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2024-11-27 BY
IN Company News

Emerson 1C31116G04 Analog Input module

Emerson 1C31116G04 is an Emerson analog input module commonly used in DeltaV automation control systems, especially for process control, automated monitoring and data acquisition applications. The module is used to receive and convert analog signals transmitted from field devices (such as sensors, transmitters, etc.) and transmit them to the system for further processing. The following is the detailed parameters and information of the 1C31116G04 module.

1. Product overview
Model: 1C31116G04
Type: Analog Input Module
Brand: Emerson
Applications: Widely used in DeltaV automation systems to receive and convert on-site analog signals, supporting a variety of industrial process control and automation systems.
2. Main functions
Analog signal acquisition: The module is capable of receiving analog signals from field sensors (such as temperature, pressure, flow, level, etc.) and converting them into digital signals that the system can process.
Multi-channel support: Usually multiple channels are supported and multiple analog input signals can be received at the same time.
Signal isolation: Provides electrical isolation between the input channel and the system to protect the system from electrical interference in the field.
High-precision data conversion: With high signal conversion accuracy, it can provide high-quality data input.
3. Technical parameters
Thermocouple input (Thermocouple) and RTD (Resistance Temperature Detector) temperature sensor support
Number of input channels: Typically 8 analog inputs, but different configurations may be available depending on the module configuration and system requirements.
3.2 Accuracy and resolution
Input resolution: Usually 16 bits, which can provide high-precision data acquisition and conversion.
Accuracy: Typical accuracy is ±0.1%, depending on the type of input signal selected and the specific configuration.
Range: The module supports configurable input ranges, such as 0-10V, 4-20mA, etc.
3.3 Power Supply Requirements
Operating voltage: Usually 24 V DC power supply, suitable for most industrial automation systems.
Power consumption: The power consumption of the module is generally low, usually < 10W, and the specific power consumption depends on the system load.
3.4 Communication and Integration
Communication protocol: The module supports communication with the DeltaV system, usually through the DeltaV I/O network (such as the HART protocol) for data transmission. Profibus, Modbus, or other industry standard communication protocols are also supported (depending on module version and configuration).
3.5 Response Time
Response time: The response time of the module is usually < 50ms, which can quickly respond to changes in field signals.
3.6 Input Impedance
For 4-20mA inputs, the module typically has an input impedance of 250Ω.
4. Environment and working conditions
Operating temperature range: usually between 0°C and 60°C, suitable for most industrial environments.
Storage temperature range: -40°C to 85°C, suitable for different storage conditions.
Humidity: The relative humidity is usually 5% to 95% (no condensation).
5. Module dimensions and installation
Mounting: Usually supports DIN rail mounting and is suitable for standard control cabinets or racks.
6. Protection function
Signal isolation: The built-in electrical isolation function of the module can effectively prevent electrical noise and interference from affecting the stability of the system.
Overcurrent protection: For 4-20mA input signals, the module provides overcurrent protection to avoid module damage caused by abnormal input signals.
2024-11-27 BY
IN Company News

Allen-Bradley Logix5561 1756-L61A module

The Allen-Bradley Logix5561 1756-L61A is a high-performance Programmable Automation Controller in the ControlLogix family of controllers from Rockwell Automation (PAC) module. The module belongs to the Logix 5000 series and is widely used in many fields such as industrial automation, process control and equipment management. It can be integrated with Allen-Bradley’s other modules, I/O modules, and control devices to build an efficient, flexible, and scalable automation control system.

The following are the details of the Logix5561 1756-L61A module:

1. Basic information
Model: 1756-L61A
Series: ControlLogix 5000 series
Type: Programmable Automation Controller (PAC)
Brand: Allen-Bradley (Rockwell Automation)
Application: The main controller module in the automatic control system is used to process input and output data, perform control tasks, manage processes, etc.
2. Main functions
High performance control: The 1756-L61A provides powerful processing power to support high-speed data processing and complex control algorithms. It is capable of handling multitasking and parallel operations and is suitable for industrial automation systems that require efficient control.
Integrated control: Supports control, monitoring, data acquisition, communication and drive control for a wide range of industrial automation applications.
Flexible scalability: The system can be expanded by expanding I/O modules, network interfaces, and other devices to meet the control needs of different scales.
Program compatibility: Support for RSLogix 5000 or Studio 5000 programming environments with rich programming options.
3. Technical parameters
3.1 Processing Performance
Processor type: Based on a high-speed 32-bit RISC processor, it provides efficient execution speed and multitasking capabilities.
Processing power: The ability to efficiently process and execute complex control tasks and support high-speed data flow processing.
3.2 Memory
Memory type: Built-in 1MB user memory, support for program and data storage.
Memory Expansion: Provides expansion storage options that can increase storage capacity by adding additional memory modules to support larger programs or more data.

3.4 Communication Ports
Communication interface: Provide Ethernet/IP interface, support high-speed Ethernet communication, and can exchange real-time data with other devices and control systems.
3.5 Power Supply and Power
Operating voltage: Usually 24V DC input, suitable for standard industrial power supplies.
Power consumption: Typical power consumption is 16W, depending on the load and system configuration.
3.6 Environment Requirements
Operating temperature range: Modules typically operate from 0°C to 60°C, suitable for most industrial environments.
Storage temperature range: -25°C to 85°C.
Relative humidity: Usually in the range of 5% to 95%, with no condensation.
Protection level: Module design is IP20, suitable for indoor installation.
4. Programming and development
Programming software: Support RSLogix 5000 or Studio 5000 programming environment. The RSLogix 5000 provides extensive programming capabilities and an easy-to-use interface to help users quickly design and debug control systems.
Control language: Supports multiple programming languages, These include Ladder Logic, Structured Text, Function Block Diagram, Sequential Function Chart, and instruction table (Instruction List), which can meet different programming needs.
2024-11-27 BY
IN Company News

ABB Bailey SPFEC12 Analog Input Field Equipment Communications Module

The ABB Bailey SPFEC12 is an analog input module from ABB that is commonly used in the Bailey INFI 90 series of process control systems. The module is responsible for receiving analog signals from field devices (such as sensors, transmitters, etc.) and converting them into digital signals for use by the control system. The following is a detailed description of the parameters and functions of the analog input module.

1. Product model and series
Model: SPFEC12
Series: Bailey INFI 90 series
Type: Analog input module
Brand: ABB
Application: Used in process automation control system to receive analog signal input, signal acquisition, conversion and processing.
2. Module functions
Analog signal input: The module is used to receive analog signals from the field (such as current, voltage, temperature, pressure, etc.) and convert the analog signal into the digital signal required by the system for further processing.
Signal isolation: It has a signal isolation function to ensure electrical isolation between the input signal and the control system to avoid interference and damage.
High-precision data acquisition: Provides high-precision analog signal acquisition capabilities for industrial processes requiring high-precision control and measurement.
3. Main technical parameters
The following are typical parameters of the ABB Bailey SPFEC12 analog input module (the parameters may vary depending on the specific application or configuration) :

3.1 Input Signal
Input type: Supports a variety of analog signal inputs, common ones include:
4-20 mA current input: suitable for pressure, flow, temperature and other transmitter output signals.
0-10 V voltage input: suitable for all kinds of sensors, transmitters and other equipment output voltage signals.
Thermocouple (RTD) input: Support temperature sensor input, can receive thermocouple signals, and process.
0-5V, 1-5 V voltage input: used to receive low voltage signals.
3.2 Input Channels
Number of channels: Typically, the SPFEC12 analog input module provides 8 or 16 independent input channels, each of which can be configured for a different signal type (e.g., 4-20 mA, 0-10V, RTD, etc.).
Input resolution: usually 12 or 16 bits to provide high accuracy to meet the requirements of accurate signal acquisition.
3.3 Signal Accuracy
Accuracy: A typical analog input module accuracy is usually ±0.1% to ±0.5%, depending on the type of input signal and the configuration of the module.
Input impedance: For current input signals (such as 4-20 mA), the input impedance of the module is usually 250 Ω or higher, ensuring signal accuracy and stability.
Input range: Supports multiple input ranges, such as 0-20 mA, 4-20 mA, 0-10 V, etc.
3.4 Response Time
Response time: The response time of the module is usually between a few milliseconds and tens of milliseconds, depending on the signal type and sampling frequency. The module should be highly responsive to the process signals that change rapidly.
3.5 Power Requirements
Operating voltage: Usually 24 V DC, compatible with most industrial automation systems.
Power consumption: The power consumption of the module is generally between a few watts and ten watts, depending on the module configuration and working environment.
4. Signal isolation and protection function
Electrical isolation of input and system: The SPFEC12 module usually provides electrical isolation between input and system at 1500V or higher to prevent interference of input signals from causing damage to the control system.
Overload protection: When the input signal exceeds the load range of the module, the module will automatically disconnect the input signal to prevent damage.
Anti-interference ability: The module has strong anti-electromagnetic interference ability and can work stably in industrial environment.
5. Communication and integration
Communication interface: The SPFEC12 module communicates with other modules (such as controllers and output modules) through the Bailey INFI 90 system bus. It supports integration with the INFI 90 controller for real-time data transfer.
Compatibility with other devices: The module supports compatibility with ABB process automation systems, field equipment such as sensors, transmitters, actuators, etc.
6. Environment and working conditions
Operating temperature range: usually 0°C to 60°C, suitable for widespread use in industrial environments.
Storage temperature: The storage temperature of the module is usually -40°C to 85°C, which can be stable in extreme environments.
Humidity: The module ADAPTS to 5% to 95% relative humidity (no condensation).
Protection level: Generally IP20, suitable for use in the control cabinet.
7. Dimensions and installation
Installation method: The SPFEC12 module is usually mounted with DIN rail for easy installation in a standard control cabinet.
Dimensions: The module is compact, suitable for installation in standard industrial control cabinets, takes up less space, and is easy to integrate.
8. Application field
The SPFEC12 analog input module is widely used in the following fields:

Process control systems: Widely used for process monitoring and control in industrial automation control systems, especially in the chemical, power, oil and gas industries.
Sensor signal acquisition: used to receive analog signals from various sensors such as pressure, temperature, flow, and liquid level.
Energy management systems: Convert analog signals from energy harvesting into digital signals for data analysis and decision making.
Automation control: Integrated into the automatic control system for signal acquisition, processing and feedback.
9. Maintenance and technical support
Maintenance requirements: The SPFEC12 module is designed to be reliable and usually does not require frequent maintenance. In the event of a failure, ABB provides technical support and services to help users diagnose the problem and repair or replace it.
Technical support: ABB provides a wide range of product documentation, installation manuals, and technical support hotlines to help users properly install, configure, and commission modules.
2024-11-27 BY
IN Company News

ABB DSQC661 3HAC026253-001 Robot power module

The ABB DSQC661 3HAC026253-001 power module is a power module designed by ABB for its robot control systems, particularly the IRB robot family. It is responsible for providing a stable power supply, supporting the operation of the servo drive system and the robot control system. This power module is mainly used in the field of industrial automation, especially in robot applications requiring high precision and high reliability.

Here are the details of the product:

1. Product model and series
Model: DSQC661
Product Number: 3HAC026253-001
Brand: ABB
Application: Robot power module to provide power support for power conversion and distribution in ABB robot control systems.
2. Main functions and effects
Power conversion: The power module receives and converts from an external power supply (AC power supply) to the DC power supply (DC voltage) required by the robot system to provide stable power to the robot controller and servo system.
Servo motor drive: The DSQC661 module provides the drive voltage and control signal for the servo motor, ensuring the high precision and stability of the robot movement.
Power distribution and regulation: Through power regulation and control, the module provides different voltages and currents for different robot components (such as controllers, sensors, actuators, etc.) to ensure the normal operation of each component.
3. Electrical parameters
Input voltage: usually AC 380V-480V, suitable for standard industrial power supplies.
Output voltage: The module converts the input AC to direct current, usually output 24V DC or 48V DC, depending on the needs of the control system.
Input current: The current ranges from 5A to 30A, depending on the power required.
Output power: The output power of the power module is usually in the range of 1kW to 5kW, and the specific output power varies according to the specific configuration.
Operating frequency: Suitable for 50/60 Hz power system.
4. Control and communication functions
Control mode: The power module adopts servo control technology to ensure stable power output and achieve accurate voltage and current control.
Feedback systems: Support the exchange of feedback signals with other components in the ABB control system, such as servo drives and robot controllers, to optimize overall system performance.
Communication protocols: Common industrial communication protocols such as RobotWare, Ethernet/IP, Modbus, Profibus, etc., ensure seamless communication and data exchange with ABB robot controllers such as IRC5.
5. Protection function
Overload protection: When the system load is too large, the module automatically limits the output current or shuts down to protect the system from damage.
Overvoltage/undervoltage protection: When the input or output voltage exceeds the predetermined range, the power module will automatically shut down to prevent damage.
Overheat protection: Built-in temperature sensor monitors the module temperature to prevent power damage caused by overheat.
Short circuit protection: When a short circuit is detected, the power module will quickly disconnect the power supply to avoid device damage.
Overcurrent protection: When the current exceeds the maximum safe limit, the power module automatically cuts off the current.
2024-11-27 BY
IN Company News

ABB DSQC609 3HAC14178-1 Robot Power module

The ABB DSQC609 3HAC14178-1 Robot Power Module is a power module designed by ABB for its robotic systems. It is commonly used in ABB robot control systems to provide the necessary power and drive for the robot. This module is one of the common power modules in ABB’s IRB robot series and is widely used in industrial automation. Here are the details of the product:

1. Model and series
Model: DSQC609
Product Number: 3HAC14178-1
Brand: ABB
Application: Robot power module, mainly used to drive the motor and control unit in the robot system.
2. Function and effect
Power supply: This module is used to provide a stable power supply to the robot controller and servo system.
Control and conversion: The DSQC609 is responsible for receiving and converting the power required by the robot servo system from the external power supply, and regulating and controlling the current and voltage.
Servo drive: Provides the power and control signals required by the servo motor to ensure that the robot performs precise actions and tasks.
3. Technical parameters
Input voltage: Usually AC 380-480V, depending on the configuration of the robot control system, the input voltage may vary.
Output voltage: Usually output stable DC voltage, used to drive the robot servo motor system.
Output power: The output power is usually in the range of 3kW-30kW, and the specific output power is different according to the requirements of the robot model and application.
Frequency: 50/60 Hz (to adapt to different regional power frequency).
Output current: The output current of the module will vary according to the specific power configuration and motor requirements, usually between 10A-50A.
4. Control and communication
Control type: Based on servo control, usually using vector control or position control.
Communication interface: Supports common industrial communication protocols such as RobotWare, and supports communication and data exchange with ABB robotic controllers such as IRC5.
Feedback system: Support to control the precise movement of the robot via encoder or position feedback system.
5. Protection function
The power module is equipped with some common protection features to ensure the stable and safe operation of the system:

Overload protection: prevents power module damage due to excessive load.
Overvoltage/undervoltage protection: Automatic voltage monitoring to prevent voltage fluctuations affecting module stability.
Overheating protection: Built-in temperature sensor to prevent module damage due to excessive temperature.
Short circuit protection: When a short circuit is detected, cut off the power supply immediately to avoid damage to the device.
Overcurrent protection: When the current exceeds the set range, the power module will stop working to protect the circuit.
6. Work environment
Operating temperature: usually 0°C to 40°C (may vary according to different environmental requirements).
Humidity range: The module is suitable for operating in an environment of 5% to 95% relative humidity, but avoid water droplets and condensation.
Protection class: Usually IP20, suitable for installation in industrial environments.
7. Dimensions and installation
Installation: The power module is usually standard DIN rail mount or panel mount, suitable for control cabinets or robot control systems.
Size: Size and weight will vary depending on power and configuration, usually medium size, suitable for robot control cabinet installation.
8. Application Scenarios
The DSQC609 3HAC14178-1 module is mainly used in ABB robotic systems, especially in the following areas:

Industrial automation: For robotic applications in automated production lines, such as welding, handling, packaging and other tasks.
Automotive manufacturing: Automated assembly and processing robots are widely used in the automotive industry.
Electronics Manufacturing: Robotic operations for precision assembly and quality control.
3C industry: In the production process of consumer electronics such as mobile phones and home appliances, the robot power module is also a key component.
9. Compatibility
The power module is designed for ABB robot controllers such as the IRC5 controller and is therefore compatible with ABB-branded robot systems. Its output power and voltage levels are adapted to a variety of ABB robot models, such as IRB 6700, IRB 6700/2, IRB 5400, etc.
2024-11-27 BY
IN Company News

Emerson 1X00781H01L Power module

Emerson 1X00781H01L is a Power Module from Emerson Industrial Automation that is typically used in servo drive systems, inverters or other industrial automation applications. Here are some possible key features and parameter information based on this product model

1. Product model
Model: 1X00781H01L
Brand: Emerson
Product Type: Power Module
2. Power module functions
Function: This power module is usually used to provide power supply for servo drive systems or inverters. Power modules can provide a stable power supply for servo motors and other high-performance drives, supporting high-speed and high-precision industrial automation control.
Application scenario: Widely used in automated production lines, robot systems, CNC machine tools, packaging machinery and other fields that require high stability, efficiency and response speed of power modules.
3. Main technical parameters
The following are some common power module parameters. For details, please refer to the product manual:

Input voltage: Usually in the 200-480 VAC range, but it depends on the product model.
Output power: The power output of this power module is usually between 2kW and 100kW, which varies according to different applications and configurations.
Output current: The specific output current depends on the type of motor being driven and the power requirements. Common ranges range from a few amperes to tens of amperes.
Operating frequency: 50/60 Hz
Efficiency: Usually above 90%, with high efficiency to reduce energy consumption.
4. Control functions and protocols
Control type: Generally includes current control, voltage control, or vector control (depending on the type of device being driven).
Communication protocols: Support a variety of industrial communication protocols, such as Ethernet/IP, Modbus, CANopen, DeviceNet, Profibus, etc., depending on the configuration of the module and control system.
Feedback types: A variety of encoder feedback types are usually supported, such as incremental encoders, absolute encoders, etc.
5. Protection function
Power modules are usually equipped with a variety of protection features to ensure the safe and stable operation of the system:

Overload protection: prevents the module from being damaged due to excessive load.
Overvoltage/undervoltage protection: Ensure that the voltage is kept within the safe operating range.
Overheat protection: When the working temperature of the module is too high, it automatically stops running or enters the safe mode.
Short circuit protection: prevents the module from being damaged due to short circuit.
Overcurrent protection: Prevent damage caused by current beyond the safe range.
6. Environment and working conditions
Operating temperature: The usual operating temperature range is 0°C to 40°C, and high temperature applications may require additional cooling systems.
Humidity: Usually working humidity is 5% to 95% relative humidity, but condensation should not occur.
Protection Level: Most industrial power modules are IP20 or higher, depending on the model and installation environment.
7. Dimensions and installation
Installation method: Generally support standard DIN rail installation, suitable for the installation of control cabinets and distribution boxes.
Dimensions: Size and weight will vary depending on the power size and configuration, and it is usually necessary to consider the installation space of the power module.
8. Application
This model power module is suitable for a variety of industrial drive systems, such as:

Servo drive system
CNC machine tool
Robot control
Automated production line
Process control system
2024-11-27 BY
IN Company News

A-B 1326AB-B520E-M2L Servo driver

The A-B 1326AB-B520E-M2L is an Ultra 3000 servo driver from Allen-Bradley (Rockwell Automation). It belongs to the Ultra 3000 series and is a servo drive designed for high performance applications and is widely used in automated control systems. Here are some of the key parameters and features of this drive model (based on the general specifications of the Ultra 3000 series) :

1. Model and series

Model: 1326AB-B520E-M2L
Series: Ultra 3000
2. Drive type

Type: AC servo drive
Input voltage: Usually 200-240 VAC (slightly different depending on model and configuration)
Output current: The specific output current and power depends on the configuration selected, but is generally in the 3A-15A range
3. Control mode
Control mode: position control, speed control, torque control, etc
Communication protocols: Support a variety of communication protocols, such as DeviceNet, Ethernet/IP, RS-232, RS-485, depending on the configuration
Position feedback: Support for many types of encoders or resolution feedback devices, common are incremental encoders and absolute encoders
4. Functional features
Built-in controller: Built-in digital controller for precise servo motor control
Automatic adjustment function: Support for automatic adjustment and adaptive control to optimize performance
High-speed response: Systems for high dynamic loads and fast feedback, widely used in automated production lines and robot control systems
Compact design: The Ultra 3000 has a smaller size than its peers, making it suitable for space-constrained applications
5. Applicable motor type
Suitable for AC servo motor, including brushless DC motor (BLDC), permanent magnet synchronous motor, etc
6. Protection and security
Overcurrent protection
Over/under voltage protection
Overheat protection
Overload protection
Short circuit protection
7. Environment parameters
Operating temperature: Usually between 0°C and 40°C
Humidity: It can work under non-condensing conditions, usually in the range of 5% to 95% relative humidity
Protection level: Most models are IP20, suitable for general industrial environment
8. Installation and compatibility
Installation method: DIN rail installation, suitable for control cabinet and distribution box installation
Compatibility: Compatible with Allen-Bradley controllers and other industrial automation systems, suitable for a variety of application scenarios
9. Power range
The power range of the drive may range from a few hundred watts to several kilowatts, depending on the requirements of the motor and load.
10. Commissioning and maintenance
It is equipped with debugging and maintenance tools to support parameter setting, monitoring and fault diagnosis through software.

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