KONG -Y
NameDescriptionContent
Location:
product
IS200VPYRH1B GE Manufacturing Policy Series Mark VI/VIe Function Module
❤ Add to collection

IS200VPYRH1B GE Manufacturing Policy Series Mark VI/VIe Function Module

IS200VPYRH1B
U.S.$6498.00
U.S.$552.00
U.S.$524.40
U.S.$513.36
Weight:0.780KG
Quantity:
(Inventory: 3)
Buy now
Add to cart
Description
IS200VPYRH1B

Part Number IS200VPYRH1B Manufacturer General Electric Country of Manufacture As Per GE Manufacturing Policy Series Mark VI/VIe Function Module Availability In StockIS200VPYRH1B is a VME Pyrometer Card developed by General Electric under mark VI series. 

The Optical Pyrometer Board (VPYR) analyzes temperature conditions that can cause a trip and provides a dynamic temperature profile of the rotating turbine blades. The Pyrometer terminal board is wired with two infrared TBTMS thermometers known as pyrometers and two keyPhasor proximitor probes for shaft reference (TPYR). For burst data from two temperature channels, dedicated analog to digital converters on the VPYR provide sampling rates of up to 200,000 samples per second. Temperature data is displayed and evaluated offline in real time. IS200VPYRH1B INSTALLATION To begin installing the VPYR board, turn off the VME processor rack. Insert the VPYR board and use your hands to push the top and bottom levers in to seat the edge connectors. 

Then, at the top and bottom of the front panel, tighten the captive screws. These screws serve to secure the board and improve the board's front ground integrity. The screws should not be used to secure the board in place. Cable connections to the TPYR terminal boards are made at the VME rack's lower J3 and J4 connectors. To secure the cables, these are latching connectors. OPERATION Analog signals from the terminal board are routed to the VPYR processor board, where they are sampled and converted. VPYR uses both pyrometer signals to calculate temperature profiles and run turbine protection algorithms. If a trip is indicated and the signals have been validated, VPYR sends out the trip signal. OPTICAL PYROMETER MEASUREMENTS The temperature profile of the rotating turbine blades is dynamically measured by two infrared pyrometers. Each pyrometer is powered by a +24 V dc and a -24 V dc source on the terminal board, which is a diode chosen from the voltages supplied by the three VPYR boards. Each pyrometer produces four 4-20 mA signals that represent the following blade measurements: The avg temperature The highest possible peak temperature The average maximum temperature. A fast dynamic profile with a 30 kHz bandpass that provides the entire signature. Each 4-20 mA input generates a voltage across a resistor. Which is then multiplexed and converted on the VPYR board. The fast input (4) is sampled at up to 200,000 samples per second using a dedicated A/D converter. VPYR can be set up with a variable number of turbine buckets and up to 30 temperature samples per bucket. IS200VPYRH1B DIAGNOSTICS Three LEDs at the top of the VPYR front panel indicate status. The normal RUN condition is flashing green, while the FAIL condition is a solid red. The third LED is STATUS, which is normally off but displays a steady orange if the board has a diagnostic alarm condition. 

VPYR performs diagnostic checks such as: The temperature inputs and key phasor gap signals are subject to system limit checking, which can result in faults. The two pyrometer inputs are compared to configuration limits to see if they are tracking, and the fast data is validated against other inputs. If any of the above signals fails, a composite diagnostic alarm L3DIAG VPYR is generated. Individual diagnostic signals can be latched and then reset with the RESET DIA signal if they become healthy. Terminal board connectors JR1, JS1, and JT1 each have their own ID device that the I/O board interrogates. The ID device is a read-only chip that contains the serial number, board type, revision number, and plug location of the terminal board. When VPYR reads the chip and encounters a mismatch, a hardware incompatibility fault is generated.VME PYROMETER CARD



  • Basler Electric ES Series Protection Relays
  • ABB Multifunction Protection and Switchbay Control Unit REF542plus
  • EMERSON AMS 2140 Machinery Health Analyzer
  • Hirschmann Industrial Ethernet Rail Switch RS20 Basic Family
  • GE Grid Solutions P40U Px40 USB Adaptor
  • ABB ontinuous Gas Analyzers AO2000 Series AO2040CU Ex Central Unit in Category 2G
  • ABB Advance Optima AO2000 Series Continuous gas analyzers Models AO2020. AO2040
  • ABB Advance Optima Module Uras 14
  • SAACKE control optimization
  • SAACKE se@vis efficiency monitor
  • SAACKE se@vis pro
  • SAACKE se@vis eco
  • SAACKE se@vis compact
  • HIRSCHMANN Industrial ETHERNET Switch MICE MS20/MS30
  • HIRSCHMANN MICE Media modules
  • Kongsberg GL-10 Level Switch
  • B&R ACOPOSinverter P74 frequency converter
  • Beckhoff CX2020 | Basic CPU module (service phase)
  • Beckhoff CX1010 | Basic CPU module (service phase)
  • Beckhoff CX5120 | Embedded PC with Intel Atom® E3815
  • Beckhoff CP69xx-xxxx-0010 | Economy built-in Control Panel with DVI/USB Extended interface
  • Beckhoff CP29xx-0000 | Multi-touch built-in Control Panel with DVI/USB Extended interface
  • SAACKE Monoblock Rotary Cup Burner SKVJ-M
  • ABB Plantguard Fault Tolerant Technology Architecture and Software
  • OMRON H8PR-8/H8PR-8P H8PR-16/H8PR-16P H8PR-24/H8PR-24P Rotary Positioner
  • ABB PFSA107-Z42 DTU Stressometer Digital Transmission Unit
  • Nidec Mentor MP
  • IBA PC connection for high-precision data acquisition with ibaNet-E
  • IBA FO Connection to Reflective Memory
  • IBA FO Connection to Siemens Systems
  • IBA Interface Cards For Fiber Optic Connections
  • IBA Field and Drive Buses
  • IBA ibaPADU-S Modular System
  • IBA ibaMAQS
  • STUCKE SYMAP®ARC
  • STUCKE SYMAP®R
  • STUCKE SYMAP®Compact
  • MOOG G123-825-001 BUFFER AMPLIFIER
  • Motorola MVME5100 Series VME Processor Modules
  • ABB MEASUREMENT & ANALYTICS NGC8209 Natural gas chromatograph
  • Motorola MVME162 Embedded Controller
  • HIMatrix Safety-Related Controller System Manual for the Modular Systems
  • MOTOROLA MVME2400 Series VME Processor Module
  • Sieger System 57
  • KONGSBERG MRU product line continuation
  • Woodward easYgen-3100/3200 Genset Control for Multiple Unit Operation
  • Woodward MFR 300 Multifunction Relay / Measuring
  • ABB AX410, AX411, AX416, AX450 and AX455 Single and dual input analyzers
  • Woodward easYgen-1400 Technical Manual Genset Control
  • Woodward easYgen-400 Operation Manual Genset Control
  • Woodward High Output Digital Valve Positioner (DVP) DVP5000/DVP10000/DVP12000
  • Woodward High Output Digital Valve Positioner DVP5000 and DVP10000
  • Woodward TG611-13/-17 Overspeed Test Device Conversion Kit
  • Woodward MicroNet Safety Module (MSM)
  • Woodward 2301A Electronic Load Sharing and Speed Control 9905/9907 Series
  • Woodward-Service Bulletin 01671
  • UniOP eTOP40B 12.1” TFT color display
  • UniOP eTOP40 TFT Color display
  • UniOP eTOP33B 10.4” TFT color display
  • UniOP eTOP33C eTOP33-0050 Resistive touchscreen
  • UniOP eTOP30. eTOP32 eTOP32-0050 Human-machine interface equipment
  • UniOP eTOP20B and eTOP21B eTOP20B-0050
  • UniOP eTOP12 eTOP12-0050 Advanced human-machine interface equipment
  • UniOP eTOP11 eTOP11-0050 HMI
  • UniOP eTOP06 HMI
  • UniOP eTOP05EB eTOP05EB-DF45 HMI
  • UniOP eTOP05. eTOP05P Human-machine interface equipment
  • UniOP eTOP03 eTOP03-0046
  • UniOP eTOP507 507U2P1 eTOP Series 500 Human-Machine Interface
  • UniOP eTOP307
  • UniOP ePAD32B, ePAD33B and ePAD33BT ePAD33B-0350
  • UniOP ePAD05 and ePAD06
  • UniOP ePAD04 ePAD04-D046 Universal Operator Panel
  • UniOP ePAD03 and ePAD04
  • UniOP CP02F-02, CP02R-04
  • UniOP CP01R-04 Compact Human-Interface Device
  • UniOP ERT-16 - Industrial PLC Workstation
  • UniOP ePAD03 and ePAD04
  • UNIOP EPALM10-DA71 state-of-the-art handheld HMI
  • Watlow SERIES CLS200 SPECIFICATION SHEET
  • Detailed Explanation of B&R Power Panel 300/400: The Core of Industrial Automation Control
  • YOKOGAWA Models ANB10S, ANB10D, ANR10S, ANR10D Node Units (for FIO)
  • Woodward ESDR 4 Current Differential Protection Relay
  • Woodward easYgen-3000 Genset Control for
  • Woodward CPC-II Current-to-Pressure Converter
  • Woodward 8290-189-EPG-installation-manual 8290-044
  • Woodward Product Change Notification 06946A
  • Woodward Product Change Notification 06912
  • Fisher™ 4660 High-Low Pressure Pilot
  • Flexible digital protection and control equipment SYMAP®
  • Woodward 723PLUS Digital Control
  • Woodward 505 Digital Controller For steam turbineses
  • Woodward 85018V2 505E Digital Governor for Extraction Steam Turbines
  • Woodward 85018V1 Turbine Control Parameters
  • Woodward 26871 505 Enhanced Digital Control for Steam Turbines
  • Woodward 03365 505E (Extraction / Admission)
  • KONGSBERG RMP420-Remote Multipurpose Input/Output
  • KONGSBERG RCU501 Remote Controller Unit
  • KONGSBERG RCU500 Remote Controller Unit
  • K-Gauge TOP KONGSBERG Tank Overfill Protection SystemFeatures
  • Kongsberg DPS112 DGNSS (DGPS/DGLONASS) sensor
  • Kongsberg d0000930 presafe-atex-report signed
  • HIMax TECHNICAL FACTS X Series
  • GE Multilin F650
  • GE MIF II - Legacy
  • GE PQM II Power QualIty Meter
  • Hydran 201Ti Mark IV Essential DGA monitoring for transformers
  • alstom AMS42/84 5B Amplifier SystemAmplifier Technology at its Best.
  • GE VMIVME-5576 Fiber-Optic Reflective Memory with Interrupts
  • GE Multilin 750/760 - Legacy Feeder Protection System
  • GE Fanuc Automation VMICPCI-7806 Specifications
  • GE VMIVME-7807 VME-7807RC* Intel® Pentium® M-Based VME SBC
  • GE Fanuc Automation VMIVME-7750 Specifications
  • FOXBORO Compact FBM240. Redundant with Readback, Discrete
  • FOXBORO FBM208/b, Redundant with Readback, 0 to 20 mA I/O Module
  • FOXBORO FBM201e Analog Input (0 to 20 mA) Interface Modules
  • Foxboro DCS FBM206 Pulse Input Module
  • FOXBORO FBM216 HART® Communication Redundant Input Interface Module
  • FOXBORO Z-Module Control Processor 270 (ZCP270)
  • Foxboro DCS Compact FBM241/c/d, Redundant, Discrete I/O Modules
  • Foxboro FBM223 PROFIBUS-DP™ Communication Interface Module
  • Foxboro DCS FBM204. 0 to 20 mAI/OModule
  • Foxboro FBM239, Discrete 16DI/16DO Module
  • Foxboro FBM202 Thermocouple/mV Input Module
  • Foxboro E69F Current-to-Pneumatic Signal Converter
  • EMERSON M-series Intrinsically Safe I/O
  • Configuration for AMS 6500 Protection Monitors
  • EMERSON DeltaV™ M-series Traditional I/O