Input Voltage Range: 12-48VDC
Output Voltage Range: 5VDC
Output Current: Maximum 10A
Efficiency: Greater than 90%
Size: 170mm x 105mm x 32mm
Weight: Approximately 120g
Operating Temperature: -20°C to +50°C
Storage Temperature: -40°C to +70°C
Environment Humidity: 5% to 95% relative humidity (non-condensing)
CPU: 32-bit RISC processor
VMIVME-7750 (www.sxrsrobot.com) is a remarkable PLC spare part from a well-regarded brand in the industrial automation field. This component is designed to play a pivotal role in enhancing the performance and functionality of Programmable Logic Controller (PLC) systems.
The core function of the VMIVME-7750 is to serve as a high-performance single-board computer module within the PLC system. It is responsible for executing complex control programs, managing data processing tasks, and facilitating communication between different components of the system. The VMIVME-7750 can receive input signals from various sensors, process these signals according to pre-programmed algorithms, and then send out control signals to actuators to regulate industrial processes precisely. It acts as the central processing unit for the PLC system, enabling efficient automation and control.
Model Number: 369-HI-R-M-0-E-0
Manufacturer: General Electric (GE)
Voltage Range: 240VAC
Frequency: 50/60Hz
Maximum Current: 10A
Maximum Power: 2400W
Protective Rating: IP20
Brand: GE
Model Number: IC800SSD104RS1
Voltage: 25.10 VV
Program Capacity: 45KB
Environmental Temperature: 5.11°
Processing Speed: 32.10 seconds
Output Frequency: 17Hz
Current Consumption: 804mA
Power Consumption: 2.47W
Heat Dissipation: 8.7BTU/hour
Number of Inputs: 33
Dimensions: 170mm x 125mm x 165mm
Control Method: Current Vector Control
Filter: Built-in 1A Filter
IC695CRU320(www.sxrsrobot.com) is a significant PLC spare part from a well-known brand in the industrial automation industry. This component is specifically designed to play a crucial role in the operation and control of Programmable Logic Controller (PLC) systems.
The core function of the IC695CRU320 is to serve as the central processing unit (CPU) module within the PLC system. It is responsible for executing user-defined programs, processing input signals from various sensors, and sending out control signals to actuators. The IC695CRU320 can receive analog and digital signals from sensors such as temperature sensors, pressure sensors, and proximity switches. After processing these signals according to the programmed logic, it controls the operation of devices like motors, valves, and relays to ensure the smooth running of industrial processes.
Processor: AMD SC520, with a clock speed of 133 MHz
User Program Memory: Maximum of 240 Kbytes
I/O Support: Supports 2048 discrete inputs and outputs
Analog Inputs/Outputs: Supports up to 32,640 analog input words and 32,640 analog output words (maximum)
Ethernet Interface: Has two built-in Ethernet ports, supporting 10/100 mbps transmission speeds and compatible with industrial Ethernet and Modbus TCP/IP
Dimensions and Weight:
Size: Not specifically mentioned, but generally modular in design
Weight: Approximately 0.95 pounds (0.43 kg) or 2.4 pounds (1.09 kg), depending on the source
Voltage Range: 100-240 VAC
Frequency Range: 50/60 Hz
Maximum Output Power: 5.5 kW
Maximum Output Current: 25 A
Operating Temperature Range: -10°C to 60°C
Storage Temperature Range: -40°C to 85°C
GE 8502-BI-DP (www.sxrsrobot.com) is a significant PLC spare part offered by General Electric (GE), a renowned brand with a long history in the industrial automation field. This component is engineered to play a vital role in enhancing the functionality and performance of Programmable Logic Controller (PLC) systems.
The core function of the GE 8502-BI-DP is to serve as an interface for communication and data processing within the PLC system. It is capable of receiving input signals from a wide range of sources, such as sensors that measure temperature, pressure, and flow rate. These signals are then processed and transmitted to other parts of the PLC system for further analysis and control. Additionally, the GE 8502-BI-DP can send out control signals to actuators to regulate industrial processes accurately.
DS200NATOG2A(www.sxrsrobot.com) is a significant PLC spare part from a well – established brand in the industrial automation field. This component is engineered to fulfill crucial functions within a Programmable Logic Controller (PLC) system, enhancing its overall performance and reliability.
The core function of the DS200NATOG2A is to serve as a communication and control interface. It can receive input signals from various sensors and devices, such as temperature sensors, pressure sensors, and limit switches. These signals are then processed according to pre – programmed logic within the PLC. Subsequently, the DS200NATOG2A sends out appropriate control signals to actuators, like motors, valves, and relays, to regulate industrial processes precisely.
GE H201TI 220VAC (www.sxrsrobot.com) is a notable PLC spare part from the renowned brand GE. This component is designed to play a vital role in enhancing the performance and functionality of industrial automation systems.
The core function of the GE H201TI 220VAC is to act as a reliable interface for signal processing and control within the PLC system. It is capable of receiving various types of electrical signals, both analog and digital, from different sensors and devices in the industrial setup. Once the signals are received, the GE H201TI 220VAC processes them according to the pre-defined logic and algorithms and then sends out appropriate control signals to the connected actuators.
Application Areas: The PQMII – T20 – C – A is suitable for a wide range of industries, including manufacturing, energy, and commercial buildings. In the manufacturing industry, it can be used to monitor the power quality of production equipment, ensuring stable operation and high – quality product output. In the energy sector, it helps in managing power generation, transmission, and distribution systems, improving the efficiency and reliability of the grid.
Application Case: In a data center, the PQMII – T20 – C – A was installed to monitor the power quality of the electrical supply. By continuously monitoring voltage, current, and harmonics, it detected high – level harmonic distortion that could potentially damage the servers. Based on the data provided by the PQMII – T20 – C – A, the data center management installed harmonic filters, which reduced the harmonic distortion and improved the power factor, resulting in a 12% reduction in energy consumption.
5. Competitor Comparison
Compared to other similar power quality monitoring devices in the market, the PQMII – T20 – C – A has several advantages. Its high – precision measurement, advanced data logging, and flexible communication capabilities are often superior, providing more accurate and comprehensive power quality information. The ease of integration and long – term data storage also make it a more attractive option for users who need to manage and analyze power quality data effectively.
6. Selection Suggestions
Measurement Requirements: Evaluate your specific power quality measurement needs, such as the required measurement range, accuracy, and harmonic analysis capabilities. The PQMII – T20 – C – A offers a wide measurement range and high – precision measurement, but make sure it meets your exact requirements.
Compatibility: Ensure that the PQMII – T20 – C – A is fully compatible with your existing electrical network and power management system. Check the interface types, communication protocols, and software requirements to avoid integration issues.
Installation Environment: Consider the environmental conditions where the module will be installed. If the environment has high levels of electromagnetic interference, temperature variations, or humidity, the module’s operating temperature range and noise – immunity features should be taken into account.
Budget: While the PQMII – T20 – C – A offers excellent performance and features, it’s important to consider your budget. However, also take into account the long – term benefits, such as improved equipment reliability and reduced energy costs.
High – Speed Processing: The VMIVME7768 629.385546 can perform complex calculations and data processing at high speeds. In a large – scale industrial data acquisition system, it was able to process sensor data from hundreds of channels in real – time. This high – speed processing allowed for quick decision – making and control, increasing the overall efficiency of the industrial process by 20%.
Reliability: It has a rugged design and is built with high – quality components. It can withstand electrical noise, vibrations, and temperature variations in industrial environments. In a long – term field test in a manufacturing plant with high levels of electromagnetic interference and mechanical vibrations, the VMIVME7768 629.385546 maintained stable operation with a mean time between failures (MTBF) of over 40,000 hours.
Flexible Expansion: The board features a VMEbus interface, which allows for easy expansion of functionality. An engineer can add additional I/O modules, communication cards, or specialized processing cards to meet specific application requirements. For example, in a military – grade industrial control system, additional encryption and communication modules were added to enhance security and data transfer capabilities.
4. Application Areas and Application Cases
Application Areas: The VMIVME7768 629.385546 is suitable for a wide range of industries, including aerospace, defense, power generation, and transportation. In the aerospace industry, it can be used for flight control systems, avionics data processing, and in – flight monitoring. In the power generation sector, it helps in managing power plants, controlling turbines, and monitoring grid stability.
Application Case: In a power generation plant, the VMIVME7768 629.385546 was installed to control the operation of a large – scale turbine. By continuously monitoring turbine parameters such as speed, temperature, and pressure, and making real – time adjustments, the efficiency of the turbine increased by 15%, and the maintenance intervals were extended by 25%.
5. Competitor Comparison
Compared to other similar single – board computers in the market, the VMIVME7768 629.385546 has several advantages. Its high – speed processing and reliability are often superior, providing more accurate and timely data processing and control. The flexible expansion capabilities also make it a more adaptable choice for different industrial applications, allowing for easy customization and future upgrades.
