JPH03190560A - Power supply - Google Patents

Abstract

PURPOSE:To simplify the winding specification of an oscillating coil by obtaining a further boosted output with a rectifier diode and a smoothing capacitor, from a superimposed output signal obtained by a DC/DC converter, a diode, and a capacitor. CONSTITUTION:An output voltage 23 is obtained by a rectifier diode 22 and a smoothing capacitor 31. A control transistor 21 controls the oscillating force of an oscillating transistor 20 with the output voltage V1out of 23. Then, a superimposed signal V2in is obtained with a diode 24 for superimposing DC voltage to the voltage V1out, and a capacitor 25 connected to the oscillated voltage so as to superimpose AC voltage. And another output voltage V2out is obtained from the superimposed signal V2in through the medium of a rectifier diode 26 and a smoothing capacitor 27. This makes it possible to simplify the specification of the winding section of an oscillating coil 19.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of Industrial Application The present invention is directed to a D
The present invention relates to a power supply device that generates a plurality of DC output voltages in a C-DC converter circuit.

2. Description of the Related Art Among DC-DC converter circuits that generate a plurality of DC voltages, a ringing choke type DC-DC converter circuit that generates two DC output voltages is configured as shown in FIG. 1 is an oscillation coil, 2 is an oscillation transistor, 3 is a control transistor, 4 is a rectifier diode for one output voltage 5 (V'l), and 6 is a rectifier diode for the other output voltage 8 (V'2). The rectifier diode 7 is a Zener diode for stabilizing the output voltage 8 and feeding it back to the control transistor 3. The oscillation voltage oscillated by the oscillation transistor 2 is rectified by a rectifier diode 4, smoothed by a smoothing capacitor 9, and then output to an output voltage 5.
This occurs. On the other hand, after being rectified by the rectifier diode 6 and smoothed by the smoothing capacitor 10, another output voltage 8 is generated, and this V
The '2 voltage is configured to control the oscillation force of the oscillation transistor 2 through the Zener diode 7 and the control transistor 3, thereby increasing the efficiency of this two-output DC-DC converter.

Problems to be Solved by the Invention However, in such conventional power supply devices, the winding specifications of the oscillation coil are complicated, and the energy required to generate two different output voltages is induced in the oscillation coil. However, there have been problems such as deterioration of the efficiency of the DC-DC converter circuit and relatively complicated circuitry around the oscillation coil.

The present invention solves the above problems, and provides a power supply that can easily standardize the winding specifications of the oscillation coil, prevent deterioration of the efficiency of the DC-DC converter circuit, and that can be configured with relatively simple peripheral circuits. It was created for the purpose of providing a circuit.

Means for Solving the Problems In order to solve the above problems, the power supply device of the present invention includes a DC-DC converter circuit having an oscillation circuit, and a boosted voltage converter circuit.
The signal generated by the superimposing diode that superimposes the oscillation output on one output voltage and the input diode that superimposes the oscillation output on the diode output is configured to generate another output voltage using the rectifying diode and the smoothing capacitor. It is something.

According to the above-described configuration, the present invention generates a signal for generating an output voltage by superimposing an oscillation signal on another output voltage, and obtains the output voltage by rectifying and smoothing the signal. It is something that can be done.

Embodiment A power supply device according to an embodiment of the present invention will be described below with reference to the drawings.

FIG. 1 shows a DC-DC converter circuit for generating two DC output voltages in one embodiment of the present invention, and shows a ringing choke type DC-DC converter circuit. In FIG. 1, 19 is an oscillation coil, 20 is an oscillation transistor, 21 is a control transistor, 22 is a rectifier diode for the first output voltage 23 (Vlout), and 24 is the other second output voltage 28 (V2ou t), 25 is a superimposition capacitor that also produces a signal to obtain output voltage 28, 26 is a rectifier diode, and 27 is a smoothing capacitor.

FIG. 2 shows the oscillation voltage 29 (VO6c) in FIG.
One output voltage 23 (Vlout), superimposed signal 3
0 (V2 in) and the output voltage 28 (V2out) obtained by superimposition.

The power supply device configured as above will be described below with reference to FIGS. 1 and 2.

The signal waveform Vosc oscillated by the oscillation coil 19 and the oscillation transistor 20 is as shown in the figure, one output voltage 23 is obtained by the rectifier diode 22 and the smoothing capacitor 31, and its waveform is as shown in the figure Vl out . Here, the oscillation transistor 20 is the control transistor 21
The oscillation force is controlled from the output voltage Vlout of 23. Next, a superimposition diode 24 is connected to Vlout 23 so as to superimpose a DC voltage, and a superposition capacitor 25 is connected from the oscillation voltage to superimpose an AC voltage.
The signal waveform 30 (V2 in) obtained by is shown in the figure, and its approximate voltage value is V2inL=t
(Vlout-Vf)+Vosc. However, Vf
is the forward voltage drop of the diode 24. Another output voltage 28 (V2out) is obtained from this superimposed signal by a rectifier diode 26 and a smoothing capacitor 27, as shown in the figure. As is clear from the above formula, Vlo of 23
By setting the output voltage setting resistors 35 and 36 so that ut is larger than the Vf of the rectifier diode 24, the output voltage V2out of 28 can be higher than the output voltage Vlout of 23. Become.

As described above, according to this embodiment, a DC superimposition diode that superimposes an oscillation voltage on one boosted output voltage, and an AC superimposition capacitor that superimposes the AC component of the oscillation are connected to the output side of the diode. However, by rectifying and smoothing the signals obtained by these, another boosted output voltage can be obtained, and the specification of the winding part of the oscillation coil can be changed from a 3-coil specification to a 2-coil specification, compared to conventional power supplies. It can be simplified to 2 and obtain two boosted output voltages.
By changing the voltage boost, rectification, and smoothing method of one coil to the voltage step-up, rectification, and smoothing method of one coil, it is possible to prevent loss when coupling the coils, and prevent deterioration of efficiency of the power supply device. It is something.

Effects of the Invention As described above, the present invention provides a DC-DC converter circuit having an oscillation circuit, a superimposition diode that superimposes the oscillation output on one boosted output voltage, and a superposition diode that superimposes the oscillation output on the output of the diode. By configuring the superimposed output signal obtained by the capacitor to further obtain a boosted output voltage by the rectifier diode and smoothing capacitor, the winding specifications of the oscillation coil can be simplified and the efficiency of the power supply device can be improved. It is possible to realize a device that can prevent the deterioration of the temperature with a relatively small number of peripheral circuit parts.

[Brief explanation of drawings]

FIG. 1 is a circuit diagram of a power supply device according to a first embodiment of the present invention, and FIG. 2 is a main circuit diagram of the circuit diagram of FIG. 1. A waveform diagram showing the required voltage waveform, FIG. 3 is a circuit diagram of a conventional power supply device. 19...Oscillation coil, 20.21...
Transistor, 22.24.26...Diode, 32°33.35,36...Resistor, 25,
27,31゜34.37.38...Capacitor, 18...Input power supply.

Claims (1)

[Claims] A DC-DC converter circuit having an oscillation circuit, a superimposition diode that superimposes an oscillation output on one boosted output voltage, a superposition capacitor that superimposes the oscillation output on the output of the diode, and a superposition capacitor that rectifies the superimposed output. A power supply device comprising a diode and a smoothing capacitor and generating multiple DC outputs.