The Allen-Bradley 1771-IXE serves as a precision temperature sensing interface for the PLC-5 platform. This high-resolution module converts low-level analog signals from thermocouples or millivolt sources into digital values for the processor. Featuring 8 floating differential inputs, the 1771-IXE provides the electrical isolation necessary to prevent ground loops in complex industrial heating applications. It utilizes the Block Transfer interface to communicate large data packets efficiently, ensuring accurate temperature tracking across diverse sensor types.
We supply this module as 100% Brand New and original, ensuring peak factory calibration and 15-bit plus sign resolution.
| Parameter | Specification |
| Number of Inputs | 8 Isolated Floating Differential Channels |
| Input Types | Thermocouple (E, J, K, T, R, S) or Millivolt |
| Voltage Range | +/- 99.99 mV (Millivolt mode) |
| Resolution | 15 Bits + Sign; 1 degree C or 1 degree F |
| Update Rate | 50 milliseconds for all 8 channels |
| Interface Type | Block Transfer (BTR/BTW) |
| Backplane Current | 750 mA at 5V DC |
| Isolation | Optical Isolation between inputs and backplane |
| Operating Temp | 0 to 60 degrees C (32 to 140 degrees F) |
| Mounting | 1771 Universal I/O Chassis (Rack Mount) |
The 1771-IXE eliminates common precision measurement hurdles in heavy industrial environments:
Integrated Auto-Calibration: The module performs automatic offset and gain calibration. This hardware-level feature maintains accuracy over time and temperature fluctuations without requiring manual technician intervention or external calibration gear.
Superior Noise Rejection: Isolated floating differential inputs reject common-mode noise. This allows the module to accurately read small millivolt signals even when thermocouple wires run near high-voltage motor cables or in electrically "noisy" environments.
Mixed Sensor Flexibility: The hardware supports "4 and 4" configurations, allowing engineers to monitor two different thermocouple types (e.g., Type K and Type J) on a single module. This versatility maximizes slot utilization in small 1771-A1B or 1771-A2B chassis.
High-Speed Throughput: A 50ms update rate for all 8 channels ensures the PLC-5 processor reacts instantly to thermal spikes. This responsiveness proves critical for high-speed furnace control or chemical reaction monitoring where thermal lag must be minimized.
Does the 1771-IXE require an external power supply for the field sensors?
No. The module draws its entire 750 mA operating current directly from the 1771 chassis backplane. It does not require an external power source to process the thermocouple or millivolt signals.
Can I mix Millivolt and Thermocouple inputs on the same module?
Yes. You can configure the inputs as 8 channels of the same type or split them into two groups of 4. This allows you to monitor 4 thermocouples and 4 millivolt pressure transducers on a single 1771-IXE card.
How does the module handle a broken thermocouple wire?
The 1771-IXE includes open-circuit detection. When the module detects a broken wire or lost signal, it reports a specific error bit to the PLC-5 processor via the Block Transfer Read (BTR) file, allowing the logic to trigger a safe shutdown or alarm.
What wiring arm is required for the 1771-IXE?
This module typically utilizes the 1771-WG or 1771-WH wiring arms. Always ensure tight terminations and use proper thermocouple extension wire to prevent cold-junction compensation errors at the terminal block.
Our production line was down due to a faulty Bently Nevada monitor. We found it in stock here and they shipped it via DHL immediately. Back in operation within 48 hours—truly a lifesaver for our plant.
Finding brand new, original modules is critical for our safety. This team delivers factory-fresh components with full certification. Their commitment to only selling new products makes them our most trusted partner.
We have sourced Honeywell and Schneider parts here for two years. Every shipment arrives well-packaged with original factory seals intact. Clear communication and the best lead times in the industry.