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  • GE IS200PHRAH1A Analog I/O Module
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  • GE IS200PHRAH1A Analog I/O Module

    110V-380V
    5W-130W
    1A-30A
    1 year
    30
    United States, France, Japan, Viet Nam, Australia, Russia, Germany, Italy, Arabia

    GE IS200PHRAH1A Analog I/O Module

    • ¥29463.25
      ¥30254.24
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    Weight:3.400KG
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Description

GE IS200PHRAH1A Analog I/O Module


GE IS200PHRAH1A Analog I/O Module

Part Number IS200PHRAH1A Manufacturer General Electric Country of Manufacture As Per GE Manufacturing Policy Series Mark VI/VIe Function Module Availability In StockIS200PHRAH1A is an HART Enabled analog I/O module developed by General Electric. It is a part of GE Mark VIe system. An electrical link between one or two I/O Ethernet networks and an analog input/output terminal board is provided by the Highway Addressable Remote Transducer (HART) Enabled Analog Input/Output (PHRA) pack. 

This pack includes an acquisition board tailored to the analog input function as well as a processor board that is shared by all Mark VIe distributed I/O packs. The first eight analog inputs of the pack can be set up as 5 V inputs or 4-20 mA current loop inputs, and the pack can handle up to 10 analog inputs in total. It is possible to set up the final two inputs as 4-20 mA or 1 mA current inputs. On the terminal board are the load termination resistors for the inputs of the current loop, and the PHRA senses the voltage across these resistors. Two outputs for 4-20 mA current loops are supported by the PHRA as well. 

The PHRA may also relay HART messages between field devices equipped with HART and an asset management system when operating in 4-20 mA mode (AMS). Any inputs or outputs are available for connecting these HART-capable field devices. COMPATIBILITY The HART Enabled Analog Input Terminal Board and PHRA are compatible (SHRA). The number of I/O packs employed in a signal path is referred to as the control mode. One I/O pack and one or two network connections are used by simplex. INSTALLATION Mount the selected terminal board firmly. Directly connect one PHRA I/O pack to the connector on the terminal board. Use the threaded studs next to the Ethernet ports to mechanically secure the pack. 

The studs slip into a mounting bracket made for the particular style of the terminal board. It is important to position the bracket such that the DC-62 pin connector between the terminal board and the pack is not subjected to a straight-angle force. Only one adjustment should be necessary during the lifespan of the product. Depending on the setup of the machine, connect either one or two Ethernet wires. Either port will allow the pack to function. When using dual connections, it is customary to link ENET1 to the network connected to the R controller. Connect the connector on the side of the pack to a power source to power the battery. 

Because the I/O pack has an inherent soft-start feature that regulates current inrush on power application, it is not essential to turn off the power before plugging the cable in. If necessary, set up the I/O pack using the ToolboxST program. See also the section on auto-reconfiguration. OPERATION The processor board is common to all Mark VIe Ethernet I/O packs or modules. It contains the following: High-speed processor with RAM and flash memory Two fully independent 10/100 Ethernet ports with connectors Hardware watchdog timer and reset circuit Internal temperature sensor Status-indication LEDs Electronic ID and the ability to read IDs on other boards Input power connector with soft start/current limiter Local power supplies, including sequencing and monitoringIO PACK, 

Main Functions

Power system monitoring and control:

The power interface board can be used for power system monitoring and control equipment to ensure the safe, stable and reliable operation of the power system.

Power plant automation:

In the power plant, it can be used to connect and manage the power supply of the mastering system and monitoring equipment to improve the automation level of the power plant.

Power transformer and distribution:

Applicable to substations and distribution stations, it is used to govern the power supply of transformers, circuit breakers and other equipments to ensure the high efficiency of power transmission and distribution.

Industrial Process Mastering:

In manufacturing and chemical workshops, this power interface board can be used for power management of automation systems, inner and control equipment to enhance productivity and safety.

Building Automation:

It can be used in building automation system, power supply to lighting, air conditioning, security equipment, etc., to achieve intelligent management of building equipment.

Railway flag signal system:

In the railway system, it is used in the power management of railway flag signal equipment and control system to ensure the stable operation of railway signal system.

Smart Grid:

In the smart grid, the power interface board can be used to connect and manage the digital power equipment and promote the intelligent development of the power grid.

Traffic Flag Signal System:

In the traffic flag signal system of routes and intersections, it is used to supply power to the flag master and equipment to ensure the normal display of traffic signals.

Aerospace:

In aviation and aerospace, the power interface board can be used in the control system of aircraft and spacecraft to provide stable and reliable power support.

It is suitable for land initiatives, oilfield equipment and other categories, providing power support for various land engineering equipment.

The IO module has the following main functions

Input Function

The IO module can receive input signals sent by external devices and convert them into digital or analogue signals for use by the computer system or control system. These input signals can come from a variety of sensors, such as temperature sensors, pressure sensors, photosensitive sensors and so on. By receiving and parsing these input signals, the system can monitor and control the external environment in real time.

Output Functions

The IO module is capable of converting the output signals generated by a computer system or control system into the form required by an external device. These output signals are typically used to control actuators such as motors, valves, lights, etc. By sending appropriate output signals to external devices, the system enables control and operation of the external environment.

Data Acquisition and Processing

The IO module is capable of acquiring data from external devices and transferring it to a computer system or control system for further processing. This enables the system to acquire environmental data, status information and user inputs in real time and make appropriate decisions or perform specific tasks based on these data.

Communication Interfaces

IO modules are usually equipped with different types of communication interfaces, such as serial interfaces (RS232, RS485), Ethernet interfaces, CAN bus interfaces, and so on. These interfaces enable IO modules to exchange data and communicate efficiently with computer systems or other external devices.

 



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