About the DS3800NHVM
This DS3800NHVM printed circuit board product offering from General Electric was originally designed and produced specifically for placement in the Mark IV Turbine Control System Series, as evidenced by its possession of the DS3800NHVM functional product number asserting a normal style of Mark IV Series assembly. The Mark IV Series that this DS3800NHVM printed circuit board or PCB for short belongs to is something of a self-explained GE Mark product series, at least based on its full extended series name, as it pertains to a specific set of functional applications within the management and control systems of General Electric-compatible gas and steam turbine automated drive assemblies. These potential applications unfortunately do not extend to the alternative energy-based wind turbine automated drive settings known to the later-developed Mark VI Turbine Control System Series. While this may be true, the Mark IV Turbine Control System Series is still something of an attractive Mark Series iteration, given its nature as one of the trusted automated industrial seller's final-developed Mark product series to make use of the patented Speedtronic control system technology. This Speedtronic technology was originally introduced to the automated industrial landscape with the advent of the Mark I Series in the mid to later 1960s.
Hardware Tips and Specifications
The DS3800NHVM is a very complex circuit board produced by General Electric as part of their Speedtronic Mark IV Turbine series. The DS3800NHVM has seventeen average-sized red diodes, twenty-six small black and silver diodes, ten average-sized black diodes, and six clear diodes. A diode is used to have the energy flow in only one direction on the board. The DS3800NHVM also has twelve raised red LEDs. An LED is also referred to as a light emitting diode. These diodes light up as the current flows through them. The DS3800NHVM has forty-eight large resistors. The base color of the resistors ranges between grey, brown and black. The DS3800NHVM also has seventeen average size resistors whose base color is light blue. The DS3800NHVM also has eleven small resistors whose base color is also light blue. Every resistor on the board has a set of up to five different colored stripes over its base color. These stripes show how much energy can go through each resistor at any given time. The DS3800NHVM also features thirteen relays. The relays are large black boxes that regulate how much energy the board takes in and allows the DS3800NHVM to still function even if the energy current is too strong. The DS3800NHVM also stores energy in electric fields using capacitors. The DS3800NHVM has six large metal capacitors, twelve large black capacitors, and twelve average-sized white capacitors. The DS3800NHVM has eight male ports that allow it to be connected with other circuit boards.
If you’re interested in a quote or more information please call AX Control. The Mark IV Turbine Control System Series that this DS3800NHVM printed circuit board product offering belongs to, as identifed above in our introductory paragraph here, is a legacy General Electric product series discontinued due to obsolescence. With this being the case, the DS3800NHVM PCB here is not followed online by any great amount of originally-produced instructional manual materials. As this is true, the DS3800NHVM functional product number itself can actually be isolated as a decently-strong source of DS3800NHVM Board hardware component and component specification information, as it codes for various DS3800NHVM Board details through a series of General Electric-developed functional naming segments. For example, this DS3800NHVM functional product number in particular is actually started off through an instance of the dual-functional DS3800 series tag responsible for identifying this DS3800NHVM PCB's normal Mark IV Series assembly version as well as its domestic location of original General Electric manufacture. Some of the other relevant hardware details specific to the DS3800NHVM PCB revealed in this manner would have to be identified as its NHVM functional product revision as well as its lack of significant GE product revisions.
