KR940009781B1 - Call-controlling method and circuit of a wireless telephone - Google Patents

Abstract

The circuit enables the speech even if the portable apparatus of lineless telephone is off, but in charging. The circuit comprises: a reset circuit (403) generating the reset signal according to the power supplying status of MCU, a switching unit (404) controlling the reset circuit according to the power switch (SW1) and the output of reset controlling port (P1), a charging sensing circuit (407) perceiving the charging status of the battery (BA).

Description

Call control method and circuit in wireless telephone

1a, b is a flow chart and a circuit diagram of a conventional central control unit (MCU) (406) for call control.

2 is a circuit diagram according to the present invention.

3 is a flow chart according to the present invention.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a call control method and circuit in a wireless telephone, and more particularly, to a call control method and circuit for enabling a phone call while being charged even when the power switch of the portable device is turned off.

In general, when the power switch of the portable device is turned off, it is impossible to make a call.

Conventionally, a circuit constructed as shown in FIG. 1B is realized according to the flowchart of FIG. 1A. An initial central control unit (hereinafter referred to as "MCU") 406 is a power source of the battery BA when the power switch SW1 is turned on. It is provided to the reset part 101 via this diode D1. At this time, the reset unit 101 provides a reset signal to the MCU 406 to perform the main routine in step (b) after initialization in step (a), and always through the port (P20) in step (c). When the switching state of the switch SW1 is searched by the MCU 406 and the power switch SW1 is on, the main routine is performed in step (b) to perform normal operation. However, when the power switch SW1 is off ( In the d) process, the operation stops. If the power switch SW1 is not turned on again, the use of this portable device becomes impossible.

As described above, when the conventional power switch SW1 is turned off, the incoming and outgoing is impossible. If there is no ringer in the fixed device, there is a problem that the reception is impossible.

Accordingly, an object of the present invention is to provide a method and a circuit for enabling a telephone call while charging, even when the power switch of the portable device is turned off.

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

2 is a circuit diagram according to the present invention, which connects the collector terminal of the transistor Q1 of the reset circuit 403 to the reset terminal RESET of the central control unit (MCU) 406, and the transistor Q1. The cathodes of the diodes D1 and D2 are connected to the bases of the resistors R3 and R4 and the capacitor C1. The diode D4 of the switching unit 404 and the collector of the transistor Q2 are connected to the anode of the diode D1, and the base of the transistor Q2 is connected to the central controller MCU through the resistor R1. The reset control port P1 of 406 is connected. The emitter of the transistor Q2 of the switching unit 404 is connected to the power switch SW1 and the battery BA. When the power switch SW1 is turned on, the power of the battery BA is switched to the switching unit ( 404 and the transistor Q1 of the reset circuit 403 are supplied to the driving power of the receiver 102 and the central control unit (MCU) 406, and the cathode of the diode D3 is supplied to the battery BA. Connected, the charging voltage of the central control unit (MCU) 406 is sensed, and the resistances R6 and R7 of the charge sensing circuit 407 through the resistor R5 to the charge holding port P3 of the MCU 406. Receiving port (P4) is connected to the charging terminal (+,-) is connected to the receiving unit 102 is connected.

3 is a flow chart according to the present invention, a first process of checking whether a driving power on / off state of the radiotelephone is being charged and a second process of setting an off flag when charging is performed in the first process. And a third process of performing a main function except transmission when the power is turned on in the first process and checking whether data is received, and checking a communication mode by controlling a reset when receiving data in the third process. Performing a predetermined call and checking the data receiving mode again if it is not the communication mode, and performing a predetermined call when the communication mode is executed and checking the data receiving mode again when the communication mode is not the communication mode, and turning off the reset control port in the data receiving mode. And after the predetermined waiting time has elapsed in the communication mode in the fourth process, checking whether the battery is charged or not, turns off the charging temporary reset control port. If not charging, the off flag is erased, and if charging, the off flag is set and a fifth process is executed again from the third process.

Therefore, a specific embodiment of the present invention will be described in detail with reference to FIGS. 2 and 3. In FIG. 1B, when the power switch SW1 is turned on, the central control unit (MCU) according to charging of the charging terminal (+) (−) is performed. The reset stage (RESET) on the 406 side does not operate. However, when the power switch SW1 is off, a reset signal is generated at the reset end of the central control unit (MCU) 406, and the MCU 406 is reset even when charging.

In FIG. 2, the power is turned off and the receiver 102 receives the received information so that the call can be made even when charging.

When the power switch SW1 is off, the power on / off check port P2 of the central control unit (MCU) 406 changes from "high" to "low", and checks it in the MCU 406. At this time, if it is not charged, it goes into a stop mode and all operations stop. When the portable device is placed on the charger while the operation is stopped, + power is supplied through the charging terminals (+,-), and the power is supplied via the diode D2 to the capacitor C1 and the resistor R4 of the reset circuit 403. R3) is made to pass through the reset control transistor Q1. The MCU 406 then returns from the stop mode. At this time, the lit control port P1 is in a " high " state to turn off the transistor Q2.

After returning from the stop mode, all RAM and ports are initialized in the initialization state, and then the state of the power switch SW1 is changed to the state of the power on / off state. Read through off checkport P2. When the power switch SW1 is off (P2 = low), the state for charging is checked again in step 31, which is a result of the resistances R6 and R7 of the charge sensing circuit 407. Detection through the charge detection port (P3) (P3 = "high"). In the process (31), if it is not in the charging state (P3 = "low") is in the stop mode, if charging (P3 = "high") the off flag indicating that the charging is turned off in the power off state is set in the process (32) After that, the main routine starts from (33). [Performance in the main routine is the same as in all the previous methods. At this time, power is supplied to the receiving unit 102 and the channel search is performed through the receiving port P4 of the MCU 406. Read in step 34 and check the transmission mode in step 35 if it is not receiving information. If it is not the transmission mode in step (35), it returns to the main of step (33), and if it is the transmission mode in step (35), it checks whether the signal is transmitted for power-off in step (36). 47) Ignore the transmission in the process.

However, if the power is turned on in step 36, the transmission mode is performed in step 37, and the existing call process is executed. However, once the information is received in the data reception and reading process of step (34), the reset control port P1 is set to " low " in step 38 (the second control reset port P1 is " low " Then, the transistor Q2 of the switching unit 404 is turned on so that the transistor Q1 of the reset circuit 403 does not operate later. This is because DC is blocked at the capacitor C1 by the conduction of the transistor Q2. At this time, when the power switch SW1 of the switching unit 404 is off, the diode D3 is turned on by the power supply of the power supply terminal Vcc through the transistor Q2 so that the power on / off check port P2 becomes “high”. Is prevented. This prevents the automatic call, that is, reset by chattering when the mobile device is being charged when the power is off.] The power switch SW1 is turned on and the call mode is checked in step 39. In the call mode, the call is made at (39,40). If the standby button is pressed in the call state, the reset control port P1 is turned off in the process of (41) and (42) (the P1 port is “high”). The stop mode is entered and the power switch SW1 is turned off when charged. The flag of the state is checked in step 43, and if it is clear, it is in the stop mode. If it is set, the reset control port P1 is turned off, and the [P1 port executes the "high"] 33 process. This allows incoming calls when powered off and charging.

4 is an embodiment (model SP-R408) according to the present invention. When the power switch SW1 is off, the power on / off check port P2 of the MCU 406 becomes " low " The reset is caused by the circuit 403.

The present invention enters an operation mode other than the stop mode after the reset circuit 403 is operated, and enters a standby state for receiving information. When the information is received from the receiver 102, the reset control port P1 is not reset when charging, thereby preventing the call disconnection due to chattering when the portable device is lifted from the charger, and also allowing continuous communication.

However, if the standby button is pressed after the call, the reset control port P1 of the MCU 406 is set to "high", and the mobile device is in the stop mode again, and when it is placed on the charger again, the reset circuit 403 operates to operate the mode. The operation of reading the received information is repeated.

As described above, in order to preserve the battery for a long time or to charge the metal, the power switch is turned off and the phone cannot be answered when charging occurs. However, in the present invention, there is an advantage in that the phone can be answered in any case during charging. .

Claims (3)

A method of calling in a wireless telephone, the method comprising: a first process of checking whether a driving power on / off state of the wireless telephone is being charged and a second process of setting an off flag when charging in the first process; A third process of performing a main function except transmission when the power is turned on in the first process and checking whether data is received; and checking a communication mode by controlling a reset when receiving data in the third process. A fourth step of turning off the reset control port in the data receiving mode by performing a predetermined call and checking the data receiving mode again if it is not the communication mode; and checking whether or not the charging is performed after a predetermined waiting time has elapsed in the communication mode in the fourth step. To turn off the charging temporary reset control port, clear the off flag if not charging, and set the off flag if charging to complete the cycle of the third step. When the call control method in a radio telephone, characterized by a fifth constituted by any process that is running. In a telephone circuit having a central control unit (MCU), a call circuit comprising: a reset circuit (403) for generating a reset signal depending on whether or not a power supply is supplied from the central control unit (MCU), and the central control unit. The device MCU has a power switch SW1 for switching on / off of a power supply, an output of the reset control stage P1 generated from the central control unit MCU, or an ON of the power switch SW1. Call control in a radiotelephone comprising: a switching unit 404 for controlling the operation of the reset circuit 403 according to on / off and a charge sensing circuit 407 for detecting a charging state of a battery BA. Circuit. The switching unit 407 is connected to the control port (P1) of the central processing unit (MCU) to the base of the transistor (Q2), the diode (D1) connected to the collector of the transistor (Q2) So that the cathode of the diode (D1) is connected to the input of the reset circuit (403), and the emitter of the transistor (Q2) is connected to the battery (BA).