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CP1W-DAM01.
OPTION MODULE, CONTROLLER, 4 LINE LCD
⚠️ 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
- Current Rating:-; Product Range:- 08R7470
- Product Range: -
- Current Rating: -
| Delivery and price | |
|---|---|
| Units per pack | 1 |
| Price | 176.27 € |
| Current stock | 10+ |
| Lead time | 30 days |
Datasheet
## **CP series CP1L CPU Unit CP1L-EM** @@ **D** @ **-D/CP1L-EL** @@ **D** @ **-D CP1L-M** @@ **D** R-A/C **P1L-L** @@ **D** R-A
## **High Performing Programmable Controller with Embedded Ethernet**
- "CP1L-EM" and "CP1L-EL" has a standard-feature Ethernet port.
- "CP1L-M" and "CP1L-L" has a standard-feature peripheral USB port.
- Function blocks (FB) allow you to build up modular structure and programming of ladder diagrams.
**==> picture [374 x 15] intentionally omitted <==**
**----- Start of picture text -----**<br>
CP1L-EL CPU Units CP1L-EM CPU Units CP1L-L CPU Units CP1L-M CPU Units<br> with 20 Points with 40 Points with 10 Points with 60 Points<br>**----- End of picture text -----**<br>
## **Features**
- "CP1L-EM" and "CP1L-EL" have complete with a Ethernet port.
- Pulse output for two axes. Advanced power for high-precision positioning control.
- High-speed Counters. Single-phase for four axes.
- Six interrupt inputs are built in. Faster processing of instructions speeds up the entire system.
- Serial Communications. Two ports. Select Option Boards for either RS-232C or RS-485 communications.
- "CP1L-M" and "CP1L-L" have a peripheral USB port.
- The Structured Text (ST) Language. Makes math operations even easier.
- Can be used for the CP1W series Unit. The extendibility of it is preeminently good.
- LCD displays and settings. Enabled using Option Board.
**1**
**CP1L**
## **Model Number Structure**
■ **Model Number Legend(Not all models that can be represented with the model number legend can necessarily be produced.) - CP1L-** @@@ **D** @ @
- (1) (2) (3) (4) (5)
1. Expansion capability 3. Number of Built-In number I/O points 4. Output classification E : Ethernet port 60 : 60 I/O points R : Relay outputs None : - 40 : 40 I/O points T : Transistor Outputs (sinking)
2. Program capacity 30 : 30 I/O points T1 : Transistor Outputs (sourcing) M : 10K steps 20 : 20 I/O points 5. Power supply L : 5K steps 14 : 14 I/O points A : AC 10 : 10 I/O points D : DC
## **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 Units**
## **Built-in Ethernet port**
|**CPU Unit**|**Specifications**|**Specifications**|**Specifications**|**Specifications**|**Specifications**|**Model**|
|---|---|---|---|---|---|---|
||**CPU type**|**Power supply**|**Output method**|**Inputs**|**Outputs**||
|**CP1L-EM CPU Units with 40 Points**|**Memory capacity: 10K steps**<br>**High-speed counters:**<br>**100 kHz, 4 axes**<br>**Pulse outputs: 100 kHz, 2 axes (Mod-**<br>**els with transistor outputs only)**|DC power supply|Relay output|24|16|**CP1L-EM40DR-D**|
||||Transistor output<br>(sinking)|||**CP1L-EM40DT-D**|
||||Transistor output<br>(sourcing)|||**CP1L-EM40DT1-D**|
|**CP1L-EM CPU Units with 30 Points**|**Memory capacity: 10K steps**<br>**High-speed counters:**<br>**100 kHz, 4 axes**<br>**Pulse outputs: 100 kHz, 2 axes (Mod-**<br>**els with transistor outputs only)**|DC power supply|Relay output|18|12|**CP1L-EM30DR-D**|
||||Transistor output<br>(sinking)|||**CP1L-EM30DT-D**|
||||Transistor output<br>(sourcing)|||**CP1L-EM30DT1-D**|
|**CP1L-EL CPU Units with 20 Points**|**Memory capacity: 5K steps**<br>**High-speed counters:**<br>**100 kHz, 4 axes**<br>**Pulse outputs: 100 kHz, 2 axes (Mod-**<br>**els with transistor outputs only)**|DC power supply|Relay output|12|8|**CP1L-EL20DR-D**|
||||Transistor output<br>(sinking)|||**CP1L-EL20DT-D**|
||||Transistor output<br>(sourcing)|||**CP1L-EL20DT1-D**|
## **Built-in USB port**
|**CPU Unit**|**CPU Unit**||**Specifications**|**Specifications**|**Specifications**|**Specifications**|**Model**|
|---|---|---|---|---|---|---|---|
|||**CPU type**|**Power supply**|**Output method**|**Inputs**|**Outputs**||
|**CP1L-M CPU Units w**|**ith 60 Points**|**Memory capacity: 10K steps**<br>**High-speed counters:**<br>**100 kHz, 4 axes**<br>**Pulse outputs: 100 kHz, 2 axes**<br>**(Models with transistor outputs only)**|AC power supply|Relay output|36|24|**CP1L-M60DR-A**|
|||||Transistor output<br>(sinking)|||**CP1L-M60DT-A**|
||||DC power supply|Relay output|||**CP1L-M60DR-D**|
|||||Transistor output<br>(sinking)|||**CP1L-M60DT-D**|
|||||Transistor output<br>(sourcing)|||**CP1L-M60DT1-D**|
|**CP1L-M CPU Units w**|**ith 40 Points**|**Memory capacity: 10K steps**<br>**High-speed counters:**<br>**100 kHz, 4 axes**<br>**Pulse outputs: 100 kHz, 2 axes**<br>**(Models with transistor outputs only)**|AC power supply|Relay output|24|16|**CP1L-M40DR-A**|
|||||Transistor output<br>(sinking)|||**CP1L-M40DT-A**|
||||DC power supply|Relay output|||**CP1L-M40DR-D**|
|||||Transistor output<br>(sinking)|||**CP1L-M40DT-D**|
|||||Transistor output<br>(sourcing)|||**CP1L-M40DT1-D**|
|**CP1L-M CPU Units w**|**ith 30 Points**|**Memory capacity: 10K steps**<br>**High-speed counters:**<br>**100 kHz, 4 axes**<br>**Pulse outputs: 100 kHz, 2 axes**<br>**(Models with transistor outputs only)**|AC power supply|Relay output|18|12|**CP1L-M30DR-A**|
|||||Transistor output<br>(sinking)|||**CP1L-M30DT-A**|
||||DC power supply|Relay output|||**CP1L-M30DR-D**|
|||||Transistor output<br>(sinking)|||**CP1L-M30DT-D**|
|||||Transistor output<br>(sourcing)|||**CP1L-M30DT1-D**|
Windows are either registered trademarks or trademarks of Microsoft Corporation in the United States and/or other countries. EtherNet/IP[TM] is the trademarks of ODVA.
Other company names and product names in this document are the trademarks or registered trademarks of their respective companies.
**2**
**CP1L**
|**CPU Unit**<br>~~i~~|**Specifications**<br>~~ee~~|**Specifications**<br>~~ee~~|**Specifications**<br>~~ee~~|**Specifications**<br>~~ee~~|**Specifications**<br>~~ee~~|**Model**<br>~~ee~~<br>~~ee~~|
|---|---|---|---|---|---|---|
||**CPU type**<br>~~ee~~|**Power supply**<br>~~ee~~<br>~~a~~|**Output method**<br>~~ee~~|**Inputs**<br>~~ee~~|**Outputs**<br>~~ee~~||
|**CP1L-L CPU Units with 20 Points**<br>~~i~~|**Memory capacity: 5K steps**<br>**High-speed counters:**<br>**100 kHz, 4 axes**<br>**Pulse outputs: 100 kHz, 2 axes**<br>**(Models with transistor outputs only)**|AC power<br>supply|Relay output|12|8|**CP1L-L20DR-A**<br>~~ee~~|
||||Transistor output<br>(sinking)|||**CP1L-L20DT-A**|
|||DC power<br>supply|Relay output|||**CP1L-L20DR-D**|
||||Transistor output<br>(sinking)|||**CP1L-L20DT-D**|
||||Transistor output<br>(sourcing)|||**CP1L-L20DT1-D**|
|**CP1L-L CPU Units with 14 Points**<br>:|**Memory capacity: 5K steps**<br>**High-speed counters:**<br>**100 kHz, 4 axes**<br>**Pulse outputs: 100 kHz, 2 axes**<br>**(Models with transistor outputs only)**|AC power<br>supply|Relay output|8|6<br>~~PF~~|**CP1L-L14DR-A**|
||||Transistor output<br>(sinking)|||**CP1L-L14DT-A**|
|||DC power<br>supply<br>~~P|~~|Relay output<br>~~P|~~|||**CP1L-L14DR-D**<br>~~PF~~|
||||Transistor output<br>(sinking)<br>~~P|~~|||**CP1L-L14DT-D**<br>~~PF~~|
||||Transistor output<br>(sourcing)<br>~~P|~~|||**CP1L-L14DT1-D**<br>~~PF~~|
|**CP1L-L CPU Units with 10 Point**<br>tsb|**Memory capacity: 5K steps**<br>**High-speed counters:**<br>**100 kHz, 4 axes**<br>**Pulse outputs: 100 kHz, 2 axes**<br>**(Models with transistor outputs only)**|AC power<br>supply|Relay output|6|4<br>~~PF~~|**CP1L-L10DR-A**|
||||Transistor output<br>(sinking)|||**CP1L-L10DT-A**|
|||DC power<br>supply<br>~~|~~|Relay output<br>~~|~~|||**CP1L-L10DR-D**<br>~~PF~~|
||||Transistor output<br>(sinking)<br>~~|~~|||**CP1L-L10DT-D**<br>~~PF~~|
||||Transistor output<br>(sourcing)<br>~~|~~|||**CP1L-L10DT1-D**<br>~~PF~~|
**Note: 1.** Refer to "Models and Software Versions" about supported software.
**2.** Refer to "Option Unit Specifications" about supported Option Units.
|**Name**<br>~~es~~|**Specifications**<br>~~es~~|**Model**<br>~~es~~|
|---|---|---|
|**RS-232C Option Board**|Can be mounted in either CPU Unit Option Board slot 1 or 2. *1<br>~~|~~|**CP1W-CIF01**<br>~~|~~|
|**RS-422A/485 Option Board**||**CP1W-CIF11**|
|**RS-422A/485 (Isolated-type)**<br>**Option Board**||**CP1W-CIF12-V1**|
|**Ethernet Option Board**<br>~~A“~~|Can be mounted in either CPU Unit Option Board slot 1 or 2. *1 *2 *4<br>~~A“~~|**CP1W-CIF41**<br>|
|**Analog Input Option Board**<br>~~A“~~<br>~~ee~~|Can be mounted in either CPU Unit Option Board slot 1 or 2. *3<br>2 analog inputs. 0-10V(Resolution:1/4000), 0-20mA (Resolution:1/2000).<br>~~A“~~<br>|**CP1W-ADB21**<br><br>~~ee~~|
|**Analog Output Option Board**<br>~~A“~~<br>~~ee~~|Can be mounted in either CPU Unit Option Board slot 1 or 2. *3<br>2 analog outputs. 0-10V (Resolution:1/4000).<br>~~A“ee~~<br>~~ee~~|**CP1W-DAB21V**<br>~~ee~~<br>~~ee~~|
|**Analog I/O Option Board**<br>~~ee~~|Can be mounted in either CPU Unit Option Board slot 1 or 2. *3<br>2 analog inputs. 0-10V(Resolution:1/4000), 0-20mA(Resolution:1/2000).<br>2 analog outputs. 0-10V (Resolution:1/4000).<br>~~ee~~|**CP1W-MAB221**<br>~~ee~~|
|**LCD Option Board**<br>~~ee ~~<br>~~—~~<br>~~Ooeeeeaeses~~|Can be mounted only in the CPU Unit Option Board slot 1. *1<br> ~~ee~~<br>~~Ooeeeeaeses~~|**CP1W-DAM01**<br>~~ee~~<br>~~Ooeeeeaeses~~|
|**Memory Cassette**<br>~~—~~<br>~~Ooeeeeaeses~~|Can be used for backing up programs or auto-booting.<br>~~Ooeeeeaeses~~|**CP1W-ME05M**<br>~~Ooeeeeaeses~~|
- ***1.** Cannot be used for the CP1L-L10.
- ***2.** When using CP1W-CIF41 Ver.1.0, one Ethernet port can be added.
- ***3.** CP1L-EM / EL only.
- ***4.** Cannot be used for the CP1L-EM / EL.
**3**
**CP1L**
## ■ **Programming Devices**
|**Name**|**Specifications**|||**Model**|
|---|---|---|---|---|
|||**Number of**<br>**licenses**|**Media**||
|FA Integrated Tool<br>Package CX-One Lite<br>Version 4.@|CX-One Lite is a subset of the complete<br>CX-One package that provides only the Support Software required<br>for micro PLC applications.<br>CX-One Lite runs on the following OS.<br>OS: Windows XP (Service Pack 3 or higher, 32-bit version) / Windows<br>Vista (32-bit/64-bit version) / Windows 7 (32-bit/64-bit version) /<br>Windows 8 (32-bit/64-bit version) / Windows 8.1 (32-bit/64-bit<br>version) / Windows 10 (32-bit/64-bit version)<br>CX-One Lite Ver. 4.@includes Micro PLC Edition CX-Programmer<br>Ver. 9.@.|1 license|DVD|**CXONE-LT01D-V4**|
|**FA Integrated Tool**<br>**Package CX-One**<br>**Ver. 4.**@|CX-One is a package that integrates the Support Software for<br>OMRON PLCs and components. CX-One runs on the following OS.<br>OS: Windows XP (Service Pack 3 or higher, 32-bit version) / Windows<br>Vista (32-bit/64-bit version) / Windows 7 (32-bit/64-bit version) /<br>Windows 8 (32-bit/64-bit version) / Windows 8.1 (32-bit/64-bit<br>version) / Windows 10 (32-bit/64-bit version)<br>CX-One Ver. 4.@includes CX-Programmer Ver. 9.@.|1 license *1|DVD|**CXONE-AL01D-V4**|
|**Programming Device**<br>**Connecting Cable for**<br>**CP1W-CIF01 RS-232C**<br>**Option Board *2**|Connects Personal Computers, D-Sub 9-pin (Length: 2.0 m)|For anti-static connectors||**XW2Z-200S-CV**|
||Connects Personal Computers, D-Sub 9-pin (Length: 5.0 m)|||**XW2Z-500S-CV**|
||Connects Personal Computers, D-Sub 9-pin (Length: 2.0 m)|||**XW2Z-200S-V**|
||Connects Personal Computers, D-Sub 9-pin (Length: 5.0 m)|||**XW2Z-500S-V**|
**Note: 1.** Refer to "Models and Software Versions" about supported software.
**2.** 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.
***2.** Cannot be used with a peripheral USB port.
To connect to a personal computer via a peripheral USB port, use commercially-available USB cable (A or B type, male).
The following tables lists the Support Software that can be installed from CX-One
|**Support Software in CX-One**|**CX-One Lite**<br>**Ver.4.**@|**CX-One**<br>**Ver.4.**@|**Support Software in CX-One**|**CX-One Lite**<br>**Ver.4.**@|**CX-One**<br>**Ver.4.**@|
|---|---|---|---|---|---|
|Micro PLC Edition CX-Programmer<br>Ver.9.@|Yes|No|CX-Drive<br>Ver.2.@|Yes|Yes|
|CX-Programmer<br>Ver.9.@|No|Yes|CX-Process Tool<br>Ver.5.@|No|Yes|
|CX-Integrator<br>Ver.2.@|Yes|Yes|Faceplate Auto-Builder for NS<br>Ver.3.@|No|Yes|
|Switch Box Utility<br>Ver.1.@|Yes|Yes|CX-Designer<br>Ver.3.@|Yes|Yes|
|CX-Protocol<br>Ver.1.@|No|Yes|NV-Designer<br>Ver.1.@|Yes|Yes|
|CX-Simulator<br>Ver.1.@|Yes|Yes|CX-Thermo<br>Ver.4.@|Yes|Yes|
|CX-Position<br>Ver.2.@|No|Yes|CX-ConfiguratorFDT<br>Ver.1.@|Yes|Yes|
|CX-Motion-NCF<br>Ver.1.@|No|Yes|CX-FLnet<br>Ver.1.@|No|Yes|
|CX-Motion-MCH<br>Ver.2.@|No|Yes|Network Configurator<br>Ver.3.@|Yes|Yes|
|CX-Motion<br>Ver.2.@|No|Yes|CX-Server<br>Ver.4.@|Yes|Yes|
**Note:** For details, refer to the CX-One Catalog (Cat. No: R134).
## ● **Models and Software Versions**
The following versions of the CX-One, CX-Programmer are required.
|**Model**|CX-One|**CX-Programmer**|
|---|---|---|
|CP1L-EM40@@-@<br>CP1L-EM30@@-@<br>CP1L-EL20@@-@<br>*1|Ver. 4.25 or higher|Ver. 9.40 or higher|
|CP1L-M60@@-@<br>*2|Ver. 2.11 or higher|Ver. 7.20 or higher|
|CP1L-M40@@-@<br>CP1L-M30@@-@<br>CP1L-M20@@-@<br>CP1L-L14@@-@<br>*2|Ver. 2.10 or higher|Ver. 7.10 or higher|
|CP1L-L10@@-@<br>*2|Ver. 2.13 or higher|Ver. 7.30 or higher|
***1.** Update The CX-Programmer version automatically from the website using CX-Programmer version 9.0 (included with CX-One version 4.0).
***2.** Update The CX-Programmer version automatically from the website using CX-Programmer version 7.0 (included with CX-One version 2.0).
**4**
**CP1L**
## ■ **Expansion Units**
|**Product name**||**Inputs**|**Outputs**|**Output type**||**Model**|
|---|---|---|---|---|---|---|
|**Input Unit**||8|--|24 VDC Input||**CP1W-8ED**|
|**Output Units**||--|8|Relay||**CP1W-8ER**|
|||||Transistor (sinking)||**CP1W-8ET**|
|||||Transistor (sourcing)||**CP1W-8ET1**|
|||--|16|Relay||**CP1W-16ER**|
|||||Transistor (sinking)||**CP1W-16ET**|
|||||Transistor (sourcing)||**CP1W-16ET1**|
|||--|32|Relay||**CP1W-32ER**|
|||||Transistor (sinking)||**CP1W-32ET**|
|||||Transistor (sourcing)||**CP1W-32ET1**|
|**I/O Units**||12|8|Relay||**CP1W-20EDR1**|
|||||Transistor (sinking)||**CP1W-20EDT**|
|||||Transistor (sourcing)||**CP1W-20EDT1**|
|||24|16|Relay||**CP1W-40EDR**|
|||||Transistor (sinking)||**CP1W-40EDT**|
|||||Transistor (sourcing)||**CP1W-40EDT1**|
|**Analog Input Unit**||4CH|--|Input range:<br>0 to 5 V, 1 to 5 V, 0 to 10 V, ±10 V, 0 to 20 mA, or 4<br>to 20 mA.|Resolution:<br>1/6000|**CP1W-AD041**|
||||||Resolution:<br>1/12000|**CP1W-AD042**|
|**Analog Output Unit**||--|2CH|Output range:<br>1 to 5 V, 0 to 10 V, ±10 V, 0 to 20 mA, or 4 to<br>20 mA.|Resolution:<br>1/6000|**CP1W-DA021**|
|||--|4CH||Resolution:<br>1/6000|**CP1W-DA041**|
||||||Resolution:<br>1/12000|**CP1W-DA042**|
|**Analog I/O Unit**||4CH|4CH|Input range:<br>0 to 5 V, 1 to 5 V, 0 to 10 V, ±10 V, 0 to 20 mA, or 4<br>to 20 mA.<br>Output range:<br>1 to 5 V, 0 to 10 V, ±10 V, 0 to 20 mA, or 4 to<br>20 mA.|Resolution:<br>1/12000|**CP1W-MAD44**|
|||4CH|2CH||Resolution:<br>1/12000|**CP1W-MAD42**|
|||2CH|1CH||Resolution:<br>1/6000|**CP1W-MAD11**|
|**Temperature Sensor Unit**||2CH|--|Sensor type: Thermocouple (J or K)||**CP1W-TS001**|
|||4CH|--|Sensor type: Thermocouple (J or K)||**CP1W-TS002**|
|||2CH|--|Sensor type: Platinum resistance thermometer<br>(Pt100 or JPt100)||**CP1W-TS101**|
|||4CH|--|Sensor type: Platinum resistance thermometer<br>(Pt100 or JPt100)||**CP1W-TS102**|
|||4CH|--|Sensor type: Thermocouple (J or K)<br>2 channels can be used as analog input.<br>Input range: 1 to 5 V, 0 to 10 V, 4-20 mA|Resolution:<br>1/12000|**CP1W-TS003**|
|||12CH|--|Sensor type: Thermocouple (J or K)||**CP1W-TS004**|
|**CompoBus/S**<br>**I/O Link Unit**||8|8|CompoBus/S slave||**CP1W-SRT21**|
**Note:** CP1L (L Type) CPU Units with 10 points do not support Expansion Units.
**5**
**CP1L**
## ■ **I/O Connecting Cable**
|**Name**|**Specifications**|**Model**|
|---|---|---|
|**I/O Connecting Cable**|80 cm (for CP1W Expansion Units)|**CP1W-CN811**|
**Note:** An I/O Connecting Cable (approx. 6 cm) for horizontal connection is provided with CP1W Expansion Units.
## ■ **Optional Products, Maintenance Products and DIN Track Accessories**
|**Name**|**Name**|**Specifications**|**Model**|
|---|---|---|---|
|**Battery Set**||For CPU Units<br>(Use batteries within two years of manufacture.)|**CJ1W-BAT01**|
|**D**|**IN Track**|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**|
## ■ **Industrial Switching Hubs**
|**Product name**|**Appearance**|**Specifications**|**Specifications**|**Specifications**|**Accesories**|**Current**<br>**consumption (A)**|**Model**|
|---|---|---|---|---|---|---|---|
|||**Functions**|**No. of**<br>**ports**|**Failure**<br>**detection**||||
|**Industrial**<br>**Switching Hubs**||Quality of Service (QoS):<br>EtherNet/IPTMcontrol data priority<br>Failure detection:<br>Broadcast storm and LSI error<br>detection 10/100BASE-TX, Auto-<br>Negotiation|3|No|• Power supply<br>connector|0.22|**W4S1-03B**|
||||5|No||0.22|**W4S1-05B**|
||||5|Yes|• Power supply<br>connector<br>• Connector for<br>informing error|0.22|**W4S1-05C**|
## **General Specifications**
|**Type**|**AC power supply models**|**DC power supply models**|
|---|---|---|
|**Item**<br>**Model**|**CP1L-**@@@**-A**|**CP1L-**@@@**-D**|
|**Power supply**|100 to 240 VAC 50/60 Hz|24 VDC|
|**Operating voltage range**|85 to 264 VAC|20.4 to 26.4 VDC|
|**Power consumption**|50 VA max. (CP1L-M60/-M40/-M30@@-A)<br>30 VA max. (CP1L-L20/-L14/-L10@@-A)|20 W max. (CP1L-EM40/-EM30/-M60/-M40/-M30@@-D)<br>13 W max. (CP1L-EL20/-L20/-L14/-L10@@-D)|
|**Inrush current ***|100 to 120 VAC inputs:<br>20 A max. (for cold start at room temperature)<br>8 ms max.<br>200 to 240 VAC inputs:<br>40 A max. (for cold start at room temperature), 8 ms max.|30 A max. (for cold start at room temperature)<br>20 ms max.|
|**External power supply**|300 mA at 24 VDC (CP1L-M60/-M40/-M30@@-A)<br>200 mA at 24 VDC (CP1L-L20/-L14/-L10@@-A)|None|
|**Insulation resistance**|20 MΩmin. (at 500 VDC) between the external AC terminals<br>and GR terminals|No insulation between primary and secondary for DC power<br>supply|
|**Dielectric strength**|2,300 VAC at 50/60 Hz for 1 min between the external AC and<br>GR terminals, leakage current: 5 mA max.|No insulation between primary and secondary for DC power<br>supply|
|**Noise immunity**|Conforms to IEC 61000-4-4. 2 kV (power supply line)||
|**Vibration resistance**|CP1L-L/M:<br>Conforms to JIS C60068-2-6. 10 to 57 Hz, 0.075-mm amplitude, 57 to 150 Hz, acceleration: 9.8 m/s2in X, Y, and Z directions for<br>80 minutes each. Sweep time: 8 minutes×10 sweeps = total time of 80 minutes)<br>CP1L-EL/EM:<br>5 to 8.4 Hz, 3.5 mm amplitude, 8.4 to 150 Hz, acceleration: 9.8 m/s2in X, Y, and Z directions for 100 minutes each (time coefficient<br>of 10 minutes×coefficient factor of 10 = total time of 100 minutes)||
|**Shock resistance**|Conforms to JIS C60068-2-27. 147 m/s2three times each in X, Y, and Z directions||
|**Ambient operating tempera-**<br>**ture**|0 to 55°C||
|**Ambient humidity**|10% to 90% (with no condensation)||
|**Ambient operating environ-**<br>**ment**|No corrosive gas||
|**Ambient storage temperature**|−20 to 75°C (Excluding battery.)||
|**Power holding time**|10 ms min.|2 ms min.|
***** The above values are for a cold start at room temperature for an AC power supply, and for a cold start for a DC power supply.
• A thermistor (with low-temperature current suppression characteristics) is used in the inrush current control circuitry for the AC power supply. The thermistor will not be sufficiently cooled if the ambient temperature is high or if a hot start is performed when the power supply has been OFF for only a short time. In those cases the inrush current values may be higher (as much as two times higher) than those shown above. Always allow for this when selecting fuses and breakers for external circuits.
• A capacitor charge-type delay circuit is used in the inrush current control circuitry for the DC power supply. The capacitor will not be charged if a hot start is performed when the power supply has been OFF for only a short time, so in those cases the inrush current values may be higher (as much as two times higher) than those shown above.
**6**
**CP1L**
## **Performance Specifications**
## ● **CP1L CPU Unit (EM/EL Type)**
|**Type**|**Type**|**Type**|**CP1L-EM40 (40 points)**|**CP1L-EM30 (30 points)**|**CP1L-EL20 (20 points)**|
|---|---|---|---|---|---|
|**Item**<br>**Models**|||**CP1L-EM40D**@**-**@|**CP1L-EM30D**@**-**@|**CP1L-EL20D**@**-**@|
|**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: 128 Maximum number of instances: 256<br>Languages usable in function block definitions: Ladder diagrams, structured text (ST)|||
|**Instruction length**|||1 to 7 steps per instruction|||
|**Instructions**|||Approx. 500 (function codes: 3 digits)|||
|**Instruction execution time**|||Basic instructions: 0.55μs min. Special instructions: 4.1μs min.|||
|**Common processing time**|||0.4ms|||
|**Program capacity**|||10K steps||5K steps|
||**FB program memory**||10K steps|||
|**Number of tasks**|||288 (32 cyclic tasks and 256 interrupt tasks)|||
||**Scheduled interrupt tasks**||1 (interrupt task No. 2, fixed)|||
||**Input interrupt tasks**||6 (interrupt task No. 140 to 145, fixed)|||
||||(High-speed counter interrupts and interrupt tasks specified by external interrupts can also be executed.)|||
|**Maximum subroutine number**|||256|||
|**Maximum jump number**|||256|||
|**I/O areas**|**Input Area**||1,600 bits (100 words) CIO 0 to CIO 99|||
|||**Built-in Input Area**|24 bits: CIO 0.00 to CIO 0.11 and<br>CIO 1.00 to CIO 1.11|18 bits: CIO 0.00 to CIO 0.11 and<br>CIO 1.00 to CIO 1.05|12 bits: CIO 0.00 to CIO 0.11|
||**Output**|**Area**|1,600 bits (100 words) CIO 100 to CIO 199|||
|||**Built-in Output**<br>**Area**|16 bits: CIO 100.00 to CIO 100.07<br>and CIO 101.00 to CIO 101.07|12 bits: CIO 100.00 to CIO 100.07<br>and CIO 101.00 to CIO 101.03|8 bits: CIO 100.00 to CIO 100.07|
||**1:1 Link Area**||256 bits (16 words): CIO 3000.00 to CIO 3015.15 (CIO 3000 to CIO 3015)|||
||**Serial PLC Link Area**||1,440 bits (90 words): CIO 3100.00 to CIO 3189.15 (CIO 3100 to CIO 3189)|||
|**Work bits**|||4,800 bits (300 words): CIO 1200.00 to CIO 1499.15 (words CIO 1200 to CIO 1499)<br>6,400 bits (400 words): CIO 1500.00 to CIO 1899.15 (words CIO 1500 to CIO 1899)<br>15,360 bits (960 words): CIO 2000.00 to CIO 2959.15 (words CIO 2000 to CIO 2959)<br>9,600 bits (600 words): CIO 3200.00 to CIO 3799.15 (words CIO 3200 to CIO 3799)<br>37,504 bits (2,344 words): CIO 3800.00 to CIO 6143.15 (words CIO 3800 to CIO 6143)|||
|**TR Area**|||16 bits: TR0 to TR15|||
|**Holding Area**|||8,192 bits (512 words): H0.00 to H511.15 (H0 to H511)|||
|**AR Area**|||Read-only (Write-prohibited): 7168 bits (448 words): A0.00 to A447.15 (A0 to A447)<br>Read/Write: 8192 bits (512 words): A448.00 to A959.15 (A448 to A959)|||
|**Timers**|||4,096 timer numbers: T0 to T4095|||
|**Counters**|||4,096 counter numbers: C0 to C4095|||
|**DM Area**|||32 Kwords: D0 to D32767||10 Kwords: D0 to D9999, D32000<br>to D32767|
|**Data Register Area**|||16 registers (16 bits): DR0 to DR15|||
|**Index Register Area**|||16 registers (32 bits): IR0 to IR15|||
|**Task Flag Area**|||32 flags (32 bits): TK0000 to TK0031|||
|**Trace Memory**|||4,000 words (500 samples for the trace data maximum of 31 bits and 6 words.)|||
|**Memory Cassette**|||A special Memory Cassette (CP1W-ME05M) can be mounted.<br>**Note:**Can be used for program backups and auto-booting.|||
|**Clock function**|||Supported. Accuracy (monthly deviation): -4.5 min to -0.5 min (ambient temperature: 55°C),<br>-2.0 min to +2.0 min (ambient temperature: 25°C), -2.5 min to +1.5 min (ambient temperature: 0°C)|||
|**Communications functions**|||Built-in Ethernet Port (Connecting Support Software, Message Communications, Socket Service)|||
||||A maximum of two Serial Communications Option Boards can be<br>mounted.||A maximum of one Serial<br>Communications Option Board can<br>be mounted.|
|**Memory backup**|||Flash memory: User programs, parameters (such as the PLC Setup), comment data, and the entire DM Area<br>can be saved to flash memory as initial values.<br>Battery backup: The Holding Area, DM Area, and counter values (flags, PV) are backed up by a battery.|||
|**Battery service life**|||Service life expectancy is 5 years at 25°C, less at higher temperatures. (From 0.75 to 5 years depending on<br>model, power supply rate, and ambient temperature.)|||
|**Built-in input terminals**|||40 (24 inputs, 16 outputs)|30 (18 inputs, 12 outputs)|20 (12 inputs, 8 outputs)|
|**Number of connectable Expansion Units and**<br>**Expansion I/O Units**|||CP-series Expansion Unit and Expansion I/O Units: 3 max.||CP-series Expansion Units and<br>Expansion I/O Units: 1 max.|
|**Max. number of I/O points**|||160 (40 built in + 40 per Expansion<br>(I/O) Unit x 3 Units)|150 (30 built in + 40 per Expansion<br>(I/O) Unit x 3 Units)|60 (20 built in + 40 per Expansion<br>(I/O) Unit x 1 Unit)|
|**Interrupt inputs**|||6 inputs (Response time: 0.3 ms)|||
|**Interrupt inputs counter mode**|||6 inputs (Response frequency: 5 kHz max. for all interrupt inputs), 16 bits Up or down counters|||
|**Quick-response inputs**|||6 points (Min. input pulse width: 50μs max.)|||
|**Scheduled interrupts**|||1|||
|**High-speed counters**|||4 inputs/2 axes (24 VDC)<br>Differential phases (4x), 50 kHz<br>Single-phase (pulse plus direction, up/down, increment), 100 kHz<br>Value range: 32 bits, Linear mode or ring mode<br>Interrupts: Target value comparison or range comparison|||
**7**
**CP1L**
||**Type**|**CP1L-EM40 (40 points)**|**CP1L-EM30 (30 points)**|**CP1L-EL20 (20 points)**|
|---|---|---|---|---|
|**Item**|**Models**|**CP1L-EM40D**@**-**@|**CP1L-EM30D**@**-**@|**CP1L-EL20D**@**-**@|
|**Pulse outputs**<br>**(models with**<br>**transistor outputs**<br>**only)**|**Pulse outputs**|Trapezoidal or S-curve acceleration and deceleration (Duty ratio: 50% fixed)<br>2 outputs, 1 Hz to 100 kHz (CCW/CW or pulse plus direction)|||
||**PWM outputs**|Duty ratio: 0.0% to 100.0% (specified in increments of 0.1% or 1%)<br>2 outputs, 0.1 to 6553.5 Hz or 1 to 32,800 Hz<br>(Accuracy: +1%/0% at 0.1 Hz to 10,000 Hz and +5%/0% at 10,000 Hz to 32,800 Hz)|||
|**Analog input**||2 input (Resolution: 1/1000, Input range: 0 to 10 V). Not isolated.|||
## ● **CP1L CPU Unit (M/L Type)**
|**Type**|**Type**|**Type**|**CP1L-M60**<br>**(60 points)**|**CP1L-M40**<br>**(40 points)**|**CP1L-M30**<br>**(30 points)**|**CP1L-L20**<br>**(20 points)**|**CP1L-L14**<br>**(14 points)**|**CP1L-L10**<br>**(10 points)**|
|---|---|---|---|---|---|---|---|---|
|**Item**<br>**Models**|||**CP1L-M60**@@**-**@|**CP1L-M40**@@**-**@|**CP1L-M30**@@**-**@|**CP1L-L20**@@**-**@|**CP1L-L14**@@**-**@|**CP1L-L10**@@**-**@|
|**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: 128 Maximum number of instances: 256<br>Languages usable in function block definitions: Ladder diagrams, structured text (ST)||||||
|**Instruction length**|||1 to 7 steps per instruction||||||
|**Instructions**|||Approx. 500 (function codes: 3 digits)||||||
|**Instruction execution time**|||Basic instructions: 0.55μs min. Special instructions: 4.1μs min.||||||
|**Common processing time**|||0.4 ms||||||
|**Program capacity**|||10K steps|||5K steps|||
|**Number of tasks**|||288 (32 cyclic tasks and 256 interrupt tasks)||||||
||**Scheduled inter-**<br>**rupt tasks**||1 (interrupt task No. 2, fixed)||||||
||**Input interrupt**<br>**tasks**||6 (interrupt task No. 140 to 145, fixed)||||4 (interrupt task No.<br>140 to 143, fixed)|2 (interrupt task No.<br>140 to 141, fixed)|
||||(Interrupt tasks can also be specified and executed for high-speed counter interrupts and executed.)||||||
|**Maximum subroutine number**|||256||||||
|**Maximum jump number**|||256||||||
|**I/O**<br>**areas**|**Input Area**||1,600 bits (100 words) CIO 0 to CIO 99||||||
|||**Built-in Input**<br>**Area**|36 bits: CIO 0.00 to<br>CIO 0.11 and CIO<br>1.00 to CIO 1.11 and<br>CIO 2.00 to CIO 2.11|24 bits: CIO 0.00 to<br>CIO 0.11 and CIO<br>1.00 to CIO 1.11|18 bits: CIO 0.00 to<br>CIO 0.11 and CIO<br>1.00 to CIO 1.05|12 bits: CIO 0.00 to<br>CIO 0.11|8 bits: CIO 0.00 to<br>CIO 0.07|6 bits: CIO 0.00 to<br>CIO 0.05|
||**Output Area**||1,600 bits (100 words) CIO 100 to CIO 199||||||
|||**Built-in**<br>**Output Area**|24 bits: CIO 100.00<br>to CIO 100.07 and<br>CIO 101.00 to CIO<br>101.07 and CIO<br>102.00 to CIO 102.07|16 bits: CIO 100.00<br>to CIO 100.07 and<br>CIO 101.00 to CIO<br>101.07|12 bits: CIO 100.00<br>to CIO 100.07 and<br>CIO 101.00 to CIO<br>100.03|8 bits: CIO 100.00<br>to CIO 100.07|6 bits: CIO 100.00<br>to CIO 100.05|4 bits: CIO 100.00<br>to CIO 100.03|
||**1:1 Link Area**||256 bits (16 words): CIO 3000.00 to CIO 3015.15 (CIO 3000 to CIO 3015)||||||
||**Serial PLC Link**<br>**Area**||1,440 bits (90 words): CIO 3100.00 to CIO 3189.15 (CIO 3100 to CIO 3189)||||||
|**Work bits**|||8,192 bits (512 words): W000.00 to W511.15 (W0 to W511)<br>CIO Area: 37,504 bits (2,344 words): CIO 3800.00 to CIO 6143.15 (CIO 3800 to CIO 6143)||||||
|**TR Area**|||16 bits: TR0 to TR15||||||
|**Holding Area**|||8,192 bits (512 words): H0.00 to H511.15 (H0 to H511)||||||
|**AR Area**|||Read-only (Write-prohibited): 7168 bits (448 words): A0.00 to A447.15 (A0 to A447)<br>Read/Write: 8192 bits (512 words): A448.00 to A959.15 (A448 to A959)||||||
|**Timers**|||4,096 timer numbers: T0 to T4095||||||
|**Counters**|||4,096 counter numbers: C0 to C4095||||||
|**DM Area**|||32 Kwords: D0 to D32767|||10 Kwords: D0 to D9999, D32000 to D32767|||
|**Data Register Area**|||16 registers (16 bits): DR0 to DR15||||||
|**Index Register Area**|||16 registers (32 bits): IR0 to IR15||||||
|**Task Flag Area**|||32 flags (32 bits): TK0000 to TK0031||||||
|**Trace Memory**|||4,000 words (500 samples for the trace data maximum of 31 bits and 6 words.)||||||
|**Memory Cassette**|||A special Memory Cassette (CP1W-ME05M) can be mounted.**Note:**Can be used for program backups and auto-booting.||||||
|**Clock function**|||Supported. Accuracy (monthly deviation):−4.5 min to−0.5 min (ambient temperature: 55°C),<br>−2.0 min to+2.0 min (ambient temperature: 25°C),−2.5 min to+1.5 min (ambient temperature: 0°C)||||||
|**Communications functions**|||One built-in peripheral port (USB 1.1): For connecting Support Software only.||||||
||||A maximum of two Serial Communications Option Boards can be<br>mounted.|||A maximum of one Serial Communications<br>Option Board can be mounted.||Not supported.|
||||A maximum of two Ethernet Option Board can be mounted.<br>When using CP1W-CIF41 Ver.1.0, one Ethernet Option Board<br>can be mounted.|||A maximum of one Ethernet Option Board<br>can be mounted.||Not supported.|
|**Memory backup**|||Flash memory: User programs, parameters (such as the PLC Setup), comment data, and the entire DM Area can be saved to flash<br>memory as initial values.<br>Battery backup: The Holding Area, DM Area, and counter values (flags, PV) are backed up by a battery.||||||
|**Battery service life**|||Service life expectancy is 5 years at 25°C, less at higher temperatures. (From 0.75 to 5 years depending on model, power supply<br>rate, and ambient temperature.)||||||
**8**
**CP1L**
|**Type**|**Type**|**CP1L-M60**<br>**(60 points)**|**CP1L-M40**<br>**(40 points)**|**CP1L-M30**<br>**(30 points)**|**CP1L-L20**<br>**(20 points)**|**CP1L-L14**<br>**(14 points)**|**CP1L-L10**<br>**(10 points)**|
|---|---|---|---|---|---|---|---|
|**Item**<br>**Models**||**CP1L-M60**@@**-**@|**CP1L-M40**@@**-**@|**CP1L-M30**@@**-**@|**CP1L-L20**@@**-**@|**CP1L-L14**@@**-**@|**CP1L-L10**@@**-**@|
|**Built-in input terminals**||60 (36 inputs,<br>24 outputs)|40 (24 inputs,<br>16 outputs)|30 (18 inputs,<br>12 outputs)|20 (12 inputs,<br>8 outputs)|14 (8 inputs,<br>6 outputs)|10 (6 inputs,<br>4 outputs)|
|**Number of connectable**<br>**Expansion Units and**<br>**Expansion I/O Units**||CP-series Expansion Unit and Expansion I/O Units: 3 max.|||CP-series Expansion Units and Expansion<br>I/O Units: 1 max.||Not supported.|
|**Max. number of I/O points**||180 (60 built in + 40<br>per Expansion (I/O)<br>Unit×3 Units)|160 (40 built in + 40<br>per Expansion (I/O)<br>Unit×3 Units)|150 (30 built in + 40<br>per Expansion (I/O)<br>Unit×3 Units)|60 (20 built in + 40<br>per Expansion (I/O)<br>Unit×1 Unit)|54 (14 built in + 40<br>per Expansion (I/O)<br>Unit×1 Unit)|10 (10 built in)|
|**Interrupt inputs**||6 inputs (Response time: 0.3 ms)||||4 inputs (Response<br>time: 0.3 ms)|2 inputs (Response<br>time: 0.3 ms)|
|**Interrupt inputs counter**<br>**mode**||6 inputs (Response frequency: 5 kHz max. for all interrupt inputs), 16 bits<br>Up or down counters||||4 inputs (Response<br>frequency:<br>5 kHz max. for all<br>interrupt inputs),<br>16 bits<br>Up or down<br>counters|2 inputs (Response<br>frequency:<br>5 kHz max. for all<br>interrupt inputs),<br>16 bits<br>Up or down<br>counters|
|**Quick-response inputs**||6 points (Min. input pulse width: 50μs max.)||||4 points (Min. input<br>pulse width: 50μs<br>max.)|2 points (Min. input<br>pulse width: 50μs<br>max.)|
|**Scheduled interrupts**||1||||||
|**High-speed co**|**unters**|4 inputs/2 axes (24 VDC): Differential phases (4x), 50 kHz<br>Single-phase (pulse plus direction, up/down, increment), 100 kHz<br>Value range: 32 bits, Linear mode or ring mode<br>Interrupts: Target value comparison or range comparison||||||
|**Pulse outputs**<br>**(models with**<br>**transistor out-**<br>**puts only)**|**Pulse**<br>**outputs**|Trapezoidal or S-curve acceleration and deceleration (Duty ratio: 50% fixed)<br>2 outputs, 1 Hz to 100 kHz (CCW/CW or pulse plus direction)||||||
||**PWM**<br>**outputs**|Duty ratio: 0.0% to 100.0% (specified in increments of 0.1% or 1%)<br>2 outputs, 0.1 to 6553.5 Hz or 1 to 32,800 Hz (Accuracy: +1%/0% at 0.1 Hz to 10,000 Hz and +5%/0% at 10,000 Hz to 32,800 Hz)||||||
|**Analog control**||1 (Setting range: 0 to 255)||||||
|**Analog input**||1 input (Resolution: 1/256, Input range: 0 to 10 V). Not isolated.||||||
**9**
**CP1L**
## **Built-in Inputs**
## ■ **Input Terminal Block Arrangement (Top Block)**
## ● **CP1L (60 Inputs)**
- AC Power Supply Models
|L1|L1|L2/N|L2/N|COM|COM|01|01|03|03|05|05|07|07|09|09|11|11|01|01|03|03|05|05|07|07|09|09|11|11|01|01|03|03|05|05|07|07|09|09|11|
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
|00<br>02<br>04<br>06<br>08<br>10<br>00<br>02<br>04<br>06<br>08<br>10<br>00<br>02<br>04<br>06<br>08<br>10<br>· DC Power Supply Models<br>Inputs (CIO 0)<br>Inputs (CIO 1)<br>Inputs (CIO 2)|||||00||02||04||06||08||10||00||02||04||06||08||10||00||02||04||06||08||10||
|+||−||COM||01||03||05||07||09||11||01||03||05||07||09||11||01||03||05||07||09||11|
|●**CP1L (40 Inputs)**<br>●**CP1L (30 inputs)**<br>NC<br>00<br>02<br>04<br>06<br>08<br>10<br>00<br>02<br>04<br>06<br>08<br>10<br>00<br>02<br>04<br>06<br>08<br>10<br>Inputs (CIO 1)<br>Inputs (CIO 0)<br>Inputs (CIO 2)<br>· AC Power Supply Models<br>· DC Power Supply Models<br>Inputs (CIO 1)<br>Inputs (CIO 0)<br>Inputs (CIO 1)<br>Inputs (CIO 0)<br>L1<br>L2/N COM<br>01<br>03<br>05<br>07<br>09<br>11<br>01<br>03<br>05<br>07<br>09<br>11<br>00<br>02<br>04<br>06<br>08<br>10<br>00<br>02<br>04<br>06<br>08<br>10<br>+<br>NC<br>−<br>COM<br>01<br>03<br>05<br>07<br>09<br>11<br>01<br>03<br>05<br>07<br>09<br>11<br>00<br>02<br>04<br>06<br>08<br>10<br>00<br>02<br>04<br>06<br>08<br>10<br>· AC Power Supply Models<br>· DC Power Supply Models<br>Inputs (CIO 1)<br>Inputs (CIO 0)<br>Inputs (CIO 1)<br>Inputs (CIO 0)<br>L1<br>L2/N COM<br>01<br>03<br>05<br>07<br>09<br>11<br>01<br>03<br>05<br>00<br>02<br>04<br>06<br>08<br>10<br>00<br>02<br>04<br>NC<br>+<br>NC<br>−<br>COM<br>01<br>03<br>05<br>07<br>09<br>11<br>01<br>03<br>05<br>00<br>02<br>04<br>06<br>08<br>10<br>00<br>02<br>04<br>NC|NC||||00||02||04||06||08||10||00||02||04||06||08||10||00||02||04||06||08||10||
## ● **CP1L (40 Inputs)**
## ● **CP1L (30 inputs)**
## ● **CP1L (20 Inputs)**
|●**CP1L (20 Inputs)**|●**CP1L (20 Inputs)**|●**CP1L (20 Inputs)**|●**CP1L (20 Inputs)**|●**CP1L (20 Inputs)**|●**CP1L (20 Inputs)**|●**CP1L (20 Inputs)**|●**CP1L (20 Inputs)**|●**CP1L (20 Inputs)**|
|---|---|---|---|---|---|---|---|---|
|· AC Power Supply Models|||||||||
|L1|L2/N|COM|01|03|05|07|09|11|
|· DC Power Supply Models<br>Inputs (CIO 0)<br>00<br>02<br>04<br>06<br>08<br>10|||||||||
|+|−|COM|01|03|05|07|09|11|
|Inputs (CIO 0)<br>NC<br>00<br>02<br>04<br>06<br>08<br>10|||||||||
## ● **CP1L (14 Inputs)**
|●**CP1L (14 Inputs)**|●**CP1L (14 Inputs)**|●**CP1L (14 Inputs)**|●**CP1L (14 Inputs)**|●**CP1L (14 Inputs)**|●**CP1L (14 Inputs)**|●**CP1L (14 Inputs)**|●**CP1L (14 Inputs)**|●**CP1L (14 Inputs)**|●**CP1L (14 Inputs)**|●**CP1L (14 Inputs)**|●**CP1L (14 Inputs)**|●**CP1L (14 Inputs)**|●**CP1L (14 Inputs)**|●**CP1L (14 Inputs)**|●**CP1L (14 Inputs)**|●**CP1L (14 Inputs)**|
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
|· AC Power Supply Models|||||||||||||||||
|L1||L2/N||COM||01||03||05||07||NC||NC|
|· DC Power Supply Models<br>Inputs (CIO 0)<br>00<br>02<br>04<br>06<br>NC<br>NC|||||00||02||04||06||NC||NC||
|+||−||COM||01||03||05||07||NC||NC|
|●**CP1L (10 Inputs)**<br>Inputs (CIO 0)<br>NC<br>00<br>02<br>04<br>06<br>NC<br>NC<br>L1<br>L2/N COM<br>01<br>03<br>05<br>00<br>02<br>04<br>NC<br>COM<br>01<br>03<br>05<br>00<br>02<br>04<br>· AC Power Supply Models<br>· DC Power Supply Models<br>Inputs (CIO 0)<br>Inputs (CIO 0)|NC||||00||02||04||06||NC||NC||
## ● **CP1L (10 Inputs)**
**10**
**CP1L**
## ■ **Built-in Input Area**
|**Number of**<br>**inputs**|**Number of**<br>**inputs**|**Input terminal block**|**Input terminal block**|**Input operation**|**Input operation**|**Input operation**|**High-speed counter operation**|**High-speed counter operation**|**Origin search**|**Origin search**|**Origin search**|
|---|---|---|---|---|---|---|---|---|---|---|---|
|||**Word**|**Bit**|**Normal**<br>**inputs**|**Interrupt**<br>**inputs**|**Quick-response inputs**|**Operation settings**<br>•**High-speed counters enabled**<br>•**Phase-Z signal reset**||**Origin searches enabled for**<br>**pulse outputs 0 and 1**|||
||||||||**Single-phase**<br>**(increment pulse**<br>**input)**|**Two-phase**<br>**(differential phase x4,**<br>**up/down, or pulse**<br>**plus direction)**|**CPU Units**<br>**with 20 to**<br>**60 points**|<br> <br>**CPU Units**<br>**with 14**<br>**points**|<br>**CPU Units**<br>**with 10**<br>**points**|
|10<br>14<br>20<br>30<br>40|10|CIO 0|00|Normal<br>input 0|---|---|High-speed<br>counter 0<br>(increment)|High-speed counter 0<br>(phase-A, increment,<br>or count input)|---|---|---|
||||01|Normal<br>input 1|---|---|High-speed<br>counter 1<br>(increment)|High-speed counter 0<br>(phase-B, decrement,<br>or direction)|---|---|---|
||||02|Normal<br>input 2|---|---|High-speed<br>counter 2<br>(increment)|High-speed counter 1<br>(phase-A, increment,<br>or count input)|---|Pulse<br>output 0:<br>Origin<br>proximity<br>input<br>signal|---|
||||03|Normal<br>input 3|---|---|High-speed<br>counter 3<br>(increment)|High-speed counter 1<br>(phase-B, decrement,<br>or count input)|---|Pulse<br>output 1:<br>Origin<br>proximity<br>input<br>signal|Pulse<br>output 0:<br>Origin<br>proximity<br>input<br>signal|
||||04|Normal<br>input 4|Interrupt<br>input 0|Quick-response input 0|Counter 0, phase-<br>Z/reset input|High-speed counter 0<br>(phase-Z/reset)|---|---|---|
||||05|Normal<br>input 5|Interrupt<br>input 1|Quick-response input 1|Counter 1, phase-<br>Z/reset input|High-speed counter 1<br>(phase-Z/reset)|---|---|Pulse<br>output 0:<br>Origin<br>input<br>signal-|
||||06|Normal<br>input 6|Interrupt<br>input 2|Quick-response input 2|Counter 2, phase-<br>Z/reset input||Pulse output 0:<br>Origin input signal||---|
||||07|Normal<br>input 7|Interrupt<br>input 3|Quick-response input 3|Counter 3, phase-<br>Z/reset input||Pulse output 1:<br>Origin input signal||---|
||||08|Normal<br>input 8|Interrupt<br>input 4|Quick-response input 4|---||---|---|---|
||||09|Normal<br>input 9|Interrupt<br>input 5|Quick-response input 5|---||---|---|---|
||||10|Normal<br>input 10|---|---|---||Pulse<br>output 0:<br>Origin<br>proximity<br>input<br>signal|---|---|
||||11|Normal<br>input 11|---|---|---||Pulse<br>output 1:<br>Origin<br>proximity<br>input<br>signal|---|---|
|||CIO 1|00|Normal<br>input 12|---|---|---||---|---|---|
||||to|to|to|to|to|to|to|to|to|
||||05|Normal<br>input 17|---|---|---|---|---|---|---|
||||06|Normal<br>input 18|---|---|---|---|---|---|---|
||||to|to|to|to|to|to|to|to|to|
||||11|Normal<br>input 23|---|---|---|---|---|---|---|
|60||CIO 2|00|Normal<br>input 24|---|---|---|---|---|---|---|
||||to|to|to|to|to|to|to|to|to|
||||11|Normal<br>input 35|---|---|---|---|---|---|---|
**11**
**CP1L**
## **Built-in Outputs**
## ■ **Output Terminal Block Arrangement (Bottom Block)**
## ● **CP1L (60 Outputs)**
- AC Power Supply Models
|||+<br>00<br>01|02<br>04|02<br>04|05|05|07|07|00|00|02|02||04|04|05|05||07<br>00|07<br>00||02|02|||04|04|05|05|||07|07|
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
|-||COM<br>COM<br>COM 03||COM||06||COM||01|||03||COM||06||COM|01||||03|||COM|||06||||
|||CIO 100||||||CIO||101|||||||||CIO|102||||||||||||||
|· DC Power Supply Models||||||||||||||||||||||||||||||||||
|||NC<br>00<br>01|02<br>04||05||07||00||02|||04||05|||07<br>00|||02||||04||05||||07||
|COM<br>COM<br>NC<br>COM 03||||COM||06||COM||01|||03||COM||06||COM|01||||03|||COM|||06||||
|||CIO 100||||||CIO||101|||||||||CIO|102||||||||||||||
## ● **CP1L (40 Outputs)**
- AC Power Supply Models
|+|+|00|00|01|01|02|02|03|03|04|04|06|06|00|00|01|01|03|03|04|04|05|05||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
|· DC Power Supply Models<br>CIO 101<br>CIO 100<br>CP1L-EM40DR-D/CP1L-M40D@-D<br>COM<br>COM<br>-<br>COM COM<br>05<br>07<br>COM<br>02<br>COM<br>05<br>07|-||COM||COM||COM||COM||05||07||COM||02||COM||05||07||
|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 101<br>CIO 100<br>CP1L-EM40DT-D|||||||||||||||||||||||||
|V+||00||01||02||03||04||06||00||01||03||04||06|||
||V-||COM(V-)||||||COM||05||07||COM||02||COM||05||07||
|CIO 101<br>CIO 100<br>CP1L-EM40DT1-D|||||||||||||||||||||||||
|V+||00||01||02||03||04||06||00||01||03||04||06|||
||V-||COM(V+)||||||COM||05||07||COM||02||COM||05||07||
|●**CP1L (30 Outputs)**<br>CIO 101<br>CIO 100<br>· AC Power Supply Models<br>· DC Power Supply Models<br>CIO 101<br>CIO 100<br>CIO 101<br>CIO 100<br>CIO 101<br>CIO 100<br>CIO 101<br>CIO 100<br>+<br>00<br>01<br>02<br>04<br>05<br>07<br>00<br>02<br>COM<br>COM<br>COM<br>03<br>COM<br>06<br>COM<br>01<br>03<br>CP1L-EM30DR-D/CP1L-M30D@-D<br>CP1L-EM30DT-D<br>CP1L-EM30DT1-D<br>NC<br>00<br>01<br>02<br>04<br>05<br>07<br>00<br>02<br>COM<br>COM<br>NC<br>COM<br>03<br>COM<br>06<br>COM<br>01<br>03<br>V+<br>00<br>01<br>02<br>04<br>05<br>07<br>00<br>02<br>COM(V-)<br>COM(V+)<br>V-<br>03<br>COM<br>06<br>COM<br>01<br>03<br>V+<br>00<br>01<br>02<br>04<br>05<br>07<br>00<br>02<br>V-<br>03<br>COM<br>06<br>COM<br>01<br>03|||||||||||||||||||||||||
## ● **CP1L (30 Outputs)**
## ● **CP1L (20 Outputs)**
## · AC Power Supply Models
|●**CP1L (14 Outputs)**<br>●**CP1L (10 Outputs)**<br>DC Power Supply Models<br>CIO 100<br>CIO 100<br>CIO 100<br>CIO 100<br>CP1L-EL20DR-D/CP1L-L20D@-D<br>CP1L-EL20DT-D<br>CP1L-EL20DT1-D<br>V+<br>COM(V-)<br>V-<br>V+<br>COM(V+)<br>V-<br>NC<br>00<br>01<br>02<br>04<br>05<br>07<br>COM<br>COM<br>NC<br>COM<br>03<br>COM<br>06<br>00<br>01<br>02<br>04<br>05<br>07<br>03<br>COM<br>06<br>00<br>01<br>02<br>04<br>05<br>07<br>03<br>COM<br>06<br>+<br>00<br>01<br>02<br>04<br>05<br>07<br>COM<br>COM<br>−<br>COM<br>03<br>COM<br>06<br>AC Power Supply Models<br>DC Power Supply Models<br>CIO 100<br>CIO 100<br>+<br>00<br>01<br>02<br>04<br>05<br>NC<br>COM<br>COM<br>−<br>COM<br>03<br>COM<br>NC<br>NC<br>00<br>01<br>02<br>04<br>05<br>NC<br>COM<br>COM<br>NC<br>COM<br>03<br>COM<br>NC<br>AC Power Supply Models<br>DC Power Supply Models<br>CIO 100<br>CIO 100<br>00<br>01<br>02<br>COM<br>COM<br>COM<br>03<br>NC<br>00<br>01<br>02<br>COM<br>COM<br>NC<br>COM<br>03|+|00|01|02|04|05|07|
|---|---|---|---|---|---|---|---|
## ● **CP1L (14 Outputs)**
## ● **CP1L (10 Outputs)**
**12**
**CP1L**
## ■ **Built-in Output Area**
|**Number of**<br>**outputs**|**Number of**<br>**outputs**|**Output Terminal**<br>**Block**|**Output Terminal**<br>**Block**|**When the**<br>**instructions to**<br>**the right are not**<br>**executed**|**When a pulse output instruction**<br>**(SPED, ACC, PLS2, or ORG) is executed**|**When a pulse output instruction**<br>**(SPED, ACC, PLS2, or ORG) is executed**|**When the origin search function is**<br>**set to be used in the PLC Setup,**<br>**and an origin search is executed**<br>**by the ORG instruction**|**When the origin search function is**<br>**set to be used in the PLC Setup,**<br>**and an origin search is executed**<br>**by the ORG instruction**|**When the PWM**<br>**instruction is**<br>**executed**|
|---|---|---|---|---|---|---|---|---|---|
|||**Word**|**Bit**|**Normal output**|**Fixed duty ratio pulse output**||||**Variable duty ratio**<br>**pulse output**|
||||||**CW/CCW**|**Pulse plus direction**|**When the origin search function**<br>**is used**||**PWM output**|
||||||||**CPU Units with**<br>**14 to 60 points**|**CPU Units**<br>**with 10 point**||
|10<br>14<br>20<br>30<br>40|10|CIO 100|00|Normal output 0|Pulse output 0 (CW)|Pulse output 0 (pulse)|---|---|---|
||||01|Normal output 1|Pulse output 0 (CCW)|Pulse output 0 (direction)|---|---|PWM output 0|
||||02|Normal output 2|Pulse output 1 (CW)|Pulse output 1 (pulse)|---|---|---|
||||03|Normal output 3|Pulse output 1 (CCW)|Pulse output 1 (direction)|---|Origin search 0<br>(Error counter<br>reset output)|PWM output 1|
||||04|Normal output 4|---|---|Origin search 0<br>(Error counter<br>reset output)|---|---|
||||05|Normal output 5|---|---|Origin search 1<br>(Error counter<br>reset output)|---|---|
||||06|Normal output 6|---|---|---|---|---|
||||07|Normal output 7|---|---|---|---|---|
|||CIO 101|00|Normal output 8|---|---|---|---|---|
||||to|to|to|to|to|to|to|
||||03|Normal output 11|---|---|---||---|
||||04|Normal output 12|---|---|---||---|
||||to|to|to|to|to|to|to|
||||07|Normal output 15|---|---|---|---|---|
|60||CIO 102|01|Normal output 16|---|---|---|---|---|
||||to|to|to|to|to|to|to|
||||07|Normal output 23|---|---|---|---|---|
**13**
**CP1L**
## **I/O Specifications for CPU Units**
## ■ **Input Specifications**
|**ITEM**|**Specifications**|**Specifications**|**Specifications**|**Specifications**|**Specifications**|**Specifications**|**Specifications**|
|---|---|---|---|---|---|---|---|
||**High-speed counter inputs**<br>**(phases A and B) *1**|||||**Interrupt inputs and**<br>**quick-response inputs *1**|**Normal inputs**|
||**CIO 0.00 to CIO 0.03**|||||**CIO 0.04 to CIO 0.09 *2**|**CIO 0.10 to CIO 0.11,**<br>**CIO 1.00 to CIO 1.11, and**<br>**CIO 2.00 to 2.11 *2**|
|**Input voltage**|24 VDC+10%/–15%|||||||
|**Applicable sensors**|2-wire sensors or 3-wire sensors|||||||
|**Input impedance**|3.0 kΩ||||||4.7 kΩ|
|**Input current**|7.5 mA typical||||||5 mA typical|
|**ON voltage**|17.0 VDC min.||||||14.4 VDC min.|
|**OFF voltage/current**|1 mA max. at 5.0 VDC|||||||
|**ON delay *3**|2.5μs max.|||||50μs max.|1 ms max.|
|**OFF delay *3**|2.5μs max.|||||50μs max.|1 ms max.|
|**Circuit configuration**||IN<br><br>3.0 kΩ<br> <br>kΩ|||Internal<br>circuits<br>1000 pF<br>Input LED<br>Internal<br>circuits<br>IN<br>IN<br>COM<br>3.0 kΩ<br>1000 pF<br>910Ω<br>Input LED<br>Internal<br>circuits<br>IN<br>IN<br>COM<br>4.7 kΩ<br>750Ω<br>Input LED|||
|||||3.0 kΩ<br> <br>kΩ|Internal<br>circuits<br>1000 pF<br>Input LED|||
|||||||||
|||IN<br>COM<br>4.3||4.3||||
- ***1.** High-speed counter inputs, interrupt inputs, and quick-response inputs can also be used as normal inputs.
- ***2.** The bits that can be used depend on the model of CPU Unit.
- ***3.** The response time is the hardware delay value. The delay set in the PLC Setup (0 to 32 ms, default: 8 ms) must be added to this value.
## ● **High-speed Counter Function Input Specifications**
Input bits: CIO 0.00 to CIO 0.03
|**Item**||**Specifications**|**Specifications**|**Specifications**|
|---|---|---|---|---|
|**ON/OFF delay**|ON<br>OFF<br><br><br>|10.0μs min.<br><br>90%<br>10%<br>50%<br>2.5μs min.<br>2.5μs min.<br>ON<br>OFF<br>ON<br>OFF<br>Phase A<br>Phase A<br>90%<br>10%<br>50%<br>90%<br>10%<br>50%<br>20.0μs min.<br>T1,T2,T3,T4: 2.5μs min<br>T1<br>T2<br>T3<br>T4<br>• Pulse plus direction input mode<br>• Increment mode<br>• Up/down input mode<br>• Differential phase input mode|||
||||||
||||||
||||||
||||||
## ● **Interrupt Input Counter Mode**
Input bits: CIO 0.04 to CIO 0.09
|**Item**||**Specifications**|
|---|---|---|
|**ON/OFF delay**|O<br>O|90%<br>10%<br>FF<br>N<br>50μs min.<br>50μs min.|
## ■ **Output Specifications**
## ● **CPU Units with Relay Outputs**
|**Item**|**Item**|**Item**|**Specifications**|
|---|---|---|---|
|**Max. switching capacity**|||2 A, 250 VAC (cosφ= 1), 2 A, 24 VDC 4 A/common)|
|**Min. switching capacity**|||5 VDC, 10 mA|
|**Ser-**<br>**vice**<br>**life of**<br>**relay**|**Elec-**<br>**trical**|**Resis-**<br>**tive load**|100,000 operations (24 VDC)|
|||**Induc-**<br>**tive load**|48,000 operations (250 VAC, cosφ= 0.4)|
||**Mechanical**||20,000,000 operations|
|**ON delay**|||15 ms max.|
|**OFF delay**|||15 ms max.|
|**Circuit configuration**|||Internal circuits<br>L<br>L<br>OUT<br>OUT<br>COM<br>Output LED<br>Maximum<br>250 VAC: 2 A,<br>24 VDC: 2 A|
**Note:** There are restrictions in the power supply voltage and output load current imposed by the ambient temperature for CPU Units with DC power. Refer to the CP1L CPU Unit Operation Manual (Cat. No. W462) or the CP Series CP1L-EL/EM CPU Unit Operation Manual (Cat. No. W516).
**14**
**CP1L**
## ● **CPU Units with Transistor Outputs (Sinking/Sourcing)**
**==> picture [512 x 458] intentionally omitted <==**
**----- Start of picture text -----**<br>
Specifications<br>Item<br>CIO 100.00 to CIO 100.03 *1 CIO 100.04 to CIO 100.07 *2<br>4.5 to 30 VDC, 300 mA/output, 0.9 A/common, EM40D@-D 3.6 A/Unit<br>EM30D@-D 2.7 A/Unit<br>EL20D@-D 1.8 A/Unit<br>M60D@-D 5.4 A/Unit<br>Max. switching capacity M40D@-D 3.6 A/Unit<br>M30D@-D 2.7 A/Unit<br>L20D@-D 1.8 A/Unit<br>L14D@-D 1.5 A/Unit<br>L10D@-D 0.9 A/Unit<br>Min. switching capacity 4.5 to 30 VDC, 1 mA<br>Leakage current 0.1 mA max.<br>Residual voltage 0.6 V max. 1.5 V max.<br>ON delay 0.1 ms max.<br>OFF delay 0.1 ms max. 1 ms max.<br>CP1L-L/M CPU Unit: 1/common *3<br>Fuse<br>CP1L-EL/EM CPU Unit: None<br>Sinking Outputs Sinking Outputs<br>V+<br>24 VDC/ OUT L<br>V− 20.4 to26.4 VDC OUT L<br>OUT L Internalcircuits 24 VDC/4.5to 30 VDC<br>Internalcircuits Internalcircuits OUT L 24 VDC/4.5 to30 VDC COM (-)Š<br>COM (−)<br>CP1L-EL/EM<br>CPU Unit Sourcing Outputs Sourcing Outputs<br>V+<br>24 VDC/<br>V- 20.4 to COM (+)<br>26.4 VDC Internal 24 VDC/4.5<br>COM (V+) circuits to 30 VDC<br>Internalcircuits Internalcircuits OUT L 24 VDC/4.5 to30 VDC OUTOUT LL<br>Circuit OUT L<br>configuration<br>Sinking Outputs Sinking Outputs<br>OUT L OUT L<br>OUT L Internal OUT L<br>Internalcircuits Internalcircuits 4.5 to 30 VDC circuits 4.5 to 30 VDC<br>COM (−) COM (−)<br>CP1L-L/M<br>CPU Unit Sourcing Outputs Sourcing Outputs<br>COM (+)<br>COM (+)<br>Internal Internal 4.5 to 30 VDC Internal<br>circuits circuits OUTOUT LL circuits OUTOUT LL 4.5 to 30 VDC<br>**----- End of picture text -----**<br>
**Note:** Do not apply a voltage or connect a load to an output terminal exceeding the maximum switching capacity.
- ***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 the CPU Unit.
- ***3.** The fuse cannot be replaced by the user.
## ● **Pulse outputs**
Output bits CIO 100.00 to CIO 100.03
|**Item**|**Specifications**|**Specifications**|**Specifications**|**Specifications**|**Specifications**||
|---|---|---|---|---|---|---|
|**Max. switching capacity**|30 mA at 4.75 to 26.4 VDC||||||
|**Min. switching capacity**|7 mA at 4.75 to 26.4 VDC||||||
|**Max. output frequency**|100 kHz||||||
|**Output waveform**|OFF<br>ON<br>90%<br>10%|||||2 ms min.|
||||||||
|||4||<br>ms min.|||
- **Note: 1.** The above values assume a resistive load and do not consider the impedance of the cable connecting the load.
**2.** The pulse widths during actual use may be smaller than the ones shown above due to pulse distortion caused by connecting cable impedance.
**3.** The OFF and ON refer to the output transistor. The output transistor is ON at level “L”.
## ● **PWM outputs**
Output bits CIO100.01, CIO 100.03
|**Item**|**Specifications**|**Specifications**|
|---|---|---|
|**Max. switching capacity**<br>|30 mA at 4.75 to 26.4 VDC||
|**Max. output frequency**<br>|32.8 kHz||
|**PWM output precision**<br> <br>|For ON duty +1%, "0%:10 kHz output<br>For ON duty +5%, "0%: 0 to 32.8 kHz output||
|**Output waveform**|OFF<br>ON|ON duty = ×100%<br>T<br>ton<br>T<br>ton|
**Note:** The OFF and ON refer to the output transistor. The output transistor is ON at level “L”.
**15**
**CP1L**
## ■ **External Analog Setting Input Specifications**
|**Item**|**Specifications**|
|---|---|
|**Number of analog inputs**|1|
|**Input signal range**|0 to 10V|
|**Resolution**|1/256 (full scale)|
|**Isolation method**|None|
**Note:** CP1L-L CPU Unit or CP1L-M CPU Unit only.
## ■ **Analog Input Specifications**
|**Item**|**Specifications**|
|---|---|
|**Number of inputs**|2 inputs (2 words allocated in the AR Area)|
|**Input signal range**|Voltage input: 0 V to 10 V|
|**Max. rated input**|0 V to 15 V|
|**External input impedance**|100 KΩmin.|
|**Resolution**|1/1000 (full scale)|
|**Overrall accuracy**|25°C:±2.0% (full scale)<br>0 to 55°C:±3.0% (full scale)|
|**A/D conversion data**|0000 to 03E8 hex|
|**Averaging function**|Not supported|
|**Conversion time**|Same as PLC cycle time|
|**Isolation method**|None|
**Note:** CP1L-EL CPU Unit or CP1L-EM CPU Unit only.
## ■ **Built-in Ethernet Specifications (CP1H-EL CPU Units or CP1H-EM CPU Unit Only)**
|**Item**|**Item**|**Specifications**|
|---|---|---|
|**Protocol used**||TCP/IP, UDP, ARP, ICMP (ping only), BOOTP|
|**Applications**||FINS, Socket, SNTP, DNS (client)|
|**Media access method**||CSMA/CD|
|**Modulation method**||Baseband|
|**Transmission paths**||Star form|
|**Baud rate**||100 Mbit/s (100Base-TX), 10 Mbit/s (10Base-T)|
|**Transmission media**|**100 Mbit/s**|• Unshielded twisted-pair (UDP) cable<br>Categories: 5, 5e<br>• Shielded twisted-pair (STP) cable<br>Categories: 100Ωat 5, 5e|
||**10 Mbit/s**|• 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)|
|**Item**|**Item**|**FINS Communications Service Specifications**|
|---|---|---|
|**Number of nodes**||254|
|**Message length**||1016 bytes max.|
|**Size of buffer**||8k|
|**Communications Function**||FINS Communications Service (UDP/IP, TCP/IP)|
|**FINS/UDP method**|**Protocol used**|UDP/IP|
||**Port number**|9600 (default) Can be changed.|
||**Protection**|No|
|**FINS/TCP method**|**Protocol used**|TCP/IP|
||**Number of connections**|Up to 2 simultaneous connections and only one connection can be set to client|
||**Port number**|9600 (default) Can be changed.|
||**Protection**|Yes (Specification of client IP addresses when unit is used as a server)|
***1.** CX-One version 4.3 or higher is required.
***2.** To connect the CP1L CPUs with the NS-series Programmable Terminals via Ethernet, make sure that the system version of NS Series is 8.2 or higher.
**16**
**CP1L**
## **External Interfaces**
## ■ **CP1L CPU Unit Nomenclature**
## ● **CP1L CPU Units (EL Type) with 20 Points**
**==> picture [305 x 165] intentionally omitted <==**
**----- Start of picture text -----**<br>
Terminal Block (Fixed)<br>Battery<br>DIP switch<br>Memory Cassette<br>slot<br>Option Board slot<br>Ethernet port<br>Terminal Block (Fixed)<br>**----- End of picture text -----**<br>
## ● **CP1L CPU Units (EM Type) with 40 or 30 Points**
**==> picture [287 x 174] intentionally omitted <==**
**----- Start of picture text -----**<br>
Option Board slots<br>1 (left) and 2 (right)<br>Terminal Block (Removable)<br>Battery<br>DIP switch<br>Memory Cassette slot<br>External analog<br>settings<br>input connector<br>Ethernet port<br>**----- End of picture text -----**<br>
**==> picture [158 x 15] intentionally omitted <==**
**----- Start of picture text -----**<br>
Terminal Block (Removable) Expansion I/O<br>Unit connector<br>**----- End of picture text -----**<br>
## ● **CP1L CPU Units (M Type) with 40 Points**
**==> picture [354 x 198] intentionally omitted <==**
**----- Start of picture text -----**<br>
Option Board Slot 1<br>Terminal Block (Removable) Option Board Slot 2<br>Battery<br>Peripheral IN<br>USB Port<br>L1 L2/N COM 01 03 05 07 09 11 01 03 05 07 09 11<br>00 02 04 06 08 10 00 02 04 06 08 10<br>Analog Control<br>External analog<br>settings<br>input connector A{ 00 01 02 03 04 06 00 01 03 04 06<br>A| COM COM COM COM 05 07 COM 02 COM 05 07<br>DIP switch<br>OUT<br>Memory<br>Cassette Slot<br>Terminal Block (Removable) Expansion Unit and<br>Expansion I/O Unit<br>Connector<br>2 3 4 5 6<br>**----- End of picture text -----**<br>
**17**
**CP1L**
## ● **CP1L CPU Units (L Type) with 20 or 14 Points**
**==> picture [239 x 163] intentionally omitted <==**
**----- Start of picture text -----**<br>
Terminal Block (Fixed)<br>IN Option Board Slot<br>L1 L2/N COM 01 03 05 07 09 11<br>00 02 04 06 08 10<br>SYSMAC<br>Memory CP1L<br>Cassette Slot<br>PERIPHERAL<br>BATTERY - + COM 00 COM 01 COM 02 03 04 COM 05 06 07<br>OUT<br>Battery<br>Terminal Block (Fixed)<br>**----- End of picture text -----**<br>
## ● **CP1L CPU Units (L Type) with 10 Points**
**==> picture [143 x 162] intentionally omitted <==**
**----- Start of picture text -----**<br>
Terminal Block (Fixed)<br>Memory<br>Cassette Slot<br>Battery<br>Terminal Block (Fixed)<br>**----- End of picture text -----**<br>
**18**
**CP1L**
## **Connection Methods**
## ■ **Built-in Standard Features**
Yes : Supported, No : Not supported
|**Item**|**Interface**|**Applicable CPU Units**|**Applicable CPU Units**|**Applicable CPU Units**|**Applicable CPU Units**|**Applicable CPU Units**|
|---|---|---|---|---|---|---|
|||**CP1L-EM Type**|**CP1L-EL Type**|**CP1L-M Type**|**CP1L-L14/L20**|**CP1L-L10**|
|**Ethernet port**|Connecting Support Software, Message<br>Communications, and the other.|Yes|Yes|No|No|No|
|**Peripheral USB port**|Bus for communications with various kinds of<br>Support Software running on a personal<br>computer.|No|No|Yes|Yes|Yes|
## ■ **Option Unit Specifications**
Yes : Supported, No : Not supported
|**Item**|**Option Boards**|**Applicable CPU Units**|**Applicable CPU Units**|**Applicable CPU Units**|**Applicable CPU Units**|**Applicable CPU Units**|
|---|---|---|---|---|---|---|
|||**CP1L-EM Type**|**CP1L-EL Type**|**CP1L-M Type**|**CP1L-L14/L20**|**CP1L-L10**|
|**Serial port 1 ***<br>**(Option board slot 1)**|Serial Communications Option Boards<br>(CP1W-CIF01/CIF11/CIF12-V1)|Yes|Yes|Yes|Yes|No|
||Ethernet Option Boards<br>(CP1W-CIF41)|No|No|Yes|Yes|No|
||Analog I/O Option Boards<br>(CP1W-MAB21/ADB21/DAB21V)|Yes|Yes|No|No|No|
||LCD Option Boards<br>(CP1W-DAM01)|Yes|Yes|Yes|Yes|No|
|**Serial port 2 ***<br>**(Option board slot 2)**|Serial Communications Option Boards<br>(CP1W-CIF01/CIF11/CIF12-V1)|Yes|No|Yes|No|No|
||Ethernet Option Boards<br>(CP1W-CIF41)|No|No|Yes|No|No|
||Analog I/O Option Boards<br>(CP1W-MAB21/ADB21/DAB21V)|Yes|No|No|No|No|
***** You can choose one from among "Yes".
## ■ **Serial Communications Option Boards (CP1W-CIF01/CIF11/CIF12-V1)**
|**Product name**|**Model**|**Specifications**|**Serial communications mode**|
|---|---|---|---|
|**RS-232C Option Board**|CP1W-CIF01|One RS-232C port<br>Connector: D-Sub, 9 pin, female<br>Maximum transmission distance: 15m|Host Link, 1:N NT Link,<br>1:1 NT Link, Noprotocol,<br>Serial PLC Link Slave,<br>Serial PLC Link Master,<br>Serial Gateway converted to<br>CompoWay/F, and Tool Bus,<br>1:1 Link Master, and<br>1:1 Link Slave.|
|**RS-422A/485 Option Board**|CP1W-CIF11|One RS-422A/485 port<br>Terminal block: using ferrules<br>Maximum transmission distance: 50m||
|**RS-422A/485 Isolated-type Option Board**|CP1W-CIF12-V1|One RS-422A/485 port (Isolated)<br>Terminal block: using ferrules<br>Maximum transmission distance: 500m||
- **Note: 1.** Serial PLC Link can be used with either serial port 1 or serial port 2. **2.** Cannot be used for the CP1L-L10.
**19**
**CP1L**
## ■ **Ethernet Communications Specifications (CP1W-CIF41)**
|**Item**|**Item**|**Item**|**Specifications**|
|---|---|---|---|
|**Applicable PLCs**|||CP1L CPU Units<br>**Note:**The Ethernet Option Board cannot be used for the CP1L-EM/EL/L10.|
|**Number of Units that can be mounted**|||2 sets. (The CP1W-CIF41 Ver.1.0 and Ver.2.0 can be combined and used with one CPU Unit. When using<br>CP1W-CIF41 Ver.1.0, only one unit can be mounted in an option board slot.)|
|**Protocol used**|||TCP/IP, UDP|
|**Server/Client**|||Only server (Cannot be used as a client)|
|**Applications**|||FINS|
|**Transfer**|**Media access method**||CSMA/CD|
||**Modulation method**||Baseband|
||**Transmission paths**||Star form|
||**Baud rate**||100 Mbit/s (100Base-TX), 10 Mbit/s (10Base-T)|
||**Transmission media**|**100 Mbit/s**|• Unshielded twisted-pair (UDP) cable<br>Categories: 5, 5e<br>• Shielded twisted-pair (STP) cable<br>Categories: 100Ωat 5, 5e|
|||**10 Mbit/s**|• 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)|
|**Item**|**Item**|**FINS Communications Service Specifications**|
|---|---|---|
|**Number of nodes**||254|
|**Message length**||1016 bytes max.|
|**Size of buffer**||8k|
|**Communications Function**||FINS Communications Service (UDP/IP, TCP/IP)|
|**FINS/UDP**<br>**method**|**Protocol used**|UDP/IP|
||**Port number**|9600 (default) Can be changed.|
||**Protection**|No|
|**FINS/TCP**<br>**method**|**Protocol used**|TCP/IP|
||**Number of connections**|Up to 2 simultaneous connections and only one connection can be set to client|
||**Port number**|9600 (default) Can be changed.|
||**Protection**|Yes (Specification of client IP addresses when unit is used as a server)|
- **Note: 1.** CX-Programmer version 8.1 or higher (CX-One version 3.1 or higher) is required.
**2.** Use CX-Integrator version 2.33 or higher (CX-One version 3.1 or higher) when the system needs to be set the routing tables. However, CX-Integrator does not support the other functions, using CP1W-CIF41, such as transferring the parameters and network structure.
**3.** To connect the CP1H/CP1L CPUs with the NS-series Programmable Terminals via Ethernet using CP1W-CIF41, make sure that the system version of NS Series is 8.2 or higher.
## ■ **Analog I/O Option Board (CP1W-ADB21/DAB21V/MAB221)**
|**Product name**|**Model**|**Specifications**|**Specifications**|**Specifications**|
|---|---|---|---|---|
|||**Input**||**Output**|
|||**Voltage Input**<br>**0V to 10V**|**Current Input**<br>**0mA to 20mA**|**Voltage Output**<br>**0V to 10V**|
|||**Resolution:1/4000**|**Resolution:1/2000**|**Resolution:1/4000**|
|**Analog Input Option Board**|CP1W-ADB21|2CH||-|
|**Analog Output Option Board**|CP1W-DAB21V|-||2CH|
|**Analog I/O Option Board**|CP1W-MAB221|2CH||2CH|
**Note:** CP1L-EL CPU Unit or CP1L-EM CPU Unit only.
## ■ **Analog Option Board Refresh Time**
|**Analog Opiton Board**|**Cycle time**|**Cycle time**|**Cycle time**|
|---|---|---|---|
||**1 ms**|**10 ms**|**20 ms**|
|**CP1W-ADB21**|40 ms±30%|50 ms±30%|80 ms±30%|
|**CP1W-DAB21V**|30 ms±40%|40 ms±50%|70 ms±40%|
|**CP1W-MAB221(AD)**|60 ms±40%|80 ms±60%|100 ms±50%|
|**CP1W-MAB221(DA)**|40 ms±80%|60 ms±60%|90 ms±50%|
**20**
**CP1L**
## ■ **LCD Option board (CP1W-DAM01)**
## ● **Specifications**
|**Item**|**Function**|
|---|---|
|**Mounting port**|CP1L: Option board slot 1<br>**Note:**The LCD Option Board cannot be used for the CP1L-L10.|
|**Communications protocol**|Peripheral bus (Turn ON DIP switch pin 4.)|
|**Weight**|30 g max.|
|**Number of display characters**|4 rows×12 characters: 48 characters max.|
|**Display characters**|5×7 dots (alphanumeric and symbols).|
|**Backlight**|Electroluminescence (EL): Normal: Lit green; Error: Flashing red|
## ● **LCD Functions**
|**Operation**|**Operation**|**Description**|**Description**|**Description**|**Description**|**Description**|**Description**|**Description**|**Description**|**Description**|**Description**|**Description**|
|---|---|---|---|---|---|---|---|---|---|---|---|---|
|**Changing operating modes**||Change the PLC operating mode without using the CX-Programmer.|||||||||||
|**I/O memory**||Read and change the present values in the memory areas and force-set or force-reset bits.|||||||||||
|**PLC Setup operations**||Read and change the PLC Setup.|||||||||||
|**Analog I/O monitor**||Monitor the analog adjustment and present value for the external analog setting input.|||||||||||
|**Error log display**||Read the log of errors that have occurred.|||||||||||
|**Memory cassette operation**||Transfer and verify user programs between the PLC and memory cassette.|||||||||||
|**User monitor settings**||Read the status of up to 16 words and bits with comments. You can use this setting to read data on the startup display.|||||||||||
|**Message display function**<br>**settings**||Display a user-set message of up to 48 characters on the LCD Option Board when a specified bit turns ON.<br>A maximum of 16 screens can be registered for display.|||||||||||
|**Timers**|**Day timer**|Use this timer for ON/OFF switching at a<br>specified times every day from the starting<br>day of the week to the ending day of the<br>week. Sixteen timers cam be set from<br>timer 01 to timer 16.<br>Operation:<br>Starting day of the week<br>Example: Monday<br>Starting time<br>Example: 9:00<br>Ending time<br>Example: 17:00<br>Starting time<br>9:00<br>Ending ti<br>17:00<br>OFF<br>ON|||||||||Ending day of the week<br>Example: Friday<br>me<br>Starting time<br>9:00<br>Ending time<br>17:00||
||||||||||||||
||||||||||||||
|||||tarting time<br>ample: 9:00<br>Ending time<br>Example: 17:00<br>Starting time<br>9:00<br>Ending ti<br>17:00<br>|||||||||
||**Weekly timer**|Use this timer for ON/OFF operation in<br>intervals of one week that starts one day<br>and ends another day. Sixteen timers cam<br>be set from timer No. 01 to timer No. 16.<br>Operation:<br>OFF<br>ON<br>Starting day of the week<br>Example: Monday<br>Starting time<br>Example: 12:00<br>Ending time<br>Example: 8:00<br>Starting time<br>12:00|||||||||Ending day of the week<br>Example: Friday<br>Ending time<br>8:00||
||||||||||||||
||||||||||||||
||||Starting time<br>Example: 12:00<br>Ending time<br>Example: 8:00<br>Starting time<br>12:00||||||||||
||**Calendar timer**|Use the calendar timers for ON or OFF<br>operation in intervals of one year from the<br>starting day to the ending day. Sixteen<br>timers can be set from timer 01 to timer 16.<br>Operation:<br>Starting day<br>July 1<br>OFF<br>ON|||||||||Ending day<br>August 31<br>Set September 1<br>as the ending day.||
||||||||||||||
||||Starting day<br>July 1||||||||||
|**Saving setting**||Save the various settings that you set with the LCD Option Board to the DM Area of the PLC. You can also write the settings<br>saved in the PLC to the LCD Option Board.|||||||||||
|**Language**||Changing the display language (Japanese/English)|||||||||||
|**Other functions**||•Setting the time of the PLC's built-in clock<br>•Reading system data (e.g., unit version and lot number)<br>•Setting the backlight lighting time<br>•Adjusting LCD contrast<br>•Reading cycle time (e.g., average, maximum, and minimum)<br>•Clearing data for the LCD Option Board|||||||||||
**21**
**CP1L**
## **Expansion I/O Unit Specifications**
■ **CP1W-40EDR/40EDT/40EDT1/32ER/32ET/32ET1/20EDR1/20EDT/20EDT1/16ER/16ET/16ET1/8ED/8ER/8ET/8ET1 Expansion I/O Units** Expansion I/O Units can be connected to the CPU Unit to configure the required number of I/O points.
## ● **DC Inputs (CP1W-40EDR/40EDT/40EDT1/20EDR1/20EDT/20EDT1/8ED)**
|**Item**|**Specifications**|**Specifications**|**Note: 1.** Do not apply a voltage exceeding the rated voltage to an input terminal.<br>**2.** Can be set in the PLC Setup to 0, 0.5, 1, 2, 4, 8, 16 or 32 ms. The CP1W-<br>40EDR/EDT/EDT1 are fixed at 16 ms.<br>1ms min. (hardware delay value)|
|---|---|---|---|
|**Input voltage**|24 VDC+10%/−15%|||
|**Input impedance**|4.7 kΩ|||
|**Input current**|5 mA typical|||
|**ON voltage**|14.4 VDC min.|||
|**OFF voltage**|5.0 VDC max.|||
|**ON delay**|0 to 3|2 ms max.(Default: 8 ms) (See note 1.)||
|**OFF delay**|0 to 3|2 ms max.(Default: 8 ms) (See note 1.)||
|**Circuit configuration**||Internal<br>circuits<br>IN<br>IN<br>COM<br>4.7 kΩ<br>750Ω<br>Input LED||
## ● **Relay Outputs (CP1W-40EDR/32ER/20EDR1/16ER/8ER)**
|**Item**|**Item**|**Item**|**Specifications**|**Note:**There are restrictions in the power supply voltage and output load current<br>imposed by the ambient temperature for CPU Units with DC power.<br>Use the CPU Unit within the following ranges of power supply voltage and<br>output load current.<br>Refer to the CP1L CPU Unit Operation Manual (Cat. No. W462) or the CP<br>Series CP1L-EL/EM CPU Unit Operation Manual (Cat. No. W516).|
|---|---|---|---|---|
|**Max. switching capacity**|||2 A, 250 VAC(cosφ= 1), 24 VDC 4 A/common||
|**Min. switching capacity**|||5 VDC, 10 mA||
|**Service**<br>**life of**<br>**relay**|**Elec-**<br>**trical**|**Resistive**<br>**load**|150,000 operations (24 VDC)||
|||**Inductive**<br>**load**|100,000 operations (24 VAC cos = 0.4)||
||**Mechanical**||20,000,000 operations||
|**ON delay**|||15 ms max.||
|**OFF delay**|||15 ms max.||
|**Circuit configuration**|||Internal<br>circuits<br>L<br>L<br>OUT<br>OUT<br>COM<br>Output LED<br>Maximum<br>250 VAC: 2 A,<br>24 VDC: 2 A||
**22**
**CP1L**
## ● **Transistor Outputs (Sinking/Sourcing)**
## **(CP1W-40EDT/-40EDT1/-32ET/-32ET1/-20EDT/-20EDT1/-16ET/-16ET1/-8ET/-8ET1)**
|**Item**|**Specifications**|**Specifications**|**Specifications**|**Specifications**|**Specifications**|**Specifications**|**Specifications**|**Specifications**|**Specifications**|**Specifications**|**Specifications**|**Specifications**|**Specifications**|**Specifications**|**Specifications**|**Specifications**|**Note: 1.** Do not apply a voltage or connect a<br>load to an output terminal exceeding<br>the maximum switching capacity.<br>**2.** The fuses cannot be replaced by the<br>user.<br>**3.** A maximum of 0.9 A per common can<br>be switched at an ambient tempera-<br>ture of 50°C.<br>0.9<br>0.8<br>0<br>50 55<br>Ambient temperature (°C)<br>Common<br>terminal<br>current<br>(A)|
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
||**CP1W-40EDT**<br>**CP1W-40EDT1**|||||**CP1W-32E**<br>**CP1W-32ET1**|||**CP1W-20EDT**<br>**CP1W-20EDT1**|||**CP1W-16ET**<br>**CP1W-16ET1**|||**CP1W-8ET**<br>**CP1W-8ET1**|||
|**Max. switching ca-**<br>**pacity (See note**<br>**3.)**|4.5 to 30 VDC: 0.3 A/point||||||||24 VAC+10%/<br>−5%: 0.3 A/point|||4.5 to 30 VDC:<br>0.3 A/point|||<br>• OUT00/01<br>4.5 to 30 VDC,<br>0.2 A/output<br>• OUT02 to 07<br>4.5 to 30 VDC,<br>0.3 A/output|||
||0.9 A/common<br>3.6 A/Unit|||||0.9 A/common<br>7.2 A/Unit|||0.9 A/common<br>1.8 A/Unit|||0.9 A/common<br>3.6 A/Unit|||0.9 A/common<br>1.8 A/Unit|||
|**Leakage current**|0. 1mA max.|||||||||||||||||
|**Residual voltage**|1.5 V max.|||||||||||||||||
|**ON delay**|0.1ms max.|||||||||||||||||
|**OFF delay**|1 ms max. at 24<br>+10%/−5%, 5 to|||||VDC<br>300 mA||||||||||||
|**Max. number of**<br>**Simultaneosly ON**<br>**Points of Output**|16 pts (100%)|||||24 pts (75%)|||8 pts (100%)|||16 pts (100%)|||8 pts (100%)|||
|**Fuse(See note 2.)**|1/common|||||||||||||||||
|**Circuit configura-**<br>**tion**|Output LED<br>Internal<br>circuits<br>Sinking Outputs||||||OUT<br><br>24 VDC/<br>L<br>L<br>Output LED<br>Internal<br>circuits<br>Sourcing Outputs||||||||OUT<br>OUT<br>L<br>L<br>COM (+)<br>24 VDC/<br>4.5 to<br>30 VDC|||
|||Outpu<br>Inte<br>circ||t LED<br>rnal||||||Outp<br>Inter<br>circ||ut LED<br>nal<br>uits||||||
|||||||||L|||Inter<br>circ|nal<br>uits||||||
||||circ|uits||||OUT||||||||OUT<br>L<br>L||
|||||||||||||||||||
|||||||||||||||||||
**Note: 1.** Do not apply a voltage or connect a load to an output terminal exceeding the maximum switching capacity.
**23**
**CP1L**
## ■ **CP1W-AD041/AD042/DA021/DA041/DA042/MAD11/MAD42/MAD44 Analog Units**
Analog values that are input are converted to binary data and stored in the input area, or binary data is output as analog values.
## ● **Analog Input Units**
|**Model**|**Model**|**CP1W-AD041**|**CP1W-AD041**|**CP1W-AD042**|**CP1W-AD042**|
|---|---|---|---|---|---|
|**Item**||**Voltage Input**|**Current Input**|**Voltage Input**|**Current Input**|
|**Number of inputs**||4 inputs (4 words allocated)||||
|**Input signal range**||0 to 5 VDC, 1 to 5 VDC,<br>0 to 10 VDC, or –10 to 10<br>VDC|0 to 20 mA or 4 to 20 mA|0 to 5 VDC, 1 to 5 VDC,<br>0 to 10 VDC, or -10 to 10<br>VDC|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|
|**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 I/O 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: 80 mA max.; 24 VDC: 40 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**|
|**Analog**<br>**output**<br>**section**|**Number of 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 VDC, 0 to 10 VDC, or<br>–10 to 10 VDC|0 to 20 mA or 4 to 20 mA|1 to 5 VDC, 0 to 10 VDC, or<br>–10 to 10 VDC|0 to 20 mA or 4 to 20 mA|
||**External output allowable**<br>**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**<br>**accuracy**|**25**°**C**|0.4% full scale||0.3% full scale||
|||**0 to 55**°**C**|0.8% full scale||0.7% 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 I/O 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: 80 mA max.; 24 VDC: 160 mA max.||
**24**
**CP1L**
## ● **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 VDC, 1 to 5<br>VDC, 0 to 10 VDC, or<br>–10 to 10 VDC|0 to 20 mA or 4 to 20<br>mA|0 to 5 VDC, 1 to 5<br>VDC,<br>0 to 10 VDC, or−10<br>to 10 VDC|0 to 20 mA or 4 to 20<br>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 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|
||**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<br>DIP switch)||
||**Open-circuit detection 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 VDC, 0 to 10<br>VDC, or<br>−10 to 10 VDC|0 to 20 mA or 4 to 20<br>mA|1 to 5 VDC, 0 to 10<br>VDC, or<br>−10 to 10 VDC|0 to 20 mA or 4 to 20<br>mA|
||**Allowable external output 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 accuracy**|**25**°**C**|0.3% full scale||0.4% full scale||
|||**0 to 55**°**C**|0.7% full scale||0.8% 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: 5 VDC: 90 mA max., 24<br>VDC: 120 mA max.<br>CP1W-MAD44: 5 VDC: 90 mA max., 24<br>VDC: 170 mA max.||5 VDC: 83 mA max., 24 VDC: 110 mA max.||
**25**
**CP1L**
## ■ **Temperature Sensor Units: CP1W-TS001/TS002/TS101/TS102**
By mounting a Temperature Sensor Unit to the PLC, inputs can be obtained from thermocouples or platinum resistance thermometers, and temperature measurements can be converted to binary data and stored in the input area of the CPU Unit.
|**Item**|**CP1W-TS001**|**CP1W-TS002**|**CP1W-TS101**|**CP1W-TS102**|
|---|---|---|---|---|
||**Thermocouples**||**Platinum resistance thermometer**||
|**Temperature sensors**|Switchable between K and J, but same type must be used for<br>all inputs.||Switchable between Pt100 and JPt100, but same type must<br>be used for all inputs.||
|**Number of inputs**|2|4|2|4|
|**Allocated input words**|2|4|2|4|
|**Accuracy**|(The larger of±0.5% of converted value or±2°C)±1 digit<br>max. *||(The larger of±0.5% of converted value or±1°C)±1 digit<br>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.||
***** 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.||---|||
**26**
**CP1L**
## ● **Main Specifications**
|**Item**|**Item**|**CP1W-TS003**|
|---|---|---|
|**Temperature sensor**|**s**|Thermocouples or analog input *1|
|||Switchable between K and J, but same type must be used for all inputs.|
|**Number of inputs**||4|
|**Accuracy at 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 inputs**|0.6% full scale|
|**Accuracy at 0 to**<br>**55**°**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 inputs**|1.2 % 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 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 inputs**|±30mA|
|**External input**<br>**impedance**|**Analog voltage inputs**|1MΩmin.|
||**Analog inputs**|Approx. 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)|
|**Converted AD data**||16-bit binary data (4-digit hexadecimal)|
|**Isolation**||Photocouplers between all temperature and analog 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**
The DIP switch is used to set the input type (temperature or analog input), the input thermocouple type (K or J) and the temperature unit (°C or °F).
**Note:** Set the temperature range according to the type of temperature sensor connected to the Unit. Temperature data will not be converted correctly if the temperature range does not match the sensor.
|**SW**|||||**Setting**|**Setting**|
|---|---|---|---|---|---|---|
|ON<br>1 2 3 4 5 6<br>OFF<br>SW|1||Thermocouple type of temperature<br>sensor||ON|J|
||||||OFF|K|
||2||Temperature unit||ON|°F|
||||||OFF|°C|
||3||NC||||
||4||Input type selection for the third<br>input (Input 2)||ON|Analog input|
||||||OFF|Thermocouple|
||5||Input type selection for the fourth<br>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**||||||
|**Input type**||**Range (**°**C)**||**Range (**°**F)**|||
|K||-200.0 to 1300.0||-300 to 2300|||
|J||-100.0 to 850.0||-100.0 to 1500|||
**27**
**CP1L**
## ● **Main Specifications**
|**Item**||**CP1W-TS004**|
|---|---|---|
|**Temperature sensor**|**s**|Thermocouples<br>Switchable between K and J, but same type must be used for all inputs.|
|**Number of inputs**||12|
|**Accuracy**|**25**°**C**|(The larger of±0.5% of converted value or±2°C)±1 digit max. *1|
||**0 to 55**°**C**|(The larger of±1% of converted value or±4°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**
The DIP switch is used to set the temperature unit and to set the temperature input range.
**Note:** Set the temperature range according to the type of temperature sensor connected to the Unit. Temperature data will not be converted correctly if the temperature range does not match the sensor.
|**SW**|||**Setting**|**Setting**|
|---|---|---|---|---|
|ON<br>1 2<br>OFF<br>SW|1|Input type<br>O<br>O|N|J|
||||FF|K|
||2|Temperature unit<br>O<br>O|N|°F|
||||FF|°C|
|||**Temperature input**||
|---|---|---|---|
||**Input type**|**Range (**°**C)**|**Range (**°**F)**|
|K||-200.0 to 1300.0|-300 to 2300|
|J||-100.0 to 850.0|-100.0 to 1500|
## ■ **CP1W-SRT21 CompoBus/S I/O Link Unit**
The CompoBus/S I/O Link Unit functions as a slave for a CompoBus/S Master Unit (or an SRM1 CompoBus/S Master Control Unit) to form an I/O Link with 8 inputs and 8 outputs between the CompoBus/S I/O Link Unit and the Master Unit.
**==> picture [313 x 138] intentionally omitted <==**
**----- Start of picture text -----**<br>
CompoBus/S Master Unit CP1W-SRT21<br>(or SRM1 CompoBus/S CompoBus/S I/O Link Unit<br>Master Control Unit) CP1L<br>ON<br>1 2 3 4 5 6<br>No.<br>COMM<br>ERR<br>SRT21<br>BD LBD HNC(BSNC(BS+)-) NC EXP<br>CS/CJ Series<br>C200H@ Series<br>Special flat cable or VCTF cable A maximum of 16 Units can be connected<br>CQM1(H) Series<br>SRM1 Series to one CompoBus/S I/O Link Unit.<br>CPM2C-S Series<br>**----- End of picture text -----**<br>
## ● **Specifications**
|**Item**<br>**Model**|**CP1W-SRT21**|
|---|---|
|**Master/Slave**|CompoBus/S Slave|
|**Number of I/O bits**<br>**Number of words**<br>**occupied in CP1L**<br>|8 input bits, 8 output bits<br>1 input word, 1 output word<br>(Allocated in the same way as for<br>|
|**I/O memory**<br>**Node number**<br>**setting**|other Expansion Units)<br>Set using the DIP switch (before the<br>CPU Unit is turned ON.)|
**28**
**CP1L**
## **I/O Bits and I/O Allocations**
With CP1L CPU Units, the beginning input and output words (CIO 0 and CIO 100) are allocated by the CPU Unit one or two words at a time. I/O bits are allocated in word units in order of connection to Expansion Units and Expansion I/O Units connected to a CPU Unit.
|**CPU Unit**|**Allocated words**|**Allocated words**|
|---|---|---|
||**Inputs**|**Outputs**|
|CP1L CPU Unit with 10, 14, or 20 I/O points|CIO 0|CIO 100|
|CP1L CPU Unit with 30 or 40 I/O points|CIO 0 and CIO 1|CIO 100 and CIO 101|
|CP1L CPU Unit with 60 I/O points|CIO 0, CIO 1, and CIO 2|CIO 100, CIO 101, and CIO102|
## ● **Example: I/O Bit Allocations When Expansion Units Are Connected**
CPU Unit with 40 I/O Points + Temperature Sensor Unit + Analog Output Unit + Expansion I/O Unit with 40 I/O Points
**==> picture [314 x 66] intentionally omitted <==**
**----- Start of picture text -----**<br>
1st Unit 2nd Unit 3rd Unit<br>CPU Unit with 40 I/O Points Temperature Sensor Unit Analog Output Unit Expansion I/O Unit with 40 I/O Points<br>CP1L-M40D@-@ CP1W-TS002 CP1W-DA041 CP1W-40ED<br>Inputs CIO 0.00 to CIO 0.11CIO 1.00 to CIO 1.11 CIO 2 to 5 None CIO 6.00 to CIO 6.11CIO 7.00 to CIO 7.11<br>24 inputs 24 inputs<br>16 outputs 16 outputs<br>Outputs CIO 100.00 to CIO 100.07CIO 101.00 to CIO 101.07 None to CIO 105CIO 102 CIO 106.00 to CIO 106.07CIO 107.00 to CIO 107.07<br>**----- End of picture text -----**<br>
## **The Number of the Maximum Connect of Expansion Unit**
## ■ **Maximum Number of CP1W Expansion Unit and Expansion I/O Units**
● **CP1L (EM, M) CPU Units**
**==> picture [28 x 8] intentionally omitted <==**
**----- Start of picture text -----**<br>
3 max.<br>**----- End of picture text -----**<br>
- **CP1L (EL) CPU Units or CP1L (L) CPU Units with 20 or 14 Points**
1 max. Note: CP1L (L Type) CPU Units with 10 points do not support Expansion Units.
**29** omron ~~a~~
**CP1L**
**Dimensions**
(Unit: mm)
## ■ **CPU Units**
## **CP1L-EM CPU Units with 40 Points**
**==> picture [410 x 138] intentionally omitted <==**
**----- Start of picture text -----**<br>
150 85<br>140 8<br>Weight:<br>675 g max.<br>110 100 90<br>**----- End of picture text -----**<br>
**==> picture [40 x 6] intentionally omitted <==**
**----- Start of picture text -----**<br>
Four, 4.5 dia.<br>**----- End of picture text -----**<br>
## **CP1L-EM CPU Units with 30 Points**
**==> picture [511 x 317] intentionally omitted <==**
**----- Start of picture text -----**<br>
130 85<br>120 8<br>Weight:<br>610 g max.<br>110 100 90<br>Four, 4.5 dia.<br>CP1L-EL CPU Units with 20 Points<br>130 85<br>120 8<br>Weight:<br>610 g max.<br>110 100 90<br>Four, 4.5 dia.<br>**----- End of picture text -----**<br>
**30**
**CP1L**
## **CP1L CPU Units with 60 I/O Points**
**==> picture [251 x 136] intentionally omitted <==**
**----- Start of picture text -----**<br>
195<br>185<br>110 100 90<br>**----- End of picture text -----**<br>
**==> picture [152 x 118] intentionally omitted <==**
**----- Start of picture text -----**<br>
85<br>8<br>Weight:<br>820 g max.<br>**----- End of picture text -----**<br>
**==> picture [40 x 7] intentionally omitted <==**
**----- Start of picture text -----**<br>
Four, 4.5 dia.<br>**----- End of picture text -----**<br>
## **CP1L CPU Units with 40 I/O Points**
**==> picture [204 x 99] intentionally omitted <==**
**----- Start of picture text -----**<br>
150<br>140<br>110 100 90<br>**----- End of picture text -----**<br>
**==> picture [139 x 119] intentionally omitted <==**
**----- Start of picture text -----**<br>
85<br>8<br>Weight:<br>675 g max.<br>**----- End of picture text -----**<br>
**==> picture [41 x 7] intentionally omitted <==**
**----- Start of picture text -----**<br>
Four, 4.5 dia.<br>**----- End of picture text -----**<br>
## **CP1L CPU Units with 30 I/O Points**
**==> picture [402 x 145] intentionally omitted <==**
**----- Start of picture text -----**<br>
130 85<br>120 8<br>Weight:<br>610 g max.<br>110 100 90<br>Four, 4.5 dia.<br>**----- End of picture text -----**<br>
**31**
**CP1L**
## **CP1L CPU Units with 14 or 20 I/O Points**
**==> picture [511 x 314] intentionally omitted <==**
**----- Start of picture text -----**<br>
86 85<br>76 8<br>Weight:<br>380 g max.<br>110 100 90<br>Two, 4.5 dia.<br>CP1L CPU Units with 10 I/O Points<br>66 85<br>56 8<br>Weight:<br>300 g max.<br>110 100 90<br>**----- End of picture text -----**<br>
Two, 4.5 dia.
**32**
**CP1L**
## ■ **Expansion Units and Expansion I/O Units**
CP1W-20ED@@, CP1W-16E@@, CP1W-AD04@, CP1W-DA021/04@, CP1W-MAD@@, CP1W-TS@@1/@@2/@@3
**CP1W-8E** @@ **CP1W-SRT21**
**==> picture [441 x 309] intentionally omitted <==**
**----- Start of picture text -----**<br>
NCCOM00 01 02 03 04 05 06 07 08 09 10 11 COM00 01 02 03<br>IN CH IN<br>CH 00 01 02 03 04 05 06 07 CH 00 01 02 03<br>08 09 10 11 08 09 10 11<br>20EDR1 90 8ED 90<br>OUT<br>CH 00 01 02 03 04 05 06 07<br>NC NCCOM 00CHCOM 01 COM 02 03 04 COM 05 06 07 EXP COM 04 05 06 07 EXP<br>86 | 50 | __ 66 = — 50 —-|<br>Unit name Model number Weight<br>CP1W-40EDR 380 g<br>CP1W-40EDT/-40EDT1 320 g<br>150 CP1W-32ER 465 g<br>140 CP1W-32ET/-32ET1 325 g<br>Expansion I/O Units CP1W-20EDR1/-20EDT/-20EDT1 300 g<br>CP1W-16ER 280 g<br>NC NC NCCOMCOM 00 01 02 03 04 05 06 07 08 09 10 11 00 01 02 03 04 05 06 07 08 09 10 11 CP1W-16ET/-16ET1 225 g<br>01 02 03 04 05 06CH 07 08 0909 1010 1111 CH CP1W-8ED 200 g<br>01010101010101 02020202020202 03030303030303 04040404040404 05050505050505 06060606060606CH 07070707070707 0808 09 10 11 40EDR CP1W-8ER/-8ET/-8ET1CP1W-AD041/-DA041/-DA021 250 200 gg<br>NC NC COM 00CHCOMCHCOMCOM 01 COM 02 03 04 COM 05 06 07 COM 00CH01CH0101 02 03 04 COM 05 06 07 EXP Analog Units CP1W-AD042/-DA042CP1W-MAD11 250 150 gg<br>CP1W-MAD44/-MAD42 250 g<br>CP1W-TS001/-TS002/<br>Four, 4.5 dia.4.5 dia. 8 Temperature -TS101/-TS102 250 g<br>50 Sensor Units CP1W-TS003 240 g<br>CP1W-TS004 570 g<br>CompoBus/SI/O Link Unit CP1W-SRT21 200 g<br>**----- End of picture text -----**<br>
**CP1W-40ED** @ **CP1W-32E** @@ **CP1W-TS004**
**==> picture [262 x 138] intentionally omitted <==**
**----- Start of picture text -----**<br>
150<br>140<br>NC NC NC NCCOMCOM 00 01 02 03 04 05 06 07 08 09 10 11 00 01 02 03 04 05 06 07 08 09 10 11<br>CH CH<br>110 100 90 OUTIN CHCHCHCH 00000000 01010101010101 02020202020202 03030303030303 04040404040404 05050505050505 06060606060606CH 07070707070707 0808 0909 1010 1111 40EDR<br>NC NC COM 00CHCOMCHCOMCOM 01 COM 02 03 04 COM 05 06 07 COM 00CH01CH0101 02 03 04 COM 05 06 07 EXP<br>8<br>Four, 4.5 dia.4.5 dia.<br>50<br>**----- End of picture text -----**<br>
**33**
**CP1L**
## **Related Manuals**
|**Cat. No.**|**Model numbers**|**Manual name**|**Description**|
|---|---|---|---|
|W516|CP1L-EL20D@-@<br>CP1L-EM30D@-@<br>CP1L-EM40D@-@|CP Series<br>CP1L-EL/EM CPU Unit<br>Operation Manual|Provides the following information on the CP Series:<br>• Overview, design, installation, maintenance, and<br>other basic specifications<br>• Features<br>• System configuration<br>• Mounting and wiring<br>• I/O memory allocation<br>• Troubleshooting<br>Use this manual together with the_CP1H Programmable_<br>_Controllers Programming Manual_ (W451).|
|W462|CP1L-L10D@-@<br>CP1L-L14D@-@<br>CP1L-L20D@-@<br>CP1L-M30D@-@<br>CP1L-M40D@-@<br>CP1L-M60D@-@|CP Series<br>CP1L CPU Unit<br>Operation Manual||
|W451|CP1H-X40D@-@<br>CP1H-XA40D@-@<br>CP1H-Y20DT-D<br>CP1L-L10D@-@<br>CP1L-L14D@-@<br>CP1L-L20D@-@<br>CP1L-M30D@-@<br>CP1L-M40D@-@<br>CP1L-M60D@-@|CP Series<br>CP1H/CP1L CPU Unit Programming<br>Manual|Provides the following information on programming the<br>CP Series:<br>• Programming methods<br>• Tasks<br>• Programming instructions|
|W461|CP1L-L10D@-@<br>CP1L-L14D@-@<br>CP1L-L20D@-@<br>CP1L-M30D@-@<br>CP1L-M40D@-@<br>CP1L-M60D@-@|CP Series<br>CP1L CPU Unit Introduction Manual|Describes basic setup methods of CP1L PLCs:<br>• Basic configuration and component names<br>• Mounting and wiring<br>• Programming, data transfer, and debugging using<br>the CX-Programmer<br>• Application program examples|
|W342|SYSMAC CS/CJ/CP/NSJ Series<br>CS1G/H-CPU@@-EV1, CS1G/H-CPU@@H,<br>CS1D-CPU@@HA, CS1D-CPU@@SA,<br>CS1D-CPU@@H, CS1D-CPU@@S,<br>CJ1H-CPU@@H-R,CJ1G-CPU@@,<br>CJ1M-CPU@@, CJ1G-CPU@@P,<br>CJ1G/H-CPU@@H, CJ2H-CPU6@-EIP,<br>CJ2H-CPU6@,CJ2M-CPU@@,<br>CS1W-SCU@@-V1, CS1W-SCB@@-V1,<br>CJ1W-SCU@@-V1, CP1H-X@@@@-@,<br>CP1H-XA@@@@-@,CP1H-Y@@@@-@,<br>CP1L-M/L@@@-@, CP1E-E@@D@-@,<br>CP1E-N@@D@-@, NSJ@-@@@@(B)-G5D,<br>NSJ@-@@@@(B)-M3D|CS/CJ/CP/NSJ Series<br>Communications Commands<br>REFERENCE MANUAL|Describes the communications commands used with<br>CS-series, CJ-series, and CP-series PLCs and NSJ<br>Controllers.|
**34**
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## **Errors and Omissions.**
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## **Note: Do not use this document to operate the Unit.**
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© OMRON Corporation 2012-2017 All Rights Reserved. In the interest of product improvement, specifications are subject to change without notice. CSM_10_8_1118 Printed in Japan **Cat. No. P081-E1-03**
Printed in Japan 1117 (0312)
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.
About Novapart
Novapart is a B2B electronic component broker specialising in stock shortages and cost reduction. We source hard-to-find parts and identify compliant alternatives across a catalogue of 410,000+ components from 500+ manufacturers.
Learn more →Stock Shortage Specialist
When a component is unavailable, discontinued or has an unacceptable lead time, we tap into our network of vetted European and Asian distributors to source what you need — without compromising on quality or traceability.
Request a quote →Compliant Alternatives
We identify pin-to-pin, electrically equivalent substitutes that meet the same certifications (RoHS, AEC-Q100, REACH) as your original specification — validated against datasheets, not just part numbers. Often at a lower cost.
BOM Analysis service →