JPH04190412A - Power supply unit for microcomputer - Google Patents

Abstract

PURPOSE:To prevent a backup power source from being consumed speedily by providing an opening/closing switch which turns on when a detected voltage is higher than a reference voltage and turns off when not. CONSTITUTION:The opening/closing switch 10 is off in an initial state unless a main power source battery 11 is connected to a main power source connection terminal 2 and the backup battery 7 is connected to a backup power connection terminal 8. When the battery 7 is connected to the terminal 8 in this state, a connection point (a) is left 0V. Consequently, a control signal which turns off the switch 10 is outputted continuously from a voltage detecting circuit 11 and the switch 10 is held off. Then when the battery 1 is connected to the terminal 2, a power source detecting circuit 11 detects the detected voltage being lower than the reference voltage by comparison and outputs a control signal for turning on the switch 10, so that the switch 10 turns on. A diode 9, however, is still off and no electric power is supplied from the battery 7 to a power supply terminal 5a.

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to a power supply device for a microcomputer that enters a backup mode after being started once.
For example, it is used for equipment having a backup function, such as a camera-integrated VTR.

(Prior Art) In a type of microcomputer that enters backup mode after it has started up, there is a connection between the main ttj for operating the microcomputer and a backup power supply for backing up the minimum necessary circuitry of the microcomputer. A possible conventional power supply arrangement is shown in FIG.

In the figure, the main power battery 21 is connected to the main power connection terminal 2.
2, it is connected to a voltage generation circuit 23 that generates a voltage for operating the microcomputer, and the output of the voltage generation circuit 23 is connected to the anode of a main power diode 24 for backflow prevention. There is. Further, the cathode of the main power diode 24 is connected to the power supply terminal 25a of the microcomputer 25 and the microcomputer reset circuit 2.
6, and the output of the microcomputer reset circuit 26 is connected to the reset terminal 25b of the microcomputer 25.
It is connected to the. On the other hand, the backup battery 27 is
It is connected to the anode of a backup power diode 29 for backflow prevention through the backup power connection terminal 28, and the cathode of the backup power diode 29 is connected to the cathode of the main power diode 24. There is.

In the power supply device having the above configuration, when the backup battery 27 is first connected to the backup power supply connection terminal 28 in the initial state where the main power supply battery 21 and the backup battery 27 are not connected to the respective connection terminals 22° 28. ,
The power supply terminal 25a of the microcomputer 25 has
A voltage of approximately 3 μ is applied via the backup power diode 29. In this state, the main power battery 21
When connected to the main power connection terminal 22, the voltage generation circuit 23
A voltage of about 5 .mu. At this time, the backup power diode 29 has a cathode potential (approximately 5
V) is higher than the anode side battery (approximately 3V),
The state becomes non-conductive, and the supply of backup power from the backup battery 27 to the microcomputer 25 is stopped. Therefore, the voltage applied to the power supply terminal 25a of the microcomputer 25 at this time is approximately 5.

On the other hand, from the state in which the main power battery 21 and the backup battery 27 are connected to each connection terminal 22.28,
When the main power battery 21 is removed, current is no longer supplied to the main power connection terminal 22, so the backup power diode 29 has a cathode potential (approximately OV) lower than the anode battery (approximately 3 V). Therefore, a conductive state is established, and the voltage (approximately 3 V) of the backup battery 27 is applied to the power supply terminal 25a of the microcomputer 25.

(Problem to be Solved by the Invention) By the way, the main power battery 21 and the backup battery 27
When the backup battery 27 changes from the initial state in which it is not connected to each connection terminal 22, 28 to a state in which it is connected to the backup power supply connection terminal 28, the microcomputer 25 has the backup battery 2
7 to approximately 3V will be applied. At this time, if the microcomputer 25 does not start up at a voltage of 3.5 cm, a large amount of current will flow through the microcomputer because it will not enter the hack amplifier mode. Therefore, if such a state is left for a long time, there is a problem that the bank-up battery 27 will be rapidly consumed.

The present invention has been made in view of the above circumstances, and its purpose is to connect the backup battery to the microphone and computer power supply terminals even if the backup battery is connected to the backup power supply connection terminal from the initial state. An object of the present invention is to provide a power supply device for a microcomputer that prevents rapid consumption of a backup battery by prohibiting the supply of power to the microcomputer.

(Means for Solving the Problems) In order to solve the above problems, a power supply device for a microcomputer according to the present invention is connected to a microcomputer that enters a backup mode after starting up, and is connected to a main power connection terminal. A voltage generating circuit that generates a voltage to operate the connected microcomputer, a main power diode for preventing reverse current connected to the output side of this voltage generating circuit, and a reverse current connecting terminal connected to the backup power supply connection terminal. a backup power supply diode for protection, and an output side connection point between the buffer knob power supply diode and the main power supply diode is connected to a power supply terminal of the microcomputer, wherein the main power supply A reference voltage lower than the voltage of the backup power supply is set internally, and the detected voltage at the connection point and the reference voltage a voltage detection circuit that outputs a control signal by comparing the detected voltage; The configuration includes an open/close switch that is turned on when the detected voltage is higher than the reference voltage and turned off when the detected voltage is lower than the reference voltage.

(Function) When the backup power supply is connected to the backup power supply connection terminal from the initial state where the main power supply is not connected to the main power supply connection terminal and the backup power supply is not connected to the backup power supply connection terminal, the voltage detection circuit Now, compare the detected voltage at the output side connection point of the main power diode and backup power diode with the internally set reference voltage, and output a control signal based on the comparison result to the switching control input of the open/close switch. do. Since the detected voltage at the connection point at this time is OV, the comparison result in the voltage detection circuit is the detected voltage minus the reference voltage.

Based on this control signal, the open/close switch is turned off because the detected voltage is lower than the reference voltage. That is, even if the backup power source is connected to the backup power supply connection terminal, the opening/closing switch is in the off state, so the backup power source is not supplied to the power supply terminal of the microcomputer, and therefore the backup power source is not consumed.

On the other hand, in this state, when the main power is connected to the main power connection terminal, and the comparison result in the voltage detection circuit becomes detected voltage > reference voltage, and the on/off switch is turned on, it is determined whether the main power is connected or not. Regardless, the open/close switch remains on until the backup power source is removed from the backup power source connection terminal.

(Example) Hereinafter, one embodiment of the present invention will be described with reference to the drawings.

FIG. 1 is a block diagram showing the electrical configuration of a power supply device for a microcomputer according to the present invention. Here, the microcomputer used is of a type that enters backup mode after being started once.

In the figure, a main power supply battery 1 is connected to a voltage generation circuit 3 via a main power supply connection terminal 2, and an output of the voltage generation circuit 3 is connected to an anode of a main power supply diode 4. In addition, the cathode of the main power diode 4 is
It is connected to the power supply terminal 5a of the microcomputer 5 and a microcomputer reset circuit 6, and the output of the microcomputer reset circuit 6 is connected to the reset terminal 5b of the microcomputer 5. On the other hand, the backup battery is connected to one end of the open/close switch 10 via the backup power supply connection terminal 8.
The other end of 0 is connected to the anode of bank-up power supply diode 9. Further, the cathode of the backup power diode 9 is connected to the cathode of the main power diode 4. A voltage detection circuit 11 is connected to a connection point a between the cathode of the main power diode 4 and the cathode of the backup power diode 9, and the output of the voltage detection circuit 11 is connected to the switching control input of the open/close switch 10. It has a connected configuration.

The voltage detection circuit 11 has a reference voltage (for example, 2V) lower than the voltage of the backup battery 7 (approximately 3V) installed inside it.
etc. ) is set, and the voltage detection circuit 11 compares the detected voltage at the connection point a with the reference voltage, and applies the voltage to the switching control input of the open/close switch 10 while the detected voltage is the reference voltage.
It continues to output a control signal for turning off the open/close switch 10. In addition, the voltage detection circuit 11 has a detection voltage>
When the reference voltage is reached, a control signal for turning on the on-off switch 10 is output to the switching control input of the on-off switch 10.

Next, the operation of the power supply device having the above configuration will be explained.

In an initial state in which the main power supply battery 1 is not connected to the main power supply connection terminal 2 and the backup battery 7 is not connected to the backup power supply connection terminal 8, the potential at the connection point a becomes 0■. Therefore, the comparison in voltage detection circuit 11 is as follows: detection voltage (OV) < reference voltage (2■), and voltage detection circuit B
11 continues to output a control signal for turning off the open/close switch 10, so that the open/close switch 1
0 is in the off state. Furthermore, the microcomputer 5 is also in an inactive state.

From this state, when the backup battery 7 is connected to the backup power supply connection terminal 8, the on/off switch 10 is in the OFF state, so no current flows through the backup power supply diode 9, and the connection point a remains OV. be. Therefore, the voltage detection circuit 11 continues to output a control signal to turn the on/off switch 10 off.
The open/close switch 10 will remain in the off state.

Next, when the main power supply battery 1 is connected to the main power supply connection terminal 2 while the backup battery 7 is connected,
Current flows through the voltage generation circuit 3 and a voltage of approximately 5V is generated,
A voltage of approximately 5 cm is applied to the power supply terminal 5a via the main power supply diode 4 and the connection point a. At this time, the microcomputer 5 is activated by a signal from the microcomputer reset circuit 6. Moreover, the comparison in the power supply detection circuit 11 is as follows.
Since the voltage at connection point a is approximately 5V, the detection voltage (
5V)>reference voltage (2v), and the voltage detection circuit 11 outputs a control signal for turning the on-off switch 10 on, so the on-off switch IO is switched on. However, since the backup power supply diode 9 has a cathode voltage (approximately 5V) higher than an anode voltage (approximately 3V), it remains in a non-conductive state, and power is not supplied from the backup battery 7 to the power supply terminal 5a. do not have.

Next, the above-mentioned main power battery 1 and backup battery 7
When the main power battery 1 is removed again from the state in which the main power supply battery 1 is connected to the It will be supplied to the supply terminal 5a. At this time, the microcomputer 5 enters the backup mode by a signal from the microcomputer reset circuit 6. Also, at this time, the comparison in the voltage detection circuit 11 is that since the voltage at the connection point a is approximately 3■,
Detection voltage (3V)>reference voltage (2V), and the voltage detection circuit 11 outputs a control signal to turn the on-off switch 10 on, so the on-off switch 10 remains on. That is, the backup power continues to be supplied to the power supply terminal 5a of the microcomputer 5. In this way, the microcomputer 5 is in the break-up mode, and no large current flows through the microcomputer 5, so that the consumption of the backup battery 7 can be minimized.

Note that even if the backup battery 7 is removed from the state where the main power battery 1 and the backup battery 7 are connected,
The operation is the same as when the main power battery l is removed.

(Effects of the Invention) The power supply device for a microcomputer according to the present invention provides power to the microcomputer from the backup power source when the backup power source is connected to the backup power supply connection terminal from an initial state in which neither the main power source nor the backup power source is connected. Since the supply of power to the supply terminal is prohibited, it is possible to prevent the backup power source from being rapidly consumed even if the device is left in such a connected state for a long time.

[Brief explanation of the drawing]

FIG. 1 is a block diagram showing the electrical configuration of a power supply device for a microcomputer according to the present invention, and FIG. 2 is a block diagram showing the electrical configuration of a conventional power supply device for a microcomputer. 1... Main power supply (main power battery) 2... Main power connection terminal 3... Voltage generation circuit 4... Main power supply diode 5... Microcomputer 5a... Power supply terminal 7.・・Backup power supply (backup battery) 8・
... Bank up power supply connection terminal 9 ... Backup power supply diode 10 ... Open/close switch 11 ... Voltage detection circuit a ... Connection point

Claims (1)

[Scope of Claims] 1) A voltage generating circuit that is connected to a microcomputer that enters a backup mode after being started up, and that generates a voltage for operating the microcomputer that is connected to a main power supply connection terminal; The main power supply diode is connected to the output side of the voltage generating circuit to prevent backflow, and the backup power supply diode is connected to the backup power supply connection terminal. In a power supply device configured such that an output side connection point with the main power supply diode and the backup power supply diode is connected to a power supply terminal of the microcomputer, a voltage detection circuit in which a reference voltage lower than the voltage of the backup power supply is set, and outputs a control signal by comparing the detection voltage of the connection point with the reference voltage; and the backup power supply connection terminal and the backup power supply. based on the control signal output from the voltage detection circuit,
1. A power supply device for a microcomputer, comprising an open/close switch that is turned on when the detected voltage is higher than a reference voltage and turned off when the detected voltage is lower than the reference voltage.