GE DS200FGPAG1A Gate Pulse Amplifier Board

GE DS200FGPAG1A Gate Pulse Amplifier Board

Part Number DS200FGPAG1A Manufacturer General Electric Country of Manufacture As Per GE Manufacturing Policy Series Mark V Function Module Availability In StockPower is delivered to one phase of an SCR bridge on the GE Gate Pulse Amplifier Board DS200FGPAG1A, cell voltage data is gathered, and AC to DC control voltage is transformed. The DS200FGPAG1A board features one sending fiber optic port and 14 receiving fiber optic ports for an extremely fast and stable network. Duplex fiber optic networks are served by two receiving ports, whereas simplex fiber optic networks are served by the remaining ports. 

Because electrical interference does not impact the messages, fiber optic networks are highly helpful in an industrial environment. As a result, fiber optic cables can be used in conjunction with 3-phase power cables or any other wire. Fiber optic links can also extend further than copper wire networks. If repeaters are added to the networks, the runs can be even longer. The length can be doubled by using repeaters. A maximum of two repeaters can be added to the network. 

When designing fiber optic cable routes, make sure the bend radius does not exceed the specifications' recommended radius. They may have degraded the transmission or destroyed the cables if they were tighter. The signal power can be reduced or increased to configure the fiber-optic network. This is determined by the length of the fiber optic cable as well as other factors. The board is subject to harm by static electricity. 

Keep the board in its protective container until you're ready to install it to reduce the risk.DS200FGPAG1A (GE Gate Pulse Amplifier Board) supplies power for one phase of a SCR bridge, collects cell voltage information, and converts AC current to the DC control voltage.nnThe DS200FGPAG1A board (LCI) has a fast and reliable network from 1 fiber optic port for transmitting and 14 fiber optic ports for receiving. Two receiving ports are Two of the receiving ports are fixed with the duplex fiber optic networks, the rest are fixed with simplex fiber optic networks.?nnIn a manufacturing environment, Fiber optic networks are especially useful. Signals are not impacted by the electrical interference. You have the capability to run the fiber optic cables (bundled with the 3-phase power cables) or any other cable.?nnFiber optic cables can run longer than copper wire networks. 

If repeaters are added to the networks, the fiber optic cables run time can be doubled. You may add a maximum of 2 repeaters to the network. Be sure to check that the bend radius is not tighter than the recommended specifications when designing the fiber optic cabling routes. The signal may be weakened or damage the cables if they are tighter. By reducing or increasing signal strength, you can configure the fiber optic network, but this depends on the length of the fiber optic cables and additional factors.nnStatic electricity can damage the DS200FGPAG1A board (LCI)! 

In order to minimize this risk, leave DS200FGPAG1A in the protective packaging until you are ready to install.?nnFor the Load Commutated Inverter (LCI), DS200FGPAG1A has three basic functions. The functions DS200FGPAG1A provides are, gate driver, SCR status monitor and switching power supply.?Every DS200FGPAG1A provides gate power for one phase of a SCR bridge. DS200FGPAG1A collects cell voltage information from up to 12 FHVAs and sends this information back to the LCI control. DS200FGPAG1A receives a power input of 120 Vrms +/-20% AC.The DS200FGPAG1A switching power supply transforms the AC input into the various DC control voltages needed by the gating and status functions. 

The DS200FGPAG1A gating and status functions that need these transformed voltages are: P90, P40, P15, and P5. These are the functions, respectively, for gate pedestal power, gate power, gate bias for power MOSFETs, and logic power.nnnnSCR voltage status information through a fiber optic linke from each of the 2-12 FHVA boards connected to DS200FGPAG1A, is collected by DS200FGPAG1A?s status circuit. DS200FGPAG1A's status circuit multiplexes the optical signals, the information is then transmitted per the serial fiber-optic link back to the control.

The GE Motors and Industrial Systems Gate Pulse Amplifier Board? manual for DS200FGPAG1A, explains general information about?DS200FGPAG1A.Circuits, switching power supply, and power supply under voltage on?DS200FGPAG1A are explained. DS200FGPAG1A?s manual also explains?DS200FGPAG1A's application data (i.e. test points and fiber optic connectors).

OTHER INFORMATION

• Available with either the 1.1 GHz, 1.6 GHz or 1.8 GHz  Pentium® M processor  

• 1.4 GHz Pentium M processor coming soon  

• Up to 2 Mbyte of advanced L2 cache  

• Up to 1.5 Gbyte DDR SDRAM  

• Up to 2 Gbyte bootable CompactFlash on secondary IDE (see  ordering options)  

• Internal SVGA and DVI controller  

• Serial ATA support through P2 rear I/O  

• 400 MHz system bus via Intel® 855GME chipset  

• Ethernet controller supporting 10BaseT and 100BaseTX  through the front panel  

• Gigabit Ethernet controller supporting 10BaseT, 100BaseTX  and 1000BaseT interface with optional VITA 31.1 support  

• Four asynchronous 16550 compatible serial ports  

• Four Universal Serial Bus (USB) Rev. 2.0 connections, two on  the front panel and two rear I/O  

• PMC expansion site (PCI-X, 66 MHz)  

• 32 Kbyte of nonvolatile SRAM  

• Operating system support for Windows® XP, Windows 2000,  VxWorks®, QNX® , LynxOS® and Linux