Welcome to the Industrial Automation website!

NameDescriptionContent
HONG  KANG
E-mail  
Password  
  
Forgot password?
  Register
当前位置:
  • GE IS200TBTCH1A Thermocouple Terminal Board
    ❤ Add to collection
  • GE IS200TBTCH1A Thermocouple Terminal Board

    110V-380V
    5W-130W
    1A-30A
    1 year
    30
    United States, France, Japan, Viet Nam, Australia, Russia, Germany, Italy, Arabia

    GE IS200TBTCH1A Thermocouple Terminal Board

    • ¥39485.47
      ¥39456.02
      ¥39485.47
      ¥39485.47
    • Satisfaction:

      Sales: 0

      Review: 0

    Weight:5.370KG
    • Quantity:
    • (Inventory: 69)
Description

GE IS200TBTCH1A Thermocouple Terminal Board


GE IS200TBTCH1A Thermocouple Terminal Board

Part Number IS200TBTCH1A Manufacturer General Electric Country of Manufacture As Per GE Manufacturing Policy Series Mark VI/VIe Function Module Availability In StockIS200TBTCH1A is a thermocouple terminal board developed by GE. It is part of Mark VIe series. Thermocouple terminal board serves as a hub for 24 different types of thermocouple inputs, including E, J, K, S, or T. These inputs are specifically wired to two barrier-type blocks integrated onto the terminal board. 

Communication between these inputs and the I/O processor is established through D-type connectors, ensuring seamless data transmission. PTCC I/O PACK INTEGRATION IN MARK VIE SYSTEM Collaboration with Board:The PTCC I/O pack closely collaborates with the board within the Mark VIe system. This collaboration facilitates seamless integration and communication between the PTCC inputs and the system processor, enabling accurate monitoring and control of pressure and temperature parameters. Support for Various System Configurations: The integration of PTCC I/O packs with the board supports a wide range of system configurations, including simplex, dual, and TMR (Triple Modular Redundancy) systems. 

This versatility allows operators to customize the system architecture according to specific requirements and redundancy needs. Configuration with TBTCH1C: In simplex systems utilizing the TBTCH1C, two PTCC packs can be accommodated, providing a total of 24 inputs. This configuration offers enhanced scalability and flexibility in system design, catering to diverse application demands. Configuration with TBTCH1B: Using the TBTCH1B variant alters the system configuration, offering greater flexibility in the number of PTCC packs that can be plugged in. 

This flexibility allows for the accommodation of one, two, or three PTCC packs, depending on the system requirements. Impact on Available Inputs: Despite the versatility offered by the TBTCH1B configuration, there is a trade-off in the number of available inputs. While TBTCH1C allows for 24 inputs in simplex systems, the TBTCH1B configuration limits the available inputs to 12. Operators must consider this limitation when designing and configuring the system for specific applications. INPUT SPECIFICATIONS AND LOCATION The 24 thermocouple inputs within the board can be either grounded or ungrounded. Furthermore, they can be situated up to a distance of 300 meters (approximately 984 feet) from the turbine control panel, provided the maximum two-way cable resistance does not exceed 450 ohms. The analog to digital conversion takes place within the I/O processor, which also handles the crucial task of linearization for individual thermocouple types, ensuring accurate and reliable data acquisition and processing. 

 INSTALLATION In the system configuration, the thermocouples establish a direct connection to two I/O terminal blocks. These blocks, which are detachable components, are securely mounted onto the terminal board using two screws, ensuring stability and robust connectivity. Each of these blocks comprises 24 terminals, capable of accommodating wires of up to #12 AWG gauge, facilitating seamless integration of the thermocouples into the system. The terminal blocks, essential components of the setup, provide the necessary interface for connecting the thermocouples. 

Adjacent to each terminal block, a shield terminal strip is positioned on the left side. This strip serves the purpose of connecting to the chassis ground, contributing to system grounding and shielding, thereby enhancing overall stability and safety. In Mark VI systems, the connectivity extends from the board's J-type connectors to the I/O processors situated within the VME (Versa Module Eurocard) rack. This wiring setup facilitates communication and data transmission between the thermocouples and the I/O processors in the rack, ensuring efficient processing and control. The number of cables or I/O packs utilized in this configuration is contingent upon the desired level of redundancy required for the system. This modularity allows for adaptable redundancy levels, providing flexibility in system design based on specific operational needs and requirements.

PTCC I/O Pack Integration in Mark VIe System

Collaboration with Board:The PTCC I/O pack closely collaborates with the board within the Mark VIe system. This collaboration facilitates seamless integration and communication between the PTCC inputs and the system processor, enabling accurate monitoring and control of pressure and temperature parameters.

Support for Various System Configurations: The integration of PTCC I/O packs with the board supports a wide range of system configurations, including simplex, dual, and TMR (Triple Modular Redundancy) systems. This versatility allows operators to customize the system architecture according to specific requirements and redundancy needs.

Configuration with TBTCH1C: In simplex systems utilizing the TBTCH1C, two PTCC packs can be accommodated, providing a total of 24 inputs. This configuration offers enhanced scalability and flexibility in system design, catering to diverse application demands.

Configuration with TBTCH1B: Using the TBTCH1B variant alters the system configuration, offering greater flexibility in the number of PTCC packs that can be plugged in. This flexibility allows for the accommodation of one, two, or three PTCC packs, depending on the system requirements.

Impact on Available Inputs: Despite the versatility offered by the TBTCH1B configuration, there is a trade-off in the number of available inputs. While TBTCH1C allows for 24 inputs in simplex systems, the TBTCH1B configuration limits the available inputs to 12. Operators must consider this limitation when designing and configuring the system for specific applications.


  • User name Member Level Quantity Specification Purchase Date
  • Satisfaction :
No evaluation information
  • Siemens 6AG1204-2BB10-4AA3 Ethernet Switch
  • Siemens 6ES7193-4JA00-0AA0 Terminal Module
  • Siemens ET200SP 6ES7193-6PA00-0AA0 server module
  • Siemens 6ES7231-0HC22-0XA0 Analog Input Expansion Module
  • Siemens 6ES7350-2AH01-0AE0 Counter Module
  • Siemens 6ES7421-7DH00-0AB0 Digital Input Module
  • Siemens 6AV2124-2DC01-0AX0 Comfort Panel
  • Siemens 6ES7193-4CA40-0AA0 ET 200S Electronic Module
  • STOBER POSIDRIVE ® How to install MDS 5000?
  • Siemens 7XV5653-0BA00 dual channel binary signal transmitter
  • Thinklogical Velocity KVM-34 series KVM fiber extender
  • Watlow MLS300 Series Controller
  • ​DHR NLS3000 NLC System (Navigation Control System)
  • Watlow Anafaze CLS200 Series Controller
  • CyberPower UT650EG / UT850EG User’s Manual
  • Thermal Solutions EVS series gas regulated boilers
  • Bosch Rexroth HM20 Hydraulic Pressure Sensor
  • ABB SPAU 341 C Voltage Regulator
  • Rockwell Automation 1585 Ethernet Media
  • Rockwell Automation SmartGuard 600 Controller
  • Rockwell Automation 1756 ControlLogix Communication Module
  • Rockwell Automation Stratix series Ethernet devices
  • A-B Ultra3000 and Ultra5000 with DeviceNet
  • ABB INNIS21 Network Interface Slave module
  • DEIF Undervoltage and overvoltage relay type RMV-112D
  • SAUTER AVM 234S valve actuator (with positioner)
  • REXRTOH INDRAMAT TVD 1.3 power module
  • Honeywell Expert Series-C I/O Module
  • GE PACSystems RX7i power module (IC698PSA100/350 series)
  • Yokogawa AFV40S/AFV40D Field Control Unit (FCU)
  • Schneider 31H2S207 FBM207/b/c Voltage Monitor/Contact Sense Input Modules
  • Emerson DeltaV™ S-series Traditional I/O
  • MKS Type T3B Butterfly Valve (with DeviceNet Interface)
  • Triconex 3624 Digital Output Module
  • ABB 3BSE031151R1 PM865K01 Processor Unit HI
  • GE V7768 VME Single Board Computer
  • HIMatrix F30 01 Safety-Related Controller
  • TOSHIBA Welker Bearing Linear Guides and Wedge Components
  • GE Multilin MIF series digital feeder relay
  • ABB MNSiS Motor Control Center MConnect Interface
  • Emerson PR6426 32mm Eddy Current Sensor
  • Schneider ELAU PacDrive C400/C400 A8 Controller
  • Yokogawa Motor YS1700 Programmable Indicator Controller
  • Honeywell Searchline Excel Infrared Open Circuit Gas Detector
  • Rockwell Automation ICS AADvance Controller
  • ABB Relion ® 615 series RED615 line differential protection and control device
  • DEIF PPU-3 Parallel and Protection Unit
  • Foxboro PBCO-D8-009 Terminal Board (TB)
  • ASEM HT2150/QT2150 Fanless Panel Control Computer (IPC)
  • ABB FOUNDATION ™ Fieldbus Link Device LD 810HSE Ex V1.0
  • ABB Panel 800 Version 6 PP885 Hardware and Installation
  • Konica Minolta CM-3700A-U Plus spectrophotometer
  • Schneider FBM233 Field Device System Integrator Module
  • MTL 8502-BI-DP Bus Interface Module (BIM)
  • ABB DO880 Ability ™ System 800xA ® hardware selector
  • GE VMIVME-2540 24 channel intelligent counter/controller
  • GE VMIVME-3115-010 32-Channel 12-bit Analog Output Board
  • GE Fanuc Automation VMIVME-4140 32-Channel 12-bit Analog Output Board
  • BENTLY 1900/65A General Purpose Equipment Monitor
  • REXROTH Digital axis control HNC100
  • GE Grid Solutions 369 Series
  • ZYGO ZMI 7702 laser head
  • ZYGO ZMI 501A shell
  • ABB PFEA111-65 Tension Electronic Equipment
  • Allen Bradley 1753 Series GuardPLC 1800 Controller
  • Allen Bradley 1747-DCM Direct Communication Module
  • Allen Bradley 1746-NI8 SLC 500 Analog Input Module
  • Allen Bradley 1734 series POINT I/O common terminal module and voltage terminal module
  • Allen Bradley 150 Series SMC Dialog Plus Controller
  • Allen Bradley 1494V series variable depth flange mounted isolation switch
  • AB Allen Bradley 1492 series terminal block
  • Allen Bradley 1485 Series DeviceNet Media System
  • Allen Bradley 1391-DES series digital AC servo drive
  • Allen Bradley 1336 PLUS II Adjustable Frequency Driver
  • Allen Bradley 1336 IMPACT AC Inverter
  • Allen Bradley 1326AB high-performance AC servo motor
  • Allen Bradley DeviceNet Communication Module (1203-GK5/1336-GM5)
  • Allen Bradley 1203-CN1 ControlNet Communication Module
  • Rockwell Automation PanelView Standard Series Terminal (Model 2711)
  • Siemens SIMATIC S7-300 Digital Output Module (6ES7322-1BH01-0AA0)
  • Siemens SIMATIC S7-300 Digital Input Module (6ES7321-1BH02-0AA0)
  • Rockwell Automation 836T Series Differential Pressure Controller
  • Schneider Modicon Quantum 140DRA84000 Discrete Output Module
  • Schneider Modicon Quantum 140CPS11420 power module
  • Schneider Modicon Quantum 140ACO02000 Analog Output Module
  • Schneider Modicon Quantum 140CPU65260 Unity Processor
  • SIEMENS 6GK1105-2AA10 SIMATIC NET series optical switching module (OSM ITP62)
  • Modicon Quantum 140XBP01000 racks backplanes
  • ABB NTST01 Time Sync Link TU Time Sync Link Terminal Unit
  • Siemens 6ES7954-8LC02-0AA0 SIMATIC Memory Card
  • Siemens 6ES7511-1AK02-0AB0 SIMATIC S7-1500 CPU 1511-1 PN Central Processing Unit
  • Allen Bradley 1769-L32E (CompactLogix L32E) Programmable Automation Controller
  • Allen-Bradley 2711P-RDT7C PanelView ™ Plus 6 700 Industrial Human Computer Interface
  • Siemens 6AV6642-0DA01-1AX1 SIMATIC OP177B Industrial Human Machine Interface (HMI)
  • Emerson PACSystems RX3i I/O Module
  • Moxa EDS-508A series network managed Ethernet switch
  • Moxa EDS-408A series industrial Ethernet switch
  • ABB TK821V020 (3BSC95020R1) battery cable
  • Sonnax 6R80L-6R100-ZIP Transmission Valve Body Repair Kit
  • Moxa EDS-308 series industrial Ethernet switch
  • ABB Symphony Plus S+Control BRC410 Controller
  • GE Qualitrol IC670ALG230 Analog Input Module
  • ABB DCS series thyristor power converter
  • Schneider Electric Foxboro ™ DCS FBM201/b/c/d analog input module
  • Eaton XV-440-10TVB-1-20 Human Machine Interface (HMI)
  • Bentley Baker Hughes 2300 Series Vibration Monitors
  • Allen-Bradley IMC ™ S Class Compact Motion Controllers (IMC-S/23x model)
  • Siemens 6AV7875-0BC20-1AC0 SIMATIC HMI
  • Siemens 6AV6645-0CB01-0AX0 SIMATIC MOBILE PANEL 277 Mobile Panel
  • Siemens 6DD1607-0AA2 module functional characteristics!
  • Installation Requirements for GE IC693MDL655 Discrete Input Module!
  • ABB AI820 3BSE008544R1 Analog Input Module
  • How to order Siemens 6EP1336-3BA10 power module?
  • ABB AO810 REP3BSE008522R1 Analog Output Module
  • Siemens SIMATIC S7-400 EXM 438-1 I/O Expansion Module (6DD1607-0CA1)
  • Bently Nevada 3300 XL 8mm Proximity Sensor System
  • What are the scenarios for using Moog Rugged Motion Controller?
  • GE Grid Solutions Hydran M2 (Mark III) Enhanced DGA monitoring for transformers
  • Fanuc A16B-3200-0110 CNC System Module
  • ABB PM866AK01 processor unit (3BSE076939R1)
  • ABB MControl Motor and Feedline Control Unit (1TGE120011R1000)
  • ABB DSDP 140B Counter Board (5716001-ACX)
  • ABB M10x Motor Control and Protection Unit (1TNA920500R0002)
  • Foxboro Evo ™ Standard 200 Series Baseplates(PSS 31H-2SBASPLT)
  • Foxboro I/A Series Compact 200 16 Slot Horizontal Substrate (31H2C480B4)
  • DeltaV ™ Flex Connect Solutions for Foxboro ™ I/A Series 100 I/O
  • Foxboro Evo ™ FBM218 module
  • Yokogawa OpreX ™ STARDOM FCN-RTU Remote Terminal Unit