CN113890340A

CN113890340A - Single-input high-reliability capacitance-current consistent buck-boost DC-DC converter

Info

Publication number: CN113890340A
Application number: CN202111023036.8A
Authority: CN
Inventors: 邾玢鑫; 张畅; 刘佳欣; 支树播; 王凯宏; 杨楠; 李振华
Original assignee: China Three Gorges University CTGU
Current assignee: China Three Gorges University CTGU
Priority date: 2021-09-01
Filing date: 2021-09-01
Publication date: 2022-01-04
Anticipated expiration: 2041-09-01
Also published as: CN113890340B

Abstract

A single-input high-reliability capacitance-current consistent type buck-boost DC-DC converter comprises a direct current input source, a basic buck converter and n gain expansion units. The gain expansion unit is composed of two inductors, two capacitors, a diode and a switch tube, and input and output gains of the converter can be realized by adjusting the number of the gain expansion units. The converter has the characteristics of simple control and drive circuit, wide input and output voltage regulation range and high reliability, and when any one of the switching tubes in the circuit is damaged, the other circuits can work normally. The converter is suitable for application occasions with large variation range of output-input voltage and output voltage and high reliability requirement.

Description

Single-input high-reliability capacitance-current consistent buck-boost DC-DC converter

Technical Field

The invention relates to a DC-DC converter, in particular to a single-input high-reliability capacitance current consistent Buck-boost DC-DC converter.

Background

In applications where both input and output voltages vary widely, the input voltage may be higher or lower than the output voltage. Common non-isolated Buck-Boost DC-DC converters suitable for the time are Buck-Boost, Cuk, Sepic and Zeta circuits. Theoretically, by adjusting the duty ratio D, the input-output gain of these converters can be varied from zero to infinity, but the boost capability of these converters is greatly limited due to the influence of the parasitic parameters of the components and circuits.

At present, the scheme of the input and output gains of the single-input DC-DC converter is mostly constructed by basic circuit cascade, but the reliability is poor. Therefore, the research on the single-input buck-boost DC/DC converter which can realize high-gain boost and has high reliability has important significance.

Disclosure of Invention

The problem that the existing non-isolated single-input high-gain DC-DC converter is low in reliability is solved. The invention provides a single-input high-reliability capacitance current consistent type Buck-boost DC-DC converter based on a basic Buck-boost converter, which consists of the basic Buck-boost converter and a plurality of gain expansion units. The input and output gains of the converter can be realized by adjusting the number of the gain expansion units. The converter has the characteristics of simple control and drive circuit, wide input and output voltage regulation range and high reliability; when one switching tube in the converter circuit is damaged, other circuits can work normally; the converter is suitable for application occasions with large variation range of output-input voltage and output voltage and high reliability requirement.

The technical scheme adopted by the invention is as follows:

a single-input high-reliability capacitance-current-unity Buck-boost DC-DC converter, the converter comprising: the system comprises a basic Buck-boost converter and n gain expansion units;

the basic Buck-boost converter comprises an inductor L₁Capacitor C₁Power switch S₁Diode D₁；

DC input source u_inPositive pole connected power switch S₁Drain, power switch S₁The source electrodes are respectively connected with an inductor L₁One terminal, diode D₁Cathode, diode D₁Anode connected capacitor C₁One terminal, capacitor C₁Another terminal, an inductance L₁The other ends are connected with a direct current input source u_inA negative electrode;

the 1 st gain expansion unit comprises an inductor L₂₁、L₂₂Capacitor C₂₁、C₂₂Diode D₂Power switch S₂(ii) a Power switch S₂Drain connected to DC input source u_inPositive pole, power switch S₂The source electrodes are respectively connected with an inductor L₂₁One terminal, capacitor C₂₁One terminal, capacitor C₂₁The other ends are respectively connected with an inductor L₂₂One terminal, diode D₂Cathode, diode D₂Anode connected capacitor C₂₂One terminal, capacitor C₂₂The other end is connected with an inductor L₂₂Another terminal, inductor L₂₁The other end is connected with a grounding end;

the 2 nd gain expansion unit comprises an inductor L₃₁、L₃₂Capacitor C₃₁、C₃₂Diode D₃A power switch S₃(ii) a Power switch S₃Drain connected to DC input source u_inPositive pole, power switch S₃The source electrodes are respectively connected with an inductor L₃₁One terminal, capacitor C₃₁One terminal, capacitor C₃₁The other ends are respectively connected with an inductor L₃₂One terminal, diode D₃Cathode, diode D₃Anode connected capacitor C₃₂One terminal, capacitor C₃₂The other end is connected with an inductor L₃₂Another terminal, inductor L₃₁The other end is connected with a grounding end;

… … and so on, the method comprises the following steps,

the nth gain expansion unit comprises an inductor L_n+1,1、L_n+1,2Capacitor C_n+1,1、C_n+1,2Diode D_n+1Power switch S_n+1；

Power switch S_n+1Drain connected to DC input source u_inPositive pole, power switch S_n+1The source electrodes are respectively connected with an inductor L_n+1,1One terminal, capacitor C_n+1,1One terminal, capacitor C_n+1,1The other ends are respectively connected with an inductor L_n+1,2One terminal, diode D_n+1Cathode, diode D_n+1Anode connected capacitor C_n+1,2One terminal, capacitor C_n+1,2The other end is connected with an inductor L_n+1,2Another terminal, inductor L_n+1,1The other end is connected with a grounding end;

capacitance C in basic Buck-boost converter₁The other end is connected with a capacitor C in the 1 st gain expansion unit₂₂On one end, the connection relationship of each gain expansion unit is as follows:

capacitance C in the 1 st gain expansion unit₂₂The other end is connected with a capacitor C in the 2 nd gain expansion unit₃₂One terminal, capacitor C in the 2 nd gain expansion unit₃₂The other end is connected with a capacitor C in the 3 rd gain expansion unit₄₂One terminal, … … and so on, and the capacitance C in the (n-1) th gain expansion unit_n，2The other end is connected with a capacitor C in the nth gain expansion unit_n+1,2One end;

the two ends of the load R are respectively connected with a capacitor C₁One terminal, capacitor C_n+1,2And the other end.

The power switch S₁Power switch S₂、S₃……S_n+1The grid electrodes of the switching tubes are connected with a controller, the duty ratio of the grid electrodes can be changed from 0 to 1, and when any one of the switching tubes is damaged, the whole circuit can continue to work normally.

The invention discloses a single-input high-reliability capacitance current consistent Buck-boost DC-DC converter, which has the following technical effects:

1) the buck-boost circuit can realize voltage boost and buck simultaneously, has high input and output gains, and has serially connected output capacitors and voltage sharing. When the inductor current is continuously conducted, the following details are provided:

voltage input output gain

The voltage stress of the switching tube is as follows:

the voltage stress of the diode is:

voltage on each output capacitor:

wherein: and D is the duty cycle.

2) And when one of the power switch tubes in the gain expansion unit except the basic Buck-boost converter is damaged, the rest circuits can work normally.

Drawings

Fig. 1 is a schematic diagram of the circuit of the present invention.

Fig. 2 is a schematic diagram of a conventional Buck-boost converter circuit.

Fig. 3 is a circuit topology diagram when the number of gain expansion units in the present invention is 2.

Fig. 4 is a graph comparing the input and output gains of the Buck-boost converter with the input and output gains of the conventional Buck-boost converter when the number of gain expansion units is 2.

Fig. 5 is a simulation diagram of an output waveform when the input voltage is 30V and the gain expansion unit is 2 and D is 0.6 according to the present invention.

Fig. 6 is a simulation diagram of an output waveform when the switching tube S3 is broken when the input voltage is 30V, the gain expansion unit is 2, and D is 0.6 according to the present invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

As shown in fig. 3, it is a circuit topology diagram when the number of gain expansion units is 2 according to the present invention:

a single-input high-reliability capacitance-current-unity Buck-boost DC-DC converter, the converter comprising: a basic Buck-boost converter, 2 gain expansion units;

the 2 nd gain expansion unit comprises an inductor L₃₁、L₃₂Capacitor C₃₁、C₃₂Diode D₃A power switch S₃(ii) a Power switch S₃Drain connected to DC input source u_inPositive pole, power switch S₃The source electrodes are respectively connected with an inductor L₃₁One terminal, capacitor C₃₁One terminal, capacitor C₃₁The other ends are respectively connected with an inductor L₃₂One terminal, diode D₃Cathode, diode D₃Anode connected capacitor C₃₂One terminal, capacitor C₃₂The other end is connected with an inductor L₃₂Another terminal, inductor L₃₁The other end is connected with a grounding terminal。

The two ends of the load R are respectively connected with a capacitor C₁One terminal, capacitor C₃₂And the other end.

The power switches S1, S2 and S3 have their gates connected to their controllers and their duty cycles can be varied from 0 to 1. The on-off time of the power switches S1, S2 and S3 can be controlled by adjusting the duty ratio, and the output voltage level can be adjusted according to the voltage balance formula of the inductor.

When the number of gain expansion units is equal to 2 and all inductor currents are continuously conducted, the circuit can be divided into 2 working states according to different power switches:

(1): power switch S₁、S₂And S₃Conducting, diode D₁、D₂、D₃Are all turned off. Inductor L₁、L₂₁、L₂₂、L₃₁、 L₃₁The terminal voltage is shown as follows:

(2): power switch S₁、S₂And S₃Turn-off, diode D₁、D₂、D₃Are all turned on. Inductor L₁、L₂₁、L₂₂、L₃₁、 L₃₁The terminal voltage is shown as follows:

from the duty cycles of the controllers connected to the gates of the power switches S1, S2, and S3, the voltage levels across each capacitor can be derived as follows:

fig. 4 is a graph comparing the input and output gains of the Buck-boost converter of the present invention with the gain expansion unit number of 2. As can be seen from fig. 4, the gain of the proposed converter is 3 times that of the conventional converter at the same duty cycle.

Fig. 5 is a simulation diagram of an output waveform when the input voltage is 30V and the number of gain expansion units is 2 and D is 0.6 according to the present invention. The feasibility of the invention is verified by simulation.

Fig. 6 is a simulation diagram of an output waveform when the switching tube S3 is broken when the input voltage is 30V, the number of gain expansion units is 2, and D is 0.6, according to the present invention, and the reliability of the present invention is verified by simulation.

Claims

1. A single-input high-reliability capacitor-current-unity Buck-boost DC-DC converter, the converter comprising: the system comprises a basic Buck-boost converter and n gain expansion units;

… … and so on, the method comprises the following steps,

load R twoThe ends are respectively connected with a capacitor C₁One terminal, capacitor C_n+1,2And the other end.

2. The single-input high-reliability capacitance-current uniform Buck-boost DC-DC converter according to claim 1, characterized in that: the power switch S₁Power switch S₂、S₃……S_n+1The duty cycle of the gate of (1) is variable between 0 and 1.

3. A single-input high-reliability capacitance-current consistent type Buck-boost DC-DC converter is characterized in that: the converter includes: a basic Buck-boost converter, 2 gain expansion units;

4. The single-input high-reliability capacitance-current uniform Buck-boost DC-DC converter according to claim 3, characterized in that: when the gain expansion unit is equal to 2, when the inductor current is continuously conducted, the circuit can be divided into 2 working states according to different power switches:

(1): power switch S₁、S₂And S₃Conducting, diode D₁、D₂、D₃All are turned off; inductor L₁、L₂₁、L₂₂、L₃₁、L₃₁The terminal voltage is shown as follows:

(2): power switch S₁、S₂And S₃Turn-off, diode D₁、D₂、D₃All are turned on; inductor L₁、L₂₁、L₂₂、L₃₁、L₃₁The terminal voltage is shown as follows: