JPH05327578A - Portable telephone set - Google Patents

Abstract

PURPOSE:To keep the speaking time long without degrading the speaking performance by reducing, stabilizing, and supplying a part of the output voltage supplied from a power switch circuit. CONSTITUTION:When a voltage or a current is applied to a power terminal 1, a power switch circuit 2 is turned on. When this circuit 2 is turned on, the circuit 2 outputs first and second output voltages equal to each other. When the first output voltage is applied from the circuit 2, a power amplifying circuit 3 amplifies a carrier wave to a preliminarily set level and transmits it. When the second output voltage is applied from the circuit 2, a DC-DC converter 4 reduces the second output voltage and supplies it to a digital circuit 5. Thus, the input current of the converter 4 is reduced. A series regulator 6 stabilizes the second output voltage from the circuit 2 and supplies it to an analog circuit 7.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a mobile phone, and more particularly to a mobile phone suitable for long-term communication.

[0002]

2. Description of the Related Art FIG. 2 shows a conventional example. In the conventional example shown in FIG. 2, a power supply switch circuit 52 for switching on / off a power supply, a power amplifier circuit 53 using a first output voltage output from the power supply switch circuit 52 as a power supply voltage, and a power supply switch circuit. A series regulator 56 that stabilizes the second output voltage that is the output of 52, and a digital circuit 5 that uses the output voltage of the series regulator 56 as a power supply voltage.
5 and an analog circuit 57 that uses the output voltage of the series regulator 56 as a power supply voltage.

Normally, 6 (V) is used as the first output voltage and the second output voltage.

Here, as the digital circuit 55, D
SP (Digital Signal Processor), CPU, RO
Equipped with M, RAM, etc.

As the analog circuit 57, a radio circuit, a baseband circuit, a high frequency circuit, etc. are equipped.

Next, the operation of the above conventional example will be described. When voltage and current are applied to the power supply terminal 51, the power supply switch circuit 52 is turned on. When the power switch circuit 52 is turned on, the power switch circuit 52 outputs the first output voltage to the power amplifier circuit 53. When the first output voltage is applied from the power switch circuit 52, the power amplifier circuit 53 amplifies the carrier wave to a preset level and transmits it.

The power switch circuit 52 also outputs a second output voltage to the series regulator 56. The series regulator 56 is the second one from the power switch circuit 52.
The output voltage is stabilized and supplied to the digital circuit 55 and the analog circuit 57.

[0008]

However, in the above-mentioned conventional example, there is a disadvantage that the talk time is short because the current consumption in the digital circuit such as the DSP is large.

In order to solve this inconvenience, it is conceivable to lower the power supply voltage input from the power supply terminal. However, according to this, the output level in the power amplifier circuit is lowered and the communication performance is lowered, or the output level is maintained. Therefore, there has been a problem that the current consumption is increased and the talk time is shortened.

[0010]

SUMMARY OF THE INVENTION It is an object of the present invention to provide a portable telephone which can improve the inconvenience of the conventional example and can prolong the call time without lowering the call performance.

[0011]

Therefore, in the present invention, a power supply switch circuit for switching on / off a power supply and a first output voltage from the power supply switch circuit is used as a power supply voltage to amplify a carrier wave for transmission. DC-DC for reducing the second output voltage from the power amplifier circuit and the power switch circuit
A converter, a regulator that stabilizes the second output voltage from the power switch circuit, a digital circuit that uses the output voltage of the DC-DC converter as the power supply voltage, and an analog circuit that uses the output voltage of the regulator as the power supply voltage. It adopts the configuration of doing. This is intended to achieve the above-mentioned object.

[0012]

When a voltage and a current are applied to the power supply terminal, the power supply switch circuit is turned on and outputs the first output voltage and the second output voltage.

When the first output voltage is applied from the power switch circuit, the power amplifier circuit amplifies the carrier wave to a preset level and transmits it.

When the second output voltage is applied from the power switch circuit, the DC-DC converter lowers the second output voltage and supplies it to the digital circuit.

The regulator stabilizes the second output voltage from the power switch circuit and supplies it to the analog circuit.

[0016]

DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below with reference to FIG. In the embodiment shown in FIG. 1, a power supply switch circuit 2 for switching on / off a power supply, and a power amplifier circuit 3 for amplifying and transmitting a carrier wave using a first output voltage, which is an output of the power supply switch circuit 2, as a power supply voltage. And the second output voltage, which is the output of the power switch circuit 2, is lowered to 3V.
C-DC converter 4, series regulator 6 that stabilizes the second output voltage that is the output of power supply switch circuit 2, digital circuit 5 that uses the output voltage of DC-DC converter 4 as the power supply voltage, and series regulator 6 And an analog circuit 7 which uses the output voltage of the above as the power supply voltage.

The first output voltage and the second output voltage are 6
(V) is used.

Here, the digital circuit 5 is a DS
P (digital signal processor), CPU, RO
Equipped with M, RAM, etc.

As the analog circuit 7, a radio circuit, a baseband circuit, a high frequency circuit, etc. are equipped.

Next, the operation of this embodiment will be described. ． When voltage and current are applied to the power supply terminal 1, the power supply switch circuit 2 is turned on.

[0021]. When the power switch circuit 2 is turned on, the power switch circuit 2 outputs the first output voltage and the second output voltage.

.. When the first output voltage 6 (V) is applied from the power switch circuit 2, the power amplification circuit 3 amplifies the carrier wave to a preset level and transmits it.

.. When the second output voltage 6 (V) is applied from the power switch circuit 2, the DC-DC converter 4 reduces the second output voltage to 3 (V) and supplies the second output voltage to the digital circuit 5.

Here, for example, the power supply voltage of the digital circuit 5 is 3 (V), the current is 40 (mA), and DC-DC
If the efficiency of the converter 4 is 80 (%), DC-DC
The input current I (in) of the converter 4 is obtained as follows.

3 (V) × 40 (mA) = 0.8 (6 (V) × I (in)) (1)

From this, I (in) = 25 (mA) is obtained.

That is, the input current of the DC-DC converter 4 becomes small.

.. The series regulator 6 stabilizes the second output voltage from the power switch circuit 2 and supplies it to the analog circuit 7.

Here, if the output voltage of the DC-DC converter 4 is the power supply voltage of the analog circuit 7, DC-D
The clock component of the C converter 4 rides on the DC component of the power supply voltage of the analog circuit 7, which is disadvantageous to the operation of the analog circuit 7. Further, there is almost no effect in reducing the power consumption of the analog circuit 7, and on the contrary, the dynamic range is narrowed, which leads to a deterioration in performance.

[0030]

Since the present invention is constructed and functions as described above, according to the present invention, it is possible to reduce the current consumption in a digital circuit such as a DSP, which reduces the call time without lowering the call performance. It is possible to provide an unprecedented excellent mobile phone that can be made longer.

[Brief description of drawings]

FIG. 1 is a configuration diagram showing an embodiment of the present invention.

FIG. 2 is a configuration diagram showing a conventional example.

[Explanation of symbols]

 1 power supply voltage terminal 2 power supply switch circuit 3 power amplification circuit 4 DC-DC converter 5 digital circuit 6 regulator 7 analog circuit

Claims (1)

[Claims] 1. A power supply switch circuit for switching on and off a power supply, a power amplifier circuit for amplifying and transmitting a carrier wave using a first output voltage from the power supply switch circuit as a power supply voltage, and the power supply switch circuit A DC-DC converter that lowers the second output voltage of the power supply circuit and a regulator that stabilizes the second output voltage from the power switch circuit, and a digital circuit that uses the output voltage of the DC-DC converter as the power supply voltage. And a mobile phone equipped with an analog circuit using the output voltage of the regulator as a power supply voltage.