KR20020074108A - A booster control device - Google Patents

Abstract

PURPOSE: A controller of a booster is provided to prevent unnecessary discharge of a booster by controlling the booster when an electronic device is not used or operate the booster during a program period of the electronic device when the electronic device is used. CONSTITUTION: A booster(2) is operated only when an electrical change is generated from a CE pin(12). A power supply source(1) is used for supplying voltage to the booster(2). An input switch(5) is used for transferring the electrical change to an input part of a program IC(3) and the CE pin(12) in order to operate the program IC(3). The program IC(3) operates the booster(2) by transferring the electrical change to the CE pin(12) through a control portion(13) when receiving boosting voltage from the booster(2). In addition, the program IC(3) checks a state of the input switch(5) and a state of an electronic device(4) in order to operate the electronic device(4) and intercepts the electrical change of a control portion(13) in order to stop an operation of the booster(2).

Description

A booster control device}

Programmable programmable ICs in the existing commonly used electronic components often operate with a voltage of at least 2V. For this reason, circuits driven with a voltage of 2V or higher have been commonly used to construct electronic circuits.

For example, there are remote controllers for controlling TVs and air conditioners. These remote controllers are generally made of a voltage of 2V or more using two batteries, and there are not many remote controllers operating under 2V of one battery. It is true.

However, in the construction of an electronic device using a battery, a product consisting of only one 1.5V battery is popular for miniaturization.

In order to drive a circuit operating at 2V or higher used in a device using such a battery, a booster is mounted on the power supply of the device using the battery so that only one battery can be configured. By powering up, the power unit was conceived so that it could be miniaturized by using one battery.

These power supply boosters were used to supply voltage to electronics and other processors in battery powered devices.

On the other hand, in order to prevent the discharge of the voltage source 1 when the electronic device 4 is not used, a voltage source 1-1 of 2V or more is used by using two batteries or a mercury battery having low power as shown in FIG. It supplies the voltage to the program IC (3) by using the program IC (3) itself has a function that can be operated in a low power mode until the program IC (3) itself is a voltage until the electronic device (4) operates By controlling the consumption of the voltage of the supply source (1-1) can be configured so that the discharge of the voltage supply source (1-1) is insignificant, the voltage supply by connecting the voltage supply source (1-1) directly to the program IC (3) However, when the booster 2-1 is inserted between the voltage supply source 1 and the program IC 3 as shown in FIG. 2, the booster 2-1 even if the program IC 3 is operated in the low power mode. Long time due to voltage consumption If you do not use, the booster (2-1), there has been a tendency that the use life of a voltage source (1) by consumption of its shorter.

In this case, when the battery and the booster are not used for a long time by using a physical power switch connected to the battery to operate the booster of the power unit, the physical power switch is used to separate the booster and the battery to solve the problem. It was a hassle for a person to operate the in-switch, and if such a physical switch is mounted on the remote controller, the remote controller can be used after operating a separate physical switch to use the remote controller. Hassle to turn off will occur.

On the other hand, due to the development of technology, the electronic parts have been miniaturized much, but the size of the battery of the voltage supply source (1) is slower than that of the electronic parts. There are many cases that use high-power batteries compared to mercury batteries such as manganese batteries, such as cassettes and MP3 products.

However, manganese batteries have a large volume, and when two or three are used, the volume of the manganese battery becomes larger than that of an electronic component, which makes it an obstacle to miniaturization of a product.

The present invention is to compensate for the above problems, the electrical change in the input switch (5) to operate the program IC (3) to the input portion of the program IC (3) that does not operate because the booster (2) does not operate When delivered, electrical changes are also transmitted to the protection unit 6 and the CE pin 12 so that the booster 2 and the program IC 3 operate, and the state of the input switch 5 is changed by the program of the program IC 3. The control unit 13 to grasp, maintain the booster 2 through the control unit 13, and operate the electronic device 4 according to the state of the input switch 5 and the state of the electronic device 4, and then terminate the program. By blocking the signal, the booster 2 and the program IC 3 are configured to stop operation so that the booster 2 can be controlled, and the size of the product can be reduced by using one or a small amount of the voltage source 1. Controls of boosters to enable To provide.

1 is a block diagram according to an embodiment of a control device of a booster according to the present invention.

2 and 3 are block diagrams for explaining the control device of the booster according to the present invention.

<Description of Main Parts of Drawing>

1. Voltage source 2. Booster 3. Programmable IC

4. Electronics 5. Input switch 6. Protective part

7. Signal Line 1 8. Signal Line 2 9. Signal Line 3

10. Positive pole 11. Minus pole 12. CE pin

13. Control

Features of the present invention for achieving this object

Booster 2 is cut off while boosting of booster 2 is cut off to eliminate unnecessary discharge of booster 2 when electronics 4 are not in use and the program of electronics 4 is terminated when electronics 4 are used. It relates to a control device of the booster to operate.

A booster 2 configured to operate only when an electrical change occurs in the CE pin 12;

A voltage supply source 1 for supplying a voltage to the booster 2;

An input switch 5 configured to transmit electrical changes to the input of the program IC 3 and the CE pin 12 of the booster 2 to operate the program IC 3;

When the booster voltage is supplied from the booster (2), the electrical booster (2) is transferred to the CE pin (12) through the control unit (13) so that the booster (2) continuously operates by the internal program. Is configured to operate and checks the state of the input switch 5 and the state of the electronic device 4 to operate the electronic device 4 and to block the electrical change of the control unit 13 at the end of the program booster (2) Program IC (3) which stops the operation by stopping the operation).

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

1 is a block diagram according to an embodiment of a control device of a booster according to the present invention.

2 and 3 are block diagrams for explaining the control device of the booster according to the present invention.

First, referring to FIG. 1,

Booster 2 is cut off while boosting of booster 2 is cut off to eliminate unnecessary discharge of booster 2 when electronics 4 are not in use and the program of electronics 4 is terminated when electronics 4 are used. In order to configure the control device of the booster,

A booster 2 configured to operate only when an electrical change occurs in the CE pin 12;

Here, the CE pin 12 is preferably configured by using a boosting IC of the DC-TO-DC CONVERTER. The boosting IC is shipped with a CE pin as a secondary function during manufacturing. When the voltage of 1 or 0 is applied as a digital signal, it is configured to operate the boost-only IC. When the CE pin 12 is left open, the CE pin 12 is grounded or a voltage of 0V or more is not operated. When it is applied, it is preferable to configure the booster (2) using the boost-only IC that operates or not to operate. To explain in more detail, the CE pin (12) of the CE pin of the boost-only IC is opened after When the CE pin 12 is measured by a measuring instrument, there are boosting ICs in which a voltage booster IC is not operated while the 0V voltage is checked, and the CE pin 12 of the boosting IC is connected to the negative pole 11 of the voltage supply source 1. Direct Alternatively, if indirectly connected and grounded to 0V, there is a boost-only IC in which the boost-only IC operates. When the switch at the input switch 5 is operated using this characteristic to generate an electrical change of 0V, the booster 2 If the CE pin 12 is opened after measuring the CE pin 12 in the open state among the characteristics of the CE pin of the boost-only IC, when the CE pin 12 is measured with a measuring device, the voltage-dedicated IC operates while checking the voltage above 0V. There are some boost-only ICs that do not have a boost voltage. When the CE pin 12 of the boost-only IC is directly or indirectly connected to the positive pole 10 of the voltage source 1 to connect a voltage greater than 0V, the boost-only IC is operated. There is a dedicated IC, and when the switch in the input switch 5 is operated to generate an electrical change of 0 V or more, the booster 2 is configured to operate. The component is connected to the plus pole 10 or the minus pole 11 of the voltage source 1 so that the booster 2 is not operated and the voltage of the booster 2 is operated by the input switch 5. By configuring the electrical change connected to the plug electrode 10 or the negative electrode 11 of the source 1 to be input, it can be configured and used to operate the booster 2.

Here, the booster 2 is preferably composed of one battery having a voltage of 0.8V or more, and the reason of having a voltage of 0.8V or more is that the booster 2 operates when the voltage is 0.8V or more. If the performance of) is less than 0.8V, you can use the battery less than 0.8V. If the program IC (3) is operated by 5V, the general AAA size rechargeable battery is 1.2V and needs at least five. One or two or three or four can be used to construct the voltage source 1.

In addition, the booster 2 is used for the purpose of boosting the voltage of the voltage source 1 to operate the program IC 3, but the voltage of the voltage source 1 changes even if the voltage of the voltage source 1 changes due to the characteristics of the booster 2. It is used for the purpose of using the voltage of the voltage supply source (1) for a long time by using the characteristic that the step-up voltage of) is small. For example, if the program IC 3 operates at 4.5V, the general manganese battery AAA size is 3 In fact, AAA size batteries have a voltage of 1.6V, which is 4.8V. These 4.8V voltages become 4.5V when 0.3V is consumed, and when the voltage falls below 4.5V, the program IC (3) If one AAA size battery is used with the booster (2), the booster (2) will operate up to 0.8V, while one AAA size battery will consume 0.8V from 1.6V to 0.8V. booster( 2) will be able to use for a long time by supplying 4.5V to the program IC (3), the longer the use of more AAA size batteries, the longer the use of one 9V battery. .

A voltage supply source 1 for supplying a voltage to the booster 2;

An input switch 5 configured to transmit electrical changes to the input of the program IC 3 and the CE pin 12 of the booster 2 to operate the program IC 3;

In this case, the input switch 5 is preferably composed of a plurality of tact switches, and can be used by constructing a plurality of contact terminals on the outer surface of the case of the product so that a human hand or skin contacts the contact terminals.

In addition, the input switch (5) can be configured by using the switch matrix to use a plurality of text switches, and can be used as a keypad used in mobile phones and computers, it is configured to separate a plurality of switches using a diode and TR It can be configured using encoder and decoder, can be used as an input / output port and switch operated by program of program IC (3), and can be used as an A / D converter using a capacitor and coil. It can be configured and used as a D / A converter, and a separate circuit can be configured to check the capacitance and can be used in connection with the program IC (3).

In addition, the protection unit 6 is to reduce the influence of the interference between the circuits so that the signal is transmitted in one direction so that the input portion of the input switch 5 and the program IC 3 and the CE pin 12 does not interfere with each other. It is preferable to use a device that can apply voltage in one direction, such as a diode and TR, and can be used as a decoder and an encoder.

In this case, the input switch 5 is preferably configured by using a push switch and a Tact switch to operate by a physical force of a person. The input switch 5 may be composed of one or a plurality of switches. In the case of a plurality of switches, the input switch 5 may be configured using a switch matrix and a TR and a diode. A circuit using a separate boost voltage to configure the input switch 5 using the boosted voltage of the booster 2 by using the plus pole 10 and the minus pole 11 of the voltage source 1 for transmission. You do not need to configure.

Meanwhile, when the booster voltage is supplied from the booster 2, the booster 2 is transferred to the CE pin 12 through the control unit 13 so that the booster 2 continuously operates by the internal program. Is configured to operate and checks the state of the input switch 5 and the state of the electronic device 4 to operate the electronic device 4 and to block the electrical change of the control unit 13 at the end of the program booster (2) Program IC (3) which stops the operation by stopping the operation of C); In order to transmit the electrical change from the input switch 5, the electrical change is also transmitted to the protection unit 6 and the CE pin 12, so that the booster 2 and the program IC 3 are operated. Input switch by program (5) To grasp the state and to maintain the booster 2 through the control unit 13 and to operate the electronic device 4 according to the state of the input switch 5 and the state of the electronic device 4, the control unit ( 13), the operation of the booster 2 is stopped by blocking the signal, and the program IC 3 is configured to stop the operation so that the booster 2 can be controlled and the one voltage source 1 can be used. In this way, the control device of the booster can be configured to enable the miniaturization of the product.

The program IC 3 operates by receiving the voltage of the booster 2 and operates the CE pin 12 and the electronic device 4 of the input switch 5 and the booster 2 according to an internal program signal line 1 (7). And a digital signal through the signal line 2 (8) and the signal line 3 (9), or is configured to operate as an operation of the CE pin 12 and the electronic device 4 of the input switch 5 and the booster (2) You can control while knowing the state.

On the other hand, in operating the input switch 5 booster 2, by configuring the input switch 5 used by the positive pole 10 or the negative pole 11 of the voltage supply source 1 without using a separate boost voltage. The booster 2 can be controlled without using the boosted voltage of the booster 2. The plug pole 10 and the negative pole 11 of the voltage supply source 1 can be programmed using the program IC 3. When the switch is operated while being composed of a plurality of switches to send a signal to the protection unit 13, the plug pole 10 and the negative pole 11 of the voltage supply source 1, the program IC 3 and the protection unit 13 ) Are electrically connected to each other according to the switch configuration.

On the other hand, the above embodiment is only a description of a preferred embodiment of the present invention, the scope of application of the present invention is not limited to this, and can be changed as appropriate within the scope of the same idea. In addition, the shape and structure of each component specifically shown in the embodiment may be modified.

As described above, the present invention can be driven by a small number of voltage sources 1 to drive the program IC by cutting off the voltage discharged from the booster 2 when the booster 2 is not used for a long time. Since the number of voltage sources (1) can be used in a smaller number than the one used, the number of voltage sources (1) can be used, so that the volume of the product can be configured to be small. It is possible to construct a product having a volume, and to operate a booster 2, a program IC 3, and an electronic device 4 which are not operated due to a voltage cutoff, and a separate booster for operating the booster 2 The input switch 5 used by the plus pole 10 and the minus pole 11 of the voltage supply source 1 without using a voltage is used, without using the boost voltage of the booster 2. By allowing the booster 2 to be controlled, it is possible to have a high quality and a competitive product.

Claims (5)

Booster 2 is cut off while boosting of booster 2 is cut off to eliminate unnecessary discharge of booster 2 when electronics 4 are not in use and the program of electronics 4 is terminated when electronics 4 are used. It relates to a control device of the booster to operate. A booster 2 configured to operate only when an electrical change occurs in the CE pin 12; A voltage supply source 1 for supplying a voltage to the booster 2; An input switch 5 configured to transmit electrical changes to the input of the program IC 3 and the CE pin 12 of the booster 2 to operate the program IC 3; When the booster voltage is supplied from the booster 2, the booster 2 transmits an electrical change to the CE pin 12 through the control unit 13 so that the booster 2 continuously operates by the internal program. The booster 2 is configured to operate and check the state of the input switch 5 and the state of the electronic device 4 to operate the electronic device 4 and to block the electrical change of the control unit 13 when the program is terminated. Program IC (3) to stop the operation by stopping the operation of; to operate the program IC (3) to the input portion of the program IC (3), the operation is stopped while the booster (2) does not operate because the operation is stopped When the electrical change is transmitted from the input switch 5, the electrical change is also transmitted to the protection unit 6 and the CE pin 12 so that the booster 2 and the program IC 3 operate, and the program of the program IC 3 is transmitted. Phase of the input switch 5 by The controller 13 maintains the booster 2 through the controller 13 and operates the electronic device 4 according to the state of the input switch 5 and the state of the electronic device 4, and then terminates the program. The control device of the booster to control the booster (2) by blocking the signal to stop the operation of the booster (2) to the program IC (3) to stop the operation. According to claim 1, when the electrical switch is transmitted from the input switch 5 to operate the program IC 3 to the input portion of the program IC 3 which does not operate because the booster 2 does not operate, The electrical change is also transmitted to the CE pin 12 so that the booster 2 and the program IC 3 operate, and the state of the input switch 5 is determined by the program of the program IC 3, and the control unit 13 The booster 2 is maintained by operating the electronic device 4 according to the state of the input switch 5 and the state of the electronic device 4 and then blocking the signal to the control unit 13 to terminate the program. And the program IC (3) stops the operation of the booster. The control device of the booster according to claim 1, wherein the CE pin (12) is used to control the booster (2). The control device of the booster according to claim 1, wherein the booster (2) is controlled through a protective part (6) and a control part (13) during the operation of the input switch (5). The input switch 5 according to claim 1, which uses a positive pole 10 and a negative pole 11 of the voltage source 1 to transmit an electrical change, which does not use the boosted voltage of the booster 2. Control device of the booster, characterized in that.