Product Details
The GE IS200TRTDH1C, also cataloged as the IS200TRTDH1C RTD Input Terminal Board, operates as a dedicated hardware component for multi-channel temperature signal acquisition within Mark VIe distributed control platforms.
Hardware Specifications
| Parameter | Specification |
|---|---|
| Model | IS200TRTDH1C |
| Brand | General Electric |
| Origin | USA |
| Dimensions | 6.25 in x 4.25 in |
| Operating Temp | 0 deg C to 60 deg C |
| Power Consumption | 400 W (Total capacity) |
| Input Capacity | 16 three-wire RTD inputs |
Profinet / EtherNet/IP Deterministic Networks
The IS200TRTDH1C manages the termination and conditioning of 16 three-wire RTD signals. The board utilizes integrated noise-reduction circuitry at each input to mitigate high-frequency interference and surge events before signal conversion. The terminal board interfaces with I/O processors (VRTD boards) via two DC-type connectors to digitize temperature values for controller transmission. Deterministic operation is maintained through synchronized communication between the TRTD and the I/O processors, ensuring that thermal data is ingested within established controller scan cycles. I/O density scaling is supported through the board's modular architecture, allowing for straightforward expansion of temperature monitoring points within the Mark VIe control cabinet.
Frequently Asked Questions
Q: Can the IS200TRTDH1C be used in TMR (Triple Modular Redundant) systems?
A: No. The IS200TRTDH1C is a simplex configuration board. For TMR applications, the TRTDH1B variant is required, which provides the necessary six DC-type connectors to interface with three redundant VRTD boards.
Q: How does the board handle high-frequency noise on RTD inputs?
A: The board features dedicated surge and noise-reduction circuitry at the point of input. This circuitry filters induced noise from field cabling before the signal is passed to the analog-to-digital conversion stage.
Field Installation Guidelines
- Terminal Block Wiring: Use the two provided barrier-type terminal blocks for all field connections. Ensure that the three-wire RTD leads are terminated securely to prevent resistance imbalances, which can cause significant measurement errors in temperature readings.
- Mounting: Secure the board onto a flat panel or DIN-rail. Ensure a clean mechanical connection to the cabinet ground to maximize the effectiveness of the noise suppression circuitry.
- Signal Segregation: Maintain physical separation between RTD input wiring and high-current power or AC control wiring to minimize inductive noise ingress.
- Connector Seating: Ensure the two DC-type connectors linked to the VRTD boards are fully seated and locked. Loose connections can introduce contact resistance that degrades the precision of the temperature feedback loop.
Additional Information
- 100% Genuine Parts: All products are original and authentic, ensuring reliable industrial performance.
- 30-Day Refund Guarantee: Return any in-stock item within 30 days in original, unopened packaging for a full refund (excluding shipping and fees).
- 12-Month Warranty: Covers defects in materials or workmanship; excludes misuse, normal wear, or unauthorized modifications.
- Worldwide Shipping: We ship via USPS, UPS, FedEx, and DHL. Delivery times vary by country and may be subject to customs or import fees.
- Support & Contact: Technical and warranty assistance is available anytime. Contact us here: Contact.
- Purchase Guidance: Check product specifications and compatibility carefully before ordering to ensure proper application.
Tech & Buying Guide
PLC vs. PAC: Navigating Selection in Modern Industrial Automation
Selecting the right controller is a fundamental decision in industrial automation. While the lines between Programmable Logic Controllers (PLC) and Programmable Automation Controllers (PAC) often blur, understanding their core architectural differences is essential for system reliability. Both controllers serve as the brain of control systems, yet their specific capabilities dictate their suitability for various factory automation tasks.
Transforming Textile Manufacturing: The Strategic Integration of Industrial Automation and AI
The textile industry stands at a critical technological crossroads. Legacy operations must now embrace digital transformation to remain competitive in a global market. By integrating advanced industrial automation—ranging from PLC-controlled machinery to sophisticated AI-driven analytics—manufacturers can significantly boost productivity, minimize material waste, and elevate overall product quality.
Navigating Industrial Communication Protocols: A Technical Guide for Modern PLCs
In the realm of industrial automation, the Programmable Logic Controller (PLC) serves as the brain of the factory floor. However, its true power is unlocked through robust communication protocols. These digital pathways ensure seamless data exchange between controllers, sensors, and enterprise-level management systems.