About the DS200IMCPG1BBA
This DS200IMCPG1BBA printed circuit board product offering from General Electric was originally designed and manufactured specifically for placement in the Mark V Turbine Control System Series. The Mark V Series that this DS200IMCPG1BBA printed circuit board or PCB for short belongs to has a series of set specific applications in the management and control systems of popular and compatible wind, steam, and gas turbine automated drive assemblies.
This DS200IMCPG1BBA device's greater Mark V Series is something of an attractive General Electric Mark product series, as it exists as one of the lastly-produced GE Series to make use of the patented Speedtronic control system technology first seen with the release of the previous Mark I Series in the mid to later 1960s.
Hardware Tips and Specifications
The DS200IMCPG1BBA can be connected through a cable to the DS200SDCC Drive Control Board. Connect the cable to the 1PL connector on the Drive Control Board.
Generally, this DS200IMCPG1BBA printed circuit board's voltage suppression and limitation strategy involves the incorporation of various Mark V Series-standardized voltage-limiting hardware components into its normal Mark V Series assembly. The DS200IMCPG1BBA functional product number itself can be considered a primary source of DS200IMCPG1BBA Board information; coding for various details in a series of consecutive functional naming segments. For example, the DS200IMCPG1BBA functional product number begins with the dual-functional DS200 series tag delegating this DS200IMCPG1BBA PCB's normal Mark V Series assembly as well as its domestic original manufacture location. Some of the other relevant hardware details revealed in this DS200IMCPG1BBA PCB's functional product number include its:
- IMCP functional product abbreviation
- Group one Mark V Series product grouping
- Normal PCB coating style
- Full three-fold revision history
The board is populated with two green LEDs that indicate the status and activity of the board. However, the LEDs are only active while power is supplied to the board so to view the LEDs you must open the board cabinet door while power is present in the drive. This potentially exposes you to high voltage and so great care must be taken.
If the need arises for you to view the LEDs, open the cabinet door but do not touch anything inside the drive and do not have anything in your hands that might drop in the drive or touch components in the drive. If anything drops in the drive remove all power to the drive first. Either remove the fuses in the power supplies or use the emergency shutoff device near the drive. A tester can be used to verify that power is not present. Reach in the cabinet and remove the item, if possible. A hand-held vacuum can be used to clean the components of all debris, dust, and missing items if you can not locate the item that fell. You can restart the drive once the item is retrieved.
The board is populated with one 40-pin connector and one 34-pin connector and they are used to receive and transmit control signals to other boards and components in the drive.
