JPS5875223A - Power unit - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION It has two output voltages of opposite polarity and a common zero potential, and is equipped with a rectifier and a linear vertical leg regulator for each output voltage to connect to the input AC voltage. This is related to the power supply device.

Such a power supply device was featured in the magazine "Elektronjc Entwic J".
klung) 1979 June issue 24-4
It is described on page 6.

A device as shown in FIG. 1 is known, which consists of a central mains power source separated by a transformer 1, a transmitter 2 incorporating a power supply device, and a plurality of transmitters incorporating a power supply device. It is equipped with remote electronic relay units 3a to 3dt. In order to reduce the number of lines to be installed, one connection point of the secondary winding of the transformer 1 is selected as zero potential. The secondary winding supplies a voltage that serves as input alternating voltage U for the transmitter 2 and the regirator 3. Output A of transmitter 2
The transmitter voltage at the side is also related to the zero potential. The transmitter voltage is led to the inputs E1-E4 of the regirator 3 and is used to control them.

The invention provides a power supply of the type described above with a balanced load of a common zero potential line.

The power supply according to the invention has a balanced current on the zero potential line. Accordingly, a common neutral wire can be used in the apparatus of FIG. 1, thereby reducing line-related costs.

In addition, it is also possible to connect the regirator to the switching element, and in 1-7 without causing feedback,
The regirator can be controlled with DC voltage from a remote transmitter. The present invention will be explained in more detail below with reference to the drawing fg.

The apparatus of FIG. 1 has been described above.

FIG. 2 shows a power supply device to which an input AC voltage U is applied to the input terminal. The lower input terminal in FIG. 2 has zero potential and is designated by the symbol O. The input AC voltage U is rectified by two rectifiers D1 and D2. Since these rectifiers are of opposite polarity, the two capacitors C1 and C2 downstream of them develop two voltages with mutually different polarities that are related to a common zero potential. Those two voltages are
Low resistance value resistor R1 or R2 in current measurement circuit 4
In this case, one linear network regulator I
Applied to CI or IC2.

In the illustrated embodiment, the vertical regulator consists of a known integrated voltage regulator. Vertical regulator IC
I and IC2 are connected to capacitors 03-C6 to prevent unwanted oscillations. Two output voltages +UA and -UA, which are related to the zero potential O, are available at the terminals respectively indicated with corresponding symbols.

A comparison circuit 5 is connected to the current measurement circuit 4, and a control circuit 6 is connected to the comparison circuit 5.

These three circuits 4, 5 and 6 form a current balance circuit.

The current measuring circuit 4 includes a bridge circuit formed of resistors R3 to R6, and measures the voltage drop corresponding to the current J1 or J2 flowing through the resistor R1 or R2. Those voltages are applied to a comparator circuit 5. The comparison circuit 5 comprises an operational amplifier IC3, resistors R7 and R8 at the inverting or non-inverting input, a resistor R7 from the non-inverting input to zero potential O, and a resistor RIO from the output of the operational amplifier to the inverting input. The result of the comparison at the output of operational amplifier IC3 will be a positive or negative voltage value depending on whether current J1 or current J2 is predominant. The voltage value is
Transistor T1 through diode D3 or D4
or applied to the base of T2. The collector of the transistor T1 is connected to the input of the vertical regulator ICI, and the emitter is connected to zero potential via a resistor R13. Resistor R from the base of Trannostar T to zero potential
11 are connected. The transistor T2 also has a resistor R12 between the input of the vertical regulator IC2 and zero potential.
and R14 in the same manner.

The voltages corresponding to the currents J1 and J2 are determined by the current measurement circuit 4.
are determined and compared with each other in a comparator circuit 5 acting as a proportional controller, and the resulting voltage values are fed to a transistor Tlt or T2 acting as a control element. Transistor T1 or T2 carries a current such that, apart from very small control deviations, currents J1 and J2 are identical.

The figure shows that one output voltage terminal UA is connected to the other output voltage -U.
A power supply device adapted to receive a much larger load than A is shown. Since the load is small, the resistance R1
2 and a Zener diode D6 is used as a vertical regulator for the output voltage -UA.

The input and output connections are identical to the circuit of FIG. 2, and therefore identical parts are designated with the same reference numerals.

Downstream of capacitor CI, a series connection of resistor R13 and Zener diode D5 is connected to zero potential. Zener diode D5 has the same Zener voltage as Zener diode D6, and resistors R12 and R13 are the same. This power supply device also has a current measuring circuit 4', and a comparing circuit 5' is connected to the current measuring circuit 4'. Current control port after that @ 6
/ is only one transistor T in series with the resistor R11 connected between the input of the vertical regulator 7 and the zero potential O.
It has 3. If the output voltage -UA is more lightly loaded than the output voltage element UA, only the transistor T3 is sufficient, since the balancing current only needs to flow into the lightly loaded branch.

If current J2 is smaller than current J6, current J6 will be the same as current J7. Current J1 is subject to large fluctuations and large loads, and so is current J8. Current J8
is determined by the current measuring circuit 4' and the current J5
A control signal for the transistor T3 is obtained in such a manner that the current J8 is the same as the current J8.

J6=J, J5-J8, J3-J5+J6, J42J
, +J6, it becomes J5-J4, and therefore, a balanced load condition of the neutral line is obtained.

[Brief explanation of the drawing]

FIG. 1 is a block diagram showing the device with a central transmitter and a remote regulator; FIG. 2 is a circuit diagram showing a power supply with a current balancing circuit; and FIG. 6 is a circuit diagram showing another power supply. be. In the figure, 1 is a transformer, 2 is a transmitter, 3 is an IC1,
IC2 is a regulator, 4.4' is a current measurement circuit, 5.
5' is a comparison circuit, 6.6' is a control circuit, and IC3 is an arithmetic circuit. Patent applicant Johnson Service Company agent Patent attorney Toshihito Yamamoto

Claims (1)

[Claims] 1. Having two output voltages of mutually opposite polarity and a common zero potential, and comprising a rectifier and a linear network regulator for each output voltage to connect to the input alternating current voltage. In the power supply device, a current balancing circuit (4, 5, 6) is installed between the rectifier (DI, D2) and the vertical regulator (ICI, IC2).
), and the line for the zero potential O is connected to one of two lines of input AC voltage (U 2 ). 2. In the power supply device according to claim 1, the current balancing circuit includes a current measuring circuit (4) that determines the current (J2) of the output voltage (10 UA, -UA), and a subsequent stage. and a current control circuit (6) connected to the comparison circuit (5) between the input of the vertical regulator and the zero potential. 3. In the power supply device according to claim 2, the current measuring circuit (4) includes a low resistance value resistor (R1, R2) downstream of the rectifier (DI, D2) and a bridge connected thereto. The power supply device characterized in that it comprises a circuit (R3-R6). 4. The power supply device according to claim 2, characterized in that the comparison circuit (5) comprises an operational amplifier (IC3) connected as a proportional controller. 5. In the power supply device according to claim 2, the current control circuit (6) is connected to the vertical generator (ICI).
, IC2) and a transistor (TI, T2) connected between the zero potential (0). 6. In the power supply device according to claim 5, when the output voltage (-UA) is a light load, the transistor is connected from the input of the associated vertical generator (7) to the zero potential (0). The power supply device characterized in that only (T3) is connected. 7. In the power supply device according to claim 6, a resistor (R30) from a low resistance value resistor (R1) in a branch path of a heavily loaded output voltage (10 UA) is connected to the zero potential.
and a Zener diode (D5) connected in series.