KR101360762B1 - Discharge apparatus for power-saving standby mode - Google Patents

Abstract

The present invention relates to a discharge device for implementing a low-power standby mode. The device includes: a regulator which is connected to a microcomputer which operates in a standby mode, converts the input power to driving power for the microcomputer, and outputs the power to the microcomputer; a voltage dividing unit which includes a first resistance of which one end is connected to the input terminal of the regulator and a second resistance which is connected to the other end of the first resistance; an OP amp of which the inverting input terminal is connected to a node between the first and the second resistance of the voltage dividing unit, of which the non-inverting input terminal is connected to the output terminal of the regulator, and which outputs a high-level or low-level signal according to the voltage applied to the first and the second resistance; and a transistor of which the base terminal is connected to the output terminal of the OP amp, of which the emitter terminal is connected to the ground, and which receives the input power through the collector terminal so that if a low-level signal is outputted by the OP amp, it is turned off and if a high-level signal is outputted by the OP amp, it is turned on. Since almost no current is consumed in the standby mode, it is possible to implement a low-power standby mode so that if an AC switch is turned off or an adaptor is pulled out from an electrical outlet, a set enters an AC off mode immediately. As a result, it is possible to cope with the low-power standby mode regulations which will be intensified to, for example, under 0.1 W. [Reference numerals] (101) Microcomputer; (102) Regulator, ex)LDO

Description

Discharge apparatus for power-saving standby mode

The present invention relates to a discharge device for implementing a low power standby mode, and more particularly, it is possible to implement a low power standby (Standby) mode so that little current consumption in the standby mode, the AC switch (switch in the standby mode) The present invention relates to a discharge device for implementing a low power standby mode, in which the set enters the AC off state immediately when the power supply is turned off or the adapter is disconnected from the outlet.

Previously, standby power regulation was not severe in standby mode, but standby power regulation became even more severe in January 2013. For example, in Europe, standby power was previously under 1W, but from January 7, 2013, it was further enhanced to under 0.5W (Energy related Products, ErP).

If only 1W needs to be satisfied, even if the discharge resistor is always connected and AC off in standby mode, the charge charged in the SMPS or the adapter is discharged through the discharge resistor. Entered off state.

When only 1W is satisfied, even if the discharge resistance consumes a certain amount of power in the standby mode, it can be satisfied. However, the 0.5W regulation does not satisfy the standard with the discharge resistance that is always consumed.

To achieve low power standby mode, the set must consume minimal power in standby mode.

In general, only one low-power micom operates during the standby mode and only one external display LED displays for standby.

In this state, all other parts (main part) should be turned off and minimize unnecessary leakage current to realize ultra low power standby mode.

In low-power standby mode, even if the user turns off the product's AC switch, the LED does not turn off immediately but stays on for a while. This means that although the AC switch is turned off, it takes a long time for the charge charged in the SMPS to discharge through one LED.

In addition, the part where the set is still on even after the power is turned off or the AC switch is turned off can be confusing to the user, and the set will be reset if the AC switch is quickly turned off. It will stay in Standby state without booting, and the user may be mistaken for bad booting.

Since the charges in the SMPS or the adapter are high and the current consumed by the low power mode is very small, it takes much time for all the charges in the SMPS or the adapter to be discharged.

Conventionally, to solve this problem, a discharge resistor was added between the power supply and the ground (GND) in the form of a pull down, but this method consumes a constant current even in the standby mode, and thus, an ultra low power mode such as 0.5W is used. It cannot be implemented.

According to the present invention, a low power standby mode can be realized by consuming little current in the standby mode, and a discharge circuit operates when the AC switch is turned off or the adapter is disconnected from the outlet in the standby mode. The set will immediately enter the AC off state.

Regulation is expected to intensify in the future, and discharge circuit is more important to satisfy 0.1W in the future.

The present invention has been developed to solve the above problems, it is possible to implement a low-power standby (Standby) mode so that almost no current consumption in the standby mode, off the AC switch (switch) in the standby mode (off) The purpose of the present invention is to provide a discharge device for low power standby mode implementation, whereby the set enters the AC off state immediately when the adapter is disconnected from the outlet.

Discharge device for implementing a low power standby mode according to the present invention for achieving this object,

A discharge device for realizing a low power standby mode connected to a micom operating in a standby mode, wherein the regulator is connected to the micom and converts input power into the micom driving power to output to the micom, the regulator A voltage divider configured of a first resistor having one end connected to an input terminal of the second resistor and a second resistor connected to the other end of the first resistor, and an inverting input terminal at a branched point between the first resistor and the second resistor of the voltage divider; An OP amplifier connected to a non-inverting input terminal connected to an output terminal of the regulator and outputting a high level signal or a low level signal according to a voltage applied to the first resistor and the second resistor; and an output terminal of the OP amplifier. Is connected to the base terminal, the emitter terminal is connected to ground, and the input power is applied from the collector terminal. Ah is turned off (turn off) when the low level signal output from the OP amplifier, characterized by comprising an high level signal when the output is turned on (turn on) the transistor is of the OP amplifier.

Preferably, to adjust the discharge current value, characterized in that it further comprises a third resistor provided between the input power supply and the collector terminal of the transistor.

The present invention enables the low power standby mode to be implemented in the standby mode with little current consumption, and when the AC switch is turned off or the adapter is disconnected from the outlet in the standby mode. By allowing the set to enter the AC off state immediately, there is an effect to cope with more advanced low-power standby regulations such as 0.1W in the future.

1 is a view showing the configuration of a discharge device for implementing a low power standby mode according to the present invention
2 is a voltage-time relationship diagram of a discharge device for implementing a low power standby mode according to the present invention.

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

It is to be understood, however, that the embodiments described below are only for explanation of the embodiments of the present invention so that those skilled in the art can easily carry out the invention, It does not mean anything.

In order to clearly illustrate the present invention, portions which are not related to the description have been omitted, and like reference numerals have been assigned to similar portions throughout the specification.

Throughout the specification and claims, when a section includes a constituent, it is intended that the inclusion of the other constituent (s) does not exclude other elements unless specifically stated otherwise.

1 is a view showing the configuration of a discharge device for implementing a low power standby mode according to the present invention.

As shown in FIG. 1, the device is a discharge device for realizing a low power standby mode connected to a micom 101 operating in a standby mode, and is connected to the micom 101 to input power. Regulator 102 converting the power into the microcomputer 101 driving power to be output to the microcomputer 101, a first resistor having one end connected to an input terminal of the regulator 101, and a second resistor connected to the other end of the first resistor. A voltage divider 103 composed of two resistors, an inverting input terminal is connected to a branched point between the first resistor and the second resistor of the voltage divider 103, and non-inverted to an output terminal of the regulator 102. An OP terminal 104 connected to an input terminal and outputting a high level signal or a low level signal according to a voltage applied to the first resistor and the second resistor, and a base terminal connected to an output terminal of the OP amplifier 104. Become this Terminal is connected to ground, the input power is applied from a collector terminal, and is turned off at the low level signal output of the OP amplifier 104, and is turned on at the high level signal output of the OP amplifier 104. The structure includes a transistor 105 that is turned on.

In addition, the third resistor R1 is disposed between the input power supply and the collector terminal of the transistor 105 to adjust the discharge current value.

2 is a voltage-time relationship diagram of a discharge device for implementing a low power standby mode according to the present invention.

Hereinafter, an operation of the discharge device for implementing the low power standby mode according to the present invention of FIG. 1 will be described with reference to FIG. 2.

First, an adapter usually uses a short power supply, and in the case of SMPS, a short power supply is used for efficiency, but this may vary depending on a system.

Assuming a 12V short power supply, a drive power supply for the micom 101 is typically created with a regulator 102, for example, an LDO or a DC / DC converter, to implement a low power standby mode.

In standby mode, only one micom operates and all other main boards and power are turned off, and both the display and the VFD or 7-seg are turned off. Only one indicator LED for standby status is turned on.

At this time, all unnecessary leakage current should be removed and selection of LDO and DC / DC converter is also very important.

For LDOs, IQ (Quiescent Current) must be very low, and for DC / DC converters, select products with high efficiency at light load.

As mentioned above, the two most important things in low power mode design are:

1. In standby mode, the discharge circuit should consume as little current as possible.

2. When the AC cord is unplugged or the AC switch is turned off, the product should be turned off immediately.

1 is a discharge circuit satisfying the above two conditions.

For example, if the micom 101 uses a 5V power supply, the regulator 102, that is, the input terminal of the LDO or the DC / DC converter maintains the output 5V until Vdrop (about 1 to 2V) or more.

In other words, even if the 12V power supply drops to 7V, the micom 101 continues to operate.

The micom 101 will not operate anymore, but the LED will remain on.

The LED stays on as long as the power remains above the VF of the LED.

Each time constant can be different according to the conditions of the set. For example, the operation is explained as follows.

R1: 100 Ohm, R2 = R3 = R4 = R5 = R6 = 100KOhm.

If R4 = R5, a voltage equal to 1/2 of the input power is formed at the inverting input terminal of the OP amplifier 104 (a large value resistor must be used to minimize current consumption).

In the case of a 12V input supply, 6V is formed.

In the non-inverting input terminal of the OP amplifier 104, 5 V, which is an output voltage of the regulator 102, is formed.

At this time, a low output is output to the output terminal of the OP amplifier 104 so that the discharge circuit does not operate (voltage of OP1.6> voltage of OP1.5 = OP1.7 = GND output and voltage of OP1.6 <OP1). Voltage of .5 = 12 V output for OP1.7).

When the AC cord is plugged in or the AC switch is turned off in the standby state, the power supply of 12 V is gradually dropped as shown in FIG. 2.

When the 12V power supply of R4 drops to approximately 10V or less, the op amp 104 inverting input terminal has a voltage of 5V or less.

However, the op amp 104 non-inverting input terminal maintains 5V until Vin is 7V or 8V.

That is, the voltage of the inverting input terminal of the OP amplifier 104 <the voltage of the non-inverting input terminal of the OP amplifier 104 = 12 V output condition is formed.

Then, the 12V is output to the output terminal of the OP amplifier 104, the transistor 105 is turned on (turn on) to operate the discharge circuit.

When the transistor 105 is turned on, it discharges under the condition of I = V / R, and 12V drops rapidly while being discharged as shown by the dotted line shown in FIG. 2.

Example: Assuming that 12V drops to 9V, the discharge current is rapidly discharged with the discharge current I = [9V-0.4V (Vce)] / 100 = 86mA.

Normally, the standby current (Standby) consumes about 10mA of the current consumed by Micom and LED, so 86mA is enough, and this can be optimized by setting the resistance value of R1.

That is, the resistance values of R1 to R6 may be optimized for the system.

As described above, the present invention enables the low power standby mode to be implemented by almost no current consumption in the standby mode, and turns off the AC switch or the adapter outlet in the standby mode. When subtracted from the device, the set is immediately placed in the AC off state, allowing for more advanced low-power standby regulations such as 0.1W.

Description of the Related Art [0002]
101: micom 102: regulator
103: voltage divider 104: OP amplifier
105: transistor

Claims (2)

In the discharge device for implementing a low power standby mode connected to the Micom (Micom) operating in the standby mode (Standby),
A regulator connected to the micom and converting input power into the micom driving power to output the micom;
A voltage divider comprising a first resistor having one end connected to an input terminal of the regulator and a second resistor connected to the other end of the first resistor;
An inverting input terminal is connected to a branched point between the first resistor and the second resistor of the voltage divider, and a non-inverting input terminal is connected to an output terminal of the regulator to supply a voltage applied to the first resistor and the second resistor. An OP amplifier for outputting a high level signal or a low level signal accordingly; And
A base terminal is connected to an output terminal of the OP amplifier, an emitter terminal is connected to ground, and the input power is applied from a collector terminal to turn off when outputting a low level signal of the OP amplifier. Discharge device for implementing a low power standby mode comprising a transistor that is turned on (on) when the high level signal output of the amplifier. The method of claim 1,
And a third resistor disposed between the input power source and the collector terminal of the transistor to adjust a discharge current value.

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