KR100396598B1 - Standby apparatus for extra power saving with a remote control - Google Patents

Abstract

According to the present invention, a remotely controllable ultra-power saving standby device may include an external power source that is separately mounted to a home appliance for supplying standby power as needed from an external device capable of remote control, and is input through the external power source. A voltage polarity converting means for converting an external power source into a constant voltage polarity, a microcomputer for controlling the supply of main power according to a remote reception signal by operating an input external power at a predetermined voltage, and the external power supply; A main power switching means for switching the main power supply to the main power circuit and switching off according to a user's request if the source is not connected, and when the main power is supplied according to the control signal of the microcomputer, Means for switching from a power source to a main power source and operated by said external power source It characterized in that it comprises a display means for informing the user whether the operation of the microcomputer.

According to the present invention, when the home appliance is not in use, the power consumption by the standby power is cut off, and if the battery of the mobile phone or PCS, which is frequently used for portable use as an external power source, microcomputer remote control function The present invention provides an ultra-power saving standby device that can be remotely controlled to control the supply and interruption of main power according to a remote control signal.

Description

Standby apparatus for extra power saving with a remote control

The present invention, in the home appliance, in particular, the remote control to cut off the main power supplied to the remote control standby circuit and to be driven by an external power source so that the main power can be supplied according to the remote control signal This relates to a possible ultra low power standby device.

Recently, every home has more than one TV, and the competition of the TV is intensifying and the environmental problem has been raised as a social problem. It keeps powering the standby circuit for remote control. This is a factor that not only wastes resources but also adversely affects the environment since power is continuously supplied even when the viewer is not watching TV. This will apply not only to TV but also to home appliances such as audio devices and computers that can be remotely controlled.

A standby circuit in a conventional TV will be described with reference to FIG. 1.

An AC socket 1, a first rectifying unit 2 for rectifying main power supplied from the AC socket 1, a switched mode power supply (SMPS) 3 for switching and outputting the rectified power; And a transformer 4 for converting the voltage into a voltage required by the internal winding ratio according to the switching of the SMPS 3, and a second rectifying unit rectifying and outputting the output voltage of the transformer 4 into various DC output voltages. (5), an auxiliary transformer 6 for converting power supplied from the power plug 1, a third rectifying unit 7 for rectifying the output voltage of the auxiliary transformer 6, and the third rectifying unit ( The microcomputer 8 which operates by the rectified voltage of 7) and controls the standby and main power supply by a remote control signal, the transistor 9 which switches on and off by the microcomputer 8, and the said transistor 9 It is composed of a relay (10) for switching the main power supply when switching off.

A standby circuit of a conventional TV configured as described above will be described with reference to the accompanying drawings.

The power supplied to the TV set from the AC socket 1 is rectified by the third rectifier 7 through the auxiliary transformer 6 so as to receive remote control, and is then supplied to the microcomputer 8 at a constant voltage. 8) always operates with a constant voltage regardless of the TV status.

When the TV is turned on by the remote controller, the microcomputer 6 recognizes the signal and outputs a driving signal to the base of the transistor 9 to turn it on. When the transistor 9 is connected, the relay 10 connected to the collector is turned on. By switching on the switching contact, the main power input from the AC socket 1 is input from the first rectifying section 2 and rectified. Here, the relay 10 has a power supply side connected to one terminal and a first rectifying unit 2 connected to the other terminal, so that the main power is supplied when the switching contact is turned on.

The first rectifier 2 rectifies the AC power input and outputs the SMPS 3 to the SMPS 3. The SMPS 3 switches the rectified voltage to correspond to the internal winding ratio on the secondary side of the transformer 4. The AC power is induced and the AC power induced on the secondary side of the transformer 4 is outputted through various types of DC voltages required for the load through the second rectifier 5.

On the other hand, when the TV power is turned off, the microcomputer 8 outputs a switching off signal by the remote control signal, the transistor 9 is turned off by the switching off signal, and the collector 9 is turned off due to the transistor 9 being turned off. When the relay 10 connected to the switch switches off the switching contact, one line of the AC socket 1 is cut off by the relay 10, and the supply of main power is cut off.

However, since a certain voltage is always supplied to the microcomputer 8 for remote control such as power supply of a TV, there is a problem that power is always consumed because it is connected to a power plug or a socket even when the TV is not watched.

As such, the power consumed by the standby control circuit, which is always supplied with a constant voltage inside the home appliance for remote control, causes problems such as environmental problems and power wastage, thereby adversely affecting the environment. .

The present invention has been made to solve the above-mentioned conventional problems, it is possible to operate when the user is supplied when necessary by using a battery of a cordless phone or PCS which is currently used a lot of portable as an external power source and to the remote control signal Accordingly, it is possible to control supply and interruption of main power, and to provide an ultra-power saving standby device that can be remotely controlled so that there is no power consumption in a state of not watching TV, that is, in a standby state.

In addition, the present invention provides an ultra-power saving standby device that can be remotely controlled so that the main power is used as the standby power and the remote control at the same time that the main power is supplied, and the external power source can be charged to the main power. There is a purpose.

It is also an object of the present invention to provide a remotely controlled ultra-power saving standby device that supplies main power through a main power switch when there is no external power source and enables remote control after the main power supply.

1 is a circuit configuration diagram showing a standby device capable of conventional remote control.

2 is a view for coupling an external power source to a TV according to an embodiment of the present invention.

Figure 3 is a block diagram showing a super low-power standby device capable of remote control according to an embodiment of the present invention.

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

100 ... TV 101 ... External Power Case

102 External power source 111 Voltage polarity converter

112.Voltage adjustment section 113.External power display section

114 ... Microcomputer 115 ... Fixed Divider

Switching element 117 Relay

118.Voltage stabilizer 119,121,124 Rectifier

120 ... AC socket 122 ... SMPS

123 ... trans 125 ... mains switch

In order to achieve the above object, a remote control ultra-power saving standby device according to the present invention, an external power source separately mounted to the home appliance for supplying a predetermined power supply from the outside of the home appliance capable of remote control, and the external power source A voltage polarity converting means for converting an external power source input through the source into a predetermined polarity; a microcomputer for controlling the supply of main power according to a remote reception signal by operating by receiving an input external power with a predetermined voltage; A main power switching means for switching main power to a main power circuit and switching off according to a user's request if the external power source is not connected; and operation of the microcomputer when main power is supplied according to a control signal of the microcomputer Means for switching a voltage from the external power source to a main power source, and by the external power source The presence or absence of the operation to start the microcomputer is characterized in that it comprises display means for informing the user.

Preferably, the main power supply unit divides the voltage level of the external power source and outputs it to the microcomputer, and when the divided level is equal to or less than the reference level, the main power is input by the microcomputer to generate a predetermined charging voltage. And means for charging an external power source connected to the polarity converting means.

Preferably, the external power source includes an external power source case mounted on a home appliance, a power spring for adjusting a gap between the plus and minus terminals to be in contact with the external power source, and an external power source. It characterized in that it further comprises an LED emitting light when mounted.

Hereinafter, with reference to the accompanying drawings as follows.

2 is a view for coupling an external power source to a TV according to an embodiment of the present invention, Figure 3 is a block diagram showing a super power saving standby device that can be remotely controlled according to an embodiment of the present invention.

2 and 3, the external power source case 101 coupled to the TV case 100 and the terminals 104 and 105 of the power spring 103 inside the case 101 are in contact with each other. The external power source 102, which is detached and attached, the voltage polarity converting unit 111 for converting the external power source 102 to a constant polarity, and the voltage output from the voltage polarity converting unit 111 to a constant voltage. The voltage adjusting unit 112 to adjust, the display unit 113 for indicating that the external power source 102 is normally input, and operates with the adjusted voltage to shut off and supply the main power and to supply the main power when the main power is supplied. The microcomputer 114 for controlling the charging of the external charging source by using, a fixed divider 115 for dividing the external power source voltage from the voltage polarity converting unit 111 to the microcomputer 114, and the microcomputer ( Powering on and off by mains A transistor 116 and a relay 117, a voltage stabilizer 118 that operates when the main power is supplied and outputs a part of the main power at a stable voltage, and an output voltage of the voltage stabilizer 118 is rectified. First rectifying unit 119 for charging the external power source 102 by applying to the voltage polarity converting unit 111 and a second rectifying unit rectifying when the main power is supplied from the AC socket 120 by relay switching ( 121, a SMPS 122 for outputting the voltage rectified by the second rectifier 121 as a stable switching power supply, and a transformer 123 for converting the output of the SMPS 122 into a voltage required for a load; The rectifier 124 is configured to rectify the output of the transformer 123 to supply a DC voltage to the load, and a main power switch 125 for the user to supply and cut off power from the outside.

Referring to the accompanying drawings, a remote control ultra-power saving standby device according to the present invention configured as described above is as follows.

An external power source case 101 is installed in the TV case 100 and an external power source 102 is installed in the case 101 by attaching an external power source 102 such as a battery pack of a PCS or a cordless phone. This creates a path that can provide stand-by power.

In addition, when the external power source 102 is normally mounted, the LED 43 is turned on. When the contact of the power spring 103 is difficult, the distance between the plus / minus terminals 104 and 105 is adjusted to the outside. The power source 102 is in precise electrical contact.

The external power source (Vcc) 102 is input to the voltage polarity converting unit 111 of FIG. 3, and the voltage polarity converting unit 111 converts and outputs a constant voltage polarity for a voltage input and output at all times. The polarity converting unit 111 is connected to both terminals of the external power source 102 in the forward and reverse directions, respectively, so that a voltage having a constant voltage polarity is always output.

When a constant voltage polarity is output through the voltage polarity converting unit 111, the voltage is set by the resistor R11, the zener diode ZD11, and the capacitor C11 of the voltage adjusting unit 112. After adjusting to the voltage that can be input to the ()) is input to the microcomputer 114 through the diode (D11).

When the microcomputer 114 operates as the external power source 102 to output a high pulse signal to the display unit 113, the display unit 113 switches the transistor 113a to emit an LED connected to the collector. . This informs the microcomputer 114 that a normal voltage has been applied.

When the microcomputer 114 operating by the external power source 102 receives the TV on signal by the remote control signal, the microcomputer 114 outputs a switching on signal to the transistor 116 to supply the main power to the relay 117. The main power source input from the AC socket 120 is connected to the switching-on contact, and the main power circuit, that is, the first rectifier 121, the SMPS 122, the transformer 123, and the second rectifier ( 124, the voltage required for the load is supplied to turn the TV ON.

At this time, when the main power is supplied, since the voltage rectified through the second rectifying unit 124 is applied to the microcomputer 114 through the diode D13, the operating power of the microcomputer 114 is supplied from the external power source 102. Switching is performed through D11 and D13, and main power is supplied.

As described above, when the microcomputer 114 operates by the main power source, the microcomputer 114 divides the current voltage level of the external power source 102 input through the voltage polarity conversion unit 111 into the fixed divider 115 and then divides the microcomputer 114. Is entered. Then, the microcomputer 114 calculates the voltage of the external power source 102 to know the capacity of the power source and to charge the voltage corresponding to the voltage.

To this end, when the microcomputer 114 controls and operates the voltage stabilizer 118, the voltage stabilizer 118 is outputted with a stable voltage after the main power is input, and the output voltage is the third rectifier 119. After rectifying from the capacitor (C12) and diode (D14) of the voltage is applied to the voltage polarity converting unit 111 with a charging voltage. Then, the external power source 102 connected to the voltage polarity converting unit 111 is charged with the charging voltage. Thereafter, whether or not the battery is fully charged is determined by receiving a voltage level applied from the fixed divider 115.

On the other hand, if the remote control signal is a TV off signal, the microcomputer 114 outputs a low signal to the transistor 116 to turn off, and the relay 117 is switched to a switching off contact due to the off of the transistor 116, the AC socket The input main power of 120 is not input to the main power circuits 121, 122, 123, and 124.

In addition, when the user does not have an external power source 102, by turning on and off the main power switch 125, the main power input to the AC socket 120 is input to the main power circuit (121 ~ 124). Can cut off and switch supply. At this time, when the main power is supplied by the switch-on of the main power switch 125, the microcomputer 114 operates normally to perform a remote control operation.

Therefore, in a home appliance (TV, computer, etc.) that can be remotely controlled, the power supply required for remote control only at the time when the remote control is needed, that is, when the user is present, is used as the external power source of the battery power of the mobile phone or terminal. By operating the internal standby circuit and receiving a remote control signal, the remote control function is enabled, and when there is no external power source, remote control can be performed after supplying the main power using the main power switch. It would be.

In addition, after the main power is supplied to the microcomputer power source from the external power source to the main power source to charge the external power source.

As described above, in the present invention, the ultra-power saving standby device capable of remote control enables the user to use an external power source as a standby power supply only when the user needs it, so that the user does not need to supply power to the remote control-enabled home appliances at all times. Battery power, such as a portable terminal or PCS, is used as an external power source for remote control only at the time of existence, thereby eliminating power wastage when not using home appliances.

In addition, it is possible to use a remote controller without a standby circuit inside the home appliances that can be remotely controlled, and also to charge the external power source after the main power is supplied.

In addition, even if the polarity of the external power source is changed, the voltage polarity can always be input / output constantly, there is an effect that can be operated without abnormality in the circuit.

Claims (7)

An external power source that is separately mounted to the appliance to supply standby power as needed from outside the appliance that can be remotely controlled, Voltage polarity conversion means for converting an external power source input through the external power source into a constant voltage polarity; A microcomputer for controlling the supply of main power according to a remote reception signal by operating by receiving input external power at a predetermined voltage; A main power switching means for switching main power to a main power circuit and switching off according to a user's request if the external power source is not connected; Means for switching the operating voltage of the microcomputer from the external power source to the main power when the main power is supplied according to the control signal of the microcomputer; And a display means for informing the user of the operation of the microcomputer operated by the external power source. delete 2. The apparatus of claim 1, further comprising: a means for dividing a voltage level of an external power source and outputting the voltage to a microcomputer when the main power is supplied; And a means for charging the external power source connected to the voltage polarity converting means by making the charging voltage of the ultra-power saving standby device possible. delete The external power source of claim 1, wherein the external power source includes an external power source case mounted to a home appliance, a power spring for adjusting a distance between the case when the plus and minus terminals are in contact with the external power source, and an external power source. An ultra-power saving standby device, which can be remotely controlled, further comprising an LED emitting light when the source is mounted. The ultra-power saving standby device of claim 1, wherein the microcomputer performs a remote control function when at least one of an external power source and a main power is supplied. The ultra-power saving standby device according to claim 1, wherein the external power source is a battery used in a portable terminal and a PCS.