Method for controlling a power bridge, and corresponding control device, power bridge and rotary electric machine system
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H02P-027/08
H02M-007/5387
B60L-015/00
H02M-007/5395
B60L-011/18
H02M-001/32
출원번호
US-0383759
(2013-03-04)
등록번호
US-9444368
(2016-09-13)
우선권정보
FR-12 52075 (2012-03-07)
국제출원번호
PCT/FR2013/050452
(2013-03-04)
국제공개번호
WO2013/132182
(2013-09-12)
발명자
/ 주소
Chemin, Michaël
출원인 / 주소
Valeo Equipements Electriques Moteur
대리인 / 주소
Berenato & White, LLC
인용정보
피인용 횟수 :
0인용 특허 :
4
초록▼
A method performed in a power bridge (3) comprising multiple arms (B1, B2, Bi, Bn). Each arm comprises upper and lower semiconductor switches arranged in series and connected in parallel to first and second terminals (B+, B−) of a common voltage source (2). The mid-point of the arm is connected to a
A method performed in a power bridge (3) comprising multiple arms (B1, B2, Bi, Bn). Each arm comprises upper and lower semiconductor switches arranged in series and connected in parallel to first and second terminals (B+, B−) of a common voltage source (2). The mid-point of the arm is connected to a phase of an electrical load (1). The aforementioned switches are controlled complementarily by pulses having a duty factor set value (RC1, RC2, RCi, RCn) determined as a function of a first phase voltage set value (V1, V2, Vi, Vn) in relation to a reference terminal of the electrical load (1) and of a common-mode voltage (V0) in relation to one of the first or second terminals, such as to control the switching losses of the switches. The common-mode voltage (V0) is determined such as to balance switching losses and conduction losses between the switches.
대표청구항▼
1. Method for controlling a power bridge (3) comprising a plurality of arms (B1, B2, Bi, Bn) each comprising in series upper and lower semiconductor switches (4) which are designed to be connected in parallel to the first and second terminals (B+, B−) of a common source of voltage (2), at least one
1. Method for controlling a power bridge (3) comprising a plurality of arms (B1, B2, Bi, Bn) each comprising in series upper and lower semiconductor switches (4) which are designed to be connected in parallel to the first and second terminals (B+, B−) of a common source of voltage (2), at least one middle point of each of said arms (B1, B2, Bi, Bn) being designed to be connected respectively to at least one phase of an electric load (1), said method being of the type consisting of controlling said upper and lower semiconductor switches (4) in a complementary manner by means of pulses with a set duty cycle (RC1, RC2, RCi, RCn) which is determined according to a first set phase voltage (V1, V2, Vi, Vn), relative to a reference terminal of said electric load (1), and a common mode voltage (V0), relative to one of said first or second terminals (B+, B−) controlling switching losses (21) of said upper and lower semiconductor switches (4), wherein said common mode voltage (V0) is determined such as to obtain balancing (13) of said switching losses (21) and conduction losses (19) between said upper and lower semiconductor switches (4), and said balancing (13) is implemented only when an electrical frequency which modulates said set duty cycle (RC1, RC2, RCi, RCn) is equal to, or lower than, a predetermined threshold; and, wherein said common mode voltage (V0) is determined such as to minimize said switching losses (21) when said electrical frequency is higher than said predetermined threshold. 2. Method for controlling a power bridge (3) according to claim 1, characterized in that said balancing (13) is obtained by selecting (15, 22) a balancing duty cycle (RC1, RC2, RCi, RCn) such as to verify substantially the equation: RC′0*RonH*Iph02+Pcomm.=(1−RC′0)*RonL*Iph02 wherein RonH and RonL are respectively the conduction resistances (20) of said upper and lower semiconductor switches (4), Pcomm. represents said switching losses (21), and Iphi represents a phase intensity which circulates in said phase, within a limit where said balancing duty cycle (RC′1, RC′2, RC′i, RC′n) leads to a first balancing phase voltage, a current difference of which, compared with a second balancing phase voltage, is identical to an initial difference between said first set phase voltage (V1, V2, Vi, Vn), and a second set phase voltage (V1, V2, Vi, Vn). 3. Method for controlling a power bridge (3) according to claim 2, characterized in that said balancing (13) is carried out only in a reference arm where said phase intensity (Iphi) is the greatest (14, 18) from amongst said arms (B1, B2, Bi, Bn). 4. Method for controlling a power bridge (3) according to claim 3, characterized in that said balancing (13) is obtained by modifying (12, 26) said set duty cycle (RC1, RC2, RCi, RCn) corresponding to each of said arms (B1, B2, Bi, Bn) by a difference of duty cycle (ARC) between a reference value (RC0) of a set duty cycle (RC1, RC2, RCi, RCn), and a balancing value (RC′0) of a balancing duty cycle (RC′ 1, RC′2, RC′i, RC′n) determined (16, 24) in said reference arm. 5. Device (5) for controlling a power bridge (3), which is designed to be connected to an electric load (1), and is suitable for implementation of the method according to claim 4, characterized in that it comprises a control logic which is representative of said method, or a computer memory comprising instructions which are representative of said method. 6. Device (5) for controlling a power bridge (3), which is designed to be connected to an electric load (1), and is suitable for implementation of the method according to claim 3, characterized in that it comprises a control logic which is representative of said method, or a computer memory comprising instructions which are representative of said method. 7. Device (5) for controlling a power bridge (3), which is designed to be connected to an electric load (1), and is suitable for implementation of the method according to claim 2, characterized in that it comprises a control logic which is representative of said method, or a computer memory comprising instructions which are representative of said method. 8. Device (5) for controlling a power bridge (3), which is designed to be connected to an electric load (1), and is suitable for implementation of the method according to claim 1, characterized in that it comprises a control logic which is representative of said method, or a computer memory comprising instructions which are representative of said method. 9. Power bridge (3) which can be controlled by the control device (5) according to claim 8, comprising a plurality of arms (B1, B2, Bi, Bn) each comprising in series upper and lower semiconductor switches (4), characterized in that said upper and lower semiconductor switches (4) each consist of a semiconductor switching element (7) and a free wheel diode (6) in parallel. 10. Power bridge (3) according to claim 9, characterized in that said free wheel diode (6) is an intrinsic diode of a transistor of the MOSFET type. 11. Rotary electrical machine system comprising: a polyphase electric load (1);a source of voltage (2);a power bridge (3) according to claim 10, which is connected downstream to said electric load (1) and upstream to said source of voltage (2);a control device (5). 12. Rotary electrical machine system comprising: a polyphase electric load (1);a source of voltage (2);a power bridge (3) according to claim 9, which is connected downstream to said electric load (1) and upstream to said source of voltage (2); anda control device (5). 13. Rotary electrical machine system comprising: a polyphase electric load (1);a source of voltage (2);a power bridge (3) which is connected downstream to said electric load (1) and upstream to said source of voltage (2);a control device (5) according to claim 8. 14. Method for controlling a power bridge (3) according to claim 1, characterized in that said balancing (13) is obtained by selecting (15, 22) a balancing duty cycle (RC1, RC2, RCi, RCn) such as to verify substantially the equation: RC′0*RonH*Iph02+Pcomm.=(1−RC′0)*RonL*Iph02 wherein RonH and RonL are respectively the conduction resistances (20) of said upper and lower semiconductor switches (4), Pcomm. represents said switching losses (21), and Iphi represents a phase intensity which circulates in said phase, within a limit where said balancing duty cycle (RC′1, RC′2, RC′i, RC′n) leads to a first balancing phase voltage, a current difference of which, compared with a second balancing phase voltage, is identical to an initial difference between said first set phase voltage (V1, V2, Vi, Vn), and a second set phase voltage (V1, V2, Vi, Vn). 15. Device (5) for controlling a power bridge (3), which is designed to be connected to an electric load (1), and is suitable for implementation of the method according to claim 1, characterized in that it comprises a control logic which is representative of said method, or a computer memory comprising instructions which are representative of said method. 16. A method for controlling a power bridge (3) comprising a plurality of arms (B1, B2, Bi, Bn), wherein each arm comprises, in series, upper and lower semiconductor switches (4) which are designed to be connected in parallel to the first and second terminals (B+, B−) of a common source of voltage (2), at least one middle point of each of said arms (B1, B2, Bi, Bn) being designed to be connected respectively to at least one phase of an electric load (1), said method comprising the steps of: controlling said upper and lower semiconductor switches (4) in a complementary manner by means of pulses with a set duty cycle (RC1, RC2, RCi, RCn) which is determined according to a first set phase voltage (V1, V2, Vi, Vn), relative to a reference terminal of said electric load (1), and a common mode voltage (V0), relative to one of said first or second terminals (B+, B−);controlling switching losses (21) of said upper and lower semiconductor switches (4), wherein said common mode voltage (V0) is determined such as to obtain balancing (13) of said switching losses (21) and conduction losses (19) between said upper and lower semiconductor switches (4), and, whereinsaid balancing (13) is implemented only when an electrical frequency which modulates said set duty cycle (RC1, RC2, RCi, RCn) is equal to, or lower than, a predetermined threshold.
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이 특허에 인용된 특허 (4)
Ho,Eddy Ying Yin; Li,Yong; Honda,Jun; Tam,David C; Takahashi,Toshio, Global closed loop control system with DV/DT control and EMI/switching loss reduction.
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