KR20060002574A - Pda phone power circuit part - Google Patents

Abstract

According to the present invention, a power supply circuit of a personal mobile phone includes a reset switch for selecting one of an AC power supply and a battery power supply, and an output signal of the reset switch. It characterized in that it comprises a power supply circuit portion of the personal mobile terminal phone, characterized in that it comprises a power management unit for outputting each.

The present invention is characterized in that the auxiliary battery power supply further supports the function of the battery power supply.

In addition, the present invention is characterized in that the battery charging unit is further provided for charging the remaining power applied to the chip.

As described above, the present invention can simplify the power circuit unit and reduce the number of devices by providing the power management unit.

In addition, the present invention can be used more efficiently by providing a switch unit that can select the AC power source and the battery power, and a battery charging unit.

Personal cell phone, power supply, LDO voltage regulator

Description

PDA phone power circuit part             

1 is a view briefly showing a power supply circuit of a personal terminal phone according to the prior art.

2 is a diagram briefly showing a power supply circuit of a personal terminal phone according to the present invention.

3 is a view showing in detail the power supply circuit portion of the personal mobile phone according to an embodiment of the present invention.

<Description of the symbols for the main parts of the drawings>

100: power management unit (PCF50606 chip) 110: reset switch unit

120: voltage detection unit 130: charging logic unit

140a, 140b: load switch unit 150a, 150b, 150c: power switch unit

160: charge pump unit 170a, 170b: LDO voltage adjustment unit

The present invention relates to a power supply circuit portion of a personal mobile phone, and more particularly, to include a power management unit for outputting the input voltage of each device in the personal mobile phone, to simplify the power circuit and reduce the number of devices. It relates to a power supply circuit portion of the personal mobile phone.

In the related art, as shown in FIG. 1, a power circuit unit of a personal mobile terminal phone is largely a main power device 10, a battery charger 20, and a plurality of low dropouts (LDOs); Low Drop Out) voltage adjustment unit 30a to 30d.

Here, the power circuit unit of the personal mobile terminal phone receives AC power to output an input voltage corresponding to each device inside the personal mobile phone.

The low drop out (LDO) is a kind of linear regulator.

The linear regulator is a device that generates a desired output voltage by removing the excessive voltage from the input voltage by using a transistor or a field effect transistor (FET) that operates in the linear region.

The minimum input voltage for the output voltage differential, which is required for the regulator to keep the output voltage within a nominal value of 100 mV, is called the drop out voltage.

However, the power circuit portion of the conventional personal portable terminal phone as described above is provided with a plurality of power circuit portions (power circuit portions such as a main power supply, a battery charging portion, and an LDO voltage adjusting portion) on a printed circuit board (PCB).

Accordingly, not only the size of the overall personal mobile phone is increased but also the cost of the personal mobile phone is high.

In addition, since the power supply circuit portion of the conventional personal portable terminal phone receives only AC power, it is inconvenient to use in a place without the AC power.

The present invention has been made to solve the above problems, the object of which is to include a power management unit for outputting a voltage applied to each device inside the personal mobile phone, simplifying the power circuit unit, the number of devices It is to provide a power supply circuit portion of the personal mobile terminal phone can be reduced.

In order to achieve the above object, the present invention, in the power supply circuit portion of the personal mobile terminal phone, the reset switch unit for selecting one of the AC power source and the battery power source, and the output signal of the reset switch unit as input, And a power supply circuit section of the personal digital assistant phone characterized in that it comprises a power management unit for respectively outputting an input voltage of each device in the phone.

The present invention is characterized in that the auxiliary battery power supply further supports the function of the battery power supply.                     

In addition, the present invention is characterized in that the battery charging unit is further provided for charging the remaining power applied to the chip.

In addition, the present invention is characterized by further comprising an LDO voltage adjusting unit to assist the input power of the device.

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

2 is a diagram briefly showing a power supply circuit of a personal terminal phone according to the present invention.

Referring to FIG. 2, the power circuit unit of the personal mobile terminal phone according to the present invention may include a reset switch unit 110 for selecting one of an AC power unit (AC power source) and a battery power source unit (Main battery), and the reset switch unit 110. A power management unit 100 for inputting an output signal and outputting an input voltage of each device in the personal mobile phone.

Here, the 'device' refers to each device constituting a personal mobile phone such as a CPU core, a memory, a camera, a Bluetooth chip, and the like.

The power management unit 100 is preferably implemented as one chip, and examples thereof include chip name PCF50605 or chip name PCF50606.

The reset switch unit 110 is preferably designed such that the AC power is selected first.

In addition, the present invention preferably further comprises a secondary battery power supply unit (backup battery unit; backup battery) to assist the function of the main battery power supply (Main battery).

In addition, the present invention further includes a battery charging unit for charging the remaining power applied to the chip (Battery charging).

Although not shown in Figure 2, the present invention is characterized by further comprising an LDO voltage adjusting unit to assist the input power of the device.

Next, the present invention will be described in more detail with reference to FIG. 3.

3 is a view showing in detail the power supply circuit of the personal mobile phone according to an embodiment of the present invention, the power management unit 100 is implemented using a PCF50606 chip.

The single chip, the PCF50606, supports real-time power management and extends battery life.

The power applied to the PCF50606 chip is largely alternating current (AC power) and battery power (Battery).

The battery power includes a main battery and a back battery. A more detailed description thereof will be described later.                     

A voltage detector 120 and a first switch 121 are provided at the rear end of the AC power.

The voltage detector 120 monitors an input voltage (here, AC voltage) and detects that the input voltage falls below a set value.

In addition, the voltage sensing unit 120 serves to protect the battery by monitoring and warning when the input voltage comes from the rechargeable battery.

That is, the voltage detector 120 is a circuit unit that detects the transient temperature and the overcurrent of the input voltage (AC power).

For example, the voltage detector 120 may include a chip name MAX834.

The first switch unit 121 turns on / off the application of AC power according to the result detected by the voltage detecting unit 120.

As described above, in the present invention, when AC power and battery power are provided together, the AC power is preferentially supplied to the PCF50606 chip 100 rather than the battery power battery. It is preferable.

This is for minimizing the consumption of the battery power in case there is no AC power and only the battery power.

The remaining power applied to the PCF50606 chip 100 among the AC power is charged by the charging logic unit 130 to the main battery and the auxiliary battery power supply.

Reference numeral 110 denotes a reset switch, which is a switch that selects one of the AC power and the main battery.

That is, in the present invention, when the input power is provided with both the AC power supply unit and the battery power supply unit, it is preferable that AC power is applied to the PCF50606 chip 100 by the reset switch unit 110.

The reset switch unit 110 preferably uses a chip name MAX 6326 or the like.

In one embodiment of the present invention, the reset switch unit 110 and the second switch unit 111 having the main battery power supply unit are provided.

The output value of the second switch 111 is input to the chip PCF50606 (100).

Reference numeral 140a denotes a load switch unit and performs a function of exporting one of two applied voltages (the AC power supply and the battery power supply).

The load switch unit used in the embodiment of the present invention preferentially emits AC power.

Reference numeral 150a denotes a power switch. The output signal of the load switch unit 140a and the main battery power are input, and the output value of the power switch 150a is input to PCF50606.

In the present invention, it is preferable that the auxiliary battery power supply further supports the function of the main battery power supply.

Accordingly, in the present specification, when swapping from the main battery to a secondary battery (backup battery), the backup power using a power switch (chip name: CMPWR025) 150b. It is designed so that the power of the required memory, central processing unit (CPU) VCCQ stage can be switched.

The auxiliary battery power supply unit (Back Battery) will be described in more detail. The auxiliary battery power supply unit (Back Battery) includes a charge pump unit 160, a load switch unit 140b, and a power switch unit 150b.

The charge pump unit 160 receives an auxiliary battery power (Back Battery).

Examples of the charge pump 160 include a chip name MAX 1759.

The load switch unit 140b outputs the output voltage of the charge pump unit 160 as it is. The reason is that the input signal of the load switch unit 140b is the output signal of the charge pump unit 160 and no power.

This is because the voltage is applied to the load switch unit 140b.

In addition, the load switch unit 140b may, for example, include a chip name FDG 6324L.

Examples of the power switch units 150b and 150c include chip names CMPWR 025 and the like.

The power switch unit 150b inputs the output voltage of the load switch unit 140b and the main voltage 3.3V, and one of the two voltages is selected and outputted. send. Here, the output voltage of 3.3V is an input power supply of the central processing unit (CPU).

The power switch unit 150c inputs the load switch unit 140b and the memory voltage 3.3V and emits 3.3V. Here, the output voltage of 3.3V becomes the input power of the memory unit.

In addition, the LDO voltage adjusting units 170a and 170b preferably use the chip name Si9182.

The Si9182 chip has a low 105mV dropout at 250mA load.

The output voltage of the LDO voltage adjusting unit 170a becomes an input voltage of Bluetooth.

The output voltage of the LDO voltage adjusting unit 170b becomes an input voltage of the audio unit.

As described above, in an embodiment of the present invention, AC power and battery power are used as the main power of the PCF50606 chip, and when AC power is present, the AC power is designed to operate. As the AC power source, the PCF50606 outputs a main 3.3V, a memory 3.3V, an audio 3.3V, an mq 1.5V, and a camera 3.0V.

In addition, the PCF50606 chip may charge the battery power supply unit or the backup battery unit (Battery, backup battery) using the power source.

In the specification of the present invention, only a personal mobile phone is mentioned, but it is applicable to other mobile products. In other words, by using the PCF50605 / PCF50606 chips in mobile products, the size of the entire mobile product can be reduced.

As described above, the present invention can simplify the power circuit unit and reduce the number of devices by providing the power management unit.

In addition, the present invention can be used more efficiently by providing a switch unit that can select the AC power source and the battery power, and a battery charging unit.

Claims (5)

In the power supply circuit section of a personal mobile phone, a reset switch section for selecting one of an AC power supply section and a battery power supply section, and an output signal of the reset switch section are input, and output the input voltage of each device in the personal mobile phone. And a power management unit. The power supply circuit unit of claim 1, further comprising an auxiliary battery power supply unit to assist the function of the battery power supply unit. 2. The power supply circuit unit of claim 1, wherein the power management unit is PCF50605 or PCF50606. 4. The power supply circuit unit of claim 1, further comprising a battery charging unit for charging the remaining power applied to the chip. 5. The power circuit unit of claim 4, further comprising an LDO voltage adjusting unit to assist the input power of the device.

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