KR100666434B1 - Method for reducing of battery power consumption in portable device - Google Patents

Abstract

The present invention relates to a device for reducing battery consumption of a portable device and a control method of minimizing a current consumption required for a normal detection, among a function of automatically detecting a battery when the battery of the portable device is depleted and to be replaced. The battery consumption reduction device of the portable device includes a battery for supplying operation power to each component constituting the portable device, a controller for determining data and data transmission time transmitted by the portable device, and controlling and monitoring power. And a voltage detector that monitors the voltage level of the battery and notifies the controller when the monitored battery voltage is lower than a preset reference voltage, and receives power and data to be transmitted from the controller through an antenna. An RF transmitter for wireless transmission, a first power switch for supplying power to an RF transmitter according to a command of the controller when data to be transmitted is generated, and the voltage detector to reduce power consumption in a monitoring state of the portable device. A second power switch for cutting off the battery power supplied to the battery; And a monitoring circuit which transmits the monitored status to the controller.

Handheld Devices, Batteries, Voltage

Description

Battery Consumption Reduction Device and Control Method for Portable Devices {METHOD FOR REDUCING OF BATTERY POWER CONSUMPTION IN PORTABLE DEVICE}             

1 is a block diagram of a portable device according to the prior art.

2 is a block diagram of a portable device according to an embodiment of the present invention.

3 is a control flowchart for controlling a power supply of a portable device according to the present invention.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a portable device. In particular, among the functions of automatically detecting a battery when the battery of the portable device is depleted due to an exchange time, the battery consumption of the portable device is minimized. It relates to a saving device and a control method.

Typically, portable devices are powered by a battery.

1 is a block diagram of a portable device according to the prior art.

In the prior art, each functional block is composed of a battery, a control unit (microcom) 10, a voltage detector 12, a power switch 14, an RF transmitter 16, and a monitoring circuit 18.

As described above, the inside of the portable device is a combination of blocks having respective functions. Therefore, in order for each block to operate, a constant current must be supplied to each block. However, when power is supplied to all the blocks as described above, there is a problem in that even other functions available only by the residual battery cannot be used.

In addition, when using a battery of portable devices with a capacity of several tens of mAh, a difference of several times in battery life between using the microcomputer in the idle mode and the stop mode is made. This increases battery cost and hassle, and sometimes causes a problem of missing target functions.

An object of the present invention is to provide a battery consumption reduction device and a control method of a portable device that can minimize the battery consumption of the portable device.

Another object of the present invention is to provide a battery consumption reduction device and a control method of a portable device that can minimize the gap of expense when using the security purpose of the portable device.

In order to achieve the above objects, the present invention provides a device for reducing battery consumption of a portable device, comprising: a battery for supplying operation power to each component constituting the portable device, and data and data transmission from the portable device; A control unit for determining a timing and controlling power and monitoring; a voltage detector for monitoring the voltage level of the battery and notifying the controller when the monitored battery voltage is lower than a preset reference voltage; and a transmission from the controller. In the case of receiving power and data to be transmitted, the RF transmitter for wireless transmission through an antenna, and when the data to be transmitted, the first power switch for supplying power to the RF transmitter according to the command of the controller and the portable device Supplied to the voltage detector to reduce power consumption in a monitored state. And a second power switch that cuts off battery power, and a monitoring circuit which connects a predetermined sensor and transmits a monitored state to the controller.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. First, in adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are used for the same components, even if displayed on different drawings. In describing the present invention, it should be noted that specific descriptions of well-known functions or configurations are omitted in order not to disturb the gist of the present invention.

2 is a block diagram of a portable device according to an embodiment of the present invention.

First, the difference between the configuration of the present invention and the prior art configuration is that the charge / discharge unit 28 is added first, and the second power switch 26 is added to the power input side of the voltage detector 22. . The first power switch 24 and the second power switch 26 use transistors or field effect transistors. The charge / discharge unit 28 uses a capacitor or a series combination of a resistor and a capacitor.

Differences between the prior art and the present invention will be described in more detail with reference to FIG. 2.

First, the configuration of the present invention, the control unit 20 composed of a battery for supplying power to the portable device, the data sent by the device and the data transmission time, the microcomputer to control and monitor the power, the voltage level of the battery When the voltage is lowered than the reference voltage and monitors the control unit 20 to inform the control unit 20, when the data to be transmitted, the power is supplied to the RF transmitter 30 in accordance with the command of the control unit 20 and the usual monitoring state In the case of the first RF power switch to cut off the power consumption to reduce power consumption (24, 26), if there is a transmission from the control unit 20 is supplied with the power and the data to be transmitted RF for radio transmission through the antenna And a monitoring circuit 32 which connects the transmitter 30 and a predetermined sensor, monitors the state thereof, and transmits the state to the controller 20.

The biggest difference between the present invention and the prior art is to automatically control the control unit 20 composed of the microcomputer from the standby state to the stop mode as described above. In addition, the voltage detector 22 also cuts off the power supplied from the battery to the second power switch 26 to prevent unnecessary power consumption in the standby state.

The stop mode of the controller 20 refers to a standby state using only minimum power, and the internal logic is a mode for detecting only an interrupt input (internal logic such as a counter does not operate). Therefore, in order to go from the stop mode to the normal operation mode, the interrupt must be applied in hardware.

The charging and discharging unit 28 is a circuit unit configured to generate a hardware interrupt by discharging the charging voltage for a predetermined period. The operation principle of the charging and discharging unit 28 is that the charge and discharge connected to the control unit 20 when the interrupt port to be used when the power is first applied (reset state) operates as an output port of a logic high state. The circuit is charged by the port current.

The capacity of the charge depends on how much of the battery check cycle you want, depending on the amount of sink current when the same port is set as an input. If the same port is set as an interrupt input after the charging is completed, the charged current is discharged in proportion to the amount of sink current from that point. When the charging voltage is lowered to the interrupt voltage, an interrupt occurs to stop the controller 20. Mode to normal mode. At this time, the control unit 20 checks the battery voltage by operating the voltage detector 22 by controlling the second power switch 26 to a switching "on" state. As such, when the battery voltage is a low voltage, the controller 20 operates to transmit "LOW BATTERY" data to the counterpart receiver.

On the contrary, when the battery voltage is normal, the control unit 20 operates to switch the power control mode from the normal mode to the stop mode.

As mentioned in the embodiment of the present invention, the order or function block for controlling the power supplied from the battery by checking the voltage of the battery according to the power control mode state of the portable device may be implemented through various design changes of the user. It should be noted that

3 is a control flowchart for controlling a power supply of a portable device according to the present invention.

2 and 3, an embodiment of the present invention will be described below.

First, it should be noted that the description of the operation of the present invention mainly focuses on how the low voltage of the battery is controlled. It is important to design a portable device to minimize power consumption in the standby state, and this function becomes important in the case of a security device, in order to minimize the gap of expenses. First, when the sensor connected to the monitoring circuit 32 is in a normal state, the apparatus must be in a low power mode. In this case, the low power mode means that there is no unnecessary power consumption of the device.

The control unit 20 detects the mode state of the portable device by measuring the voltage output from the battery through the voltage detector 22 in step (100). If it is determined in step 100 that the mode state of the portable device is in the standby state, the controller 20 proceeds to step 102 to switch the power control mode of the controller 20 from the normal mode to the stop mode.

When the sensor connected to the monitoring circuit 32 is normal, the control unit 20 enters an idle state to drive the first power switch 24 in a switching "off" state to cut off the battery voltage supplied to the RF transmitter 30. As the second power switch 26 is switched to the “off” state, the battery voltage supplied to the voltage detector 22 is cut off to control the low power mode to reduce unnecessary power consumption of the portable device. The control unit 20 operates a counter for checking the voltage state of the battery at a predetermined period in the idle state, and reads whether the battery voltage supplied to the voltage detector 22 is low every time the counter expires. If not, restart the counter and return to idle.

Subsequently, the controller 20 proceeds to step 104 to drive the charge / discharge unit 28. The controller 20 proceeds to step 106 to check whether the charge / discharge unit 28 voltage is down to the interrupt voltage. If it is determined in step 106 that the charging voltage is down to the interrupt voltage, the controller 20 proceeds to step 108 to change the power control mode of the controller 20 from the stop mode to the normal mode. The control unit 20 drives the voltage detector 22 by switching the second power switch 26 to the "on" state in step 110, and proceeds to step 112 to check the battery voltage. The controller 20 proceeds to step 114 to check whether the voltage of the battery is lower than the preset reference voltage. If it is determined that the voltage of the battery is lower than the preset reference voltage, the controller 20 proceeds to step 116 and transmits a low voltage message to the counterpart receiver.

If it is determined that the battery is in a low voltage state, the controller 20 periodically transmits the data of "LOW BATTERY" to the receiving device side until it is inoperable. In this case, the transmitted data can be transmitted through a wireless signal, or a notification function such as a lamp or sound can be used to more accurately notify the battery consumption state. The important point is that in general micom, current consumption in idle mode is about 15mA, which is 3 ~ 4 times of stop mode. Given that the capacity of a typical battery is several tens of mAh, this is a factor that can significantly affect the life of the battery.

Meanwhile, if it is determined in step 114 that the battery voltage is normal, the controller 20 jumps to step 102 to perform a series of processes.

In the detailed description of the present invention, specific embodiments have been described, but various modifications are possible without departing from the scope of the present invention. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be defined not only by the claims below but also by the equivalents of the claims of the present invention.

As described above, the apparatus and control method for reducing battery consumption of a portable device according to an embodiment of the present invention can reduce the cost and hassle of frequently replacing the battery by checking a low voltage of the battery, and a blank state of a target function. There is an effect that can be minimized.

Claims (5)

In the battery consumption reduction device of a portable device, A battery for supplying operation power to each component constituting the portable device; A control unit for determining data transmitted by the portable device and data transmission time, and controlling and monitoring power; A voltage detector for monitoring the voltage level of the battery and notifying the controller when the monitored battery voltage is lower than a preset reference voltage; An RF transmitter which receives power and data to be transmitted from the controller and performs wireless transmission through an antenna; A first power switch for supplying power to an RF transmitter according to a command of the controller when data to be transmitted is generated; A second power switch which cuts off battery power supplied to the voltage detector to reduce power consumption in a monitoring state of the portable device; Monitoring circuit which connects a predetermined sensor and transmits the monitored state to the controller Device for reducing battery consumption of a portable device including a. The apparatus of claim 1, wherein the portable device further comprises a charge / discharge unit having a circuit configuration with the controller to discharge a charging voltage for a predetermined period to generate a hardware interrupt. The charging and discharging unit of claim 2, wherein the charging / discharging unit is charged by the port current when the interrupt port to be used when the power is initially applied (reset state) operates as an output port in a logic high state, and charging is completed. If the same port is set as the interrupt input after the time, the charged current is discharged in proportion to the amount of sink current, and when the charging voltage is lowered to the interrupt voltage, an interrupt occurs to switch the control unit from the stop mode to the normal mode. Device for reducing battery consumption of a portable device, characterized in that. In the battery consumption control method of a portable device having a battery, a control unit, a voltage detector, an RF transmitter, a first and a second power switch, a monitoring circuit, and a charge and discharge unit, Detecting a mode state of the portable device by measuring a voltage output from a battery through the voltage detector; Switching the power control mode of the controller from the normal mode to the stop mode when it is determined that the mode state of the portable device is in the standby state; Controlling the low power mode to reduce unnecessary power consumption of the portable device when the sensor connected to the monitoring circuit is normal; Driving the charge / discharge unit to check whether the charge / discharge unit voltage is lowered to the interrupt voltage; If it is determined that the charging voltage is down to the interrupt voltage, switching the power control mode of the controller from the stop mode to the normal mode; Driving the voltage detector by switching the second power switch to an on state; Checking whether the voltage of the battery is lower than a preset reference voltage by checking a battery voltage through the voltage detector; If it is determined that the voltage of the battery is lower than the preset reference voltage, the process of transmitting a low voltage message to the receiver Control method of reducing battery consumption of a portable device comprising a. The battery control apparatus of claim 4, wherein the controller operates a counter for checking the voltage of the battery at a predetermined period in the idle state, and reads whether the battery voltage supplied to the voltage detector is low when the counter expires. If not, the control method of reducing the battery consumption of a portable device characterized in that the process of returning to the idle state while restarting the counter.

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