KR100417409B1 - Power supply apparatus for terminal - Google Patents

Abstract

The present invention relates to a power supply device of a terminal, and to reduce battery current consumption by outputting a battery power level differently according to the data output level when the terminal transmits data. To this end, the present invention includes a first power supply for outputting the battery power by the first control signal; A DC / DC converter for reducing and outputting the battery power to a predetermined level; A second power supply unit receiving the depressed battery power of the DC / DC converter and outputting the same by a second control signal; An amplifier which is enabled by the power supplied from the first and second power supply units and amplifies and outputs a transmission signal output from the terminal to a predetermined level; And a microcomputer outputting first and second control signals for controlling outputs of the first and second power supply units according to the voltage level of the transmission data of the terminal.

Description

Power supply of terminal {POWER SUPPLY APPARATUS FOR TERMINAL}

The present invention relates to a power supply of a terminal, and more particularly, to a power supply of a terminal to reduce the battery current consumption by outputting a battery power level differently according to the data output level when the terminal transmits data.

In general, a power supply device protects the power supply by cutting off power when a specific current flows when power is supplied to a device to be supplied with a transient current protection function.

Here, the power supply of the terminal, even when the output is low, to increase the current consumption by using a high voltage to increase the battery consumption, will be described with reference to the accompanying drawings, such a prior art.

1 is a circuit diagram showing a configuration of a power supply of a general terminal, and as shown therein, a power supply unit 10 which receives battery power and outputs it by a control signal of a microcomputer 20 described below; An amplifier 30 enabled by the power supplied from the power supply unit 10 to amplify and output a transmission signal output from the terminal to a predetermined level; The microcomputer 20 controls the transmission and reception of the terminal as well as outputs a control signal for controlling the power supply of the power supply unit 10.

The power supply unit 10 includes: a first PMOS transistor Q1 having a positive voltage terminal of a battery having a negative voltage terminal grounded thereto, and a resistor having one side thereof grounded to a gate; An en-type transistor Q3 controlled on / off by a control signal of the microcomputer 20; By a on / off operation of the n-type transistor (Q3), the third PMOS transistor to apply the battery voltage to the amplifier 400, which is controlled on / off and output through the first PMOS transistor (Q1) It consists of (Q2) and the operation | movement of such a conventional apparatus is demonstrated.

First, the microcomputer 20 collectively controls the internal operation of the terminal, and when transmitting data, the microcomputer 20 applies a control signal 'high' to the power supply unit 10 through a modem, and thus the power supply unit 10 is 'high'. Enabled by the control signal to apply a battery voltage to the amplifier (30).

That is, when the control signal 'high' output from the microcomputer 20 is applied to the gate of the ENP transistor Q3 of the power supply unit 10, the ENP transistor Q3 is turned on.

Meanwhile, the first PMOS transistor Q1 is turned on by the ground voltage applied to the gate to apply the battery voltage to the source of the second PMOS transistor Q2, and the second PMOS transistor Q2 is As the n-type transistor Q3 is turned on, the n-type transistor Q3 is turned on to apply the battery voltage to the amplifier 30.

Then, the amplifier 30 compares the data output from the terminal with a reference voltage and if the data is larger than the reference voltage, amplifies the data to the battery voltage level and transmits the data through the antenna.

At present, the terminal has a trend of increasing the amount of data as the protocol is transferred to the IS-95C, and as the exchange of information increases, the usage time of the terminal is increasing unlike in the past. Even when low, there is a problem that the battery consumption is increased by increasing the current consumption by using more than the cut-off voltage.

The present invention has been made to solve the above problems, and provides a power supply of the terminal to reduce the battery current consumption by outputting the battery power level according to the data output level when the terminal transmits data. There is a purpose.

1 is a circuit diagram showing a configuration for a power supply of a conventional terminal.

Figure 2 is a circuit diagram showing the configuration of the power supply of the terminal of the present invention.

***** Description of the symbols for the main parts of the drawings *****

100,200: Power supply part 300: Microcomputer

400: amplifier 500: DC / DC converter

The present invention for achieving the above object, the first power supply for outputting the battery power by the first control signal; A DC / DC converter for reducing and outputting the battery power to a predetermined level; A second power supply unit receiving the depressed battery power of the DC / DC converter and outputting the same by a second control signal; An amplifier which is enabled by the power supplied from the first and second power supply units and amplifies and outputs a transmission signal output from the terminal to a predetermined level; And a microcomputer outputting first and second control signals for controlling outputs of the first and second power supply units according to the voltage level of the transmission data of the terminal.

Hereinafter, with reference to the accompanying drawings the operation and effects of the power supply of the terminal according to the present invention will be described in detail.

FIG. 2 is a circuit diagram showing a configuration of a power supply device of a terminal according to the present invention. As shown in FIG. 2, a first power supply unit 100 receives battery power and outputs the same by a first control signal; A DC / DC converter 500 which receives the battery power and decompresses it to a predetermined level and outputs the reduced voltage; A second power supply unit 200 which receives the reduced battery voltage of the DC / DC converter 500 and outputs it by a second control signal; An amplifier 400 which is enabled by the power supplied from the first and second power supply units 100 and 200 and amplifies and outputs a transmission signal output from the terminal to a predetermined level; The microcomputer 300 outputs first and second control signals for controlling the outputs of the first and second power supply units 100 and 200 according to the voltage level of the transmission data of the terminal.

The first power supply unit 100 includes an ENP transistor Q3 turned on / off by a first control signal of the microcomputer 300; In accordance with the on / off operation of the N-type transistor Q3, the PMOS transistor Q2 is provided on / off in the same manner to apply the battery voltage to the amplifier 400.

The second power supply unit 200 includes an ENP transistor Q5 which is turned on / off by a second control signal of the microcomputer 300; In accordance with the on / off operation of the n-type transistor (Q5), it is provided with a PMOS transistor (Q4) for applying the same on / off and the reduced battery voltage to the amplifier 400, the operation of the present invention as described above Explain.

First, the microcomputer 300 collectively controls the internal operation of the terminal, and in the data transmission mode, when the level of the transmission data is higher than or equal to a predetermined level, the first power supply unit 100 sets the first control signal to 'high'. Is applied to the second power supply unit 200 with the second control signal 'low'.

Accordingly, the first power supply unit 100 is enabled by the first control signal 'high' to apply the battery voltage to the amplifier 400, and the second power supply unit 200 is 'low' second control. It is disabled by the signal.

That is, when the 'high' first control signal output from the microcomputer 300 is applied to the gate of the ENP transistor Q3 of the first power supply unit 100, the ENP transistor Q3 is turned on. do.

Meanwhile, the first PMOS transistor Q1 is turned on by the ground voltage applied to the gate to apply the battery voltage to the source of the second PMOS transistor Q2, and the second PMOS transistor Q2 is As the n-type transistor Q3 is turned on, the n-type transistor Q3 is turned on to apply the battery voltage to the amplifier 400.

Then, the amplifier 400 compares the data output from the terminal with a reference voltage and if the data is larger than the reference voltage, amplifies the data to the battery voltage level and transmits the data through the antenna.

On the contrary, in the data transmission mode, when the level of the transmission data is lower than or equal to the predetermined level, the first control signal is set to 'low' and is applied to the first power supply unit 100, and the second control signal is set to 'high'. 2 is applied to the power supply unit 200.

Accordingly, the second power supply unit 200 applies the battery voltage, which is enabled and reduced in the DC / DC converter 500 to a predetermined level, by the second control signal 'high' to the amplifier 400, and The first power supply 100 is disabled by the first control signal 'low'.

That is, when the second control signal 'high' output from the microcomputer 300 is applied to the gate of the ENP transistor Q5 of the second power supply unit 200, the ENP transistor Q5 is turned on. do.

Meanwhile, the first PMOS transistor Q1 is turned on by the ground voltage applied to the gate to apply the battery voltage to the DC / DC converter 500. Accordingly, the DC / DC converter 500 supplies the battery voltage. The pressure is reduced to a predetermined level and applied to the PMOS transistor Q4 of the second power supply unit 200.

In this case, the PMOS transistor Q4 is turned on as the NPP transistor Q5 is turned on to apply the reduced voltage to the amplifier 400.

Then, the amplifier 400 compares the data output from the terminal with a reference voltage and if the data is larger than the reference voltage, amplifies the data to the reduced battery voltage level and transmits the data through the antenna.

As described in detail above, the present invention has an effect of minimizing battery current consumption by outputting a battery power level differently according to its data output level when transmitting data from a terminal, thereby reducing consumer complaints and extending battery life.

Claims (4)

A first power supply unit for outputting battery power by a first control signal; A DC / DC converter for reducing and outputting the battery power to a predetermined level; A second power supply unit for outputting the reduced battery power of the DC / DC converter by a second control signal; An amplifier which is enabled by the power supplied from the first and second power supply units and amplifies and outputs a transmission signal output from the terminal to a predetermined level; And a microcomputer outputting first and second control signals for controlling outputs of the first and second power supply units according to voltage levels of the transmission data of the terminal. The power supply apparatus of claim 1, wherein the microcomputer outputs the first control signal 'high' and the second control signal 'low' when the level of the transmission data is higher than or equal to a predetermined level. The power supply apparatus of claim 1, wherein the microcomputer outputs a first control signal 'low' and a second control signal 'high' when the level of the transmission data is equal to or lower than a predetermined level. The semiconductor device of claim 1, wherein the second power supply unit comprises: an ENP transistor turned on / off by a second control signal of the microcomputer; According to the on / off operation of the n-type transistor, the power supply device of the terminal characterized in that it comprises a PMOS transistor for applying the same on / off decompressed battery voltage to the amplifier.