KR0184483B1 - Mis-operation preventive circuit - Google Patents

Abstract

1. The technical field of the invention described in the claims: A circuit for preventing a malfunction by blocking the operating voltage when supplying an unstable operating voltage.

2. Technical problem to be solved by the present invention: When a momentary power interruption occurs and the supply voltage is momentarily cut off from the power supply unit, a phenomenon occurs in which the operating voltage output from the rectifier decreases to the cutoff voltage instantaneously. This causes latch-up in the CPU, and the latch-up refers to a state in which the CPU cannot normally perform system control. When the CPU was in a latch-free state, an enable pulse and a clock pulse were provided to the E ² PROM, and the data was inputted to provide a cause for the ID of the wireless telephone to be erased. That is, a problem occurs that the channel capture for communication with the portable device in the fixed device is not possible.

3. Summary of Solution of the Invention: Rectifier for supplying stable operating voltage by cutting off the ripple component from DC voltage supplied from power supply, E ² PROM with specific code designated for communication with portable device, E ² In the fixed device having a CPU for controlling the input and output of the information stored in the PROM, the voltage detection unit for generating a control signal according to the magnitude of the voltage supplied from the power supply unit and the control signal generated from the voltage detection unit Malfunction prevention circuit consisting of a rectifier and a switch for switching the memory.

4. Significant use of the invention: power supply

Description

Malfunction prevention circuit when unstable operating voltage is supplied

1 is a block diagram of a conventional operating voltage supply device.

2 is an output diagram of an operating voltage output when power is momentarily cut off.

3 is a block diagram of an operating voltage supply device according to the present invention.

4 is a circuit diagram for preventing a malfunction in the unstable operation voltage supply according to the present invention.

* Explanation of symbols for main parts of the drawings

210: malfunction prevention circuit 212: voltage detector

214: switch 310: detector

312: signal generator

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an operating voltage supply device provided in a stationary device of a radiotelephone, and more particularly to an operating voltage interrupting circuit for detecting the supply of an unstable operating voltage and interrupting the supply of the operating voltage.

In general, a specific code designated for communication with a mobile device is stored in advance in a fixed device of a radiotelephone, and the same specific code is stored in the mobile device. Hereinafter, the specific code is referred to as I.D.

In addition, a normal operating voltage supply device refers to a device for supplying a stabilized voltage to stabilize the voltage provided from the power supply to maintain a uniform level so that the system can operate normally.

Referring to FIG. 1, the power supply unit converts an AC signal into a direct current having a predetermined magnitude. The rectifier 110 blocks the ripple component included in the direct current provided from the power supply unit to provide a stable voltage level operating voltage Vcc. The supply voltage Vcc is provided to the CPU 112 which performs overall control of the fixing device and the E ² PR OM 114 corresponding to the memory storing the unique ID of the radio telephone.

Referring to FIG. 1 and FIG. 2, the operation of the operation voltage supply device provided in the conventional fixing device will be described. When the voltage is momentarily cut off, the operation voltage output from the rectifier 110 decreases to the cutoff voltage instantaneously as shown in FIG. As a result, a latch-up occurs in the CPU 110 when the supplied operating voltage approaches a cutoff voltage (a cut voltage of a general CPU chip is 2.5V) (V _{cut off} ). The latch-up refers to a state in which the CPU 110 cannot normally perform system control. When the CPU 110 is in the latch-up state, the enable pulse and the clock pulse are provided to the E ² PROM 114, and the data is inputted so that the ID of the wireless telephone is erased. Occurred, resulting in malfunction. That is, a problem occurs that the channel capture for the communication with the portable device in the fixed device of the wireless telephone.

Accordingly, an object of the present invention is to provide a circuit for cutting off an operating voltage supplied to a memory when an input of an unstable operating voltage is detected.

The present invention for achieving the above object is a voltage detector for outputting a control signal by detecting the magnitude of the DC voltage supplied to the fixed device of the radiotelephone, the operation when the voltage below the set level is detected under the control of the voltage detector And a switch to block voltage from being input into the memory.

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

3 is a block diagram for carrying out the present invention, in which the same components as those in FIG. 1 have the same reference numerals, and a description thereof will be omitted.

The voltage detector 212 generates a control signal CS1 when a DC voltage at a level lower than the set level (generally set to about 4.0 V) is detected from the power supply unit. The switch 214 blocks the operating voltage Vcc provided from the rectifier 110 to the E ² PROM 114 when the control signal CS1 according to the low voltage is input from the voltage detector 212. The voltage detector 212 and the switch 214 are referred to as a voltage blocking circuit 210.

4 is a detailed circuit diagram of the voltage blocking circuit, and the same components as those of FIG. 3 have the same reference numerals, and descriptions of the components will be omitted.

The voltage detector 212 includes a detector 310 for detecting a set voltage and a signal generator 312 for generating a control signal CS1 according to the magnitude of the detected voltage. The detector 310 includes a transistor Q1, a resistor R1 connected between a power supply unit and a base terminal of the transistor Q1, a resistor R2 connected between the base terminal and ground, and the power supply unit. And a resistor R3 connected between the collector terminal of the transistor Q1. In addition, the signal generator 312 includes a transistor Q2 and a resistor R4 connected between the collector terminal of the transistor Q1 and the base terminal of the transistor Q2 provided in the detector 310. As the transistors Q1 and Q2, npn type transistors were used.

The switch 212 includes a resistor R5 connected between a pnp-type transistor Q3, a base terminal of the transistor Q3, and a collector terminal of transistor Q2 included in the signal generator 312, and the transistor The resistor R6 is connected between the base end and the emitter end of Q3. In addition, the transistor Q3 transmits the operating voltage Vcc provided to the emitter terminal to the E ² PROM 114 at turn-on.

Therefore, an embodiment of the present invention will be described in detail with reference to FIGS. 3 and 4.

First showing the operation according to the present invention using a table,

Can be expressed as:

Hereinafter, referring to the table described above, the voltage input from the power supply unit is divided by the ratio of the resistors R1 and R2 provided in the detector 310, and proportionally to the magnitude of the voltage supplied from the power supply unit. The transistor Q1 is turned on or off according to the voltage divided by the resistor R2.

Referring to the operation of the transistor Q1, when a voltage of a normal level (typically 4. 2V or more) is input from the voltage supply unit, the resistance R2 provided in the detection unit 310 is higher than or equal to the dresshold voltage. Since the voltage is divided, the transistor Q1 is turned on. However, when a voltage having an unstable level (generally 4.2V or less) is input from the power supply, the transistor Q1 is divided into a voltage below the dresshold voltage by the resistor R2 of the detector 310. Is turned off. When the transistor Q1 is turned on, a low level detection voltage (a voltage at which the npn type transistor cannot be turned on) is supplied to the resistor R4 of the signal generator 312, and the transistor Q1 is supplied with the transistor Q1. When turned off, a high level detection voltage (a voltage at which the npn transistor can be turned on) is supplied to the resistor R4 of the signal generator 312.

In addition, the transistor Q2 of the signal generator 312 is turned off when the low level detection voltage is supplied, thereby turning on the transistor Q3 of the switch 214 to operate as the E ² PROM 114. Supply the voltage. In addition, the transistor Q2 of the signal generator 312 is turned on when the high level detection voltage is supplied to turn off the transistor Q3 of the switch 214 to the E ² PROM 114. Cut off the operating voltage.

As described above, according to the present invention, when an unstable voltage is supplied for a reason such as an instantaneous blackout, the operating voltage of the memory is cut off so that the ID corresponding to the stored information is not lost. This has the effect of allowing the action to be performed.

Claims (6)

The rectifier cuts out the ripple component from the DC voltage supplied from the power supply and supplies a stable operating voltage. The memory stores a specific code designated for communication with a portable device, and the controller controls input / output of information stored in the memory. An apparatus for fixing a cordless telephone, comprising: a voltage detector for generating a control signal according to a magnitude of a voltage supplied from the power supply unit, and a switch for switching the rectifier and the memory according to a control signal generated from the voltage detector; Malfunction prevention circuit when supplying an unstable operating voltage, characterized in that it comprises a. The circuit of claim 1, wherein the voltage detector generates a control signal for shutting off the switch when a voltage below a set level is supplied from the power supply unit. The rectifier cuts the ripple component from the DC voltage supplied from the power supply and supplies a stable operating voltage. The memory stores a specific code designated for communication with a portable device, and the controller controls input / output of information stored in the memory. A fixed device for a cordless telephone, comprising: a detector for detecting whether a voltage below a set level is supplied from the power supply unit, and a signal for generating a high level control signal when it is detected that a voltage below a set level is supplied from the detector. And a switch which cuts off the operating voltage supplied from the rectifier to the memory when a generation unit and a high level control signal are provided from the signal generator. 4. The detector of claim 3, wherein the detector is connected between the power supply and the ground to supply the first and second resistors to divide the voltage supplied from the power supply and a voltage below a set level from the power supply. And a first transistor that is turned off because a voltage lower than an threshold voltage is divided by the second resistor. The method of claim 4, wherein the signal generator comprises a second transistor in which a voltage higher than a dresshold voltage is applied to the base terminal and turned on as the first transistor is turned off. Prevention circuit. The operation of claim 5, wherein the switch comprises a third transistor that is turned off as the second transistor is turned on to block an operating voltage supplied from the rectifier to the memory. Prevention circuit.