GE IS200WREAS1ADB module in stock

IS200WREAS1ADB is usually a module of the GE Mark V series. The following are the parameters that such modules may have:
Electrical parameter
Operating voltage: Generally there is a specific operating voltage range, such as common 24V DC, 110V AC, 220V AC, etc. Different application scenarios and equipment configurations will choose different operating voltages to adapt to the power supply situation on site.
Power consumption: The electrical power consumed by the module in normal working state, usually in watts (W), which is related to the energy consumption of the entire system and the choice of power capacity.
Input/output parameter
Input points: indicates the number of input signals that the module can receive, such as digital input signals or analog input signals, etc., different models of module input points may be different, common 8 points, 16 points, 32 points and so on.
Output points: that is, the number of control signals that the module can output, there are also digital output and analog output points, and the number of output points determines the number of external devices or actuators that it can control.
Signal type: The types of input and output signals are diverse, the digital input signal may be dry contact signal or wet contact signal, the analog input signal may be 0-5V, 0-10V, 4-20mA and other standard signals, the digital output signal is generally relay output, transistor output, etc. The analog output signal is usually 0-5V, 0-10V, 4-20mA and other continuously changing signals to meet the signal matching requirements of different sensors and actuators.
Communication parameter
Communication protocols: Support a variety of communication protocols, such as Profibus DP, Modbus RTU/TCP, Ethernet/IP, etc., through these protocols, the module can exchange data and communicate with other devices to achieve the integration of distributed control systems.
Communication rate: The communication rate determines the speed of data transmission, the common communication rate is 9.6kbps, 19.2kbps, 10Mbps, 100Mbps, etc. Different communication protocols and application scenarios will choose different communication rates to ensure the real-time and accuracy of data.
Communication interface type: there are generally RS-232, RS-485, Ethernet and other interface types, according to the actual communication needs and system architecture, choose the appropriate communication interface to connect the module with other devices.
Environmental parameter
Operating temperature range: It is usually required to work normally in a wide temperature range, such as -20 ° C to + 60 ° C or -40 ° C to + 70 ° C, to adapt to different industrial site environments.
Storage temperature range: The storage temperature range when the module is not working is generally wider than the operating temperature range, such as -40 ° C to + 85 ° C, to ensure the reliability of the module during storage and transportation.
Relative humidity range: It is generally required that the relative humidity is between 5% and 95%, without condensation, to prevent the influence of moisture on the internal circuit of the module.
Protection level: Protection level indicates the degree of protection of the module against external object intrusion and water intrusion, common protection levels are IP20, IP30, IP40, etc. Different applications need to choose the corresponding protection level of the module to ensure its normal operation in harsh environments.
Size and weight parameters
Dimensions: The length, width and height of the module, in millimeters (mm), which is very important for the installation and layout of the module in the control cabinet, and it is necessary to choose the appropriate size of the module according to the size and space requirements of the control cabinet.
Weight: Generally in kilograms (kg) as a unit, the size of the weight will affect the installation of the module and transportation costs.
Performance parameter
Response time: The time delay from the change of the input signal to the corresponding change of the output signal, including the input filtering time, processing time and output delay time, etc. The shorter the response time, the better the real-time performance of the module, which is very key for some control applications with high response speed requirements.
Accuracy: For analog input and output modules, accuracy is an important parameter, which indicates the accuracy of the module measurement and output of analog signals, usually expressed in percentages or bits, such as 0.1%, 12 bits, etc., the higher the accuracy, the stronger the module’s processing capacity for analog signals.
Reliability indicators: include mean time to failure (MTBF) and mean time to repair (MTTR), etc. MTBF represents the average time between failures of the module under normal working conditions, and MTTR represents the average time required to repair the module after failure. These indicators reflect the reliability and maintainability of the module.