KR930011180B1 - Power voltage detecting circuit - Google Patents

Abstract

This circuit supplies a base voltage to produce fixed hysterisis value according to enable signals so that a ringer part generates the stable ringer signals. The N-bias circuit (2) generates a bias voltage (VNB) and outputs the start control signal (VSC), a level detector (1) detects the electric source (B+) and generates the detecting voltage (VSB), and a comparator (3) outputs the enable signal, such that the transistor (M8) changes the level of the base voltage (VREF) according to the comparator outputs.

Description

Power supply voltage detection circuit

1 is an overall block diagram of a power supply voltage detection circuit of the present invention.

2 is a detailed view showing an embodiment of the power supply voltage detection circuit of the present invention.

3A and 3B are operational waveform diagrams of respective parts of FIG.

* Explanation of symbols for main parts of the drawings

1: power supply voltage level detector 2: N-bias circuit

3: comparison unit 4: reference voltage supply unit

V _REF1 , V _REF2 , V _IN : Initial voltage setting signal V _NB : Bias voltage

V _SB : Power supply detection voltage V _SC : Start control signal

R ₁ -R ₃ : Resistor M ₃ : Transistor

The present invention relates to a power supply voltage detection circuit for detecting a level of a power supply voltage, and more particularly to a power supply voltage detection circuit adapted to detect a level of a power supply voltage supplied to a ringer of a telephone.

When the ringer signal is input through the line, the ringer unit rectifies the ringer signal and converts the ringer signal into a DC voltage, and uses the DC voltage as the power supply voltage.

Therefore, when the ringer signal is input through the line and the ringer outputs the ringer signal, the power supply voltage to the ringer is insufficient at the initial time when the ringer signal is output. Therefore, the ringer signal may not be outputted normally. .

In order to prevent the ringer signal from being normally output as described above, the present applicant detects the level of the power supply voltage and outputs an enable signal when the level of the detected power supply voltage becomes equal to or greater than a predetermined value so that the ringer unit outputs the ringer signal. A circuit has been developed for outputting (see Patent Application No. 5489 in 1989). This circuit sets a predetermined reference voltage in advance, compares the set reference voltage with the detected power supply voltage level, outputs an enable signal when the power supply voltage level is equal to or higher than the reference voltage, and follows the output enable signal. The ringer section outputs the ringer signal.

However, the prior art as described above merely outputs an enable signal when the detected power supply voltage level is higher than or equal to the set reference voltage. The enable signal is detected when the detected power supply voltage level is changed near the reference voltage level. Repeating the output and blocking of the ringer has a problem that does not output the Ringer signal to normal.

It is therefore an object of the present invention to provide a power supply voltage detection circuit such that the ringer outputs a ringer signal normally even if the level of the power supply voltage fluctuates near the reference voltage level by having a constant hysteresis value in the reference voltage.

The power supply voltage detecting circuit of the present invention having the above object is connected between the two resistors connected in series with the power supply voltage, one grounding resistor, the connection point of the two resistors, and the grounding resistor and is turned on in accordance with the enable signal. And a transistor to be turned off.

Therefore, according to the power supply voltage detection circuit of the present invention, when the enable signal is not outputted, two resistors connected in series with the power supply voltage are divided to supply a high level reference voltage, and when the enable signal is output, the transistor is outputted. When turned on, two series-connected resistors and ground resistors divide the supply voltage to provide a low level reference voltage.

Hereinafter, a power supply voltage detection circuit of the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram of a power supply voltage detection circuit of the present invention, and FIG. 2 is a detailed view showing an embodiment, as shown in FIG. 1, where the power supply voltage level detection unit 1 outputs an initial voltage setting signal V _IN . As a result, the N-bias circuit 2 outputs a bias voltage B _NB and outputs a start control signal B _SC according to the increase of the power supply voltage B ⁺ , and to the start control signal V _SC . Accordingly, the power supply voltage level detection unit 1 detects the level of the power supply voltage B ⁺ and outputs the power supply detection voltage V _SB . The comparison unit 3 supplies the power supply detection voltage as the power supply voltage B ⁺ increases. A power supply voltage detection circuit that compares V _SB with a reference voltage V _REF and outputs an enable signal, wherein the reference voltage supply unit 4 outputs a reference voltage V _REF that varies according to the enable signal. Configured.

The reference voltage supply section 4 connects the resistors R ₁ and R ₂ in series to the power supply voltage B ⁺ , and between the connection point of the resistors R ₁ and R ₂ and the ground resistance R ₃ , the transistor is connected. (M ₈ ) is connected and the enable signal is applied to the gate of the transistor (M ₈ ) so that the reference voltage (V _REF ) is output at the connection points of the resistors (R ₁ , R ₂ ) and the transistor (M ₃ ). It was.

In the power supply voltage detection circuit of the present invention configured as described above, when the power supply voltage B ⁺ is applied, the power supply voltage level detection unit 1 outputs an initial voltage setting signal V _IN to the N-bias circuit 2.

Then, the N-bias circuit 2 supplies the bias voltage V _NB to the comparator 3 so that the transistor M ₃ is turned on and the power supply voltage B ⁺ is increased, thereby starting the control signal V _SC. ), And according to the output start control signal V _SC , the power supply voltage level detection unit 1 detects the level of the power supply voltage B ⁺ and outputs the power supply detection voltage V _SB .

Therefore, the comparator 3 compares the power supply detection voltage V _SB with the reference voltage V _REF by operating a differential amplifier composed of transistors M ₂ -M ₅ .

At this time, the power detection voltage (V _SB) the reference voltage (V _REF) lower than is because the transistor (M ₂₎ a current (I ₂₎ flowing to the current (I ₁₎ than the transistor (M ₃₎ flowing into the many differential amplifier Outputs a high potential so that the transistor M ₆ is turned off and outputs a low potential through the inverter IV ₁ (IV ₂ ).

Then, when the power detection voltage (V _SB) is higher than the reference voltage (V _REF), the Because of the high than the current (I ₁₎ flowing to the transistor (M ₂₎ transistor (M ₃₎ a current (I ₂₎ flowing to the differential amplifier Outputs a low potential and is applied to the gate of the transistor M ₅ .

Therefore, transistor M ₅ is turned on to output a high potential to its source, and the output high potential is output as an enable signal through inverter IV ₁ (IV ₂ ).

In this operation, the reference voltage supply unit 4 divides the power supply voltage B ⁺ into resistors R ₁ and R ₂ because the transistor M ₆ is turned off when the comparator 3 outputs a low potential. A high level reference voltage V _REF is output.

Therefore, as shown in FIG. 3A, when the power supply detection voltage V _SB rises above the reference voltage V _REF2 set to a high level, the comparator 3 shows a high potential as shown in FIG. 3B. It will output enable signal of.

When the comparator 3 outputs the high potential enable signal, the transistor M ₈ is turned on and the resistors R ₂ and R ₃ are equivalently connected in parallel, thereby resisting the power supply voltage B ⁺ . The reference voltage V _REF1 of the low level divided by (R _1- R ₃ ) is output.

Therefore, even when the power supply detection voltage V _SB fluctuates up and down the reference voltage V _REF2 in accordance with the change of the power supply voltage B ⁺ while the comparator 3 outputs the enable signal, the reference voltage V _REF1 . If it is not lowered below, the comparator 3 continues to output a high potential enable signal, and when the power supply detection voltage V _SB is lowered below the reference voltage V _REF1 , the comparator 3 is low potential. Will print

As described in detail above, the power supply voltage detection circuit according to the present invention supplies the reference voltage variably with a constant hysteresis value according to the output of the enable signal. This has the effect of outputting a ringer signal.

Claims (1)

As the power supply voltage level detector 1 outputs the initial voltage setting signal V _IN , the N-bias circuit 2 outputs the bias voltage V _NB and starts as the power supply voltage B ⁺ increases. outputting a control signal (V _SC), a power, and a start control signal (V _SC), the power supply voltage level detector (1) the supply voltage (B ⁺⁾ power detection voltage (V _SB) to detect the level of in accordance with a power a comparison unit 3, the power detection voltage (V _SB) to a reference voltage (V _REF) in the power supply voltage detection circuit for outputting an enable signal by comparing the power supply voltage (B ⁺⁾ in accordance with the voltage (B ⁺⁾ series-connected resistors (R _1, R ₂₎ and a ground resistor (R ₃₎ and the resistance (R _1, R ₂₎ connected between the connection point and the ground resistor (R ₃₎ of the comparator (3) And a transistor (M ₈ ) for varying the level of the reference voltage (V _REF ) while being turned on and off according to the output signal of the power supply voltage detection circuit.

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