KR20010001240U - A signal tramsmission apparatus utilizing photoelectricity transformation element - Google Patents

Abstract

The present invention relates to an image signal processing apparatus, and more particularly, to a signal transmission apparatus capable of transmitting a signal generated by an operation of an operation panel to a system control unit using a photoelectric conversion element. A sub power supply for outputting a drive voltage of a predetermined level, and receives the drive voltage from the sub power supply in the standby mode, and generates and outputs a system drive signal according to the set operation command input from the user interface means mounted on the set An auxiliary control unit, a photoelectric conversion element for transmitting the system driving signal as an optical signal and restoring the transmitted optical signal to an electric system driving signal, and a system operation according to a system driving signal input from each of the photoelectric conversion elements. Characterized in that it comprises a system control unit for controlling the.

Description

Signal transmission device using photoelectric conversion element {A SIGNAL TRAMSMISSION APPARATUS UTILIZING PHOTOELECTRICITY TRANSFORMATION ELEMENT}

The present invention relates to a video signal processing apparatus such as a television receiver, and more particularly to a signal transmission apparatus for transmitting a signal generated by the operation of the user interface means to the system control unit in the standby mode (stand-by).

One of the sales points to consider for promoting sales in home appliances as well as office devices is the power consumption of the devices. Looking at the operation status of most home appliances and office equipment, the duration in the standby state is longer than in the operation state. For this reason, manufacturers have continued to develop power saving devices to reduce power consumption in the standby state, and consumers also prefer products with high power consumption efficiency.

A television receiver, which is one of the video signal processing apparatuses, is provided with a power saving device for reducing power consumption in the standby mode. The operation of the power saving device employed in the television receiver will be briefly described with reference to FIG. 1. First, each part of the system such as the system control unit 70, the color signal processing unit 50, and the display device 60 is picture-on. In the on mode, operation power supplies V1, V2, and V3 are supplied from the secondary side of the SMPS 20. At this time, operating power levels V1, V2, and V3 are different levels depending on the turns ratio of the primary and secondary sides. As it occurs, it is supplied to each part of the system through the rectification and smoothing portion 40. In the standby mode, the system controller 70 disables the operation of the SMPS 20 through the switching unit 30 to reduce power consumption. Accordingly, the power supplied to each part of the system is cut off, so the power consumption can be reduced.

However, in the video signal processing apparatus including the power saving device described above, the system cannot be driven normally by only operating the operation panel in the standby mode. This is because all signals generated by the operation of the operation panel are not transmitted to the system controller 70. That is, in the general video signal processing apparatus, the operation panel can be used to wake up the power saving device. Since all signals generated by the operation of the panel cannot be transmitted to the system controller, the user cannot normally use the set when the remote controller is lost.

Accordingly, an object of the present invention is to provide a signal transmission apparatus capable of transmitting a signal generated at the time of operation of a user interface means mounted in an image signal processing apparatus such as a television receiver to a system controller.

Still another object of the present invention is to provide a signal transmission apparatus capable of transmitting a set operation command through an operation panel to a system controller using a photoelectric conversion element.

The present invention for achieving the above object is a signal transmission device in the image signal processing device,

An auxiliary power supply unit for rectifying the AC input power and outputting a driving voltage having a predetermined level according to the winding ratio;

An auxiliary control unit which receives a driving voltage from the auxiliary power supply unit in a standby mode and generates and outputs a system driving signal according to a set operation command input from a user interface unit mounted on the set;

Photoelectric conversion elements for transmitting the system driving signal as an optical signal and restoring the transmitted optical signal to an electrical system driving signal;

And a system controller for controlling a system operation according to input of a system driving signal from each of the photoelectric conversion elements.

1 is a block diagram of a power saving apparatus employed in a general television receiver.

2 is a detailed block diagram of a signal transmission apparatus using a photoelectric conversion element according to an embodiment of the present invention.

Hereinafter, the configuration and operation of a signal transmission apparatus using a photoelectric conversion device according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

2 shows a detailed configuration diagram of a signal transmission apparatus using a photoelectric conversion element according to an embodiment of the present invention. Referring to FIG. 2, the rectifier circuit 10 rectifies and supplies AC input power AC to the SMPS 20. The main power supply SMPS 20 generates a plurality of driving voltages according to the primary and secondary winding ratios, outputs them to the rectification and smoothing unit 40, and is switched by the system controller 70. It is enabled and disabled according to the operation of. Since the configuration of the SMPS 20 and the switching unit 30 is generally well known technology, a description thereof will be omitted below. Meanwhile, the color signal processor 50 and the display device 60 receive the driving voltages V2 and V3 having different levels from the SMPS 20. The system controller 70 receives the driving voltage V1 from the rectification and smoothing unit 40 and controls the overall operation of the system according to a control program stored in the internal memory. The system driving signal (defined as a system driving signal) is received from the auxiliary control unit 100 through the photocoupler PT. For example, when it is detected that there is a picture-on driving signal input for picture-on the system through the photocoupler PT which is a photoelectric conversion element in the standby mode, the switching unit 30 is controlled to drive the SMPS 20. Ensure that drive voltage is supplied to each part of the system.

The auxiliary power supply unit 90 converts and outputs a voltage of a predetermined level applied from the rectifier circuit 10 into driving voltages required by the auxiliary control unit 100 and the operation panel unit 110, and outputs the auxiliary control unit 100. If there is a key input for driving the system through the operation panel unit 110 generates a "high" level system driving signal accordingly and outputs it to the corresponding photocoupler (PT). The light emitting diode of the photocoupler PT is forwardly connected between the one output terminal and the ground terminal of the auxiliary control unit 100, and the collector of the light receiving transistor is connected to the power output terminal Vcc of the auxiliary power supply unit 90 through a resistor R. It is. In addition, the connection point of the collector and the resistor of the light receiving transistor is connected to the system controller 70, so that the system controller 70 can know whether the system driving signal is input through the photocoupler PT.

That is, in the video signal processing apparatus including the signal transmission device having the above-described configuration, the auxiliary control unit 100 primarily detects a system driving signal generated by a key operation of the operation panel unit 110 in the standby mode, The control unit 100 generates and outputs a driving signal for normally driving the system in response thereto, and the light receiving transistor of the corresponding photo coupler PT is turned on by the system driving signal, whereby the system control unit 70 controls the operation panel. The system driving signals generated according to the key manipulation of 110 may be inputted, and the system may be normally driven by controlling each part of the system according to the input system driving signal.

In the exemplary embodiment of the present invention, only one photo coupler PT for waking up the SMPS 20, which is a power saving device, is illustrated in FIG. 2, but the photo coupler PT is proportional to the number of keys provided in the operation panel. ), All signals generated by key operation of the operation panel can be transmitted to the system controller 70.

As described above, the present invention can transmit all signals generated by the operation of the user interface means such as the operation panel to the system controller, thereby minimizing power consumption in the standby mode and of course operating the set normally. There is an advantage.

Claims (1)

A signal transmission apparatus in a video signal processing apparatus, An auxiliary power supply unit for rectifying the AC input power and outputting a driving voltage having a predetermined level according to the winding ratio; An auxiliary control unit which receives a driving voltage from the auxiliary power supply unit in a standby mode and generates and outputs a system driving signal according to a set operation command input from a user interface unit mounted on the set; Photoelectric conversion elements for transmitting the system driving signal as an optical signal and restoring the transmitted optical signal to an electrical system driving signal; And a system controller for controlling a system operation according to input of a system driving signal from each of the photoelectric conversion elements.