JPS62210865A - Rectifier circuit - Google Patents

Abstract

PURPOSE:To obtain different DC output voltage in high efficiency, by a method wherein rectifier elements of a rectifier circuit are commonly used by a plurality of DC outputs. CONSTITUTION:An output transformer 1 has a plurality of output terminals 1a-1d, and outputs a plurality of different voltages. A rectifying diode bridge 4 composed of diodes 4a-4d is inserted between the output terminals 1a-1d of the output transformer 1, and a smoothing capacitor 3c is inserted between output terminals of the rectifying diode bridge 4. Other smoothing capacitors 3b, 3a are inserted between other terminals 1b, 1c of the output transformer 1 and one end of the smoothing capacitor 3c.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of Industrial Application The present invention relates to a rectifier circuit used in various electrical and electronic devices.

BACKGROUND OF THE INVENTION Conventionally, when using a single-turn output transformer to obtain multiple outputs of different DC voltages, half-wave rectification has low rectification efficiency and high ripple content.

In addition, with bridge rectification, the rectification efficiency is higher than that of half-wave rectification, and the ripple content is lower than that of half-wave rectification, but as the number of DC voltage outputs increases, the rectifier The number increases.

Hereinafter, the conventional rectifier circuit as described above will be explained with reference to the drawings.

FIG. 3 shows a circuit diagram of a conventional rectifier circuit, in which a multi-voltage output is obtained by a half-wave rectifier circuit.

In FIG. 3, 1 is an output transformer that outputs a plurality of different voltages, 2 is a rectifying element, and 3 is a capacitor for smoothing.

The operation of the rectifier circuit configured as described above will be explained below.

The output transformer 1 transforms an alternating current voltage applied to its primary side to its secondary side, and the output voltage is divided by a tap of the secondary side output. The AC voltage applied to the divided secondary side terminals is half-wave rectified by the rectifying element 2. The half-wave rectified current is charged in the smoothing capacitor 3, and different DC output voltages Vl, V2 . V3 is obtained.

FIG. 4 shows a circuit diagram of a conventional rectifier circuit, in which a plurality of different voltage outputs are obtained by a bridge rectifier circuit.

In Figure 4, 1 is the output transformer, 3 is the capacitor, 4
is a rectifying diode bridge for full-wave rectification.

The operation of the rectifier circuit configured as described above will be explained below.

The output transformer 1 transforms an alternating current voltage applied to its primary side to its secondary side, and the output voltage is divided by a tap of the secondary side output. The AC voltage applied to the divided secondary side terminals is full-wave rectified by the rectifying diode bridge 4.

The full-wave rectified current is then transferred to the smoothing capacitor C of 3.
A, Cb, and Cc are charged.

Problems to be Solved by the Invention However, the efficiency of the rectifier circuit in the half-wave rectification circuit described above is lower than that in the full-wave rectification circuit, and when a load is connected to it, the DC output voltage decreases. ,or,
There is also a problem that the ripple content rate is higher than that of the aftereffect rectifier circuit.

Also, in bridge rectification, although the efficiency of the rectifier circuit increases and the ripple content rate decreases, the smoothing capacitor is charged with the voltage obtained by bridge rectifying the voltage across the transformer during the half cycle of rectification. Therefore, when each output terminal is unloaded, the output voltages are all the same, so there is a problem that different DC output voltages cannot be obtained.

Therefore, the present invention has been made in view of the above-mentioned prior art.
It is an object of the present invention to provide a rectifier circuit that can improve the efficiency of rectification, reduce the pull content, and obtain different DC output voltages.

Means for Solving the Problems In order to solve the above-mentioned conventional problems, the rectifier circuit of the present invention includes an output transformer having a plurality of output terminals, and a full-wave rectifier inserted between the two output terminals of the output transformer. A rectifying element,
A smoothing capacitor is inserted between the output terminals of the full-wave rectifying element, and another smoothing capacitor is inserted between another output terminal of the multi-output transformer and one end of the smoothing capacitor.

Operation The present invention has the above-described configuration to obtain full-wave rectification of different DC output voltages. Therefore, the efficiency of rectification is improved compared to half-wave rectification, the drop in DC output voltage under load is reduced, the ripple content can be reduced, and different DC output voltages can be obtained.

EXAMPLE An example of the present invention will be described below with reference to the drawings.

FIG. 1 shows seven circuit diagrams of a rectifier circuit in one embodiment of the present invention.

In FIG. 1, 1 is an output transformer that outputs a plurality of different voltages, 2 is a rectifying element that rectifies the output of the transformer, and 3 is a capacitor for smoothing the full-wave rectified current. Since these are the same as those in the conventional example, the same numbers are given to them and the explanation is omitted. 4 is a rectifying diode bridge that is combined to full-wave rectify the output current of the multi-output transformer. In addition, 4a, 4b4c during the bridge
The symbol 14d is given and the rectifying element is cited in the explanation as a single unit. Also, for convenience of explanation, 4 on the output side of output transformer 1
1 a X l b Nlc, ld
shall be.

The operation of the rectifier circuit configured as described above will be explained below.

In FIG. 1, the capacitor 3a is divided into a positive half cycle and a negative half cycle of the AC output of the multi-output transformer 1.
, 3b, and 3c will be explained.

As shown in FIG. 1, the voltage between the terminals of the multi-output transformer 1, the voltage between the terminals 1a and 1b, is Va.

Let the voltage between the terminal 1b and the terminal IC be vb1, and the voltage between the terminal IC and the terminal 1d be Vc. First, during the positive half cycle, that is, when the potential of terminal 1a is higher than the potential of terminal 1d, the voltage supplied to capacitor 3C, '8゛/, is the voltage between terminal 1a and terminal 1d, that is, Va + Vb +
It is the voltage obtained by subtracting the forward direction drop voltage of each of the rectifying elements 4a and 40 (hereinafter, the value is referred to as D) from Vc,
As shown in FIG. 2 (2), Va+Vb+Vc-2D.

Furthermore, the voltage supplied to the capacitor 3b is the voltage between the terminals 1b and 1d, that is, Vb+Vc minus the forward voltage drop caused by the rectifying element 4c, as shown in FIG.
), it becomes vb+vc-D. capacitor 3a
The voltage supplied to is the voltage V between terminal 1c and terminal 1d.
The voltage obtained by subtracting the forward voltage caused by rectifier 2 and rectifier 4c from c is V'c as shown in Fig. 2 (4).
-2D.

During the next negative half cycle, that is, when the potential of terminal 1d is higher than the potential of terminal 1a, the voltage supplied to capacitor 3c is equal to the potential v2 smoothed by capacitor 3b and terminal 1b.
and the voltage Vb + Vc between the terminal 1d and the terminal 1d, that is, V
It is the voltage obtained by subtracting the forward drop voltage of each of rectifying elements 4b and 4d by two elements from 2+Vb+Vc, and is shown in Figure 2 (
2), the voltage supplied to the capacitor 3b is the voltage Va between the terminals 1a and 1b minus the forward drop voltage of the rectifying element 4d, and va-D as shown in Figure 2 (3)
becomes. The voltage supplied to the capacitor 3a is the sum of the voltage V2 smoothed by the capacitor 3b and the voltage vb between the terminals 1b and 1c, that is, V2+Vb plus the forward drop voltage of each of the rectifying elements 2 and 4d. As shown in Figure 2 (4), V2+Vb-
It becomes 2D. In the past, half-wave rectification was possible using one multi-output transformer, but the present invention makes it possible to perform full-wave rectification.

Effects of the Invention As described above, the present invention can perform full-wave rectification of all the different currents output from the output transformer by using a circuit that shares the rectifier element of the rectifier circuit with other DC outputs.
Furthermore, increasing the number of output voltages requires increasing the number of output transformer terminals,
This can be done simply by adding a capacitor, and different full-wave rectified DC voltages can be obtained, and the number of outputs can be easily increased.

Moreover, the practical effect is great when one of the plurality of outputs is switched and used instead of using each output at the same time.

[Brief explanation of drawings]

FIG. 1 is a circuit diagram of a rectifier circuit in an embodiment of the present invention,
FIG. 2 is a diagram showing voltage waveforms applied across capacitors 3a, 3b, and 3c, FIG. 3 is a circuit diagram of a conventional half-wave rectifier circuit, and FIG. 4 is a circuit diagram of a conventional full-wave rectifier circuit. 1... Output transformer la, lb, lc, ld... Output terminal of output transformer 2... Rectifying element 3a, 3b, 3c... Smoothing capacitor 4...
... Rectifier diode bridge 4a, 4b
, 4 c , 4 d ・”...-Name of rectifier agent Patent attorney Toshio Nakao and 1 other person @ 2 Figure
Positive ku■ Vlr+Vc-D ' Vcb-D! ■ ■ Vc-2D + V2+Vb-2D ■

Claims (1)

[Claims] an output transformer having a plurality of output terminals, a full-wave rectifier inserted between two output terminals of the output transformer, a smoothing capacitor inserted between the output terminals of the full-wave rectifier, and the multi-output A rectifier circuit characterized in that another smoothing capacitor is inserted between another output terminal of the transformer and one end of the smoothing capacitor.