CN2550960Y - Phase shift control two-way DC-DC converter - Google Patents
Phase shift control two-way DC-DC converter Download PDFInfo
- Publication number
- CN2550960Y CN2550960Y CN 02264971 CN02264971U CN2550960Y CN 2550960 Y CN2550960 Y CN 2550960Y CN 02264971 CN02264971 CN 02264971 CN 02264971 U CN02264971 U CN 02264971U CN 2550960 Y CN2550960 Y CN 2550960Y
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- CN
- China
- Prior art keywords
- circuit
- main circuit
- switching tube
- input
- phase shift
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
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Abstract
The utility model relates to a direct current converter of phase shift control and bidirectional direct current type, comprising a main circuit and a control circuit; wherein, the main circuit comprises four switching tubes of number M-[1] to number M-[4], a clamp capacitance Cc1, blocking condensers Ct1 and Ct2, a filtering inductance number L-[0] and an isolation transformer T; the control circuit comprises phase shift control chips, and two PWM control chips connected at the output of the phase shift control chips. The error amplifier positive terminal of each control chip is connected with the duty ratio control signal, and the two output terminals are connected with two data selector respectively; the output signals of the data selector comprises two; one is input to the main circuit driver, and the other is input to the main driver through the NOT gate; the switching tubes of the main circuit are controlled by the driving signals output by the drive circuit. The utility model has the advantages of follow-up controlling the PMB duty ratio by the voltage amplitude at the two sides based on the phase shift control of the power and direction, effectively reducing the current stress and current virtual value of the converter, and achieving the soft switch operation so as to improve the productivity.
Description
Technical field
The utility model relates to a kind of phase-shift controlled bidirectional dc-dc converter.
Background technology
In order to reduce the volume and weight of bidirectional, dc-DC converter, must improve switching frequency.And the increase that the raising of switching frequency must bring switching loss in traditional converter.In these years, the scheme that addresses this problem has appearred.Wherein some adopts resonance, quasi-resonance or the multi resonant technology of shaking, but the electric current and voltage stress of converter is higher, and variable frequency control has increased the difficulty of Design of Filter; Some adds energy snubber and absorbs circuit or active clamp circuit, but has increased the complexity of converter and control; Also some adopts the full-bridge phase-shift technology, such transformer configuration is simple, components and parts are few, weak point is when a side voltage deviation equilibrium valve, the current peak and the effective value of converter increase greatly, certainly will increase the exchange of reactive power between input and the output,, increase loss so increase the current stress of power device, magnetic element.
The utility model content
The purpose of this utility model provides a kind of simple in structure, can reduce the peak value of electric current and the phase-shift controlled bidirectional dc-dc converter of effective value.
Phase-shift controlled bidirectional dc-DC converter of the present utility model has main circuit and control circuit two parts, and main circuit comprises four switching tube M
1~M
4, clamp capacitor Cc1, capacitance Ct1, Ct2, filter inductance L
0With isolating transformer T, be connected across the switching tube M that is in series behind the former limit serial connection capacitance Ct1 of isolating transformer T
1, M
2One of them switching tube M
2Two ends, these two switching tube M
1, M
2Series circuit and DC power supply V
1Parallel connection, behind the secondary of the isolating transformer T serial connection capacitance Ct2 with switching tube M
4, switching tube M
3Series circuit, filter inductance L with clamp capacitor Cc1
0With active load V
2Series circuit be in parallel; Control circuit comprises that two inputs connect the phase shift control chip of given power signal and feedback power signal respectively, the output signal of phase shift control chip divides two the tunnel, respectively with first, the synchronous end of the second two pwm chips links to each other, the positive termination duty cycle control signal of the error amplifier of each pwm chip, output divides two the tunnel, connect first respectively, the input of second data selector, first, the public input of the second two data selectors is just connecing respectively, reverse control signal, the output signal of data selector divides two the tunnel, one road input main circuit driver, another road is through not gate input main circuit driver, said main circuit driver comprises the rising edge delay circuit, buffer circuit and drive circuit, the signal of input main circuit driver is defeated by buffer circuit through the rising edge delay circuit, the input of the output termination drive circuit of buffer circuit, the drive signal of No. four drive circuits output is defeated by main circuit switch pipe M respectively
1~M
4
Phase-shift controlled bidirectional dc-dc converter of the present utility model is on the basis of phase shift control transmission watt level and direction, according to the both sides voltage magnitude, follow the tracks of the duty ratio of regulating PWM, can effectively reduce the current stress and the current effective value of converter, and converter can be realized soft switch work, thereby can raise the efficiency.
Description of drawings
Fig. 1 is a main circuit of the present utility model;
Fig. 2 is the utility model control circuit block diagram;
Fig. 3 is the utility model circuit theory waveform.
Embodiment
Phase-shift controlled bidirectional dc of the present utility model rheology parallel operation always has main circuit and control circuit two parts, and main circuit is with reference to Fig. 1, and it comprises four switching tube M
1~M
4, clamp capacitor Cc1, capacitance Ct1, Ct2, filter inductance L
0With isolating transformer T, switching tube can be power field effect transistor, power bipolar transistor or insulated door gated transistors or other controlled switching device, what legend adopted is power field effect transistor, is connected across the switching tube M that is in series behind the former limit serial connection capacitance Ct1 of isolating transformer T
1, M
2One of them switching tube M
2Two ends, these two switching tube M
1, M
2Series circuit and DC power supply V
1Parallel connection, L among the figure
1It is the leakage inductance of isolating transformer.Behind the secondary of the isolating transformer T serial connection capacitance Ct2 with switching tube M
4, switching tube M
3Series circuit, filter inductance L with clamp capacitor Cc1
0With active load V
2Series circuit be in parallel; Control circuit as shown in Figure 2, it comprises that two inputs connect the phase shift control chip 1 of given power signal A and feedback power signal B respectively, the output signal of phase shift control chip divides two the tunnel, link to each other with the synchronous end of first, second two pwm chips 2 respectively, the positive termination duty cycle control signal of the error amplifier of each pwm chip D, D=NV
2/ V
1N is the transformer number of turn, output divides two the tunnel, connect first respectively, the input of second data selector 3, first, the public input of the second two data selectors is just connecing respectively, reverse control signal E, the output signal of data selector divides two the tunnel, one road input main circuit driver 8, another road is through not gate 4 input main circuit drivers 8, said main circuit driver 8 comprises rising edge delay circuit 5, buffer circuit 6 and drive circuit 7, and the signal of input main circuit driver is defeated by buffer circuit 6 through rising edge delay circuit 5, the input of the output termination drive circuit 7 of buffer circuit, the drive signal V of No. four drive circuits output
G1, V
G2, V
G3, V
G4Be defeated by main circuit switch pipe M respectively
1~M
4Gate pole.
Here, the phase shift control chip can adopt UC3875, and pwm chip can be used UC3525A.
The course of work of converter is with reference to Fig. 3, and figure (a)~figure (d) is switching tube M
1~M
4Gate electrode drive signals, figure (e) is a voltage waveform between main circuit a, b contact, figure (f) is the voltage waveform between main circuit c, d contact, figure (g) is converter leakage inductance L
1Voltage waveform, figure (h) be L
1Current waveform.
In the converter work, four switching tube M
1, M
2, M
3And M
4Switching frequency identical, M wherein
1And M
3Drive controlling keep identical duty ratio D, M
2With M
1Drive controlling be complimentary fashion, M
4With M
3Drive controlling be complimentary fashion.By control M
1And M
3The phase relation of drive signal reaches two DC source V of control
1And V
2Between the size and Orientation of power transfer.Work as V
1Or/and V
2During the voltage deviation equilibrium valve, at switching tube M
1And M
3Time period of conducting simultaneously (figure h, t2~t3 time period) and switching tube M
2And M
4The time period of conducting simultaneously (figure h, t4~t5 time period) converter current remains unchanged, and can reduce current stress like this, reduces the loss of current effective value and converter.
The switching tube M of transformer the same side
1(or M
3) and switching tube M
2(or M
4) carry out in the switch handoff procedure, because transformer leakage inductance L
1Existence, switching tube such as M therein
1Have no progeny in the pass, the electric current in the leakage inductance will be to another switching tube M of homonymy
2Two ends and the equivalent capacity discharge that connects, latter M afterwards
2Will be by open-minded under the no-voltage situation.Like this, converter all can be realized soft switch work in two-way operation.After arbitrary switching tube was turned off, its both end voltage all was clamped on the fixed voltage, high voltage stress and vibration can not occur.
Claims (1)
1. phase-shift controlled bidirectional dc rheology parallel operation always is characterized in that having main circuit and control circuit two parts, and main circuit comprises four switching tube M
1~M
4, clamp capacitor Cc1, capacitance Ct1, Ct2, filter inductance L
0With isolating transformer T, be connected across the switching tube M that is in series behind the former limit serial connection capacitance Ct1 of isolating transformer T
1, M
2The two ends of one of them switching tube M2, these two switching tube M
1, M
2Series circuit and DC power supply V
1Parallel connection, behind the secondary of the isolating transformer T serial connection capacitance Ct2 with switching tube M
4, switching tube M
3Series circuit, filter inductance L with clamp capacitor Cc1
0With active load V
2Series circuit be in parallel; Control circuit comprises that two inputs connect the phase shift control chip (1) of given power signal and feedback power signal respectively, the output signal of phase shift control chip divides two the tunnel, respectively with first, the synchronous end of the second two pwm chips (2) links to each other, the positive termination duty cycle control signal of the error amplifier of each pwm chip, output divides two the tunnel, connect first respectively, the input of second data selector (3), first, the public input of the second two data selectors is just connecing respectively, reverse control signal, the output signal of data selector divides two the tunnel, one road input main circuit driver (8), another road is through not gate (4) input main circuit driver (8), said main circuit driver (8) comprises rising edge delay circuit (5), buffer circuit (6) and drive circuit (7), the signal of input main circuit driver is defeated by buffer circuit (6) through rising edge delay circuit (5), the input of the output termination drive circuit (7) of buffer circuit, the drive signal of No. four drive circuits output is defeated by main circuit switch pipe M respectively
1~M
4
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN 02264971 CN2550960Y (en) | 2002-06-21 | 2002-06-21 | Phase shift control two-way DC-DC converter |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN 02264971 CN2550960Y (en) | 2002-06-21 | 2002-06-21 | Phase shift control two-way DC-DC converter |
Publications (1)
Publication Number | Publication Date |
---|---|
CN2550960Y true CN2550960Y (en) | 2003-05-14 |
Family
ID=33731085
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN 02264971 Expired - Fee Related CN2550960Y (en) | 2002-06-21 | 2002-06-21 | Phase shift control two-way DC-DC converter |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN2550960Y (en) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN100361375C (en) * | 2003-12-02 | 2008-01-09 | 现代自动车株式会社 | Inrush current prevention circuit for dc-dc converter |
US10097088B2 (en) | 2015-12-08 | 2018-10-09 | Industrial Technology Research Institute | Soft-switching auxiliary circuit |
-
2002
- 2002-06-21 CN CN 02264971 patent/CN2550960Y/en not_active Expired - Fee Related
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN100361375C (en) * | 2003-12-02 | 2008-01-09 | 现代自动车株式会社 | Inrush current prevention circuit for dc-dc converter |
US10097088B2 (en) | 2015-12-08 | 2018-10-09 | Industrial Technology Research Institute | Soft-switching auxiliary circuit |
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Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
C19 | Lapse of patent right due to non-payment of the annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |