KR20000019524A - Portable terminal equipment for low power - Google Patents

Abstract

PURPOSE: A portable terminal equipment for a low power is provided to lengthen a life time of a battery by minimizing an instantaneous current generated when operating a switching device. CONSTITUTION: A portable terminal equipment for a low power comprises a plurality of function block(28a) and a capacitor(28b) for stabilizing an inner voltage stabilization between the function blocks. An inner voltage is supplied according to a time operation order of the function blocks and an instantaneous current is generated by a charge of the capacitor. The generated instantaneous current is distributed according to each function so as minimize to total current. To supply and control the inner voltage to the function blocks, the portable terminal equipment comprises a delay device(28c) for delaying the output from the function blocks and a switching device(24,26) for controlling the supply of the inner power.

Description

Low power consumption portable terminal

The present invention relates to a portable terminal, and more particularly, to a low power consumption portable terminal.

Batteries are mainly used as a means for supplying power to portable terminals. Therefore, how long to use the battery under the same conditions may vary depending on the manufacturer of the portable terminal. Therefore, it is important for manufacturers to find ways to extend the life of batteries under given conditions, since they can be distinguished from other manufacturers' products.

1 is a view for explaining the internal power supply of the conventional portable terminal.

1 includes an internal power supply unit 10, a control unit (MPU) 12, a first switching means 14, an internal power receiver 18, and a second switching means 16.

The first switching means 14 turns on / off the internal power supplied from the internal power supply 10 to the control unit 12.

The internal power receiver 18 includes a plurality of functional blocks 18a operated by internal power supplied from the internal power supply 10, and internal voltage stabilizing capacitors 18b connected between the functional blocks 18a. ). An example of the internal power receiver 18 shown in FIG. 1 is a functional block for performing an audio function, and is a functional block for performing an operation of a ROM, a codec, and an amplifier.

The second switching means 16 is connected between the internal power supply unit 10 and the internal power receiver 18, the gate end thereof is connected to the control unit 12, under the control of the control unit 12, the internal power supply unit A path for supplying internal power to the internal power receiver 18 is formed at 10.

In the case of the portable terminal as shown in FIG. 1, when the first switching means 14 is switched from the off state to the on state, the control unit 12 supplies the second voltage switch to supply the internal voltage to the internal voltage receiving unit 18. To control (16). At this time, the capacitor 18b connected to the internal power supply unit 10 begins to charge, which is the same as the state in which the functional blocks 18a are conducted, so that a rapid current flows in the internal power receiver 18. Therefore, when the number of power supply stabilization capacitors 18b is large, the total amount of current flowing through the internal power supply receiver 18 increases. Therefore, in the case of a portable terminal provided with a large number of capacitors 18a, since the instantaneous current increases in proportion to the number of capacitors, if the on / off operation of the first switching means 14 is repeated, the usage time of the battery is increased. Reduced, circuit damage due to excessive instantaneous current can also occur. Particularly, in the case of the low power consumption type portable terminal, a method of not supplying power to the circuit when not in use is mainly used, so that whenever the on / off operation of the first switching means 14 occurs, the power stabilization capacitor is used every time. Since a charge is generated and an instantaneous current, this causes a problem of reducing the service life of the battery.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and minimizes the instantaneous current generated when operating the switching means for turning on / off the power supplied to the portable terminal, thereby reducing the use time of the battery due to the instantaneous current. It is an object of the present invention to provide a low power consumption portable terminal for extending.

1 is a view for explaining the internal power supply of the conventional portable terminal.

2 is a view for explaining a low power consumption portable terminal according to the present invention.

3 is a graph showing a change in the instantaneous current according to the prior art and the present invention.

According to the present invention for achieving the above object, a portable terminal including a plurality of functional blocks operated by an internal power supply unit, and a voltage stabilizing capacitor between the functional blocks

The internal voltage is supplied based on the temporal operation sequence of the functional blocks, thereby distributing the instantaneous current generated by the charging of the capacitor for each functional block, minimizing the overall instantaneous current, and extending the usage time of the battery. It is characterized by.

In addition, in supplying an internal voltage to the functional block,

A switching means connected to a rear end of the function block for delaying the output of the function block for a predetermined time and controlled by the output of the delay means to control the supply of internal power applied to the rear function block of the function block; It comprises a means.

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

2 is a view for explaining a low power consumption portable terminal according to the present invention.

The apparatus shown in FIG. 2 comprises an internal power supply 20, a control unit 22, a first switching means 24, a second switching means 26 and an internal power receiver 28.

The first switching means 24 is for turning on / off the internal power supplied from the internal power supply unit 20 to the control unit 22. The first switching means 24 is a means for cutting off the power supply when the user does not use the portable terminal. .

The internal power receiver 28 includes a plurality of functional blocks 28a operated by the internal power provided from the internal power supply unit 20, and internal voltage stabilizing capacitors 28b connected between the functional blocks 28a. In order to solve the problem of the apparatus shown in FIG. 1, third switching means (operated by the output of the delay means 28c and the delay means 28c connected to the rear ends of the respective functional blocks ( 28d) is further provided. An example of the configuration of the internal power receiver 28 shown in FIG. 2 is a case where functional blocks for performing an audio function are illustrated as shown in FIG. 1, and are functional blocks for performing operations of a ROM, a codec, and an amplifier. .

The second switching means 26 is connected between the internal power supply 10 and the internal power receiver 28, the gate end thereof is connected to the control unit 22, by the control of the control unit 22, the internal power supply The path provided to the internal power receiver 28 is formed.

That is, in the present invention, the internal voltage is sequentially supplied to the functional blocks based on the temporal operation sequence of the functional blocks 28a. Therefore, by distributing the instantaneous current generated by the charging of the capacitors 28b for each functional block to minimize the magnitude of the overall instantaneous current, it is possible to extend the use time of the battery.

Referring to the apparatus shown in Figure 2, the operation of the present invention will be described.

By the control signal generated by the controller 22, the internal power supplied from the internal power supply 20 to the internal power receiver 28 may be interrupted. When the first switching means 24 is turned on by the user, the controller 220 turns on the third switching means which operates to supply the internal power to the ROM, and outputs the output by a delay means connected to the rear end of the ROM. The signal output from the delay means turns on the third switching means connected to the rear end to perform the codec function, and the audio signal is generated by performing the amplifier function as described above.

3 is a graph showing a change in the instantaneous current according to the prior art and the present invention, (a) shows a change in the instantaneous current according to the prior art, (b) shows a change in the instantaneous current according to the present invention Indicates.

The time difference according to the order of each functional block according to the present invention is about several to several hundred milliseconds (ms) within a range in which a functional problem does not occur. In the present invention, as shown in Figure 3 (b), by distributing the instantaneous current flowing to the internal power receiver 28 for each functional block, the overall instantaneous current is minimized.

The present invention can be used in an apparatus for generating an output after delaying a certain time by receiving any input.

As described above, according to the low power consumption portable terminal according to the present invention, the instantaneous current generated by the charging of the capacitor is supplied by supplying the internal voltage sequentially to the functional blocks based on the temporal operation sequence of the functional blocks. Since it can be distributed for each functional block, it minimizes the magnitude of the overall instantaneous current, thereby providing an effect of extending the battery usage time.

Claims (2)

A portable terminal comprising a plurality of functional blocks operated by an internal power supply unit and a voltage stabilizing capacitor between the functional blocks, The internal voltage is supplied based on the temporal operation sequence of the functional blocks, thereby distributing the instantaneous current generated by the charging of the capacitor for each functional block, minimizing the overall instantaneous current, and extending the usage time of the battery. Low power consumption portable terminal, characterized in that. The method of claim 1, wherein in supplying an internal voltage to the functional block, A delay means connected to a rear end of the function block and delaying an output of the function block for a predetermined time; And switching means for controlling the supply of the internal power applied to the rear end function block of the function block by the output of the delay means.