Description
hardware flow control. It is an ideal choice in the field of industrial automation.
3.2 Upgrading of regulators and control systems
For the upgrade of the regulator, the original excitation control system cabinet structure is retained, and the entire system is upgraded by upgrading the board card.
Among them, the CoB main board, MUB measurement board, F10 input and output board, and LCP local control panel were replaced with the PEC800 controller,
CCM measurement control interface board, CIo comprehensive input and output board, and ECT excitation system control terminal in the Unitrol6800 system respectively.
For the upgrade of the power cabinet, since the power of the excitation system will not change during the transformation, the N-1 redundant configuration of the five
UNL3300 rectifier bridges in the original system has not been changed, but the control and measurement parts of the rectifier
bridge have been upgraded. And the fan circuit and power control part of the rectifier bridge have been upgraded. Among them, the signal interface board (PsI) was
changed to the rectifier bridge signal interface board (CsI), the circuit breaker of the rectifier bridge panel was changed from CDP to CCP, and the rectifier bridge control
interface board (CIN) was changed to the rectifier bridge control board (CCI).
For the upgrade of the demagnetization cabinet, the switch control part was mainly upgraded. By adding a CIo board to the switch cabinet and installing a special
power distributor and relay to control the demagnetization switch, the original PsI board was removed. Secondly, in the transformation of the current detection part,
the Hall element in the Unitrol5000 system was replaced by the current relay of the Unitrol6800 system.
For the upgrade of the excitation current measurement part, the rectifier side Hall element of the rectifier bridge was replaced with an AC side CT. Relying on the linearity of the
CT, the current sharing coefficient of the excitation system was increased to 0.98, so that the role of the rectifier bridge can be fully exerted in the system. .
For the upgrade of the fan power supply circuit of the rectifier cabinet, each power cabinet can independently control the power supply of the fans in the
cabinet to avoid the problem that if the power circuit relay fails in the original system, all the fans will not work.
3.3Unitrol6800 functional logic configuration points
The Unitrol6800 system adds PT slow-blow judgment logic, and defines the actions of PT slow-blow as alarm and channel switching. The system PT
slow-blow logic pressure difference is 2% to ensure sufficient sensitivity. Since some external reasons will cause the sequential increase or decrease of magnetic
commands, a special increase or decrease magnetic contact adhesion judgment logic has been added to effectively lock out external causes. At the same
time, it can
avoid the jitter of the relay on the increase or decrease magnetic circuit and ensure the stability of the circuit. The excitation temperature detection is used to
alarm in the system, but it cannot control the system tripping. The tripping intermediate relays K291 and K292 use high-power (≥5w) relays to avoid
the problem of tripping of the excitation system
due to signal interference.
4 Problems discovered during the transformation and their solutions
After upgrading the excitation system from Unitrol5000 to Unitrol6800, since the partition between the regulator cabinets of the original excitation switch
cabinet was removed and the mounting backplate of the regulator was moved forward, the hot air from the excitation switch cabinet will enter the excitation regulator
cabinet, causing the cabinet to be damaged. The internal temperature rises, and sometimes the temperature can even reach 45°C. In order to avoid problems caused
by high temperatures, partitions were added to reduce the temperature inside the switch cabinet and control the
temperature to 30°C.
During the maintenance process, if the grounding carbon brush of the generator is removed, it is easy to cause the rotor grounding relay isoLR275 to
malfunction. Therefore, during maintenance, the power supply of the grounding relay will be disconnected and the large shaft in the magnetic cabinet will be short-circuited.
5 Conclusion
Through the transformation of the excitation system, our company not only meets the needs of increasing the generator capacity, but also
eliminates the safety hazards of ARCnet failure or flat cable damage in the excitation system of the unit. It can find the fault point during maintenance
and prevent the unit from non-stop. event. The new board used in the new excitation system has modular characteristics, which can make online maintenance more
convenient, and because the boards use trigger pulse generation communication and optical fiber redundant communication, the stability of
information transmission is ensured. Avoid communication failures and damage to pulse lines.
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UF C719 AE 3BHB003041R0101 I/O CONTROL BOARD IOEC
UF C721 BE101 3BHE021889R0101 ADCVI-Board Coat
UFC911B106 3BHE037864R0106 ABB
UF C760 BE43 3BHE004573R0043 ABB MAIN CIRC. INTER.
U FC760 BE42 3BHE004573R0042 ABB CONVERTER CONTROL
UFC762AE101 3BHE006412R0101 ABB CVMI
PP C381 CE01 ABB CONVERTER CONTROL PPC381CE01
3BHE007599R0101 ABB CONVERTER CONTROL
UA A326 AE04 ABB UAA326AE04 HIEE300024R0004 Input Output Unit
PP B022 CE ABB PPB022CE HIEE300550R1 PSR CONTROLLER
UPC090AE01 HIEE300661R0001 ABB FIELDBUS COUPL
PP B022 DE01 ABB PPB022DE01 PSR CONTROLLER
LD MUB-01 ABB LDMUB-01 UNIT BOARD
UB C717 AE01 ABB UBC717AE01 OVERVOLTAGE MEASU OVVP
UNS 0017A-P ABB UNS0017A-P HIEE305106R0001 FIRING UNIT
LD CCB-01 ABB LDCCB-01 ONVERTER CONTROL BOARD
PP C380 AE01 ABB PPC380AE01
PP C902 AE01 ABB PPC902AE01 processor fieldbus
PP C322 AE ABB PC BOARD PPC322 AE
PP C380 AE102 ABB PPC380AE102 APPLIC.& MOTOR
PP C902 AE101 ABB PPC902AE101
PP C380 AE ABB PPC380AE APPLIC.& MOTOR
PP C907 BE ABB PPC907BE APPLIC&MOTORCTRL
XV C767 AE102 ABB XV C767 AE102 3BHB007209R0102
PP C381 CE01 ABB CONVERTER CONTROL PPC381CE01
XV C724 A01 ABB XVC724A01 SHORT CIRCUIT DET VLSCD
XV C724 A02 ABB XVC724A02 SHORT CIRCUIT DET VLSCD Long Description:
XV C724 AE104 ABB XVC724AE104 VLSCD-BOARD 2k9V
XV C723 AE16 ABB CURRENT MEAS.SCAL XVC723AE16
XV C723 AE17 ABB XVC723AE17 URRENT MEAS.SCAL
XV C723 AE11 ABB CURRENT MEAS.SCAL XV C723 AE11
XV C723 AE12 ABB XVC723AE12 CURRENT MEAS.SCAL
XV C723 AE14 ABB CURRENT MEAS.SCAL XVC723AE14
XV C723 AE15 ABB XVC723AE15 CURRENT MEAS
XV C724 A03 ABB XVC724A03 SHORT CIRCUIT DET VLSCD
XV C769 AE101 ABB OEI-BOARD XVC769AE101
XV C768 AE102 ABB XVC768AE102 CURRENT MEAS.SCAL
XV C768 AE106 ABB XVC768AE106 CURRENT MEAS.SCAL
XV C768 AE105 ABB XVC768AE105 CURRENT MEAS. SCAL
XV C767 AE102 ABB XVC767AE102 module
XV C723 AE07 ABB XVC723AE07 CURRENT MEAS.SCAL
XV C768 AE11 ABB XV C768 AE11 SUBPRINT SCA
XV C722 AE016 ABB XVC722AE016 rectifier supervisi
XV C768 AE111 ABB XVC768AE111 SUBPRINT SCA
XV C768 AE113 ABB XVC768AE113 SUBPRINT SCA
XV C768 AE121 ABB XVC768AE121 BOARD (SUBPRINT)
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