Manufacturer: Omron
Product No.: CPM1A-20CDR-D-V1(SAME DAY DELIVERY)
Country of origin:Japan
Product Type: Micro PLC CPUs
Payment: T/T, Western Union
Weight: 500g
Dimensions: 90 mm x 86 mm x 50 mm
Shipping port: Xiamen
Warranty: 12 months
Designed for localized machine control and compact automation architectures, the Omron CPM1A-20CDR-D-V1 serves as a high-reliability micro PLC CPU within the CPM1A product family. This controller integrates processing, power management, and specialized I/O capabilities into a single, space-saving housing, making it highly suitable for standalone machinery and distributed control nodes. Operating on a nominal 24 VDC power source, the unit coordinates 12 digital inputs and 8 relay outputs with optimized logic execution speeds. It also features a built-in high-speed counter interface to support basic encoder processing and simple motion tasks directly without requiring auxiliary expansion modules.
| Parameter | Specification Value |
|---|---|
| Manufacturer | Omron |
| Model Code | CPM1A-20CDR-D-V1 |
| Controller Series | CPM1A Series |
| Supply Voltage Range | 20.4 to 26.4 VDC |
| Total Integrated I/O Points | 20 points |
| Digital Inputs | 12 points (DC input configuration) |
| Digital Outputs | 8 points (Relay output configuration) |
| Program Capacity | 2 kWords |
| Data Memory Capacity | 1 kWords |
| Execution Time | 0.72 microseconds to 1.72 microseconds (basic instructions) |
| High-Speed Input Function | 1 incremental encoder channel (5 kHz single phase) |
| System Expansion | Not supported on this specific chassis model |
| Ambient Operating Temperature | 0 to 55 degC |
| Dimensions (H x W x D) | 90 mm x 86 mm x 50 mm |
| Country of Origin | Japan |
| Shipping Weight (Calculated) | 0.55 kg |
| Terminal Designation | Circuit Assignment / Function |
|---|---|
| Power Terminals (L1/L2 or +/-) | System 24 VDC power input terminals (+ and - polarity layout). |
| Inputs 00.00 to 00.11 | 12 standard DC digital input channels. Terminals 00.00 to 00.02 handle high-speed interrupt and encoder inputs. |
| Outputs 10.00 to 10.07 | 8 dry contact relay output terminals split across shared common nodes. |
| Peripheral Port | Proprietary Omron peripheral connection for hand-held programming consoles or serial communications adapters. |
The CPM1A-20CDR-D-V1 represents a legacy micro PLC architectural standard. For new design installations, consider modern alternatives such as the CP1E-N20DR-D or CP1L-L20DR-D, which offer expanded communication options and larger program capacities. Direct program transfers from the CPM1A to newer platforms can be executed inside CX-Programmer by performing a simple PLC Type conversion. Note that physical wiring footprints differ between the CPM1A and CP1E series; direct drop-in replacement requires cabinet DIN-rail adjustments.
Because this CPU relies on mechanical relay outputs, rapid cycling of outputs will cause early mechanical wear. For fast switching applications (such as PWM control or high-frequency cycling of solenoids), utilize transistor-output PLC models instead. When switching highly inductive loads such as solenoid valves or heavy motor contactors, external surge suppressors (RC snubbers for AC loads, freewheeling diodes for DC loads) must be wired in parallel with the load to prevent relay arcing and electrical noise propagation back into the CPU logical backplane.
To configure the integrated 5 kHz high-speed counter, verify that the DM (Data Memory) area setup matches your physical channel configurations. Incorrect system parameter settings in CX-Programmer can result in the high-speed input behaving as standard digital inputs, leading to lost counts at high frequencies. Always ensure the 24 VDC supply features clean, low-ripple characteristics to avoid communication dropouts on the peripheral port interface.
Mount the controller horizontally on standard 35mm DIN-rail within an enclosed cabinet to prevent thermal buildup, ensuring a minimum clearance of 50 mm above and below the chassis for ambient ventilation.
Connect the dedicated functional ground (FG) terminal to an independent earth ground utilizing a conductor with a cross-sectional area of at least 2.0 mm² to maximize electromagnetic interference (EMI) protection.
Wire the 24 VDC input lines directly to the main system terminals, ensuring standard physical separation is maintained between low-voltage input signals and high-voltage AC relay circuit pathways.
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| Country of origin |
Japan
|
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