JPH06133536A - Universal power supply - Google Patents

Abstract

PURPOSE:To prevent inadvertent operation of a first switching circuit 11 when the entirety is operated as a DC/DC converter by a DC power supply DC. CONSTITUTION:A DC power supply voltage Vd is introduced through a block circuit 14a to a voltage detecting circuit 14 for detecting an output voltage Vo and feeding the output voltage Vo to a first switching circuit 11. When a DC power supply DC is established and the DC power supply voltage Vd is generated, the block circuit 14a blocks operation of the voltage detecting circuit 14 thus interrupting the operation of the first switching circuit 11.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention uses a common isolation transformer, operates as an AC / DC converter when a commercial power source is used, and operates as a DC power source when a DC power source is used.
AC / DC converter type power supply device operating as a DC / DC converter.

[0002]

2. Description of the Related Art The applicant previously used a common insulation transformer for application to small television devices for vehicles, communication equipment, etc., and acted as an AC / DC converter when using a commercial power supply. However, when using a DC power supply, use DC /
An AC / DC power supply device operating as a DC converter has been proposed (Japanese Patent Application No. 3-320705).

This is an AC side input winding connected to a commercial power source via a rectifying / smoothing circuit and a first switching circuit, and a DC side input connecting to a DC power source via a smoothing circuit and a second switching circuit. An insulating transformer having a winding and an output winding is provided, and the first switching circuit operates in the presence of a commercial power source and operates as a ringing choke converter type AC / DC converter, while the second switching circuit operates as a ringing choke converter. The switching circuit operates when there is a DC power supply, and can operate as a DC / DC converter as a whole, and the output winding can output a predetermined voltage to any power supply.

It should be noted that such an AC / DC power supply device is an AC
When operating as a DC / DC converter, the operating frequency is preferably set to about 100 kHz, and when operating as a DC / DC converter, it is preferable to set it to about several tens of kHz. This is because, in general, a commercial power supply can obtain a higher power supply voltage than a DC power supply. Therefore, in order to reduce the switching loss in the first switching circuit, it is preferable to use a high-speed field effect transistor or power transistor as the main switching element. In addition, it is general to add a voltage adjusting function for feeding back the output voltage to each of the first and second switching circuits and maintaining the output voltage constant.

[0005]

According to the prior art, the normal state of the first switching circuit is to completely stop its operation when using the DC power supply.
Nevertheless, there is a problem that the main switching element may be opened and closed carelessly, unnecessary noise may be generated in the output voltage, or the output voltage waveform may be extremely deteriorated to lower the power conversion efficiency. It was This is because the main switching element is driven unnecessarily because the voltage adjusting function for the first switching circuit is operating even when the DC power supply is used. When the commercial power supply is used, the second switching circuit may open and close in the same manner, but the influence at this time can be almost ignored. This is because the second switching circuit has a low operating frequency, so that even if the second switching circuit operates during operation, the output voltage is hardly affected.

Therefore, in view of the problems of the prior art, an object of the present invention is to add a block circuit for stopping the voltage adjusting function of the first switching circuit when the DC power source is established, thereby providing DC / DC It is an object of the present invention to provide an AC / DC dual-purpose power supply device capable of effectively eliminating the adverse effect of the careless opening and closing of the first switching circuit when operating as a DC converter.

[0007]

The structure of the present invention for achieving the above object is a rectifying / smoothing circuit, an AC side input winding connected to a commercial power source through a first switching circuit, a smoothing circuit, and In an AC / DC power supply device that includes an insulation transformer having a DC side input winding connected to a DC power supply via a switching circuit of No. 2 and an output winding, and is operated by both a commercial power supply and a DC power supply, The gist of the invention is to attach a block circuit for stopping the voltage adjusting function of the first switching circuit when it is established.

The block circuit can block the operation of the voltage detection circuit that detects the output voltage and feeds it back to the first switching circuit.

[0009]

According to the structure of the invention, the block circuit is
When the DC power supply is established and the whole operates as a DC / DC converter, the voltage adjusting function of the first switching circuit is stopped, and at that time, the first switching circuit may not operate by mistake. Absent.

When the block circuit blocks the operation of the voltage detection circuit, the voltage detection circuit handles a DC voltage that is not extremely different from the DC power supply voltage, so that the block circuit does not require any special insulation means. By introducing the DC power supply voltage into the voltage detection circuit, the purpose can be improved.

[0011]

Embodiments Embodiments will be described below with reference to the drawings.

The AC / DC power supply device includes a first switching circuit 11, a second switching circuit 12, an insulating transformer T having an AC side input winding Na, a DC side input winding Nd, and an output winding Nc. Is the main component (Fig. 1),
The voltage detection circuit 14 with the block circuit 14a is provided.

A commercial power supply AC is connected to the AC side input winding Na of the insulating transformer T via a backflow preventing diode D1 and a rectifying / smoothing circuit 13, and the first switching circuit 11 is connected to the rectifying / smoothing circuit 13. It is inserted between the AC side input winding Na.

The first switching circuit 11 includes a main switching element (not shown) and a gate control circuit, and an auxiliary winding Nb of an insulating transformer T is connected to the gate control circuit.

A rectifying / smoothing circuit 15 is connected to the output winding Nc of the insulating transformer T, and an output voltage Vo is output from the output side of the rectifying / smoothing circuit 15 to the outside.

A DC power source DC is connected to the DC side input winding Nd of the insulating transformer T via a backflow prevention diode D2 and a smoothing circuit 16, and a DC power source DC is connected between the smoothing circuit 16 and the DC side input winding Nd. Has the second switching circuit 12 inserted therein. It is assumed that the second switching circuit 12 includes a main switching element and a gate control circuit, which are not shown.

The output voltage Vo is the voltage detection circuit 1
4, it is fed back to the first switching circuit 11 via the photo coupler 17, and is also fed back to the second switching circuit 12. The DC power supply voltage Vd from the smoothing circuit 16 is also branched and input to the voltage detection circuit 14 via the block circuit 14a.

The rectifying / smoothing circuit 13 on the input side is, for example,
It is composed of a general bridge rectifier circuit and a smoothing capacitor, and an appropriate noise suppressing capacitor is preferably connected to the input side of the bridge rectifier circuit.

The first switching circuit 11, together with the rectifying / smoothing circuit 13 on the input side, the insulating transformer T, and the rectifying / smoothing circuit 15 on the output side, forms an AC / DC converter of a ringing choke converter type having an operating frequency of about 100 kHz. To do. Therefore, a high-speed field effect transistor (FET) is suitable as the main switching element of the first switching circuit 11, but this may be a high-speed power transistor. The rectifying / smoothing circuit 15 on the output side may be a combination of a half-wave rectifying circuit and a smoothing capacitor.

The second switching circuit 12, together with the smoothing circuit 16, the insulating transformer T, and the rectifying / smoothing circuit 15, form a DC / DC converter having an operating frequency of about several ten kHz. The smoothing circuit 16 may be, for example, a combination of a choke coil having a small inductance and a large current and an electrolytic capacitor having a large capacity.

The isolation transformer T comprises a bobbin made of ferrite, an AC side input winding Na, a DC side input winding Nd,
The auxiliary winding Nb and the output winding Nc are formed in multiple layers. The ferrite used as a bobbin has a small power loss at the operating frequency, a large saturation magnetic flux density and a small residual magnetic flux density, a high magnetic permeability, a negative power loss coefficient, and thermal runaway due to loss heat generation. It is preferable that the Mn—Zn-based soft ferrite has various characteristics such as the absence of a Curie temperature and a high Curie temperature.

The output voltage Vo is divided by the voltage dividing resistors R1 and R2 in the voltage detecting circuit 14 (FIG. 2). The connection point of the voltage dividing resistors R1 and R2 is connected to the reference terminal of the shunt regulator SR,
It is connected to the cathode of the shunt regulator SR via the capacitor C1. The DC power supply voltage Vd from the smoothing circuit 16 passes through the resistor R3 and the diode D3 forming the block circuit 14a, and the shunt regulator S
It is input to the reference terminal of R, and the anode of the shunt regulator SR is grounded. However,
Here, the shunt regulator SR is, for example, a Toshiba TA76431S, and when the voltage Vr of the reference terminal is used, the reverse current Ika flowing from the cathode to the anode has a voltage deviation ΔV = Vr−Vro (however, Vro
Is an element that is exactly proportional to the set voltage determined by the element.

The photo coupler 17 is a light emitting diode PC.
1 and the phototransistor PC2 are integrally assembled and optically coupled. Therefore, in the light emitting diode PC1,
Power is supplied from the output voltage Vo through the resistor R4, and the cathode side of the light emitting diode PC1 is connected to the cathode of the shunt regulator SR. The emitter of the phototransistor PC2 is directly grounded, and the collector is connected to the first switching circuit 11.

Considering in FIG. 1 the case where the commercial power source AC is supplied and the direct current power source DC is not supplied, at this time, the first switching circuit 11 operates, and
It operates as an AC / DC converter. Here, since the output voltage Vo is fed back to the first switching circuit 11 via the voltage detection circuit 14 and the photocoupler 17, the first switching circuit 11 outputs the output voltage Vo regardless of the fluctuation of the load. Can be operated to be constant, and since the whole is a ringing choke converter having an auxiliary winding Nb, its rising characteristic is also very good. At this time, the second switching circuit 12 is at rest and the DC side input winding Nd is also at rest.

Here, the operation of the voltage detection circuit 14 is as follows. That is, now, the voltage dividing resistors R1 and R2 are
When the output voltage Vo is at a predetermined rated value, Vr = Vro
Has been selected. At this time, since the DC power supply DC is not supplied, Vd = 0. Therefore, when the output voltage Vo fluctuates, the shunt regulator SR can accurately reflect the fluctuation in the reverse current Ika to drive the light emitting diode PC1 of the photocoupler 17, so that the photocoupler 17 outputs The fluctuation of the voltage Vo can be transmitted to the first switching circuit 11.

On the other hand, the commercial power supply AC is stopped and the DC power supply D
When C is supplied, the second switching circuit 12 operates, and the whole operates as a DC / DC converter. At this time, since the DC power supply voltage Vd is introduced into the voltage detection circuit 14 via the resistor R3 and the diode D3 of the block circuit 14a, the voltage Vr at the reference terminal of the shunt regulator SR is raised to Vr = Vd. This is because, in general, Vd> Vro. Therefore, the shunt regulator SR can send the fact that the output voltage Vo is extremely excessive to the first switching circuit 11 via the photocoupler 17, so that the first switching circuit 11 can The operation will be stopped. That is, the block circuit 14a can block the operation of the voltage detection circuit 14 and stop the voltage adjustment function of the first switching circuit 11 by setting Vr = Vd.

At this time, since the output voltage Vo is also guided to the second switching circuit 12, the second switching circuit 12 at this time can also minimize the fluctuation of the output voltage Vo. .

In the above description, when a plurality of output voltages Vo are required, a plurality of sets of output winding Nc and rectifying / smoothing circuit 15 may be provided.

Further, when this power supply device is incorporated in a set as a power supply for a television receiver, the second switching circuit 12 operates at an operating frequency matched with the operating frequency of the flyback transformer, which is 15.75 kHz. It is better to let them do it. This is because the element constants for noise countermeasures can be made common and the design can be simplified.
Since the first switching circuit 11 is generally operated at a significantly higher operating frequency than the second switching circuit 12, such consideration is not necessary.

[0030]

As described above, according to the present invention, an insulating transformer having an AC side input winding, a DC side input winding, and an output winding, a first switching circuit, and a second switching circuit are provided.
By combining with the switching circuit of, and attaching a block circuit, when the DC power is established in the block circuit and the whole operates as a DC / DC converter,
Since the voltage adjusting function of the first switching circuit can be stopped and the operation thereof can be positively blocked, the first switching circuit is inadvertently opened and closed, which causes noise in the output voltage and power consumption. There is an excellent effect that it is possible to effectively eliminate the possibility that the conversion efficiency may be lowered.

[Brief description of drawings]

[Figure 1] Overall configuration block diagram

[Fig. 2] Detailed system diagram of main parts

[Explanation of symbols]

 AC ... Commercial power supply DC ... DC power supply Vo ... Output voltage T ... Isolation transformer Na ... AC side input winding Nd ... DC side input winding Nc ... Output winding 11 ... First switching circuit 12 ... Second switching circuit 13 ... rectifying / smoothing circuit 14 ... voltage detection circuit 14a ... block circuit 16 ... smoothing circuit

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[Procedure amendment]

[Submission date] October 13, 1992

[Procedure Amendment 1]

[Document name to be amended] Statement

[Name of item to be corrected] 0025

[Correction method] Change

[Correction content]

Here, the operation of the voltage detection circuit 14 is as follows. That is, now, the voltage dividing resistors R1 and R2
Is when the output voltage Vo is at a predetermined rated value, Vr =
Selected to be Vro. At this time, since the DC power supply DC is not supplied, Vd = 0.
Therefore, when the output voltage Vo fluctuates, the shunt regulator SR can accurately reflect the fluctuation in the reverse current Ika to drive the light emitting diode PC1 of the photocoupler 17, so that the photocoupler 17 outputs Voltage V
The fluctuation of o can be transmitted to the first switching circuit 11.

Claims (2)

[Claims] 1. An AC side input winding connected to a commercial power source via a rectifying / smoothing circuit and a first switching circuit, and a DC side input winding connected to a DC power source via a smoothing circuit and a second switching circuit. And an output transformer and an insulating transformer having an output winding, and in the AC / DC bidirectional power supply device that operates by both a commercial power supply and a DC power supply, when the DC power supply is established, the voltage adjusting function of the first switching circuit An AC / DC dual-purpose power supply device characterized in that a block circuit for stopping the power supply is attached. 2. The AC / DC power supply device according to claim 1, wherein the block circuit blocks an operation of a voltage detection circuit that detects an output voltage and feeds it back to the first switching circuit.