JPH0246230Y2 - - Google Patents

Description

[Detailed Description of the Invention] [Industrial Application Field] The present invention relates to an improvement of a DC stabilized power supply device.

Generally, DC stabilized power supply equipment uses a transformer.
The step-down AC voltage generated in the primary winding is rectified, smoothed, and stabilized to obtain a desired DC output voltage.

In recent years, switching type power supplies have become mainstream as such DC stabilized power supplies. In a switching type DC stabilized power supply, if the number of output circuits is one, this output voltage is detected and fed back to the control circuit of the primary inverter circuit, and one circuit is stabilized by the control of the primary inverter circuit. However, if there are multiple output circuits, a feedback system is added to only one circuit for stabilization, and no feedback system is added to the other circuits, so the output voltage of these output circuits also varies. If stabilization is required, a stabilization circuit is required for each output circuit.

[Conventional technology]

The conventional configuration of a switching type DC stabilized power supply device having a plurality of output circuits as described above will be explained with reference to FIGS. 1 and 2.

In Figures 1 and 2, an inverter circuit INV using a pulse width control method (hereinafter referred to as PWM method) is connected to the primary winding of a transformer T, and two center-tap type windings are connected to the secondary winding. By providing this, a two-output circuit is constructed.

Each winding on the secondary side includes a rectifier circuit consisting of diodes D1, D2 and D3, D4, and a smoothing circuit LPF1, LPF consisting of a coil, a capacitor, etc.
2 are connected.

Also, one output 2 detects the output voltage,
The DC output voltage is stabilized by feeding back to the inverter circuit INV via the PWM control circuit CNT.

In FIG. 1, the other output 1 is connected to a stabilizing circuit ST to stabilize the DC output voltage.

Stabilization circuit for output 1 in the circuit configuration shown in Figure 1
For example, ST is based on a dropper circuit system, which controls the voltage difference to stabilize the DC voltage by lowering it to the desired DC output voltage after smoothing, and all the power due to this voltage difference is consumed as heat. , which has the drawbacks of large losses and poor efficiency.

In Fig. 2, the transistor Q1, a freewheeling diode, and a width control circuit WCNT are used to switch the transistor Q1 on the output side, and the width control circuit WCNT is connected to the inverter circuit on the primary side.
Since it is necessary to configure the circuit in consideration of the synchronization signal CLK with the switching frequency of INV, it has drawbacks such as a complicated circuit configuration and a large number of parts.

The present invention aims to solve the above-mentioned problems.

[Means for solving problems]

The above problem occurs in a DC stabilized power supply device that rectifies, smooths, and stabilizes the AC voltage generated in the secondary winding by the AC voltage supplied to the primary winding of the transformer to obtain a DC output voltage. , rectifying the alternating current voltage generated in the secondary winding,
a first rectifier circuit that outputs a first DC voltage; a smoothing circuit that smoothes the first DC voltage to obtain the DC output voltage; and a summing winding wound around the secondary winding. A second DC voltage that rectifies the AC voltage generated between the windings including the addition winding and the secondary winding and outputs a second DC voltage higher than the first DC voltage.
a rectifier circuit; a switch element that superimposes the second DC voltage on the first DC voltage; and a switch element that controls opening and closing of the switch element in accordance with the first DC output voltage to stabilize the output voltage. The problem is solved by a control circuit.

[Effect]

The control circuit detects that the first DC output voltage has decreased, and the switch element superimposes the second DC output voltage so that the first DC output voltage is constant, thereby increasing the overall DC output. This stabilizes the voltage.

〔Example〕

An embodiment of the present invention will be described below with reference to FIG. FIG. 3 is a circuit configuration diagram of a DC stabilized power supply device showing an embodiment of the present invention, and the same parts as in FIG. 2 are given the same numbers.

In Fig. 3, for the circuit configuration of Fig. 2,
Windings N ₁ and N ₄ are added to the conventional windings N ₂ and N ₃ ,
The AC voltage generated by the summing windings N ₁ and N ₄ is rectified by a rectifier circuit consisting of diodes D5 and D6 to obtain a second DC voltage, and the AC voltage generated by the windings N ₂ and N ₃ is rectified by a rectifier circuit consisting of diodes D5 and D6. It is rectified by D2 to obtain a first DC voltage. In this case, since the summing windings N ₁ and N ₄ have more turns than the windings N ₂ and N ₃ ,
The second DC voltage obtained from the summing windings N ₁ , N ₄ will be higher than the first DC voltage obtained from the windings N ₂ , N ₃ .

Then, by turning on the transistor Q1 used as a switch element, this second DC voltage is superimposed on the first DC voltage output from the rectifier circuit consisting of diodes D1 and D2. That is, when transistor Q1 is OFF, the DC voltage of output 1 from the rectifier circuit consisting of diodes D1 and D4 may vary depending on the voltage fluctuation of the inverter circuit on the primary side of the transformer or the load fluctuation of the load connected to output 1. When the voltage drops below a reference value determined by , the width control circuit WCNT detects this and turns on the transistor Q1. Therefore, the second rectifier circuit consisting of diodes D5 and D6
DC voltage (higher than the first DC voltage) is applied to the output 1 through the smoothing circuit LPF1, and the DC output voltage of the output 1 increases. In addition, in this state, when the DC output voltage of output 1 rises above the reference value, a width control circuit detects this and controls ON/OFF of transistor Q1.
The transistor Q1 is turned off by the WCNT, and only the first DC voltage (lower than the second DC voltage) formed by the diodes D1 and D2 is supplied to the output 1, so that the DC output voltage decreases.

In this way, transistor Q1 is turned on and off by the width control circuit WCNT according to the DC output voltage.
By repeatedly applying the second DC voltage through the addition windings N ₁ and N ₄ intermittently, it becomes possible to stabilize the DC output voltage of the output 1.

Furthermore, although this embodiment describes a switching type DC stabilized power supply, other types of DC stabilized power supply can be used as long as the output circuit requires stabilization on the secondary side via a transformer. can also be applied.

[Effect of idea]

As described above, according to the present invention, a DC output voltage is detected and a switch element is turned on and off in order to keep the output voltage constant by superimposing another DC voltage on the DC output voltage. Control is achieved by off-switching, which eliminates loss due to heat generation, is efficient, and can be realized with a simple circuit configuration that does not require a synchronization signal.

[Brief explanation of drawings]

1 and 2 are circuit diagrams of a conventional DC stabilized power supply, and FIG. 3 is a circuit diagram of a DC stabilized power supply according to an embodiment of the present invention. In the figure, D1 to D6 are diodes, Q1 is a transistor, WCNT is a width control circuit, T is a transformer,
LPF1 and LPF2 are smoothing circuits.

Claims (1)

[Claims for Utility Model Registration] DC stabilization that obtains a DC output voltage by rectifying, smoothing, and stabilizing the AC voltage generated in the secondary winding by the AC voltage supplied to the primary winding of the transformer. In the power supply device, rectifying the alternating current voltage generated in the secondary winding,
a first rectifier circuit that outputs a first DC voltage; a smoothing circuit that smoothes the first DC voltage to obtain the DC output voltage; and a summing winding wound around the secondary winding. A second DC voltage that rectifies the AC voltage generated between the windings including the addition winding and the secondary winding and outputs a second DC voltage higher than the first DC voltage.
a rectifier circuit; a switch element that superimposes the second DC voltage on the first DC voltage; and a switch element that controls opening and closing of the switch element in accordance with the first DC output voltage to stabilize the output voltage. A DC stabilized power supply device comprising a control circuit.