NX-TC3405 | Omron | Unité de contrôle de température série NX (Type 4 canaux)

Description

Designed for multi-loop thermal management within the Sysmac automation platform, the Omron NX-TC3405 provides high-speed, high-precision temperature control across four independent channels. This NX Series module interfaces directly with the NX I/O bus, processing analog inputs from a wide variety of thermocouples and RTDs to drive precise heating or cooling control loops. With its compact form factor and integrated safety/fault detection capabilities, it optimizes panel space while maintaining high thermal stability in challenging industrial environments.

Key Features

• 4-Channel Isolated Input: Supports B, C (WRe5-26), E, J, JPt100, K, L, N, P (PLII), Pt100, R, S, T, and U sensor profiles.
• High-Speed Processing: Extremely fast conversion time of 50 ms per unit ensures rapid closed-loop response.
• PNP PWM Outputs: Four digital outputs rated at 24 VDC (21 mA per point) optimized for solid-state relay (SSR) control.
• Heater Burnout Detection: Real-time monitoring of heater currents to detect failure events instantly.
• Push-in Plus Terminals: Dual detachable 2-connector design reduces wiring time and guarantees vibration-resistant terminations.

Applications

• Plastics extrusion, blow molding, and injection molding barrel zone control.
• Form-fill-seal packaging machinery and sealing jaws.
• Industrial baking ovens, drying tunnels, and heat treatment furnaces.
• Semiconductor wafer processing chambers and environmental test equipment.

Technical Specifications

Alternative Models & Compatibility

The NX-TC3405 belongs to the modular NX-series, which is compatible with NJ/NX CPU units and EtherCAT Coupler Units (such as the NX-ECC203). When replacing older systems or configuring custom control setups, note that the NX-TC3405 features PNP outputs (source logic). For NPN (sink logic) requirements, the NX-TC3406 should be specified. Furthermore, if only two control loops are required, consider the 2-channel NX-TC2405 to optimize panel layout and hardware costs.

Application Pitfalls & Engineering Notes

An essential engineering consideration is the 21 mA current limit per output point on the digital control channels. Attempting to directly switch high-draw inductive loads or mechanical relays will damage the internal output stage. Routing these outputs through a compatible solid-state relay (SSR) with a logic-level input is highly recommended. For accurate temperature readings, ensure that the thermocouple cold-junction sensor on the terminal block is not exposed to direct drafts from cooling fans inside the electrical cabinet, as local air currents can skew cold-junction compensation algorithms.

Commissioning & Wiring Tips

During initial configuration within Sysmac Studio, ensure that the selected input type corresponds exactly to the connected sensor (such as K-type or Pt100) to prevent calculation errors. Keep sensor wires separate from high-voltage AC lines to minimize electromagnetic noise coupling. Utilize shielded twisted-pair cables for thermocouple runs and ground the shield only at the control panel side. The Push-in Plus terminals support solid wires up to 1.5 mm2 or standard ferruled stranded wires; avoid tinned, bare stranded wires to ensure a reliable long-term gas-tight connection.

Installation Guidelines