DS200TCPDG1BAA - 12V AC/DC Power Distribution Module

DS200TCPDG1BAA - 12V AC/DC Power Distribution Module DS200TCPDG1BAA - 12V AC/DC Power Distribution Module

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SPECIFICATIONS:

Part Number: DS200TCPDG1BAA
Manufacturer: General Electric
Series: Mark V LM
Supply Voltage: 12 to 30V AC/DC 10 amps max
Circuit Distribution: 3 or 5 circuits
Product Type: 12V AC/DC Power Distribution Module
Impedance to the ground: 75 Ohm
Power Requirements: +5 V dc, 6 A
Operating temperature: -30 to +65°C
Size: 30.48cm High x 21.33cm
Mounting: 2.75 snaptrack
Ambient: -40 to 158ºF
Mounting: 4 mounting Holes
Repair: 3-7 Day
Availability: In Stock
Weight: 0.3lb (0.13kg)
Country of Origin: United States

FUNCTIONAL DESCRIPTION:

DS200TCPDG1BAA is a 12V AC/DC Power Distribution Module manufactured and designed by General Electric as part of the Mark V LM Series used in GE Linear Microprocessor Control Systems. The Power Distribution Module is a low voltage (12 to 30V AC/DC) power distribution module designed to take a single power source and distribute that power to multiple circuits. It comes in 3 or 5 circuit models which can be linked together to achieve multiple circuits with a minimum of panel space. A common module On/Off switch and 10 amp breaker powers the distributed circuits. Each circuit has an individual On/Off switch and individual field connection terminals. The PDM has individual circuit protection with either a 3 amp fuse or a 3 amp breaker with an individual power LED and fault LED per circuit. The Power Distribution Board (TCPD), located in , distributes the 125 V dc power to the TCPS boards in each IO core, the Control Engine core, and the TCEA boards in core. The TCPD board provides switches for powering down each core individually. The digital I/O cores (, and ) do not receive their power directly from , these cores get their power from their associated IO core. The DTBC and DTBD (solenoid output power) terminal boards in the digital cores are powered directly from the TCPD board. The 120/240 V ac power for the ignition transformers connected to DTBC is supplied directly from the TCPD board. The CTBA terminal board in the receives power from the TCPD for power output monitoring.

TCPD CONNECTORS:

J7X – Distributes the 125 V dc power to the TCEA board in location one,, in the core.
J7Y – Distributes the 125 V dc power to the TCEA board in location three, , in the core.
J7Z – Distributes the 125 V dc power to the TCEA board in location five, , in the core.
J8A – Distributes the 125 V dc power to the DTBC board in the core for the solenoids.
J8B – Distributes the 125 V dc power to the DTBD board in the core for the solenoids.
J8C – Distributes the 125 V dc power to the DTBC board in the core for the solenoids.
J8D – Distributes the 125 V dc power to the DTBD board in the core for the solenoids.
J12A – Distributes the 125 V dc power to the DTBA board in the core for the wetted contact inputs.
J12B – Distributes the 125 V dc power to the DTBA board in the core for the wetted contact inputs.
JPD – Distributes 5 V dc power to the CTBA board in the core to be sent to the STCA board in the core
for the AC and DC power monitoring signals.
JZ1 – Connection for the TCEA boards and contact input power to drop across the external resistors.
JZ2 – Incoming AC from the TB1 terminal board connected through JZ2 to the DACA, (AC to DC converter), via
the JZ connector in the DACA box. Used for AC to DC conversion.
JZ3 – Alternate for JZ2 if the reduced voltage is needed for special contact output circuit (contact output #18 on the DTBC board of the ).
JZ4 – Auxiliary AC source connection point for applications that require an isolated input for an uninterruptable
power source connection(s) and/or switched backup power source. Typically used for a Black Start Inverter.
JZ5 – Standard AC power source connection for the ignition transformers.

TCPD CONFIGURATION:

HARDWARE: The BJS hardware jumper is supplied for isolation of the ground reference on systems with an external reference. When the jumper is in, the ground reference is provided for the external reference systems.

TCPD SWITCHES:

The TCPD board has several switches associated with it. Each switch toggles on and off the power for the particular core or board associated with it.

  • SW1 – Toggles power in the core.
  • SW2 – Toggles power in the core.
  • SW3 – Toggles power in the core.
  • SW4 – Toggles power in the core.
  • SW5 – Toggles power in the core.
  • SW6 – Toggles power on in the core.
  • SW7 – Toggles power on in the core.
  • SW8 – Toggles power on in the core.

TCPD POWER:

External 115/230 V AC power enters through the TB1 terminal board on the core and is hardwired to the TCPD board. It is then converted to 125 V DC via the DACA (AC to DC) block through the JZ2 connector. The resulting signals are distributed to various cores and boards through the designated connectors. An optional JZ3 connection provides reduced voltages for contact #18 on the DTBC board in the core. In the core, power supplied to the TCEA boards is conditioned across resistors via the JZ1 connector. The JZ5 connector links AC power to the ignition transformer signals in the core.

WOC has the largest stock of OEM Replacement Parts for GE Linear Microprocessor Control Systems. We can also repair your faulty boards and supply unused and rebuilt boards backed up with a warranty. Our team of experts is available round the clock to support your OEM needs. Our team of experts at WOC is happy to assist you with any of your automation requirements. For pricing and availability on parts and repairs, kindly contact our team by phone or email.

FREQUENTLY ASKED QUESTIONS:

What is the input voltage range of the module?

The input voltage range depends on the specific model but typically supports 12V AC or 12V DC. Some modules may have a tolerance level, allowing slight variations in input voltage, usually within ±10%. Always check the datasheet to ensure compatibility with your power source.

Does the module convert AC to DC internally?

Yes, if the module is designed for dual AC/DC input, it often includes a rectifier circuit to convert 12V AC to 12V DC. This ensures a steady DC output for connected devices. However, if the module is strictly DC input, it will not perform any conversion.

How many output terminals does the module provide?

The number of output terminals varies by model and application. Common configurations include 4, 8, 16, or more outputs, allowing multiple devices to be powered simultaneously. Each output is usually independently fused for safety.

What is the maximum output current per channel?

The maximum output current per channel depends on the module’s design. Typical ratings range from 0.5A to 3A per output, with the total module capacity determined by the power supply's rating. Exceeding this limit can trigger built-in overcurrent protection.