Controllers - PLC Modules

Part Number	Description / PDF	Quantity
TET-C4 ICP DAS USA Inc.	COMPACT ETHERNET REMOTE I/O DAQ	30
PET-7052 ICP DAS USA Inc.	MODBUS TCP POE REMOTE I/O DAQ MO	30
ECAT-2051-32 ICP DAS USA Inc.	ETHERCAT SLAVE I/O MODULE: 32 CH	30
PET-7065 ICP DAS USA Inc.	MODBUS TCP POE REMOTE I/O DAQ MO	30
TET-P2C2 ICP DAS USA Inc.	COMPACT ETHERNET REMOTE I/O DAQ	30
ET-7060 ICP DAS USA Inc.	6 POINTS OF POWER RELAY OUTPUT A	30
I-7012FD ICP DAS USA Inc.	RS-485 REMOTE I/O DAQ MODULE: HI	30
PET-7202 ICP DAS USA Inc.	MODBUS TCP POE REMOTE I/O DAQ MO	30
M-7064 ICP DAS USA Inc.	MODBUS RTU REMOTE I/O DAQ MODULE	30
I-7015 ICP DAS USA Inc.	RS-485 REMOTE I/O DAQ MODULE: 6	30
M-7080BD ICP DAS USA Inc.	MODBUS RTU RS-485 REMOTE I/O DAQ	30
TPET-A4 ICP DAS USA Inc.	COMPACT ETHERNET REMOTE I/O DAQ	30
I-7016D ICP DAS USA Inc.	RS-485 REMOTE I/O DAQ MODULE: I-	30
MQ-7253M ICP DAS USA Inc.	MQTT I/O MODULE WITH 2-PORT ETHE	30
ET-7217-10 ICP DAS USA Inc.	DUAL ETHERNET PORT MODBUS TCP RE	30
I-7088 ICP DAS USA Inc.	RS-485 REMOTE I/O DAQ MODULE: 8	30
I-7063A ICP DAS USA Inc.	RS-485 REMOTE I/O DAQ MODULE: 8	30
PET-7251 ICP DAS USA Inc.	MODBUS TCP POE REMOTE I/O DAQ MO	30
CAN-2019C ICP DAS USA Inc.	CANOPEN REMOTE I/O DAQ MODULE: 1	30
I-7058D_FG ICP DAS USA Inc.	RS-485 REMOTE I/O DAQ MODULE: 8	30

Controllers - PLC Modules

1. Overview

Programmable Logic Controller (PLC) modules are core components of industrial automation systems. They are digital computers designed for real-time control of manufacturing processes, machinery, and production lines. By processing inputs from sensors and outputs to actuators, PLC modules enable precise logic control, sequence control, and data handling. Their reliability, flexibility, and scalability make them critical in modern industries for optimizing efficiency, reducing downtime, and ensuring safe operations.

2. Major Types and Functional Classification

Type	Functional Features	Application Examples
CPU Modules	Central processing units for executing control logic and managing system tasks	Assembly line control systems
Input/Output (I/O) Modules	Digital/analog signal acquisition and output control	Temperature monitoring in chemical plants
Communication Modules	Support industrial protocols (Ethernet/IP, Profibus, Modbus)	Connecting to SCADA systems
Power Supply Modules	Convert AC/DC power for system operation	Stable power for factory automation
Special Function Modules	High-speed counters, positioning control, or temperature compensation	Precision motion control in robotics

3. Structure and Components

A typical PLC module consists of: - Enclosure: Industrial-grade housing with IP protection rating - Circuit Boards: Multi-layer PCB with embedded processors and memory - I/O Terminals: Screw/clamp connectors for field device integration - Backplane Interfaces: For module interconnection and data exchange - Heat Dissipation Elements: Aluminum heat sinks or cooling fans - Power Management Circuitry: Overload and surge protection

4. Key Technical Specifications

Parameter	Description	Importance
Processing Speed	0.01-10 s per instruction	Determines real-time response capability
I/O Capacity	8-2048 points per module	Defines system scalability
Communication Protocols	Ethernet/IP, PROFINET, CANopen	Enables industrial network integration
Operating Temperature	-20 C to 70 C	Affects reliability in harsh environments
Power Consumption	5-50 W per module	Impacts system energy efficiency
Programming Standards	IEC 61131-3 compliant languages	Ensures software compatibility

5. Application Fields

Manufacturing: CNC machine control, conveyor systems
Energy: Power plant turbine control, grid automation
Automotive: Robotic welding cells, paint shop automation
Food & Beverage: Hygienic process control systems
Building Automation: HVAC control, elevators

6. Leading Manufacturers and Products

Manufacturer	Representative Product	Key Features
Siemens	SIMATIC S7-1500	0.01 s processing speed, PROFINET interface
Rockwell Automation	ControlLogix 5580	Integrated motion control, 4GB memory
Mitsubishi Electric	Fx5 Series	Compact design, built-in USB programming
Schneider Electric	Modicon M580	Web-server based configuration, Ethernet/IP
Omron	CP1L	Onboard analog I/O, pulse output

7. Selection Recommendations

Key considerations for PLC module selection:

Application Requirements: Match processing speed and I/O density to task complexity
Expansion Capability: Choose modular systems for future scalability
Environmental Conditions: Consider temperature range and vibration resistance
Network Compatibility: Ensure protocol matching with existing systems
Total Cost of Ownership: Factor in programming costs and maintenance requirements
Vendor Support: Evaluate technical documentation and service network

8. Industry Trends Analysis

Current trends shaping PLC module development include: - Industrial IoT Integration: Embedded connectivity for predictive maintenance - Edge Computing: Local data processing with AI capabilities - Cybersecurity Enhancement: Built-in protection against network attacks - Modular Design: Hot-swappable components for minimal downtime - Energy Efficiency: Low-power processors for sustainable manufacturing - Cloud Connectivity: Direct integration with enterprise-level systems