JPS59169360A - Switching regulator circuit - Google Patents

Abstract

PURPOSE:To obtain both positive and negative voltages by charging a reverse polarity power source condenser connected in series with a diode on the basis of energy discharged from an inductance element in the OFF period of a transistor in reverse polarity to a smoothing condenser. CONSTITUTION:A switching transistor (TR) 2 is connected in series with a positive DC power line 3, a smoothing inductance element 4 is connected in series with the power line 3a of the output side of the TR 2, and a smoothing condenser 5 and the first load 9 are connected to the power line 3b of the output side of the element 4. A switching control signal supply circuit 10 supplies a switching control signal to the base of the TR 2. A rectifying diode 7 is connected to the line 3a having ON directivity on the basis of energy discharged from the element 4 and connected between the common lines 6 through a parallel circuit of the reverse polarity power source condenser 16 and the second load 18.

Description

DETAILED DESCRIPTION OF THE INVENTION Technical Field The present invention relates to a transistor switching regulator circuit capable of supplying both positive polarity voltage and negative polarity voltage.

Prior Art When both a positive voltage and a negative voltage are required, two power supply circuits are provided, each consisting of, for example, a positive voltage switching regulator and a negative voltage switching regulator. In order to obtain positive voltage and negative voltage based on a common power source Vc, a transformer has generally been required.

Therefore, the power supply circuit device has become complicated, large-sized, and expensive.

SUMMARY OF THE INVENTION One object of the present invention is to provide a switching regulator circuit f1g that can obtain both positive and negative voltages with an extremely simple configuration.

Structure of the Invention To achieve the above object, the present invention includes a switching transistor connected in series to a DC source line, and a switching transistor that switches IF! A switching control signal supply circuit connected to the base of the transistor and a smoothing inductance element connected in series to the power supply line on the output side of the transistor.

a flat steel capacitor connected between a power supply line on the output side of the inductance element and a common line; and a flat steel capacitor having a directionality through which a current flows based on the inductance element during a period when the transistor is off. a smoothing rectifier diode connected between the power supply line between the transistor and the inductance element and the common line; Connect the 9 loads of Mi
a first output circuit supplying a voltage of 10,000 polarity to a first load; and a reverse polarity power supply capacitor connected between the rectifier diode and the common line.

a second output circuit that connects a second load to the reverse polarity power supply capacitor in column J, and supplies to the second negative a heavy pressure of the other polarity opposite to the polarity of the negative polarity; This is related to a switching regulator circuit called Color 1'JA.

Effects of the Invention According to the above invention, the reverse polarity power supply capacitor connected in series with the diode is photoelectronized in the opposite direction to the flat capacitor based on the energy released from the inductance element while the transistor is off. Ru. Therefore, a voltage of opposite polarity to the voltage applied to the j-th valve load can be supplied to the second load connected to the reverse polarity power supply capacitor overnight. Therefore, it is possible to make electrical and electrical circuit devices small in size and low in cost.

A switching regulator circuit according to an embodiment of the present invention will be described with reference to FIGS. 1 and 2. FIG. In Figure 1, LIN is a direct current power source, which is composed of a rectifier circuit or a storage battery, etc.6. (2) is a switching transistor, which is connected in series with the positive DC current and power supply line (31). (4) is a smoothing inductance element, that is, a choke coil, O') Power line (3a
) are connected in series. (51 is a smoothing capacitor, which is connected between the power supply line (3b) on the output side of the inductance element (4) and the ground common line +61. (7) is a rectifier for configuring the flat section circuit. The inductance element (4) is a diode, and has the directionality of turning on based on the stored energy released from the inductance element (4) during the off period of the transistor (2).
) is disconnected between the power line (3a) at the previous stage and the common line +6). (8+ is the output circuit for supplying a positive polarity (-10,000 polarity) voltage), which includes a positive output terminal (8a) and connects the first load (9) to the power supply line (
3b) and the common line (6). [01 is a switching control signal supply circuit for supplying a switching control signal to the base of the transistor (2), and is connected to the output voltage detection resistor (111 (12+)) connected to the power supply line (3b).

The output detection voltage obtained from this detection resistor (111 [121) is input to the input terminal (+) of the voltage comparator Q5.
1 and.

A resistor (i3a) connected between the other input terminal (-) of the voltage comparator u9 and the dragon line (3a) on the input side of the inductance element (4), and the other input terminal of the voltage comparator α5j (-) and the ground common line (6;
13b) and a Zener diode αa as a reference pressure source connected through the reference voltage source. Since this switching regulator has a pull voltage detection method VL, the other input terminal (-) of the voltage comparator (151) in the switching control signal supply circuit (101) receives the reference voltage obtained by the Zener diode circle. To.

A voltage obtained by adding the voltage of the collector side power supply line (3a) of the transistor (2) is input. As a result, the output of the transistor (2) is in a positive feedback state, and stable self-oscillation is continued.

ff61 is a newly provided reverse polarity power supply capacitor according to the present invention, and the VC connection is established between the rectifier diode (7) and the common line (6+).
A second load for supplying a voltage of the other polarity 08) and a second load for connecting in parallel to the reverse polarity power supply capacitor σ6j.
This is an output circuit including a second output terminal t17a).

In the switching regulator shown in Fig. 3.

The output voltage is adjusted by turning on and off the transistor (2) as shown in Fig. 2 (A+).The on period T of the transistor (2). As shown in Fig. 2 [F], the current ■1 flowing in the current ■1 gradually increases. flows into the capacitor (5+).

−10,000, if the instantaneous current ■ is smaller than the 9-charge current, then
The insufficient current is compensated by the capacitor (51).The current flows into the capacitor (51), and this photoelectric voltage
When the output voltage of the comparator (15i becomes high), the detection voltage applied to the input terminal (+) of the comparator (15i) becomes high (-).
(When the voltage applied to the FF is higher than the voltage applied to A current continues to flow based on energy. In other words, an inductance element (
4) and the 9th load (5+ and 5th) of the capacitor for the positive power supply (
9) and reverse polarity power supply capacitor u61 and second load a~
A current flows in a closed circuit consisting of a rectifier diode (7) and a rectifier diode (7). At this time, the current and flow rate gradually decrease as shown in Fig. 2 [F]. After that, the detected voltage of the comparator (151 input terminal (+) -), the output of the comparator (I5) becomes a low level and the transistor (2) turns on again. During the on period of the transistor (2), the (current IL is the second load and capacitor (161Y
Although it is not a capacitor (16J is a transistor +2
Since the photoelectricity σ has the polarity shown in the figure during the OFF period of 1, the 2nd
A voltage of negative polarity can be supplied to the second nine load terminals through the output circuit α.

As is clear from the above, according to this embodiment, the diode (
7) and connect the capacitor σ6() in series.

The voltage of the opposite polarity (negative polarity) to the Jth output circuit (8) is applied to the second
can be obtained from the output circuit α7). Therefore, a small power supply circuit device that can obtain both positive and negative voltages,
Low cost) fhi becomes 5J ability. Furthermore, since the positive electrode and the negative electrode can be obtained without including a transformer, the device is further simplified. Therefore.

Key-1 connected to EPBX (electronic private branch exchange)
Electrical valve circuits of terminal devices such as 'EL' etc. (Suitable switching regulators can be provided.

Second Embodiment Next, a switching regulator circuit according to a second embodiment of the present invention will be described with reference to FIG. Since it is qualitatively the same as the one indicated by the same symbol, the theory BA
omitted. In this second embodiment, a constant voltage diode (1 [
phase] is included. In other words, reverse polarity power supply capacitor [6
A constant voltage diode (191) is connected in parallel with 1K. Therefore, it is possible to limit the voltage of the capacitor 6 to below a certain voltage and supply an almost constant voltage to the second load (18J). .if.

Constant voltage diode (with 1 cast not connected.

When the resistance value of the second load becomes infinite, since the capacitor (161) is photoelectrically powered by a current source, its optical voltage becomes infinite in principle.However, in this embodiment, When the constant voltage diode (1!Ill) is connected, the voltage of the capacitor (16) is suppressed to be lower than the breakdown voltage of the constant voltage piezo diode α9.

(Modified example) A control transistor is connected between the base of transistor (2) in FIGS. 1 and 3 and the common line (6), and this is turned on and off by the output of the comparator (151). Turn on and off transistor (2) by 111 g
It may be set to AI-J-yo5.

Mountain 1 First output circuit (81 and second output circuit (I7)
) may be connected in parallel with a dummy resistor.

('''The constant voltage diode shown in Figure 1g3 may be used as a circuit in which a plurality of rectifier diodes are connected in series, or a varistor whose forward rising voltage of the rectifier diode is the first month.

(2) The switching control signal supply circuit uOj may be a pulse width control circuit shown in FIG. That is, the output detection voltage detected by the output voltage detection resistor (ill (121) and the reference voltage of the reference power supply 4 are applied to the error amplifier (2υ).

The comparator (23j) compares the voltage and voltage corresponding to the difference between the detection voltage and the reference voltage with the triangular wave generated by the triangular wave generating circuit, and the resulting rectangular wave pulse is used to generate the base drive circuit (23j).
241, and the base drive circuit Q4 may turn on/off the transistor (2:) shown in FIG.

(2) The pulse width, that is, the on-period T of transistor +21 is constant, and the off-period T. It is also applicable to a frequency control type switching regulator that controls the output voltage by changing the FF.

C) In the example, the emitter of transistor (2) was connected to the power supply side, but the collector may also be connected to the power supply side. ).Also, this comparator (151) may be connected to the power supply line (3b).

The comparator (151) may be driven by the voltages of both the power supply lines (32 and (3b)).

0 The switching control signal supply circuit υυ for self-excited oscillation is shown in Figs. The circuit configuration may be such that the control pulse is generated by comparing the voltage and the reference voltage and voltage.

[Brief explanation of drawings]

FIG. 1 is a circuit diagram showing a switching regulator circuit according to the embodiment of the present invention. FIG. 2 is a waveform diagram showing the operation of the transistor shown in FIG. 1 and the current of the inductance element. FIG. 3 is a circuit diagram showing a switching regulator circuit 8 according to a second embodiment of the present invention. FIG. 4 is a block diagram showing a modification of the switching control signal supply circuit. fi+...1111121...Transistor, (3
)...Power line. (4)... Inductance element, (5)... Capacitor for square division. +61... Ground common line, (7)... Rectifier diode, +81... First output circuit, (9)... jth
Load, (lf)l...Switching control signal supply circuit, [161...Reverse polarity power supply capacitor, wholesale/
...Second output circuit, (181...Second load, (
191... Constant voltage diode.

Claims (2)

[Claims] (1) A switching transistor connected in series to a DC power supply line. a switching control signal supply circuit coupled to the base of the transistor to provide a signal for controlling switching of the transistor; a smoothing inductance element connected in series to a power supply line on the output side of the transistor; a flat capacitor connected between a power supply line on the output side of the inductance element and a common line; A smoothing device connected between the power supply line and the common line between the transistor and the inductance element and having a directionality through which a current flows based on the inductance element during the period when the transistor is off. with a rectifier diode. A third load is connected between the power supply line on the output side of the inductance element and the common line. and an output circuit for supplying a voltage of 10,000 polarities to the J-th load. a reverse polarity power supply capacitor connected between the rectifier diode and the common line; A switching device comprising a second output circuit that connects a second load in parallel to the reverse polarity power supply capacitor and supplies the second load with voltage and voltage of the other polarity opposite to the polarity of the negative polarity. regulator circuit. (2) The switching regulator circuit according to claim 1, wherein the second output circuit is a circuit including a constant voltage diode that is connected in series with the reverse polarity power supply capacitor VC.