Rectifier mixed insertion system with different power, and energy saving implementation method and device therefor
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G05D-017/00
G05B-019/042
H02M-007/23
출원번호
US-0904950
(2014-04-22)
등록번호
US-10095211
(2018-10-09)
우선권정보
CN-2013 1 0322367 (2013-07-29)
국제출원번호
PCT/CN2014/075918
(2014-04-22)
국제공개번호
WO2014/173284
(2014-10-30)
발명자
/ 주소
Wang, Wei
Liu, Dongbo
Xue, Bing
출원인 / 주소
ZTE Corporation
대리인 / 주소
Wu, Ling
인용정보
피인용 횟수 :
0인용 특허 :
7
초록▼
A method for implementing energy saving for a mixed insertion system (80) of rectifiers with different power includes: acquiring work-related input information, and identifying a type of a rectifier (100); determining a power-on/power-off control mode of each rectifier (200); and performing power-on
A method for implementing energy saving for a mixed insertion system (80) of rectifiers with different power includes: acquiring work-related input information, and identifying a type of a rectifier (100); determining a power-on/power-off control mode of each rectifier (200); and performing power-on/power-off rotation, and load change rotation (400) and periodic rotation (500) starting according to the power-on/power-off control mode of each rectifier (300). A mixed insertion system of rectifiers with different power and a device for implementing energy saving thereof are further disclosed.
대표청구항▼
1. A method for implementing energy saving for a mixed insertion system of rectifiers with different power, comprising: acquiring work-related input information, and identifying a type of a rectifier;determining a power-on/power-off control mode of each rectifier; andperforming power-on/power-off ro
1. A method for implementing energy saving for a mixed insertion system of rectifiers with different power, comprising: acquiring work-related input information, and identifying a type of a rectifier;determining a power-on/power-off control mode of each rectifier; andperforming power-on/power-off rotation according to the power-on/power-off control mode of each rectifier;wherein performing the power-on/power-off rotation according to the power-on/power-off control mode of each rectifier comprises:selecting models of rectifiers required to be powered on or powered off;making statistics of phase currents of alternating current three phases, and powered-on times of rectifiers required to be powered on or powered off on the alternating current three phases;performing powered-on time sequencing on the rectifiers of the alternating current three phases according to the phase currents of the alternating current three phases and the powered-on times of the rectifiers of the alternating current three phases; andperforming power-on or power-off rotation control according to the powered-on time sequencing;wherein, the selecting models of rectifiers required to be powered on or powered off comprises:allocating working times of rectifiers at each power level according to power ratios between rectifiers of different models, so that a power-on opportunity of the rectifier is directly proportional to power of the rectifier. 2. The method according to claim 1, wherein, the work-related input information comprises but is not limited to the following information: related parameter information, real-time data information and real-time alarm information. 3. The method according to claim 1, wherein the performing power-on or power-off rotation control according to the powered-on time sequencing comprises:during the power-off control, performing a power-off operation on a rectifier with a longest powered-on time in the powered-on time sequencing, and during the power-on control, performing a power-on operation on a rectifier with a shortest powered-on time in the powered-on time sequencing in rectifiers in a power-off state. 4. The method according to claim 3, wherein, performing powered-on time sequencing on the rectifiers of the alternating current three phases according to the phase currents of the alternating current three phases and the powered-on times of the rectifiers of the alternating current three phases comprises: with respect to the power-on rotation, firstly performing sequencing from low to high according to a phase current of each phase, and when the phase currents are equal, performing sequencing from low to high according to the powered-on times of the rectifiers;with respect to the power-off rotation, firstly performing sequencing from high to low according to a phase current of each phase, and when the phase currents are equal, performing sequencing from high to low according to the powered-on times of the rectifiers. 5. The method according to claims 3, wherein, the power-on rotation in the power-on/power-off rotation control comprises: searching for rectifiers of a set model meeting a power-on condition from a first phase to a third phase orderly, and until a first rectifier of the set model meeting the power-on condition is found, powering on the found rectifier, and ending a current power-on rotation process. 6. The method according to claim 3, wherein, the power-off rotation in the power-on/power-off rotation control comprises: searching for rectifiers of a set model meeting a power-off condition from the first phase to the third phase orderly, and until a first rectifier of the set model meeting the power-off condition is found, powering off the found rectifier, and ending the current power-off rotation process. 7. The method according to claim 1, comprising: when a load suddenly becomes large, performing the power-on rotation control, and not performing any processing when making statistics of the phase currents in the power-on rotation control; andwhen the load suddenly becomes small, firstly calculating a load rate, and determining a rectifier of a largest model permitted to be powered off according to the load rate obtained by calculation and rated output currents of the rectifiers of each model, and performing a power-off rotation operation on the determined rectifier of the largest model permitted to be powered off, wherein, a numerator for calculating the load rate takes a maximum value from a total output current of the rectifiers and a load current, and a denominator for calculating the load rate is a sum of the rated output currents of the rectifiers that are powered on normally. 8. The method according to claim 1, comprising: whenever a rotation period is reached, determining a rectifier to be powered off according to a power-off principle; andpowering on one or more rectifiers according to a power-on principle, and after output power of powered-on rectifiers is enough, directly powering off the determined rectifier to be powered off. 9. The method according to claim 8, comprising: orderly powering on and powering off the rectifiers according to an address sequence, performing control on the rectifier according to the pre-determined power-on/power-off control mode of the rectifier, and when the control mode is power-on or no-control, compulsively powering on one rectifier; and when the control mode is power-off, calculating a load rate after the rectifier to be powered off is powered off, and when the load rate is less than a set rate, powering off the rectifier, and when the load rate is greater than or equal to the set rate, not powering off the rectifier. 10. The method according to claim 3, wherein, the power-on rotation in the power-on/power-off rotation control comprises: searching for rectifiers of a set model meeting a power-on condition from a first phase to a third phase orderly, and until a first rectifier of the set model meeting the power-on condition is found, powering on the found rectifier, and ending a current power-on rotation process. 11. The method according to claim 4, wherein, the power-on rotation in the power-on/power-off rotation control comprises: searching for rectifiers of a set model meeting a power-on condition from a first phase to a third phase orderly, and until a first rectifier of the set model meeting the power-on condition is found, powering on the found rectifier, and ending a current power-on rotation process. 12. The method according to claim 3, wherein, the power-off rotation in the power-on/power-off rotation control comprises: searching for rectifiers of a set model meeting a power-off condition from the first phase to the third phase orderly, and until a first rectifier of the set model meeting the power-off condition is found, powering off the found rectifier, and ending the current power-off rotation process. 13. The method according to claim 4, wherein, the power-off rotation in the power-on/power-off rotation control comprises: searching for rectifiers of a set model meeting a power-off condition from the first phase to the third phase orderly, and until a first rectifier of the set model meeting the power-off condition is found, powering off the found rectifier, and ending the current power-off rotation process. 14. A device for implementing energy saving for a mixed insertion system of rectifiers with different power, comprising: a first unit, configured to, acquire work-related input information, and identify a type of a rectifier;a second unit, configured to, determine a power-on/power-off control mode of each rectifier; anda third unit, configured to, perform power-on/power-off rotation, according to the power-on/power-off control mode of each rectifier;wherein the perform the power-on/power-off rotation according to the power-on/power-off control mode of each rectifier comprises:select models of rectifiers required to be powered on or powered off;make statistics of phase currents of alternating current three phases, and powered-on times of rectifiers required to be powered on or powered off on the alternating current three phases;perform powered-on time sequencing on the rectifiers of the alternating current three phases according to the phase currents of the alternating current three phases and the powered-on times of the rectifiers of the alternating current three phases; andperform power-on or power-off rotation control according to the powered-on time sequencing;wherein the select models of rectifiers required to be powered on or powered off comprises:allocate working times of rectifiers at each power level according to power ratios between rectifiers of different models, so that a power-on opportunity of the rectifier is directly proportional to power of the rectifier. 15. A mixed insertion system of rectifiers with different power, comprising: an embedded chip, a bus unit and a relay, wherein: the embedded chip is configured to, acquire work-related input information via the bus unit, and identify a type of a rectifier;the bus unit is configured to, determine a power-on/power-off control mode of each rectifier; andthe relay is configured to, perform power-on/power-off rotation according to the power-on/power-off control mode of each rectifier;wherein the perform the power-on/power-off rotation according to the power-on/power-off control mode of each rectifier comprises:select models of rectifiers required to be powered on or powered off;make statistics of phase currents of alternating current three phases, and powered-on times of rectifiers required to be powered on or powered off on the alternating current three phases;perform powered-on time sequencing on the rectifiers of the alternating current three phases according to the phase currents of the alternating current three phases and the powered-on times of the rectifiers of the alternating current three phases; andperform power-on or power-off rotation control according to the powered-on time sequencing;wherein the select models of rectifiers required to be powered on or powered off comprises:allocate working times of rectifiers at each power level according to power ratios between rectifiers of different models, so that a power-on opportunity of the rectifier is directly proportional to power of the rectifier.
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