Description
Designed for high-performance motion architectures within the Sysmac platform, the Omron NX-PG0232-5 acts as a dedicated dual-channel pulse output module that enables precise open-loop control of servo and stepper drives. This module supports synchronous I/O refreshing, allowing high-speed, deterministic synchronization with the main controller over EtherCAT. Featuring a high-density 34-pin MIL connector and robust line driver outputs, it ensures reliable pulse transmission even in electrically noisy industrial environments.
Key Features
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Dual-Channel Control: Supports independent open-loop control for up to two physical axes.
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High-Speed Output: Line driver pulse output operating at speeds up to 4 Mpps for dynamic micro-stepping and high-resolution servo response.
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Synchronous I/O Refreshing: Minimizes jitter and cycle-time variation across multi-axis configurations.
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Compact Form Factor: Standard 30 mm width integrates easily into high-density NX-series backplanes.
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High-Density MIL Connection: Secure 34-terminal MIL connector interface for consolidated field wiring.
Applications
- High-speed packaging systems requiring synchronous feed control.
- Semiconductor handling, pick-and-place gantry systems, and XY positioning tables.
- Labeling and converting machinery requiring high pulse-frequency precision.
- Stepper motor control in automated assembly stations.
Technical Specifications
| Parameter |
Specification |
| Manufacturer |
Omron |
| Model Reference |
NX-PG0232-5 |
| Number of Channels |
2 channels |
| Pulse Output Form |
Line driver output (NPN type) |
| Maximum Pulse Rate |
4,000,000 pps (4 Mpps) |
| I/O Refreshing Methods |
Synchronous I/O refreshing, Task period prioritized refreshing |
| Inputs per Channel |
5 (External inputs) |
| Outputs per Channel |
5 (1 forward pulse, 1 reverse pulse, 3 general-purpose outputs) |
| Position Control Range |
-2,147,483,648 to 2,147,483,647 pulses |
| Velocity Control Range |
1 to 4,000,000 pps |
| External Interface |
MIL connector (34-pin x 1) |
| Current Consumption (I/O) |
50 mA maximum |
| Maximum Cable Length |
Line driver: 10 m | General I/O: 3 m |
| Dimensions (W x H x D) |
30 x 100 x 71 mm |
| Net Weight |
0.11 kg |
| Shipping Weight (Calculated) |
1.00 kg |
Empirical Engineering Insights
Alternative Models & Compatibility
When selecting pulse train modules, ensure compatibility with the driver interface: the NX-PG0232-5 uses line driver outputs, which offer superior noise immunity over open-collector variants (such as the NX-PG0112 / NX-PG0122 series). If your servo driver requires a PNP common configuration or single-ended open collector outputs, you must select the corresponding NX-PG variant to avoid hardware mismatch. Sysmac Studio version 1.10 or higher is recommended to configure synchronous motion control options with this unit.
Application Pitfalls & Engineering Notes
To avoid high-frequency pulse signal attenuation and signal distortion, line driver cables must not exceed 10 meters in length. Exceeding this limit can cause position drift or "lost pulses" during high-velocity moves (above 2 Mpps). Additionally, when units are installed in tightly sealed panels, ensure that adjacent heat-generating components do not drive ambient temperatures above 55 degC, as thermal saturation can degrade internal optocoupler switching performance.
Commissioning & Wiring Tips
Always use twisted-pair shielded cabling for the line driver pulse outputs. Connect the shield securely to the functional ground bar on the DIN rail. It is highly recommended to use pre-assembled Omron MIL-connector cables (e.g., XW2Z series) to eliminate wiring errors on the high-density 34-pin interface. Keep the pulse signal lines separated from AC power supply cables and variable-frequency drive (VFD) motor lines by at least 100 mm to prevent electromagnetic cross-talk.
Installation Guidelines
CRITICAL WARNING
Disconnect all power supplies to the NX-series bus coupler and the external I/O power supply before inserting or removing the module. Failure to do so may result in permanent damage to the internal bus transceiver or cause erratic behavior in adjacent modules.
1
Mount the NX-PG0232-5 onto the DIN rail by sliding it into position until the side-mount bus connectors lock securely with the adjacent module.
2
Ensure the unit's DIN rail hooks lock firmly. Verify the grounding plate on the back of the unit makes clean, direct contact with the conductive DIN rail.
3
Insert the 34-pin MIL connector wiring harness into the front port until the locking tabs snap shut, securing the connection.
4
Apply bus power and execute a discovery scan in Sysmac Studio to map the unit to your physical I/O map and configure the axis parameters.