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CP2W-CIFD2
Option Board, RS-232C, RS-485, 0.06A Current, 500 m Maximum Transmission Distance
⚠️ Reference pricing provided. In case of supply shortages, we will connect you with our trusted procurement partners to ensure your project's continuity.
- Manufacturer: OMRON INDUSTRIAL AUTOMATION
- Product type: Controller Accessories
- SVHC: No SVHC (25-Jun-2025)
- Product Range: CP2W Series
- Current Rating: 60mA
| Delivery and price | |
|---|---|
| Units per pack | 1 |
| Price | 82.73 € |
| Current stock | 10+ |
| Lead time | 30 days |
Datasheet
## **Programmable Controller CP2E**
## **Micro PLC designed to support data collection and Machine to Machine communication**
- Network Model features Ethernet connectivity + 4-axis positioning: CP2E-N type
- Standard Model features axis control: CP2E-S type
- Essential Model features basic control: CP2E-E type
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CP2E-E20DR-A<br>**----- End of picture text -----**<br>
**CP2E-N30D** @ **-** @
## **Features**
- Two built-in Ethernet ports with Ethernet switching function: Ready for Machine to Machine communication (CP2E-N type)
- Up to three serial ports: Open connectivity to serial devices (CP2E-N type)
- Four-axis positioning function with linear interpolation (CP2E-N type)
- Battery-free operation and backup reduce maintenance
- Function blocks and structured text improve programming efficiency
- Operating temperature range from -20 to 60 °C for reliable use in special applications
- Input/output terminal LED indicators for quick troubleshooting
**1**
**CP2E**
## **System Configuration**
## **N** @@ **-type CPU Unit**
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Co Battery<br>CP2W-BAT02<br>CP2E CPU Unit Expansion I/O Units Expansion Units DIN Track<br>© “" — (ee )/(/ Goa<br>Ethernet:<br>2 ports 20 or 40 I/O Points Analog I/O<br>CP2E-N30D -<br>[| Support Software CX-One DS Personal computer | CP2E-N40DCP2E-N60D os -- L 8 inputs LC Analog inputs<br>8 outputs Analog outputs<br>16 outputs Temperature sensors<br>Serial port<br>Co — 32 outputs 4<br>Programmable<br>Terminal (PT) ! =<br>Up to 3 Units can be connected<br>(NT Link/Host Link) e e Sa=avT<br>General component Inverter<br>LINK/ACT RS-232C RS-422A/485 Analog<br>Option Board Option Board Option Board<br>f\ at Et t Ethernet: -_||| Lo) CP1W-CIF01 Or eee) CP1W-CIF11CP1W-CIF12-V1 Or CP1W-DAB21VCP1W-ADB21<br>(No-protocol mode) (Modbus-RTU) CP2E-N14D1 port - COMM COMM CP1W-MAB221<br>CP2E-N20D -<br>CP-series PLC or<br>CJ2M PLC Host computer<br>RS-232C & RS-232C RS-232C & RS-485 RS-485 & RS-485<br>Lo) Option Board ee) Option Board ee) Option Board<br>CP2W-CIFD1 Or CP2W-CIFD2 Or CP2W-CIFD3<br>(Host Link)<br>(Serial PLC Link)<br>Note 1. Maximum one Analog Option Board can be mounted on an N -type<br> CPU Unit.<br> 2. CP2W-CIFD can only be mounted on option slot 1.<br>**----- End of picture text -----**<br>
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When a two level layout is created by expansion and distance is required<br>Expansion Units and<br>CP2E CPU Unit Expansion I/O Units I/O Connecting Cable<br>CP1W-CN811<br>**----- End of picture text -----**<br>
**2**
**CP2E**
## **S** @@ **-type CPU Unit**
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Cd Battery<br>CP2W-BAT02<br>CP2E CPU Unit Expansion I/O Units Expansion Units DIN Track<br>: ===<br>CP2E-S30D -<br>RS-232C port CP2E-S40D - 20 or 40 I/O Points Analog I/O<br>Support Software Personal computer CP2E-S60D -<br> CX-One a ii RS-485 port 8 ||| 8 inputs © Analog inputs<br>8 outputs Analog outputs<br>Serial port<br>— L C_ ) C4 a<br>Programmable ee 16 outputs Temperature sensors<br>Terminal (PT)<br>32 outputs<br>(NT Link/Host Link) LJ SSCc<br>Up to 3 Units can be connected<br>General component Inverter [ F—<br>When a two level layout is created by expansion and distance is required<br>Expansion Units and I/O Connecting Cable<br>CP2E CPU Unit Expansion I/O Units<br>: =<br>(No-protocol mode)<br>(Modbus-RTU)<br>CP1W-CN811<br>Fame ae a a<br>CP-series PLC or<br>CJ2M PLC Host computer<br>=<br>(Host Link)<br>(Serial PLC Link)<br>@@ -type CPU Unit<br>CP2E CPU Unit Expansion I/O Units Expansion Units DIN Track<br>a e<br>CP2E-E30DR-A<br>RS-232C port CP2E-E40DR-A 20 or 40 I/O Points Analog I/O<br>Support Software Personal computer I CP2E-E60DR-A<br> CX-One 8 inputs Analog inputs<br>y e —<br>Ld<br>8 outputs Analog outputs<br>Serial port<br>Cd Programmable LC]ee 16 outputs Temperature sensors Cd<br>Terminal (PT)<br>32 outputs<br>(NT Link/Host Link) LJ] —<br>J, —_——<br>Up to 3 Units can be connected<br>General component Inverter [<br>When a two level layout is created by expansion and distance is required<br>Expansion Units and I/O Connecting Cable<br>: o I! e CP2E CPU Unit Expansion I/O Units<br>(No-protocol mode)<br>(Modbus-RTU)<br>CP1W-CN811<br>CP-series PLC or<br>CJ2M PLC Host computer<br>(Host Link)<br>(Serial PLC Link) _ a CP2E-E14DR-ACP2E-E20DR-A<br>**----- End of picture text -----**<br>
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E @@ -type CPU Unit<br>**----- End of picture text -----**<br>
**3** omron ~~a~~
**CP2E Model Number Structure**
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Power supply<br>A: AC power supply<br>CP2E-���D�-� D: DC power supply<br>Output type<br>R: Relays outputs<br>T: Transistor outputs, sinking<br>T1: Transistor outputs, sourcing<br>Input type<br>D: DC inputs<br>I/O capacity<br>14: 14 I/O points (8 inputs, 6 outputs)<br>20: 20 I/O points (12 inputs, 8 outputs)<br>30: 30 I/O points (18 inputs, 12 outputs)<br>40: 40 I/O points (24 inputs, 16 outputs)<br>60: 60 I/O points (36 inputs, 24 outputs)<br>Unit type<br>E: Essential model<br>S: Standard model<br>N: Network model<br>**----- End of picture text -----**<br>
**4**
**CP2E**
## **Ordering Information**
## **Applicable standards**
Refer to the OMRON website (www.ia.omron.com) or ask your OMRON representative for the most recent applicable standards for each model.
## **CPU Unit**
## **CP2E-N-type/Network model**
|**Number of points**<br>~~oo~~|**Specifications**<br>~~ee~~<br>~~|~~|**Specifications**<br>~~ee~~<br>~~|~~|**Specifications**<br>~~ee~~<br>~~|~~|**Specifications**<br>~~ee~~<br>~~|~~|**Specifications**<br>~~ee~~<br>~~|~~|**Specifications**<br>~~ee~~<br>~~|~~|**Specifications**<br>~~ee~~<br>~~|~~|**Specifications**<br>~~ee~~<br>~~|~~|**Model**|
|---|---|---|---|---|---|---|---|---|---|
||**Power Supply**<br>~~Pp~~<br>~~oo~~|**Inputs**<br>~~Pp~~|**Outputs**<br>~~Pp~~<br>~~|~~<br>~~—_~~|**Output**<br>**type**<br>~~Pp~~<br>~~|~~<br>~~—_~~|**Program**<br>**capacity**<br>~~Pp~~<br>~~—_~~|**Data memory**<br>**capacity**<br>~~|~~<br>~~Pp~~|**Current consumption**<br>~~|~~<br>~~Pp~~|||
||||||||**5 VDC**<br>~~|~~<br>~~Pp~~<br>~~ee~~<br>~~T=~~|**24 VDC**<br>~~Pp~~<br>~~T=~~||
|**CPU Units with**<br>**14 points**<br>~~oo~~<br>*|100 to 240 VAC<br>~~Pp~~<br>~~oo~~<br>|8 points<br>~~Pp~~<br>~~[p~~<br>||6 points<br>~~Pp~~<br>~~|~~<br>~~—_~~<br>~~||~~<br>~~[pe~~<br>~~—~~<br>|~~Fe~~|Relay<br>~~Pp~~<br>~~|~~<br>~~—_~~|10K steps<br>(FB<br>capacity:<br>10K steps)<br>~~Pp~~<br>~~—_~~<br>~~—_~~<br>~~—_~~<br>~~—_~~<br>~~—_~~|16K words<br>~~Pp~~<br>~~|~~<br>~~|~~<br>~~|~~<br>~~|~~<br>~~|~~<br>~~|~~|0.15 A<br>~~Pp~~<br>~~ee~~<br>~~T=~~|0.05 A<br>~~Pp~~<br>~~T=~~|**CP2E-N14DR-A**|
|||||Transistor<br>(sinking)<br>~~|~~<br>~~—_~~<br>~~||~~<br>|||0.21 A<br>~~ee~~<br>~~T=~~<br>~~||~~|0.02 A<br>~~T=~~<br>~~|~~|**CP2E-N14DT-A**|
||24 VDC<br>~~oo~~<br> ~~[p~~<br>~~Po]~~|||Relay<br>~~|~~<br>~~—_~~<br>~~||~~<br>~~e~~|||0.15 A<br>~~ee~~<br>~~T=~~<br>~~||~~<br>~~=~~|0.05 A<br>~~T=~~<br>~~|~~<br>~~=~~|**CP2E-N14DR-D**|
|||||Transistor<br>(sinking)<br>~~||~~<br>~~e~~|||0.21 A<br>~~||~~<br>~~=~~|0.02 A<br>~~|~~<br>~~=~~|**CP2E-N14DT-D**|
|||||Transistor<br>(sourcing)<br>~~e~~<br>~~—~~<br>~~Fe~~|||0.22 A<br>~~|~~<br>~~=~~<br>~~T=~~<br>~~T=~~|0.02 A<br>~~|~~<br>~~=~~<br>~~T=~~<br>~~T=~~|**CP2E-N14DT1-D**|
|**CPU Units with**<br>**20 points**<br> <br>bf|100 to 240 VAC<br> ~~[p~~<br>~~Po]~~<br>|12 points<br>~~[p~~<br>||8 points<br>~~[pe~~<br>~~—~~<br>| ~~Fe~~<br>~~—~~<br>~~|~~<br>~~—~~<br>~~—_~~<br>~~|~~<br>~~—_~~|Relay<br>~~e~~<br>~~—~~<br>~~Fe~~|||0.17 A<br>~~=~~<br>~~T=~~<br>~~T=~~|0.06 A<br>~~=~~<br>~~T=~~<br>~~T=~~|**CP2E-N20DR-A**|
|||||Transistor<br>(sinking)<br>~~Fe~~<br>~~—~~<br>~~|~~|||0.27 A<br>~~T=~~<br>~~T=~~<br>~~||~~|0.02 A<br>~~T=~~<br>~~T=~~<br>~~|~~|**CP2E-N20DT-A**|
||24 VDC<br>~~Po]~~<br> ~~_~~|||Relay<br>~~Fe~~<br>~~—~~<br>~~|~~<br>~~—~~|||0.17 A<br>~~T=~~<br>~~T=~~<br>~~||~~<br>~~——~~|0.06 A<br>~~T=~~<br>~~T=~~<br>~~|~~<br>~~——~~|**CP2E-N20DR-D**|
|||||Transistor<br>(sinking)<br>~~|~~<br>~~—~~<br>~~—_~~|||0.27 A<br>~~||~~<br>~~——~~<br>~~T=~~|0.02 A<br>~~|~~<br>~~——~~<br>~~T=~~|**CP2E-N20DT-D**|
|||||Transistor<br>(sourcing)<br>~~—~~<br>~~—_~~<br>~~|~~<br>~~—_~~|||0.26 A<br>~~|~~<br>~~——~~<br>~~T=~~<br>~~||~~<br>~~T=~~|0.02 A<br>~~|~~<br>~~——~~<br>~~T=~~<br>~~|~~<br>~~T=~~|**CP2E-N20DT1-D**|
|**CPU Units with**<br>**30 points**<br> <br>| <br>~~So~~|100 to 240 VAC<br> ~~_~~<br>~~_~~|18 points|12 points<br>~~—~~<br>~~—_~~<br>~~|~~<br>~~—_~~<br>~~|~~<br>~~—_~~<br>~~_~~<br>~~|~~<br>~~—_~~|Relay<br>~~—~~<br>~~—_~~<br>~~|~~<br>~~—_~~|||0.41 A<br>~~——~~<br>~~T=~~<br>~~||~~<br>~~T=~~|0.07 A<br>~~——~~<br>~~T=~~<br>~~|~~<br>~~T=~~|**CP2E-N30DR-A**|
|||||Transistor<br>(sinking)<br>~~|~~<br>~~—_~~<br>~~|~~<br>~~—_~~|||0.52 A<br>~~| |~~<br>~~T=~~<br>~~a~~<br>~~——~~|0.03 A<br>~~|~~<br>~~T=~~<br>~~a~~<br>~~——~~|**CP2E-N30DT-A**|
||24 VDC<br> ~~_~~<br>~~So~~|||Relay<br>~~—_~~<br>~~|~~<br>~~—_~~|||0.37 A<br>~~T=~~<br>~~a~~<br>~~——~~|0.07 A<br>~~T=~~<br>~~a~~<br>~~——~~|**CP2E-N30DR-D**|
|||||Transistor<br>(sinking)<br>~~|~~<br>~~—_~~|||0.51 A<br>~~a~~<br>~~——~~|0.03 A<br>~~a~~<br>~~——~~|**CP2E-N30DT-D**|
|||||Transistor<br>(sourcing)<br>~~|~~<br>~~—_~~<br>~~_~~<br>~~|~~<br>~~—_~~|||0.51 A<br>~~a~~<br>~~——~~<br>~~T=~~<br>~~||~~<br>~~T=~~|0.03 A<br>~~a~~<br>~~——~~<br>~~T=~~<br>~~|~~<br>~~T=~~|**CP2E-N30DT1-D**|
|**CPU Units with**<br>**40 points**<br>~~So~~<br>SS|100 to 240 VAC<br>~~So~~|24 points|16 points<br>~~_~~<br>~~|~~<br>~~—_~~<br>~~|~~<br>~~—~~<br>~~—_~~<br>~~|~~|Relay<br>~~_~~<br>~~|~~<br>~~—_~~|||0.39 A<br>~~T=~~<br>~~||~~<br>~~T=~~|0.09 A<br>~~T=~~<br>~~|~~<br>~~T=~~|**CP2E-N40DR-A**|
|||||Transistor<br>(sinking)<br>~~_~~<br>~~|~~<br>~~—_~~<br>~~||~~|||0.59 A<br>~~T=~~<br>~~| |~~<br>~~T=~~<br>~~||~~|0.03 A<br>~~T=~~<br>~~|~~<br>~~T=~~<br>~~|~~|**CP2E-N40DT-A**|
||24 VDC<br>~~So~~|||Relay<br>~~_~~<br>~~—_~~<br>~~||~~|||0.39 A<br>~~T=~~<br>~~T=~~<br>~~||~~|0.09 A<br>~~T=~~<br>~~T=~~<br>~~|~~|**CP2E-N40DR-D**|
|||||Transistor<br>(sinking)<br>~~| |~~<br>~~—~~<br>~~—_~~|||0.59 A<br>~~||~~<br>~~——~~<br>~~T=~~|0.03 A<br>~~|~~<br>~~——~~<br>~~T=~~|**CP2E-N40DT-D**|
|||||Transistor<br>(sourcing)<br>~~—_~~<br>~~|~~|||0.59 A<br>~~|~~<br>~~T=~~<br>~~a~~|0.03 A<br>~~|~~<br>~~T=~~|**CP2E-N40DT1-D**|
|**CPU Units with**<br>**60 points**<br>FeaPy|100 to 240 VAC<br>|36 points|24 points<br>~~—_~~<br>~~|~~<br>~~_~~<br>~~|~~<br>~~fe~~<br>~~_~~|Relay<br>~~—_~~<br>~~|~~|||0.44 A<br>~~T=~~<br>~~a~~|0.13 A<br>~~T=~~|**CP2E-N60DR-A**|
|||||Transistor<br>(sinking)<br>~~|~~<br>~~_~~<br>~~|~~|||0.71 A<br>~~a~~<br>~~a~~<br>~~||~~|0.03 A<br>~~a~~<br>~~|~~|**CP2E-N60DT-A**|
||24 VDC<br>Py|||Relay<br>~~|~~<br>~~fe~~|||0.41 A<br>~~||~~<br>~~—{—~~|0.13 A<br>~~|~~<br>~~—{—~~|**CP2E-N60DR-D**|
|||||Transistor<br>(sinking)<br>~~|~~<br>~~fe~~|||0.71 A<br>~~||~~<br>~~—{—~~|0.03 A<br>~~|~~<br>~~—{—~~|**CP2E-N60DT-D**|
|||||Transistor<br>(sourcing)<br>~~fe~~<br>~~_~~|||0.71 A<br>~~|~~<br>~~—{—~~<br>~~T=~~|0.03 A<br>~~|~~<br>~~—{—~~<br>~~T=~~|**CP2E-N60DT1-D**|
**5**
**CP2E**
## **CP2E-S-type/Standard model**
|**Number of points**|**Specifications**|**Specifications**|**Specifications**|**Specifications**|**Specifications**|**Specifications**|**Specifications**|**Specifications**|**Model**|
|---|---|---|---|---|---|---|---|---|---|
||**Power Supply**|**Inputs**|**Outputs**|**Output**<br>**type**|**Program**<br>**capacity**|**Data memory**<br>**capacity**|**Current consumption**|||
||||||||**5 VDC**|**24 VDC**||
|**CPU Units with**<br>**30 points**|100 to 240 VAC|18 points|12 points|Relay|8K steps<br>(FB<br>capacity:<br>8K steps)|8K words|0.12 A|0.07 A|**CP2E-S30DR-A**|
||24 VDC|||Transistor<br>(sinking)|||0.28 A|0.02 A|**CP2E-S30DT-D**|
|||||Transistor<br>(sourcing)|||||**CP2E-S30DT1-D**|
|**CPU Units with**<br>**40 points**|100 to 240 VAC|24 points|16 points|Relay|||0.13 A|0.09 A|**CP2E-S40DR-A**|
||24 VDC|||Transistor<br>(sinking)|||0.34 A|0.02 A|**CP2E-S40DT-D**|
|||||Transistor<br>(sourcing)|||||**CP2E-S40DT1-D**|
|**CPU Units with**<br>**60 points**|100 to 240 VAC|36 points|24 points|Relay|||0.16 A|0.13 A|**CP2E-S60DR-A**|
||24 VDC|||Transistor<br>(sinking)|||0.48 A|0.02 A|**CP2E-S60DT-D**|
|||||Transistor<br>(sourcing)|||||**CP2E-S60DT1-D**|
## **CP2E-E-type/Essential model**
|**Number of points**|**Specifications**|**Specifications**|**Specifications**|**Specifications**|**Specifications**|**Specifications**|**Specifications**|**Specifications**|**Model**|
|---|---|---|---|---|---|---|---|---|---|
||**Power Supply**|**Inputs**|**Outputs**|**Output**<br>**type**|**Program**<br>**capacity**|**Data memory**<br>**capacity**|**Current consumption**|||
||||||||**5 VDC**|**24 VDC**||
|**CPU Units with**<br>**14 points**|100 to 240 VAC|8 points|6 points|Relay|4K steps<br>(FB<br>capacity:<br>4K steps)|4K words|0.06 A|0.04 A|**CP2E-E14DR-A**|
|**CPU Units with**<br>**20 points**||12 points|8 points|Relay|||0.08 A|0.06 A|**CP2E-E20DR-A**|
|**CPU Units with**<br>**30 points**||18 points|12 points|Relay|||0.12 A|0.07 A|**CP2E-E30DR-A**|
|**CPU Units with**<br>**40 points**||24 points|16 points|Relay|||0.13 A|0.09 A|**CP2E-E40DR-A**|
|**CPU Units with**<br>**60 points**||36 points|24 points|Relay|||0.16 A|0.13 A|**CP2E-E60DR-A**|
**6**
**CP2E**
## **Optional Products Battery**
|**Product name**|**Specifications**|**Model**|
|---|---|---|
|**Battery**|Mounted in an N/S@@-type CPU Unit.<br>Mount the Battery when using the clock function.<br>A Battery cannot be mounted to an E@@-type CPU Unit.|**CP2W-BAT02**|
## **Option Board**
|**Product name**|**Product name**|**Specifications**|**Current**<br>**consumption**|**Current**<br>**consumption**|**Model**|
|---|---|---|---|---|---|
||||**5 VDC**|**24 VDC**||
|RS-232C Option Board<br>COMM||Mounted in the option slot of an N@@-type CPU Unit and can be<br>used as an RS-232C port.<br>Maximum transmission distance: 15 m|0.04 A|---|**CP1W-CIF01**|
|Non-isolated RS-422A/485 Option Board<br>COMM||Mounted in the option slot of an N@@-type CPU Unit and can be<br>used as an RS-422A/485 port.<br>Maximum transmission distance: 50 m|0.04 A|---|**CP1W-CIF11**|
|Isolated RS-422A/485 Option Board<br>COMM||Mounted in the option slot of an N@@-type CPU Unit and can be<br>used as an RS-422A/485 port.<br>Maximum transmission distance: 500 m|0.04 A|---|**CP1W-CIF12-V1**|
|RS-232C&RS-232C Option Board||Mounted in the option slot of an N@@-type CPU Unit and can be<br>used as two RS-232C ports.<br>Maximum transmission distance: 15 m|0.04 A|---|**CP2W-CIFD1**|
|RS-232C&RS-485 Option Board||Mounted in the option slot of an N@@-type CPU Unit and can be<br>used as one RS-232C port and one isolated RS-485 port.<br>Maximum transmission distance:<br>15 m (RS-232C)<br>500 m (RS-485)|0.06 A|---|**CP2W-CIFD2**|
|RS-485&RS-485 Option Board||Mounted in the option slot of an N@@-type CPU Unit and can be<br>used as two isolated RS-485 ports.<br>Maximum transmission distance: 500 m|0.08 A|---|**CP2W-CIFD3**|
|Analog Input Optio|n Board|Mounted in the option slot of an N@@-type CPU Unit and can be<br>used as an analog input module.<br>• 2 analog inputs<br>0 to 10 V (Resolution: 1/4000)<br>0 to 20 mA (Resolution: 1/2000)|0.02 A|---|**CP1W-ADB21**|
|Analog Output Option Board||Mounted in the option slot of an N@@-type CPU Unit and can be<br>used as an analog output module.<br>• 2 analog outputs<br>0 to 10 V (Resolution: 1/4000)|0.06 A|---|**CP1W-DAB21V**|
|Analog Input/Output Option Board||Mounted in the option slot of an N@@-type CPU Unit and can be<br>used as an analog input/output module.<br>• 2 analog inputs<br>0 to 10 V (Resolution: 1/4000)<br>0 to 20 mA (Resolution: 1/2000)<br>• 2 analog outputs<br>0 to 10 V (Resolution: 1/4000)|0.08 A|---|**CP1W-MAB221**|
- **Note: 1.** Maximum one Analog Option Board can be mounted on an N @@ -type CPU Unit.
**2.** The CP1W-ME05M Memory Cassette, CP1W-DAM01 LCD Option Board, and CP1W-CIF41 Ethernet Option Board cannot be used with the CP2E CPU Unit.
**3.** Option Boards cannot be used with the E/S @@ -type CPU Unit.
**7**
**CP2E**
**Expansion I/O Units and Expansion Units (for E30/40/60, S30/40/60, or N30/40/60 CPU Units)** E14/20 or N14/20 CPU Units do not support Expansion I/O Units and Expansion Units.
|**Unit type**|**Product name**|**Product name**|||**Specifications**||**Current**<br>**consumption (A)**|**Current**<br>**consumption (A)**|**Model**|
|---|---|---|---|---|---|---|---|---|---|
||||**Inputs**|**Outputs**|**Output type**||**5 V**|**24 V**||
|**CP1W Expansion**<br>**I/O Units**|**Input Unit**||8|---|24 VDC Input||0.018|---|**CP1W-8ED**|
||**Output Units**||---|8|Relay||0.026|0.044|**CP1W-8ER**|
||||||Transistor (sinking)||0.075|---|**CP1W-8ET**|
||||||Transistor (sourcing)||0.075|---|**CP1W-8ET1**|
||||---|16|Relay||0.042|0.090|**CP1W-16ER**|
||||||Transistor (sinking)||0.076|---|**CP1W-16ET**|
||||||Transistor (sourcing)||0.076|---|**CP1W-16ET1**|
||||---|32|Relay||0.049|0.131|**CP1W-32ER**|
||||||Transistor (sinking)||0.113|---|**CP1W-32ET**|
||||||Transistor (sourcing)||0.113|---|**CP1W-32ET1**|
||**I/O Units**||12|8|Relay||0.103|0.044|**CP1W-20EDR1**|
||||||Transistor (sinking)||0.130|---|**CP1W-20EDT**|
||||||Transistor (sourcing)||0.130|---|**CP1W-20EDT1**|
||||24|16|Relay||0.080|0.090|**CP1W-40EDR**|
||||||Transistor (sinking)||0.160|---|**CP1W-40EDT**|
||||||Transistor (sourcing)||0.160|---|**CP1W-40EDT1**|
|**CP1W Expansion**<br>**Units**|**Analog Input Unit**||4CH|---|Input range: 0 to 5 V,<br>1 to 5 V, 0 to 10 V, ±10 V,<br>0 to 20 mA, or 4 to 20 mA.|Resolution:<br>1/6000|0.100|0.090|**CP1W-AD041**|
|||||||Resolution:<br>1/12000|0.100|0.050|**CP1W-AD042**|
||**Analog Output Unit**||---|2CH|Output range:<br>1 to 5 V, 0 to 10 V, ±10 V,<br>0 to 20 mA, or 4 to 20 mA.|Resolution:<br>1/6000|0.040|0.095|**CP1W-DA021**|
||||---|4CH||Resolution:<br>1/6000|0.080|0.124|**CP1W-DA041**|
|||||||Resolution:<br>1/12000|0.070|0.160|**CP1W-DA042**|
||**Analog I/O Unit**||4CH|4CH|Input range: 0 to 5 V,<br>1 to 5 V, 0 to 10 V, ±10 V,<br>0 to 20 mA, or 4 to 20 mA.<br>Output range:<br>1 to 5 V, 0 to 10 V, ±10 V,<br>0 to 20 mA, or 4 to 20 mA.|Resolution:<br>1/12000|0.120|0.170|**CP1W-MAD44**|
||||4CH|2CH||Resolution:<br>1/12000|0.120|0.120|**CP1W-MAD42**|
||||2CH|1CH||Resolution:<br>1/6000|0.083|0.110|**CP1W-MAD11**|
||**Temperature Sensor**<br>**Unit**||2CH|---|Sensor type: Thermocouple (J or K)||0.040|0.059|**CP1W-TS001**|
||||4CH|---|Sensor type: Thermocouple (J or K)||0.040|0.059|**CP1W-TS002**|
||||2CH|---|Sensor type: Platinum resistance<br>thermometer<br>(Pt100 or JPt100)||0.054|0.073|**CP1W-TS101**|
||||4CH|---|Sensor type: Platinum resistance<br>thermometer<br>(Pt100 or JPt100)||0.054|0.073|**CP1W-TS102**|
||||4CH|---|Sensor type: Thermocouple<br>(J or K)<br>2channels can be used as<br>analog input.<br>Input range: 1 to 5 V, 0 to 10<br>V, 4-20 mA|Resolution:<br>1/12000|0.070|0.030|**CP1W-TS003**|
||||12CH|---|Sensor type: Thermocouple (J or K)||0.080|0.050|**CP1W-TS004**|
## **I/O Connecting Cable**
|**Product name**|**Specifications**|**Model**|
|---|---|---|
|**I/O Connecting Cable**<br>80 c<br>Only|m (for CP1W Expansion I/O Units and Expansion Units)<br>one I/O Connecting Cable can be used in each PLC.|**CP1W-CN811**|
**8**
**CP2E**
## **Recommended Ethernet Communications Cables**
For the Ethernet communications cable specifications, refer to page 26.
|**Item**|**Item**|**Recommended**<br>**manufacturer**|**Cable length (m)**|**Model**|
|---|---|---|---|---|
|Wire Gauge and Number of Pairs:<br>AWG26, 4-pair Cable<br>Cable Sheath material: PUR|Cable with Connectors on Both Ends<br>(RJ45/RJ45)<br>Standard RJ45 plug type *1<br>Cable color: Yellow *2<br>—™<br>“\ 4|OMRON<br>~~|p~~<br>~~fp~~|0.3<br>~~po~~|**XS6W-6PUR8SS30CM-YF**|
||||0.5<br>~~po~~<br>~~Po~~<br>~~|p~~|**XS6W-6PUR8SS50CM-YF**|
||||1<br>~~Po~~<br>~~|p~~|**XS6W-6PUR8SS100CM-YF**|
||||2<br>~~|p~~<br>~~po~~|**XS6W-6PUR8SS200CM-YF**|
||||3<br>~~po~~<br>~~fp~~|**XS6W-6PUR8SS300CM-YF**|
||||5<br>~~po~~<br>~~fp~~|**XS6W-6PUR8SS500CM-YF**|
|Wire Gauge and Number of Pairs:<br>AWG22, 2-pair cable|Cable with Connectors on Both Ends<br>(RJ45/RJ45)<br>Rugged RJ45 plug type *1<br>Cable color: Light blue<br>~~a~~|OMRON<br>~~fp~~<br>~~a~~<br>~~|~~|0.3<br>~~fpPo~~|**XS5W-T421-AMD-K**|
||||0.5<br>~~Po~~|**XS5W-T421-BMD-K**|
||||1<br>~~Po~~<br>~~Po~~<br>~~|~~|**XS5W-T421-CMD-K**<br>~~|~~|
||||2<br>~~Po~~<br>~~a~~<br>~~|~~|**XS5W-T421-DMD-K**<br>~~|~~|
||||5<br>~~|~~|**XS5W-T421-GMD-K**<br>~~|~~|
||||10<br>~~|~~|**XS5W-T421-JMD-K**<br>~~|~~|
- *1. Cables with standard RJ45 plugs are available in the following lengths: 0.2 m, 0.3 m, 0.5 m, 1 m, 1.5 m, 2 m, 3 m, 5 m, 7.5 m, 10 m, 15 m, 20 m. Cables with rugged RJ45 plugs are available in the following lengths: 0.3 m, 0.5 m, 1 m, 2 m, 3 m, 5 m, 10 m, 15 m. For details, refer to the _Industrial Ethernet Connectors Catalog_ (Cat. No. G019).
- *2. Cable colors are available in yellow, green, and blue.
## **RS-232C Connecting Cable**
|**Name**|**Specifications**|**Specifications**|**Model**|
|---|---|---|---|
|**PT-to-PLC**<br>**Connecting Cable**|Connection cable with programmable terminal NB / NS<br>For CP2E-N+CP1W-CIF01|Length: 2 m|**XW2Z-200T**|
|||Length: 5 m|**XW2Z-500T**|
||Connection cable with programmable terminal NB / NS<br>For CP2E-S/E, CP2E-N+CP2W-CIFD1/CIFD2|Length: 2 m|**XW2Z-200T-3**|
|||Length: 5 m|**XW2Z-500T-3**|
## **DIN Track Accessories**
|**Name**|**Name**|**Specifications**|**Model**|
|---|---|---|---|
|**DIN Track**<br>**End Plate**||Length: 0.5 m; Height: 7.3 mm|**PFP-50N**|
|||Length: 1 m; Height: 7.3 mm|**PFP-100N**|
|||Length: 1 m; Height: 16 mm|**PFP-100N2**|
||**End Plate**|A stopper to secure the Units on the DIN Track.|**PFP-M**|
## **Programming Devices Software**
|**Product name**|**Specifications**<br>**Number of**<br>**licenses**<br>**Media**|**Specifications**<br>**Number of**<br>**licenses**<br>**Media**|**Specifications**<br>**Number of**<br>**licenses**<br>**Media**|**Model**|
|---|---|---|---|---|
|||**Number of**<br>**licenses**|**Media**||
|**FA Integrated Tool**<br>**Package**<br>**CX-One Lite**<br>**Ver.4.**@|CX-One Lite is a subset of the complete CX-One package that provides only the Support<br>Software required for micro PLC applications.<br>CX-One Lite Ver. 4.@includes Micro PLC Edition CX-Programmer Ver.9.@.|1 license|DVD|**CXONE-LT01D-V4**|
|**FA Integrated Tool**<br>**Package**<br>**CX-One**<br>**Package Ver. 4.**@|CX-One is a comprehensive software package that integrates Support Software for OMRON<br>PLCs and components.<br>CX-One Ver. 4.@includes CX-Programmer Ver. 9.@.|1 license*1|DVD|**CXONE-AL01D-V4**|
**Note: 1.** For details, refer to the CX-One Catalog (Cat. No. R134), visit your local OMRON website.
**2.** CP2E CPU Units are supported by CX-One version 4.51 or higher and CX-Programmer version 9.72 or higher.
**3.** The CX-One and CX-One Lite cannot be simultaneously installed on the same computer.
- *1. Multi licenses (3, 10, 30, or 50 licenses) and DVD media without licenses are also available for the CX-One.
**9**
**CP2E**
## **General Specifications**
|**Item**||**AC power supply**|**DC power supply**|
|---|---|---|---|
|**Model**||**CP2E-**@@@**D**@**-A**|**CP2E-**@@@**D**@**-D**|
|**Enclosure**||Mounted in a panel||
|**Dimensions (H**|**× D × W)**|CPU Unit with 14 or 20 I/O points (CP2E-@14/20D@-@): 90mm*1 ×80mm*2 × 86mm<br>CPU Unit with 30 I/O points (CP2E-@30D@-@): 90mm*1 × 80mm*2 × 130mm<br>CPU Unit with 40 I/O points (CP2E-@40D@-@): 90mm*1 × 80mm*2 × 150mm<br>CPU Unit with 60 I/O points (CP2E-@60D@-@): 90mm*1 × 80mm*2 × 195mm||
|**Weight**||CPU Unit with 14 I/O points (CP2E-@14D@-@): 335g max.<br>CPU Unit with 20 I/O points (CP2E-@20D@-@): 340g max.<br>CPU Unit with 30 I/O points (CP2E-@30D@-@): 580g max.<br>CPU Unit with 40 I/O points (CP2E-@40D@-@): 640g max.<br>CPU Unit with 60 I/O points (CP2E-@60D@-@): 780g max.||
|**Electrical**<br>**specifications**|**Supply voltage**|100 to 240 VAC 50/60 Hz|24 VDC|
||**Operating voltage range**|85 to 264 VAC|20.4 to 26.4 VDC|
||**Power consumption**|15 VA/100 VAC max.<br>25 VA/240 VAC max.<br>(CP2E-@14/20D@-A)|13W max. (CP2E-@14/20D@-D)|
|||50 VA/100 VAC max.<br>70 VA/240 VAC max.<br>(CP2E-@30/40/60D@-A)|20W max. (CP2E-@30/40/60D@-D)*4|
||**Inrush current**|120 VAC, 20 A for 8 ms max. for cold start at room<br>temperature<br>240 VAC, 40 A for 8 ms max. for cold start at room<br>temperature|24 VDC, 30A for 20 ms max. for cold start at room<br>temperature|
||**External power supply** ***3**|Not provided. (CP2E-@14/20D@-A)<br>24 VDC, 300 mA (CP2E-@30/40/60D@-A)|Not provided.|
||**Insulation resistance**|20 MΩmin. (at 500 VDC) between the external AC<br>terminals and GR terminals|Not csolated between primary and secondary DC<br>power supplies|
||**Dielectric strength**|2,300 VAC 50/60Hz for 1 min between AC external and<br>GR terminals<br>Leakage current: 5 mA max.|Not csolated between primary and secondary DC<br>power supplies|
||**Power interrupt time**|10 ms min.|2 ms min.|
|**Application**<br>**environment**|**Ambient operating**<br>**temperature**|-20 to 60°C||
||**Ambient humidity**|10% to 90%||
||**Atmosphere**|No corrosive gas.||
||**Ambient storage temperature**|-20 to 75°C (excluding battery)||
||**Altitude**|2,000 m max.||
||**Pollution degree**|2 or less: Conforms to IEC61010-2-201.||
||**Noise resistance**|2 kV on power supply line (Conforms to IEC61000-4-4.)||
||**Overvoltage category**|Category II: Conforms to IEC61010-2-201.||
||**EMC immunity level**|Zone B||
||**Vibration resistance**|Conforms to IEC60068-2-6.<br>5 to 8.4 Hz with 3.5-mm amplitude, 8.4 to 150 Hz<br>Acceleration of 9.8 m/s2for 100 min in X, Y, and Z directions (10 sweeps of 10 min each = 100 min total)||
||**Shock resistance**|Conforms to IEC60068-2-27.<br>147 m/s2, 3 times in X, Y, and Z directions||
|**Terminal block**||Fixed (not removable)||
|**Terminal screw**|**size**|M3||
|**Applicable standards**||Conforms to EC Directives, KC and UL.||
|**Grounding method**||Ground to 100Ωor less.||
- *1. Total of 110 mm with mounting brackets.
*2. Excluding cables.
*3. Use the external power supply to power input devices. Do not use it to drive output devices.
*4. This is the rated value for the maximum system configuration. Use the following formula to calculate power consumption for CPU Units with DC power.
Formula: DC power consumption = (5V current consumption × 5 V/70% (internal power efficiency) + 24V current consumption) × 1.1(current fluctuation factor)
The above calculation results show that a DC power supply with a greater capacity is required.
**Note: 1.** The Expansion I/O Units and Expansion Units work under the same conditions as the CPU Units unless otherwise specified.
**10**
**CP2E**
## **Performance Specifications**
|**Item**|**Item**|**Item**|**CP2E-E**@@**D**@**-**@|**CP2E-S**@@**D**@**-**@|**CP2E-N**@@**D**@**-**@|
|---|---|---|---|---|---|
|**Program capacity**|||4K steps|8K steps|10K steps|
|**FB capacity**|||4K steps|8K steps|10K steps|
|**Control method**|||Stored program method|||
|**I/O control method**|||Cyclic scan with immediate refreshing|||
|**Program language**|||Ladder diagram|||
|**Function blocks**|||Maximum number of function block definitions: 64<br>Maximum number of instances: 128<br>Languages usable in function block definitions: Ladder diagrams, structured text (ST)|||
|**Instructions**|||Approximately 220|||
|**Processing**<br>**speed**|**Overhead processing time**||0.1 ms|0.15 ms|0.2 ms|
||**Instruction execution times**||LD 0.23 µs<br>MOV 1.76 µs|||
|**Number of CP1W-series Expansion I/O**<br>**Units and Expansion Units connected**|||CP2E-@14/20D@-@: None<br>CP2E-@30/40/60D@-@: 3 units|||
|**Maximum number of I/O points**|||CP2E-@14D@-@: 14<br>CP2E-@20D@-@: 20<br>CP2E-@30D@-@: 150 (30 built in, 40 × 3 expansion)<br>CP2E-@40D@-@: 160 (40 built in, 40 × 3 expansion)<br>CP2E-@60D@-@: 180 (60 built in, 40 × 3 expansion)|||
|**Built-in input**<br>**function**|**High-speed**<br>**counters**|**High-speed counter**<br>**mode/maximum**<br>**frequency**|Incremental Pulse Inputs<br>100 kHz: 2 counters<br>10 kHz: 4 counters<br>Up/Down Inputs<br>100 kHz: 1 counter<br>10 kHz: 1 counter<br>Pulse + Direction Inputs<br>100 kHz: 2 counters<br>Differential Phase Inputs (4x)<br>50 kHz: 1 counter<br>5 kHz: 1 counter||N14/20D@-@<br>Incremental Pulse Inputs<br>100 kHz: 2 counters<br>10 kHz: 4 counters<br>Up/Down Inputs<br>100 kHz: 1 counter<br>10 kHz: 1 counter<br>Pulse + Direction Inputs<br>100 kHz: 2 counters<br>Differential Phase Inputs (4x)<br>50 kHz: 1 counter<br>5 kHz: 1 counter<br>N30/40/60D@-@<br>Incremental Pulse Inputs<br>100 kHz: 3 counters<br>10 kHz: 3 counters<br>Up/Down Inputs<br>100 kHz: 2 counters,<br>Pulse + Direction Inputs<br>100 kHz: 2 counters<br>Differential Phase Inputs (4x)<br>50 kHz: 2 counters|
|||**Counting mode**|• Linear mode<br>• Ring mode|||
|||**Count value**|32 bits|||
|||**Counter reset modes**|• Phase Z and software reset (excluding increment pulse input)<br>• Software reset|||
|||**Control method**|• Target matching<br>• Range comparison|||
||**Input interrupts**||6 inputs||8 inputs<br>(6 inputs only for 14 I/O points)|
||||Interrupt input pulse width: 50 µs min.|||
||**Quick-response inputs**||6 inputs||8 inputs<br>(6 inputs only for 14 I/O points)|
||||Input pulse width: 50 µs min.|||
||**Normal input**|**Input constants**|Delays can be set in the PLC setup (0 to 32 ms, default: 8 ms).<br>Set values: 0, 1, 2, 4, 8, 16, or 32 ms|||
**11**
## **CP2E**
|**Item**|||**CP2E-E**@@**D**@**-**@|**CP2E-S**@@**D**@**-**@|**CP2E-N**@@**D**@**-**@|
|---|---|---|---|---|---|
|**Built-in output**<br>**function**|**Pulse outputs**<br>**(Models with**<br>**transistor**<br>**outputs only)**|**Pulse output**|Pulse output function not<br>included|Pulse + Direction Mode||
|||**Frequency**||1 Hz to 100kHz : 2 outputs|N14/20D@-@<br>1 Hz to 100kHz: 2 outputs<br>N30/40/60D@-@<br>1 Hz to 100kHz: 4 outputs|
|||**Output mode**||• Continuous mode (for speed control)<br>• Independent mode (for position control)||
|||**Number of output**<br>**pulses**||• Relative coordinates: 0000 0000 to 7FFF FFFF hex<br>(0 to 2147483647)<br>• Absolute coordinates: 8000 0000 to 7FFF FFFF hex<br>(-2147483647 to 2147483647)||
|||**Acceleration/**<br>**deceleration curves**||Trapezoidal acceleration and deceleration (Cannot perform S-curve<br>acceleration and deceleration).||
|||**Changing SVs during**<br>**instruction execution**||Only target position can be changed.||
|||**Origin searches**||Included||
|||**Linear interpolation**||None|N14/20D@-@<br>2 axes max.<br>N30/40/60D@-@<br>4 axes max.|
||**PWM output**<br>**(transistor**<br>**outputs**<br>**models only)**|**Frequency**|PWM output function not<br>included|2.0 to 6,553.5 Hz (in increments of 0.1 Hz) with 1 output or 2 Hz to<br>32,000 Hz (in increments of 1 Hz) with 1 output||
|||**Duty factor**||0.0% to 100.0% (in increments of 0.1%)<br>Accuracy: +1%/-0% at 2 Hz to 10,000 Hz and +5%/-0% at 10,000 Hz<br>to 32,000 kHz||
|||**Output mode**||Continuous Mode||
|**Communicatio**<br>**ns**|**Peripheral USB**|**port**|Conforming to USB 2.0 B-type|conntor|None|
|||**Transmission distance**|5 m max.|||
||**Built-in RS232C port**||Interface: Conforming to EIA RS-232C||None|
|||**Transmission distance**|15 m max.|||
|||**Communications**<br>**method**|Half duplex|||
|||**Synchronization**|Start-stop|||
|||**Baud rate**|1.2, 2.4, 4.8, 9.6, 19.2, 38.4, 57.6, or 115.2 kbps|||
|||**Supported protocol**|• Host Link<br>• 1:N NT Link<br>• No-protocol mode<br>• Serial PLC Links (master, slave)<br>• Modbus-RTU Easy Master<br>• Modbus-RTU Slave|||
||**Built-in RS485 port**<br>**(not isolated)**||None|Interface: Conforming to EIA<br>RS-485|None|
|||**Transmission distance**||50 m max.||
|||**Communications**<br>**method**||Half duplex||
|||**Synchronization**||Start-stop||
|||**Baud rate**||1.2, 2.4, 4.8, 9.6, 19.2, 38.4,<br>57.6, or 115.2 kbps||
|||**Supported protocol**||• Host Link<br>• 1:N NT Link<br>• No-protocol mode<br>• Serial PLC Links (master,<br>slave)<br>• Modbus-RTU Easy Master<br>• Modbus-RTU Slave||
**12**
**CP2E**
|**Item**|||**CP2E-E**@@**D**@**-**@|**CP2E-S**@@**D**@**-**@|**CP2E-N**@@**D**@**-**@|
|---|---|---|---|---|---|
|**Communicatio**<br>**ns**|**Serial Option**<br>**port**|**Number of Option**<br>**Boards**|None||N14/20D@-@<br>1 Option Board<br>N30/40/60D@-@<br>2 Option Boards|
|||**Number of serial**<br>**communications**|||N14/20D@-@<br>2 ports max.<br>N30/40/60D@-@<br>3 ports max.|
|||**Communications**<br>**method**|||Depends on Option Board|
|||**Synchronization**|||Depends on Option Board|
|||**Baud rate**|||1.2, 2.4, 4.8, 9.6, 19.2, 38.4, 57.6,<br>or 115.2 kbps|
|||**Mountable Option**<br>**Boards**|||Serial Communication Option<br>Board with one port<br>• One RS-232C port:<br>CP1W-CIF01 (Half duplex/<br>Start-stop)<br>• One RS-422A/485 port (not<br>isolated):<br>CP1W-CIF11 (Half duplex/<br>Start-stop)<br>• One RS-422A/485 port<br>(isolated):<br>CP1W-CIF12-V1 (Half duplex/<br>Start-stop)<br>Serial Communication Option<br>Board with two ports*1<br>• Two RS-232C ports:<br>CP2W-CIFD1 (Half duplex/<br>Start-stop)<br>• One RS-232C port and one RS-<br>485 port (isolated):<br>CP2W-CIFD2 (Half duplex/<br>Start-stop)<br>• Two RS-485 ports (isolated):<br>CP2W-CIFD3 (Half duplex/<br>Start-stop)<br>Analog Option Board*2<br>CP1W-MAB221/ADB21/DAB21V<br>*1. CP2W-CIFD@can only be<br>mounted on option slot 1.<br>*2. Maximum one Analog Option<br>Board can be mounted on an<br>N@@-type CPU Unit.|
|||**Compatible protocols**|||• Host Link*<br>• 1:N NT Link*<br>• No-protocol mode<br>• Serial PLC Links (master, slave)<br>• Modbus-RTU Easy Master<br>• Modbus-RTU Slave<br>* PORT1 (EX) is not supported.|
||**Ethernet**|**Physical layer**|None||100/10BASE-TX (Auto-MDIX)|
|||**Media access methiod**|||CSMA/CD|
|||**Modulation**|||Baseband|
|||**Baud rate**|||100BASE-TX: 100Mbit/s<br>10BASE-T: 10Mbit/s<br>• Half/full auto-negotiation for<br>each port<br>• Link speed auto-sensing for<br>each port|
|||**Transmission media**|||100BASE-TX<br>• Unshielded twisted-pair (UDP)<br>cable Categories: 5, 5e<br>• Shielded twisted-pair (STP)<br>cable Categories: 100Ωat 5, 5e<br>10BASE-T<br>• Unshielded twisted-pair (UDP)<br>cable Categories: 3, 4, 5, 5e<br>• Shielded twisted-pair (STP)<br>cable Categories: 100Ωat 3, 4,<br>5, 5e|
|||**Transmission distance**|||100 m (distance between switch<br>and node)|
|||**Protocol**|||TCP, UDP, APR, ICMP (ping<br>only), SNTP, DNS|
|||**Applications**|||FINS, Socket, SNTP, DNS (Client)|
|||**Number of Ethernet**<br>**ports**|||N14/20: 1 port<br>N30/40/60: 2 ports|
|||**Ethernet switch**|||Layer 2 switch<br>* N14/20 is not supported.|
**13**
## **CP2E**
|**Item**|**Item**|**CP2E-E**@@**D**@**-**@|**CP2E-S**@@**D**@**-**@|**CP2E-N**@@**D**@**-**@|
|---|---|---|---|---|
|**Number of tasks**||17<br>• 1 cyclic task<br>• 16 interrupt tasks<br>Scheduled interrupt task: Interrupt task 1 (fixed)<br>Built-in input interrupt task: Interrupt task 2 to 9 (IN8 and IN9 can only be used in N20/30/40/60<br>CPU Units)<br>High-speed counter interrupt task: Interrupt task 1 to 16|||
|**Maximum subroutine number**||128|||
|**Maximum jump number**||128|||
|**Scheduled interrupt tasks**||1 interrupt task|||
|**Battery service life**<br>***With CP2W-BAT02 Battery (optional)**||Battery cannot be mounted.|CP2W-BAT02 can be mounted.<br>Maximum battery service life: 5 years<br>Guaranteed Lifetime<br>Ambient temperature is 60°C: 13,000 hours (approx. 1.5 years)<br>Ambient temperature is 25°C: 43,000 hours (approx. 5 years)||
|**Clock**||None|Supported.<br>Accuracy (monthly deviation):<br>-4.5 min to -0.5 min (ambient temperature: 60°C),<br>-2.0 min to +2.0 min (ambient temperature: 25°C),<br>-2.5 min to +1.5 min (ambient temperature: -20°C)||
|**Memory**<br>**backup**|**Built-in Flash Memory**|Ladder programs and parameters are automatically saved to built-in Flash Memory.<br>A section of the Data Memory Area can be saved to the built-in Flash Memory.|||
||**Built-in non-volatile memory**|Data Memory Area (D), Holding Area (H), Counter Area (C) and Auxiliary Area (A) are automatically<br>saved to the built-in non-volatile memory.|||
|**CIO Area**|**Input Bits**|1,600 bits (100 words): CIO 0.00 to CIO 99.15 (CIO 00 to CIO 99)|||
||**Output Bits**|1,600 bits (100 words): CIO 100.00 to CIO 199.15 (CIO 100 to CIO 199)|||
||**Serial PLC Link Words**|1,440 bits (90 words): CIO 200.00 to CIO 289.15 (CIO 200 to CIO 289)|||
|**Work Area (W)**||2,048 bits (128 words): W0.00 to W127.15 (W0 to W127)|||
|**Holding Area (H)**||2,048 bits (128 words): H0.00 to H127.15 (H0 to 127)<br>Words H512 to H1535: These words can be used only for function blocks.|||
|**Auxiliary Area (A)**||Read-only: 7,168 bits (448 words): A0.00 to A447.15 (A0 to A447)<br>Read/write: 8,192 bits (512 words): A448.00 to A959.15 (A448 to A959)|||
|**Temporary Area (TR)**||16 bits: TR0 to TR15|||
|**Timer Area (T)**||256 timer numbers (T0 to T255 (separate from counters))<br>Words T256 to T511: These words can be used only for function blocks.|||
|**Counter Area (C)**||256 counter numbers (C0 to C255 (separate from timers))<br>Words C256 to C511: These words can be used only for function blocks.|||
|**Data Memory Area (D)**||4 K words: D0 to D4095<br>DM backup: 1,500 words (D0<br>to D1499)|8 K words: D0 to D8191<br>DM backup: 7,000 words (D0<br>to D6999)|16 K words: D0 to D16383<br>DM backup: 15,000 words (D0 to<br>D14999)|
|**Index Registers (IR)**||16 registers: IR0 to IR15|||
|**Data Registers (DR)**||16 registers: DR0 to DR15|||
|**Operating modes**||PROGRAM Mode: Program execution is stopped.<br>Preparations can be executed prior to program execution in this mode.<br>MONITOR Mode: Programs are executed.<br>Some operations, such as online editing, and changes to present values in I/O<br>memory, are enabled in this mode.<br>RUN Mode:<br>Programs are executed.<br>This is the normal operating mode.|||
**14**
**CP2E**
**Internal Memory in the CPU Units**
## **CPU Unit Memory Backup Structure**
The internal memory in the CPU Unit consists of built-in RAM and built-in Flash Memory. The built-in RAM is used as execution memory and the built-in Flash Memory is used as backup memory.
**==> picture [444 x 360] intentionally omitted <==**
**----- Start of picture text -----**<br>
CPU Unit<br>Built-in Flash Memory Built-in RAM<br>(Retained when the power (Not retained when the power<br>supply is interrupted) supply is interrupted)<br>Backup Memory Execution Memory<br>User Program Area<br>Automatic backup User Program Area<br>FB Program Area<br>FB Program Area<br>(Backup) Restore at startup<br>Parameter<br>Automatic backup<br>PLC Setup Parameter<br>Routing Table Restore at startup<br>IP Router Table<br>IP Address Table<br>(Backup)<br>Built-in Non-volatile RAM<br>(Retained when the power<br>supply is interrupted)<br>Source and Comment Areas<br>Execution Memory<br>I/O Memory Areas<br>DM Area Backup using bit in Auxiliary Area<br>DM Area<br>(Backup)<br>DM Area data restore at startup<br>**----- End of picture text -----**<br>
**15**
**CP2E**
## **Part Names and Functions**
**==> picture [258 x 181] intentionally omitted <==**
**----- Start of picture text -----**<br>
E-type CPU Unit<br>CP2E-E14/20DR-A<br>(6) Power supply input terminals<br>(7) Ground terminal<br>(1) Input terminal block<br>(8) Input terminals<br>(2) Input indicators<br>(3) Peripheral USB port<br>(5) Operation indicators<br>(9) Output indicators<br>(13) Built-in RS-232C (10) Output terminal<br>port block<br>(11) Output terminals<br>**----- End of picture text -----**<br>
**==> picture [169 x 183] intentionally omitted <==**
**----- Start of picture text -----**<br>
N-type CPU Unit<br>CP2E-N14/20D - <br>(12) Battery holder<br>(4) Option Board<br> slot<br>(14) Built-in Ethernet port<br>**----- End of picture text -----**<br>
|**Number**|**Name**|**Function**|
|---|---|---|
|(1)|Input terminal block<br>(not removable)|This is the terminal block for inputs such as the power supply input and 24 VDC inputs.|
|(2)|Input indicators(yellow)|Input status is displayed. An indicator will be ON when the input is ON.|
|(3)|Peripheral USB port<br>for E-type CPU Units|Used to connect to a personal computer for programming and monitoring by the CX-Programmer<br>for CP2E.|
|(4)|Option Board slot<br>for N-type CPU Units|An Option Board can be connected to the slot.<br>• CP1W-CIF01 RS-232C Option Board<br>• CP1W-CIF11 RS-422A/485 Option Board (Maximum transmission distance: 50 m)<br>• CP1W-CIF12-V1 RS-422A/485 Option Board (Maximum transmission distance: 500 m)<br>• CP1W-MAB221/ADB21/DAB21V Analog Option Board<br>• CP2W-CIFD1 Option Board with two RS-232C ports<br>• CP2W-CIFD2 Option Board with one RS-232C port and one RS-485 port (isolated)<br>• CP2W-CIFD3 Option Board with two RS-485 ports(isolated)|
|(5)|Operation indicators|The CPU Unit’s operating status can be confirmed with this indicator.|
|(6)|Power supply input<br>terminals|Power of 100 to 240 VAC or 24 VDC can be supplied.|
|(7)|Ground terminal|Protective ground (<br>): To prevent electric shock, ground to 100Ωor less.|
|(8)|Input terminals|Input devices such as switches and sensors can be connected.|
|(9)|Output indicators(yellow)|Output status is displayed. An indicator will be ON when the output is ON.|
|(10)|Output terminal block<br>(not removable)|This is the terminal block for outputs such as relay outputs and transistor outputs.|
|(11)|Output terminals|Loads such as lamps, contactors, and solenoid valves can be connected.|
|(12)|Battery holder<br>for N-type CPU Units|A Battery can be installed by opening the cover. (The Battery is optional.)|
|(13)|Built-in RS-232C port<br>for E-type CPU Units|By connecting a PT, the controlled system can be monitored and data can be collected.|
|(14)|Built-in Ethernet port<br>for N-type CPU Units|Used to connect to a personal computer for programming and monitoring by the CX-Programmer<br>for CP2E, or connect to other OMRON PLCs for data exchange.|
**16**
**CP2E**
**==> picture [435 x 185] intentionally omitted <==**
**----- Start of picture text -----**<br>
E/S-type CPU Unit<br>CP2E-S30/40/60DCP2E-E30/40/60DR-A @ - @ CP2E-N30/40/60DN-type CPU Unit @ - @<br>(14) Battery (6) Power supply<br>holder input terminals (7) Input terminals [O)<br>(1) Input terminal block L1 L2/N<br>(8) Ground<br>(2) Input terminal (4) Option<br>indicators Board slots<br>(9) Expansion I/O<br>(3) Peripheral Unit connector (15) Built-in<br>USB port Ethernet port<br>(5) Operation (10) Output<br>indicators indicators<br>a — n= STREP Rana PRET pop<br>(11) Output<br>(16) Built-in<br>terminal block (18) External supply terminals<br>RS-232C port l o t an ce )<br>(17) Built-in RS-485 port (13) External power supply (12) Output terminals PORT1A PORT1B<br>input terminals<br>**----- End of picture text -----**<br>
(Bottom View)
|**Number**|**Name**<br>~~Po~~|**Function**<br>~~Po~~|
|---|---|---|
|(1)|Input terminal block<br>(not removable)<br>~~ee~~|This is the terminal block for inputs such as the power supply input and 24 VDC inputs.<br>~~ee~~|
|(2)|Input indicators (yellow)<br>~~Po~~|Input status is displayed. An indicator will be ON when the input is ON.<br>~~Po~~|
|(3)|Peripheral USB port<br>for E/S-type CPU Units<br>~~et~~|Used to connect to a personal computer for programming and monitoring by the CX-Programmer<br>for CP2E.<br>~~et~~|
|(4)|Option Board slots<br>for N-type CPU Units|Option Boards can be connected to the slots.<br>• CP1W-CIF01 RS-232C Option Board<br>• CP1W-CIF11 RS-422A/485 Option Board (Maximum transmission distance: 50 m)<br>• CP1W-CIF12-V1 RS-422A/485 Option Board (Maximum transmission distance: 500 m)<br>• CP1W-MAB221/ADB21/DAB21V Analog Option Board<br>• CP2W-CIFD1 Option Board with two RS-232C ports<br>• CP2W-CIFD2 Option Board with one RS-232C port and one RS-485 port (isolated)<br>• CP2W-CIFD3 Option Board with two RS-485 ports (isolated)|
|(5)|Operation indicators<br>~~Po~~|The CPU Unit’s operating status can be confirmed with this indicator.<br>~~Po~~|
|(6)|Power supply input terminals<br>~~Po~~<br>~~Po~~|Power of 100 to 240 VAC or 24 VDC can be supplied.<br>~~Po~~<br>~~Po~~|
|(7)|Input terminals<br>~~Po~~<br>~~Po~~|Input devices such as switches and sensors can be connected.<br>~~Po~~<br>~~Po~~|
|(8)|Ground terminal<br>~~Po~~|Protective ground (<br>): To prevent electric shock, ground to 100Ωor less.<br>Functional ground (<br>): If noise is a significant source of errors or if electrical shock is a problem,<br>connect to the protective ground terminal and ground both with a ground<br>of 100Ωor less (AC power supply only).<br>~~Po~~|
|(9)|Expansion I/O Unit connector<br>~~et~~|CP-series Expansion I/O Units or Expansion Units such as Analog I/O Units, and Temperature<br>Sensor Units can be connected.<br>~~et~~|
|(10)|Output indicators (yellow)<br>~~Po~~|Output status is displayed. An indicator will be ON when the output is ON.<br>~~Po~~|
|(11)|Output terminal block<br>(not removable)<br>~~a~~|This is the terminal block for outputs such as relay outputs, transistor outputs, and the external<br>power supply output.<br>~~a~~|
|(12)|Output terminals<br>~~Po~~|Loads such as lamps, contactors, and solenoid valves can be connected.<br>~~Po~~|
|(13)|External power supply input<br>terminals for S-type CPU<br>Units|Power of 20.4V to 26.4 VDC can be supplied to CIO 100.00 and CIO 100.01.|
|(14)|Battery holder for<br>N/S-type CPU Units<br>~~ee~~|A Battery can be installed by opening the cover. (Battery is optional.)<br>~~ee~~|
|(15)|Built-in Ethernet port<br>for N-type CPU Units<br>~~et~~|Used to connect to a personal computer for programming and monitoring by the CX-Programmer<br>for CP2E, or connect to other OMRON PLCs for data exchange.<br>~~et~~|
|(16)|Built-in RS-232C port for<br>E/S-type CPU Units<br>~~et~~|By connecting a PT, the controlled system can be monitored and data can be collected.<br>~~et~~|
|(17)|Built-in RS-485 port<br>for S-type CPU Units<br>~~et~~|Communications are possible between an inverter and a PLC by using Modbus-RTU and Serial<br>PLC Links.<br>~~et~~|
|(18)|External supply terminals<br>~~a~~|The external supply terminals output up to 300 mA max at 24 VDC.<br>Theycan be used as a service power supplyfor input devices(AC power supplyonly).<br>~~a~~|
**17** omrRON ~~a~~
**CP2E**
## **Built-in Inputs**
## **Terminal Arrangements**
**14 points**
**AC power supply** CP2E- @ 14D @ -A CIO 0 L1,L2/N : Power supply terminal L1 L2/N COM 01 03 05 07 NC NC : Protective ground terminal COM : Common terminal NC 00 02 04 06 NC NC 00 to 07 : Input terminal NC : No connection **DC power supply** CP2E-N14D @ -D CIO 0 +,: Power supply terminal + - COM 01 03 05 07 NC NC : Protective ground terminal COM : Common terminal NC 00 02 04 06 NC NC 00 to 07 : Input terminal NC : No connection **20 points AC power supply** CP2E- @ 20D @ -A CIO 0 L1,L2/N : Power supply terminal L1 L2/N COM 01 03 05 07 09 11 : Protective ground terminal COM : Common terminal NC 00 02 04 06 08 10 00 to 11 : Input terminal NC : No connection **DC power supply** CP2E-N20D @ -D CIO 0 +,: Power supply terminal + - COM 01 03 05 07 09 11 : Protective ground terminal COM : Common terminal NC 00 02 04 06 08 10 00 to 11 : Input terminal NC : No connection **30 points AC power supply** CP2E- @ 30D @ -A L1, L2/N : Power supply terminal COM : Common terminal CIO 0 CIO 1 00 to 11 : Input terminal L1 L2/N COM 01 03 05 07 09 11 01 03 05 : Functional ground terminal 00 02 04 06 08 10 00 02 04 NC : Protective ground terminal NC : No connection **DC power supply** CP2E- @ 30D @ -D +, - : Power supply terminal CIO 0 CIO 1 COM : Common terminal + - COM 01 03 05 07 09 11 01 03 05 00 to 11 : Input terminal NC : No connection NC 00 02 04 06 08 10 00 02 04 NC : Protective ground terminal **40 points AC power supply** CP2E- @ 40D @ -A CIO 0 CIO 1 L1 L2/N COM 01 03 05 07 09 11 01 03 05 07 09 11 00 02 04 06 08 10 00 02 04 06 08 10 **DC power supply** CP2E- @ 40D @ -D CIO 0 CIO 1 + - COM 01 03 05 07 09 11 01 03 05 07 09 11 NC 00 02 04 06 08 10 00 02 04 06 08 10 **60 points AC power supply** CP2E- @ 60D @ -A CIO 0 CIO 1 CIO 2 L1 L2/N COM 01 03 05 07 09 11 01 03 05 07 09 11 01 03 05 07 09 11 00 02 04 06 08 10 00 02 04 06 08 10 00 02 04 06 08 10 **DC power supply** CP2E- @ 60D @ -D CIO 0 CIO 1 CIO 2 + - COM 01 03 05 07 09 11 01 03 05 07 09 11 01 03 05 07 09 11 NC 00 02 04 06 08 10 00 02 04 06 08 10 00 02 04 06 08 10
**18**
**CP2E**
## **Allocating Built-in Input Terminals to Functions**
Input terminals are allocated functions by setting parameters in the PLC Setup. Set the PLC Setup so that each terminal is used for only one function.
## **E20/30/40/60, S30/40/60 or N20/30/40/60 CPU Units**
|**Terminal**<br>**block**<br>**label**|<br>**Terminal**<br>**number**|**PLC Setup**|**PLC Setup**|**PLC Setup**|**PLC Setup**|**PLC Setup**|**PLC Setup**|**PLC Setup**|
|---|---|---|---|---|---|---|---|---|
|||**Interrupt input settings**<br>**on Built-in Input Tab Page**|||**High-speed counter 0 to 5 settings**<br>**on Built-in Input Tab Page**|||**Origin search settings on**<br>**Pulse Output 0 to 3 Tab Page**|
|||**Normal**|**Interrupt**|**Quick**|**Use**|||**Use**|
|||**Normal input**|**Interrupt**<br>**inputs**|**Quick-response**<br>**inputs**|**Increment**<br>**pulse input**|**Differential**<br>**phase ×4 or**<br>**up/down**|**Pulse/**<br>**direction**|**Origin search**|
|CIO 0|00|Normal input 0|---|---|Counter 0,<br>increment input|Counter 0, phase<br>A or up input|Counter 0,<br>pulse input|---|
||01|Normal input 1|---|---|Counter 1,<br>increment input|Counter 0, phase<br>B or down input|Counter 1,<br>pulse input|---|
||02|Normal input 2|Interrupt<br>input 2|Quick-response<br>input 2|Counter 2,<br>increment input|Counter 1, phase<br>A or up input|Counter 0,<br>direction|---|
||03|Normal input 3|Interrupt<br>input 3|Quick-response<br>input 3|---|Counter 1, phase<br>B or down input|Counter 1,<br>direction|---|
||04|Normal input 4|Interrupt<br>input 4|Quick-response<br>input 4|Counter 3,<br>increment input|Counter 0, phase<br>Z or reset input|Counter 0,<br>reset input|---|
||05|Normal input 5|Interrupt<br>input 5|Quick-response<br>input 5|Counter 4,<br>increment input|Counter 1, phase<br>Z or reset input|Counter 1,<br>reset input|---|
||06|Normal input 6|Interrupt<br>input 6|Quick-response<br>input 6|Counter 5,<br>increment input|---|---|Pulse 0, Origin input signal|
||07|Normal input 7|Interrupt<br>input 7|Quick-response<br>input 7|---|---|---|Pulse 1, Origin input signal|
||08|Normal input 8|Interrupt<br>input 8*1|Quick-response<br>input 8*1|---|---|---|Pulse 2, Origin input signal*2|
||09|Normal input 9|Interrupt<br>input 9*1|Quick-response<br>input 9*1|---|---|---|Pulse 3, Origin input signal*2|
||10|Normal input 10|---|---|---|---|---|Pulse 0, Origin proximity input<br>signal|
||11|Normal input 11|---|---|---|---|---|Pulse 1, Origin proximity input<br>signal|
|CIO 1|00|Normal input 12|---|---|---|---|---|Pulse 2, Origin proximity input<br>signal*2|
||01|Normal input 13|---|---|---|---|---|Pulse 3, Origin proximity input<br>signal*2|
||02 to 11|Normal input 14<br>to 23|---|---|---|---|---|---|
|CIO 2|00 to 11|Normal input 24<br>to 35|---|---|---|---|---|---|
- *1. Only supported by N @@ -type CPU Units.
- *2. Only supported by N30/40/60 CPU Units.
**Note: 1.** The same pulse inputs must be used for high-speed counter 0 and high-speed counter 1.
**2.** High-speed counter 2 cannot be used if the input setting of high-speed counter 0 or high-speed counter 1 is set for differential phase inputs (4×), pulse + direction inputs, or up/down pulse inputs.
## **E14 or N14 CPU Units**
|**Terminal**<br>**block**<br>**label**|**Terminal**<br>**number**|**PLC Setup**|**PLC Setup**|**PLC Setup**|**PLC Setup**|**PLC Setup**|**PLC Setup**|**PLC Setup**|
|---|---|---|---|---|---|---|---|---|
|||**Interrupt input settings**<br>**on Built-in Input Tab Page**|||**High-speed counter 0 to 5 settings**<br>**on Built-in Input Tab Page**|||**Origin search settings on**<br>**Pulse Output 0/1 Tab Page**|
|||**Normal**|**Interrupt**|**Quick**|**Use**|||**Use**|
|||**Normal input**|**Interrupt**<br>**inputs**|**Quick-response**<br>**inputs**|**Increment**<br>**pulse input**|**Differential phase**<br>**×4 or up/down**|**Pulse/**<br>**direction**|**Origin search**|
|CIO 0|00|Normal input 0|---|---|Counter 0,<br>increment input|Counter 0, phase<br>A or up input|Counter 0,<br>pulse input|---|
||01|Normal input 1|---|---|Counter 1,<br>increment input|Counter 0, phase B<br>or down input|Counter 1,<br>pulse input|---|
||02|Normal input 2|Interrupt input 2|Quick-response<br>input 2|Counter 2,<br>increment input|Counter 1, phase A<br>or up input|Counter 0,<br>direction|---|
||03|Normal input 3|Interrupt input 3|Quick-response<br>input 3|---|Counter 1, phase B<br>or down input|Counter 1,<br>direction|Pulse 0, Origin proximity<br>input signal|
||04|Normal input 4|Interrupt input 4|Quick-response<br>input 4|Counter 3,<br>increment input|Counter 0, Phase Z<br>or reset input|Counter 0,<br>reset input|---|
||05|Normal input 5|Interrupt input 5|Quick-response<br>input 5|Counter 4,<br>increment input|Counter 1, Phase Z<br>or reset input|Counter 1,<br>reset input|Pulse 1, Origin proximity<br>input signal|
||06|Normal input 6|Interrupt input 6|Quick-response<br>input 6|Counter 5,<br>increment input|---|---|Pulse 0, Origin input signal|
||07|Normal input 7|Interrupt input 7|Quick-response<br>input 7|---|---|---|Pulse 1, Origin input signal|
**Note: 1.** The same pulse inputs must be used for high-speed counter 0 and high-speed counter 1.
**2.** High-speed counter 2 cannot be used if the input setting of high-speed counter 0 or high-speed counter 1 is set for differential phase inputs (4×), pulse + direction inputs, or up/down pulse inputs.
**19**
**CP2E**
## **Built-in Outputs**
## **Terminal Arrangements**
**14 points**
|**AC/DC power supply**|**AC/DC power supply**|**AC/DC power supply**|**AC/DC power supply**|**AC/DC power supply**|**AC/DC power supply**|**AC/DC power supply**|**AC/DC power supply**|**AC/DC power supply**|||||||||||||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
|CP2E-@14D@-@|||||||||||||||||||||||||||||||
||00<br>01<br>02<br>03|||||04|||||05||||NC|||||||||||||COM|: Common|terminal|
|||||||||||||||||||||||||||||00 to 05 : Output terminal|||
||COM COM NC COM|||NC||||||COM|||NC|||||||||||||||NC|: No connection||
||CIO 100||||||||||||||||||||||||||||||
|**20 points**|||||||||||||||||||||||||||||||
|**AC/DC power supply**|||||||||||||||||||||||||||||||
|CP2E-@20D@-@|||||||||||||||||||||||||||||||
||00<br>01<br>02<br>03|||||04|||||05||||07|||||||||||||COM|: Common|terminal|
|||||||||||||||||||||||||||||00 to 07 : Output terminal|||
||COM COM NC COM|||NC||||||COM|||06|||||||||||||||NC|: No connection||
||CIO 100||||||||||||||||||||||||||||||
|**30 points**|||||||||||||||||||||||||||||||
|**AC power supply**|||||||||||||||||||||||||||||||
|CP2E-@30D@-A|||||||||||||||||||||||||||||||
||00<br>01<br>02<br>+|||||04|||||05||||07|||||00||||02|||||+,-<br>COM|: External supply terminal<br>: Common terminal|
||-<br>COM<br>COM<br>COM|||03||||COM|||||06|||COM||||||01||||03|||00 to 07|: Output terminal|
||CIO 100||||||||||||||CIO||||101||||||||||||
|**DC power supply**|||||||||||||||||||||||||||||||
|CP2E-N30D@-D|||||||||||||||||||||||||||||||
||02<br>01<br>00<br>NC|||||04|||||05||||07|||||00||||02|||||NC|: No connection|
||||||||||||||||||||||||||||||COM|: Common terminal|
||COM COM COM<br>NC|||03||||COM|||||06|||COM||||||01||||03|||00 to 07|: Output terminal|
||CIO 100||||||||||||||||CIO|||||101|||||||||
|CP2E-S30DT-D|||||||||||||||||||||||||||||||
||00<br>01<br>02<br>V+|||||04|||||05||||07|||||00||||02|||||COM<br>00~07|: Common terminal<br>: Output terminal|
||V-<br>COM(V-) COM|||03||||COM|||||06|||COM||||||01||||03|||V+|: External power supply input terminal for CIO 100.00/01 (DC24V)|
||CIO100||||||||||||||CIO||||101||||||||||V-|: External power supply input terminal for CIO 100.00/01 (0V)|
**Note:** COM(V-) has been connected with V- in an inner circuit. CP2E-S30DT1-D
V+ 00 01 02 04 05 07 00 02 V- COM(V+) COM 03 COM 06 COM 01 03 CIO 100 CIO 101
**Note:** COM(V+) has been connected with V+ in an inner circuit.
## **40 points**
## **AC power supply** CP2E- @ 40D @ -A
+ 00 01 02 03 04 06 00 01 03 04 06 - COM COM COM COM 05 07 COM 02 COM 05 07 CIO 100 CIO 101 **DC power supply** CP2E-N40D @ -D NC 00 01 02 03 04 06 00 01 03 04 06 NC COM COM COM COM 05 07 COM 02 COM 05 07 CIO 100 CIO 101 CP2E-S40DT-D V+ 00 01 02 03 04 06 00 01 03 04 06 V- COM(V-) COM COM 05 07 COM 02 COM 05 07 CIO 100 CIO 101 COM(V-) has been connected with V- in an inner circuit. CP2E-S40DT1-D V+ 00 01 02 03 04 06 00 01 03 04 06 V- COM(V+) COM COM 05 07 COM 02 COM 05 07 CIO 100 CIO 101
## **DC power supply** CP2E-N40D @ -D
## CP2E-S40DT-D
**Note:** COM(V-) has been connected with V- in an inner circuit. CP2E-S40DT1-D
**Note:** COM(V+) has been connected with V+ in an inner circuit.
**20**
**CP2E**
## **60 points**
**AC power supply** CP2E- @ 60D @ -A + 00 01 02 04 05 07 00 02 04 05 07 00 02 04 05 07 − COM COM COM 03 COM 06 COM 01 03 COM 06 COM 01 03 COM 06 CIO 100 CIO 101 CIO 102 **DC power supply** CP2E-N60D @ -D NC 00 01 02 04 05 07 00 02 04 05 07 00 02 04 05 07 NC COM COM COM 03 COM 06 COM 01 03 COM 06 COM 01 03 COM 06 CIO 100 CIO 101 CIO 102 CP2E-S60DT-D V+ 00 01 02 04 05 07 00 02 04 05 07 00 02 04 05 07 V- COM(V-) COM 03 COM 06 COM 01 03 COM 06 COM 01 03 COM 06 CIO 100 CIO 101 CIO 102 **Note:** COM(V-) has been connected with V- in an inner circuit. CP2E-S60DT1-D V+ 00 01 02 04 05 07 00 02 04 05 07 00 02 04 05 07 V- COM(V+) COM 03 COM 06 COM 01 03 COM 06 COM 01 03 COM 06 CIO 100 CIO 101 CIO 102
**DC power supply** CP2E-N60D @ -D
CP2E-S60DT-D
**Note:** COM(V-) has been connected with V- in an inner circuit.
CP2E-S60DT1-D
**Note:** COM(V+) has been connected with V+ in an inner circuit.
## **Allocating Built-in Output Terminals to Functions**
Output terminals are allocated functions by setting parameters in the PLC Setup. Set the PLC Setup so that each terminal is used for only one function.
|**Output terminal block**|**Output terminal block**|**Other than those**<br>**shown at the right**|**When a pulse output instruction**<br>**(ITPL, SPED, ACC, PLS2, or**<br>**ORG) is executed**|**PLC Setup**|**When the PWM instruction is**<br>**executed**|
|---|---|---|---|---|---|
|||||**Origin search settings on Pulse**<br>**Output 0 to 3 Tab Page**||
|**Terminal**<br>**block label**|**Terminal**<br>**number**|**Normal outputs**|**Fixed duty ratio pulse output**||**Variable-duty-factor output**|
||||**Pulse + Direction Mode**|**Use**|**PWM output**|
|CIO 100|00|Normal output 0|Pulse output 0, pulse|---|---|
||01|Normal output 1|Pulse output 1, pulse|---|PWM output 0|
||02|Normal output 2|Pulse output 0, direction|---|---|
||03|Normal output 3|Pulse output 1, direction|---|---|
||04|Normal output 4|---|Pulse 0, Error counter reset output|---|
||05|Normal output 5|---|Pulse 1, Error counter reset output|---|
||06|Normal output 6|---|Pulse 2, Error counter reset output<br>*1|---|
||07|Normal output 7|---|Pulse 3, Error counter reset output<br>*1|---|
|CIO 101|00|Normal output 0|Pulse output 2, pulse*1|---|---|
||01|Normal output 1|Pulse output 3, pulse*1|---|---|
||02|Normal output 2|Pulse output 2, direction*1|---|---|
||03|Normal output 3|Pulse output 3, direction*1|---|---|
||04 to 07|Normal output 12 to 15|---|---|---|
|CIO 102|00 to 07|Normal output 16 to 23|---|---|---|
*1. Only supported by N30/40/60 CPU Units.
**21**
**CP2E**
## **I/O Specifications**
## **Specifications**
|**Item**|**Item**|**Specification**|**Specification**|**Specification**|
|---|---|---|---|---|
|**Input type**<br>~~es~~||**High-speed counter inputs or**<br>**normal inputs**<br>~~PP~~<br>|**High-speed counter inputs,**<br>**interrupt inputs, quick-response**<br>**inputs or normal inputs**<br>~~PP~~|**Normal inputs**|
|**Input bits**|**E/S**@@**-type and**<br>**N14 CPU Units**<br>~~es~~<br>~~ee~~|CIO 0.00 and CIO 0.01<br>~~PP~~<br>~~a~~<br>|CIO 0.02 to CIO 0.07<br>~~PP~~<br>|CIO 0.08 to CIO 0.11,<br>CIO 1.00 to CIO 1.11 and<br>CIO 2.00 to CIO 2.11*1|
||**N20 CPU Units**<br>~~es ~~<br>~~ee~~|CIO 0.00 and CIO 0.01<br>~~PP~~<br> ~~a~~<br>~~ee~~|CIO 0.02 to CIO 0.09<br>~~PP~~<br>~~ee~~|CIO 0.10 to CIO 0.11|
||**N30/40/60 CPU**<br>**Units**<br> <br>~~ee~~<br>~~|~~|CIO 0.00 to CIO 0.03<br> ~~a~~<br><br>~~|~~|CIO 0.04 to CIO 0.09<br><br>~~|~~|CIO 0.10, CIO 0.11,<br>CIO 1.00 to CIO 1.11 and<br>CIO 2.00 to CIO 2.11*1|
|**Applicable inputs**<br>~~|~~||2-wire and 3-wire sensors<br>~~|~~|||
|**Input voltage**||24 VDC, +10% / -15%|||
|**Input impedance**||3.3 kΩ<br>~~ee~~|3.3 kΩ<br>~~ee~~|4.8 kΩ|
|**Input current**||7.5 mA (typical)<br>~~ee~~<br>~~ee~~|7.5 mA (typical)<br>~~ee~~<br>~~ee~~|5 mA (typical)|
|**ON voltage/current**||17.0 VDC min. / 3 mA min.<br>~~ee~~<br>~~ee~~|17.0 VDC min. / 3 mA min.<br>~~ee~~<br>~~ee~~|14.4 VDC min. / 3 mA min.|
|**OFF voltage/current**||5.0 VDC max. / 1 mA max.<br>~~ee~~<br>~~ee~~|5.0 VDC max. / 1 mA max.<br>~~ee~~<br>~~ee~~|5.0 VDC max. / 1 mA max.|
|**ON response time*2**||2.5μs min.<br>~~ee~~<br>~~es~~|50μs max.<br>~~ee~~<br>~~es~~|1 ms max.|
|**OFF response time*2**||2.5μs min.<br>~~es~~|50μs max.<br>~~es~~|1 ms max.|
|**Circuit configuration**||Input indicator<br>IN<br>IN<br>COM<br>Internal<br>circuits<br>Isolation<br>circuits<br>~~fa~~<br>J|||
- *1. The bits that can be used depend on the model of CPU Unit.
- *2. The response time is the delay caused by hardware. The delay set in the PLC Setup (0 to 32 ms, default: 8 ms) for a normal input must be added to this value.
**==> picture [345 x 237] intentionally omitted <==**
**----- Start of picture text -----**<br>
Interrupt input mode<br>Pulse plus direction input mode<br>Increment mode<br>Up/down input mode Differential phase mode<br>E/S -type: 0.00/0.01 E/S -type: 0.00/0.01<br>N14/20: 0.00/0.01 N14/20: 0.00/0.01<br>N30/40/60: 0.00 to 0.02 N30/40/60: 0.00 to 0.03<br>10.0μs min. 20.0μs min.<br>ON 90%<br>ON 90% 50%<br>50% OFF 10%<br>OFF 10%<br>2.5μs 2.5μs ON 90%<br>min. min. 50%<br>OFF 10%<br>T1 T2 T3 T4<br>T1, T2, T3, T4: 2.5 μs min.<br>E/S -type: 0.02 to 0.07 E/S -type: 0.02/0.03<br>N14: 0.02 to 0.07 N14/20: 0.02/0.03<br>N20: 0.02 to 0.09<br>N30/40/60: 0.04 to 0.09<br>100μs min. 200μs min. μs min. s min.<br>ON 90%<br>ON 90% 50%<br>50% OFF 10%<br>OFF 10%<br>50μs 50μs ON 90%<br>min. min.<br>**----- End of picture text -----**<br>
**==> picture [157 x 67] intentionally omitted <==**
**----- Start of picture text -----**<br>
200μs min. μs min. s min.<br>ON 90%<br>50%<br>OFF 10%<br>ON 90%<br>50%<br>OFF 10%<br>T1 T2 T3 T4<br>T1, T2, T3, T4: 50 μs min.<br>**----- End of picture text -----**<br>
**22**
**CP2E**
## **Output Specifications for Relay Outputs**
## **CP2E-** @@@ **DR-** @
|**Item**|||**Specification**|**Specification**|||
|---|---|---|---|---|---|---|
|**Maximum switching capacity**|||2 A 250 VAC (cosφ= 1)<br>2 A 24 VDC (4 A/common)||||
|**Minimum switching capacity**|||10 mA 5 VDC||||
|**Service life**<br>**of relay**<br>**Electrical**<br>**Resistive load**<br>**Inductive load**<br>**Mechanical**<br>~~|Po~~|||200,000 operations (24 VDC)<br>70,000 operations (250 VAC, cosφ= 0.4)<br>20,000,000 operations|= 0.4)|= 0.4)||
|**ON response time**|||15 ms max.||||
|**OFF response time**|||15 ms max.||||
||||Output indicator<br>||OUT<br>:|||
|**Circuit configuration**|||Internal|OUT|||
||||circuits||||
||||id|COM||250 VAC, 2A,<br>24 VDC, 2 A<br>max.|
## **Estimating the Service Life of Relays**
Under normal conditions, the service life of output contacts is as shown above. The service life of relays is as shown in the following diagram as a guideline.
**==> picture [181 x 167] intentionally omitted <==**
**----- Start of picture text -----**<br>
1000<br>700 a 125-VAC resistive load<br>500<br>300 el TTT [| | 4 ||<br>200 Tt 30 tt -VDC/250- Et VAC<br>100 aS resistive load ~<br>70 Mh<br>50 rsm [RS }—}—| | }]<br>30 |_| a eee I]eSRYE | LT[| | |<br>20 [| EL<br> UV a<br>10 125 VAC cosφ= 0.4<br>7 a ee ee [aani {| f |<br>5 250 VAC cosφ= 0.4/<br>3 30 VDC, τ = 7ms<br>2<br>pe eSeetePt<br>1 AEE Yr Pree {| [ [|<br>0.1 0.2 0.3 0.5 0.7 1 2 3 5 7 10<br> Contact current (A)<br>4)Life (x 10<br>**----- End of picture text -----**<br>
**23**
**CP2E**
## **Output Specifications for Transistor Outputs (Sinking or Sourcing)**
## **CP2E-N14/20/30/40/60DT(1)-** @ **, CP2E-S30/40/60DT(1)-** @
## **Normal Outputs**
|**Item**|**Specification**|**Specification**|**Specification**|**Specification**|**Specification**|**Specification**|**Specification**|**Specification**|**Specification**|**Specification**|**Specification**|**Specification**|**Specification**|**Specification**|**Specification**|**Specification**|**Specification**|**Specification**|**Specification**|**Specification**|**Specification**|**Specification**|
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
||**S**@@**-type: CIO 100.00 and CIO 100.01**<br>**N**@@**-type: CIO 100.00, CIO 100.01,**<br>**CIO 101.00 and CIO 101.01**||||||||||||||**S**@@**-type: CIO 100.02 to CIO 102.07** ***2**<br>**N**@@**-type: CIO 100.02 to CIO 100.07,**<br>**CIO 101.02 to CIO 102.07** ***2**||||||||
|**Maximum switching**<br>**capacity**|0.3 A/output, 0.9 A/common*1<br>4.5 to 30 VDC<br>CP2E-N14D@-@: 1.5 A/Unit<br>CP2E-S/N40D@-@: 3.6 A/Unit<br>CP2E-N20D@-@: 1.8 A/Unit<br>CP2E-S/N60D@-@: 5.4 A/Unit<br>CP2E-S/N30D@-@: 2.7 A/Unit||||||||||||||||||||||
|**Minimum switching**<br>**capacity**|1 mA 4.5 to 30 VDC||||||||||||||||||||||
|**Leakage current**|0.1mA max.||||||||||||||||||||||
|**Residual voltage**|0.6 V max.||||||||||||||1.5V max.||||||||
|**ON response time**|0.1 ms max.||||||||||||||0.1 ms max.||||||||
|**OFF response time**|0.1 ms max.||||||||||||||1 ms max.||||||||
|**Fuse**|Not provided.||||||||||||||||||||||
|**External power supply**|20.4 to 26.4VDC 30mA max.<br>(N@@-type is not needed)||||||||||||||Not needed||||||||
|**Circuit**<br>**configuration**|• S@@-type CPU Unit<br>Sinking output model<br>Sourcingoutput model<br>• N@@-type CPU Unit<br>Sinking output model<br>Sourcingoutput model<br>Internal<br>circuits<br>Internal<br>circuits<br>Internal<br>circuits<br>Internal<br>circuits<br>Internal<br>circuits<br>Internal<br>circuits<br>Internal<br>circuits<br>Internal<br>circuits|||||||||||||4.5 to 30<br>VDC<br>20.4 to 26.4<br>VDC<br>4.5 to 30<br>VDC<br>20.4 to 26.4<br>VDC<br>24 VDC,<br>4.5 to 30<br>VDC<br>24 VDC,<br>4.5 to 30<br>VDC|Sinking output model<br>Sourcingoutput model<br>Internal<br>circuits<br>Internal<br>circuits||||||OUT<br>OUT<br>COM(–)<br>L<br>L<br>24 VDC,<br>4.5 to 30<br>VDC<br>~<br>OUT<br>OUT<br>COM(+)<br>L<br>L<br>24 VDC,<br>4.5 to 30<br>VDC<br>~||
|||Internal<br>circuits|||||||||||OUT<br>V+<br>V-||||||||||
||||||||||||||OUT<br>L<br>L<br>~||||||||||
||||Internal<br>circuits|||||||Internal<br>circuits|||||||||||||
||||||||||||||||||||||||
||||||||||||||||||||||||
||||||output model|||||||||||Internal<br>circuits|||||||
|||Internal<br>circuits||||||||||||||||||||OUT<br>L|
||||||||||||||V-||||||||||
||||||||||||||COM(V+)||||||||||
||||||||||||||||||||||||
||||Internal<br>circuits|||||||Internal<br>circuits|||OUT<br>||||||||||
||||||||||||||||||||||||
||||||||||||||OUT<br>L<br>L<br>~||||||||||
||||||||||||||||||||||||
|||Internal<br>circuits|||||||||||||||||||||
||||||||||||||OUT<br>~<br><br>L||||||||||
||||Internal<br>circuits|||||||Internal<br>circuits|||||||||||||
||||||||||||||||||||||||
||||||||||||||||||||||||
||||||output model||||||||||||||||||
|||Internal<br>circuits|||||||||||||||||||||
||||||||||||||||||||||||
||||Internal<br>circuits|||||||Internal<br>circuits|||OUT<br>||||||||||
||||||||||||||||||||||||
||||||||||||||OUT<br>L<br>L<br>~||||||||||
||||||||||||||||||||||||
- *1. Also do not exceed 0.9 A for the total of CIO 100.00 to CIO 100.03, which are different common.
- *2. The bits that can be used depend on the model of CPU Unit.
**Note: 1.** Do not connect a load to an output terminal or apply a voltage in excess of the maximum switching capacity.
**24**
**CP2E**
## **Pulse Outputs**
|**Item**|**Specification**|**Specification**|**Specification**|**Specification**|**Specification**|**Specification**|**Specification**|**Specification**|
|---|---|---|---|---|---|---|---|---|
||**S**@@**-type: CIO 100.00 and CIO 100.01**<br>**N**@@**-type: CIO 100.00, CIO 100.01, CIO 101.00 and CIO 101.01**||||||||
|**Maximum switching capacity**|100 mA 4.5 to 26.4 VDC||||||||
|**Minimum switching capacity**|7 mA 4.5 to 26.4 VDC||||||||
|**Maximum output frequency**|100 kHz||||||||
|**Output waveform**|The OFF and ON refer to the output transistor. The output transistor is ON at level “L”.<br>4μs min.<br>2μs min.<br>OFF 90%<br>ON<br>10%||||||||
||||||||||
||||||||||
||||||||||
||||||||||
- **Note: 1.** The load for the above values is assumed to be the resistive load, and does not take into account the impedance for the connecting cable to the load.
**2.** Due to distortions in pulse waveforms resulting from connecting cable impedance, the pulse widths in actual operation may be smaller than the values shown above.
## **PWM Output (CIO 100.01)**
|**Item**|**Specification**|
|---|---|
|**Maximum switching capacity**|30 mA 4.5 to 26.4 VDC|
|**Maximum output frequency**|32 kHz|
|**PWM output accuracy**|For ON duty +1%, -0%:10 kHz output<br>For ON duty +5%, -0%: 0 to 32 kHz output|
|**Output waveform**|The OFF and ON refer to the output transistor. The output transistor is ON at level “L”.<br>T<br>ON duty=<br>×100%<br>T<br>tON<br>tON<br>OFF<br>ON|
**25**
**CP2E**
**Built-in Ethernet**
## **General Specifications (Ethernet)**
|**Item**|**Item**|**Specifications**|**Specifications**|
|---|---|---|---|
|**Type**||**100BASE-TX (Auto-MDIX)**|**10BASE-T (Auto-MDIX)**|
|**Number of Ethernet ports**||N14/20 CPU Units: 1 port<br>N30/40/60 CPU Units: 2 ports (Switching Hub function is built in.)||
|**Transfer**|**Media access method**|CSMA/CD||
||**Modulation method**|Baseband||
||**Transmission paths**|Star form||
||**Baud rate**|100 Mbit/s (100Base-TX)<br>Auto-Negotiation|10 Mbit/s (10Base-T)<br>Auto-Negotiation|
|||• Half/full auto-negotiation for each port<br>• Link speed auto-sensing for each port||
||**Transmission media**|• Unshielded twisted-pair (UDP) cable<br>Categories: 5, 5e<br>• Shielded twisted-pair (STP) cable<br>Categories: 100Ωat 5, 5e|• Unshielded twisted-pair (UDP) cable<br>Categories: 3, 4, 5, 5e<br>• Shielded twisted-pair (STP) cable<br>Categories: 100Ωat 3, 4, 5, 5e|
||**Transmission distance**|100 m (distance between hub and node)||
|**Protocols**||TCP, UDP, ARP, ICMP (ping only), SNTP, DNS||
## **FINS Communications Service Specifications**
|**Item**|**Specification**|**Specification**|
|---|---|---|
|**Protocol name**|**FINS/UDP**|**FINS/TCP**|
|**Number of nodes**|254||
|**Message Length**|1016 bytes max.||
|**Date Length**|1004 bytes max.||
|**Number of buffer**|16||
|**Protocol used**|UDP/IP|TCP/IP|
||The selection of UDP/IP or TCP/IP is made by means of the FINS/UDP or FINS/TCP button in Built-<br>in Ethernet Tab in the CX-Programmer's PLC Setup.||
|**Number of connections**|---|3 for user, 1 for CX-Programmer auto connection|
|**Port number**|9600 (default)<br>Can be changed.|9600 (default)<br>Can be changed.|
|**Protection**|No|Yes (Specification of client IP<br>addresses when unit is used as a server)|
|**Local IP address**|192.168.250.FINS node address||
## **Switching Hub for CP2E N** **-type CPU Units**
|**Ethernet**|100Base-TX, 10Base-T|
|---|---|
|**Auto MID/MID-X**|Yes|
|**Auto negotiation**|Yes|
|**Store-and-forward system**|Yes|
|**Buffer**|32K bytes|
|**MAC address**|1000|
|**Broadcast storm detection**|Yes|
|**QoS**|No|
|**SNMP**|No|
|**VLAN**|No|
|**IGMP snooping**|No|
|**STP (Spanning Tree Protocol)**|No|
|**Port mirroring**|No|
**26**
**CP2E**
## **Serial Communication**
**==> picture [368 x 236] intentionally omitted <==**
**----- Start of picture text -----**<br>
CP2E N��-type<br>CPU Unit<br>Slot 2<br>CP1W-CIF01 CP1W-CIF11/12-V1<br>RS-232C RS-422A/485<br>Option Board Option Board<br>Slot 1<br>CP1W-CIF01 CP1W-CIF11/12-V1 CP2W-CIFD1 CP2W-CIFD2 CP2W-CIFD3<br>RS-232C RS-422A/485 RS-232C&RS-232C RS-232C&RS-485 RS-485&RS-485<br>Option Board Option Board Option Board Option Board Option Board<br>**----- End of picture text -----**<br>
**Note: 1.** CP2W-CIFD @ can only be mounted on option slot 1.
## **Serial Communication Option Board**
|**Model numbers**|**Port**|**Maximum transmission**<br>**distance**|**Connection method**|
|---|---|---|---|
|CP1W-CIF01|One RS-232C port|15m|Connector (D-sub, 9 pin female)|
|CP1W-CIF11|One RS-422A/485 port (not isolated)|50m|Terminal block (using ferrules)|
|CP1W-CIF12-V1|One RS-422A/485 port (isolated)|500m|Terminal block (using ferrules)|
|CP2W-CIFD1|Two RS-232C Ports|15m|Terminal block (using ferrules)|
|CP2W-CIFD2|One RS-232C port and one RS-485 port (isolated)|15m (RS-232C)<br>500m (RS-485)|Terminal block (using ferrules)|
|CP2W-CIFD3|Two RS-485 ports (isolated)|500m|Terminal block (using ferrules)|
## **Built-in RS-232C Port for E/S** @@ **-type CPU Units**
**==> picture [50 x 43] intentionally omitted <==**
**----- Start of picture text -----**<br>
SD RDRS CS SG FG<br>**----- End of picture text -----**<br>
|**Pin**<br>|**Abbr.**<br>|**Signal Name**<br>|**Signal direction**<br>|
|---|---|---|---|
|1<br>|SD(TXD)<br>|Send data<br>|Output<br>|
|2|RD(RXD)|Receive data|Input|
|3|RS(RTS)|Request to send|Output|
|4|CS(CTS)|Clear to send|Input|
|5|SG(0V)|Signal ground|-|
|6|FG|Frame ground|-|
## **Built-in RS-485 Port (2-wire) for S** @@ **-type CPU Units**
## **RS-485 Terminal Block**
|**- B+ FG**|**Pin**|**Abbr.**|**Signal Name**|**Signal direction**|
|---|---|---|---|---|
||1|A-|Send/Receive data -|-|
||2|B+|Send/Receive data +|-|
||3|FG|Frame ground|-|
## **DIP Switch for Terminating Resistance Settings**
|||||||||**Setting**||
|---|---|---|---|---|---|---|---|---|---|
||ON|||||ON|OFF|||
|||||||||||
||||||||||Terminating resistance selection|
|||||||OFF|OFF||Resistance value: 220Ωtypical|
|||||||||||
|||||||||||
**27**
**CP2E**
## **CP1W-CIF01 RS-232C Option Board**
**==> picture [311 x 99] intentionally omitted <==**
**----- Start of picture text -----**<br>
Front Rear<br>Communications<br>CPU Unit connector<br>status indicator COMM<br>RS-232C connector<br>**----- End of picture text -----**<br>
## **RS-232C Connector**
|5<br>6<br>1<br>9|**Pin**|**Abbr.**|**Signal**|**Signal direction**|
|---|---|---|---|---|
||1|FG|Frame ground|-|
||2|SD(TXD)|Send data|Output|
||3|RD(RXD)|Receive data|Input|
||4|RS(RTS)|Request to send|Output|
||5|CS(CTS)|Clear to send|Input|
||6|5V|Power|-|
||7|DR(DSR)|Data set ready|Input|
||8|ER(DTR)|Data terminal ready|Output|
||9|SG(0V)|Signal ground|-|
||Connector hood|FG|Frame ground|-|
**Note: 1.** The NV3W-M20L-V1 Programmable Terminal can be connected to pin 6 (+5V) on the RS-232C Option Board (CP1W-CIF01) mounted to the CPU Unit. Do not connect pin 6 to any other device.
## **CP1W-CIF11/CIF12-V1 RS-422A/485 Option Board**
**==> picture [279 x 71] intentionally omitted <==**
**----- Start of picture text -----**<br>
Front Back<br>Communications CPU Unit<br>Status Indicator COMM Connector<br>RDA- RDB+ SDA- SDB+ FG<br>DIP Switch for<br>Operation Settings<br>**----- End of picture text -----**<br>
**==> picture [191 x 61] intentionally omitted <==**
**----- Start of picture text -----**<br>
RS-422A/485 Terminal Block<br>Tighten the terminal block screws<br>to a torque of 0.28 N·m.<br>RDA- FG<br>RDB+ SDA- SDB+<br>**----- End of picture text -----**<br>
RS-422A/485 Connector
## **DIP Switch for Operation Settings**
|**CP1W-CIF11**||**CP1W-CIF12-V1**|**CP1W-CIF12-V1**|**Setting**|**Setting**|**Setting**|
|---|---|---|---|---|---|---|
||**Pin**||**Pin**||||
|SW<br>1<br>2<br>3<br>4<br>5<br>6<br>O<br>N|1|SW1<br>1<br>2<br>3<br>4<br>O<br>N|1|ON|ON (both ends)|Terminating resistance selection<br>Resistance value: 220Ωtypical|
|||||OFF|OFF||
||2||2|ON|2-wire connections|2-wire or 4-wire selection*1|
|||||OFF|4-wire connections||
||3||3|ON|2-wire connections|2-wire or 4-wire selection*1|
|||||OFF|4-wire connections||
||4||4|-|-|Not used.|
||5|SW2<br>1<br>2<br>O<br>N|1|ON|RS control enabled|RS control selection for RD*2|
|||||OFF|RS control disabled<br>(Data always received.)||
||6||2|ON|RS control enabled|RS control selection for SD*3|
|||||OFF|RS control disabled<br>(Data always sent.)||
- *1. Set both pins 2 and 3 to either ON (2-wire) or OFF (4-wire).
- *2. To disable the echo-back function, set pin 5 to ON (RS control enabled).
- *3. When connecting to a device on the N side in a 1: N connection with the 4-wire method, set pin 6 to ON (RS control enabled). Also, when connecting by the 2-wire method, set pin 6 to ON (RS control enabled).
**28**
**CP2E**
## **CP2W-CIFD1 RS-232C&RS-232C Option Board**
**==> picture [331 x 91] intentionally omitted <==**
**----- Start of picture text -----**<br>
Front Rear<br>Communications CPU Unit connector<br>status indicator<br>**----- End of picture text -----**<br>
RS-232C&RS-232C terminal block
## **RS-232C&RS-232C Terminal Block**
**==> picture [62 x 56] intentionally omitted <==**
|**Port**<br>**Pin**|**Abbr.**|**Signal Name**|**Signal direction**|
|---|---|---|---|
|ORT@<br>1<br>2<br>3<br>4<br>|SD(TXD)|Send data|Output|
||RD(RXD)|Receive data|Input|
||SG(0V)<br>|Signal ground<br>|---|
||FG<br>|Frame ground<br>|---<br>|
|T@(EX)<br>5<br>6<br>7<br>8|SD(TXD)<br>RD(RXD)|Send data<br>Receive data|Output<br>Input|
||SG(0V)|Signal ground|---|
||FG|Frame ground|---|
**Note: 1.** CP2W-CIFD1 can only be mounted on option slot 1.
PORT @ is supported by serial port 1 and PORT @ (EX) is supported by serial port 1(EX).
## **CP2W-CIFD2 RS-232C&RS-485 Option Board**
**==> picture [324 x 105] intentionally omitted <==**
**----- Start of picture text -----**<br>
Front Rear<br>Communications CPU Unit connector<br>status indicator<br>RS-232C&RS-485<br>terminal block<br>DIP switch<br>**----- End of picture text -----**<br>
## **RS-232C&RS-485 Terminal Block**
|**Port**<br>**Pin**<br>1|**Abbr.**<br>SD(TXD)|**Signal Name**<br>Send data|**Signal direction**<br>Output|
|---|---|---|---|
|ORT@<br><br>2<br>3<br>4|RD(RXD)|<br>Receive data|Input|
||SG(0V)|Signal ground|---|
||FG|Frame ground|---|
|T@(EX)<br>5<br>6<br>7<br>8|A-<br>B+|Send/Receive data -<br>Send/Receive data +|Output<br>Input|
||FG|Frame ground|---|
||NC|NC|---|
**Note:** CP2W-CIFD2 can only be mounted on option slot 1.
PORT @ is supported by serial port 1 and PORT @ (EX) is supported by serial port 1(EX).
## **DIP switch for terminating resistance settings**
||**Setting**|**Setting**|**Setting**|
|---|---|---|---|
||ON<br>O<br>OFF<br>O|N (both ends)|Terminating resistance selection<br>Resistance value: 220Ωtypical|
|||<br>FF||
**29**
**CP2E**
## **CP2W-CIFD3 RS-485&RS-485 Option Board**
**==> picture [323 x 108] intentionally omitted <==**
**----- Start of picture text -----**<br>
Front Rear<br>CPU Unit connector<br>Communications<br>status indicator<br>RS-485&RS-485<br>terminal block<br>DIP switch<br>**----- End of picture text -----**<br>
## **RS-485&RS-485 Terminal Block**
|**Port**|**Pin**|**Abbr.**|**Signal Name**|**Signal direction**|
|---|---|---|---|---|
|PORT@|1|A-|Send/Receive data -|Output|
||2|B+|Send/Receive data +|Input|
||3|FG|Frame ground|---|
||4<br>5|NC<br>A-|NC<br>Send/Receive data -|---<br>Outut|
|ORT@(EX)|6|B+|<br>Send/Receive data +|p<br>Input|
||7|FG|Frame ground|---|
||8|NC|NC|---|
**Note: 1.** CP2W-CIFD3 can only be mounted on option slot 1. PORT @ is supported by serial port 1 and PORT @ (EX) is supported by serial port 1(EX).
## **DIP switch for terminating resistance settings**
||**Pin**|**Setting**|**Setting**|
|---|---|---|---|
||1<br>O<br>O<br>2<br>3<br>4<br>O<br>O|N<br>ON (both ends)|Terminating resistance selection<br>Resistance value: 220Ωtypical|
|||FF<br>OFF||
|||---<br>---|<br>Not used.<br>|
|||---<br>---|Not used.|
|||N<br>ON (both ends)|Terminating resistance selection<br>Resistance value: 220Ωtypical|
|||<br>FF<br>OFF||
**30**
**CP2E**
## **Analog Option Board**
## **N** @@ **-type CPU Units**
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**----- Start of picture text -----**<br>
CP2E N��-type<br>CPU Unit<br>CP1W-ADB21 CP1W-DAB21V CP1W-MAB221<br>Analog Input Analog Output Analog Input/Output<br>Option Board Option Board Option Board<br>**----- End of picture text -----**<br>
## **Note: 1.** Maximum one Analog Option Board can be mounted on an N @@ -type CPU Unit.
If two Analog Option Boards are mounted, an option board error will occur and both Analog Option Boards do not work.
## **Analog Option Board**
Analog option board units are non-isolated analog units which allow you to easily realize analog input/output function for CP2E N @@ -type CPU Unit.
|**Analog Option Board**|**Analog Option Board**|**Voltage Input**<br>**0V~10V**<br>**(Resolution: 1/4000)**|**Current Input**<br>**0mA~20mA**<br>**(Resolution: 1/2000)**|**Voltage Output**<br>**0V~10V**<br>**(Resolution: 1/4000)**|
|---|---|---|---|---|
|Analog I/O Option Board|CP1W-MAB221|2CH||2CH|
|Analog Input Option Board|CP1W-ADB21|2CH||---|
|Analog Output Option Board|CP1W-DAB21V|---||2CH|
**31**
**CP2E**
## **Specifications of Analog Option Board CP1W-ADB21**
|**Item**|**Item**|**Specifications**|**Specifications**|
|---|---|---|---|
|||**Voltage Input**|**Current Input**|
|**Input signal range**||0 to 10 V|0 to 20 mA|
|**Max. rated input**||0 to 15 V|0 to 30 mA|
|**External input impedance**||200 kΩmin.|Approx. 250Ω|
|**Resolution**||1/4000 (full scale)|1/2000 (full scale)|
|**Overall**<br>**accuracy**|**25**°**C**|±0.5% (full scale)|±0.6% (full scale)|
||**0 to 60°C**|<br>±1.0% (full scale)|<br>±1.2% (full scale)|
||**-20 to 0°C**|±1.3% (full scale)|±1.5% (full scale)|
|**A/D conversion data**||0000 to 0FA0 Hex|0000 to 07D0 Hex|
|**Averaging function**||None||
|**Isolation method**||No isolation between analog I/O terminals and<br>internal circuits.||
|**Current consumption**||5 VDC: 20 mA max.||
## **CP1W-DAB21V**
|**It**|**It**|**Specifications**|**Specifications**|
|---|---|---|---|
|**em**||**Voltage Output**|**Current Output**|
|**Output signal range**||0 to 10 V|---|
|**External output allowable**<br>**load resistance**||2 kΩmin.|---|
|**External output impedance**||0.5Ωmax.|---|
|**Resolution**||1/4000 (full scale)|---|
|**Overall**<br>**accuracy**|**25°C**|±0.5% (full scale)|---|
||**0 to 60°C**|±1.0% (full scale)|---|
||**-20 to 0°C**|±1.3% (full scale)|---|
|**Set data (D/A conversion)**||0000 to 0FA0 Hex|---|
|**Isolation method**||No isolation between analog I/O terminals and<br>internal circuits.||
|**Current consumption**||5 VDC: 60 mA max.||
## **CP1W-MAB221**
|**Item**|||**Specifications**|**Specifications**|
|---|---|---|---|---|
||||**Voltage I/O**|**Current I/O**|
|**Analog Input Section**|**Input signal range**||0 to 10 V|0 to 20 mA|
||**Max. rated input**||0 to 15 V|0 to 30 mA|
||**External input**|**impedance**|200 kΩmin.|Approx. 250Ω|
||**Resolution**||1/4000 (full scale)|1/2000 (full scale)|
||**Overall**<br>**accuracy**|**25**°**C**|±0.5% (full scale)|±0.6% (full scale)|
|||**0 to 60°C**|±1.0% (full scale)|±1.2% (full scale)|
|||**-20 to 0°C**|±1.3% (full scale)|±1.5% (full scale)|
||**A/D conversion data**||0000 to 0FA0 Hex|0000 to 07D0 Hex|
||**Averaging function**||None||
|**Analog Output Section**|**Output signal range**||0 to 10 VDC|---|
||**External output allowable**<br>**load resistance**||2 kΩmin.|---|
||**External output impedance**||0.5Ωmax.|---|
||**Resolution**||1/4000 (full scale)|---|
||**Overall**<br>**accuracy**|**25**°**C**|±0.5% (full scale)|---|
|||**0 to 60°C**|±1.0% (full scale)|---|
|||**-20 to 0°C**|±1.3% (full scale)|---|
||**Set data (D/A conversion)**||0000 to 0FA0 Hex|---|
|**Isolation method**|||No isolation between analog I/O terminals and internal circuits.||
|**Current consumption**|||5 VDC: 80 mA max.||
## **Analog Option Board Refresh Time (Typical values)**
|**Analog Opiton Board**|**Cycle time (ms)**|**Cycle time (ms)**|**Cycle time (ms)**|
|---|---|---|---|
||**1 ms**|**10 ms**|**20 ms**|
|CP1W-ADB21|16~40|20~60|20~100|
|CP1W-DAB21V|9~37|26~58|46~86|
|CP1W-MAB221(AD)|14~62|18~109|20~160|
|CP1W-MAB221(DA)|9~53|26~102|46~150|
**32**
**CP2E**
## **Specifications of Expansion I/O Units and Expansion Units**
## **Expandable CPU Units**
- Expansion I/O Units and Expansion Units cannot be connected to E14/20 or N14/20 CPU Units.
- A total of up to three Expansion I/O Units and Expansion Units can be connected to an E30/40/60, S30/40/60 or N30/40/60 CPU Unit.
## **CP2E-E14/20 or N14/20 CPU Unit**
**==> picture [79 x 48] intentionally omitted <==**
**==> picture [160 x 33] intentionally omitted <==**
**----- Start of picture text -----**<br>
CP-series Expansion Units and Expansion I/O<br>Units cannot be connected.<br>**----- End of picture text -----**<br>
## **CP2E-E30/40/60, S30/40/60 or N30/40/60 CPU Unit**
**==> picture [169 x 28] intentionally omitted <==**
**----- Start of picture text -----**<br>
A total of up to three CP-series Expansion I/O Units<br>and Expansion Units can be connected.<br>**----- End of picture text -----**<br>
**==> picture [339 x 55] intentionally omitted <==**
**----- Start of picture text -----**<br>
OUTIN CHCHCHCHNC00000000 NC01010101 02020202NC 03030303 NC04040404COM05050505 0006060606CH010707070702 080803 090904 051010 061111 07 08 09 10 11 00CH01 02 03 04 05 06 0740EDR08 09 10 11 OUTIN CHCHCHCHNC00000000 NC01010101 02020202NC 03030303 NC04040404COM05050505 0006060606CH010707070702 080803 090904 051010 061111 07 08 09 10 11 00CH01 02 03 04 05 06 0740EDR08 09 10 11 OUTIN CHCHCHCHNC00000000 NC01010101 02020202NC 03030303 NC04040404COM05050505 0006060606CH010707070702 080803 090904 051010 061111 07 08 09 10 11 00CH01 02 03 04 05 06 0740EDR08 09 10 11<br>NC NC COM 00CHCOM 01 COM 02 03 04 COM 05 06 07 COM 00CH01 02 03 04 COM 05 06 07 EXP NC NC COM 00CHCOM 01 COM 02 03 04 COM 05 06 07 COM 00CH01 02 03 04 COM 05 06 07 EXP NC NC COM 00CHCOM 01 COM 02 03 04 COM 05 06 07 COM 00CH01 02 03 04 COM 05 06 07 EXP<br>**----- End of picture text -----**<br>
## **Connection Methods**
Connection cables for the Expansion I/O Units and Expansion Units are used to connect the Units. The length can be extended by using a CP1W-CN811 I/O Connecting Cable (length: 800 mm).
## **Maximum Number of I/O Points for an Expansion I/O Unit or Expansion Unit**
|**CPU Unit**|**Built-in I/O on CPU Unit**<br>**Total**<br>**Number of**<br>**inputs**<br>**Numb**<br>**outp**|**Built-in I/O on CPU Unit**<br>**Total**<br>**Number of**<br>**inputs**<br>**Numb**<br>**outp**|**Total number of**<br>**Expansion I/O Units and**<br>**Expansion Units that**<br>**can be connected**<br>**er of**<br>**uts**|**Number of inputs: 24**<br>**Number of outputs: 16**<br>**Total number of I/O points**<br>**when three CP1W-40ED**@<br>**Expansion I/O Units are connected**|**Number of inputs: 24**<br>**Number of outputs: 16**<br>**Total number of I/O points**<br>**when three CP1W-40ED**@<br>**Expansion I/O Units are connected**|**Number of inputs: 24**<br>**Number of outputs: 16**<br>**Total number of I/O points**<br>**when three CP1W-40ED**@<br>**Expansion I/O Units are connected**|
|---|---|---|---|---|---|---|
|||**Number of**<br>**inputs**<br>**Numb**<br>**outp**||**Total**|**Number of**<br>**inputs**|**Number of**<br>**outputs**|
|CP2E-@14D@-@|14|8<br>6|Not possible.|14|8|6|
|CP2E-@20D@-@|20|12<br>8||20|12|8|
|CP2E-@30D@-@|30|18<br>12|3 Units maximum<br><br>|150|90|60|
|CP2E-@40D@-@|40|24<br>16||160|96|64|
|CP2E-@60D@-@|60|36<br>24||180|108|72|
**33**
**CP2E**
## **Specifications of Expansion I/O Units Input Specifications (CP1W-8ED/20EDR1/20EDT/20EDT1/40EDR/40EDT/40EDT1)**
|**Item**|**Specification**|
|---|---|
|**Input voltage**|24 VDC, +10% / -15%|
|**Input impedance**|4.7 kΩ|
|**Input current**|5 mA typical|
|**ON voltage / current**|14.4 VDC min. / 3mA min.|
|**OFF voltage / current**|5.0 VDC max. / 1mA max.|
|**ON response time**|1 ms max.*1|
|**OFF response time**|1 ms max.*1|
|**Circuit configuration**|Input indicator<br>IN<br>IN<br>COM<br>Internal<br>circuits<br>Isolation<br>circuits<br>co<br>||
**Note: 1.** Do not apply voltage in excess of the rated voltage to the input terminal.
- *1. The response time is the delay caused by hardware. The delay set in the PLC Setup (0 to 32 ms, default: 8 ms) must be added to this value. For the CP1W-40EDR/EDT/EDT1, a fixed value of 16 ms must be added.
## **Output Specifications Relay Outputs (CP1W-8ER/16ER/20EDR1/32ER/40EDR)**
|**Item**|**Item**|**Item**|**Specification**|
|---|---|---|---|
|**Max. switching capacity**|||2 A, 250 VAC (cosφ= 1),<br>2 A, 24 VDC (4 A/common)|
|**Min. switching capacity**<br>~~|==;—~~|||10 mA, 5 VDC|
|**Service life of relay**<br>~~|~~|**Electrical**<br>~~|==;~~<br>~~_~~|**Resistive load**<br>~~==;—~~<br>~~_~~|150,000 operations (24 VDC)|
|||**Inductive load**<br>~~==;—~~<br>~~_~~|100,000 operations (240 VAC, cosφ= 0.4)|
||**Mechanical**<br>~~| ==; —~~<br>~~_~~<br>~~[J~~||20,000,000 operations<br>|
|**ON response time**<br>~~[J~~|||15 ms max.<br>|
|**OFF response time**<br>|||15 ms max.<br>|
|**Circuit configuration**<br>|||~~v~~<br>COM<br>OUT<br>OUT<br>Output indicator<br>Internal<br>circuits<br>250 VAC, 2A,<br>24 VDC, 2 A max.<br>~~|~~<br>~~:~~<br>i|
**Note: 1.** Estimating the Service Life of Relays The service life of output contacts is as shown in the following diagram.
|Life (x104)|300<br>200<br>100<br>50<br>30<br>20<br>5<br>3<br>2<br>10|120 VAC resistive load<br>24 VDCτ= 7 ms<br>120 VAC cosφ= 0.4<br>240 VAC cosφ =0.4<br>24 VDC/240 VAC resistive<br>Switching frequency: 1,800 operations/hour<br>~~=~~<br>~~= 4~~<br>~~SNA~~<br>~~NOK~~<br>~~FETS~~<br>~~PERRET~~<br>~~P| tT ESSaa~~<br>~~Pott~~<br>~~ttt yt ft~~<br>~~eese~~<br>~~ee~~<br>~~titi~~<br>ttt|120 VAC resistive load<br>24 VDCτ= 7 ms<br>120 VAC cosφ= 0.4<br>240 VAC cosφ =0.4<br>24 VDC/240 VAC resistive<br>Switching frequency: 1,800 operations/hour<br>~~=~~<br>~~= 4~~<br>~~SNA~~<br>~~NOK~~<br>~~FETS~~<br>~~PERRET~~<br>~~P| tT ESSaa~~<br>~~Pott~~<br>~~ttt yt ft~~<br>~~eese~~<br>~~ee~~<br>~~titi~~<br>ttt|
|---|---|---|---|
||0.1<br>0.2<br>0.3<br>0.5<br>0.7 1<br>2<br>3<br>5|||
|||Contact current (A)||
**34**
**CP2E**
## **2.** Restrictions of CP1W-16ER/32ER
Limit the output load current to satisfy the following derating curve.
**==> picture [137 x 94] intentionally omitted <==**
**----- Start of picture text -----**<br>
100<br>Power<br>voltage:<br>21.6 VDC<br>50<br>Power<br>voltage:<br>20.4 VDC<br>43 55 60<br>Ambient temperature (°C)<br>Output load current(%)<br>**----- End of picture text -----**<br>
**3.** CP1W-32ER’s maximum number of simultaneously ON output points is 24 (75%). Relation between Number of ON Outputs and Ambient Temperature (CP1W-32ER)
**==> picture [136 x 83] intentionally omitted <==**
**----- Start of picture text -----**<br>
75<br>0<br>60<br>Number of inputs ON simultaneously (%)<br>**----- End of picture text -----**<br>
Ambient temperature (°C)
**4.** According to the ambient temperature, there are restrictions on power supply voltage and output load current for the CPU Units connected with the Expansion I/O Units (CP1W-8ER/16ER/20EDR1/32ER/40EDR). Use the PLC in the range of the power supply voltage and output load current as show below.
- The ambient temperature is restricted for the DC power supply CPU Units.
Derating curve of the output load current for Expansion I/O Units (CP1W-8ER/16ER/20EDR1/32ER/40EDR).
**==> picture [467 x 248] intentionally omitted <==**
**----- Start of picture text -----**<br>
Connected to Connected to Connected to Connected to<br>CP2E-N30DR-D CP2E-N40DR-D CP2E-30DT-D CP2E-40DT-D<br>100% 100% 100% 100%<br>Power<br>Power voltage:21.6 VDC Power voltage: Power voltage:21.6 VDC voltage:21.6 VDC<br>50% 50% 21.6 VDC 50% 50%<br>Power<br>Power voltage:20.4 VDC Power voltage: Power voltage:20.4 VDC voltage:20.4 VDC<br>20.4 VDC<br>0% 35 45 60°C 0% 30 45 60°C 0% 35 45 60°C 0% Ambient temperature35 45 60°C<br>Ambient temperature Ambient temperature Ambient temperature<br>Connected to<br>CP2E-N60DR-D<br>CP2E-60DT-D<br>100%<br>Power voltage:<br>21.6VDC<br>50%<br>Power voltage:<br>20.4VDC<br>0%<br>40 45 60°C<br>Ambient temperature<br>**----- End of picture text -----**<br>
**35**
**CP2E**
## **Transistor Outputs (Sinking or Sourcing)**
|**Item**|**Specification**|**Specification**|**Specification**|**Specification**|**Specification**|**Specification**|**Specification**|**Specification**|**Specification**|**Specification**|**Specification**|**Specification**|**Specification**|**Specification**|**Specification**|**Specification**|**Specification**|**Specification**|
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
||**CP1W-40EDT**<br>**CP1W-40EDT1**|||**CP1W-32ET**<br>**CP1W-32ET1**|||**CP1W-20EDT**<br>**CP1W-20EDT1**||||||**CP1W-16ET**<br>**CP1W-16ET1**|||||**CP1W-8ET**<br>**CP1W-8ET1**|
|**Max. switching capacity**<br>***1**|4.5 to 30 VDC<br>0.3 A/output<br>0.9 A/common<br>3.6 A/Unit|||4.5 to 30 VDC<br>0.3 A/output<br>0.9 A/common<br>7.2 A/Unit|||24 VDC +10%/-5%<br>0.3 A/output<br>0.9 A/common<br>1.8 A/Unit||||||4.5 to 30 VDC<br>0.3 A/output<br>0.9 A/common<br>3.6 A/Unit|||||4.5 to 30 VDC<br>0.3 A/output<br>0.9 A/common<br>1.8 A/Unit|
|**Leakage current**|0.1 mA max.|||0.1 mA max.|||0.1 mA max.||||||0.1 mA max.|||||0.1 mA max.|
|**Residual voltage**|1.5 V max.|||1.5 V max.|||1.5 V max.||||||1.5 V max.|||||1.5 V max.|
|**ON response time**|0.1 ms max.|||0.1 ms max.|||0.1 ms.||||||0.1 ms max.|||||0.1 ms max.|
|**OFF response time**|1 ms max.<br>At 24 VDC +10%/<br>-5%, 5 to 300 mA|||1 ms max.<br>At 24 VDC +10%/<br>-5%, 5 to 300 mA|||1 ms max.<br>At 24 VDC +10%/<br>-5%, 5 to 300 mA||||||1 ms max.<br>At 24 VDC +10%/<br>-5%, 5 to 300 mA|||||1 ms max.<br>At 24 VDC +10%/<br>-5%, 5 to 300 mA|
|**Maximum number of**<br>**simultaneously ON outputs**|16 points<br>(100% load)|||24 points<br>(100% load)|||8 points<br>(100% load)||||||16 points<br>(100% load)|||||8 points<br>(100% load)|
|**Fuse*2**|1 fuse/common||||||||||||||||||
|**Circuit configuration**|Sinking<br>Output indicator<br>Internal<br>circuits||||OUT<br>OUT<br>L<br>L<br>Sourcing<br>Output indicator<br>Internal<br>circuits<br>|||||||||||COM (+)<br>OUT<br>OUT<br>L<br>L<br>24 VDC/4.5<br>to 30 VDC|||
|||Output indicator<br>Internal<br>circuits||||||Output in<br>Internal<br>circuits||||dicator<br>|||||||
||||||||||||||||||||
|||||||OUT<br>L|||Internal<br>circuits||||||||||
||||||||||||||||||||
||||||||||||||||||OUT<br>L<br>L||
||||||||||||||||||||
- *1. If the ambient temperature is maintained below 50 ° C, up to 0.9 A/common can be used.
**==> picture [194 x 145] intentionally omitted <==**
**----- Start of picture text -----**<br>
(A)<br>0.9<br>0.7<br>0 50 60 (°C)<br>Ambient temperature<br>Total current per common<br>**----- End of picture text -----**<br>
- *2. The fuse cannot be replaced by the user. Replace the Unit if the fuse breaks due to an short-circuit or overcurrent. **Note: 1.** Do not connect a load to an output terminal or apply a voltage in excess of the maximum switching capacity.
**36**
**CP2E**
## **Specifications of Expansion Units Analog Input Units**
|**Model**|**Model**|**CP1W-AD041**|**CP1W-AD041**|**CP1W-AD042**|**CP1W-AD042**|
|---|---|---|---|---|---|
|**Item**||**Voltage input**|**Current input**|**Voltage input**|**Current input**|
|**Number of analog inputs**||4 inputs (4 words allocated)||||
|**Input signal range**||0 to 5 V, 1 to 5 V,<br>0 to 10 V, or –10 to 10 V|0 to 20 mA or 4 to 20 mA|0 to 5 V, 1 to 5 V,<br>0 to 10 V, or -10 to 10 V|0 to 20 mA or 4 to 20 mA|
|**Max. rated input**||±15 V|±30 mA|±15 V|±30 mA|
|**External input impedance**||1 MΩmin.|Approx. 250Ω|1 MΩmin.|Approx. 250Ω|
|**Resolution**||1/6000 (full scale)||1/12000 (full scale)||
|**Overall accuracy**|**25**°**C**|0.3% full scale|0.4% full scale|0.2% full scale|0.3% full scale|
||**0 to 55**°**C**|0.6% full scale|0.8% full scale|0.5% full scale|0.7% full scale|
||**55 to 60**°**C**|0.7% full scale|0.8% full scale|0.5% full scale|0.7% full scale|
||**-20 to 0**°**C**|0.8% full scale|1% full scale|0.7% full scale|0.9% full scale|
|**A/D conversion data**||16-bit binary (4-digit hexadecimal)<br>Full scale for –10 to 10 V: F448 to 0BB8 hex<br>Full scale for other ranges: 0000 to 1770 hex||16-bit binary (4-digit hexadecimal)<br>Full scale for –10 to 10 V: E890 to 1770 hex<br>Full scale for other ranges: 0000 to 2EE0 hex||
|**Averaging function**||Supported (Set in output words n+1 and n+2.)||||
|**Open-circuit detection function**||Supported||||
|**Conversion time**||2 ms/point (8 ms/all points)||1 ms/point (4 ms/all points)||
|**Isolation method**||Photocoupler isolation between analog input terminals and internal circuits. No isolation between analog I/O signals.||||
|**Current consumption**||5 VDC: 100 mA max.; 24 VDC: 90 mA max.||5 VDC: 100 mA max.; 24 VDC: 50 mA max.||
## **Analog Output Units**
|**Model**|**Model**|**CP1W-DA021/CP1W-DA041**|**CP1W-DA021/CP1W-DA041**|**CP1W-DA042**|**CP1W-DA042**|
|---|---|---|---|---|---|
|**Item**||**Voltage output**|**Current output**|**Voltage output**|**Current output**|
|**Number of analog outputs**||CP1W-DA021: 2 outputs (2 words allocated)<br>CP1W-DA041: 4 outputs (4 words allocated)||4 outputs (4 words allocated)||
|**Output signal range**||1 to 5 V, 0 to 10 V, or<br>–10 to 10 V|0 to 20 mA or 4 to 20 mA|1 to 5 V, 0 to 10 V, or<br>–10 to 10 V|0 to 20 mA or 4 to 20 mA|
|**External output allowable load resistance**||2 kΩmin.|350Ωmax.|2 kΩmin.|350Ωmax.|
|**External output impedance**||0.5Ωmax.|---|0.5Ωmax.|---|
|**Resolution**||1/6000 (full scale)||1/12000 (full scale)||
|**Overall accuracy**|**25**°**C**|0.4% full scale||0.3% full scale||
||**0 to 55**°**C**|0.8% full scale||0.7% full scale||
||**-20 to 0**°**C**|1% full scale||0.9% full scale||
|**D/A conversion data**||16-bit binary (4-digit hexadecimal)<br>Full scale for –10 to 10 V: F448 to 0BB8 hex<br>Full scale for other ranges: 0000 to 1770 hex||16-bit binary (4-digit hexadecimal)<br>Full scale for –10 to 10 V: E890 to 1770 hex<br>Full scale for other ranges: 0000 to 2EE0 hex||
|**Conversion time**||CP1W-DA021: 2 ms/point (4 ms/all points)<br>CP1W-DA041: 2 ms/point (8 ms/all points)||1 ms/point (4 ms/all points)||
|**Isolation method**||Photocoupler isolation between analog output terminals and internal circuits. No isolation between analog I/O signals.||||
|**Current consumption**||CP1W-DA021: 5 VDC: 40 mA max.; 24 VDC: 95 mA max.<br>CP1W-DA041: 5 VDC: 80 mA max.; 24 VDC: 124 mA max.||5 VDC: 70 mA max.; 24 VDC: 160 mA max.||
**37**
**CP2E**
## **Analog I/O Units**
|**Model**|||**CP1W-MAD42/CP1W-MAD44**|**CP1W-MAD42/CP1W-MAD44**|**CP1W-MAD11**|**CP1W-MAD11**|
|---|---|---|---|---|---|---|
|**Item**|||**Voltage I/O**|**Current I/O**|**Voltage I/O**|**Current I/O**|
|**Analog Input**<br>**Section**|**Number of inputs**||4 inputs (4 words allocated)||2 inputs (2 words allocated)||
||**Input signal range**||0 to 5 V, 1 to 5 V,<br>0 to 10 V, or –10 to 10 V|0 to 20 mA or 4 to 20 mA|0 to 5 V, 1 to 5 V,<br>0 to 10 V, or−10 to 10 V|0 to 20 mA or 4 to 20 mA|
||**Max. rated input**||±15 V|±30 mA|±15 V|±30 mA|
||**External input**|**impedance**|1 MΩmin.|Approx. 250Ω|1 MΩmin.|Approx. 250Ω|
||**Resolution**||1/12000 (full scale)||1/6000 (full scale)||
||**Overall**<br>**accuracy**|**25**°**C**|0.2% full scale|0.3% full scale|0.3% full scale|0.4% full scale|
|||**0 to 55**°**C**|0.5% full scale|0.7% full scale|0.6% full scale|0.8% full scale|
|||**-20 to 0**°**C**|0.7% full scale|0.9% full scale|0.8% full scale|1% full scale|
||**A/D conversion data**||16-bit binary (4-digit hexadecimal)<br>Full scale for –10 to 10 V: E890 to 1770 hex<br>Full scale for other ranges: 0000 to 2EE0 hex||16-bit binary (4-digit hexadecimal)<br>Full scale for−10 to 10 V: F448 to 0BB8 hex<br>Full scale for other ranges: 0000 to 1770 hex||
||**Averaging function**||Supported||Supported (Settable for individual inputs via DIP switch)||
||**Open-circuit detection**<br>**function**||Supported||||
|**Analog Output**<br>**Section**|**Number of outputs**||CP1W-MAD42: 2 outputs (2 words allocated)<br>CP1W-MAD44: 4 outputs (4 words allocated)||1 output (1 word allocated)||
||**Output signal range**||1 to 5 V, 0 to 10 V, or<br>−10 to 10 V|0 to 20 mA or 4 to 20 mA|1 to 5 V, 0 to 10 V, or<br>−10 to 10 V|0 to 20 mA or 4 to 20 mA|
||**Allowable external output**<br>**load resistance**||2 kΩmin.|350Ωmax.|1 kΩmin.|600Ωmax.|
||**External output impedance**||0.5Ωmax.|---|0.5Ωmax.|---|
||**Resolution**||1/12000 (full scale)||1/6000 (full scale)||
||**Overall**<br>**accuracy**|**25**°**C**|0.3% full scale||0.4% full scale||
|||**0 to 55**°**C**|0.7% full scale||0.8% full scale||
|||**-20 to 0**°**C**|0.9% full scale||1% full scale||
||**Set data (D/A conversion)**||16-bit binary (4-digit hexadecimal)<br>Full scale for−10 to 10 V: E890 to 1770 hex<br>Full scale for other ranges: 0000 to 2EE0 hex||16-bit binary (4-digit hexadecimal)<br>Full scale for−10 to 10 V: F448 to 0BB8 hex<br>Full scale for other ranges: 0000 to 1770 hex||
|**Conversion time**|||CP1W-MAD42: 1 ms/point (6 ms/all points)<br>CP1W-MAD44: 1 ms/point (8 ms/all points)||2 ms/point (6 ms/all points)||
|**Isolation method**|||Photocoupler isolation between analog I/O terminals and internal circuits.<br>No isolation between analog I/O signals.||||
|**Current consumption**|||CP1W-MAD42:<br>5 VDC: 120 mA max., 24 VDC: 120 mA max.<br>CP1W-MAD44:<br>5 VDC: 120 mA max., 24 VDC: 170 mA max.||5 VDC: 83 mA max., 24 VDC: 110 mA max.||
## **Temperature Sensors Units**
|**Item**|**Item**|**CP1W-TS001**|**CP1W-TS002**|**CP1W-TS101**|**CP1W-TS102**|
|---|---|---|---|---|---|
|**Temperature sensors**||Thermocouples||Platinum resistance thermometer||
|||Switchable between K and J, but same type must be used for all<br>inputs.||Switchable between Pt100 and JPt100, but same type must be<br>used for all inputs.||
|**Number of inputs**||2|4|2|4|
|**Allocated input**|**words**|2|4|2|4|
|**Accuracy**|**25**°**C**|(The larger of ±0.5% of converted value or ±2°C) ±1 digit max.||(The larger of ±0.5% of converted value or ±1°C) ±1 digit max.||
||**0 to 60**°**C**|(The larger of ±1% of converted value or ±4°C) ±1 digit max.||(The larger of ±1% of converted value or ±2°C) ±1 digit max.||
||**-20 to 0**°**C**|(The larger of ±1.3% of converted value or ±5°C) ±1 digit max.*1||(The larger of ±1.3% of converted value or ±3°C) ±1 digit max.||
|**Conversion time**||250 ms for 2 or 4 input points||||
|**Converted temperature data**||16-bit binary data (4-digit hexadecimal)||||
|**Isolation**||Photocouplers between all temperature input signals||||
|**Current consumption**||5 VDC: 40 mA max., 24 VDC: 59 mA max.||5 VDC: 54 mA max., 24 VDC: 73 mA max.||
*1. Accuracy for a K-type sensor at -100°C or less is ±4°C ±1 digit max.
## **The rotary switch is used to set the temperature range.**
|**Setting**|**Setting**||**CP1W-TS001/TS002**|**CP1W-TS001/TS002**|**CP1W-TS101/TS102**|**CP1W-TS101/TS102**|**CP1W-TS101/TS102**|
|---|---|---|---|---|---|---|---|
|||**Input type**|**Range (**°**C)**|**Range (**°**F)**|**Input type**|**Range (**°**C)**|**Range (**°**F)**|
||0|K|−200 to 1,300|−300 to 2,300|Pt100|−200.0 to 650.0|−300.0 to 1,200.0|
||1||0.0 to 500.0|0.0 to 900.0|JPt100|−200.0 to 650.0|−300.0 to 1,200.0|
||2|J|−100 to 850|−100 to 1,500|---|Cannot be set.||
||3||0.0 to 400.0|0.0 to 750.0|---|||
||4 to F|---|Cannot be set.||---|||
**38**
**CP2E**
## **Main Specifications**
|**Item**|**Item**||**CP1W-TS003**|
|---|---|---|---|
|**Temperature sensors**|||Thermocouples or analog input*1|
||||Switchable between K and J, but same type must be used for all inputs.|
|**Number of inputs**|||4|
|**Allocated input words**|||4|
|**Max. number of**|**Units**||3|
|**Accuracy**|**25°C**|**Thermocouple inputs**|(The larger of ±0.5% of converted value or ±2°C) ±1 digit max.*2|
|||**Analog voltage inputs**|0.5% full scale|
|||**Analog current inputs**|0.6% full scale|
||**0 to 60 °C**|**Thermocouple inputs**|(The larger of ±1% of converted value or ±4°C) ±1 digit max.*3|
|||**Analog voltage inputs**|1.0% full scale|
|||**Analog current inputs**|1.2% full scale|
||**-20 to 0 °C**|**Thermocouple inputs**|(The larger of ±1.3% of converted value or ±5°C) ±1 digit max.*3|
|||**Analog voltage inputs**|1.2% full scale|
|||**Analog current inputs**|1.5% full scale|
|**Input signal range**||**Thermocouple inputs**|K: -200.0 to 1300.0°C or -300.0 to 2300.0°F<br>J: -100.0 to 850.0°C or -100.0 to 1500.0°F|
|||**Analog voltage inputs**|0 to 10V/1 to 5V|
|||**Analog current inputs**|4 to 20mA|
|**Resolution**||**Thermocouple inputs**|0.1°C or 0.1°F|
|||**Analog inputs**|1/12000 (full scale)|
|**Max. rated input**||**Analog voltage inputs**|±15V|
|||**Analog current inputs**|±30mA|
|**External input impedance**||**Analog voltage inputs**|1MΩmin.|
|||**Analog current inputs**|250Ω|
|**Open-circuit detection function**|||Supported|
|**Averaging function**|||Unsupported|
|**Conversion time**|||250 ms for 4 input points|
|**Converted temperature data**|||16-bit binary data (4-digit hexadecimal)<br>2-decimal-place mode is not supported|
|**Converted AD data**|||16-bit binary data (4-digit hexadecimal)|
|**Isolation**|||Photocouplers between any two input signals|
|**Current consumption**|||5 VDC: 70 mA max., 24 VDC: 30 mA max.|
*1. Only last two channels can be used as analog input.
*2. Accuracy for a K-type sensor at -100 ° C or less is ± 4 ° C ± 1 digit max.
- *3. Accuracy for a K-type sensor at -100 ° C or less is ± 10 ° C ± 1 digit max.
## **DIP Switch Settings**
With the Temperature Sensor Unit’s DIP switch, set the input type (temperature or analog input), the input thermocouple type (K or J) and the temperature unit (°C or °F).
|SW<br>1<br>2<br>3<br>4<br>5<br>6<br>ON<br>OFF|SW<br>1<br>2<br>3<br>4<br>5<br>6<br>ON<br>OFF|SW<br>1<br>2<br>3<br>4<br>5<br>6<br>ON<br>OFF|SW<br>1<br>2<br>3<br>4<br>5<br>6<br>ON<br>OFF||||
|---|---|---|---|---|---|---|
|**SW**|**Setting**||||||
|1|Thermocouple type of temperature sensor|||ON|J||
|||||OFF|K||
|2|Temperature unit|||ON|°F||
|||||OFF|°C||
|3|NC||||||
|4|Input type selection for the third input (Input 2)|||ON|Analog input||
|||||OFF|Thermocouple||
|5|Input type selection for the fourth input (Input 3)|||ON|Analog input||
|||||OFF|Thermocouple||
|6|Analog input signal range|||ON|1 to 5V/4 to 20mA||
|||||OFF|0 to 10V||
||||||||
|**Temperature input**||||**Analog input**|||
|**Input type**||**Range (°C)**|**Range (°F)**|**Input type**||**Range**|
|K||-200.0 to 1300.0|-300.0 to 2300.0|Voltage||0 to 10V/1 to 5V|
|J||-100.0 to 850.0|-100.0 to 1500.0|Current||4 to 20mA|
**39**
**CP2E**
## **Main Specifications**
|**Item**|**Item**|**CP1W-TS004**|
|---|---|---|
|**Temperature sensors**||Thermocouples|
|||Switchable between K and J, but same type must be used for all inputs.|
|**Number of inputs**||12|
|**Allocated input words**||2|
|**Allocated output words**||1|
|**Accuracy**|**25°C**|(The larger of ±0.5% of converted value or ±2°C) ±1 digit max.*1|
||**0 to 60°C**|(The larger of ±1% of converted value or ±4°C) ±1 digit max.*2|
||**-20 to 0°C**|(The larger of ±1.3% of converted value or ±5°C) ±1 digit max.*2|
|**Conversion time**||500 ms for 12 input points|
|**Converted temperature data**||16-bit binary data (4-digit hexadecimal)<br>2-decimal-place mode is not supported|
|**Isolation**||Photocouplers between any two input signals|
|**Current consumption**||5 VDC: 80 mA max., 24 VDC: 50 mA max.|
* 1 Accuracy for a K-type sensor at -100°C or less is ±4°C ±1 digit max.
* 2 Accuracy for a K-type sensor at -100°C or less is ±10°C ±1 digit max.
## **DIP Switch Settings**
With the Temperature Sensor Unit’s DIP switch, set the temperature unit and the temperature input range.
|SW1<br>ON<br>OFF<br>SW2|SW1<br>ON<br>OFF<br>SW2|||
|---|---|---|---|
|**SW**||**Setting**||
|1|Input type|ON|J|
|||OFF|K|
|2|Temperature unit|ON|°F|
|||OFF|°C|
|**Temperature input**|**Temperature input**|**Temperature input**|
|---|---|---|
|**Input type**|**Range (°C)**|**Range (°F)**|
|K|-200.0 to 1300.0|-300.0 to 2300.0|
|J|-100.0 to 850.0|-100.0 to 1500.0|
**40**
**CP2E**
**Dimensions**
**(Unit: mm)**
## **CPU Units with 14 or 20 I/O Points**
## **CP2E-N14/20D** @ **-** @
**==> picture [273 x 133] intentionally omitted <==**
**----- Start of picture text -----**<br>
86 80<br>76 8<br>110 100 90<br>**----- End of picture text -----**<br>
**==> picture [33 x 6] intentionally omitted <==**
**----- Start of picture text -----**<br>
Two, 4.5 dia.<br>**----- End of picture text -----**<br>
## **CP2E-E14/20D** @ **-** @
**==> picture [270 x 137] intentionally omitted <==**
**----- Start of picture text -----**<br>
8 6 80<br>7 6 8<br>110 100 90<br>**----- End of picture text -----**<br>
**==> picture [34 x 6] intentionally omitted <==**
**----- Start of picture text -----**<br>
Two, 4.5 dia.<br>**----- End of picture text -----**<br>
## **CPU Units with 30 I/O Points**
## **CP2E-N30D** @ **-** @
**==> picture [313 x 134] intentionally omitted <==**
**----- Start of picture text -----**<br>
130 80<br>120 8<br>110 100 90<br>**----- End of picture text -----**<br>
## **CP2E-E30D** @ **-** @ **, CP2E-S30D** @ **-** @
**==> picture [313 x 137] intentionally omitted <==**
**----- Start of picture text -----**<br>
130 80<br>120 8<br>110 100 90<br>**----- End of picture text -----**<br>
**41**
**CP2E**
## **CPU Units with 40 I/O Points CP2E-N40D** @ **-** @
**==> picture [328 x 141] intentionally omitted <==**
**----- Start of picture text -----**<br>
150 80<br>140 8<br>110 100 90<br>Four, 4.5 dia.<br>**----- End of picture text -----**<br>
## **CP2E-E40D** @ **-** @ **, CP2E-S40D** @ **-** @
**==> picture [342 x 136] intentionally omitted <==**
**----- Start of picture text -----**<br>
150 80<br>140 8<br>110 100 90<br>**----- End of picture text -----**<br>
**==> picture [35 x 6] intentionally omitted <==**
**----- Start of picture text -----**<br>
Four, 4.5 dia.<br>**----- End of picture text -----**<br>
## **CPU Units with 60 I/O Points**
## **CP2E-N60D** @ **-** @
**==> picture [382 x 144] intentionally omitted <==**
**----- Start of picture text -----**<br>
195 80<br>185 8<br>110 100 90<br>Four, 4.5 dia.<br>**----- End of picture text -----**<br>
## **CP2E-E60D** @ **-** @ **, CP2E-S60D** @ **-** @
**==> picture [383 x 144] intentionally omitted <==**
**----- Start of picture text -----**<br>
195 80<br>185 8<br>110 100 90<br>Four, 4.5 dia.<br>**----- End of picture text -----**<br>
**42**
**CP2E**
## **Expansion I/O Units and Expansion Units**
## **CP1W-8E** @@
**==> picture [5 x 5] intentionally omitted <==**
**----- Start of picture text -----**<br>
5<br>**----- End of picture text -----**<br>
**==> picture [150 x 83] intentionally omitted <==**
**----- Start of picture text -----**<br>
100±0.2<br>90<br>8ED<br>os[os1 06| ] oF] EXP H BSa | =)i<br>—<br>56±0.2 5 Two, 4.5 dia. 8<br>66 50<br>**----- End of picture text -----**<br>
## **CP1W-20ED** @ **/CP1W-16E** @@ **/CP1W-AD04** @ **/CP1W-DA021/CP1W-DA04** @ **/CP1W-MAD** @@ **/ CP1W-TS** @@ **1/** @@ **2/** @@ **3**
**==> picture [195 x 135] intentionally omitted <==**
**----- Start of picture text -----**<br>
AS p | 5<br>[N c_[ cow a.<br>be fe 4ie [cowpepe [| cow [os [06 [ com]c——H wya a)<br>100±0.2<br>16ER 90<br>[xc7[coucn| or | os" | com | 06 [nc | EXP BSa d<br>— Do S#229888 K | ‘i|<br>Ww 1WY|<br>76±0.2 5 Two, 4.5 dia. 8<br>86 50<br>**----- End of picture text -----**<br>
## **CP1W-40ED** @ **/CP1W-32E** @@ **/CP1W-TS004**
**==> picture [297 x 135] intentionally omitted <==**
**----- Start of picture text -----**<br>
150 50<br>140 8<br>Gs©) ()i i<br>a a<br>ee i)<br>110 100 90 40EDR<br>| Os Cle Ce x |<br>B EES |<br>a [os TT BP IAa =<br>a A a<br>_ |<br>gy = ae)<br>Four, 4.5 dia.<br>**----- End of picture text -----**<br>
**43**
**CP2E**
## **Comparison of specifications of CP2E and CP1E**
|**Specifications**|**CP2E**|**CP2E**|**CP2E**|**CP1E**|**CP1E**|**CP1E**|**CP1E**|
|---|---|---|---|---|---|---|---|
||**CP2E-N**@@|**CP2E-S**@@|**CP2E-E**@@|**CP1E-N**@@|**CP1E-N**@@**S**@|**CP1E-E**@@<br>**CP1E-E**@@**S**|**CP1E-NA20**|
|**Number of built-in**<br>**I/O points**|14/20/30/40/60|30/40/60|14/20/30/40/60|14/20/30/40/60|30/40/60|10/14/20/30/40/60|20|
|**Total number of**<br>**Expansion units**|14/20 points None<br>30/40/60 points 3 units|||14/20 points None<br>30/40/60 points 3 units||||
|**Lineup**<br>**Output/power**<br>**supply type**|• Relay/AC<br>• Relay/DC<br>• Transistor<br>(sinking)/AC<br>• Transistor<br>(sinking)/DC<br>• Transistor<br>(sourcing)/DC|• Relay/AC<br>• Transistor<br>(sinking)/DC<br>• Transistor<br>(sourcing)/DC|• Relay/AC|• Relay/AC<br>• Relay/DC<br>• Transistor<br>(sinking)/AC<br>• Transistor<br>(sourcing)/AC<br>• Transistor<br>(sinking)/DC<br>• Transistor<br>(sourcing)/DC|• Relay/AC<br>• Transistor<br>(sinking)/DC<br>• Transistor<br>(sourcing)/DC|• Relay/AC<br>Only 10 points<br>• Relay/DC<br>• Transistor<br>(sinking)/AC<br>• Transistor<br>(sourcing)/AC<br>• Transistor<br>(sinking)/DC<br>• Transistor<br>(sourcing)/DC|• Relay/AC<br>• Transistor<br>(sinking)/DC<br>• Transistor<br>(sourcing)/DC|
|**Program capacity**|10K steps|8K steps|4K steps|8K steps|8K steps|2K steps|8K steps|
|**FB capacity**|10K steps|8K steps|4K steps|None||||
|**Function block**<br>**steps**|Yes<br>Languages usable in function block definitions:<br>Ladder diagrams, structured text (ST)|||None||||
|**Overhead**<br>**processing time**|0.2 ms|0.15 ms|0.1 ms|0.4 ms||||
|**Instruction**<br>**execution times**|LD 0.23 µs<br>MOV 1.76 µs|||LD 1.19 µs<br>MOV 7.9 µs||||
|**Data memory**<br>**capacity**|16K words|8K words|4K words|8K words|8K words|2K words|8K words|
|**IO Memory backup**|Built-in non-volatile memory (Batteryless backup)|||Built-in SRAM (Battery backup)||||
|**Pulse outputs**|N14/20:<br>2 outputs 100 kHz<br>N30/40/60:<br>4 outputs 100 kHz<br>(Linear<br>interpolation<br>possible)|2 outputs<br>100 kHz|None|2 outputs<br>100kHz|2 outputs<br>100kHz|None|2 outputs<br>100kHz|
|**High-speed**<br>**counters**<br>**(Differential Phase)**|N14/20:<br>2 counters<br>(50 kHz, 5 kHz)<br>N30/40/60:<br>2 counters<br>(50 kHz x2)|2 counters (50 kHz, 5 kHz)||2 counters (50 kHz,5 kHz)||2 counters<br>(5 kHz x2)|2 counters<br>(50 kHz, 5 kHz)|
|**Quick-response**<br>**Interrupt inputs**|8 inputs<br>(6 inputs only for<br>14 points)|6 inputs||6 inputs<br>(4 inputs only for 10 points)||||
|**Ethernet port**|Included<br>N14/20: 1 port<br>N30/40/60: 2 port|None|None|None<br>N30/40/60 only:<br>1 port<br>(CP1W-CIF41 use)|None|None|1 port<br>(CP1W-CIF41 use)|
|**USB port**|None|Included|Included|Included||||
|**Serial port**|N14/20:<br>Max 2 port<br>(Option boards use)<br>N30/40/60:<br>Max 3 port<br>(Option boards use)|2 port<br>RS-232C<br>RS-485|1 port<br>RS-232C|N14/20:<br>1 port<br>RS-232C<br>N30/40/60:<br>Max 2 port<br>RS-232C<br>Option board|1 port<br>RS-232C<br>N30/40/60<br>S1 Type only:<br>Max 2 port<br>RS-232C<br>RS-485|None|Max 2 port<br>RS-232C<br>Option board|
|**Serial**<br>**communication**<br>**protocols**|Host Link<br>1: N NT Link (1: N)<br>No-protocol mode<br>Serial PLC Link (master, slave)<br>Modbus-RTU easy master<br>Modbus-RTU Slave|||Host Link<br>1: N NT Link (1: N)<br>No-protocol mode<br>Serial PLC Link (master, slave)<br>Modbus-RTU easy master||||
|**Option Boards**|N14/20: 1 unit<br>N30/40/60: 2 units|None|None|N14/20: None<br>N30/40/60: 1 unit|None|None|1 unit|
|**Clock function**|Yes|Yes|None|Yes|Yes|None|Yes|
|**Corresponding**<br>**battery**|CP2W-BAT02<br>(for clock function)||None|CP1W-BAT01<br>(for clock function, IO memory backup)||None|CP1W-BAT01|
|**Built-in analog**|None|||None|||Analog input<br>2channels<br>Analog output<br>1channel|
|**Analog adjusters**|None|None|None|Yes|None|E@@: Yes<br>E@@S: None|Yes|
|**Ambient operating**<br>**temperature**|-20 to 60 °C|||0 to 55 °C||||
**44**
**CP2E**
**Easy to convert CP1E code into CP2E code**
Uploaded CP1E code can be converted into CP2E code with just one click.
CP1E CP2E © ~~=~~ Cx-One Ver 4.51 or higher Cp-programmer Ver 9.72 or higher
## **Examples of replacement of CP1E with CP2E**
|**CP1E-E**@@**/E**@@**S**|**CP2E-E**@@|
|---|---|
|CP1E-E10D@-@|CP2E-E14DR-A or others|
|CP1E-E14SDR-A/E14DR-A|CP2E-E14DR-A|
|CP1E-E20SDR-A/E20DR-A|CP2E-E20DR-A|
|CP1E-E30SDR-A/E30DR-A|CP2E-E30DR-A|
|CP1E-E40SDR-A/E40DR-A|CP2E-E40DR-A|
|CP1E-E60SDR-A|CP2E-E60DR-A|
|||
|**CP1E-N**@@**S**|**CP2E-S**@@|
|CP1E-N30SD@-@/N30S1D@-@|CP2E-S30D@-@|
|CP1E-N40SD@-@/N40S1D@-@|CP2E-S40D@-@|
|CP1E-N60SD@-@/N60S1D@-@|CP2E-S60D@-@|
|**CP1E-N**@@<br>~~FP~~|**CP2E-S**@@ ***1**<br>~~FP~~|**CP2E-N**@@ ***1**|
|---|---|---|
|CP1E-N14D@-@<br>~~FP~~|-<br>~~FPPr~~|CP2E-N14D@-@|
|CP1E-N20D@-@|-<br>~~Pr~~|CP2E-N20D@-@|
|CP1E-N30D@-@|CP2E-S30D@-@<br>~~po~~|CP2E-N30D@-@|
|CP1E-N40D@-@|CP2E-S40D@-@<br>~~po~~<br>~~pO~~|CP2E-N40D@-@|
|CP1E-N60D@-@<br>~~Pp~~|CP2E-S60D@-@<br>~~pO~~<br>~~pO~~<br>~~Pp~~|CP2E-N60D@-@|
|CP1E-NA20@-@<br>~~Pp~~|-<br>~~pO~~<br>~~Pp~~|CP2E-N30D@-@+ CP1W-MAB221 or others|
*1. When the AC powered N30/40/60 CPU Unit with relay outputs, or the DC powered N30/40/60 CPU Unit with transistor outputs is used without an option board or with the CP1W-CIF11 Option Board, it is recommended to replace with the CP2E-S @@ . When any of the other CPU units is used with an option board, it is recommended to replace with the CP2E-N @@ . For details, refer to the _Replacement Guide from CP1E to CP2E_ (Cat. No. P150).
**45**
**CP2E**
## **Related Manuals**
|**Manual name**|**Cat. No.**|**Model numbers**|**Application**|**Contents**|
|---|---|---|---|---|
|SYSMAC CP Series<br>CP2E CPU Unit<br>Hardware User’s<br>Manual|W613|CP2E-E@@D@-@<br>CP2E-S@@D@-@<br>CP2E-N@@D@-@|To learn the hardware<br>specifications of the CP2E PLCs|Describes the following information for<br>CP2E PLCs.<br>• Overview and features<br>• Basic system configuration<br>• Part names and functions<br>• Installation and settings<br>• Troubleshooting|
|SYSMAC CP Series<br>CP2E CPU Unit<br>Software User’s<br>Manual|W614|CP2E-E@@D@-@<br>CP2E-S@@D@-@<br>CP2E-N@@D@-@|To learn the software<br>specifications of the CP2E PLCs|Describes the following information for<br>CP2E PLCs.<br>• CPU Unit operation<br>• Internal memory<br>• Programming<br>• Settings<br>• CPU Unit built-in functions<br>• Interrupts<br>• High-speed counter inputs<br>• Pulse outputs<br>• Serial communications<br>• Ethernet<br>• Other functions|
|SYSMAC CP Series<br>CP1E/CP2E CPU Unit<br>Instructions<br>Reference Manual|W483|CP1E-E@@D@-@<br>CP1E-N@@D@-@<br>CP1E-NA@@D@-@<br>CP2E-E@@D@-@<br>CP2E-S@@D@-@<br>CP2E-N@@D@-@|To learn programming instructions<br>in detail|Describes each programming instruction<br>in detail.|
|CS/CJ/CP/NSJ Series<br>Communications<br>Commands<br>Reference Manual|W342|CS1G/H-CPU@@H<br>CS1G/H-CPU@@-V1<br>CS1D-CPU@@H<br>CS1D-CPU@@S<br>CS1W-SCU@@-V1<br>CS1W-SCB@@-V1<br>CJ1G/H-CPU@@H<br>CJ1G-CPU@@P<br>CJ1M-CPU@@<br>CJ1G-CPU@@<br>CJ1W-SCU@@-V1|To learn communications<br>commands for CS/CJ/CP/NSJ-<br>series Controllers in detail|Describes<br>1) C-mode commands and<br>2) FINS commands in detail.<br>Read this manual for details on C-mode<br>and FINS commands addressed to CPU<br>Units.|
|CX-One FA Integrated<br>Tool Package Setup<br>Manual|W463|CXONE-AL@@D-V4|To install the software provided in<br>the CX-One|Describes the overview of the CX-One<br>FA Integrated Tool Package, and how to<br>install and uninstall the CX-One.|
|CX-Programmer<br>Operation Manual|W446||To learn the operation procedures<br>for the CX-Programmer, the<br>Programming Device for Windows<br>computers|Describes the operation procedures for<br>the CX-Programmer.|
|CX-Programmer<br>Operation Manual<br>(Function Blocks/<br>Structured Text)|W447||||
|CX-Simulator<br>Operation Manual|W366||To learn the operation procedures<br>for the CX-Simulator, the<br>Simulation Device for Windows<br>computers|Describes the operation procedures for<br>the CX-Simulator.|
|CX-Integrator<br>Operation Manual|W464||To set up and monitor networks|Describes the operation procedures for<br>the CX-Integrator.|
Microsoft, Windows are either registered trademarks or trademarks of Microsoft Corporation in the United States and other countries. Other company names and product names in this document are the trademarks or registered trademarks of their respective companies. The product photographs and figures that are used in this catalog may vary somewhat from the actual products.
**46**
## **Terms and Conditions Agreement**
## **Read and understand this catalog.**
Please read and understand this catalog before purchasing the products. Please consult your OMRON representative if you have any questions or comments.
## **Warranties.**
(a) Exclusive Warranty. Omron’s exclusive warranty is that the Products will be free from defects in materials and workmanship for a period of twelve months from the date of sale by Omron (or such other period expressed in writing by Omron). Omron disclaims all other warranties, express or implied.
(b) Limitations. OMRON MAKES NO WARRANTY OR REPRESENTATION, EXPRESS OR IMPLIED, ABOUT NON-INFRINGEMENT, MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE OF THE PRODUCTS. BUYER ACKNOWLEDGES THAT IT ALONE HAS DETERMINED THAT THE PRODUCTS WILL SUITABLY MEET THE REQUIREMENTS OF THEIR INTENDED USE.
Omron further disclaims all warranties and responsibility of any type for claims or expenses based on infringement by the Products or otherwise of any intellectual property right. (c) Buyer Remedy. Omron’s sole obligation hereunder shall be, at Omron’s election, to (i) replace (in the form originally shipped with Buyer responsible for labor charges for removal or replacement thereof) the non-complying Product, (ii) repair the non-complying Product, or (iii) repay or credit Buyer an amount equal to the purchase price of the non-complying Product; provided that in no event shall Omron be responsible for warranty, repair, indemnity or any other claims or expenses regarding the Products unless Omron’s analysis confirms that the Products were properly handled, stored, installed and maintained and not subject to contamination, abuse, misuse or inappropriate modification. Return of any Products by Buyer must be approved in writing by Omron before shipment. Omron Companies shall not be liable for the suitability or unsuitability or the results from the use of Products in combination with any electrical or electronic components, circuits, system assemblies or any other materials or substances or environments. Any advice, recommendations or information given orally or in writing, are not to be construed as an amendment or addition to the above warranty.
See http://www.omron.com/global/ or contact your Omron representative for published information.
## **Limitation on Liability; Etc.**
OMRON COMPANIES SHALL NOT BE LIABLE FOR SPECIAL, INDIRECT, INCIDENTAL, OR CONSEQUENTIAL DAMAGES, LOSS OF PROFITS OR PRODUCTION OR COMMERCIAL LOSS IN ANY WAY CONNECTED WITH THE PRODUCTS, WHETHER SUCH CLAIM IS BASED IN CONTRACT, WARRANTY, NEGLIGENCE OR STRICT LIABILITY.
Further, in no event shall liability of Omron Companies exceed the individual price of the Product on which liability is asserted.
## **Suitability of Use.**
Omron Companies shall not be responsible for conformity with any standards, codes or regulations which apply to the combination of the Product in the Buyer’s application or use of the Product. At Buyer’s request, Omron will provide applicable third party certification documents identifying ratings and limitations of use which apply to the Product. This information by itself is not sufficient for a complete determination of the suitability of the Product in combination with the end product, machine, system, or other application or use. Buyer shall be solely responsible for determining appropriateness of the particular Product with respect to Buyer’s application, product or system. Buyer shall take application responsibility in all cases.
NEVER USE THE PRODUCT FOR AN APPLICATION INVOLVING SERIOUS RISK TO LIFE OR PROPERTY OR IN LARGE QUANTITIES WITHOUT ENSURING THAT THE SYSTEM AS A WHOLE HAS BEEN DESIGNED TO ADDRESS THE RISKS, AND THAT THE OMRON PRODUCT(S) IS PROPERLY RATED AND INSTALLED FOR THE INTENDED USE WITHIN THE OVERALL EQUIPMENT OR SYSTEM.
## **Programmable Products.**
Omron Companies shall not be responsible for the user’s programming of a programmable Product, or any consequence thereof.
## **Performance Data.**
Data presented in Omron Company websites, catalogs and other materials is provided as a guide for the user in determining suitability and does not constitute a warranty. It may represent the result of Omron’s test conditions, and the user must correlate it to actual application requirements. Actual performance is subject to the Omron’s Warranty and Limitations of Liability.
## **Change in Specifications.**
Product specifications and accessories may be changed at any time based on improvements and other reasons. It is our practice to change part numbers when published ratings or features are changed, or when significant construction changes are made. However, some specifications of the Product may be changed without any notice. When in doubt, special part numbers may be assigned to fix or establish key specifications for your application. Please consult with your Omron’s representative at any time to confirm actual specifications of purchased Product.
## **Errors and Omissions.**
Information presented by Omron Companies has been checked and is believed to be accurate; however, no responsibility is assumed for clerical, typographical or proofreading errors or omissions.
## **Note: Do not use this document to operate the Unit.**
**OMRON Corporation Industrial Automation Company Kyoto, JAPAN**
**Contact : www.ia.omron.com**
## **Authorized Distributor:**
## _**Regional Headquarters**_
## **OMRON EUROPE B.V.**
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**OMRON ASIA PACIFIC PTE. LTD.**
438B Alexandra Road, #08-01/02 Alexandra Technopark, Singapore 119968 Tel: (65) 6835-3011 Fax: (65) 6835-3011
## **OMRON ELECTRONICS LLC**
2895 Greenspoint Parkway, Suite 200 Hoffman Estates, IL 60169 U.S.A. Tel: (1) 847-843-7900 Fax: (1) 847-843-7787
## **OMRON (CHINA) CO., LTD.**
Room 2211, Bank of China Tower, 200 Yin Cheng Zhong Road, PuDong New Area, Shanghai, 200120, China Tel: (86) 21-6023-0333 Fax: (86) 21-5037-2388
©OMRON Corporation 2019-2024 All Rights Reserved. In the interest of product improvement, specifications are subject to change without notice.
**CSM_2_7**
**Cat. No. P145-E1-06** 0924 (0919)
Updated at April 22, 2026
With a legacy spanning over 80 years, Omron Industrial Automation is a globally recognized leader in the manufacture of advanced industrial control and automation components. Renowned for their reliability and engineering excellence, Omron delivers comprehensive solutions that enhance efficiency, machine safety, and precision across a wide range of manufacturing environments. Our extensive portfolio of Omron products is heavily focused on their industry-leading sensing and switching technologies. We offer a vast selection of sensors, excelling specifically in high-performance proximity sensors, light sensors, and temperature sensors. Complementing this range are robust switching solutions, featuring a deep inventory of power relays, solid-state relays, safety relays, and essential relay accessories designed for demanding operational requirements. Beyond sensing and switching, Omron is highly regarded for its precision automation and process control equipment. Our selection features highly accurate temperature controllers, versatile process controllers, and sophisticated panel displays and instrumentation. To support these fundamental systems, we also supply dependable Omron power supplies, notably AC/DC converters, alongside vital connectivity components like DIN rail terminal blocks to ensure secure, efficient, and complete industrial setups.
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