About the DS3800DSQD1A1A
This DS3800DSQD1A1A printed circuit board product offering from General Electric was originally specifically designed and produced for placement in their Mark IV Turbine Control System Series as a printed circuit board. This loose official functional product description was more than likely encouraged by this DS3800DSQD1A1A product's attribution to the now-obsolete Mark IV Turbine Control System Legacy Series that had experienced a total manufacturing discontinuation due to a retailer-identified whole-series obsolescence at some point in the many years beyond its initial GE product series release. While generally definable as an obsolete GE Mark product series, the Mark IV Turbine Control System Series containing this DS3800DSQD1A1A product here is still able to attract some concerted demand on its greater general automated industrial marketplace, as it is one of General Electric's final-developed Mark product series to incorporate the patented Speedtronic control system technology into many of its different options.
Hardware Tips and Specifications
As with any General Electric printed circuit board product offering made available to our new and reconditioned inventory here, this DS3800DSQD1A1A printed circuit board or PCB for short's specific intended Mark Series Suite functionality is introduced through the addition of a series of specialized hardware component additions. The GE Speedtronic Circuit Board DS3800DSQD1A1A is 3 inches in height and 7 inches in length. The board features 32 indicator LEDs, multiple capacitors, and 16 jumpers. The GE Speedtronic Circuit Board DS3800DSQD1A1A also is populated with 1 50-pin connector. The drive is designed to operate within a range of temperatures and if the temperature inside the drive is above the range the drive will shutdown without operator intervention. Hot conditions can lead to component failure or intermittent errors. It can also lead to a fire hazard.
This is one of several trip conditions that can occur. A trip condition can also be an over voltage condition. This occurs when the voltage entering a circuit is above a threshold. Over voltage can damage components. It can also cause a fire or cause component failure. Another condition that leads to a trip condition is drive overload. This might indicate a problem with the installation or that the drive is underpowered for the work load. Early component failure can occur if the motor in overloaded. It can result in excessive heat and fire. If a trip condition occurs it is best practice to not restart the drive until the root cause of the failure is understood. For example, you might find that the drive air vents are blocked by cables or that the drive is installed too close to other devices. In that case, move the drive away from other equipment or make more open space by removing heat generating equipment from the room. Given the fact that this DS3800DSQD1A1A printed circuit board product offering's greater Mark IV Series is essentially a now-discontinued legacy product series, the DS3800DSQD1A1A functional product number itself can be identified as a primary source of DS3800DSQD1A1A Board hardware information, as it indirectly describes various DS3800DSQD1A1A Board hardware details through a series of consecutive functional naming components. For instance, the DS3800DSQD1A1A functional product number begins with the dual-functioning DS3800 series grouping tag detailing this DS3800DSQD1A1A PCB's normal Mark IV Series assembly as well as its domestic original manufacture location. Some of the other relevant hardware details exposed in this manner include the DS3800DSQD1A1A Board's DSQD functional product description as well as its group one Mark IV Series product grouping.
