KR930000436Y1 - Automatic stand by circuit of a mobile phone - Google Patents

Abstract

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Description

Automatic standby circuit of wireless telephone

1 is a standby circuit diagram of a conventional radiotelephone.

2 is an automatic standby circuit diagram of the present invention wireless telephone.

* Explanation of symbols for main parts of the drawings

11: charging unit 12: charging detection unit

13 read control unit 14 reset control unit

15 microcomputer 16 transmitter

17: receiver 18: keyboard

The present invention relates to a standby circuit for placing a portable device on a charging terminal attached to a fixed device of a cordless phone so that it automatically enters a standby state when being charged. The present invention relates to an automatic standby circuit of a radiotelephone for preventing a rechargeable battery built in a portable device from being discharged, causing a malfunction, or a device failure when the portable device is placed on a fixed device without switching a switch. In the standby circuit of the conventional radiotelephone, as illustrated in FIG. Output from the rechargeable battery BT of the portable device, the talk / standby switch SW1 for supplying the voltage charged in the rechargeable battery BT to the wireless receiver 1, and the talk / standby switch SW1. A transmission power control unit 4 composed of a diode D1 and a transistor TR1 for supplying the charged voltage to the wireless transmitter 2 by switching according to the voltages of the charging terminals A and B, and the transmission power supply. The resistors R1, R2, diode D3, and transistor TR2 are switched in accordance with the voltage output from the controller 4 and the call / standby switch SW2 to supply power to the transmission oscillator 3. The oscillation power control unit (5) consisting of the call / standby switch (SW1) ) And (SW2) are linked together.

The standby circuit operation of the conventional radiotelephone configured as described above and the problems thereof will be described as follows.

If the portable device of the cordless phone is ringed by the fixing device and the call / waiting switch (SW1) and (SW2) are placed in the standby terminals (ST1) and (ST2), the charging terminals (A) and ( The power supplied from B) is charged to the rechargeable battery BT mounted inside the portable device through the backflow prevention diode D1, and the power of the charging terminals A and B is connected to the transmission power control unit 4 and the like. Since it is applied to the base of the transistor TR1 through the diode D1 configured in the oscillation power control section 5, it is applied to the base of the transistor TR2 again through the resistor R1, the diode D3 and the resistor R2. The transistors TR1 and TR2 are turned off to maintain the standby state.

At this time, after the call is picked up and the mobile device is lifted (ie, separated from the charging terminal (A) or (B) of the fixed device), the call / waiting switch (SW1) and (SW2) are connected to the call terminal (TA1), ( When switching to TA2), the power supply is stopped from the charging terminals (A) and (B), and the power charged in the rechargeable battery (BT) of the portable device is transferred to the wireless receiving unit (SW1) through the call / standby switch (SW1). 1) and is applied to the emitter of the transistor TR1, where the base of the transistor TR1 is grounded through the resistor R1, the diode D3 and the talk / standby switch SW2. Since the low potential is applied, the transistor TR1 is turned on, and since the base of the transistor TR2 is also grounded through the resistor R2 and the talk / standby switch SW2, the transistor TR2 is turned on. -On.

Therefore, at this time, the power of the rechargeable battery BT through the call / standby switch SW1 is applied to the wireless transmitter 2 through the transistor TR1 and at the same time, the transistor TR2 is applied to the transmitter oscillator 3 again. So you can make normal calls.

The mobile device is fixed as it is without changing the call / standby switch (SW1) or (SW2) from the mobile terminal (TA1) and (TA2) to the standby terminals (ST1) and (ST2) after the telephone call. When placed on, as described above, the power of the charging terminal (A), (B) is charged to the rechargeable battery (BT) through the diode (D1) and at the same time the wireless receiving unit (1) through the call / standby switching switch (SW1) The power consumption of the charging terminals A and B is applied to the base of the transistor TR1 through the diode D2, so that the transistor TR1 is turned off, thereby turning on the transistor TR2. ) Is also turned off to stop the power supply to the radio transmitter 2 and the transmitter oscillator 3.

However, such a standby circuit of a conventional radiotelephone is a power failure or a charging terminal in a state as described above, that is, the state of switching the call / standby switch SW1, SW2 to the call terminals TA1, TA2. If a poor contact occurs between A and B and power is not supplied to the charging terminals A and B, a low potential is applied to the bases of the transistors TR1 and TR2 as described above. It is turned on, and thus, the power of the rechargeable battery BT is supplied to the wireless receiver 1 through the call / standby switch SW1 and to the wireless transmitter 2 through the transistor TR1, and then to the transistor. When the state is maintained for a long time, the power supply of the rechargeable battery BT is over-discharged and becomes unusable, and the trunk line of the fixed device is kept in use for a long time. There was a problem that caused a breakdown.

The present invention has been made in view of such a conventional problem, when a mobile device is placed on a fixed device without a standby state by the caller's carelessness after the call is made or received using a wireless telephone. Micom's various problems such as over-discharge of rechargeable battery and malfunction of device are made by using microcomputer to prevent the malfunction and the possibility of malfunction by always putting it into automatic standby state even if the portable device is in any operation state. When described in detail with reference to the drawings as follows.

2 is an automatic standby circuit diagram of a wireless telephone of the present invention. As shown in FIG. 2, charging terminals A and B are connected to a fixed device of a wireless telephone to supply power to a portable device of the wireless telephone. And a charging unit 11 which receives the power supplied from B) through the diode D11 and the resistor R11, and then smoothes by the capacitors C11 and Cl2 to charge the rechargeable battery BT11 mounted in the portable device. In addition, the charging detection unit 12 which turns on the transistor TR11 and outputs a predetermined voltage to the resistor R12 when the charging battery BT11 is charged, and the power supply of the charging battery BT11 is the resistor R13. R14 is connected to the base and the collector of the transistor TR12, respectively, and the output voltage of the charge sensing unit 12 is connected to the base of the transistor TR12 through the capacitor C13. When the voltage is output from the charge detection unit 12 The readout control unit 12 outputting a pulse signal having a predetermined width to the collector of the transistor TR12, and the charging power of the rechargeable battery BT11 is connected to the capacitor C15 and the transistor TR13 through the resistors R15 and R16. And the output voltage of the charge sensing unit 12 are connected to the base of the transistor TR13 via a capacitor C14 to output the voltage from the charge sensing unit 12. The reset control unit 14 for outputting a pulse signal having a predetermined width to the collector of the transistor TR13 and the power supply of the rechargeable battery BT11 are supplied to the driving power source Vcc at the initial stage of the reset operation. The connection point voltages of the resistors R15 and R16 of the 14 are supplied to the standby power source ST-B, and the call / standby key signals of the keyboard 18 are input to communicate with the transmitter 16 and the receiver 17. / In standby mode and the pulse signal of the reset control unit 14 The microcomputer 15 receives the set signal RST and resets it in the call mode, and receives the pulse signal of the readout control unit 13 as the read signal RE to control the call mode from the call mode to the standby mode. In this figure, reference numeral D12 in the description of the drawings is a diode.

Referring to the effects of the present invention configured in this way in detail as follows.

If the portable device of the radiotelephone is placed on the fixing device, the power supplied from the charging terminals A and B of the fixing device passes through the diode D11 and the resistor R11 of the charging unit 11 and then the capacitor C11. , C12 is smoothed and charged in the rechargeable battery BT11, wherein the connection point power of the diode D11 and the resistor R11 is applied to the emitter of the transistor TR11 and the power of the rechargeable battery BT11 is applied to the base thereof. Since the transistor TR11 is turned on by the potential difference, a predetermined voltage is output to the collector thereof.

In this way, the output voltage output to the transistor TR11 collector of the charge detection unit 12 is transferred through the capacitors C13 and C14 of the read control unit 13 and the reset control unit 14 to the transistors TR12 and TR13. Is applied to the base of the.

Therefore, a high potential signal is applied to the bases of the transistors TR12 and TR13 for a predetermined time while the charging current flows through the capacitors C13 and C14 in the initial state in which the predetermined voltage is output from the charge sensing unit 12. After a predetermined time is applied and turned on, a low potential signal is applied to the bases of the transistors TR12 and TR13 and turned off, and the transistors TR12 and TR13 are turned on as described above. During the time, a low potential signal having a predetermined width is output to its collector and is applied to the microcomputer 15 as a read signal RE and a reset signal RST, respectively.

Therefore, when the microcomputer 15 is in the standby mode state from the previous state, the microcomputer 15 remains as it is, and when it is not in the standby mode state in the call mode state, the microcomputer 15 is reset to the initial state by the reset signal RST. In addition to the set processing, the standby power supply ST-B enters the auto standby state, and the read signal RE puts the transmission unit 16 and the reception unit 17, which are related control circuits, into the standby state.

On the other hand, when a mobile device is lifted to make a call (or when a call is made to the other party), the power supply is stopped from the charging terminals A and B, and the charging power of the rechargeable battery BT is changed to the charge sensing unit ( 12 is applied to the base of the transistor TR11 and is applied to its emitter through the resistor R11, so that the base potential and the collector potential are the same, so that the transistor TR11 is turned off, and thus the capacitor C13, ( The charging voltage of C14 is discharged through the resistor R12, and the transistors TR12 and TR13 are kept turned off as described above.

In this state, when the call mode key of the keyboard 18 is pressed and the call mode key signal is input to the microcomputer 15, the micro computer 15 is brought into a call mode and the transmitter 16 and the receiver ( 17) to enable the call.

On the other hand, if the standby mode key signal is applied to the microcomputer 15 by pressing the standby mode key of the keyboard 18 after the call, the microcomputer 15 enters the auto standby mode and the transmitter 16 And disables the receiver 17 so as to be in a standby state.

Thereafter, when the portable device is made to play with the fixed device, the power of the charging terminals A and B is charged in the rechargeable battery BT11 as described above, and at the initial stage, the read control unit 13 and the reset control unit A low potential pulse signal having a predetermined width is output at 14 and applied to the microcomputer 15 as a read signal RE and a reset signal RST. Therefore, at this time, as described above, the microcomputer 15 maintains the standby state in the standby state, while in the non-standby state, the microcomputer 15 is in the standby state and the transmitter 16 and the receiver unit ( Disable 17) to standby.

As such, the present invention can eliminate all the conventional problems that may occur when the call / standby switch is inadvertently idled on a fixed device after making or receiving a call using a wireless telephone.

That is, when the portable device is placed on the fixed device, the portable device is always in the automatic standby state even when the portable device is in any operation state, thereby preventing the possibility of malfunction and failure of the device and securing reliability.

Claims (1)

A charging unit 11 that receives power from the charging terminals A and B of the fixing device through the diode D11 and the resistor R11 and charges the rechargeable battery BT11 and the charging battery BT11 when the rechargeable battery BT11 is being charged. A charge sensing unit 12 that is turned on by the charging power supply and the connection point potential difference between the diode D11 and the resistor R11 to output a predetermined voltage, and at an initial stage when a predetermined voltage is output from the charging sensing unit 12. A read control unit 13 and a reset control unit 14 each outputting a pulse signal having a predetermined width, and the charging power of the rechargeable battery BT11 is supplied as a driving power source to the call / standby key signal of the keyboard 18; According to the call / standby mode, the transmitter 16 and the receiver 17 are controlled in the call / standby mode, and the pulse signals of the reset controller 14 and the read controller 13 are reset signals (RST) and After receiving the read signal (RE), it resets to the initial state when the current state is the call mode. An automatic standby circuit of a radiotelephone comprising a microcomputer (15) which is in a standby mode and controls the transmitter (16) and the receiver (17) in a standby mode.