About the IS200DSPXH1BD
The IS200DSPXH1BD is a Digital Signal Processor PCB created by General Electric as a part of the Innovation Series. The Innovation Series that this IS200DSPXH1BD device belongs to has to be described as a subseries of the greater Mark VI Turbine Control System Series that this IS200DSPXH1BD device was truly manufactured for. This IS200DSPXH1BD PCB product's greater Mark VI Turbine Control System Series, as it is known at length, exists as a massive functional upgrade on the previous industry-standard Mark V Turbine Control System Series of a similar full extended series title, as the Mark V Series's established gas and steam possible applications were added on to by the wind turbine possible functional application in the Mark VI Series' rollout. This IS200DSPXH1BD product's greater Mark VI Series is also generally considered valuable for the fact that it exists as one of the final-developed GE Mark Series iterations incorporating the patented Speedtronic control system technology into a number of product offerings.
Hardware Tips and Specifications
The IS200DSPXH1BD is also known by the acronym DSPX. It can control the motor and bridge regulators as well as all of the gate functions for the system. It has the ability to also control the field control applications on an EX2100 exciter module. The DSPX can process power, logic functions, and can interface with other PCBs. It has several memory elements that come standard. It has add-only memory, flash memory, RAM, and NVRAM that has the capability to store a wide-ranging array of information. There are LED indicators that are on the faceplate of the IS200DSPXH1BD. These two LEDs are labeled “Status” and “Fault”. The DSPX also has a male 12-pin jack that is labeled EMUL and a jack with 16-pins that is labeled HS Serial Port. On the PCB portion of this card, there are many capacitors, diodes, and resistors. There are 16 integrated circuits, 7 network resistors, 3 transistors, 6 total ferrite beads, and a P-1 connector for a card slot.
As the user is installing the IS200DSPXH1BD, it is crucial to make sure the card is installed into the correct slot on the card rack backplane. While the card slots on the backplane of an Innovation Series card rack may be individually keyed, trying to insert the wrong board into the incorrect slot could result in damage to the card and the card slot. To avoid the build-up and discharge of static electricity, it is also vital to maintain antistatic measures when handling and installing the DSPX. In terms of installation, it can be assumed that this IS200DSPXH1BD printed circuit board offering is installed in a standard VME Rack Installation Assembly, given its possession of the characteristic VME Rack metallic mounting faceplate. This IS200DSPXH1BD products is not surrounded by many original GE instructional manual materials online, although it is still able to benefit from its General Electric original manufacture, as the IS200DSPXH1BD functional product number itself was specially designed by GE to illustrate a number of relevant IS200DSPXH1BD Board qualities through a series of consecutive functional naming elements. For starters, the IS200DSPXH1BD product number begins with an iteration of the dual-functional IS200 series tag dictating this IS200DSPXH1BD device's normal Mark VI Series assembly version as well as its domestic original GE manufacture location. Some of the other relevant IS200DSPXH1BD qualities revealed in this manner include this IS200DSPXH1BD device's:
- DSPX functional product acronym
- Group one Mark VI Series grouping
- Conformal PCB coating style
- Two-fold significant revision history
