KR980011647A - Heater power supply and method by viewer detection - Google Patents

Abstract

The present invention relates to an apparatus and method for supplying power to a heater by detecting a viewer, and conventionally, since the thermoelectrons are not normally discharged until the rear end of the cathode ray tube reaches a predetermined temperature by the heater after the operation power of the television receiver is turned on, And maintained a dark state for a certain period of time. In order to overcome this problem, in a case where a viewer is present in front of a television receiver while the television receiver is kept in a standby state, operating power can be supplied to a heater installed at the rear of the cathode ray tube, And a heater power supply device and method by sensing the viewer to brighten the screen.

Description

Heater power supply and method by viewer detection

Since this is a trivial issue, I did not include the contents of the text.

FIG. 1 is a block diagram showing a configuration of a general television receiver; FIG.

FIG. 2 is a circuit diagram for heating a heater of a conventional cathode ray tube. FIG.

FIG. 3 is a graph showing a relationship between a heater voltage and an electron emission amount according to the related art.

4 is a circuit diagram according to the present invention;

FIG. 5 is a flowchart for explaining an operation state of the present invention; FIG.

DESCRIPTION OF THE REFERENCE NUMERALS

11: Horizontal drive transformer 12: Transformer for generating high voltage

13: cathode ray tube 14: cathode ray tube

15: heater 16: horizontal deflection coil

17: Standby power supply 18: Microprocessor

19: viewer detection unit TR: horizontal transistor

D: Diode

DETAILED DESCRIPTION OF THE INVENTION [

[Object of the invention]

[TECHNICAL FIELD OF THE INVENTION AND RELATED ART OF THE SAME]

More particularly, the present invention relates to a method and apparatus for supplying power to a heater installed in the rear of a cathode-ray tube when a viewer is present in front of the television receiver while the television receiver is in a standby state, And more particularly, to a heater power supply apparatus and method by viewer detection.

1, a television receiver includes a tuner 101 for receiving a broadcast signal of a channel selected by a channel selection voltage output from a microprocessor 19, a video processing unit for processing a video signal of the received broadcast signal, A video signal amplifying unit 103 for amplifying a video signal outputted from the video signal processing unit 102 and a video signal amplifying unit 103 for receiving a video signal outputted from the video signal amplifying unit 103, A voice signal processor 105 for processing voice signals output from the video signal processor 102 and a voice signal amplifier 106 for amplifying a voice signal output from the voice signal processor 105, A speaker 107 for receiving and outputting a voice signal outputted from the voice signal processing unit 106 and a display control unit 106 for displaying a display on the screen by a vertical / A vertical / horizontal deflection unit 108 for vertically / horizontally deflecting a video signal to be lined up, and a microprocessor 109 for controlling the overall operation of the television receiver in accordance with the operation of the keypad 110 or the operation of the television receiver have.

When the television receiver configured as described above operates the keypad 110 to select a channel to be viewed, the microprocessor 109 recognizing the selected channel generates a channel selection voltage VT corresponding to the selected channel and applies the selected channel selection voltage VT to the tuner 101, (101) receives the broadcast signal of the selected channel and supplies the video signal processing unit (102).

Then, the video signal processing unit 102 separates the video signal and the audio signal from the broadcast signal, supplies the audio signal to the audio signal processing unit 105, processes the video signal, and supplies the processed video signal to the video signal amplifying unit 103 .

The video signal amplifying unit 103 amplifies the video signal up to a level capable of being displayed on the cathode ray tube 104, and supplies the amplified video signal to the cathode ray tube 104. Thus, the video signal transmitted from the broadcasting station is displayed on the screen, You can.

At this time, the image signal displayed on the cathode ray tube 104 is deflected in the vertical / horizontal direction on the basis of the vertical / horizontal synchronizing signal separated by the vertical / horizontal synchronizing signal processor 108.

The audio signal processor 105 receiving the audio signal output from the video signal processor 102 applies the processed audio signal to the audio signal amplifier 106 so that the audio signal amplified by the audio signal amplifier 106 And is output through the speaker 107, so that it is possible to listen to the audio signal together with the video signal.

In the cathode ray tube of such a television receiver, a heater is installed to generate thermoelectrons to be scanned on the screen. This will be described in more detail with reference to FIG. 2, When the horizontal drive pulse is supplied to the base side of the horizontal transistor TR and the horizontal transistor TR operates, a current flowing on the primary side of the high voltage generating transformer 103 flows to the horizontal flat coil 102, The high voltage generated in the secondary side coil L1 of the high voltage generating transformer 103 is supplied to the cathode 104 side of the cathode ray tube 105 via the diode D.

The heater heating power generated in the secondary side coil L2 of the high voltage generating transformer 103 is supplied to the heater 106 provided on the rear side of the cathode ray tube 105 through the resistor R. [

Accordingly, the thermoelectrons generated from the electron gun are scanned on the fluorescent screen of the cathode ray tube 105 to form a screen.

However, as shown in FIG. 3, since the thermoelectrons are not normally emitted until the rear end of the cathode ray tube is heated to a predetermined temperature by the heater after the operation power of the television receiver is turned on as shown in FIG. 3, And then gradually brightened after a certain period of time.

That is, it takes a long time for the thermoelectrons to be normally discharged by the heater voltage supplied from the high-voltage generating transformer, so that the screen of the television receiver is not brightened together with the main power supply.

[Technical Problem]

SUMMARY OF THE INVENTION The present invention has been made in order to solve the drawbacks of the prior art as described above, and it is an object of the present invention to provide an apparatus and method for supplying operating power to a heater installed in the rear of a cathode ray tube when a viewer is present in front of the television receiver while the television receiver is kept in a standby state And to provide a heater power supply device and method for detecting a viewer by allowing a viewer to brighten the screen within a short time after the main power is supplied.

According to an aspect of the present invention, there is provided a method of controlling a display device including a process of detecting a viewer, a process of determining whether a viewer is present, a process of keeping the heater operation power off when there is no viewer, The main power is supplied to the television receiver, and when the main power is supplied while the heater power is being supplied, the heater operation power is switched to the off state.

That is, the present invention provides a plasma display device comprising a horizontal drive transformer adapted to generate a horizontal drive pulse, a horizontal transistor adapted to be operated by the horizontal drive pulse, and a horizontal transistor coupled to the collector side of the horizontal transistor, And a high voltage generating transformer connected to the collector side of the horizontal transistor and connected to the primary side coil and adapted to supply a high voltage generated from the secondary side coil to the cathode of the cathode line, A control means for controlling the switching means to determine whether there is a viewer on the front side of the television receiver by receiving the output of the viewer detecting means, Output switching The switching operation by the arc is characterized by doeeojim configure the power output from the standby power supply terminal to the switching means which is arranged to supply to the heater of the cathode ray.

[Structure and operation of the invention]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a configuration according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIG. 4, the present invention includes a horizontal drive transformer 11 for generating a horizontal drive pulse, a horizontal transistor TR operated by the horizontal drive pulse, A horizontal deflection coil 16 for horizontally deflecting the thermoelectrons and a primary side coil L connected to the collector side of the horizontal transistor TR and a high voltage generated from the secondary side coil L1 to a cathode ray tube 13 And a high pressure generating transformer (12) for supplying a high voltage to the cathode (14) of the television receiver (14), the television receiver comprising: a viewing detection unit (19) It is determined whether there is a viewer on the front side and a switching signal corresponding to the switching signal is switched by a switching signal outputted from the microprocessor 18 and the microprocessor 18, The power output from the stage 17 consists of a transistor (TR1) to be supplied to the heater 15 of the cathode ray tube (13).

FIG. 5 is a flowchart showing an operation state of the present invention, which includes a process of detecting a viewer, a process of determining whether a viewer is present, a process of keeping the heater operation power off when there is no viewer, The main power is supplied to the television receiver while the main power is supplied to the television receiver while the main power is supplied while the heater power is being supplied.

The function of the present invention thus constructed will be described.

The present invention detects a viewer on the front side of the television receiver by the viewer detecting unit 19 installed on the front side of the TV receiver while the TV receiver maintains the standby state and supplies the detection signal to the microprocessor 18 .

Then, the microprocessor 18 receives the sensing signal supplied from the viewer sensing unit 19 and determines whether there is a viewer in front of the television receiver. Then, a corresponding switching signal is generated and supplied to the base side of the transistor TR1. That is, when it is determined by the detection signal supplied from the viewer detection unit 19 that there is no viewer in front of the television receiver, a low-level switching signal is generated and supplied to the base side of the transistor TR1, Level switching signal and supplies it to the base side of the transistor TR1 when it is determined that a viewer is present in front of the television receiver by the sensing signal supplied from the controller 19.

Therefore, when the transistor TR1 is operated by the presence or absence of a viewer while the television receiver is kept in the standby state, the transistor TR1 is supplied to the heater 13 of the cathode ray tube 13 through the power supply diode D output from the standby power supply terminal 17 And the temperature of the heater 15 is increased.

As described above, when the television receiver is in the standby state and there is a viewer on the front of the television receiver, when the main power of the television receiver is supplied with the key input while the operating power is supplied to the heater 15, When the horizontal drive pulse generated in the transformer 11 is supplied to the base side of the horizontal transistor TR and the horizontal transistor TR operates, the current flowing in the primary coil L of the high- The high voltage generated in the secondary side coil L1 of the high voltage generating transformer 12 is supplied to the cathode 14 side of the cathode ray tube 13 via the diode D .

The heater heating voltage (6.3 V) generated in the secondary side coil L2 of the high voltage generating transformer 12 is applied to the heater 15 provided on the rear side of the cathode ray tube 13 through the resistor R .

Of course, the power supplied from the standby power supply terminal 17 during the standby state is shut off.

Therefore, since the operation power supplied to the heater 15 of the cathode ray tube 13 is supplied before the main power of the television receiver is supplied, the heating time of the heater 15 can be reduced.

5, when the main power of the television receiver is not supplied, the microprocessor 18 maintains the standby state (S1) while the main body of the television receiver is not supplied with the detection signal (S2), it is judged whether there is a viewer in front of the television receiver (S3).

As a result, when it is determined that there is no viewer in front of the television receiver, a low-level switching signal is generated and applied to the base of the transistor TR1, so that the power outputted from the standby power source terminal 17 is supplied to the cathode- The supply to the heater 15 is blocked (S7).

On the other hand, when it is determined that a viewer is present in front of the television receiver, a high-level switching signal is generated and applied to the base of the transistor TR1, so that the power outputted from the standby power source terminal 17 passes through the transistor TR1 Is supplied to the heater 15 of the cathode ray tube 13 so that the heater 15 performs the heat radiation operation (S4) and determines whether the main power of the television receiver is supplied (S5).

When the main power of the television receiver is supplied by the key input, the high level switching signal supplied to the base side of the transistor TR1 is converted into a low level and outputted to the heater 15 of the cathode ray tube 13 The operation power is supplied from the power source output from the standby power source stage 17 to the power source generated from the secondary side of the transformer 12 for generating a high voltage.

[Effects of the Invention]

As described above, the present invention can reduce the heating time of the heater 15 by supplying the operating power supplied to the heater 15 of the cathode-ray tube 13 from before the main speaker of the television receiver supplies the operating power.

Although the present invention has been described in connection with the appended claims, the present invention has been described with respect to a heater power supply apparatus and method according to the present invention. However, the present invention is not limited thereto, will be.

Claims (2)

A horizontal drive transistor 11 for generating a horizontal drive pulse, a horizontal transistor TR operated by the horizontal drive pulse, a horizontal deflection coil connected to the collector side of the horizontal transistor TR, (L) connected to the collector side of the horizontal transistor (TR), and a high voltage generated from the secondary side coil (L1) is supplied to the cathode (14) of the cathode ray tube (13) A television receiver comprising a transformer (12) for generating a high voltage, the television receiver comprising: a viewing detection unit (19) for detecting a viewer; The microprocessor 18 receives the output of the viewer detection unit 19 and determines whether there is a viewer on the front side and outputs a corresponding switching signal. And a transistor TR1 which is switched by the switching signal outputted from the microprocessor 18 and supplies power from the standby power supply terminal 17 to the heater 15 of the cathode ray tube 13 And a heater power supply device Detecting a viewer; Determining whether a viewer is present; If the viewer is not present, keeping the heater operation power in the off state and if there is a viewer, maintaining the heater operation power in the on state and determining whether the main power of the television receiver is supplied; Wherein when the main power is supplied while the heater operation power is supplied, the heater operation power is switched to the off state. ※ Note: It is disclosed by the contents of the first application.