About the DS200TCQAG1ADE
The DS200TCQAG1ADE printed circuit board is one of several Analog I/O boards used within the Mark V Turbine Control System Series. As explained in the brief product descriptipn provided above, the Mark V Series that this DS200TCQAG1ADE PCB belongs to is rather self-explanatory General Electric product series, as it exists with a series of specialized applications in the control and management systems of popular and compatible wind, steam, and gas turbine automated drive assemblies. With this being the case, this DS200TCQAG1ADE PCB's greater Mark V Series must still be considered obsolete as a whole, as its exists as a legacy General Electric product series discontinued for manufactured due to a retailer-introduced production discontinuation in one of the many years past its original General Electric release. While generally obsolete, this DS200TCQAG1ADE product's greater Mark V Turbine Control System Series still attracts some demand on the figurative automated industrial marketplace, as it exists as one of the final-produced GE Mark product series to incorporate the patented Speedtronic control system technology across a range of its offerings.
Hardware Tips and Specifications
The DS200TCQAG1ADE conditions and scales the analog signals coming in from terminal boards mounted within the <R1>, <R2>, and <R3> I/O cores. This includes thermocouple inputs, vibration inputs, pulse inputs, generator and line signals, voltage inputs, and servo valve outputs. Generally, this DS200TCQAG1ADE printed circuit board product offering's voltage suppression and protection strategy involves the incorporation of various Mark V Series-standardized voltage-limiting hardware components such as capacitors and resistors into its normal Mark V Series assembly. The DS200TCQAG1ADE includes multiple connectors. These include the JA, JB, JD, JE, JF, and JG connectors that carry inputs, outputs, and signals. The 2PL and 3PL connectors distribute power. This DS200TCQAG1ADE printed circuit board product offering's 2PL and 3PL Connectors are not the only connectors in the DS200TCQAG1ADE PCB's assembly detailed in terms of their function in the DS200TCQAG1ADE instructional manual above. For starters, this DS200TCQAG1ADE PCB's JA Connector is responsible for the Mark V TBQA Board's thermocouple inputs and cold junction compensation signal transmission, and the JB connector is pertinent to the TBQC Board's 4-20 mA voltage-rated thermocouple inputs and cold junction compensation. This DS200TCQAG1ADE product offering's JD Connector applies to an entirely different Mark V Series product in the TCTG Board, again as described in the DS200TCQAG1ADE instructional manual embedded in our manuals tab above for your convenience. Some of the other functionality-contextualized connectors in this DS200TCQAG1ADE PCB's normal Mark V Series assembly includes its:
- JE TCQC Board Various Signals Connector
- JF TBQC Board LVDT/LVDR Position Input Signals Connector
- JB TBQB Board Vibration Input Signals Connector
The DS200TCQAG1ADE offers software-configurable I/O constants for thermocouples, vibrations, pulse rates, and LVDT/LVDR positions. Jumper settings (hardware configuration) are used to change the milliamp output circuit configuration, output current range, and for RS232 port card tests. Additionally, jumper number 8 enables an oscillator located on the board. The DS200TCQAG1ADE is factory drilled at each corner for mounting. It is marked with codes and with the board ID, as well as with reference designators that help the users identify individual components. Other board components include TP test points, LED indicators, integrated circuits including FPGAs, and LED indicators. These indicators are primarily located together in one corner of the board. AX Control maintains a large inventory of GE parts including Speedtronic components. Many of these replacement parts have been moved into legacy status by the OEM. While they may be difficult to locate new, AX Control works hard to keep a ready-to-ship inventory so we can fulfill your needs for these components as quickly as possible.
