GE DS200TBQBG1AAA Mark V Series Termination Module
Manufacturer: GE Fanuc
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Part Number: DS200TBQBG1AAA
Condition:New with Original Package
Product Type: Input Termination Modules
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Country of Origin: USA
Payment:T/T, Western Union
Shipping port: Xiamen
Warranty: 12 months
Configured for critical input signal termination in Mark V Speedtronic turbine control systems, the GE DS200TBQBG1AAA (DS200TBQB Input Termination Module) provides direct physical/electrical execution. This hardware component interfaces external analog and discrete I/O field devices with the R-Core processing sub-system via noise-filtered conditioning networks and impedance-matched routing lines. The assembly incorporates multi-pin backplane connectors, dual high-density terminal blocks, and 15 configurable jumpers utilized to determine voltage path and signal isolation behavior before data forwarding to associated TBCB control boards.
Hardware Specifications
| Parameter | Specification |
|---|---|
| Model | DS200TBQBG1AAA |
| Brand | GE |
| Origin | USA |
| Weight | 1.2 kg |
| Dimensions | 330 mm x 200 mm x 50 mm |
| Operating Temp | -40 to +70 deg C |
| Power Consumption | Driven by +5 VDC logic supply from associated core backplane |
| Base Model | DS200TBQB |
| Terminal Blocks | 2 blocks providing 77 signal wire terminations |
| Connectors | 3 x 34-pin ribbon connectors, 3 x 16-pin ribbon connectors |
| Configurable Jumpers | 15 hardware jumpers for input circuit routing selection |
| Input Channel Types | Analog loops and discrete dry/wet contact signals |
| Diagnostic Coverage | Onboard hardware test loops with full status register polling via PROM tools |
Industrial Control & Drive Technical Attributes
The DS200TBQBG1AAA incorporates dedicated noise-immune RC filtering circuitry across its high-density input channels to achieve signal stabilization and contact bounce suppression. System integration within the Mark V chassis relies on strict firmware flash compatibility parameters between the termination layer and the active TBCB processing modules. High-speed backplane bus communication velocities govern the physical signal scan rates, ensuring that localized discrete input status changes are updated within the designated deterministic controller loop window. Hardware impedance matching across the differential analog traces eliminates signal degradation and crosstalk over prolonged field wiring lines prior to reaching the digital sampling stage.
Frequently Asked Questions
Q: How are the 15 onboard jumpers utilized during system deployment? A: The hardware jumpers configure the physical signal routing paths on the PCB, allowing field technicians to select between wet or dry contact logic parameters and modify the isolation reference points depending on the R-Core system architecture.
Q: Can this termination board handle diagnostic fault tracking independently? A: The board features limited standalone hardware diagnostics; comprehensive trace monitoring, signal health validation, and contact fault localization are executed at the controller level through the system PROM utility tools.
Q: What is the primary function of the 34-pin and 16-pin connector arrays? A: These ribbon-cable connectors form the dedicated parallel interface that routes conditioned field signals directly into the processing bus of the TBCB board and corresponding control cores.
Field Installation Guidelines
- Enclosure Mounting: Secure the module into the designated panel position within the Mark V cabinet assembly using the pre-drilled chassis mounting holes. Ensure the board is fixed flat to mitigate mechanical stress on the multi-pin ribbon connectors.
- Field Wiring Routing: Strip external field cables according to standard terminal block specifications. Insert the conductors into terminal blocks 1 and 2, ensuring that screw terminals are torqued sufficiently to prevent high-resistance connections.
- Shield Grounding Protocols: Route analog and discrete signal shields to the dedicated master ground bus bar inside the enclosure. Maintain strict separation between field shield braids and the low-voltage logic ground planes on the board.
- Jumper Verification: Set all 15 configuration jumpers to their specified positions according to the system wiring diagram before applying the +5 VDC backplane power.