JP3041321B2 - Mobile phone - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a portable telephone using a battery pack as a power supply form, and more particularly to a TDMA digital portable telephone.

[0002]

2. Description of the Related Art FIG. 6 is a connection diagram showing a connection state between a conventional general portable telephone and a battery pack. In the figure, 1 is a mobile phone main body, 2 is a control unit of the mobile phone 1,
Reference numeral 3 denotes a wireless unit of the mobile phone 1, and 4 denotes a battery pack in which a plurality of batteries, which are power sources of the mobile phone 1, are packed.

Next, the operation will be described. Mobile phone 1
, A battery pack 4 is connected, and when a user turns on a power key (not shown) of the mobile phone 1, a voltage is supplied from the battery pack 4, and the control unit 2 and the radio unit 3
Is turned on. Here, the control unit 2 controls the radio unit 3 to perform various exchanges with the base station, process commands by key input from the user, and perform general control of the telephone. The wireless unit 3 is a control unit 2
For example, it modulates data from the base station and transmits the signal on a carrier wave, or receives a radio wave from the base station and demodulates the received data, and then sends the data to the control unit 2.

[0004]

Since the conventional portable telephone is constructed as described above, the operation of the control unit, the radio unit and the like inside the portable telephone becomes unstable if the battery runs out during a call. There was a problem in that the line had to be disconnected, and the call had to be stopped once and the battery had to be replaced. In addition, since the same battery supplies voltage to the control unit and the wireless unit, the transmission power amplifier (PA) is used especially in a digital mobile phone of the TDMA system.
Power supply fluctuations caused by intermittent operation of the
For example, there is a serious problem that the modulation accuracy, which is important as a digital system, is deteriorated due to the unstable power supply of the transmission synthesizer.

[0005] The present invention has been made to solve the above problems, and has as its object to obtain a battery exchange circuit and a battery pack that can exchange batteries even during a call. It is still another object of the present invention to provide a mobile phone in which deterioration of modulation accuracy due to power supply fluctuation is improved.

A portable telephone according to the present invention includes a battery pack containing a first battery for a transmission power amplifier and a second battery for another circuit module in a radio unit,
And voltage level detecting means for detecting each output voltage of the second battery, switch opening / closing means for shutting off and supplying the output of the first and second batteries to a circuit constituting a mobile phone,
Control means for controlling the switch opening / closing means in accordance with the detection result of the voltage level detection means, wherein the control means controls the first battery if the voltages of the first and second batteries are higher than a lower limit value. An output is supplied to the transmission power amplifier, and an output of the second battery is supplied to another circuit module. If the voltage of one of the first or second batteries is equal to or lower than the lower limit, the lower limit is set. The switch opening / closing means is controlled so as to supply the output of the other battery having a higher voltage to the transmission power amplifier and other circuit modules. Further, the mobile phone according to the present invention is configured such that a time zone in which the control means controls the switch opening / closing means to cut off the supply of the output of the first and second batteries is a time zone when the transmission is OFF. is there.

[0007]

The battery switching portable telephone according to the present invention comprises:
Of the two batteries mounted on the mobile phone, one was used as a transmission power amplifying power source, and the other battery was used for power supply to other control circuits constituting the mobile phone. The influence on the transmission synthesizer caused by the intermittent operation of the transmission power amplifier can be suppressed.

[0008]

【Example】

Embodiment 1 FIG. An embodiment of the present invention will be described below with reference to the drawings. In FIG. 1, reference numeral 4 denotes battery packs 21 and 22.
Are batteries that are built into the battery pack 4 and can be inserted and removed independently of each other, and both can be used independently. 23 and 24 are analog switches,
The control unit 2 is configured to control the opening and closing of the switch. Reference numeral 25 denotes a voltage level detection circuit that monitors each voltage value of the battery 21 and the battery 22, and notifies the control unit 2 of each voltage value. Reference numeral 28 denotes a buzzer for notifying the necessity of battery replacement by sound, reference numeral 30 denotes a display for displaying a battery requiring battery replacement, and reference numeral 29 denotes a key switch for turning on the power of the portable device. Reference numeral 31 denotes a manual switch for selecting which of the two batteries 21 and 22 is used as the power source of the dedicated circuit for initially setting the analog switches 23 and 24 as default.

Next, the operation will be described with reference to the flowchart of FIG. When the power ON key 29 of the portable device is pressed, the analog switch 23 and the analog switch 23 are connected in order to connect to a preset one of the two batteries independently stored in the battery pack 4. For 24,
The default setting dedicated circuit performs switch setting (step 1). For example, if the default setting is to use the battery 21, a dedicated circuit for default setting in the control unit closes the analog switch 23 (at this time, the analog switch 24 remains open) and the control unit 2 and the radio unit 3
Is supplied with the voltage from the battery 21. When the start-up is completed, first, the level of the battery in use is monitored by the voltage level detection circuit 25, and the result is reported to the control unit 2. The control section compares this value with a preset lower voltage limit (step 2). If the reported voltage value of the battery used is higher than the preset lower limit of the voltage, the voltage level of the battery being used is monitored again (step 3). If the voltage value of the used battery is lower than the lower limit value in step 3, the voltage level of the other battery not used is checked, and the lower limit value set by the control unit 2 is compared with the checked voltage level. (Step 4). When the voltage level of the checked battery is lower than the lower limit (step 5), both batteries are in a state where the voltage level is lower than the preset lower limit. Therefore, in both cases, the buzzer 28 and the display 30 indicate that the battery needs to be replaced, and the battery is exhausted and the call is cut off or the power supply is turned off.
The state is maintained until it becomes FF (step 6). On the other hand, when the voltage level of the other unused battery is larger than the lower limit in step 5, the battery is switched to a battery which has not been used (step 7). For example, if the battery 21 has been used until then, control is performed to close the analog switch 24 and then open the analog switch 23. And
The user is informed of the necessity of replacing the battery disconnected from the system because the voltage has fallen below the lower limit value of the voltage set by the control unit in step 3 by the buzzer 28 and the display 30 (step 8). In this way, the switching from the battery 21 to the battery 22 is performed, and after the battery switching, the voltage level of the battery in use is monitored again, and the result is reported to the control unit 2. In addition, since they are independently connected, the user can take out and replace the batteries that need to be replaced without interrupting the call even during the call. In this case, the power of the default dedicated circuit is supplied by either of the two batteries by the manual switch 31. However, a dedicated battery for this purpose may be provided in the portable device.

Embodiment 2 FIG. In the first embodiment, only one of the two batteries independently stored in the battery pack 4 is used as the power source of the telephone body. In the second embodiment, however, one of the two batteries is first transmitted by the wireless unit. It is used as a dedicated power source for the power amplifier, and the other is used as a power source for other radio units and controls other than the transmission power amplifier.

Next, the operation will be described with reference to FIGS. In the control operation, first, the power switch 29 is turned on.
Then, the dedicated circuit operates so that the analog switches 24 and 32 are set to the default by the manual switch 31, and all the switches are set to the closed state. Thus, power is supplied to a transmission power amplifier (hereinafter, PA), the control unit 2, and a radio unit other than the PA. As a result, a control circuit for switching the batteries in the control unit starts up. First, the voltage level detection circuit 25 operates to monitor the voltage levels of both batteries,
Each battery level is reported to the control unit (step 1). Then, the battery is compared with a preset lower limit of the voltage level (step 2). If both batteries are lower than the lower limit (step 3), the battery replacement which requires battery replacement is performed using the buzzer 28 and the display 30. Force (step 4). When only one of the batteries is lower than the lower limit, the analog switches 23, 24, and 32 are controlled to disconnect the battery with the lower battery level (step 5), and to switch to the battery with a higher level than the lower limit. Connection is made (step 6). For example, if the battery 21 needs to be replaced in FIG.
Switch 32 is closed and analog switch 23 is open. Then, the battery 21 is displayed on the buzzer 28 and the display 30.
Warns that replacement is necessary (step 6). On the other hand, if both batteries have sufficient capacity in step 2, the process proceeds to the next step 7 without issuing any warning. In the standby state, the same control as described above is performed. During a call, PA
The voltage of the dedicated battery 22 and the voltage of the battery 21 used in other circuits are monitored by the voltage level detection circuit 25, and compared with the lower limit by the control unit 2 (step 7). If both batteries are higher than the lower limit (step 9), the process returns to step 7 because the battery is normal, and a voltage level check is subsequently performed. At this time, if the PA dedicated battery 22 is lower than the lower limit, the voltage level of the other battery is checked (step 10). If the voltage of this battery is higher than the lower limit, as shown in the timing chart of FIG. The analog switches 24 and 32 are controlled in the time zone when the transmission is turned off, and the voltage is obtained from the battery 21 (step 11). Next, the buzzer 28 and the display 30 warn about the batteries that need to be replaced (step 12). When the battery 21 supplying voltage to circuits other than the PA is lower than the lower limit, the analog switch 32 is closed and the analog switch 23 is opened. After that, the buzzer 28 and the display 30 give a warning for battery replacement. If both batteries are lower than the lower limit, the buzzer 28 and the display 30 tell the user that both batteries need to be replaced, and continue talking (step 13). In this embodiment, the two divided batteries are used at the same time, and in particular, when the TDMA system is used by using one of the batteries exclusively for the PA, it is possible to suppress the adverse effect on the other circuits due to the power fluctuation due to the PA. . In the above embodiment, the power supply of the circuit dedicated to default setting is selected by the manual switch 31, but it may be fixed to one of the battery terminals. or,
Although one of the two batteries is dedicated to the PA, one may be used separately for the control unit and the other for the wireless unit.

[0012]

As described above, according to the present invention, a plurality of mounted battery outputs are supplied to a circuit module constituting a portable telephone, so that the influence of the voltage drop on other circuits is reduced. There is an effect that it can be suppressed in the circuit module. Furthermore, since one of the circuit modules constituting the mobile phone is a transmission power amplifier circuit, it is possible to prevent a situation where the synthesizer becomes unstable due to the intermittent operation of the transmission power amplifier and the modulation accuracy is deteriorated. is there.

[Brief description of the drawings]

FIG. 1 is a configuration diagram of a mobile phone and a battery pack including a battery switching circuit according to an embodiment of the present invention.

FIG. 2 is a flowchart of a control unit battery switching unit showing an operation of one embodiment of the present invention.

FIG. 3 is a configuration diagram of a mobile phone and a battery pack including a battery switching circuit according to another embodiment of the present invention.

FIG. 4 is a timing of switching a battery of a power supply used exclusively for a PA.

FIG. 5 is a flowchart of the control unit battery switching unit showing the operation of another embodiment of the present invention.

FIG. 6 is a schematic diagram showing connection between a conventional mobile phone and a battery.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Cellular phone (body) 2 Cellular phone control part 3 Cellular phone wireless part 4 Battery pack 21 Battery 1 22 Battery 2 23 Analog switch 24 Analog switch 25 Voltage level detection circuit 28 Buzzer 29 Switch 30 Display 31 Manual switch 32 Analog switch

──────────────────────────────────────────────────続 き Continued on the front page (58) Field surveyed (Int.Cl. ⁷ , DB name) H04B ⁷ /24-7/26 H04M 1/00 H04Q 7/06-7/38

Claims (2)

(57) [Claims] 1. A first transmission power amplifier for a radio unit.
Contains a battery and a second battery for other circuit modules
A battery pack, and a voltage level detecting each output voltage of the first and second batteries.
A mobile phone using the output of the first and second batteries,
A switch opening / closing means for interrupting supply to the circuit, and the switch according to a detection result of the voltage level detecting means.
Control means for controlling the switch opening / closing means, wherein the control means controls the first and second batteries when the voltages of the first and second batteries are higher than a lower limit value.
While supplying the output of the battery to the transmission power amplifier,
(2) The output of the battery is supplied to another circuit module, and the voltage of one of the first and second batteries is equal to or lower than the lower limit.
Then, the output of the other battery whose voltage is higher than the lower limit is
Supply to transmission power amplifiers and other circuit modules
The portable wireless device controls the switch opening / closing means as described above . 2. The control means controls the switch opening / closing means.
The time period during which the output of the first and second batteries is cut off is transmitted.
2. The time zone when the power is OFF.
Of the portable radio.