KR0116901Y1 - Overvoltage protcetion circuit - Google Patents

Abstract

In order to prevent the damage to the power circuit and motor drive circuit, the voltage supplied to the motor logic circuit of the car logic deck is supplied with overvoltage.

A first transistor Q1 whose base bias magnitude is determined by the collector output of the second transistor Q2 controlled by the regeneration mode selection signals L ⁺ , L ⁻ , and

The current path of the base zener diode ZDI is selectively formed by the fourth transistor Q4 which transfers the B ⁺ voltage passing through the first transistor Q1 to the motor driving circuit MD and is turned on when the high speed mode selection signal is generated. In a power supply circuit for driving a car logic deck motor composed of a third transistor (Q3),

A fifth transistor Q5 is connected in parallel to the fourth transistor Q4;

A base is connected to the fifth transistor Q5 so that a collector input voltage of the third transistor Q3 divided by the resistors R5-R7 is provided as a bias.

Description

Car logic deck overvoltage protection circuit

1 is a conventional circuit diagram

2 is a circuit diagram of this paper

Explanation of symbols on the main parts of the drawings

MD: Motor Drive Circuit Q1-Q5: Transistor

ZD1: Zener Diodes R1-R7: Bias Resistor

The present invention relates to the power supply circuit of the logic deck of the car audio, and more particularly to the overvoltage protection circuit of the car deck to prevent the overvoltage is applied to the motor drive circuit of the logic deck.

The motor drive speed in the car deck is rotated at different speeds according to the operation modes. That is, low speed rotation is performed in the forward and reverse regeneration modes, low speed rotation is performed in the forward and reverse regeneration modes, and high speed rotation is performed in the forward and reverse high speed progressive modes.

1 is a power supply circuit of a motor drive control circuit used in a conventional car logic deck, in which the voltage B ⁺ input to the terminal T1 is the first transistor Q1 of the PNP type and the third transistor Q3 of the NPN type. and it provided to be connected to ^-) B in the motor driving circuit (MD) through the.

The first transistor Q1 is connected so that its base bias is controlled by the bias resistors R1 and R2 and the second transistor Q2, and the base of the second transistor Q2 is connected to the resistor R3 and the respective ones. The forward and reverse regeneration mode selection signals L ⁺ and L ^- passing through the diodes D1 and D2 are configured to be input through the respective terminals T2 and T3.

The bias of the third transistor Q3 is connected by a resistor R4 connected to its base, a capacitor C1, and a zener diode ZDI, and the operation of the zener diode ZDI is in series with the zener diode. The fourth transistor Q4 connected to is controlled to be controlled by the high speed mode selection signal H of the terminal T4 input to the base thereof through the resistor R5.

In the conventional circuit configured as described above, when the forward regeneration mode selection signal L ⁺ or the reverse regeneration mode selection signal L ⁻ generated in the forward or reverse regeneration mode of the logic deck appears at the terminal T2 or T3, Since the base bias of the first transistor Q1 is determined by the driving of the transistor Q2, the B ⁺ voltage of the terminal T1 through the first transistor Q1 passes through the third transistor Q3 and thus the motor driving circuit. It is provided at (MD) as the voltage B ⁺ .

At this time, the third transistor Q3 is biased by the bias resistor R4 and the capacitor CI.

On the other hand, in the forward and reverse fast forward modes of the logic deck, the high speed mode selection signal H is displayed at the terminal T4. Accordingly, the fourth transistor Q4 is turned on, and the third transistor Q3 is the zener diode ZDI. Its output voltage (B ⁺ ) is stabilized.

However, the B ⁺ voltage applied to the motor driving circuit MD is stabilized by the zener diode ZDI in the fast forward mode of the cariceck, but the operation of the zener diode ZDI is blocked in the forward and reverse regeneration modes, so excessive B is applied. ^{When the} input voltage is generated, the first and third transistors Q1 and Q3 and the motor driving circuit MD may be damaged.

It is an object of the present invention to provide an overvoltage protection circuit of a car deck that can prevent damage to a motor power supply circuit and a motor driving circuit from an overvoltage input in a regeneration mode in a car deck.

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

2 is a circuit diagram of the present invention,

The voltage B ⁺ input to the terminal T1 is connected to the motor driving circuit MD via the first transistor Q1 of the PNP type and the third transistor Q3 of the NPN type to be provided as B ⁺ .

When the first transistor Q1 is connected so that its base bias is controlled by the bias resistors R1 and R2 and the second transistor Q2, the base of the second transistor Q2 is connected to the resistor R3 and the respective ones. The forward and reverse regeneration mode selection signals L ⁺ and L ⁺ passing through the diodes D1 and D2 are configured to be input through the respective terminals T2 and T3.

The bias of the third transistor Q3 is connected by a resistor R4 connected to its base, a capacitor C1, and a zener diode ZDI, and the operation of the zener diode ZDI is in series with the zener diode. The fourth transistor Q4 is controlled by the high speed mode selection signal H of the terminal T4 input to the base thereof through the resistor R5. Connect.

On the other hand, the input voltage of the collet side of the third transistor Q3 is divided by the resistors R5 and R7 and connected to be applied to the base of the fifth transistor Q5 through the resistor R6 and connected to the fifth transistor Q5. ) Is configured to be connected in parallel to the fourth transistor Q4 to form another current path of the zener diode ZDI.

The operation and effects of the present invention thus constructed will be described next.

When the forward play mode select signal L ⁺ or the reverse play mode select signal L ⁻ generated when the logic deck is in the forward or reverse play mode is displayed at the terminal T2 or T3, the second transistor Q2 is driven. a first transistor (Q1), since the base bias is determined of the first transistor (Q1) terminal (T1) to the motor drive circuit (MD) B ⁺ voltage via a third transistor (Q3) of the via by a B ⁺ To be provided as a voltage.

At this time, the third transistor Q3 is biased by the bias resistor R4 and the smoothing capacitor C1, and the collector side input voltage of the third transistor Q3 is divided by the resistors R5 and R7 so that the zener diode ZDI is divided. A base bias voltage is provided to the fifth transistor Q5 which limits the current path of the transistor.

Therefore, when the collector-side input of the third transistor Q3 is high, that is, when an overvoltage is input, these overvoltage components are input to the base of the fifth transistor Q5 via the resistor R5 and R7 voltage divider circuits.

The fifth transistor Q5 is turned on when the voltage exceeds the set overvoltage, and thus the current path of the zener diode ZDI is formed, and the base bias of the third transistor Q3 is stabilized, thereby providing the motor driving circuit MD. The emitter side output voltage (B ⁺ ) does not show an overvoltage component.

On the other hand, in the forward and reverse fast forward modes of the car logic deck, the high speed mode selection signal H is displayed at the terminal T4. As a result, the fourth transistor Q4 is turned on so that the third transistor Q3 is Zener. The base bias is stabilized by the diode ZDI so that the emitter output voltage B ⁺ is stabilized.

The present invention as described above can suppress the overvoltage output of the power supply circuit for the motor drive circuit in the regeneration mode that can be generated in the cariceck deck, so that not only the motor drive circuit but also the power supply circuit for the motor drive circuit. It can protect against overvoltage.

Claims (1)

A first transistor Q1 whose base bias magnitude is determined by the collector output of the second transistor Q2 controlled by the regeneration mode selection signals L ⁺ and L ⁻ , and B ^{+ which} passes through the first transistor Q1. Car logic comprising a third transistor Q3 which transfers a voltage to the motor driving circuit MD and selectively forms a current path of the base zener diode ZDI by a fourth transistor Q4 which is turned on when a high speed mode selection signal is generated. In a deck motor driving power supply circuit, a fifth transistor Q5 is connected in parallel to the fourth transistor Q4, and the base of the fifth transistor Q5 is divided by resistors R5-R7. The overvoltage protection circuit of the car logic deck, characterized in that configured to connect the collector input voltage of the third transistor (Q3) provided with a bias.