CN201122908Y

CN201122908Y - Single-phase bidirectional SPWM frequency conversion device

Info

Publication number: CN201122908Y
Application number: CNU2007200281640U
Authority: CN
Inventors: 何洪臣; 李瑞来; 尹彭飞
Original assignee: Shandong Xinfeng Photoelectric Science & Technology Development Co Ltd
Current assignee: Shandong Xinfeng Photoelectric Science & Technology Development Co Ltd
Priority date: 2007-09-29
Filing date: 2007-09-29
Publication date: 2008-09-24
Anticipated expiration: 2017-09-29

Abstract

The utility model relates to a single-phase SPWM frequency conversion device which can perform the bidirectional sine wave frequency conversion, which belongs to the power electronic technology technical field. The utility model is composed of two power supplies, two capacitor and inductor filter circuits, two inverting bridges and a capacitor filter circuit; the two power supplies respectively pass through one capacitor and inductor filter circuit and then is connected into one inverting bridge, and the two inverting bridges pass through the capacitor filter circuit and then commonly output a direct current power supply. The single-phase SPWM frequency conversion device has the advantages of strong usability and wide application range. The single-phase SPWM frequency conversion device can be used as two single phases with different frequencies and also can be used as two miniwatt power supplies with different frequencies to perform modulation and support the frequency conversion. Simultaneously, according to the difference of the voltage class of the power supply, two power level power supply circuit or three power level power supply circuit or different power level power supply circuits can be adopted, thereby improving the reliability to the load power supply.

Description

A kind of single phase bidirectional SPWM frequency conversion device

(1) technical field

The utility model relates to a kind ofly can carry out two-way sinusoidal wave frequency conversion, and particularly a kind of single phase bidirectional SPWM frequency conversion device belongs to electric and electronic technical field.

(2) background technology

Commonly used to the single-phase inversion power supply in original traditional ups system, its shortcoming is that energy can not bi-directional, and power is little, and device is many, can not change to the frequency of both sides, and shortcomings such as performance imperfection.

(3) summary of the invention

The utility model provides a kind of single phase bidirectional SPWM frequency conversion device in order to overcome the shortcoming that above power supply exists, and having solved its energy can not bi-directional, and power is little, and device is many, can not change to the frequency of both sides, and shortcomings such as performance imperfection.

The utility model is achieved through the following technical solutions:

Single phase bidirectional SPWM frequency conversion device of the present utility model is made up of two power supplys, two capacitor and inductor filter circuits, two inverter bridge, a capacitor filter; By inserting an inverter bridge respectively behind the capacitor and inductor filter circuit, two inverter bridge are common output one direct current power supply behind capacitor filter separately for two power supplys.

Single phase bidirectional SPWM frequency conversion device of the present utility model, wherein a kind of preferred version is: described capacitor and inductor filter circuit comprises a filter capacitor and an inductance, electric capacity is connected in parallel on both ends of power, the anode of an end power supply of inductance, and another termination inserts the mid point of inverter bridge; Described inverter bridge is a tri-level circuit, include four power devices that are in series, between the collector and emitter of power device respectively cross-over connection fly-wheel diode is arranged, two clamp diodes are connected across between power device collector electrode and the power device emitter with the form of series connection; Described capacitor filter includes the filter capacitor that is in series that is connected between the positive and negative bus of DC power supply, and the mid point of filter capacitor links to each other with the mid point of two clamp diodes.

Single phase bidirectional SPWM frequency conversion device of the present utility model, another kind of preferred version is: described capacitor and inductor filter circuit comprises a filter capacitor and an inductance, electric capacity is connected in parallel on both ends of power, the anode of an end power supply of inductance, and another termination inserts the mid point of inverter bridge; Described inverter bridge is two level circuits, includes two power devices that are in series, between the collector and emitter of power device respectively cross-over connection fly-wheel diode is arranged; Described capacitor filter includes the filter capacitor that is in series that is connected between the positive and negative bus of DC power supply, and the mid point of filter capacitor is connected with the negative terminal of power supply.

The design feature of the utility model power circuit is: power supply u1, u2 are separately by inserting an inverter bridge respectively behind electric capacity, the inductor filter, two inverter voltages are direct current power supply output jointly behind capacitor filtering, and provide complementary each other passage for two power supplys.

Converter plant of the present utility model, it is strong to have a usability, applied range.Can be used as the single-phase use of two kinds of different frequencies, also can be used as two kinds of different frequency small-power powers and allocate the support frequency conversion mutually.Simultaneously can adopt two level or three level according to the difference of the electric pressure of power supply, the power supply circuits of varying level, thus improved reliability to electric.

(4) description of drawings

Fig. 1 is the mutually two-way SPWM translation circuit of a tri-level single structured flowchart

Among the figure: 1, capacitor and inductor filter circuit 2, inverter bridge 3, capacitor filter 4, inverter bridge

5, capacitor and inductor filter circuit

Fig. 2 is the mutually two-way SPWM translation circuit of a tri-level single schematic diagram

Among the figure: U1, U2 are power supply, and L1, L2 are inductance, and C1～C4 is an electric capacity, and T1～T8 is a power device, and D1～D4, D9～D12 are diode, and D5, D6, D7, D8 are clamp diode.

Fig. 3 is two level single phase bidirectional SPWM translation circuit schematic diagrams

Among the figure: U1, U2 are power supply, and T1～T4 is a power device, and C1～C4 is an electric capacity, and L1, L2 are inductance, and f1, f2 are frequency, and D1～D4 is a diode.

(5) embodiment

Below in conjunction with the drawings and specific embodiments the utility model is made specific description.

Embodiment 1:

As shown in Figure 1, the mutually two-way SPWM translation circuit of tri-level single structure chart

By inserting an inverter bridge (2,4) behind the capacitor and inductor filter circuit (1,5) respectively, two inverter bridge (2,4) are direct current power supply output jointly behind capacitor filter (3) separately for power supply u1, u2.

Embodiment 2:

The mutually two-way SPWM translation circuit of tri-level single structure principle chart as shown in Figure 2, this device is made up of identical two parts circuit.

1) u1 power unit: the filter capacitor C3 in parallel at power supply u1 two ends, the anode of power supply insert the mid point of inverter bridge by inductance L 1.Inverter bridge has four power device T1, T2, T3, T4 to adopt the form of series connection to connect, four sustained diode 1 in the circuit, D2, D3, D4 are connected across respectively between the collector electrode C and emitter E of T1, T2, T3, T4, two clamp diode D5, D6 are connected across between T2 collector electrode and the T3 emitter E with the form of connecting, filter capacitor C1, C2 are connected with the positive and negative bus of DC power supply respectively, and its other end links to each other with the mid point of two clamp diodes.

2) u2 power unit: the filter capacitor C4 in parallel at power supply u2 two ends, the anode of power supply insert the mid point of inverter bridge by inductance L 2.Inverter bridge has four power device T5, T6, T7, T8 to adopt the form of series connection to connect, four fly-wheel diodes in the circuit are connected across respectively between the collector electrode C and emitter E of T5, T6, T7, T8, two clamp diode D7, D8 are connected across between T6 collector electrode and the T7 emitter E with the form of connecting, the mid point of two clamp diode D7, D8 links to each other with the mid point of D5, D6, and the negative terminal of U1, U2 links to each other simultaneously.

Embodiment 3:

Two level single phase bidirectional SPWM translation circuit structure principle charts as shown in Figure 3, this device is made up of identical two parts circuit.

1) voltage is u1, and frequency is the f1 power unit: the filter capacitor C3 in parallel at power supply u1 two ends, the anode of power supply insert the mid point of inverter bridge by inductance L 1.Inverter bridge has the form of two power device T1, T2, employing series connection to connect, two sustained diode 1 in the circuit, D2, respectively be connected across T1, T2, collector electrode C and emitter E between, filter capacitor C1, C2 are connected with the positive and negative bus of DC power supply respectively, and its other end links to each other with the negative terminal of u1.

2) voltage is u2, and frequency is the f2 power unit: the filter capacitor C4 in parallel at power supply u2 two ends, the anode of power supply insert the mid point of inverter bridge by inductance L 2.Inverter bridge has the form of two power device T3, T4, employing series connection to connect, two sustained diode 3 in the circuit, D4 be connected across respectively T3, T4, collector electrode C and emitter E between, the negative terminal of U1, U2 links to each other.

The characteristics of the utility model single phase bidirectional SPWM frequency conversion device are: the voltage of circuit one side is u1, frequency is f1, opposite side voltage is U2, frequency is f2, when needs carry out transformation or electricity isolation, can add a transformer in the high side of frequency, then sort circuit can be realized by f1 to the frequency conversion of f2 or by the frequency conversion of f2 to f1.Can also guarantee also that simultaneously input power factor is 1.The characteristics of this frequency conversion, usability is strong, applied range.Can be used as the unidirectional use of two kinds of different frequencies, also can be used as two kinds of different frequency small-power powers and allocate the support frequency conversion mutually.When power failure of f1 side or undertension,, or when power failure of f2 side or undertension,, increased reliability like this to electric by the power supply of f1 side direction f2 side by the power supply of f2 side direction f1 side.

Claims

1. a single phase bidirectional SPWM frequency conversion device is characterized in that: be made up of two power supplys, two capacitor and inductor filter circuits, two inverter bridge, a capacitor filter; By inserting an inverter bridge respectively behind the capacitor and inductor filter circuit, two inverter bridge are common output one direct current power supply behind capacitor filter separately for two power supplys.

2. single phase bidirectional SPWM frequency conversion device according to claim 1, it is characterized in that: described capacitor and inductor filter circuit comprises a filter capacitor and an inductance, electric capacity is connected in parallel on both ends of power, the anode of an end power supply of inductance, and another termination inserts the mid point of inverter bridge; Described inverter bridge is a tri-level circuit, include four power devices (T1, T2, T3, T4) that are in series, between the collector and emitter of power device (T1, T2, T3, T4) respectively cross-over connection fly-wheel diode (D1, D2, D3, D4) is arranged, two clamp diodes (D5, D6) with the series connection form be connected across between power device (T2) collector electrode and power device (T3) emitter; Described capacitor filter includes the filter capacitor that is in series (C1, C2) that is connected between the positive and negative bus of DC power supply, and the mid point of filter capacitor (C1, C2) links to each other with the mid point of two clamp diodes (D5, D6).

3. single phase bidirectional SPWM frequency conversion device according to claim 1, it is characterized in that: described capacitor and inductor filter circuit comprises a filter capacitor and an inductance, electric capacity is connected in parallel on both ends of power, the anode of an end power supply of inductance, and another termination inserts the mid point of inverter bridge; Described inverter bridge is two level circuits, includes two power devices (T1, T2) that are in series, between the collector and emitter of power device (T1, T2) respectively cross-over connection fly-wheel diode (D1, D2) is arranged; Described capacitor filter includes the filter capacitor that is in series (C1, C2) that is connected between the positive and negative bus of DC power supply, and the mid point of filter capacitor (C1, C2) is connected with the negative terminal of power supply.