KR930004801Y1 - Automatic convering circuit for parallel power source lines - Google Patents

Abstract

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Description

Automatic switching circuit of parallel power supply

1 is a switching circuit diagram of a conventional parallel power supply.

2 is an automatic ablation circuit diagram of a parallel power supply according to the present invention.

The present invention relates to a parallel power supply switching circuit of a system receiving a starting power source and an operating power source, and more particularly, to a circuit for supplying a starting power source to a system and automatically switching to an operating power source.

Typically, an electronic circuit system operated by receiving a DC power supply voltage may include one or more power supply circuits. For example, when the system is initially turned on by supplying power to a power switch or the like, the current consumption is large. Therefore, a high power is supplied initially. Supply low power supply voltage. In the above system, the starting power supply circuit and the operating power supply circuit are connected in parallel.

1 is a configuration of a conventional parallel power supply circuit, and a circuit composed of resistors R1-R2, a constant voltage diode ZD, and a transistor TR is a constant voltage circuit, and the input power supply voltage VIN is a first power supply voltage Vcc1. An operating power supply circuit 10 for stabilizing the power supply circuit and outputting a second power supply voltage Vcc2 in parallel with the starting power supply circuit is connected. The diode D is a reverse voltage prevention diode which prevents the output of the transistor TR from being input to the operation power supply output circuit 10.

In the configuration of FIG. 1, VIN is an input voltage, and VOUT is an output terminal and is connected to the power supply voltage input terminal of the system. GND is the ground terminal. Here, the example using GIN of the predetermined level VIN and 0V power supply, or GND may be set as negative voltage level (-VIN).

The operation voltage output circuit 10 may use an SMPS type power supply circuit as an auxiliary power supply, and the relationship between the first power supply voltage Vcc1 and the second power supply voltage Vcc2 is Vcc1 '' Vcc2.

Now when the power supply VIN is input to the circuit of FIG. 1, it is applied to the resistors R1 and R2. In this case, the voltage through the resistor R2 is divided by a constant voltage by the constant voltage diode ZD and supplied to the base of the transistor TR. Therefore, the transistor TR is also conducted by supplying a constant current to the base of the transistor TR. At this time, the current through the resistor R1 is output to the output terminal VOUT through the collector-emitter of the transistor TR2. The base potential of the transistor TR is maintained at the constant voltage of the constant voltage diode ZD (the breakdown voltage as the voltage VZD at both ends of the constant voltage diode ZD). When the system is operated by the first power supply voltage Vcc1 and outputs the second power supply voltage Vcc2 of a predetermined level from the operating voltage output circuit 10, it is outputted as a diode (Vcc1). D) is output.

Therefore, the output terminal VOUT is supplied to the parallel power supply of the starting voltage Vcc1 and the operating voltage Vcc2.

However, in the circuit described above, only two of the first and second power supply voltages Vcc1 and Vcc2 are continuously output to the output terminal VOUT as two power supply circuits are operated at the same time. Therefore, in the circuit as shown in FIG. 1, there is a problem that the constant voltage circuit outputting the starting power continues to operate even after the operating power is supplied to the system, resulting in power loss and overwhelming the system.

Accordingly, an object of the present invention is to provide a circuit for automatically switching a parallel connected starting power source and an operating power source in a system for inputting a starting voltage and an operating power source.

Accordingly, an object of the present invention is to provide a circuit for automatically switching a parallel connected starting power source in a system for inputting a starting voltage and an operating power source.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 is a circuit diagram according to the present invention, in which the collector and emitter of transistor TR2 are connected between the base and ground of transistor 1 of FIG. 1 described above, and the base of the transistor TR2 and an operating power output circuit. The configuration other than the constant voltage diode ZD2 connected between (IO) is the same as that in FIG.

The operation of FIG. 2 will be described in detail.

When the supply power supply voltage VIN is input, it is applied to the resistors R1 and R2. Thus, a current through the resistor R2 is applied to the base of the transistor TR so that the transistor TR is driven in an "on" state. According to the "on" state of the transistor TR, the current through the resistor R1 is output to the output terminal VOUT through the collector and the emitter of the transistor TR. At this time, the base potential of the transistor TR is constant by the constant voltage diode ZD connected in series with the resistor R2, so that the first power supply voltage Vcc1 output to the output terminal VOUT is output at a constant constant voltage. .

When the second power supply voltage Vcc2 is output from the operating voltage output circuit 10 in the state where the constant voltage circuit operates as described above, it is applied to the base of the transistor TR2 through the constant voltage diode ZD2. Therefore, the transistor TR2 is driven (on) by the second power supply voltage Vcc2 so that the base voltage of the transistor TR by the resistor R2 and the constant voltage diode ZD is almost close.

Therefore, the first power supply voltage Vcc1 output from the emitter of the transistor TR is turned off, and only the second power supply voltage Vcc2 output from the operating voltage output circuit 10 is provided through the diode D. Output to the output terminal (VOUT). Here, the constant voltage diode ZD2 connected to the base of the transistor TR2 is turned on only when the second power supply voltage Vcc2 output from the operating voltage output circuit 10 reaches a stable voltage level. This is to ensure stable operation of the circuit by applying the two power supply voltages Vcc2 to the base of the transistor TR2. That is, when the second power supply voltage Vcc2 reaches the constant voltage of the constant voltage diode ZD2 or more, the transistor TR2 operates to output a more stable output voltage to the terminal VOUT. Without changeover operation which is the purpose of the present invention can be achieved.

When the output level of the operating voltage output circuit 10 becomes lower than the constant voltage level (voltage) of the constant voltage diode ZD2, the transistor TR2 is "off", so that the voltage of the transistor TR, which is in the initial state, is automatically terminal VOUT. Will be printed).

Therefore, when the constant voltage power and the auxiliary power are simultaneously supplied, the output of the parallel power circuit is automatically switched to be the auxiliary power, and when the output of the auxiliary power circuit is unstable or down, the output of the constant voltage power is automatically output.

As described above, the present invention can prevent the power loss of the power supply circuit by automatically switching the output of the parallel power supply circuit in which the outputs of the starting power supply circuit and the operating power supply circuit are connected in parallel to the output of the operating power supply circuit. There is an advantage that can stabilize the operation of the system for inputting the source and the operating power, respectively.

Claims (2)

A resistor R2 and a constant voltage diode ZD connected in series between a first voltage terminal and a second voltage terminal to generate a constant voltage control signal, and connected in series between the first voltage terminal and a voltage output terminal. In an automatic switching circuit of a parallel power supply having a constant voltage circuit composed of a resistor (R1) and a transistor (TR) for outputting a constant voltage of a first level corresponding to a constant voltage control signal, an operating voltage for outputting a voltage of a predetermined second level. A diode D having an anode and a cathode connected in one direction between the generator circuit 10, the output terminal of the operating voltage generator circuit 10, and the voltage output terminal, and the second voltage terminal and the transistor TR. It is connected between the base and in response switching by the voltage of the anode of the diode (D) to cut off the constant voltage control signal to output the output of the operating voltage output circuit 10 to the output An automatic switching circuit for a parallel power supply, characterized by comprising parallel power supply switching means for outputting to a terminal. 2. The parallel power supply switching means of claim 1, wherein a collector and an emitter of the transistor TR2 are connected between the base of the transistor TR and the second voltage terminal, and the base of the transistor TR2 and the diode D. A constant voltage diode (ZD2) is connected between the anodes of the automatic switching circuit of the parallel power supply, characterized in that the operating voltage output circuit (10) operates to cut off the output of the constant voltage circuit when outputting a voltage of the second level.