KR830000025Y1 - No-voltage detector - Google Patents

Abstract

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Description

No-voltage detector

1 is a block diagram showing an embodiment of a voltage-free detection device according to the present invention.

2 is a circuit diagram showing the details of the detection circuit.

3 is a circuit diagram showing a more detailed circuit of the negation circuit shown in FIG.

The present invention relates to a voltage-free detection device, which aims to detect whether or not a DC voltage is normally supplied to an electronic device, and uses the DC voltage as a supply voltage source of the device. The present invention provides a voltage-free detection device for detecting a voltage-free voltage with a simple circuit configuration by using a DC voltage source other than the DC voltage as an input signal source.

In the circuit system of the conventional voltage-free detection device, it is common to use a DC voltage from a voltage source to be detected as an input signal source, supplied from a secondary second DC voltage source as a supply voltage to the detection circuit.

As a circuit, a comparison circuit is used to compare the reference voltage and the detected voltage, or a voltage is not supplied to any of the detected voltages using a bridge circuit using a plurality of detected voltages as input signal sources. In this case, a circuit system for detecting by using a broken voltage balance has been used.

All of these circuit systems had complicated circuits and a large number of parts, resulting in high manufacturing costs.

The present invention uses a voltage to be detected as part of the supply voltage source to the no-voltage detection circuit, and uses a second auxiliary voltage as the input signal source of the circuit to eliminate such a conventional drawback. It is to provide a simple and inexpensive no-voltage detection device. Hereinafter, the embodiments will be described in detail with reference to the drawings.

1 is a block diagram showing an embodiment of the present invention, where 1 is a detection circuit, 2 is a display circuit, + V is a voltage to be detected for supplying a voltage to the circuit ₁ , and + V ₁ is a circuit 1 Or an auxiliary voltage for supplying a voltage to the circuit 2.

FIG. 2 shows a detailed circuit of the detection circuit 1 in FIG.

In Fig. 2, an auxiliary voltage of + V ₁ is input to the input terminal of the negative circuit 12 via the retractor 11 as a level. Here, the auxiliary voltage of + V ₁ refers to the main voltage (in this design, the voltage to be detected) for supplying voltage to the load device, and indicates a voltage channel that is not affected even if the main voltage is abnormal. .

When the detected target voltage of + V is normal, the auxiliary voltage of + V ₁ becomes input to the negative circuit 12 at a high level and is also supplied to one input terminal of the logical circuit 14.

The output of the negative circuit 12 is at a low level because + V, which is the voltage source of this circuit, is + 5V, and is input to the negative circuit 13 so that the output of the negative circuit 13 is at a high level. The output of the negative circuit 13 becomes one input of the logical circuit 14.

Therefore, the logic of the high level signal of the other input terminal described above is established, and the output of the logic circuit 14 becomes the low level and is input to the display circuit 2 of the next stage.

The display circuit 2 is a circuit in which nothing is displayed when the input is at a low level.

Now + v blood when the detected voltage is lowered by NOT circuit 12 is able to fulfill the function as a NOT circuit, +, which is the condition that value is not the low-level operation the circuits ever supplied to the NOT circuit 12, V ₁ Although the voltage is lower than normal by the auxiliary voltage, it becomes high level and the negative circuit 13 of the next stage becomes low level, and the output of the logic circuit 14 becomes high level. In this case, the display circuit 2 operates to display.

In order to make it easier to understand, the case where the TTL integrated circuit is used as the negative circuits 12 and 13 will be described in detail again.

3 shows a case where the negation circuit of a general TTL integrated circuit is used. In FIG. 3, the + V detected target voltage is +6 volts and the + V ₁ auxiliary voltage is +5 volts for easy understanding.

Assuming that +6 volts is abnormal and the voltage is lowered to +1 volts or less, the negative circuit 12 in the previous stage loses the voltage source and cannot operate normally. Becomes the same. However, since +5 volts is supplied to the negative circuit 13 of the next stage as a voltage source, the input terminal of the negative circuit 13 is logically at a high level (the voltage value and the negative circuit 12 are about 1.5 volts).

Therefore, the output of the negative circuit 13 is at a low level, and operates normally and is inputted to the logical circuit 14 shown in FIG. As described above, the display circuit 2 indicates that the + V detected voltage has disappeared.

As can be understood from the above description, the present invention enables the configuration of the voltage-free detection device by a relatively simple circuit. Although the embodiment uses a TTL integrated circuit, it goes without saying that it can be easily implemented using another semiconductor device if the logic functions of the detection circuit are the same.

Claims (1)

A detection circuit (1) for detecting a state of a DC voltage supplied from a voltage source, a display circuit (2) for displaying a detection result by the detection circuit (1), or the like, wherein the detection circuit ( 1) has a logic circuit 14 which operates so that one of the supply voltage and the input signal voltage maintains a high level and inverts the output when the other changes from a high level to a low level, and the supply voltage terminal of the logic circuit 14 described above. DC voltage is supplied from the voltage source to the input signal terminal of the logic circuit 14 and the supply voltage terminal of the display circuit 2, and a DC voltage is supplied from an auxiliary power supply independent of the voltage source. Detection device.