JP2003180078A - Power supply apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To avoid the erroneous changeover of a power supply system and to quickly meet the requirement of the change of the power supply system. <P>SOLUTION: When a power supply voltage VAC is AC100 V, a socket 24 is connected to a connector CN11 and a socket 25 is connected to a connector CN5. When the power supply voltage VAC is changed to AC200 V, the socket 24 is disconnected from the connector CN11. Further, the socket 25 is disconnected from the connector CN5, and a transformer 26 is connected to the connector CN5 instead. With such a constitution, the changeover of a connection mode in a rectifying circuit 7 (short-circuiting/opening both ends of a resistor), the changeover of a connection mode of a rectifying/smoothing circuit in the input part of a switching regulator 5 (double-voltage rectification/full wave rectification), and the changeover of a connection mode between the terminals of the connectors CN5 and CN6 with respect to AC100 V/AC200 V can be conducted. <P>COPYRIGHT: (C)2003,JPO

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a power supply device corresponding to a plurality of power supply voltages, for example, a commercial AC power supply of 100V system and 200V system.

[0002]

2. Description of the Related Art Conventionally, as a power supply device of this type, there is a switching power supply circuit as disclosed in Japanese Patent Laid-Open No. 8-107674 (reference 1). This switching power supply circuit monitors the commercial power supply voltage (input voltage),
When this voltage becomes, for example, 150 V or more, the switch is opened by the relay to switch the rectification method in the rectifier circuit from double voltage rectification to full-wave rectification. That is,
When AC100V is the input voltage, the rectification method in the rectification circuit is double voltage rectification, and when AC200V is the input voltage, the rectification method in the rectification circuit is full-wave rectification.

[0003]

In the switching power supply circuit described above, AC100V / 200V can be shared, but a monitoring circuit for monitoring the input voltage and a relay must be provided, which causes a problem of cost increase. there were.

On the other hand, if AC100V / 200V switching is performed by a manual switch, the cost can be reduced by eliminating the monitoring circuit and the relay. However, in the case of a manual switch, there is a risk that the switch may be erroneously switched by touching with a hand.

For example, a switching power supply circuit is housed in a housing, and a manual switch is provided by being exposed to the outside of the housing.
It shall be incorporated in the control panel. In this case, despite the fact that the manual switch was switched to AC200V, he was concerned about the installation work and wiring work of various devices in the control panel,
My hand touched the manual switch, and accidentally caused an AC100V
It may be switched to for. In this case, AC10
The control panel will be shipped while being switched for 0V, and when inputting AC200V on site, an excessive voltage is generated by voltage doubler rectification, which causes a problem that circuit components are destroyed.

In order to prevent this, if a manual switch is provided in the housing, it becomes impossible to easily switch AC100V / 200V (switching the power supply system).
It is impossible to immediately respond to the change from C100V to AC200V and the change from AC200V to AC100V (change of power supply system).

The present invention has been made in order to solve such a problem, and an object of the present invention is to prevent the power supply system from being mistakenly switched and to immediately respond to the change of the power supply system. It is to provide a possible power supply device.

[0008]

In order to achieve such an object, according to the present invention, a socket is attached when the power supply voltage of the first system is used as the input voltage, and the power supply voltage of the second system is used as the input voltage. If the socket is attached to the connector, the connection mode is switched to the connection mode according to the power supply voltage of the first system if the socket is attached to the connector, and if the socket is not attached to the connector A connection mode variable circuit capable of switching to a connection mode according to the power supply voltage of two systems is provided.

According to the present invention, when the socket is attached to the connector, the connection mode variable circuit is switched to the connection mode according to the power supply voltage of the first system (for example, AC100V), and the socket is attached to the connector. When not attached, the connection mode variable circuit is switched to the connection mode according to the power supply voltage of the second system (for example, AC200V). In this case, the switching of the power supply system is performed not by the manual switch but by attaching / detaching the socket to / from the connector, so that the power supply system cannot be switched by a touch. Therefore, the power supply system is not switched by mistake, and the socket can be attached / detached to / from the connector outside the housing, and the power supply system can be promptly changed.

As the connection mode variable circuit, a rectification circuit provided in the preceding stage of the indicator lamp, a rectification / smoothing circuit provided in the input part of the switching regulator, a power supply input circuit to the transformer, a power supply circuit to the outlet, and the like can be considered. .

When the connection mode variable circuit is a rectifier circuit provided in front of the indicator lamp, the resistance value of the output passage of the rectified current in the rectifier circuit can be changed depending on whether the socket is attached to the connector or not. Switch (Figure 4
(See (a)). For example, when a socket is attached to the connector, both ends of the resistor provided in the rectified current output passage are short-circuited, and when a socket is not attached to the connector, the rectified current output passage is provided. Both ends of the resistor are opened (see FIG. 4 (b)).

When the connection mode variable circuit is a rectifying / smoothing circuit provided in the input portion of the switching regulator, the rectifying method in the rectifying / smoothing circuit is switched depending on whether the socket is attached to the connector or not. . For example, when the socket is attached to the connector, double voltage rectification is used (see FIG. 5A), and when the socket is not attached to the connector, full-wave rectification is used (see FIG. 5B). .

When the connection mode variable circuit is used as a power supply input circuit to the transformer, the power supply to the primary winding of the transformer in the power supply input circuit may or may not be provided with a socket. Switch supply taps. For example, when the socket is attached to the connector, power is supplied between one end of the primary winding of the transformer and the intermediate tap (see FIG. 6A), and the socket is attached to the connector. If not, power is supplied between one end and the other end (between taps at both ends) of the primary winding of the transformer (see FIG. 6B).

When the variable connection mode circuit is used as the power supply circuit for the outlet, the connection / disconnection of the power supply passage to the outlet in the power supply circuit is switched depending on whether the socket is attached to the connector or not. . For example, when the socket is attached to the connector, the power supply path for the power supply to the outlet is made conductive (see FIG. 6A), and when the socket is not attached to the connector, the power supply to the outlet is supplied. The supply passage is shut off (see FIG. 6B).

The connection mode variable circuit is a rectification circuit provided in the preceding stage of the indicator lamp and a rectification / smoothing circuit provided in the input part of the switching regulator, with or without a socket attached to the connector.
The resistance value of the output path of the rectified current in the rectifier circuit may be switched, and the rectification method in the rectification / smoothing circuit may be switched. In addition, the variable connection mode circuit is used as the power input circuit for the transformer and the power supply circuit for the outlet, and the power supply to the primary winding of the transformer in the power input circuit may or may not be equipped with a socket. It is also possible to switch the supply taps and switch the conduction / interruption of the power supply passage to the outlet in the power supply circuit.

[0016]

BEST MODE FOR CARRYING OUT THE INVENTION The present invention will be described below in detail with reference to the drawings. FIG. 1 is an external perspective view of a power supply device (power supply module) showing an embodiment of the present invention.

In the figure, 1 is a housing, 2 and 3 are breakers provided in the housing 1, CN1 to CN11 are connectors, TB1 is a terminal block to which an AC power supply of AC100V or AC200V is connected, and 4 is an outlet. Is. The breakers 2 and 3 have their handles 2-1 and 3-1.
The surface provided with is exposed to the outside of the housing 1, and plays a role of blocking the AC current when it flows excessively. Further, the connectors CN1 to CN11 have their insertion ports facing the outside of the housing 1.

FIG. 2 shows a circuit block diagram of the power supply module 100. The power supply module 100 includes the breakers 2 and 3, the connectors CN1 to CN11, the terminal block TB1, the outlet 4, the switching regulator 5, the indicator light transformer 6, the rectifier circuit 7, and the fuses 8-1 to 8-1 described above. 8-7 and.

The power supply module 100 has a housing 1
With the upper surface 1A of the front faced to the front, it is housed in a control panel (not shown). In the state of accommodation in this control panel, the connector CN
A power reception indicator lamp 20 assembled to the door of the control panel is connected to the control panel 1. A control module 21 is connected to the connectors CN2 and CN3, a transformer (AC24V transformer) 22 is connected to the connector CN6, and base modules 23-1 to 23-1 to CN10 to CN10.
23-4 is connected.

[Switching Regulator] FIG. 3 is a block diagram showing an internal configuration of the switching regulator 5. The switching regulator 5 includes an input unit 5A and
It has a first switching regulator unit 5B and a second switching regulator unit 5C. Input section 5
A is an input filter 5A1 and an inrush current suppressing circuit 5A2.
And a rectifying & smoothing circuit 5A3, and rectifies and smoothes the _AC voltage V _{AC 1} from the breaker 2 via the fuse 8-4.

First switching regulator section 5B
Is a primary side regulator unit 5B1 and a transformer 5B2
, Secondary side regulator unit 5B3, output filter 5B
4 is provided, the rectified and smoothed voltage V _DC from the input unit 5A is input, and a stable DC voltage V _DC1 is generated as a base module voltage. In this embodiment, V
_DC 12V is generated as _{DC 1} .

Second switching regulator section 5C
Is a primary side regulator unit 5C1 and a transformer 5C2
, Secondary side regulator unit 5C3, output filter 5C
4 is provided, the rectified and smoothed voltage V _DC from the input unit 5A is input, and a stable DC voltage V _DC2 is generated as a base module voltage. In this embodiment, V
_DC 24 V is generated as _{DC 2} .

The power supply module 1 is connected to the connector CN11.
When the power supply voltage V _AC to 00 is AC100V (the input voltage is AC100V, the power supply module 100 is AC
When used for 100), the socket 24 is connected. If the power supply voltage V _AC and AC200V (input voltage is AC200V, the power module 100 AC20
When used for 0V), the socket 24 is removed from the connector CN11.

The power supply module 10 is connected to the connector CN5.
Power supply voltage V to 0_ACIs AC100V,
25 is connected. Power supply to the power module 100
Pressure V _ACIs AC200V, from connector CN5
The socket 25 is removed and replaced by a transformer 26
Are connected.

[For AC100V] Power Supply Module 1
If the power supply voltage V _AC to 00 and AC100V, as described above, the connector CN11 socket 24, the connector CN5 connecting socket 25.

When the socket 24 is connected to the connector CN11, the switching signal S1 is sent to the rectifier circuit 7. In response to this switching signal S1, the rectifier circuit 7, as shown in FIG. 4A, has both ends (lines L1-L) of the resistor R1 in the circuit.
2) is short-circuited. In this case, the LED of the power reception indicator light 20
20-1 indicates the rectified output voltage of the indicator light transformer 6 by E
1, when the internal resistance of the power reception indicator lamp 20 is R2, E1
÷ The current I1 of R2 flows. In this embodiment, since the indicator light transformer 6 is built in the power supply module 100, it is possible to reduce the protrusion of the power receiving indicator light 20 to the back of the door and to make the control panel thin. There is.

Further, when the socket 24 is connected to the connector CN11, the switching signal S2 is sent to the switching regulator 5. In response to the switching signal S2, the rectifying & smoothing circuit 5A of the input section 5A of the switching regulator 5 is received.
3 short-circuits the lines L3 and L4 as shown in FIG. In this case, the rectification & smoothing circuit 5A3 performs voltage doubler rectification to generate the rectified and smoothed voltage V _DC between the lines L5 and L6.

When the socket 25 is connected to the connector CN5, as shown in FIG. 6A, the terminals T1 and T2 and the terminals T3 and T4 in the connector CN5 are brought into conduction, and the breaker 3 is connected. The AC voltage V _AC2 = 100V from the fuse 8-7 is supplied to the outlet 4. Further, the switching signal S3 is sent from the connector CN5 to the connector CN6, and the terminal T5 in the connector CN6
And T6 become conductive, and the AC voltage V _AC1 = 100 V from the breaker 2 causes the primary winding CL of the transformer 22 to
Applied between one end of 1 and the center tap, and the secondary winding C
An AC voltage V _{AC3 of} 24V from L2 is obtained as a voltage for the base module.

[In the case of AC200V] Power supply module 1
If the power supply voltage V _AC to 00 and AC200V, as described above, removing the socket 24 from the connector CN11. Further, the socket 25 is removed from the connector CN5 and the transformer 26 is connected instead.

When the socket 24 is removed from the connector CN11, the switching signal S1 'is sent to the rectifier circuit 7.
In response to this switching signal S1 ′, the rectifier circuit 7 operates as shown in FIG.
As shown in (b), both ends (between the lines L1 and L2) of the resistor R1 in the circuit are opened. In this case, when the rectified output voltage of the indicator lamp transformer 6 is E2 and the internal resistance of the indicator lamp 20 is R2, a current I1 ′ of E2 ÷ (R1 + R2) flows through the LED 20-1 of the indicator lamp 20. .
In the present embodiment, the indicator light transformer 6 is AC100V.
Current I1 (Fig. 4 (a)) and A
A current I1 ′ that flows when C200V is applied (see FIG. 4).
The values of the resistors R1 and R2 are set so as to be equal to (b)). Therefore, the power receiving indicator 20, the power supply voltage V _AC to the power module 100 is also set to AC200V, emits light with the same brightness as that of AC100V.

Further, from the connector CN11 to the socket 24
When is removed, the switching signal S2 ′ is sent to the switching regulator 5. Upon receiving this switching signal S2 ',
The rectification & smoothing circuit 5A3 of the input section 5A of the switching regulator 5 has a line L3-, as shown in FIG.
Open between L4. In this case, the rectification & smoothing circuit 5A3
Performs full-wave rectification and V _AC1 = 1 between lines L5 and L6
It produces a rectified and smoothed voltage V _DC equal to that of 00V.

When the socket 25 is removed from the connector CN5, the terminals T1 and T2 and the terminals T3 and T4 in the connector CN5 are opened as shown in FIG. 6B. In this case, the transformer 26 has its primary winding CL3 between the terminals T1 and T3, and its secondary winding C3.
L4 is connected between terminals T2 and T4. Therefore, the AC voltage V _AC2 = 200V from the breaker 3 via the fuse 8-7 is stepped down to 100V by the transformer 26 and is supplied to the outlet 4.

When the socket 25 is removed from the connector CN5, the switching signal S3 'is sent from the connector CN5 to the connector CN6, the terminals T5 and T7 of the connector CN6 are brought into conduction, and the AC voltage from the breaker 2 is applied. V _AC1 = 200V is applied between the one end and the other end of the primary winding CL1 of the transformer 22 (across the taps), the secondary winding CL2 from the AC voltage V _AC3 voltage for the base module 24V Obtained as.

As can be seen from the above description, in the present embodiment, the switching of the power supply system is not the manual switch but the attachment / detachment of the socket 24 to / from the connector CN11 and the connector CN5.
The socket 25 is attached to and detached from the socket. For this reason,
The power system is not switched by touching it, and the power system is not accidentally switched.
Further, since the socket 24 is attached / detached to / from the connector CN11 and the socket 25 is attached / detached to / from the connector CN5, the power source system can be immediately changed.

Further, in the present embodiment, when the power supply system is changed, switching of the connection mode in the rectifying circuit 7 (short circuit / opening of both ends of the resistor R1), rectifying & smoothing circuit in the input section 5A of the switching regulator 5 are performed. 5A3 connection mode switching (double voltage rectification / full-wave rectification), connection mode switching between terminals in connector CN6 (power input circuit to transformer 22) (conduction between terminals T5-T6 / between terminals T5-T7). Corresponding by switching the connection mode between terminals in the connector CN5 (power supply circuit to the outlet 4) (conduction / interruption between the terminals T1-T2 and terminals T3-T4: use / non-use of the transformer 26). Therefore, the indicator light transformer 6, the switching regulator 5, the AC 24V transformer 22, the outlet 4 and the like are prepared for each power supply system. There is no required.

In the above-mentioned embodiment, the power supply system is AC100V and AC200V.
Needless to say, it is not limited to / AC200V. Further, in the above-described embodiment, the value of the resistor R1 is substantially changed by short-circuiting / opening both ends of the resistor R1 in the rectifier circuit 7. However, a separately prepared resistor is connected in parallel with the resistor R1. May be connected to. Further, in the above-described embodiment, the connection mode variable circuit includes the rectifying circuit 7, the rectifying & smoothing circuit 5A3, and the connector C.
Although N6 and connector CN5 are used, the invention is not limited to these.

[0037]

As is apparent from the above description, according to the present invention, when the socket is attached to the connector, the connection mode variable circuit responds to the power supply voltage of the first system (for example, AC100V). When the socket is not attached to the connector, the connection mode variable circuit is switched to the connection mode according to the power supply voltage of the second system (for example, AC200V), and the power supply system is switched. Is done by attaching and detaching the socket to and from the connector, not by a manual switch.Therefore, the power system is not switched with the touch of the hand, that is, the power system is not accidentally switched, and the socket By attaching / detaching it on the outside of the housing, it becomes possible to immediately respond to changes in the power supply system.

[Brief description of drawings]

FIG. 1 is an external perspective view of a power supply device (power supply module) showing an embodiment of the present invention.

FIG. 2 is a circuit block diagram of this power supply module.

FIG. 3 is a block diagram showing an internal configuration of a switching regulator in this power supply module.

FIG. 4 is a diagram illustrating a connection mode switching operation in a rectifier circuit for a power receiving indicator lamp when receiving switching signals S1 and S1 ′.

FIG. 5 is a diagram for explaining a connection mode switching operation in the rectification & smoothing circuit of the switching regulator when receiving the switching signals S2, S2 ′.

FIG. 6 is a diagram illustrating a switching operation of a connection mode between terminals in connectors CN5 and CN6 when receiving switching signals S3 and S3 ′.

[Explanation of symbols]

1 ... Casing, 2, 3 ... Breaker, 4 ... Outlet, 5 ... Switching regulator, 5A ... Input part, 5B ... 1st switching regulator part, 5C ... 2nd switching regulator part, 5A3 ... Rectification & smoothing circuit, 6 ... Indicator light transformer, 7 ... Rectifier circuit, R1 ... Resistor, CN5, C
N6, CN11 ... Connector, T1-T7 ... Terminal, 20 ...
Power receiving indicator, 22 ... Transformer (AC24V transformer),
CL1 ... AC24V transformer primary winding, CL2 ... A
C24V transformer secondary winding, 24, 25 ... Socket, 26 ... Transformer, CL3 ... Transformer primary winding,
CL4 ... secondary winding of transformer, 100 ... power supply module.

   ─────────────────────────────────────────────────── ─── Continued front page    (72) Inventor Toshiya Yoshimura             2-12-19 Shibuya, Shibuya-ku, Tokyo Stock market             Takeyama F-term (reference) 5H006 AA04 BB06 CB01 CB04 CB09                       CC08

Claims (7)

[Claims] 1. A connector to which a socket is attached when the power supply voltage of the first system is the input voltage, and the socket is detached when the power supply voltage of the second system is the input voltage; When the socket is attached, the connection mode is switched to the connection mode according to the power supply voltage of the first system, and when the socket is not attached to the connector, the connection mode according to the power supply voltage of the second system. And a connection mode variable circuit that can be switched to a power supply device. 2. The power supply device according to claim 1, wherein the connection mode variable circuit is a rectifier circuit provided in a front stage of an indicator lamp, and the socket is attached to the connector and the socket is not attached to the connector. A power supply device, wherein a resistance value of an output passage of a rectified current in the rectifier circuit is switched. 3. The power supply device according to claim 1, wherein the connection mode variable circuit is a rectifying / smoothing circuit provided in an input portion of a switching regulator, and the socket is not attached to the connector. A power supply device, wherein the rectification method in the rectification / smoothing circuit is switched depending on the case. 4. The power supply device according to claim 1, wherein the connection mode variable circuit serves as a power supply input circuit to a transformer, and the power supply is used depending on whether the socket is attached to the connector or not. A power supply device, wherein a tap for supplying power to the primary winding of the transformer in an input circuit is switched. 5. The power supply device according to claim 1, wherein the connection mode variable circuit is a power supply circuit for an outlet, and the socket is attached to the connector and the socket is not attached. A power supply device, characterized in that conduction / interruption of a power supply passage to the outlet in a supply circuit is switched. 6. The power supply device according to claim 1, wherein the connection mode variable circuit is a rectifying circuit provided in a preceding stage of the indicator lamp and a rectifying / smoothing circuit provided in an input portion of a switching regulator, and the connector is provided in the connector. A power supply device, wherein a resistance value of an output passage of a rectification current in the rectification circuit is switched and a rectification method in the rectification / smoothing circuit is switched depending on whether the socket is attached or not. 7. The power supply device according to claim 1, wherein the connection mode variable circuit is a power supply input circuit to a transformer and a power supply circuit to an outlet, and the socket is attached to the connector. When not, the tap for supplying power to the primary winding of the transformer in the power input circuit is switched,
A power supply device, wherein conduction / interruption of a power supply path to the outlet in the power supply circuit is switched.