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  • GE IS200TRLYH1B Relay Output Terminal Board
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  • GE IS200TRLYH1B Relay Output Terminal Board

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

    GE IS200TRLYH1B Relay Output Terminal Board

    • ¥33256.00
      ¥33250.00
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    Weight:4.000KG
    • Quantity:
    • (Inventory: 35)
Description

GE IS200TRLYH1B Relay Output Terminal Board


GE IS200TRLYH1B Relay Output Terminal Board

Part Number IS200TRLYH1B Manufacturer General Electric Country of Manufacture As Per GE Manufacturing Policy Series Mark VI Function Module Availability In StockThe IS200TRLYH1B is a Relay Output Terminal Board developed by GE under the Mark VIe series. There are 12 plug-in magnetic relays on the Relay Output with Coil Sensing (TRLY1B) terminal board. The first six relay circuits can be set up with jumpers to drive external solenoids or dry, Form-C contact outputs. For field solenoid power, a basic 125 V dc or 115/230 V ac source or an optional 24 V dc source with personal jumper-selectable fuses and onboard suppression can be offered. The next five relays (7芒聙聯11) are isolated Form-C contacts that are not powered. 

An isolated Form-C contact is used on output 12 for specialized uses like ignition transformers. IS200TRLYH1B Compatibility Simplex and TMR applications are supported by the PDOA/YDOA I/O pack when using the TRLY 1B. The terminal board's DC-37 pin connections accept the I/O pack as a plug-in. For simplex systems, connector JA1 is used, while for TMR systems, connectors JR1, JS1, and JT1 are used. IS200TRLYH1B Installation Wire the two I/O terminal blocks on the terminal board, TRLY1B Terminal Board Wiring, directly with the wires for the 12 relay outputs. Each block has 24 terminals that may accommodate wires up to #12 AWG and is secured with two screws. Each terminal block has a shield terminal strip on the left side that is connected to chassis ground. The solenoid power for outputs 1-6 should be connected to JF1. Power can be daisy-chained to additional TRLYs using JF2. Alternatively, when JF1/JF2 are not in use, power can be connected directly to TB3. 

 Connect output 12 of the special solenoid to connector JG1 to provide electricity. The factory removes jumpers JP1-JP6 and ships them in a plastic bag. If a field solenoid needs electricity, reinstall the proper jumper. Check each loop's energization individually in accordance with best practices, and install the jumpers as necessary. Remove the fuses from isolated contact applications to make sure that the power bus is free of suppression leakage. IS200TRLYH1B Operation Dry Contacts If these terminal boards are utilized as dry contacts to switch ac voltage utilizing circuits 01 through 06 while also receiving 125 V dc power through JF1, JF2, or TB3, ac power will be present on the "NO" relay terminal until all fuses and jumpers for a circuit are removed. 

Additionally, the contact will bind the ac voltage to N 125 V dc when it shuts. Similar circumstances apply to the P-125. The sum of the ac peak voltage and the 125 V dc is applied to MOVs linked between the dc and ground because the neutral of the majority of ac supply is grounded. The MOV rating is adequate to tolerate 120 V ac in those situations. The peak voltage will, however, exceed the MOV rating in 240 V ac applications, leading to failure. It is best to avoid using these circuits for ac switching because of this. Simplex On the TRLY 1B are mounted jumpers, fuses, and relay drivers. D-type connectors monitor feedback voltages and transmit control signals between the I/O processors and TRLY1B through JA1 for simplex operation. 

Relays have a 3.0 A rating and are driven at the frame rate. 500 V ac is the maximum allowable contact-to-contact voltage for one minute. For one minute, the coil to contact voltage is rated at 1,500 V ac. 10 ms is the normal operating time. TMR Relay control signals are fanned into TRLY1B for TMR applications from the three I/O processors R, S, and T through connectors JR1, JS1, and JT1. These signals are put to a vote, and the outcome determines which relay driver gets the signal. All three I/O processors provide shared diode power to the relay coils. Diagnostics The following diagnostic procedures are performed on the terminal boards' components: At the frame rate, each relay's output (coil current) is monitored and compared to the command. 

An alarm is latched if there is no agreement after two inspections in a row. An alarm is latched if the solenoid excitation voltage drops below 12 V dc, which is monitored downstream of the fuses. A composite diagnostics alert, L3DIAG xxxx, is triggered if any one of the outputs becomes unhealthy. A hardware incompatibility fault is produced when an ID chip is read by the I/O processor and a mismatch is discovered. Monitoring of relay contact voltage. 

The configuration application has information about each diagnostic's specifics. The diagnostic signals can be individually latched and, if they become healthy, reset with the RESET DIA signal. Configuration Adjustments to the board are made as follows: JP1JP12 jumpers Insert jumpers for the chosen relays if contact voltage sensing is necessary. FU1U12 fuses Two fuses should be added to each power circuit supplying relays 1-6 if electricity is required for them. For instance, FU1 and FU7 provide power to relay output 1. IS200TRLYH1B Features On the left edge of the board are huge black terminal blocks. Each terminal block contains twenty-four silver metal terminals. There are a total of 48 terminals in all. 

On the terminal blocks, each terminal has been designated in white type. On the right side of the board, there are four connector ports. Three connector ports are vertically aligned on the edge, while the fourth sits parallel to the connector port at the bottom. A transistor is located on both sides of each relay. A circular red MOV, or metal oxide varistor, is paired with each transistor. On the upper part of the board, five of these relays are vertically aligned. On the lower portion of the PCB, five more relays have been aligned.

Instructions and warnings related to the operation of the product:

The following specifications must be strictly observed:

 The technical specifications and typical applications of the product system must be strictly observed.

 PERSONNEL TRAINING: Only trained personnel may install, operate, maintain or repair the product system. These personnel must be instructed on the

These personnel must be instructed and briefed on the conditions in the hazardous area.

 Unauthorised modifications: No modifications or structural changes may be made to the product system.

 Maintenance Responsibility: It must be ensured that the product system is used only under appropriate conditions and in a condition fully suitable for use.

 Working environment: The user must fulfil the specified environmental conditions:

Safety regulations

The following safety regulations must be fully observed when (maintenance) work is carried out on the product system:

1 Disconnect completely.

2 Secure to prevent reconnection.

3 Confirm that the installation has been completed.

4 Perform grounding and short-circuiting.


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