calibration. If the user changes the frequency of the device in the calibration window.10 – Load Defaults 121 www.Maintenance Figure 7.2. • • Figure 7. then the device needs to be calibrated.qualitrolcorp. To ensure if the calibration is done properly. maintain the temperature range of -30°C to +70°C and maximum humidity of 95%.qualitrolcorp. Transport the device only in its original packaging. • 7. Consider the following example: Suppose the user has calibrated a few channels leaving all the others to “Undefined Channels”. Routine Maintenance This instrument is a solid-state electronic device and there are no adjustable or renewable parts inside that require routine maintenance. the next time the user configures and calibrates these channels.1. it is recommended that a calibration check be performed every 5 years. 7. the earlier calibration values are lost. In this condition. the user has to save the earlier calibrated values and then proceed. the earlier calibrated values will be lost.2. Protect the device against direct sunlight.2. Storage • • Keep the original packaging intact. Keep the User Manual supplied with the device for future reference. General Maintenance 7.2.com . If the user wants to operate the device at 60 Hz. moisture. • • • 7. It might be required at a later stage for transport.2. As a result. and mechanical impacts. Refer to Appendix E for more information. Protect the device against impacts and loads. Transport • • • Only the original packaging guarantees proper protection against mechanical impacts.Maintenance • For every group change or type change. the device is restarted. heat.2. the user must wait for the device to restart and then proceed for calibration. the device must be re-calibrated with a 60 Hz frequency setting. maintain a temperature range of -30°C to +70 °C and a maximum humidity of 95 %. Protect the device during transport against heat and moisture. 122 www. However. • The default frequency setting of the INFORMA PMD-A device is 50 Hz. If the unit has a battery. switch off the battery by using the switch that is available on the UPS board during storage.3. Store the device in a dry room. The operating frequency can be changed by using the “System frequency” drop-down menu as shown in Figure 6. When a frequency change occurs.2. after the first commissioning. Do not expose to. Never use a battery that has suffered abuse. Do not immerse in water. rinse with large volumes of water for at least 15 minutes. direct contact with skin and eyes are to be considered serious and must be treated immediately. Storage of Battery for a Long Time: If the batteries are stored for more than 3 months without use. or dispose the battery in fire.Maintenance 7. If these batteries are stored for more than 6 months.4.2. and well-ventilated area. refer to data provided by the manufacturer. 123 www. In the event of a contact with the battery fluids. UPS Maintenance Precautions for Handling and Use of Battery: • • • • • • Avoid shorting the battery. and consult a doctor. For further information about batteries. Store the battery in a cool. Acute Health Effects and First Aid Measures: In the unlikely event of an accidental exposure to the battery fluids. Do not disassemble or deform the battery. there can be a serious effect on the battery life.com . dry.qualitrolcorp. then they have to be discharged completely and recharged until 50% of the "end of charge" voltage. 3.bin file in this folder. Remote PPP through a modem (external/internal) direct dial-in connection to the device.bin file in this folder. Contact Qualitrol for the latest versions of firmware. Create a new folder on the computer to store the firmware files. 5. Save either fpga_bank1. 2.com . Save the dsp_bank1. Save the initrd_CMxx. 4.3.y_with_crc file in this folder. 6. 7. If the kernel has to be changed.1. Firmware Upgrade 7.yy_Azz_with_crc.bin (for HIA-AFE) in this folder.Maintenance 7. INFORMA PMD-A Firmware Upgrade Procedure Perform the following tasks to upgrade the firmware: 1. The external modem uses a rear panel RS232-2 connector and no VPN access is required. then save the ulmage_x. • Note The user must set up a phone book entry/dial-up connection on the computer with the appropriate phone number settings (refer to Appendix A). Save the pic_bank1.bin file in this folder. 124 www.bin (for TX-AFE) or fpgaHiAfe_bank1.3. Communication between the computer and the device can be made in one of the following ways : • Local TCP-IP through a hub/switch/crossover cable connection to the RJ45 connector on the rear panel of the device.qualitrolcorp. com . Default user and password (mfgindex/tabindex): Username: qualitrol Password: qualcorp_techSupport10 For changing password go to: http://<ip address of device>/tabindex_password The following Web page is displayed. open a URL (the default IP is directed to either <http://192.html> when the communication is through RJ45. When TCP-IP communications are properly established between the computer and the device.11/tabindex.38.html> when the communication is through a modem).2/tabindex.1.0.168.Maintenance 8.11 – System Information 125 www.qualitrolcorp. Figure 7. or to <http://10. html> (RJ45) Or <http://10.html".12 – PMD-A Upgrade Page (Top) 126 www. we shall proceed with next step.38.Maintenance 9.168. Once it becomes "1%".11/upgrade.0.cgi> (modem) Caution: Deleting data could take up to 15 minutes.168.1.cgi> (RJ45) Or <http://10. The status of used memory can be seen on the “Diagnostic Information” page on "http://device_ip/mfgindex.2/upgrade. Delete data from the PMD-A Remark: make sure required data is downloaded before using iQ+ software Delete data with: <http://192.com . Figure 7.html> (modem) Default user and password for upgrade: Username: qualitrol Password: qualcorp_Upgrade10 For changing password go to: http://<ip address of device>/upgrade_password The following Web page is displayed.1.38.11/cgi-bin/delrecs.2/cgi-bin/delrecs.qualitrolcorp. 10. Open a Web browser and enter the following URL: <http://192.0. Browse through the folder to locate the appropriate file.com . 11. For upgrading the firmware.13 – PMD-A Upgrade Page (Bottom) The PMD-A Upgrade page allows the user to upgrade the following: • • • • • • • CPU_Application DSP FPGA FPGA_HI_A PICFirmWare MMIFirmware All of the above The PMD-A Upgrade page also allows the user to upgrade the CPU-Kernel. 127 www. perform the following steps: a.Maintenance Figure 7. Note The CPU-Kernel should only be sent along with the latest CPU_Application.qualitrolcorp. bin mmi_bank1.y_with_crc” file.bin dsp_bank1. If the person upgrading the device has left the computer unattended for a long time. click the respective check box for which you have browsed and send files to device and then click on “ToggleAll” button.yy_Azz_with_crc. 12. After browsing the appropriate file.bin fpgaHiAfe_bank1. click on “CPU-Kernel” browse button to locate the “ulmage_x. After clicking ”ToggleAll” button device will be automatically restarted . If the user is using a modem. for upgrading CPU-Kernel. c. After clicking ”Toggle” button device will be automatically restarted . Application CPU_Application DSP FPGA FPGA_HI_A PIC MMI File to be Selected initrd_CMxx.qualitrolcorp.Wait until the Healthy LED glows on the front panel of INFORMA PMD-A device. For example.bin pic_bank1. click on “Send” button. Note The user can toggle multiple applications by selecting the respective check boxes provided in the TOGGLEALL section.com . which is at least 17MB. then the modem connection might be dropped because of no activity on the line. a success message error_string=SUCCESS is displayed. it needs to be toggled for the new file to take effect. Wait until the Healthy LED glows on the front panel of the device.Maintenance The following table lists the files which can be upgraded for INFORMA PMD-A. Scroll down webpage and go to “ TOGGLE_ALL”section.bin fpga_bank1. After the application file is sent. The default modem inactive time is 66 seconds. Repeat above procedure for all files to be upgraded in device.. The user can then check for new versions through the System and Diagnostic Information pages that are displayed. When the file is sent successfully. the CPU_Application may take up to 1 hour 45 minutes to upload the initrd_wthcrcPx. and then click on Send button. d. Only if necessary. This process will upgrade to all newly sent firmware version executables/applications to the INFORMA PMD-A device. click the Toggle button for the “CPUkernel”. On receiving the confirmation that the file is sent successfully.yz file. e. The subsequent pages show the updating processes involved after the device is successfully upgraded.bin Check Box CPU_APP DSP FPGA FPGA_HI_A PIC MMI b. then the file transfer rate may be very slow. 128 www. 35. the modem connection must be re-established and the Toggle/ToggleAll button must be invoked in order for the new version to take effect 7. When the file has been uploaded and stored into the INFORMA PMD-A device. Note For the purpose of this manual.14 – String Success 129 www.2.168. a progress bar is displayed that signifies that communications and re-programming are in progress.qualitrolcorp. the URL shown here has a device with the IP address 192.com .3. a success message error_string=SUCCESS is displayed.242.Maintenance In this situation. During File Upload to INFORMA PMD-A During the upload process. Figure 7. 3. During CPU File Upload to INFORMA PMD-A During the upload process.com .15 – Uploading the File 130 www.qualitrolcorp. Figure 7. similar to other file uploads.Maintenance 7.3. a progress bar is displayed that signifies that communications and re-programming are in progress. 3. Figure 7.168.com . System and Diagnostic Information After the INFORMA PMD-A device has restarted and the Healthy LED is on.33.html> For example.html> 131 www.qualitrolcorp. <http://192.16 – File upgrade status 7. a success message error_string=SUCCESS is displayed. open a Web page and enter the URL as: <http://board_ip address/mfgindex.Maintenance When re-programming is completed.4.114/mfgindex. qualitrolcorp.Maintenance The following page is displayed. 132 www. Note The Firmware versions shown in the Figure 6.17 .com . Consult Qualitrol for the latest versions.System Information Ensure that the newly installed firmware versions displayed in the page are correct. Figure 7.19 may have been updated after this manual is written. Maintenance Click the Diagnostic Information tab and the following page is displayed.Diagnostic Information Page (Top) 133 www.qualitrolcorp.com . and Power Health. and CPU are “working”. PIC. Figure 7. FPGA.18 . Ensure that the DSP. and PIC are programmed successfully. 134 www. contact Qualitrol for help at [email protected] Information Page (Bottom) 7.Maintenance Figure 7. Always follow the safety instructions and safety precautions mentioned in SAFETY SUMMARY.com . Before attempting to troubleshoot a defective INFORMA PMD-A device. Troubleshooting No part of the equipment is serviceable by the user.19 .com .qualitrolcorp.4. com . Check the PC baud rate. 2. Or • • • • Power Supply not Refer to Section 6. Refer to Section 6.1 for initial inspection and working rectification.qualitrolcorp. • • 135 www.4. • Communication modules not working Motherboard not working 1. Ensure that the serial port and connection cable pin-out are compatible. Problem Symptom and Indication Potential Causes Corrective Action • Not all the LEDs are glowing. Motherboard not working Only Power Healthy LED is OFF and all other are working.Maintenance If any one or all three LEDs (Power healthy.4. No Communication – Only COMMS LED is OFF and all other LEDs on the front panel are working.3 for initial inspection. • • Clock sync LED is OFF and all other LEDs on the front panel are working.4. and Clock Sync) on the front panel of the INFORMA PMD-A device are not working.2 for further probing information. • Not synchronized with GPS/RTC PPS (in master mode) Not synchronized with external master (in slave mode) Motherboard not working Refer to Section 6. Communication. perform the steps mentioned in the following table for finding the fault in the device and rectification. Power Healthy LED on the Front Panel is Off To find the possible causes for power supply failure.qualitrolcorp.20 – Power Failure Causes 136 www.4 for details.com . Is Healthy LED ON? Figure 7.4. follow the steps mentioned below: Power healthy LED (HEALTHY) is OFF Check whether input power is correctly available on the rear panel? Is Power Available? NO Resolve Power Connection Issue YES Open the front panel of the equipment Check the voltages at the respective test points on the motherboard. Refer section 6. Are Voltages correct? YES Reboot the system by pressing the RESET switch that is present on the Mother Board. Refer Section 6.Maintenance 7.1.4.4 NO NO Contact Qualitrol Support for further help with Model and Serial Number.4. 2. follow the steps mentioned below: Figure 7. Communication LED is Off To find the cause for the communication failure.21 .Maintenance 7.4.qualitrolcorp.com .Communication Failure 137 www. Clock Sync LED is Off To find the cause for the clock synchronization failure. 138 www. Test Points to Verify the Supply Voltages Supply voltage test points are available on the motherboard.4.4.Clock Synchronization Failure 7.3.22 .qualitrolcorp. follow the steps mentioned below: Figure 7. Test points are located between the connector CN19 and the connector CN8 on the motherboard.4.com .Maintenance 7. qualitrolcorp.23 – Location of Reset and Shutdown Switches and Supply Voltage Test Points on the Motherboard 139 +12V www.com .Maintenance Shutdown switch Reset switch DGND +5V -12V Figure 7. com .qualitrolcorp.Appendix A – Technical Specifications Appendix A Technical Specifications 140 www. alarm and sensors( status)) Developed. battery.Appendix A – Technical Specifications Appendix A – Technical Specifications The following table lists the technical specifications for the INFORMA PMD-A device. Calibration check to be performed once in 5 years. Sampling rate 25. Category General Parameters Processor Specifications 32 bit. The INFORMA firmware is designed to optimize the write operations for every memory block. and manufactured according to DN ISO 9001:2000.5 dB Operating System Status Indicators Quality System Calibration Monta Vista Linux with real time extensions 9 LEDs (Healthy.6 kHz at 50 Hz. Communication. clock sync. Power Supply Input Range Type 1: 90 – 264 VAC (88-300 VDC). Solid state design. no user adjustments. designed.qualitrolcorp.72 kHz at 60 Hz Bandwidth 25 to 4600 Hz ± 0. 30.com . 47 –63 Hz Type 2: 36 – 72 VDC Type 3: 18 – 36 VDC Maximum Load 40 VA for 3U INFORMA PMD-A device and 80 VA for 6U INFORMA PMD-A device 141 www. trigger. 400 MHz processor 9 configurable analog channels for INFORMA PMD-A 3U device . Data Storage Compact Flash for record storage 4 GB standard (8 GB/16 GB optional) On-board Flash for firmware – 64 MB A RAM based temporary file system is used to avoid excessive Flash use avoiding Flash wear. 9/18/27/36 configurable analog channels for INFORMA PMD-A 6U device. 5 MHz.qualitrolcorp.1 MΩ (at 440 V) 16-bit resolution for voltage Input Option 2: HIA-AFE Impedance: > 4MΩ 24-bit resolution for voltage/current channels: Accuracy ≤ 0.com . 120.5 V) . 240.5 MΩ (at 63. > 0. 10 MHz. > 1 MΩ (at 240 V). 2 (20). 480 300 V CAT III.(TX-AFE and HIA-AFE) Nominal (full scale) in AAC: 1 (10). Sampling rates (user configurable): 20 MHz.5 (140) 120 (270) 240 (480) 440 (800) Safety Rating Maximum Overload Input Option 1: TX_AFE 300 V CAT III.Appendix A – Technical Specifications Category Parameters Typical Load Specifications 25 VA for 3U INFORMA PMD-A device and 50 VA for 6U INFORMA PMD-A device Auxiliary Output Analog Inputs Voltage AC Input Range DC output 12 VDC at 750 mA Nominal (full scale) in VAC: 63. 150 V CAT IV 500 VDC continuous >= 420 KΩ . 5 (50). 150 V CAT IV 1000 VAC continuous Impedance: > 2. 10 (100) Analog Inputs – Current Input Range 142 www.5 MHz.> 2 MΩ (at 120 V) .5 kHz to 5 MHz.1° Optional for HIA-AFE: Fast Transient Recording The transient voltage (up to 6 kV) is detected by the TR module with a bandwidth of 2. 2. 1.25 MHz 12-bit resolution Analog Inputs Voltage DC (optional instead of AC) Input Range Safety Rating Maximum Overload Input Impedance Full scale in VDC: 12. Resistive load: 250 VAC 5 A.8 mm 487 mm x 362. Relay 4 is user configurable for either temperature under/over temperature threshold.02 Ω 20-bit resolution for current (To achieve a 20-bit resolution on a current channel two 16-bit A/D converters are used with different gain factors to provide an effective 20-bit resolution.0 A Options Time Synchronization GPS (accuracy ± 300 ns between time masters) IRIG-B modulated and level shift (accuracy ± 2 ms between time masters) Time slave (synchronized through 1 PPS) Mechanical Dimensions H x W x D: 132.2 mm for INFORMA PMD-A 6U device Weight 15 kg without battery and 15.5 kg with battery for INFORMA PMD-A 3U device 23 kg without any external battery and 4 kg with two external batteries for INFORMA PMDA 6U device Housing/Mounting Metal 19” rack mounted cabinet 143 www.2 mm for INFORMA PMD-A 3U device H x W x D: 265.5 mm 487 mm x 362. 3 are user configurable for PQ parameters . Relay 2.com . 48 VDC 1.qualitrolcorp.) . 110 VDC 0. 40 A continuous < 0. Digital Inputs 32 (isolated into groups of 8) Voltage range independent from 24/48 to 250 VDC Alarm Notification 4 form A/B relay outputs (configurable normally closed or normally open at factory) Relay 1 indicates system Healthy.5 A.Appendix A – Technical Specifications Category Parameters Maximum Overload Input Impedance Specifications 200 A for 1 second. com . Passed with : Criteria A 144 www. IEC 61850. GSM. GPRS IEC 61000-4-30 Class A IEC 61000-4-7 harmonics and inter-harmonics IEC 61000-4-15 flicker CBEMA. three are RS232 ports with male DB-9 connectors. Tested for 10 V.qualitrolcorp. ITIC IEEE 1159. 150 kHz – 80 MHz Tested on Power-line. Ethernet port 1. Digital Inputs. RS232 -1. Analog inputs (V & I).90) modem (optional on RS232-2) Two 100 Mb Ethernet ports with RJ45 connectors Optional Fiber optic Ethernet (on rear port) Differential (RS485 levels) for 1 PPS for time synchronization Fiber optic 1 PPS output (master)/input (slave) TCP/IP.) Internal PSTN (V. IEEE 519 Protocols Standard Compliance Environmental Temperature Operating: -5°C to 50°C (23°F to 122°F) Cold start is not possible below 0°C (32°F) Storage: -30°C to +70°C (-22°F to +158°F) Humidity Enclosure Others 0 to 95% non-condensing IP 40 according to IEC 60529 RoHS compliant EMC Standards Standards IEC 60255-22-6 / IEC 61000-4-6 Conducted Susceptibility (CS) References/Test criteria Tested to IEC 61000-4-6. and one is RS485 with 1*5 pin connector.Appendix A – Technical Specifications Category Communication Parameters Ports Specifications Four Serial (of these. and Relay Outputs. Modbus. IEC 60870-5. com . 1 kV Differential Mode. Relay outputs. Analog 145 www.90. Tested for 10 V/m.2002 Electrical fast transient burst test References/Test criteria Tested to IEC 61000-4-4.5KHz Tested on Power-line.5 kV Common Mode.50 MHz to 5 MHz Tested on : Complete Device Passed & the Emission levels are within the Specified limits of CISPR 11 EN 55011 Radiated Emission (CE) Tested to CISPR-11 Tested for 40 dB (µV/m) quasi-peak from 30 MHz to 230 MHz at 10 m (32.qualitrolcorp.5 MHz 73 dB (µV) quasi-peak and 60 dB (µV) average at 0.50 MHz to 5 MHz 73 dB (µV) quasi-peak and 60 dB (µV) average at 0.2002 Damped oscillatory wave disturbance tests Tested to IEC 61000-4-12 . 1MHz Tested on : Power-line. Analog inputs (V & I). Digital Inputs. RS232-1.Tested for 30 A/m.90. Passed with : Criteria A IEC 60255-22-3 / IEC 61000-4-3 Radiated Susceptibility (RS) Tested to IEC 61000-4-3. 80 MHz – 1000 MHz Tested on Complete Device Passed with : Criteria A EN 55011 Conducted Emission (CE) Tested to CISPR-11 Tested for 79 dB (µV) quasi-peak and 66 dB (µV) average at 0. 5KHz/100KHz/2. Tested for : 4 kV. y.Appendix A – Technical Specifications Standards IEC 60255-22-4 / IEC 61000-4-4 & ANSI C37.1. z axis Tested on : Complete Device Passed with : Criteria A IEC 60255-22-1 / IEC 61000-4-12 & ANSI C37.8 ft) 47 dB (µV/m) quasi-peak from 230 MHz to 1000 MHz at 10 m (32. Ethernet port 1.8 ft) Tested on : Complete Device Passed & the Emission levels are within the Specified limits of CISPR 11 IEC 61000-4-8 Power frequency magnetic field test Tested to IEC 61000-4-8 .Tested for 2.15 MHz to 0.1. x. Digital. Interruptions-Class-3 146 www. Analog inputs( V ).qualitrolcorp.Appendix A – Technical Specifications Standards References/Test criteria inputs( V ).5 J.com . IEC 60255-5 Clause 8 Impulse voltage test Tested to +/-5 kV. No flashover or breakdown occurred. 50% duty cycle [2. @900 MHz +/. @1890 MHz +/10 MHz keyed at frequency 200 Hz +/.2 kV Common Mode. IEC 60255-5 Clause 7 Insulation test Tested to applied 500 VDC with respect to Earth. IEC 61000-4-11 Supply Voltage Dips Tested to Dips-Class-3.1%. I/O 4 KV Common Mode. 1 kV Differential Mode. and 1 kV for isolated communication ports (RS232 & RS485) . Tested on: Power-line. Tested for Level 3.5 kV for Power-port. 10 V/m. Relay.+/. Tested on Complete Device Passed with : Criteria A IEC 60255-5 Clause 6 Dielectric test ANSI IEEE C37. 100KHz Tested on Power-line. Relay Passed with : Criteria A IEC 61000-4-12 Ring wave test Tested to IEC 61000-4-12. Analog inputs (V & I).Tested for Class 4. Tested on Power port.90 – 1989 SWC dielectric tests Tested to 2. Digital.5 ms OFF]. Relay Passed with : Criteria A IEC 61000-4-5 Surge test Tested to IEC 61000-4-5 .5 MHz.Digital inputs. Digital inputs & Relay. 0. Tested for level 3. digital. Digital. The impedance was greater than 100Mohms. Analog inputs( V ).5kV for 1 minute. 2KV Differential Mode Tested on Power-line. Tested for 2.5 ms ON 2. Relay Passed with : Criteria A ENV 50204 Immunity to EMI from digital radio telephones Tested to ENV 50204. Analog inputs (V & I) & Relay. No flashover or breakdown occurred. Analog inputs (V & I). 15 kV air Tested on Enclosure. Tested on Complete Device IEC 60068-2 Cyclic Temperature Test Tested for Cyclic Temperature test for a 5 cycles. Passed with : Criteria A IEC 60255-6/EN60255-6 Supply voltage limit test Tested for PSU Tested for DC range 80VDC to 132VDC IEC 60068-2-1/EN60068-2-1 Cold tests Tested for Cold Storage -45 C (49 F) for 96 hours Cold Operating: -5 C (23 F) for 16 hours Tested on Complete Device IEC 60068-2-6 Vibration tests Tested for 2g Acceleration.Appendix A – Technical Specifications Standards and Interruptions References/Test criteria Tested on Power-port. and z). y.qualitrolcorp.150 HZ.Criteria A Interruptions . Passed with : Dips . 20 sweep cycles in each of three mutually perpendicular planes (x. Frequency is 10. Each cycle has 3 hours for 70 degrees & 3 hours for -5 degree in Power off Condition Tested on Complete Device 147 www. all accessible I/O lines and ports.com .Criteria B IEC 60255-22-2 / IEC 61000-4-2 Electro static discharge tests Tested to IEC 61000-4-2.Tested for : 8 kV contact. Appendix A – Technical Specifications IEC 61000-4-30 Class A The following table summarizes the INFORMA PMD-A accuracy and range specification of IEC 61000-4-30 Class A parameters. The INFORMA PMD-A is specified for Udin = 230V, 50/60 Hz. Accuracy Specified over Range 42.5 Hz ~ 57.5 Hz, 51 Hz ~ 69 Hz 10%~150% of Udin. 0.2~10.0 Pst N/A N/A Measuring Range 42.5 Hz ~ 57.5 Hz, 51 Hz ~ 69 Hz 10%~200% Udin 0~20 Pst N/A N/A Parameter Accuracy Frequency Voltage RMS Flicker short term (10 min)-Pst Supply Voltage Dips and Swells Voltage interruptions Voltage Unbalance +/- 0.01 Hz of injected +/- 0.1% of Udin 5% of Measured Value / applied input ±0.2% of Udin. ±0.2% of Udin. If unbalance is in the range 1 to 5% = +/-0.15% Um >= 1% Unom 5% of Um Um < 1% Unom .05% Unom ( Max allowed THD = 20% ) Um >= 1% Unom 5% of Um Um < 1% Unom 0.05% Unom ( Max allowed THD = 20% ) 1% and 3% of Udin ±0.15% of Udin 3% and 15% of Udin ±5 % of the measured value +/- 0.1% of Udin 1 – 5% 0 – 100% Harmonics (up to 50th order) 10% to 200% of Class 3 IEC 61000-2-4 10% to 200% of Class 3 IEC 61000-2-4 200% of Class 3 of IEC 610002-4 200% of Class 3 of IEC 610002-4 Interharmonics (up to 50th order) Signaling Voltages 0% to 15% of Udin [below 3 kHz] 0% ~ 15% Udin Supply Voltage Under and Over deviation Note: Udin = Nominal voltage Um = Measured Voltage Unom = Nominal voltage 10% ~ 150% of Udin. N/A 148 www.qualitrolcorp.com Appendix B – INFORMA PMD-A Functions Appendix B INFORMA PMD-A Functions 149 www.qualitrolcorp.com Appendix B – INFORMA PMD-A Functions Appendix B – INFORMA PMD-A Functions Power Quality Parameters Power quality parameters can be distinguished between steady state phenomena and nonsteady state phenomena. Steady State Phenomena In these phenomena, INFORMA PMD-A records PQ parameters continuously at 10-minute intervals and/or a user-defined time interval. Steady state phenomena = continuous recording (10-minute recording and or user-defined time interval) • • • • • • • • Power frequency (10-second) Magnitude of supply voltage Flicker Voltage unbalance Harmonics Inter-harmonics Mains signaling (3-second) Over deviation and under deviation Non-Steady State Phenomena In these phenomena, INFORMA PMD-A records PQ events/Triggered recordings (DSI, RVC). Non-steady state phenomena = triggered recordings/PQ Events • • Voltage dips/sags, swells, and interruptions (DSI) Rapid voltage changes (RVC) Power Line Frequency (10-second) The power frequency is recorded by measuring the time between two positive zero crossings of the signal. 10-second frequency is a single value derived from configured reference channel, with time tag, and flagging information. The frequency calculation complies with IEC 61000-4-30. 150 www.qualitrolcorp.com Appendix B – INFORMA PMD-A Functions Figure B.1 – 10-Second Frequency Record • • Note Applied Frequency = 50 Hz Measured Frequency = 50 Hz Magnitude of Supply Voltage The RMS value of the voltage at a given time at the supply terminals, measured over a given interval. The supply voltage recording is at 10-minute intervals and/or user-defined time intervals. 151 www.qualitrolcorp.com 2 .Appendix B – INFORMA PMD-A Functions Figure B. It is the impression of unsteadiness of visual sensation induced by a light stimulus whose luminance or spectral distribution fluctuates with time. Flicker recording complies with the IEC 61000-4-15 standard.com . 152 www.Magnitude of Supply Voltage Record Note The device is connected to the main supply.qualitrolcorp. The voltage fluctuates between 235 V to 250 V. Flicker data is stored in the recorder memory where it can be retrieved using the iQ+ Master Station software. Flicker is calculated on all three phases. Flicker Flicker is a slow cyclical variation of the amplitude of the RMS voltage envelope. Unbalance data can be stored in the recorder memory where it can be retrieved using the iQ+ Master Station software.com .3 – Flicker Record • Note Flicker applied to the device is 10 Pst (nominal voltage 230 VAC).qualitrolcorp.Appendix B – INFORMA PMD-A Functions Figure B. The INFORMA PMD-A device records the unbalance at 10-minute intervals and/or user-defined time intervals. The level of unbalance is typically monitored from 10-minute average intervals and is expressed in %. 153 www. Unbalance recording complies with the IEC 61000-4-30 standard. The green line indicates the voltage RMS value and the other 3 lines indicate the flicker Pst values on all the three phases. • Voltage Unbalance Voltage unbalance is a condition in which the RMS values of the phase voltages or the phase angles between consecutive phases are not equal. Note The maximum voltage unbalance displayed is 100%. The user can select up to the 50th harmonic quantity for each three-phase group of analog channels to be recorded at 10minute intervals and/or user-defined time intervals.com .4 – Unbalance Record Voltage unbalance is displayed as 100% because all phases are In-phase.Appendix B – INFORMA PMD-A Functions Figure B. The conditions in which the harmonics. inter-harmonics. and THD parameters are forced to zero are: • • When applied voltage (fundamental) is zero. 154 www. Harmonics Harmonics are systematic distortions of the waveform resulting from the super imposition of secondary signals having frequencies of a multiple of the fundamental frequency.qualitrolcorp. When applied voltage (fundamental) is less than 10% of nominal voltage. The power quality recording function in the INFORMA PMD-A provides a comprehensive harmonic recording function comply with IEC 61000-4-7. qualitrolcorp. The inter-harmonic recording function complies with IEC 61000-4-7.5 – Harmonics Record Note • Harmonics applied to the device is 6% of nominal voltage 230 VAC. 155 www. The user can select up to the 49th inter-harmonic quantity for each three-phase group of analog channels to be recorded at 10-minute intervals and/or user-defined time intervals. • Inter-Harmonics Harmonics that have frequencies equal to non-integer multiples of the fundamental are interharmonics. The green line indicates the voltage RMS value and the other 3 lines indicate the voltage harmonic (% of fundamental) values on all the three phases.Appendix B – INFORMA PMD-A Functions Figure B.com . com . • • Mains Signaling Voltage Voltage signals whose frequencies are different from the fundamental frequency are injected into the network.qualitrolcorp. 156 www. The user can observe a slight variation in the voltage RMS because of the delay in the transition of voltage inter-harmonics from 10% to 5% of nominal voltage.6 . specified by the user in 10-second steps.Inter-Harmonics Record Note • Voltage inter-harmonics applied to the device is 10% and then 5% of nominal voltage 230V AC. These injected voltage signals have to remain within acceptable limits (maximum RMS value) to avoid disturbing the connected equipments. The green line indicates the voltage RMS value and the blue line indicates the voltage inter-harmonic (% of fundamental) value on a single phase.Appendix B – INFORMA PMD-A Functions Figure B. Signaling voltage records are of fixed length (no re-triggering during a recording) and composed of 10-second pre fault and up to a maximum of 120-second post fault. The green line indicates the voltage RMS value and the other 3 lines indicate the signaling voltage values on all the three phases. • Dips.com .qualitrolcorp.Appendix B – INFORMA PMD-A Functions Figure B. Swells. and interruptions. The duration and magnitude of each incident is characterized in compliance with IEC 61000-4-30. 157 www.Signaling Voltage Record Note • Mains signaling voltage applied to the device is 5% of nominal voltage 230 VAC. swells. And Interruptions (DSI) The power quality recording is equipped with a software power quality sensor that automatically detects voltage dips.7 . Incidents are retained in memory and can be retrieved for display and analysis by the iQ+ Master Station software. 8 – RMS Envelope Swell Rapid Voltage Change (RVC) A rapid voltage change is a quick transition in the RMS voltage between two steady-state conditions. To measure rapid voltage changes.Appendix B – INFORMA PMD-A Functions Figure B. it is considered as a DSI.com . else.qualitrolcorp. 158 www. thresholds are defined for each of the following: • • • • The minimum rate of change The minimum duration of the steady-state conditions The minimum difference in voltage between the two steady-state conditions The steadiness of the steady-state conditions The voltage during a rapid voltage change must not exceed the DSI threshold. qualitrolcorp.9 .RMS Envelope PQRVC 159 www.Appendix B – INFORMA PMD-A Functions Figure B.com . qualitrolcorp. 3-Ph Active 1-Ph Reactive.Appendix B – INFORMA PMD-A Functions Power Quality Sensors PQ Sensor Functionality Resulting Record DFR RMS Envelope Record DSI RVC Interval of PQ Calculation Urms (1/2) 200 ms (10/12 Cycle) PQ Calculated Quantity RMS Voltage RMS Current RMS voltage / Current Harmonic (up to 50 individually) and interharmonic (up to 49 individually) (voltage/current) THD/TDD Power: 1-Ph Active. 3-Ph Power factor Cos Phi Crest factor (voltage/current) k-factor Zero/negative sequence Over Under Both UAUnder X - UAOver X - X X X X X X UABot h X - X - X - X X X X X X - - - - - X X X - - - - - X X X X X X X X X X X X - - - - - 160 www. 3Ph Reactive 1-Ph Apparent.com . 3Ph Apparent 1-Ph Distorted. 3Ph Distorted Harmonic Power(up to 50 harmonics individually) 1-Ph Power factor. com . A total of 80 PQ sensors are available in INFORMA PMD-A. This comes into picture if the event trigger (causing a record to start) lasts beyond the user-specified operational limit. then the event is de-triggered. If the computed value of the configured 161 www. The device may be configured in order to perform one or more functions.Appendix B – INFORMA PMD-A Functions Resulting Record DFR RMS Envelope Record (voltage/current) Positive sequence (voltage/current) Unbalance (voltage/current) Signalling voltage 10 seconds 10 minutes Frequency Flicker X X X - - - - - X X X X X X X X X X - - - - - Sensors are programmed to look for various types of PQ thresholds on calculated quantities and digital input changes. and Oplimit (operational limit time) logic are fully adjustable. Oplimit is the maximum time for which DFR is performed after a fault occurs.qualitrolcorp. if the fault persists for more than the postfault time. PQ Sensor Types Over: Applied on 200 ms data. 10-second frequency. If the computed value of the configured parameters exceeds the “Over_Start -threshold calculated” value. INFORMA PMD-A sensors are completely adjustable either on site. Prefault. postfault. and 10-minute flicker. The user can also inhibit the sensors using software and digital input configuration. INFORMA PMD-A provides the following PQ sensor types on which different types of sensors can be configured. Corresponding logs and records are generated. or remotely. Sensor Inhibit Using Software Configuration: Each PQ sensor can be individually enabled/disabled by user configurations. then the event is triggered. Under: Applied on 200 ms data. 10-second frequency. then the event is triggered. if they are configured as PQ sensors. and 10-minute flicker. If the computed value of the configured parameter reduces below the “Over_Stop -threshold calculated” value later. If the computed value of the configured parameters reduces below the “Under_Start -threshold calculated” value. to meet user requirements. Sensor Inhibit Using Digital Input Configuration: Each PQ sensor can be inhibited by the state of single specified digital input. are available for each of the busbar. consequently 2 sensors each. UA-Under: Applied on Urms (1/2) data. a sensor is triggered. Corresponding logs and records are generated. These are special function sensors and may be applied to voltage channels only. UA-Both: Applied on Urms (1/2) data. 10-second frequency. If the Urms (1/2) value exceeds the “UA_Over Start threshold calculated” value. For each busbar. 162 www. then the event is triggered. Retriggering happens if the parameter value swings between Under to Over and vice-versa. If the RMS value reduces below the “UA_Over Stop -threshold calculated” value later. DSI: Applied on Urms (1/2) data. Corresponding logs and records are generated. then the event is de-triggered. Only sensors of the DSI or RVC types can initiate an RMS Envelope Recording. If the computed value of the configured parameter exceeds the “Under_Stop -threshold calculated” value OR reduces below the “Over_Stop -threshold calculated” value later. then the event is triggered. then the event is triggered. and 10-minute flicker. then the event is detriggered.qualitrolcorp. only two voltage channels are available. then the event is de-triggered. Both: Applied on 200 ms data. then the event is triggered. De-triggering happens if the RMS value is in normal limits. If the RMS value exceeds the “UA_Under Stop -threshold calculated” value later. Corresponding logs and records are generated. If the Urms (1/2) value exceeds the “UA_Over Start threshold calculated” value OR reduces below the “UA_Under Start threshold calculated” value. If the RMS value reduces below the “UA_Over Stop threshold calculated” value OR exceeds the “UA_Under Stop -threshold calculated” value later. Corresponding logs and records are generated. If the rate of change of the Urms (1/2) value exceeds the limit decided by threshold. UA-Over: Applied on Urms (1/2) data. It is retriggered if the RMS value swings between any of the three limits. RVC: Applied on Urms (1/2) data. then the event is de-triggered. any of the following are allowed: • • A maximum of 3 sensors of the DSI type A maximum of 3 sensors of the RVC type If the "Connection/Cable-type" is set to Aron. If the Urms (1/2) value exceeds the “Start limits” of either Dip or Swell or Interruption. of the DSI and RVC types. If the Urms (1/2) value reduces below the “UA_Under Start threshold calculated” value.com . then the event is triggered.Appendix B – INFORMA PMD-A Functions parameter exceeds the “Under_Stop -threshold calculated” value later. Corresponding logs and records are generated. Corresponding logs and records are generated. Retriggering happens if the parameter value swings between Under to Over and vice-versa. Corresponding logs and records are generated. then the event is de-triggered. It remains de-triggered in normal conditions. If the computed value of the configured parameters reduces below the “Under_Start -threshold calculated” value OR exceeds the “Over_Start -threshold calculated” value. qualitrolcorp. If the aggregation duration is configured for more than 10 minutes.Appendix B – INFORMA PMD-A Functions Note that the sensors of the UA-Under. data will not be available for the duration of the drift. if there is no impact for all other reports when the aggregation duration is configured for less than or equal to 10 minutes. Handling Time Changes When the user is setting the device time. o o o o o o • o o Backward Time Shift • Backward time shift of less than 1 minute: In free interval recording. All other reports (EN 50160 standard threshold. although these sensors use an algorithm identical to that of DSI. In a 10-minute permanent recording. and UA-Both types will not trigger an RMS Envelope. then the situation is referred to as a “Forward time shift”. if the aggregation duration is configured for less than or equal to 10 minutes. it can be shifted forward or backward from the current set time using the iQ+ software. • Forward time shift of less than 10 minutes: The 10-second frequency counts will decrease in the EN 50160 reports (standard threshold and user threshold) equivalent to the amount of drift. In the IEC 61000 report. IEC 61000. Forward time shift of more than 10 minutes: A new segment is formed in both 10-minute permanent recording and free interval recording. the timestamps and frequency values in the drift duration are set to zero. In free interval recording. then the new segment is formed. EN 50160 user threshold. then the new report is formed from the newly set time. then there is no impact. o 163 www. If the aggregation duration is configured for more than 1 minute.com . then a new segment is formed. In free interval histogram. Forward Time Shift If the user has set the device time ahead of the current device time. the data corresponding to the duration of drift will not be available. If the aggregation duration is configured for more than 10 minutes. UA-Over. There is no impact on a 10-minute Histogram. then the data is not available for the duration of the drift. and free interval histogram) will be restarted from the newly set time. if the aggregation duration is configured for less than or equal to 1 minute. 10-minute histogram. Appendix B – INFORMA PMD-A Functions o • No impact on 10-minute permanent recording and all other reports. if the user wishes to start recording the data with the backward shifted time (9:30 in this case). Free interval histogram report will be restarted at the next 10-minute boundary. However. The device will not record data until the device time is 11:30.242/cgi-bin/delrecs. the recording will be restarted with a new segment once the device time reaches the current recording time.cgi> o o o • Note 192.242 is the device IP address.qualitrolcorp. Backward time shift of more than 10 minutes: The device will not record data until the device time reaches the current recording time. then the following steps need to be performed: 1. PQ recording will restart with the new segment once the device time reaches the current recording time. suppose the current device time is 11:30 and the user has changed the time back to 9:30.168.35. For example.168. Backward time shift of more than 1 minute and less than 10 minutes: No impact on 10-minute permanent recording and all other reports except for free interval histogram. all recorded data will be discarded. Access the Causeway Web server software by entering the following URL: <http://192. 164 www. this helps the user not to lose recorded data from the device accidentally because of the changed time. then free interval recording will discard the data until the device time reaches the current recording time and will not break segments. If the aggregation duration is more than 10 minutes. In free interval recording.35. till then.com . The following Web page is displayed. 2. Save all available data from the device to the iQ+ server. if the aggregation duration is configured for less than 10 minutes. Appendix B – INFORMA PMD-A Functions Figure B. Now the device will start recording the data with immediate effect.10 – Deleting Records Note The user may be prompted for a password to access this Web page. 3. 165 www. Select all records by clicking on the individual check boxes and then click the Delete selected data from system button.com .qualitrolcorp. Appendix B – INFORMA PMD-A Functions PQ Calculated Quantities Following are the possible calculations recorded for PQ parameters. etc. Note • • Star and delta are types of topology. THD Odd. 10 seconds Parameters Frequency RMS Zero Sequence Positive Sequence Negative Sequence Unbalance and Zero Unbalance Harmonics (up to 50th order) Inter-harmonics (up to 50th order) THD( THD.qualitrolcorp. are types of cabling. 1 3 1 1 1 2 150 147 9 32 3 1 3 3 6 3 366 Voltage 10/12 Cycle Calculation Urms (1/2) Calculation 166 www.com . STAR Topology The following calculations are possible for 3U-star cabling (Ph-N type). 3U. 3U3I. THD Even) Flicker instantaneous(Pinst) Flicker short term (10 minutes)-Pst Frequency (10 minutes) Signaling Voltages (3) Crest Factor Under and Over Deviation RMS Total Nos. 1 4 1 1 1 2 200 196 12 32 3 167 www.qualitrolcorp.com . Voltage 10 seconds 10/12 cycle calculation Parameters Frequency RMS Zero Sequence Positive Sequence Negative Sequence Unbalance and Zero Unbalance Harmonics (up to 50th order) Inter-harmonics (up to 50th order) THD( THD. THD Odd. 1 3 1 1 1 2 150 147 9 32 3 1 3 3 6 3 366 Voltage 10/12 Cycle Calculation Urms (1/2) Calculation The following calculations are possible for 4U-star cabling (Ph-N type). THD Even) Flicker instantaneous(Pinst) Flicker short term (10 minutes)-Pst Total Nos. THD Odd. THD Even) Flicker instantaneous(Pinst) Flicker short term (10 minutes)-Pst Frequency (10 minutes) Signaling Voltages (3) Crest Factor Under and Over Deviation RMS Total Nos. 10 seconds Parameters Frequency RMS Zero Sequence Positive Sequence Negative Sequence Unbalance and Zero Unbalance Harmonics (up to 50th order) Inter-harmonics (up to 50th order) THD( THD.Appendix B – INFORMA PMD-A Functions The following calculations are possible for 3U-star cabling (Ph-Ph type). 1 3 4 6 4 471 The following calculations are possible for 4U-star cabling (Ph-Ph type).Appendix B – INFORMA PMD-A Functions Urms (1/2) Calculation Parameters Frequency (10 minutes) Signaling Voltages (3) Crest Factor Under and Over Deviation RMS Total Nos. 10 seconds Parameters Frequency RMS Zero Sequence Positive Sequence Negative Sequence Unbalance and Zero Unbalance Harmonics (up to 50th order) Inter-harmonics (up to 50th order) THD( THD. THD Even) Flicker instantaneous(Pinst) Flicker short term (10 minutes)-Pst Frequency (10 minutes) Signaling Voltages (3) Crest Factor Under and Over Deviation RMS Total Nos.com . 1 3 1 1 1 2 150 147 9 32 3 1 3 3 6 3 366 Voltage 10/12 cycle calculation Urms (1/2) Calculation 168 www.qualitrolcorp. THD Odd. THD Odd.Appendix B – INFORMA PMD-A Functions The following calculations are possible for 3U+3I-star cabling (Ph-N type). 1 3 1 1 1 2 150 147 9 32 3 1 3 6 3 1 1 1 2 3 150 147 3 3 3 3 1 3 1 3 1 3 Voltage 10/12 cycle calculation Urms (1/2) Calculation Current 10/12 cycle calculation Urms (1/2) Calculation Power 169 www.com .qualitrolcorp. THD Even) Flicker instantaneous(Pinst) Flicker short term (10 minutes)-Pst Frequency (10 minutes) Signaling Voltages (3) Under and Over Deviation RMS Zero Sequence Positive Sequence Negative Sequence Unbalance and Zero Unbalance RMS Harmonic (up to 50th order) Inter-harmonics TDD k-Factor RMS Single Phase Active Power Three Phase Active Power Single Phase Reactive Power Three Phase Reactive Power Single Phase Apparent Power Three Phase Apparent Power Single Phase Distorted Power Total Nos. 10 seconds Parameters Frequency RMS Zero Sequence Positive Sequence Negative Sequence Unbalance and Zero Unbalance Harmonics (up to 50th order) Inter-harmonics (up to 50th order) THD (THD. 1 3 1 1 1 2 150 147 9 32 3 1 3 6 3 1 1 1 2 3 150 147 3 3 Voltage 10/12 cycle calculation Urms (1/2) Calculation Current 10/12 cycle calculation 170 www.qualitrolcorp.Appendix B – INFORMA PMD-A Functions Parameters Three Phase Distorted Power Single phase power factor Three phase power factor cos phi Harmonic Power Crest Factor Energy Total Nos. THD Odd. 10 seconds Parameters Frequency RMS Zero Sequence Positive Sequence Negative Sequence Unbalance and Zero Unbalance Harmonics (up to 50th order) Inter-harmonics (up to 50th order) THD( THD. 1 3 1 3 150 6 8 864 The following calculations are possible for 3U+3I-star cabling (Ph-Ph type). THD Even) Flicker instantaneous(Pinst) Flicker short term (10 minutes)-Pst Frequency (10 minutes) Signaling Voltages (3) Under and Over Deviation RMS Zero Sequence Positive Sequence Negative Sequence Unbalance and Zero Unbalance RMS Harmonic (up to 50th order) Inter-harmonics TDD k-Factor Total Nos.com . THD Odd. 1 4 1 1 1 2 200 196 12 32 3 1 3 6 4 Voltage 10/12 cycle calculation Urms (1/2) Calculation 171 www. THD Even) Flicker instantaneous(Pinst) Flicker short term (10 minutes)-Pst Frequency (10 minutes) Signaling Voltages Under and Over Deviation RMS Total Nos.com . 3 0 1 0 1 0 1 0 0 0 1 0 0 6 8 695 Energy The following calculations are possible for 4U+4I-star cabling (Ph-N type). 10 seconds Parameters Frequency RMS Zero Sequence Positive Sequence Negative Sequence Unbalance and Zero Unbalance Harmonics (up to 50th order) Inter-harmonics (up to 50th order) THD(THD.qualitrolcorp.Appendix B – INFORMA PMD-A Functions Urms (1/2) Calculation Power Parameters RMS Single Phase Active Power Three Phase Active Power Single Phase Reactive Power Three Phase Reactive Power Single Phase Apparent Power Three Phase Apparent Power Single Phase Distorted Power Three Phase Distorted Power Single phase power factor Three phase power factor cos phi Harmonic Power Crest Factor Total Nos. qualitrolcorp.Appendix B – INFORMA PMD-A Functions Current 10/12 cycle calculation Urms (1/2) Calculation Power Parameters Zero Sequence Positive Sequence Negative Sequence Unbalance and Zero Unbalance RMS Harmonic (up to 50th order) Inter-harmonics TDD k-Factor RMS Single Phase Active Power Three Phase Active Power Single Phase Reactive Power Three Phase Reactive Power Single Phase Apparent Power Three Phase Apparent Power Single Phase Distorted Power Three Phase Distorted Power Single phase power factor Three phase power factor Cos phi Harmonic Power Crest Factor Total Nos.com . 1 3 1 1 1 2 150 172 www. Voltage 10 seconds 10/12 cycle calculation Parameters Frequency RMS Zero Sequence Positive Sequence Negative Sequence Unbalance and Zero Unbalance Harmonics (up to 50th order) Total Nos. 1 1 1 2 4 200 196 4 3 4 3 1 3 1 3 1 3 1 3 1 3 150 8 8 1072 Energy The following calculations are possible for 4U+4I-star cabling (Ph-Ph type). com .Appendix B – INFORMA PMD-A Functions Urms (1/2) Calculation Current 10/12 cycle calculation Urms (1/2) Calculation Power Parameters Inter-harmonics (up to 50th order) THD(THD. 147 9 32 3 1 3 6 3 1 1 1 2 3 150 147 3 3 3 0 1 0 1 0 1 0 0 0 1 0 0 6 8 695 Energy 173 www.qualitrolcorp. THD Even) Flicker instantaneous(Pinst) Flicker short term (10 minutes)-Pst Frequency (10 minutes) Signaling Voltages (3) Under and Over Deviation RMS Zero Sequence Positive Sequence Negative Sequence Unbalance and Zero Unbalance RMS Harmonic (up to 50th order) Inter-harmonics TDD k-Factor RMS Single Phase Active Power Three Phase Active Power Single Phase Reactive Power Three Phase Reactive Power Single Phase Apparent Power Three Phase Apparent Power Single Phase Distorted Power Three Phase Distorted Power Single phase power factor Three phase power factor Cos phi Harmonic Power Crest Factor Total Nos. THD Odd. Voltage 10 seconds 10/12 cycle calculation Parameters Frequency RMS Zero Sequence Positive Sequence Negative Sequence Unbalance and Zero Unbalance Harmonics (up to 50th order) Inter-harmonics (up to 50th order) THD(THD. THD Odd.qualitrolcorp.com .Appendix B – INFORMA PMD-A Functions The following calculations are possible for 4U+3I-star cabling (Ph-N type). THD Even) Flicker instantaneous(Pinst) Flicker short term (10 minutes)-Pst Frequency (10 minutes) Signaling Voltages Under and Over Deviation RMS Zero Sequence Positive Sequence Negative Sequence Unbalance and Zero Unbalance RMS Harmonic (up to 50th order) Inter-harmonics TDD k-Factor RMS Single Phase Active Power Three Phase Active Power Single Phase Reactive Power Three Phase Reactive Power Single Phase Apparent Power Three Phase Apparent Power Single Phase Distorted Total Nos. 1 4 1 1 1 2 200 196 12 32 3 1 3 6 4 1 1 1 2 3 150 147 3 3 3 3 1 3 1 3 1 3 Current Urms (1/2) Calculation 10/12 cycle calculation Urms (1/2) Calculation Power 174 www. THD Even) Flicker instantaneous(Pinst) Flicker short term (10 minutes)-Pst Frequency (10 minutes) Signaling Voltages (3) Under and Over Deviation RMS Zero Sequence Positive Sequence Negative Sequence Unbalance and Zero Unbalance RMS Harmonic (up to 50th order) Inter-harmonics Total Nos.Appendix B – INFORMA PMD-A Functions Parameters Power Three Phase Distorted Power Single phase power factor Three phase power factor cos phi Harmonic Power Crest Factor Energy Total Nos. THD Odd.qualitrolcorp. Voltage 10 seconds 10/12 cycle calculation Parameters Frequency RMS Zero Sequence Positive Sequence Negative Sequence Unbalance and Zero Unbalance Harmonics (up to 50th order) Inter-harmonics (up to 50th order) THD( THD.com . 1 3 1 1 1 2 150 147 9 32 3 1 3 6 3 1 1 1 2 3 150 147 Current Urms (1/2) Calculation 10/12 cycle calculation 175 www. 1 3 1 3 150 7 8 969 The following calculations are possible for 4U+3I-star cabling (Ph-Ph type). THD Even) Flicker instantaneous(Pinst) Flicker short term (10 Total Nos.Appendix B – INFORMA PMD-A Functions Urms (1/2) Calculation Power Parameters TDD k-Factor RMS Single Phase Active Power Three Phase Active Power Single Phase Reactive Power Three Phase Reactive Power Single Phase Apparent Power Three Phase Apparent Power Single Phase Distorted Power Three Phase Distorted Power Single phase power factor Three phase power factor cos phi Harmonic Power Crest Factor Total Nos.com . THD Odd. 1 3 1 1 1 2 150 147 9 32 3 176 www. Voltage 10 seconds 10/12 Cycle Calculation Parameters Frequency RMS Zero Sequence Positive Sequence Negative Sequence Unbalance and Zero Unbalance Harmonics (up to 50th order) Inter-harmonics (up to 50th order) THD( THD.qualitrolcorp. 3 3 3 3 1 3 1 3 1 3 1 3 1 3 150 6 8 829 Energy Delta Topology The following calculations are possible for 3U-delta cabling. THD Even) Flicker instantaneous(Pinst) Flicker short term (10 minutes)Pst Frequency (10 minutes) Signaling Voltages (3) Under and Over Deviation Total Nos.Appendix B – INFORMA PMD-A Functions Parameters minutes)-Pst Frequency (10 minutes) Signaling Voltages (3) Crest Factor Under and Over Deviation RMS Total Nos.com . THD Odd. 10 seconds Parameters Frequency RMS Zero Sequence Positive Sequence Negative Sequence Unbalance and Zero Unbalance Harmonics (up to 50th order) Inter-harmonics (up to 50th order) THD(THD. 1 3 3 6 3 366 Urms (1/2) Calculation The following calculations are possible for 3U+3I-delta cabling. 1 3 1 1 1 2 150 147 9 32 3 1 3 6 3 1 1 1 2 3 150 147 3 3 3 Voltage 10/12 cycle calculation Urms (1/2) Calculation Current RMS Zero Sequence Positive Sequence Negative Sequence Unbalance and Zero Unbalance 10/12 cycle RMS calculation Harmonic (up to 50th order) Inter-harmonics TDD k-Factor Urms (1/2) Calculation RMS 177 www.qualitrolcorp. Appendix B – INFORMA PMD-A Functions Power Single Phase Active Power Three Phase Active Power Single Phase Reactive Power Three Phase Reactive Power Single Phase Apparent Power Three Phase Apparent Power Single Phase Distorted Power Three Phase Distorted Power Single phase power factor Three phase power factor cos phi Harmonic Power Crest Factor 0 1 0 1 0 1 0 0 0 1 0 0 6 8 695 Energy 178 www.com .qualitrolcorp. qualitrolcorp. THD Odd. 1 3 1 1 1 2 150 147 9 32 3 1 3 6 3 1 1 1 2 3 150 147 3 3 3 0 1 0 1 0 1 0 0 0 1 0 Urms (1/2) Calculation Power 179 www. THD Even) Flicker instantaneous(Pinst) Flicker short term (10 minutes)-Pst Frequency (10 minutes) Signaling Voltages (3) Under and Over Deviation Urms (1/2) Calculation RMS Current 10/12 cycle calculation Zero Sequence Positive Sequence Negative Sequence Unbalance and Zero Unbalance RMS Harmonic (up to 50th order) Inter-harmonics TDD k-factor RMS Single Phase Active Power Three Phase Active Power Single Phase Reactive Power Three Phase Reactive Power Single Phase Apparent Power Three Phase Apparent Power Single Phase Distorted Power Three Phase Distorted Power Single phase power factor Three phase power factor cos phi Total Nos.Appendix B – INFORMA PMD-A Functions The following calculations are possible for 2U+2I-delta cabling (Aron).com . Parameters 10 seconds Frequency Voltage 10/12 cycle RMS calculation Zero Sequence Positive Sequence Negative Sequence Unbalance and Zero Unbalance Harmonics (up to 50th order) Inter-harmonics (up to 50th order) THD(THD. 11 – Digital Fault Record 1 Note For more information about capturing DFR records.com . 0 6 8 695 Types of Fault Recording DFR DFR provides high speed monitoring and recording of the power system and equipment. The recording is carried out when a system fault occurs. The following types of sources can initiate a DFR recording: • • • • FR sensors PQ Sensors External Triggers Digital Inputs Figure B.Appendix B – INFORMA PMD-A Functions Parameters Harmonic Power Crest Factor Energy Total Nos. which is user configurable.qualitrolcorp. refer to iQ+ Help. 180 www. Sensor Inhibit Using Digital Input Configuration: Each FR sensor can be inhibited by the state of a single specified digital input.Appendix B – INFORMA PMD-A Functions Figure B.12 .qualitrolcorp.com . A total of 32 FR sensors are available in INFORMA PMD-A.Digital Fault Record 1 DFR Sensor Types Sensor Inhibit Using Software Configuration: Each FR sensor can be individually enabled/disabled by user configuration. 181 www. frequency. Retriggering happens if the parameter value swings between Under to Over and vice-versa.qualitrolcorp. OR exceeds the “Over_Start threshold calculated” value. 182 www. Both: Applied on all FR parameters. Corresponding logs and records are generated. then the event is de-triggered. It is de-triggered if normal condition resumes. Under: Applied on all FR parameters.com . If the computed value of the configured parameters reduces below the “Under_Start -threshold calculated” value. then the event is triggered. Dx/dt: Applied on RMS values of voltage and current.Appendix B – INFORMA PMD-A Functions INFORMA PMD-A provides the following FR data types on which different types of sensors can be configured. then the event is de-triggered. If the computed value of the configured parameters reduces below the “Under_Start -threshold calculated” values. OR reduces below the “Over_Stop -threshold calculated” value later. and power values. If the computed value of the configured parameters exceeds the “Over_Start -threshold calculated” value. then the event is de-triggered. FR Calculated Quantity Over Under BOTH Power Swing ROC (dx/dt) Frequency RMS Fundamental/Full Power Sequence components amplitude AC RMS /DC Magnitude for standalone channels x x x x x x x x x x x x x x - x x x - x x x - - Over: Applied on all FR parameters. If the computed value of that configured parameter exceeds the “Under_Stop -threshold calculated” value later. It is de-triggered if normal condition resumes. then the event is triggered. If the computed value of that configured parameter reduces below the “Over_Stop -threshold calculated” value later. The event is triggered when it detects magnitude variations. Corresponding logs and records are generated. Power Swing: Applied on frequency and power values. The event is triggered when it detects poorly dampened oscillations. then the event is triggered. Corresponding logs and records are generated. If the computed value of that configured parameter exceeds the “Under_Stop -threshold calculated” value. fundamental Phase Angle. amplitude Zero Sequence. fundamental Reactive Power.Appendix B – INFORMA PMD-A Functions The following tables list the possible calculations recorded for DFR parameters. angle Active power. fundamental RMS Magnitude. amplitude Positive Sequence. 1 3 3 3 1 1 1 1 1 1 3 3 3 1 1 1 1 1 1 1 1 1 1 1 1 37 Voltage Current Power 183 www. fundamental Active power. The following calculations are possible for 3U+3I cabling. angle Zero Sequence. Parameters Frequency RMS Magnitude. amplitude Zero Sequence.qualitrolcorp. fundamental Phase Angle. angle Negative Sequence.com . amplitude Positive Sequence. amplitude Negative Sequence. full Reactive Power. angle Zero Sequence. amplitude Negative Sequence. fundamental Apparent Power. full Total Nos. full Positive Sequence. angle Negative Sequence. fundamental RMS Magnitude. full Apparent Power. full Positive Sequence. angle RMS Magnitude. amplitude Positive Sequence. fundamental RMS Magnitude. full Positive Sequence.qualitrolcorp. amplitude Zero Sequence. angle RMS Magnitude. angle Active power. amplitude Positive Sequence. full Total Nos. full Apparent Power. amplitude Negative Sequence. fundamental RMS Magnitude. fundamental Active power. full Reactive Power. angle Zero Sequence.com . Parameters Frequency RMS Magnitude.Appendix B – INFORMA PMD-A Functions The following calculations are possible for 3U+3I+3I cabling. fundamental Reactive Power. amplitude Negative Sequence. 1 3 3 3 1 1 1 1 1 1 6 6 6 2 2 2 2 2 2 2 2 2 2 2 2 58 Voltage Current Power 184 www. angle Negative Sequence. fundamental Apparent Power. fundamental Phase Angle. fundamental Phase Angle. amplitude Zero Sequence. full Positive Sequence. angle Negative Sequence. angle Zero Sequence. fundamental Active power. amplitude Negative Sequence. 1 3 3 3 1 1 1 1 1 1 9 9 9 3 3 3 3 3 3 3 3 3 3 3 3 79 Voltage Current Power 185 www. fundamental RMS Magnitude. fundamental Apparent Power. full Positive Sequence. fundamental Phase Angle. angle Zero Sequence.com . full Positive Sequence. angle Negative Sequence. amplitude Zero Sequence. full Total Nos. full Apparent Power.Appendix B – INFORMA PMD-A Functions The following calculations are possible for 3U+3I+3I+3I cabling. angle Zero Sequence. amplitude Zero Sequence. amplitude Negative Sequence. angle Negative Sequence. angle RMS Magnitude. fundamental RMS Magnitude. fundamental Reactive Power. full Reactive Power. fundamental Phase Angle. amplitude Positive Sequence. amplitude Positive Sequence. angle Active power.qualitrolcorp. Parameters Frequency RMS Magnitude. Appendix B – INFORMA PMD-A Functions The following calculations are possible for NO circuit cabling. 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 24 186 www. Parameters Stand alone channel 1 (AC/DC) Stand alone Channel1 angle(if channel is A/C) Stand alone channel 2 (AC/DC) Stand alone Channel2 angle(if channel is A/C) Stand alone channel 3 (AC/DC) Stand alone Channel3 angle(if channel is A/C) Stand alone channel 4 (AC/DC) Stand alone Channel4 angle(if channel is A/C) Stand alone channel 5 (AC/DC) Stand alone Channel5 angle(if channel is A/C) Stand alone channel 6 (AC/DC) Stand alone Channel6 angle(if channel is A/C) Stand alone channel 7 (AC/DC) Stand alone Channel7 angle(if channel is A/C) Stand alone channel 8 (AC/DC) Stand alone Channel8 angle(if channel is A/C) Stand alone channel 9 (AC/DC) Stand alone Channel9 angle(if channel is A/C) Stand alone channel 10 (AC/DC) Stand alone Channel10 angle(if channel is A/C) Stand alone channel 11 (AC/DC) Stand alone Channel11 angle(if channel is A/C) Stand alone channel 12 (AC/DC) Stand alone Channel12 angle(if channel is A/C) Total Nos.qualitrolcorp.com . com .qualitrolcorp.Appendix C – Recording Data Rates and Memory Consumtion Rates Appendix C Recording Data Rates and Memory Consumption Rates 187 www. com .qualitrolcorp. Functionality Default Memory Assigned (in MB) Number of Parame ters Record Duration (in minutes) Total Time Duration Taken to Fill Assigned Memory (in minutes) Mode of Operation Alarm Level PQ Permanent recording -10 min Permanent recording Free interval Embedded recordings / Histograms EN 50160 for Busbar 1 Embedded recordings / Histograms EN 50160 (Free thresholds) for Busbar 1 40 1188 (Max) 256 (Max) 10 147880 Linear/ Circular Linear/ Circular %x alarm threshold %x alarm threshold 40 1 12334 40 C110 (Max) 10 128600 Linear/ Circular %x alarm threshold 40 110 (Max) 10 128600 Linear/ Circular %x alarm threshold 188 www.Appendix C – Recording Data Rates and Memory Consumtion Rates Appendix C – Recording Data Rates and Memory Consumption Rates The following table lists the data rates and memory consumption rates. Appendix C – Recording Data Rates and Memory Consumtion Rates Functionality Default Memory Assigned (in MB) Number of Parame ters Record Duration (in minutes) Total Time Duration Taken to Fill Assigned Memory (in minutes) Mode of Operation Alarm Level Embedded recordings / Histograms 10min Histogram Embedded recordings / Histograms 61000 3 6/7 Embedded recordings / Histograms Free interval Histogram Embedded recordings / Histograms EN 50160 for Busbar2 Embedded recordings / Histograms EN 50160 (Free thresholds) for Busbar 2 Embedded recordings / Histograms 61000 3 6/7 for Busbar 2 RMS Partition 40 512 (Max) 10 2000 Linear/ Circular %x alarm threshold 40 55 (Max) 10 17270 Linear/ Circular %x alarm threshold 40 512 (Max) 1 200 Linear/ Circular %x alarm threshold 40 110 (Max) 10 128600 Linear/ Circular %x alarm threshold 40 110 (Max) 10 128600 Linear/ Circular %x alarm threshold 40 55 (Max) 10 17270 Linear/ Circular %x alarm threshold 4 - - - - - 189 www.qualitrolcorp.com . Appendix C – Recording Data Rates and Memory Consumtion Rates Functionality Default Memory Assigned (in MB) Number of Parame ters Record Duration (in minutes) Total Time Duration Taken to Fill Assigned Memory (in minutes) Mode of Operation Alarm Level Memory Assigned (in MB) Record Duration (in seconds) Total Time Duration Taken to Fill Assigne d Memory (in seconds ) 1 Record Duration (in minutes) 128 Total Time Duration Taken to Fill Assigned Memory (in hours) 17.105478 190 www.009 1.qualitrolcorp.26 Total Number of Records 500 Linear/ Circular %x alarm threshold Linear/ Circular %x alarm threshold Linear/ Circular %x alarm threshold DFR 300 Memory Assigned (in MB) CSS 1024 Memory Assigned (in MB) 32 Record Size 1 Record Duration (in minutes) 10 TR Configuration Log Firmware Total Memory Occupied in MB Total Memory Occupied in 1024 0.009 300 128 3180.com .52 MB 3. 894522 191 www.com .Appendix C – Recording Data Rates and Memory Consumtion Rates Functionality Default Memory Assigned (in MB) Number of Parame ters Record Duration (in minutes) Total Time Duration Taken to Fill Assigned Memory (in minutes) Mode of Operation Alarm Level GB Compact Flash Size in GB Free Space Available in GB 4 0.qualitrolcorp. Appendix D – License Information Appendix D License Information 192 www.com .qualitrolcorp. For instructions to generate the <serial_number. the URL should be similar to the following sample URL: <http://192. Qualitrol is able to update the existing license details as requested. it displays System Information. The software will prompt the user to modify the existing license.11/mfgindex. Qualitrol must be provided with access to the device.1. the URL shown here has a device with the IP address 192.Appendix D – License Information Appendix D – License Updates If the user wants to request for a license update.11.req> file. refer to Section D.1.qualitrolcorp.1. 193 www. When the TCP-IP communication is established between the device and the computer.html> On the Web page by default. The instructions in the next section describe how to modify an INFORMA PMD-A license.168.168. Else. Therefore. As a result.req> file generated by the device. Qualitrol must be provided with the <serial_number. open a Web browser and enter the URL in the following format: <http://IP_Address/mfgindex.com .html> Note For the purpose of this manual. Appendix D – License Information Modifying an Existing License If a license already exists.qualitrolcorp. The Web page shows the existing license information.com . customer ID. and so on.1 – System Information 194 www. then the System Information Web page is displayed. such as the device serial number. To modify an existing license: 1. order number. Click Modify License. Figure D. features included in the current license. A new <serial_number.2 – Modifying the License Request 3.req> file is generated on the device’s file system.3 – Saving the Serial Number 195 www. This information is provided by the sales representative. Save the <serial_number. On the page that is displayed. Click Modify Request. enter the customer ID and order number.com .Appendix D – License Information 2. Figure D. 4.qualitrolcorp. Figure D.req> file on the computer and send it to the appropriate sales representative or the Qualitrol licensing authority. Appendix D – License Information 5. To return to the main System Information page. and click Install license. Save this file on the computer.qualitrolcorp. Using the Browse button. The license is transferred to the INFORMA PMD-A device’s file system and the device restarts. Figure D. The licensing authority sends back a <serial_number. Figure D.5 – Completing the License Installation 196 www.com .xml> file. locate the file. refresh the Web page. 6.4 – Installing the License 7. qualitrolcorp.com .Appendix E – Battery Replacement Procedure Appendix E Battery Replacement Procedure 197 www. the following steps must be performed: 1. 3.1 – Screws to be Removed 198 www. Switch off the main power supply to the INFORMA PMD-A 3U device and disconnect the input power cord. 2.Appendix E – Battery Replacement Procedure Appendix E – Battery Replacement Procedure Battery Replacement Procedure for an INFORMA PMD-A 3U Device To replace a battery. Switch off the battery by using the switch provided on the UPS board.com . Separate the UPS module from the device by removing the screws on the rear panel.qualitrolcorp. 3U 6U Figure E. com .2 – CN5 Connector 5. 6. 199 www.qualitrolcorp. Figure E. Connect the new battery to the CN5 connector. Install the new battery. Connect the power cord and switch on the INFORMA PMD-A 3U device. Reconnect the UPS/power supply module to the INFORMA PMD-A 3U device. 9. 7. Figure E.Appendix E – Battery Replacement Procedure 4.3 – Rajamane Battery 8. Isolate the old battery by disconnecting the CN5 connector. Uninstall the old battery by removing the screws as shown below. qualitrolcorp.Appendix F – On-Board LED Functionalities and CPU MMI Modes Appendix F On-Board LED Functionalities and CPU MMI Modes 200 www.com . D1 D35.com . D22 Figure F.Appendix F – On-Board LED Functionalities and CPU MMI Modes Appendix F – On-Board LED Functionalities LED Functions on the Motherboard All LEDs are red in color. D703. D21.qualitrolcorp.1 – LEDs on the Motherboard 201 www. D36. D34. D37. D38 (under Internal Modem PCB) D704 (under Relay PCB) D701. “ON” indicates that “Power On RESET” has occurred and is still in reset condition.com .3 V Voltage indicator for +2.3 V Voltage indicator for +1.Appendix F – On-Board LED Functionalities and CPU MMI Modes The following table describes the LEDs on the motherboard.2 – LEDs on the DSP Board 202 www. LED D14 D21 D22 D704 D35 D37 D36 D34 D1 D701 D38 D703 Description Reset status for the INFORMA PMD-A device.5 V Voltage indicator for +ISO+3.qualitrolcorp. Debug LED (Reserved for future use) CPU_DONE indicates that FPGA is programmed.8 V LED Functions on the DSP Board Figure F. Debug LED for PIC Voltage indicator for -12 V Voltage indicator for +12 V Voltage indicator for +5 V Voltage indicator for +3. and the other indicates if the LCD is available.com . Purpose Dip Switch Designation S1-1 Identify the LCD mode Identify the CPU mode S1-2 Position W/ LCD W/o LCD 1 CPU 2 CPU Selection MMI with LCD MMI without LCD 1 CPU with LCD 2 CPU with LCD Description Default Selection W/o LCD Selection for LCD present/ absent.2 V which is used for DSP core CPU MMI Modes Based on the Dip switch position. Selection of 1 CPU CPU mode 203 www. The 2 CPU mode always has the LCD. There are two Dip switch positions. LED LED2 LED1 Description Voltage indicator for +3.Appendix F – On-Board LED Functionalities and CPU MMI Modes The following table describes the LEDs on the DSP board. one indicates the CPU mode (1 CPU mode or 2 CPU mode).qualitrolcorp. the MMI mode is decided.3 V which is used for DSP I/O Voltage indicator for +1. 204 www.3 – MMI Card – Dip Switch (S1) and First UART Port (J1) If the CPU is connected to the second UART port (J2 on MMI card).com . Figure F. the CPU must be connected to the first UART port (refer to legend J1 on MMI card). then the connection will not be detected because the second UART port is not initialized in the 1 CPU mode.qualitrolcorp.Appendix F – On-Board LED Functionalities and CPU MMI Modes In the 1 CPU mode. com .Appendix G – On-Board Jumper Settings Appendix G On-Board Jumper Settings 205 www.qualitrolcorp. Channel No /Purpose Channel Jumper Position Selection Type Legend 2-3 Description Default 1 Mode Selection J60 1-2 2 Channel Configuration for CH1 1-2 J13 2-3 CH1 J1 2-3 1-2 Voltage 2-3 J8 1-2 Current J22 1-2 2-3 J14 When the Standalone TX-AFE/HIAMode AFE board is tested without Motherboard 1-2 (Standalone).com 1-2 206 .Appendix G – On-Board Jumper Settings Appendix G – On-Board Jumper Settings The following table lists the TX-AFE jumper settings. TX-AFE Jumper Table Sl No.qualitrolcorp. Normal With Mode motherboard (Normal Mode) Channel Configured as Voltage For Channel Configuration Channel Configured as Current Mounted for Input 140V FSD Mounted for Input Voltage 270V FSD Range Mounted Selection for Input 480V FSD Mounted for Input 800V FSD Current Mounted Range for Input Selection 10A FSD Mounted for Input 20A FSD Mounted for Input www. com .Appendix G – On-Board Jumper Settings TX-AFE Jumper Table Sl No. Channel No /Purpose Channel Jumper Position Selection Type Legend 50A FSD Mounted for Input 100A FSD Channel Configured as Voltage Channel Configured as Current Mounted for Input 140V FSD Mounted for Input 270V FSD Mounted for Input 480V FSD Mounted for Input 800V FSD Mounted for Input 10A FSD Mounted for Input 20A FSD Mounted for Input 50A FSD Mounted for Input 100A FSD Channel Configured as Voltage Channel Configured as Current Mounted for Input 140V FSD Description Default 2-3 Channel Configuration for CH2 1-2 J40 2-3 For Channel Configuration 2-3 J25 1-2 Voltage 2-3 3 J31 1-2 CH2 1-2 J48 2-3 Current 1-2 J39 2-3 Voltage Range Selection Current Range Selection 4 Channel Configuration for CH3 1-2 J49 2-3 For Channel Configuration CH3 Voltage J52 2-3 Voltage Range Selection 207 www.qualitrolcorp. Channel No /Purpose Channel Jumper Position Selection Type Legend 1-2 Mounted for Input 270V FSD Mounted for Input 480V FSD Mounted for Input 800V FSD Mounted for Input 10A FSD Mounted for Input 20A FSD Mounted for Input 50A FSD Mounted for Input 100A FSD Channel Configured as Voltage Channel Configured as Current Mounted for Input 140V FSD Mounted for Input 270V FSD Mounted for Input 480V FSD Mounted for Input 800V FSD Mounted for Input 10A FSD Mounted for Input www.qualitrolcorp.Appendix G – On-Board Jumper Settings TX-AFE Jumper Table Sl No.com Description Default 2-3 J59 1-2 1-2 J73 2-3 Current 1-2 J67 2-3 Current Range Selection 5 Channel Configuration for CH4 1-2 J18 2-3 For Channel Configuration CH4 J3 2-3 1-2 Voltage 2-3 J9 1-2 Voltage Range Selection Current J24 1-2 Current Range Selection 2-3 208 . com .qualitrolcorp.Appendix G – On-Board Jumper Settings TX-AFE Jumper Table Sl No. Channel No /Purpose Channel Jumper Position Selection Type Legend 20A FSD Mounted for Input 50A FSD Mounted for Input 100A FSD Channel Configured as Voltage Channel Configured as Current Mounted for Input 140V FSD Mounted for Input 270V FSD Mounted for Input 480V FSD Mounted for Input 800V FSD Mounted for Input 10A FSD Mounted for Input 20A FSD Mounted for Input 50A FSD Mounted for Input 100A FSD Channel Configured as Voltage Channel Configured as Current Description Default 1-2 J16 2-3 Channel Configuration for CH5 1-2 J42 2-3 For Channel Configuration 2-3 J26 1-2 Voltage 2-3 6 J32 1-2 CH5 1-2 J47 2-3 Current 1-2 J38 2-3 Voltage Range Selection Current Range Selection 7 Channel Configuration for CH6 1-2 J63 2-3 For Channel Configuration 209 www. Appendix G – On-Board Jumper Settings TX-AFE Jumper Table Sl No. Channel No /Purpose Channel Jumper Position Selection Type Legend 2-3 J51 1-2 Voltage 2-3 J57 1-2 CH6 1-2 J69 2-3 Current 1-2 J65 2-3 Mounted for Input 140V FSD Mounted for Input 270V FSD Mounted for Input 480V FSD Mounted for Input 800V FSD Mounted for Input 10A FSD Mounted for Input 20A FSD Mounted for Input 50A FSD Mounted for Input 100A FSD Channel Configured as Voltage Channel Configured as Current Mounted for Input 140V FSD Mounted for Input 270V FSD Mounted for Input 480V FSD Mounted for Input 800V FSD Mounted for Input Description Default Voltage Range Selection Current Range Selection 8 Channel Configuration for CH7 1-2 J17 2-3 For Channel Configuration CH7 J2 2-3 1-2 Voltage 2-3 J7 1-2 Current J15 Voltage Range Selection 1-2 Current Range 210 www.com .qualitrolcorp. Appendix G – On-Board Jumper Settings TX-AFE Jumper Table Sl No.qualitrolcorp.com . Channel No /Purpose Channel Jumper Position Selection Type Legend 10A FSD Mounted for Input 20A FSD Mounted for Input 50A FSD Mounted for Input 100A FSD Channel Configured as Voltage Channel Configured as Current Mounted for Input 140V FSD Mounted for Input 270V FSD Mounted for Input 480V FSD Mounted for Input 800V FSD Mounted for Input 10A FSD Mounted for Input 20A FSD Mounted for Input 50A FSD Mounted for Input 100A FSD Channel Configured as Voltage Description Default 2-3 1-2 J23 2-3 Selection Channel Configuration for CH8 1-2 J41 2-3 For Channel Configuration 2-3 J27 1-2 Voltage 2-3 9 J33 1-2 CH8 1-2 J46 2-3 Current 1-2 J37 2-3 Channel Configuration for CH9 Voltage Range Selection Current Range Selection 10 J66 1-2 For Channel Configuration 211 www. Appendix G – On-Board Jumper Settings TX-AFE Jumper Table Sl No. Channel No /Purpose Channel Jumper Position Selection Type Legend 2-3 Channel Configured as Current Mounted for Input 140V FSD Mounted for Input 270V FSD Mounted for Input 480V FSD Mounted for Input 800V FSD Mounted for Input 10A FSD Mounted for Input 20A FSD Mounted for Input 50A FSD Mounted for Input 100A FSD Board configured as TXAFE/HIAAFE 1 Board configured as TXAFE/HIAAFE 2 External CT Internal CT Description Default 2-3 J50 1-2 Voltage 2-3 J53 1-2 CH9 1-2 J68 2-3 Current 1-2 J64 2-3 Voltage Range Selection Current Range Selection TX-AFE/ HIA-AFE J76-J89 1 11 AFE BOARD SELECTION TX-AFE/ HIA-AFE J76-J89 2 2-3 1-2 12 External/ Internal CT Selection For CT J90J107 1-2 2-3 212 www.com .qualitrolcorp. 1 Channel No. HIA-AFE Jumper Table Sl No./Purpose Channel Jumper Type Legend J16 J25 J162 J40 J41 J40 J41 J152 J16 J25 J162 J15 J40 J41 J16 J25 J15 J162 J40 J41 J152 J40 J41 CH1 Full Scale Selection Position 1-2 2-3 1-2 2-3 2-3 1-2 1-2 2-3 2-3 1-2 2-3 1-2 2-3 2-3 2-3 1-2 2-3 2-3 1-2 1-2 1-2 1-2 1-2 2-3 J1 1-2 Voltage 2-3 J2 1-2 Selection Description Channel Configured as Voltage Channel Configured as Current CH1 Channel Configuration Channel Configured as DC Voltage For Channel Configuration Channel Configured as mA loop Channel Configured as Current Clamp Mounted for Input 140V FSD Mounted for Input 270V FSD Mounted for Input 480V FSD Mounted for Input 800V FSD Voltage Range Selection 213 www.com .Appendix G – On-Board Jumper Settings The following table lists HIA-AFE jumper settings.qualitrolcorp. Appendix G – On-Board Jumper Settings HIA-AFE Jumper Table Sl No.qualitrolcorp./Purpose Channel Jumper Type Legend Position 1-2 J22 2-3 Current J14 2-3 1-2 Selection Mounted for Input 10A FSD Mounted for Input 20A FSD Mounted for Input 50A FSD Mounted for Input 100A FSD Mounted for Input 12VDC FSD Mounted for Input 120VDC FSD Mounted for Input 240VDC FSD Mounted for Input 480VDC FSD Channel Configured as Voltage Channel Configured as Current Description Current Range Selection 1-2 J12 2-3 DC Voltage 1-2 J13 2-3 2 CH2 Channel Configuration J37 J42 J59 J163 J60 J59 J60 J153 J37 J42 J163 J28 J59 J60 J37 J42 J28 J163 J59 1-2 2-3 2-3 1-2 1-2 1-2 2-3 2-3 2-3 1-2 2-3 1-2 2-3 1-2 2-3 1-2 2-3 2-3 1-2 DC Voltage Range Selection For Channel Configuration Channel Configured as DC Voltage Channel Configured as mA loop 214 www.com . Channel No. /Purpose Channel Jumper Type Legend J60 J59 J60 J153 Position 2-3 1-2 2-3 1-2 2-3 J8 1-2 Voltage 2-3 J9 1-2 1-2 J6 CH2 Full Scale Selection 2-3 Current J7 2-3 1-2 Channel Configured as CC Mounted for Input 140V FSD Mounted for Input 270V FSD Mounted for Input 480V FSD Mounted for Input 800V FSD Mounted for Input 10A FSD Mounted for Input 20A FSD Mounted for Input 50A FSD Mounted for Input 100A FSD Mounted for Input 12VDC FSD Mounted for Input 120VDC FSD Mounted for Input 240VDC FSD Mounted for Input 480VDC FSD Channel Configured as Voltage Selection Description Voltage Range Selection Current Range Selection 1-2 J26 2-3 DC Voltage 1-2 J27 2-3 3 Channel Configuration for CH3 J46 J47 J164 J72 1-2 2-3 1-2 2-3 DC Voltage Range Selection For Channel Configuration 215 www.Appendix G – On-Board Jumper Settings HIA-AFE Jumper Table Sl No.qualitrolcorp.com . Channel No. Appendix G – On-Board Jumper Settings HIA-AFE Jumper Table Sl No. Channel No./Purpose Channel Jumper Type Legend J73 J72 J73 J154 J46 J164 J47 J44 J72 J73 J46 J47 J44 J164 J72 J73 J72 J73 J154 CH3 J19 1-2 Voltage 2-3 J20 1-2 1-2 J17 2-3 Current 1-2 J18 2-3 Position 1-2 1-2 2-3 2-3 2-3 2-3 1-2 1-2 2-3 1-2 2-3 1-2 2-3 2-3 1-2 2-3 1-2 2-3 1-2 2-3 Selection Description Channel Configured as Current Channel Configured as DC Voltage Channel Configured as mA loop Channel Configured as CC Mounted for Input 140V FSD Mounted for Input 270V FSD Mounted for Input 480V FSD Mounted for Input 800V FSD Mounted for Input 10A FSD Mounted for Input 20A FSD Mounted for Input 50A FSD Mounted for Input 100A www.qualitrolcorp.com Voltage Range Selection Current Range Selection 216 Appendix G – On-Board Jumper Settings HIA-AFE Jumper Table Sl No. Channel No./Purpose Channel Jumper Type Legend Position Selection FSD Mounted for Input 12VDC FSD Mounted for Input 120VDC FSD Mounted for Input 240VDC FSD Mounted for Input 480VDC FSD Channel Configured as Voltage Channel Configured as Current Description 1-2 J10 2-3 DC Voltage 1-2 J43 2-3 4 J52 J53 J24 J90 J91 J90 J91 J155 J52 J53 J24 J50 J90 J91 J52 J53 J50 J24 J90 J91 J90 J91 J155 CH4Full Scale Voltage J31 1-2 2-3 1-2 2-3 1-2 1-2 2-3 2-3 2-3 1-2 2-3 1-2 2-3 1-2 2-3 1-2 2-3 2-3 1-2 2-3 1-2 2-3 1-2 2-3 DC Voltage Range Selection CH4 Channel Configuration Channel Configured as DC Voltage For Channel Configuration Channel Configured as mA loop Channel Configured as CC Mounted for Input 140V Voltage Range 217 www.qualitrolcorp.com Appendix G – On-Board Jumper Settings HIA-AFE Jumper Table Sl No. Channel No./Purpose Channel Jumper Type Legend Position Selection FSD Mounted for Input 270V FSD Mounted for Input 480V FSD Mounted for Input 800V FSD Mounted for Input 10A FSD Mounted for Input 20A FSD Mounted for Input 50A FSD Mounted for Input 100A FSD Mounted for Input 12VDC FSD Mounted for Input 120 VDC FSD Mounted for Input 240VDC FSD Mounted for Input 480VDC FSD Channel Configured as Voltage Channel Configured as Current Channel Configured as DC Voltage Description 1-2 2-3 J32 1-2 1-2 J4 2-3 Current Selection J21 2-3 1-2 Selection Current Range Selection 1-2 J48 2-3 DC Voltage 1-2 J49 2-3 5 CH5 Channel Configuration J65 J66 J36 J103 J104 J103 J104 J156 J65 J66 J36 1-2 2-3 1-2 2-3 2-3 1-2 1-2 2-3 2-3 1-2 2-3 DC Voltage Range Selection For Channel Configuration 218 www.qualitrolcorp.com Appendix G – On-Board Jumper Settings HIA-AFE Jumper Table Sl No. Channel No./Purpose Channel Jumper Type Legend J63 J103 J104 J65 J66 J63 J36 J103 J104 J156 J103 J104 CH5 Full Scale Selection Position 1-2 2-3 2-3 2-3 1-2 2-3 2-3 1-2 1-2 1-2 1-2 1-2 2-3 J56 1-2 Voltage 2-3 J57 1-2 1-2 J54 2-3 Current J55 2-3 DC Voltage J61 2-3 J62 1-2 1-2 Selection Description Channel Configured as mA loop Channel Configured as CC Mounted for Input 140V FSD Mounted for Input 270V FSD Mounted for Input 480V FSD Mounted for Input 800V FSD Mounted for Input 10A FSD Mounted for Input 20A FSD Mounted for Input 50A FSD Mounted for Input 100A FSD Mounted for Input 12VDC FSD Mounted for Input 120VDC FSD Mounted for Voltage Range Selection Current Range Selection 1-2 DC Voltage Range Selection 219 www.qualitrolcorp.com Appendix G – On-Board Jumper Settings HIA-AFE Jumper Table Sl No. Channel No./Purpose Channel Jumper Type Legend Position Selection Input 240VDC FSD Mounted for Input 480VDC FSD Channel Configured as Voltage Channel Configured as Current Description 2-3 6 J78 J79 J45 J116 J117 J116 J117 J157 J78 J45 J79 J76 J116 J117 J78 J79 J76 J45 J116 J117 J116 J117 J157 CH6 J69 Voltage 1-2 1-2 2-3 1-2 2-3 1-2 1-2 2-3 2-3 2-3 2-3 1-2 1-2 2-3 1-2 2-3 1-2 2-3 2-3 1-2 2-3 1-2 2-3 1-2 2-3 Channel Configuration for CH6 Channel Configured as DC Voltage For Channel Configuration Channel Configured as mA loop Channel Configured as CC Mounted for Input 140V FSD Mounted for Input 270V FSD Mounted for Input 480V FSD Mounted for www.qualitrolcorp.com Voltage Range Selection J70 2-3 1-2 220 Appendix G – On-Board Jumper Settings HIA-AFE Jumper Table Sl No.qualitrolcorp. Channel No./Purpose Channel Jumper Type Legend Position Selection Input 800V FSD Mounted for Input 10A FSD Mounted for Input 20A FSD Mounted for Input 50A FSD Mounted for Input 100A FSD Mounted for Input 12VDC FSD Mounted for Input 120VDC FSD Mounted for Input 240VDC FSD Mounted for Input 480VDC FSD Channel Configured as Voltage Channel Configured as Current Description 1-2 J67 2-3 Current J68 2-3 1-2 Current Range Selection 1-2 J74 2-3 DC Voltage 1-2 J75 2-3 7 Channel Configuration for CH7 J96 J97 J161 J136 J137 J136 J137 J158 J96 J161 J97 J94 J136 J137 J96 J97 J94 1-2 2-3 2-3 2-3 1-2 1-2 2-3 2-3 2-3 1-2 1-2 1-2 2-3 1-2 2-3 1-2 2-3 DC Voltage Range Selection For Channel Configuration Channel Configured as DC Voltage Channel Configured as mA loop 221 www.com . qualitrolcorp.com .Appendix G – On-Board Jumper Settings HIA-AFE Jumper Table Sl No. Channel No./Purpose Channel Jumper Type Legend J161 J136 J137 J136 J137 J158 Position 1-2 1-2 2-3 1-2 2-3 1-2 2-3 J82 1-2 Voltage 2-3 J88 1-2 1-2 J80 2-3 CH7 Current J81 2-3 1-2 Channel Configured as CC Mounted for Input 140V FSD Mounted for Input 270V FSD Mounted for Input 480V FSD Mounted for Input 800V FSD Mounted for Input 10A FSD Mounted for Input 20A FSD Mounted for Input 50A FSD Mounted for Input 100A FSD Mounted for Input 12VDC FSD Mounted for Input 120VDC FSD Mounted for Input 240VDC FSD Mounted for Input 480VDC FSD Channel Configured as Selection Description Voltage Range Selection Current Range Selection 1-2 J92 2-3 DC Voltage 1-2 J93 2-3 8 Channel Configuration J109 J110 1-2 2-3 DC Voltage Range Selection For Channel Configuration 222 www. com . Channel No.Appendix G – On-Board Jumper Settings HIA-AFE Jumper Table Sl No.qualitrolcorp./Purpose for CH8 Channel Jumper Type Legend J51 J138 J139 J138 J139 J159 J109 J51 J110 J107 J138 J139 J109 J110 J107 J51 J138 J139 J138 J139 J159 CH8 J100 1-2 Voltage 2-3 J101 1-2 Current J98 2-3 J99 1-2 1-2 Position 1-2 2-3 1-2 1-2 2-3 2-3 2-3 2-3 1-2 1-2 2-3 1-2 2-3 1-2 2-3 2-3 1-2 2-3 1-2 2-3 1-2 2-3 Selection Voltage Description Channel Configured as Current Channel Configured as DC Voltage Channel Configured as mA loop Channel Configured as CC Mounted for Input 140V FSD Mounted for Input 270V FSD Mounted for Input 480V FSD Mounted for Input 800V FSD Mounted for Input 10A FSD Mounted for Input 20A FSD Mounted for Input 50A FSD Voltage Range Selection Current Range Selection 223 www. qualitrolcorp./Purpose Channel Jumper Type Legend Position Selection Mounted for Input 100A FSD Mounted for Input 12VDC FSD Mounted for Input 120VDC FSD Mounted for Input 240VDC FSD Mounted for Input 480VDC FSD Channel Configured as Voltage Description 2-3 1-2 J105 2-3 DC Voltage 1-2 J106 2-3 9 Channel Configuration for CH9 J122 J123 J64 J140 J141 J140 J141 J160 J122 J64 J123 J120 J140 J141 J118 J123 J120 J64 J140 J141 J140 J141 1-2 2-3 1-2 2-3 1-2 1-2 2-3 2-3 2-3 2-3 1-2 1-2 2-3 1-2 2-3 1-2 2-3 2-3 1-2 2-3 1-2 2-3 DC Voltage Range Selection For Channel Configuration Channel Configured as Current Channel Configured as DC Voltage Channel Configured as mA loop Channel Configured as CC 224 www.Appendix G – On-Board Jumper Settings HIA-AFE Jumper Table Sl No. Channel No.com . which means TX-AFE/ HIAAFE 1 relates to analog channels 1-9 and TX-AFE/ HIA-AFE 2 relates to analog channels 10-18.com .qualitrolcorp.Appendix G – On-Board Jumper Settings HIA-AFE Jumper Table Sl No./Purpose Channel Jumper Type Legend J160 Position 1-2 2-3 J113 1-2 Voltage 2-3 J114 1-2 1-2 J111 2-3 CH9 Current J112 2-3 1-2 Mounted for Input 140V FSD Mounted for Input 270V FSD Mounted for Input 480V FSD Mounted for Input 800V FSD Mounted for Input 10A FSD Mounted for Input 20A FSD Mounted for Input 50A FSD Mounted for Input 100A FSD Mounted for Input 12VDC FSD Mounted for Input 120VDC FSD Mounted for Input 240VDC FSD Mounted for Input 480VDC FSD Selection Description Voltage Range Selection Current Range Selection 1-2 J118 2-3 DC Voltage 1-2 J119 2-3 DC Voltage Range Selection Note User can configure the TX-AFE/ HIA-AFE board as TX-AFE/ HIA-AFE 1 or TXAFE/ HIA-AFE 2 for INFORMA PMD-A 6U device. Channel No. The following table lists the jumper settings while configuring TX-AFE/HIA-AFE as TXAFE/HIA-AFE1 orTX-AFE/HIA-AFE 2. 225 www. com . 226 www.Appendix G – On-Board Jumper Settings Jumper Legend J87 J86 J132 J85 J83 J29 J130 J133 J135 J134 J129 J84 J128 J147 J131 J149 J127 J148 J143 J144 J145 J146 J142 TX-AFE1 /HIA-AFE 1 2-3 2-3 1-2 1-2 1-2 2-3 1-2 2-3 2-3 2-3 1-2 2-3 2-3 2-3 2-3 1-2 1-2 1-2 2-3 2-3 2-3 2-3 2-3 TX-AFE2 /HIA-AFE 2 1-2 1-2 2-3 2-3 2-3 1-2 2-3 1-2 1-2 1-2 2-3 1-2 1-2 1-2 1-2 2-3 2-3 2-3 1-2 1-2 1-2 1-2 1-2 Changes in the jumper on TX-AFE/ HIA-AFE board affects the calibration. hence device needs to be re-calibrated.qualitrolcorp. For IRIGB AM-IN. IRIGB TTL IN. AFE Child Card Jumper selection Table JUMPER SELECTION J2 J3 J9 1-2 Unmount 1-2 1-2 1-2 1-2 3-2 Unmount Unmount Unmount Mounted 3-2 Unmount Unmount Unmount DC Inputs/mA Current Loop 12 V 120V 240V 480V mA J10 Unmount Unmount 1-2 3-2 Unmount The following table lists the CPU/mother board jumper settings. 1 Purpose Jumper Legend CN712 Position Selection Description Default jumper setting 2-3 IRIG-OUT Voltage Selection 1-2 2-3 +12V IRIGOUT Signal For Modulated IRIG output +5V IRIG-OUT Signal For TTL IRIG output IRIGB AM-IN 100 V PPS IN IRIGB TTL IN IRIGB AM-OUT IRIGB TTL OUT ISO-GND(IRIGIN) AM Modulator operates on +12V logic level and TTL on +5V 2 IRIGIN/IRIGOUT Format Selection IRIG Reference Selection JPR1 1-2 2-3 4-5 6-7 7-8 1-2 JPR2 Selection of IRIG-IN/OUT Format. Either AM or TTL/PPM/PPH for IRIG-IN format Selection of reference for IRIG-IN/OUT. selected ISOGND ( JPR2 :1-2 --> ISOGND ) & for IRIGB AMOUT & IRIGB TTL OUT select DGND ( JPR2 :2- 2-3 1-2 2-3 DGND(IRIGBOUT) 227 www.com . 100 V PPS IN.qualitrolcorp. CPU/Mother Board Jumper Table Sl No.Appendix G – On-Board Jumper Settings The following table lists the AFE child card jumper settings. com . Used for GPSPPS debugging 1-2 Unmount 6 J6 WDI Control Jumper PIC or CPU as COM3 Port 1-2 7 CN18 1-2 2-3 8 Ethernet FX or TX Selection CN3 1-2 2-3 JP1 Mount FX is selected Unmount TX is selected Console enabled Unmount Console disabled Mount Enable the differential termination Mount Fiber or Copper Ethernet Port selection Disable Auto Negotiation in FX mode To select the COM port as console port For enabling or disabling differential 1-2 Unmount 9 Console Output Selection Main Mount 10 Differential J2 PPS Unmount 228 www. Purpose Jumper Legend Position Selection Description Default jumper setting 3--> DGND ) 4 5 IRIG-TTL or PPM/PPH Selection GPS PPS Debug Selection WDI Enable Jumper IRIG-J or User-Port Selection JPR701 1-2 PPM/PPH/TTL J704 GPS PPS TEST Unmount Normal operation 1-2 2-3 1-2 WDI Enabled WDI Disabled COM 3 Port is configured as CPU COM Port COM 3 Port is configured as PIC COM PORT for IRIGJ IN TX is selected FX is selected Mount Selection of IRIGTTL/PPM/PPH Source.Appendix G – On-Board Jumper Settings CPU/Mother Board Jumper Table Sl No.qualitrolcorp. 3V termination for RS485 signals For enabling or disabling differential termination for RS485 signals For antenna voltage input Unmount 1-2 The following table lists the DFE jumper settings. 1 Purpose Relay Contact 1 Jumper Position Legend J1 J2 J1 J2 Mount Unmount Unmount Mount Description Output contacts open Output contacts closed Default Selection Unmount Mount 229 www. DFE Jumper Table Sl No. Relay Jumper Table Sl No.qualitrolcorp. Purpose Jumper Legend Position Selection Description Default jumper setting 11 Isolated RS485 J3 12 GPS Antenna Voltage Select JPR3 Unmount Disable the differential Termination Mount Enable the differential termination Unmount Disable the differential Termination 1-2 5V 2-3 3. 1 Purpose Chip Select Jumper Legend CN4 Position 1-2 2-3 Selection CS1 CS2 SD01 SD02 Description For DFE board 1-CS1 is selected & for board 2-CS2 is selected For DFE board 1-SD01 is selected & for board 2-SD02 is selected 2 Serial Data Out CN6 1-2 2-3 The following table lists the relay jumper settings.Appendix G – On-Board Jumper Settings CPU/Mother Board Jumper Table Sl No.com . Appendix G – On-Board Jumper Settings Relay Jumper Table Sl No.com . 2 Purpose Relay Contact 2 Jumper Position Legend J3 J4 J3 J4 Mount Unmount Unmount Mount Mount Unmount Unmount Mount Mount Unmount Unmount Mount Description Output contacts open Output contacts closed Output contacts open Output contacts closed Output contacts open Output contacts closed Default Selection Unmount Mount 3 Relay Contact 3 J5 J6 J5 J6 Unmount Mount 4 Relay Contact 4 J7 J8 J7 J8 Unmount Mount 230 www.qualitrolcorp. qualitrolcorp.com .Appendix H – Linearity Report of TX-AFE and HIA-AFE Appendix H Linearity Report of TX-AFE and HIA-AFE 231 www. 1 – % Error in Terms of FSD for Voltage Channel 232 www.975 -0.qualitrolcorp.com .02962963 Figure H.9999 -0.009259259 120 120.7037E-05 60 59.002814815 144 143.000833333 -3.Appendix H – Linearity Report of TX-AFE and HIA-AFE Appendix H – Linearity Report of TX-AFE and HIA-AFE TX-AFE Linearity Report For Voltage Channel: Potential Transformer.92 -0.046805556 0.024962963 180 179. tap setting 270 V FSD Frequency Nominal Voltage : 50 Hz : 120 V Input voltage Voltage measured Error in terms of % Error in terms of % applied in by the device in Input applied FSD volts volts 12 11.041666667 0.006333333 0.9326 -0.0076 0.044444444 -0. 000091 0.631 -0.496845 -0.001462 0.001606 233 www.999727 -0.5 0.1E-05 3 2. tap setting 100 A FSD Frequency Nominal Voltage : 50 Hz : 10 A Input current Current measured Error in terms of % Error in terms of % applied in by the device in Input applied FSD Amps Amps 0.020075 0.001606 0.02924 0.00455 9.004535 2 2.004535 0.qualitrolcorp.com .000273 5 5.2 – % Error in Terms of Fed Input for Voltage Channel For Current Channel: Current Transformer.001462 6 5.4535 0.Appendix H – Linearity Report of TX-AFE and HIA-AFE Figure H.003155 1 1.001407 8 8.998593 -0.0091 -0.02345 -0. Appendix H – Linearity Report of TX-AFE and HIA-AFE Figure H.% Error in Terms of Fed Input for Current Channel 234 www.4 -.com .3 – % Error in Terms of FSD for Current Channel Figure H.qualitrolcorp. 012666667 0.002814815 0.003083333 0.Appendix H – Linearity Report of TX-AFE and HIA-AFE HIA-AFE Linearity Report: For Voltage Channel: Potential Transformer.001814815 0.001666667 0.015416667 0.016666667 0.002222222 Error in terms of % FSD Error in terms of % of Nominal voltage 0.qualitrolcorp.00137037 0.0037 60.% Error in Terms of FSD (120 VAC nominal) 235 www.0076 120.0049 180.002 24.com .003402778 0.0076 144. tap setting 270 V FSD Frequency Nominal Voltage Input voltage applied in volts 12 24 60 120 144 180 Voltage measured by the device in volts 12.003333333 0.004 : 50 Hz : 120 V Error in terms of % Input applied 0.000740741 0.5 -.006333333 0.002814815 0.006333333 0.001481481 Figure H.006333333 0.004083333 0. 6 -.qualitrolcorp.com .6 -.Appendix H – Linearity Report of TX-AFE and HIA-AFE Figure H.% Error in Terms of FED Input (120 VAC nominal) Figure H.% Error in Terms of % Udin (120 VAC) 236 www. 5 0.7 -. tap setting 100 A FSD Frequency Nominal Voltage : 50 Hz : 10 A Input current Current observed in Error in terms of % Error in terms of % applied in Amps Input FSD Amps 0.498199 -0.000243 5.0081 -0.5 5.5 8.000136 0.020635294 0.999933 -0.0136 0.5000132 0.% Error in Terms of FSD for Current Channel (10 AAC nominal) 237 www.999757 -0.032745455 -0.001754 Figure H.7E-05 3 2.00264 1.com .501754 0.001801 8.32E-05 1 1.Appendix H – Linearity Report of TX-AFE and HIA-AFE For Current Channel: Current Transformer.qualitrolcorp.000136 2 1.00335 -6. % Error in Terms of FED Input for Current Channel (10 AAC nominal) 238 www.qualitrolcorp.com .8 -.Appendix H – Linearity Report of TX-AFE and HIA-AFE Figure H. References References 239 www.qualitrolcorp.com . For details of error log messages/codes and their meanings.References References For Configuration forms. refer to the document 36-8218-xx.com . 240 www. refer to the document 40-08576-01.qualitrolcorp. test. QUALITROL Educational Services QUALITROL® professional training (designed to achieve hands-on performance based objectives) prepares operations. It is the global leader in sales and installations of transformer asset protection equipment.About QUALITROL® QUALITROL® Field Services ® QUALITROL provides on-site commissioning/ start-up and comprehensive maintenance contracts to all customers worldwide. each customized to customers' unique requirements. All rights reserved. operate and maintain QUALITROL® products. 40-08557-01 ® ® 241 www. All trademarks are properties of their respective companies.qualitrolcorp. To further improve reliability. QUALITROL® produces thousands of different types of products on demand. QUALITROL Accelerated Delivery QUALITROL® provides accelerated delivery on many products and services including replacements. spare parts and repairs. and engineering personnel to install. as noted herein. ©2010 QUALITROL Company LLC. Information subject to change without notice. maintenance. an extended warranty is available on selected products commissioned by ® QUALITROL .com . ® ® About QUALITROL QUALITROL® manufactures substation and transformer monitoring and protection devices used by electric utilities and manufacturing companies. fault recorders and fault locators. Established in 1945. configure. an ISO 9001 system certified company.
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