JP2001268901A - Power supply - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a small power supply capable of supplying both DC and AC and highly reliable in operation. SOLUTION: A rectifying and smoothing means 3 that rectifies and smoothes AC from a commercial power supply 2, a switching power supply means 4 that switches the DC output of the means 3 to obtain a transformed and rectified DC output of a given voltage, and an inverter circuit 5 that obtains a high-frequency output by switching the DC output from the means 3 are provided on a piece of printed board P. Then, a portion of the output of the means 4 is supplied as a driving power supply for an IC 51 for the inverter on the inverter circuit 5. Also, the gate signal of a thyristor SC constituting the in-rush current preventing circuit 9 of the means 3 is fed from the means 4.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to a power supply device,
More specifically, the present invention relates to a power supply device for obtaining a predetermined DC output and a high-frequency output from a commercial power supply.

[0002]

2. Description of the Related Art For example, a vending machine installed outdoors has conventionally been provided with a fluorescent lamp inside the device. Such an apparatus requires a DC power supply as a drive power supply for each unit of the apparatus, and also requires an AC power supply for lighting a fluorescent lamp.

[0003] In this way, both DC and AC power are supplied.
A power supply for a device requiring a power source is conventionally shown in FIG.
Thus, a DC power supply unit a for supplying DC power to each unit of the device,
AC power supply b for supplying AC power supply to fluorescent lamp c
Separate printed circuit board P₁, P _TwoAre provided individually
Was.

[0004] More specifically, the DC power supply unit a provided on the printed circuit board P ₁ is the form of a so-called switching regulator, rectifier smoothing circuit for rectifying and smoothing an input voltage of the AC 100 V (more specifically, not shown Filter circuit, rectifier circuit, smoothing circuit, rush current prevention circuit, etc.) d
Switching power supply means for switching the output voltage of the rectifying / smoothing circuit d to once convert it to high-frequency AC, and then transforming and rectifying it to obtain a desired DC voltage (more specifically, a switching element, Control I
C, a high-frequency transformer, a high-frequency rectifier circuit, etc.) e.

On the other hand, the AC power source unit b provided on the printed circuit board P ₂ is a rectifying and smoothing circuit f consisting configuration similar to that of the rectifying and smoothing circuit d of the DC power supply unit a, the frequency output voltage of the rectifying smoothing circuit f An inverter circuit (a switching element, an IC for an inverter for controlling the switching element, etc.) g for converting into an alternating current having a high current is constituted as a main part.

[0006]

However, such a conventional power supply has the following problems, and its improvement has been desired.

(1) That is, in the power supply device described above, the DC power supply unit a and the AC power supply unit b are separate printed circuit boards P _1,
Because it is formed on the P _2, the device main body of the automatic vending machine or the like in which these power supply device is attached, in advance necessary to secure a space for attaching these two printed board P _1, P ₂ This has been one of the factors that hinder the miniaturization of the apparatus main body. Moreover, such a conventional configuration, since the mounting operation on the printed circuit board P _1, the apparatus body every P ₂ is required, device working steps increases during manufacture and Ya manage work process Concomitantly , printed circuit board P _1, P ₂
This has led to an increase in management costs required for manufacturing and storage of the products.

(2) In the power supply device described above, since the DC power supply unit a and the AC power supply unit b are provided on separate substrates P _{1 and} P ₂ , a rectifier having the same configuration (function) in terms of circuit configuration. The smoothing circuits d and f overlap. Therefore, in the above-described conventional power supply device, the number of components is increased due to the duplication of the circuit, and the manufacturing cost of the power supply device is increased (specifically, the raw material cost and the assembly work cost are increased). ).

(3) Further, since the inverter circuit g includes a control microcomputer (inverter IC) for controlling the switching operation of the switching element due to its known circuit configuration, it is necessary to drive the IC. , An auxiliary power supply (IC power supply) h is required. for that reason,
There is also a problem that the provision of such an auxiliary power supply h causes an increase in the number of parts, a raw material cost, and a manufacturing cost.

(4) As the rectifying / smoothing circuits d and f, a rectifying / smoothing circuit of a capacitor input type is usually employed. Therefore, in such rectifying and smoothing circuits d and f, an inrush current prevention circuit (not shown) using a power thermistor or a thyristor is provided as a measure against inrush current. When a thermistor is used, an inrush current flows when the power switch is turned on / off at short intervals, and therefore, in the above-described power supply device such as a vending machine, the inrush current is prevented using a thyristor. Preferably, a circuit is employed.

In the rush current prevention circuit using such a thyristor, an electric circuit (a thyristor driving power supply) for driving the thyristor (giving a gate signal to the thyristor) is required. However, in the AC power supply section b, a DC output like the DC power supply section a cannot be obtained. Therefore, when such a thyristor type inrush current prevention circuit is employed, an electric circuit for generating a thyristor gate signal is used. Conventionally, the thyristor method has not been adopted in the AC power supply section b, and the power thermistor method has been adopted in spite of the disadvantage.

SUMMARY OF THE INVENTION The present invention has been made in view of the above-mentioned conventional problems, and has as its object to provide a small-sized and low-cost power supply for both DC and AC, and have high operation reliability. A power supply device is provided.

[0013]

To achieve the above object, a power supply according to the present invention is a power supply using an AC power supply as an input source, the DC power supply converting the AC power into DC and outputting the DC power. And an AC power supply unit for converting and outputting the frequency of the AC power supply, and various electric components constituting the DC power supply unit and the AC power supply unit are mounted on a single printed circuit board. And

In a preferred embodiment, the DC power supply is in the form of a switching regulator.
The AC power supply unit is constituted by an inverter circuit that receives a DC voltage from the rectifying and smoothing means of the switching regulator.

That is, the power supply device of the present invention comprises a DC power supply unit and an AC power supply unit, which are conventionally provided on separate printed circuit boards, mounted on a single printed circuit board. Reduce the number of boards,
This simplifies the work of attaching to the apparatus main body. For mounting on a printed circuit board, a so-called line-operated switching regulator is used as a DC power supply, and a DC output of a rectifying / smoothing circuit of the switching regulator (a rectifying / smoothing circuit provided before a switching element) is provided. A part is branched and input to the inverter circuit of the AC power supply unit. In other words, by sharing the rectifying and smoothing circuit between the DC power supply unit and the AC power supply unit, the duplication of the circuit configuration on the printed circuit board (duplication of the rectifying and smoothing circuit) is eliminated, and the power supply device is downsized. is there.

As a preferred embodiment of the power supply device of the present invention, the power supply for driving the microcomputer for controlling the inverter circuit is supplied from the switching regulator, and the rectifying / smoothing means is provided. When a thyristor-type inrush current prevention circuit is used as the inrush current prevention circuit, the gate signal of the thyristor is supplied from the switching regulator.

That is, in the present invention, since the DC power supply unit and the AC power supply unit are integrated on the same substrate, the output voltage of the switching regulator can be used as the drive power supply for the microcomputer of the inverter circuit or the rush current prevention circuit. Can be used as a gate signal source of the thyristor, and as a result, it is possible to provide a power supply device with a small number of components and high operation reliability.

[0018]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an embodiment of a power supply device according to the present invention will be described in detail with reference to FIG.

FIG. 1 shows a case where a power supply according to the present invention is used as a power supply for a vending machine (not shown). The power supply 1 is supplied from a commercial power supply (AC power supply) 2. Rectifying / smoothing means 3 for rectifying and smoothing an input voltage of AC 100V to obtain a DC output, and high-frequency switching of the DC output from the rectifying / smoothing means 3 and for transforming and rectifying to obtain a DC output of a predetermined voltage. A power supply means 4 and an inverter circuit 5 for switching the DC output from the rectifying and smoothing means 3 at a high frequency to obtain an AC output are constituted as main parts.

That is, in the power supply device 1, the rectifying / smoothing means 3 and the switching power supply means 4 constitute a so-called line operated type switching regulator (DC power supply unit) A, while the rectifying / smoothing means 3 and the inverter circuit 5 constitutes a frequency converter (AC power supply unit) B.

Specifically, first, the rectifying and smoothing means 3
Is composed of a capacitor input type rectifying / smoothing circuit widely used in the field of a line operated type switching regulator. More specifically, as shown in the figure, the rectifying and smoothing means 3 includes a filter circuit 6, a rectifying circuit 7, a smoothing circuit 8, and an inrush current preventing circuit 9.
The main part is configured.

The filter circuit 6 is a noise filter for preventing a switching current flowing in the switching power supply means 4 from returning to the commercial power supply 2 or preventing a surge voltage from entering the commercial power supply 2 due to a lightning strike. It is. The rectifier circuit 7 is a circuit for full-wave rectification of an AC voltage. In the illustrated example, the rectifier circuit 7 employs diode bridges D _{1 to} D ₄ .

The smoothing circuit 8 is a circuit for smoothing the voltage waveform which has been subjected to full-wave rectification by the rectifier circuit 7 and is constituted by an electrolytic capacitor C. The inrush current prevention circuit 9 is a so-called thyristor type inrush current prevention circuit composed of a parallel circuit of a thyristor SC and a resistor R. The gate signal of the thyristor SC constituting the inrush current prevention circuit 9 is given from the switching power supply means 4.

Therefore, the circuit operation of the inrush current prevention circuit 9 in this embodiment is as follows. That is, when the commercial power supply 2 is turned on, in other words, the switching power supply means 4 is activated and the thyristor SC is turned off until a predetermined DC voltage (gate signal) is supplied from the switching power supply means 4 to the gate terminal of the thyristor SC. During this time, the rush current flowing through the circuit is suppressed by the resistor R. Then, after the power supply starts, specifically, after the switching power supply means 4 is started, a gate signal is applied to the gate terminal, whereby the thyristor SC is turned on, and a current is supplied to the electrolytic capacitor C via the thyristor SC. You.

On the other hand, the switching power supply means 4 converts the DC voltage obtained by the rectifying / smoothing means 3 into a high frequency (AC) by a DC-AC inverter, transforms the DC voltage, converts it again into DC, and converts it to a predetermined voltage. (A DC output shown in the figure). Specifically, although not shown, the switching power supply means 4 is provided with the rectifying and smoothing means 3.
Switching element for high-frequency switching of DC output from the power supply and its control unit (DC-AC inverter), high-frequency transformer for performing voltage conversion of an AC component high-frequency switched by the switching element, and connected to the secondary side of the high-frequency transformer And a rectifier circuit for performing AC-DC conversion.

In this embodiment, the switching power supply means 4 is of a so-called multi-output type in which a plurality of DC outputs are taken out from the secondary side of the high-frequency transformer. A part of the DC output of the switching power supply means 4 is supplied as a DC output shown in the drawing as a DC power supply for each part of the vending machine (not shown), and the other part is a thyristor of the inrush current prevention circuit 9. Applied to the gate of SC. Further, another part of the DC output is supplied to a microcomputer (inverter IC) 51 for controlling the inverter of the inverter circuit 5 described later.

The inverter circuit 5 includes the rectifying / smoothing means 3
It converts a DC output from the switching device into an AC, and includes a switching element (not shown) and a microcomputer 51 for controlling the switching operation of the switching element as main components. Specifically, the microcomputer 51 is in the form of a so-called inverter IC, and the switching frequency of the switching element is set by the inverter IC.

The high frequency output (AC output) from the inverter circuit 5 is supplied to the fluorescent lamp 10 as a power supply for lighting the fluorescent lamp 10 built in the vending machine.

Thus, in the present embodiment, various electric components constituting the power supply device 1 having such a circuit configuration are mounted on a single printed circuit board P. That is, in the present embodiment, the DC power supply unit A and the AC power supply unit B are mounted on a single printed circuit board P in an integrated manner so as to share the rectifying and smoothing means 3. Therefore, according to the present invention, it is possible to provide a power supply device capable of supplying both DC and AC power without duplication in circuit configuration.

The above-described embodiment shows a preferred embodiment of the present invention, and the present invention is not limited to the above-described embodiment, and various design changes can be made within the scope of the present invention. is there.

For example, in the above-described embodiment, the case where the power supply device 1 according to the present invention is used as a power supply for a vending machine has been described. However, the present invention is applicable to other devices which require both DC and AC power supplies. If so, the present invention can be applied to devices other than vending machines (for example, refrigerators with fluorescent light illumination).

In the above embodiment, the rectifying and smoothing means 3
Although a rectifying / smoothing circuit of a capacitor input type has been shown, the rectifying / smoothing means 3 may employ another circuit configuration as long as it can supply a DC voltage to the switching power supply unit 4 and the inverter circuit 5. It is possible. Further, in the present embodiment, a case has been described in which a thyristor-type inrush current prevention circuit is employed as the inrush current prevention circuit 9; however, it is a matter of course that the inrush current prevention circuit can be configured using a power thermistor. . When a power thermistor is used as the inrush current prevention circuit 9, it goes without saying that power supply from the switching power supply means 4 to the inrush current prevention circuit 9 is of course unnecessary.

[0033]

As described above in detail, according to the power supply device of the present invention, the power supply device has a DC power supply unit and an AC power supply unit, and various electric components constituting these units are mounted on a single printed circuit board. Since it is mounted, the work of attaching the power supply device to an electric device or the like can be easily performed. In addition, since the DC power supply unit and the AC power supply unit are realized by a single printed circuit board, it is possible to integrate the production and management of printed circuit boards, which were conventionally performed separately for the DC power supply and the AC power supply. Such cost can be suppressed.

In mounting the DC power supply unit and the AC power supply unit on a printed circuit board, the DC power supply unit is in the form of a switching regulator, and the voltage output of the rectifying and smoothing means of the switching regulator is connected to the inverter of the AC power supply unit. Since it is used as a circuit input, it is possible to provide a power supply device that can handle both DC and AC with one rectifying and smoothing means. Accordingly, there is no duplication in the circuit configuration (specifically, duplication of the filter circuit, the rectifier circuit, the smoothing circuit, and the inrush current prevention circuit), and the number of components of the power supply device can be reduced. Can be significantly reduced in size.

Moreover, since the output voltage of the switching regulator is used as the drive power supply of the microcomputer for controlling the inverter circuit, there is no need to separately provide an auxiliary power supply for driving the microcomputer in the inverter circuit unlike the related art. In this respect, the number of parts can be reduced and the manufacturing cost can be suppressed.

In addition, since the rectifying / smoothing means is shared by the DC power supply unit and the AC power supply unit, a thyristor-type inrush current prevention circuit is adopted as the inrush current prevention circuit of the rectification / smoothing means, and the thyristor gate signal is From the switching regulator, it is possible to use a thyristor type inrush current prevention circuit also in the AC power supply section, and it is possible to obtain an AC output with high operation reliability.

[Brief description of the drawings]

FIG. 1 is an explanatory diagram showing a schematic configuration of a power supply device according to the present invention.

FIG. 2 is an explanatory diagram showing a schematic configuration of a conventional power supply device.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 Power supply device 2 Commercial power supply (AC power supply) 3 Rectification smoothing means 4 Switching power supply means 5 Inverter circuit 6 Filter circuit 7 Rectification circuit 8 Smoothing circuit 9 Inrush current prevention circuit 51 Microcomputer (I for inverter
C) A Switching regulator (DC power supply) B Frequency converter (AC power supply)

Continuation of the front page (51) Int.Cl. ⁷ Identification symbol FI Theme coat II (reference) // G07F 9/00 G07F 9/00 Q (72) Inventor Nobuyuki Inoue 93 Edocho, Chuo-ku, Kobe-shi, Hyogo Stock Association (72) Inventor, Takeo Fujimoto 93, Edocho, Chuo-ku, Kobe, Hyogo Prefecture F-term (reference) 3E044 AA01 DD10 EB06 5H007 BB03 CA01 CC01 CC32 HA03 5H730 AA15 AS11 CC01 EE61 XC09 ZZ11 5H740 JA28 MM NN17 PP02

Claims (4)

[Claims] 1. A power supply device using an AC power supply as an input source, comprising: a DC power supply unit that converts the AC power supply into a DC power and outputs the DC power.
A power supply comprising: an AC power supply for converting the frequency of the AC power and outputting the converted power; and various electric components constituting the DC power supply and the AC power supply are mounted on a single printed circuit board. apparatus. 2. The method according to claim 1, wherein the DC power supply unit is in the form of a switching regulator, and the AC power supply unit is configured by an inverter circuit receiving a DC voltage from a rectifying and smoothing unit of the switching regulator. Item 2. The power supply device according to item 1. 3. The power supply device according to claim 2, wherein drive power for a microcomputer for controlling the inverter circuit is supplied from the switching regulator. 4. When a thyristor-type inrush current prevention circuit is used as the inrush current prevention circuit provided in the rectifying / smoothing means, a gate signal of the thyristor is supplied from the switching regulator. The power supply device according to claim 2, wherein: