Manufacture:GE
Model:151X1235BC01SA01
Origin: United States (US)
Payment Term : 100%T/T
Warranty : 12 months
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The SPEEDTRONIC™ Mark VI turbine control is the current state-of-the-art control for GE turbines that have a heritage of more than 30 years of successful operation. It is designed as a complete integrated control, protection, and monitoring system for generator and mechanical drive applications of gas and steam turbines. It is also an ideal platform for integrating all power island and balance-of-plant controls. Hardware and software are designed with close coordination between GE’s turbine design engineering and controls engineering to insure that your control system provides the optimum turbine performance and you receive a true “system” solution. With Mark VI, you receive the benefits of GE’s unmatched experience with an advanced turbine control platform. (See Figure 1.)
The heart of the control system is the Control
Module, which is available in either a 13- or 21-
slot standard VME card rack. Inputs are
received by the Control Module through termination boards with either barrier or box-type
terminal blocks and passive signal conditioning.
Each I/O card contains a TMS320C32 DSP
processor to digitally filter the data before conversion to 32 bit IEEE-854 floating point format.
The data is then placed in dual port memory
that is accessible by the on-board C32 DSP on
one side and the VME bus on the other.
In addition to the I/O cards, the Control
Module contains an “internal” communication
card, a main processor card, and sometimes a
flash disk card. Each card takes one slot except
for the main processor that takes two slots.
Cards are manufactured with surface-mounted
technology and conformal coated per IPC-CC830.
I/O data is transmitted on the VME backplane
between the I/O cards and the VCMI card
located in slot 1. The VCMI is used for “internal” communications between:
■ I/O cards that are contained within its
card rack
■ I/O cards that may be contained in
expansion I/O racks called Interface
Modules
■ I/O in backup
Protection
Modules
■ I/O in other Control Modules used in
triple redundant control
configurations
■ The main processor card
The main processor card executes the bulk of
the application software at 10, 20, or 40 ms
depending on the requirements of the application. Since most applications require that specific parts of the control run at faster rates (i.e.
servo loops, pyrometers, etc.), the distributed
processor system between the main processor
and the dedicated I/O processors is very important for optimum system performance. A QNX
operating system is used for real-time applications with multi-tasking, priority-driven preemptive scheduling, and fast-context switching.
Communication of data between the Control
Module and other modules within the Mark VI
control system is performed on IONet. The
VCMI card in the Control Module is the IONet
bus master communicating on an Ethernet
10Base2 network to slave stations. A unique poling type protocol (Asynchronous Drives
Language) is used to make the IONet more
deterministic than traditional Ethernet LANs.
An optional Genius Bus™ interface can be provided on the main processor card in Mark VI
Simplex controls for communication with the
GE Fanuc family of remote I/O blocks. These
blocks can be selected with the same software
configuration tools that select Mark VI I/O
cards, and the data is resident in the same databaseThe Control Module is used for control, protection, and monitoring functions, but some
applications require backup protection. For
example, backup emergency overspeed protection is always provided for turbines that do not
have a mechanical overspeed bolt, and backup
synch check protection is commonly provided
for generator drives. In these applications, the
IONet is extended to a Backup Protection
Module that is available in Simplex and triple
redundant forms. The triple redundant version
contains three independent sections (power
supply, processor, I/O) that can be replaced
while the turbine is running. IONet is used to
access diagnostic data or for cross-tripping
between the Control Module and the Protection Module, but it is not required for
tripping.
GENERAL ELECTRIC IS200VCRCH1B
GENERAL ELECTRIC IS200VVIBH1C
GENERAL ELECTRIC IS200VTCCH1C
GENERAL ELECTRIC BOARD IS200SCTTG1AAA
GENERAL ELECTRIC PC BOARD IS200DAMBG1ABB
GENERAL ELECTRIC RACK WITH IS200CABPG1BAA
GENERAL ELECTRIC PC BOARD IS200SCTLG1ABA
GENERAL ELECTRIC BOARD IS200SCTTG1AAA
GENERAL ELECTRIC ConTROL BOARD IS200SCTLG1ABA
GENERAL ELECTRIC PC BOARD IS200F0SAG1AAA
GENERAL ELECTRIC IS200ESYSH3ABB
GENERAL ELECTRIC IS200SCTTG1AAA
GE IS200DSPXH1DBD
GENERAL ELECTRIC IS200SCTLG1ABA
GENERAL ELECTRIC IS200IVFBG1AAA
GENERAL ELECTRIC IS200PSCDG1A
GENERAL ELECTRIC IS200WETCH1AAA
GENERAL ELECTRIC IS200BICMH1ACB
GENERAL ELECTRIC IS200BICMH1ACB
GENERAL ELECTRIC IS200EXCSG1A
GENERAL ELECTRIC IS200RAPAG1BAA
GENERAL ELECTRIC IS200VATFG1AAA
GE IS200 BOARD IS200EMIOH1AFB
GENERAL ELECTRIC IS200WETBH1BAA
GE IS200IGDMH1AAA
GE IS200 FIBER OPTIC BOARD IS200EISBH1AAA
GE IS200 BOARD IS200ESELH1AAA
GENERAL ELECTRIC IS200PSCDG1A
GENERAL ELECTRIC IS200ICBDH1ACB
GENERAL ELECTRIC IS200ICBDH1BAA
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