The ECC1-1 operates as a hybrid edge device, functioning as both a programmable logic controller (PLC) and a data processing node. It connects to sensors, actuators, and other field devices via its integrated I/O ports, collecting real-time data on process variables like temperature, pressure, and flow. Its onboard processing capabilities allow it to execute control logic locally—adjusting valves, starting/stopping motors, or triggering alarms without waiting for instructions from a central system—significantly reducing latency in time-critical applications.
Model Number ECC1-1
Type Industrial Edge Controller
Input Voltage 24V DC (18-30V range)
Operating Temp Range -20°C to 60°C (-4°F to 140°F)
Mounting Style DIN rail (35mm)
Dimensions 110mm x 85mm x 60mm (LxWxH)
Weight 320g
Processing Power 1.2GHz dual-core industrial processor, 2GB RAM, 16GB storage
I/O Ports 2 x Ethernet (10/100/1000BASE-T), 2 x RS-485, 4 x digital inputs, 2 x relay outputs
Supported Protocols Modbus RTU/TCP, PROFINET, EtherNet/IP, MQTT, OPC UA
Compliance CE, UL 61010, RoHS, IP20
Typical Power Draw 5W
The ECC1-1 operates as a hybrid edge device, functioning as both a programmable logic controller (PLC) and a data processing node. It connects to sensors, actuators, and other field devices via its integrated I/O ports, collecting real-time data on process variables like temperature, pressure, and flow. Its onboard processing capabilities allow it to execute control logic locally—adjusting valves, starting/stopping motors, or triggering alarms without waiting for instructions from a central system—significantly reducing latency in time-critical applications.
ECC1-1
What sets the ECC1-1 apart is its dual connectivity: it can communicate with legacy fieldbuses (like Modbus RTU) for compatibility with existing equipment, while also supporting modern industrial Ethernet protocols (PROFINET, EtherNet/IP) for integration with newer systems. This versatility eliminates the need for expensive protocol converters. Additionally, the ECC1-1 features secure cloud connectivity, enabling it to push processed data to enterprise platforms for long-term analysis, reporting, and remote monitoring—all while maintaining local operation if the cloud link is lost. Its compact design allows it to fit in tight spaces, such as control cabinets or machine enclosures, making it suitable for distributed installations where central control rooms are impractical.
ECC1-1
Technical specifications:
Model Number ECC1-1
Type Industrial Edge Controller
Input Voltage 24V DC (18-30V range)
Operating Temp Range -20°C to 60°C (-4°F to 140°F)
Mounting Style DIN rail (35mm)
Dimensions 110mm x 85mm x 60mm (LxWxH)
Weight 320g
Processing Power 1.2GHz dual-core industrial processor, 2GB RAM, 16GB storage
I/O Ports 2 x Ethernet (10/100/1000BASE-T), 2 x RS-485, 4 x digital inputs, 2 x relay outputs
Supported Protocols Modbus RTU/TCP, PROFINET, EtherNet/IP, MQTT, OPC UA
Compliance CE, UL 61010, RoHS, IP20
Typical Power Draw 5W
Contact Us Phone:+86 16626708626 WeChat/WhatsApp:+86 16626708626 Email: 3772179818@qq.com
ECC1-1
Main features and advantages:
The ECC1-1delivers tangible value by combining local control with intelligent data management, reducing both latency and operational costs. In applications like high-speed packaging lines, its ability to process sensor data and adjust machine parameters in milliseconds ensures consistent product quality, minimizing waste from misalignments or timing errors. For facilities with distributed assets—such as a network of water treatment plants or solar farms—the ECC1-1 eliminates the need for constant cloud connectivity, allowing operations to continue seamlessly even if the network goes down. This resilience is critical for maintaining productivity and compliance in remote locations.
Beyond performance, the ECC1-1 simplifies system design and maintenance. Its intuitive programming environment supports industry-standard languages (IEC 61131-3), allowing engineers to reuse existing PLC code rather than learning new programming paradigms. The controller’s web-based management interface makes it easy to monitor status, update firmware, or adjust parameters remotely, reducing the need for on-site visits. Over time, this combination of flexibility and ease of use lowers integration costs, speeds up deployment, and creates a more adaptable automation infrastructure.
ECC1-1
Application areas:
TheECC1-1 excels in applications where distributed intelligence and reliability are paramount. In smart manufacturing, it’s deployed at individual workstations, coordinating robotic arms, vision systems, and material feeders to optimize cycle times while sending aggregated performance data to a central MES system. Its compact size fits easily in machine-mounted cabinets, eliminating the need for remote control rooms.
In building automation, the ECC1-1 manages HVAC zones, lighting, and access control for specific floors or areas, adjusting settings based on occupancy sensors and energy demand—all while reducing the load on central building management systems. Its ability to operate independently ensures comfort and security even during network outages.
In renewable energy systems, such as wind farms or solar arrays, theECC1-1 monitors performance of individual turbines or panels, adjusting operations to maximize energy capture while alerting maintenance teams to issues like underperforming units. Its rugged design withstands the temperature extremes and vibration common in outdoor energy installations.
Related products:
ECC1-2 – Higher processing power variant with expanded memory for complex edge analytics
ECC1-1-PRO – Enhanced security model with advanced encryption and intrusion detection
ECC1-1-W – Wireless-enabled version with Wi-Fi and 4G/5G connectivity for remote sites
ECC1-1-IO – Expansion module adding 8 analog inputs for sensor-rich applications
ECC1-1-HV – High-voltage compatible model for direct connection to 110V/220V AC sensors
ECC-BASE-001 – DIN rail mounting base with integrated cooling for high-temperature environments
ECC-CLOUD-001 – Pre-configured software package for seamless integration with major cloud platforms
Installation and maintenance:
Before installing theECC1-1, verify that the power supply can deliver stable 24V DC with minimal ripple—voltage fluctuations can affect processing performance. Ensure the mounting location provides adequate airflow; while the controller is designed for industrial environments, sustained temperatures above 50°C may require additional cooling. Check compatibility with existing field devices: theECC1-1 supports most standard protocols, but older devices may require firmware updates or specific configuration settings outlined in the compatibility guide.
For ongoing maintenance, the ECC1-1 simplifies monitoring through its status LEDs, which indicate power, connectivity, and processing status. Monthly checks should include verifying network connections—loose Ethernet cables are a common source of communication issues in vibration-prone environments. Quarterly, review log files via the web interface to identify unusual patterns, such as frequent reboots or communication timeouts, which may signal underlying issues. Annually, update firmware to the latest version to access new features and security patches; the controller supports over-the-air updates, eliminating the need for physical access.
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Email: 3772179818@qq.com
Phone: +86 16626708626
