KR20040011162A - Micom Interface of an image signal receiver - Google Patents

Abstract

PURPOSE: A microcomputer interface of a device for receiving video signals is provided to increase the usage ratio of an A/D port by generating signals of various levels. CONSTITUTION: A key input interface unit(220) is connected with an A/D(Analog-to-Digital) port(113) to receive an external signal and convert it into a predetermined level by dividing voltage with power source and resistance. An X-ray interface(240) receives analog voltage data corresponding to X-rays emitted from a CRT(Cathode Ray Tube) to convert the analog voltage data into a value of a predetermined level by dividing voltage with power source and resistance. The key input interface and the X-ray interface are arranged in series and are connected with the A/D port, so the X-ray interface transmits the value of the predetermined level to the A/D port through the key input interface.

Description

Micom Interface of Image Signal Receiver

The present invention relates to an interface of a microcomputer provided in a broadcast signal receiving apparatus such as a television, and more particularly, converts a corresponding command according to a signal input from the outside into a predetermined level value that can be recognized by the microcomputer. The present invention relates to a microcomputer interface for controlling a broadcast signal receiving apparatus provided.

The microcomputer of a broadcast signal receiver such as a television controls the overall operation of the broadcast signal receiver according to a set command and an input command. The microcomputer of the broadcast signal receiving apparatus has an A / D converter for converting an input analog signal into a digital signal and an A / D port for transferring an externally transmitted analog signal to an A / D converter. The A / D port is connected to an interface for providing an analog signal corresponding to a corresponding command to the A / D converter.

The interface connected to the microcomputer's A / D port consists of a plurality of switches. In general, the number of switches that can be connected to one A / D port is constantly limited.

1 is a circuit diagram illustrating an example of an interface generally connected to the A / D port of a microcomputer.

As shown in the drawing, the A / D port 1 12 provided in the microcomputer 10 is connected to a first interface 16 which divides the input signal using voltage and resistance and provides the microcomputer 10 to the microcomputer 10. . A / D port 2 14 is also connected with a second interface 18 which converts the input signal to a predetermined level value and provides it to the microcomputer 10.

The first interface 16 divides the power supply Vcc provided using a plurality of resistors arranged in parallel, respectively. Accordingly, the first interface 16 transmits the voltage-divided voltage to the A / D port 1 12.

The second interface 18 receives analog data for controlling the X-RAY emission of the CRT.

The first interface 16 connected to the A / D port 1 12 includes a plurality of switches each provided with a plurality of resistors for forming a signal having a level corresponding to an input command and providing the signal to the microcomputer 10. Prepared. As shown, the number of switches provided in the first interface 16 is set to three. Several switches can be installed depending on their functions, but generally three to five switches are installed per one A / D port. The first interface 16 is formed with a voltage generated by the voltage distribution of the power supply Vcc according to the resistance set for the provided power supply Vcc. The voltage generated according to the switching operation of each switch provided in the first interface 16 is input to the microcomputer 10 via the A / D port 1 12.

At this time, the resistance value set in each switch of the first interface 16 is set to a different value so that the voltage level generated and generated by the switching operation of the switch can be more easily determined by the microcomputer 10. As shown, the three resistance values set for each switch of the first interface 16 are 2 [kV], 5 [kV], and 10 [kV], respectively.

When the second interface 18 connected to the A / D port 2 14 emits the X-RAY from the CRT of the image signal receiving apparatus, the CRT when the high voltage corresponding to the X-RAY rises above the set threshold voltage. Emits excessive X-RAY, so that the phenomenon is controlled by the microcomputer 10, the voltage value emitted from the CRT is converted to a predetermined level value using the provided power supply (Vcc) to A / D port 2 Transfer to 14. At this time, the range of the level value converted in the second interface 18 is generally an analog voltage between 0 [V] and 5 [V].

Accordingly, the microcomputer 10 compares the voltage of the predetermined level value provided from the second interface 18 with the set threshold to determine whether the CRT is excessively released, and thereby controls the X-RAY emission of the CRT. .

However, since the first interface 16 and the second interface 18 are respectively connected to the A / D ports 12 and 14 as in the related art, a limited number of A / D ports 12 and 14 provided in the microcomputer 10 are provided. ) Is not enough to utilize.

In addition, when two or more switches among the plurality of switches are simultaneously selected in the first interface 16, a complex voltage value of the selected switch is formed instead of the voltage of the level set for the input power Vcc to form the A / D port 12. As it is transmitted to, there is a problem that may cause a malfunction of the miscomputation of the microcomputer 10 and the image signal receiving apparatus according to the redundant switch selection.

SUMMARY OF THE INVENTION An object of the present invention for solving the above problems is to provide an interface of a microcomputer provided in a video signal receiving apparatus capable of generating signals having various levels and increasing the utilization of a limited number of A / D ports provided in the microcomputer. It is.

Another object of the present invention for solving the above problems, the plurality of switches for converting the input power to the voltage corresponding to the corresponding function can be solved the malfunction of the miscomputation and video signal receiving apparatus of the microcomputer at the same time. It is to provide an interface of the microcomputer provided in the video signal receiving apparatus.

1 is a circuit diagram illustrating an example of an interface connected to the A / D port of a microcomputer of a general video signal receiving apparatus;

2 is a block diagram showing an example of an input / output port provided in a microcomputer of a video signal receiving apparatus; and

3 is a circuit diagram showing a preferred embodiment of the micom interface of the video signal receiving apparatus according to the present invention.

Explanation of symbols on the main parts of the drawings

100: Micom 118: Vcc port

113: A / D port 200: Interface

220: key input interface unit 240: X-RAY interface unit

According to the present invention, the object of the video signal receiving apparatus is connected to the A / D port provided in the microcomputer of the video signal receiving apparatus for converting a signal input from the outside into a predetermined level value and transmitting to the A / D port In the microcomputer interface, a key input interface unit connected to the A / D port to convert a signal input from the outside to a level value corresponding to the signal through voltage distribution using a power supply and a resistor, and transmits the signal to the A / D port, and The analog input, which is connected to the key input interface unit in series and receives voltage data corresponding to the X-RAY emitted from the CRT, is input and converted into a predetermined level value by voltage distribution using a power supply and a set resistor to convert the key input interface unit into a predetermined level value. It is achieved by the microcomputer interface of the video signal receiver including an X-RAY interface unit for transmitting to the A / D port.

Preferably, the key input interface unit is disposed in parallel between a plurality of resistors having different values arranged in series between the A / D port and the X-RAY interface unit, and between the A / D port and the plurality of resistors, respectively. It has a plurality of switches that perform a switching operation according to an external selection, and transmit power to the A / D port by dividing voltage by a resistor according to the switching operation.

Preferably, the X-RAY interface unit is arranged in series, a plurality of resistors for voltage distribution of a predetermined level value, and a base and ground for receiving analog data provided from a collector and a CRT connected in series with the plurality of resistors. It has a transistor with an emitter connected to it. Accordingly, analog data input to the base of the transistor in the X-RAY interface unit is voltage-divided by a plurality of resistors connected in series to the collector, the voltage-divided voltage is input to the key input interface unit.

Preferably, when at least one switch of the plurality of switches is switched in a state in which analog data is input to the X-RAY interface unit, a predetermined level value converted by the X-RAY interface unit and a voltage distribution according to the switching operation. The complex voltage of the voltage is transmitted to the A / D port.

According to the present invention, the key input interface unit receives the external selection command and divides the voltage and transmits the voltage to the A / D port, and the X-RAY interface unit divides the voltage receiving the output voltage data of the CTR and transmits it to the A / D port. By connecting to one A / D port, a signal having more various levels can be generated to increase the utilization rate of a limited number of A / D ports provided in the microcomputer. Also, by arranging a plurality of resistors in series in the key input interface unit and disposing a plurality of switches between the resistors arranged in series, the misjudgment and the video signal in the microcomputer are operated even if at least two of the plurality of switches are operated simultaneously. Malfunction of the receiver can be prevented.

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

Prior to describing the present invention, the input / output port of the microcomputer provided in the video signal receiving apparatus will be described.

2 is a block diagram illustrating an example of an input / output port provided in a microcomputer of a video signal receiving apparatus.

As shown, the input and output ports of the microcomputer 100 are divided into input ports and output ports.

The input ports of the microcomputer 100 include an infrared signal input port 112, an A / D port 113, an X-RAY port 116, a Vcc port 118, and an image port 122.

The infrared signal input port 112 receives an infrared signal transmitted and detected from an external remote controller. The A / D port 113 receives an analog signal for providing an A / D converter (not shown) that converts an input signal into a digital signal.

When the X-RAY port 116 emits X-RAY from the CRT, if the high pressure rises above a certain voltage, the CRT emits excessive X-RAY, which is emitted from the CRT to be controlled by the microcomputer 100. The analog data corresponding to the voltage value is received.

The Vcc port 118 receives power supplied from the outside for the operation of the microcomputer 100. The image port 122 receives the received video signal for the combination of the video signal received by the broadcast signal receiving apparatus and the data for the OSD.

The signal input through the corresponding input port from the outside is processed into a corresponding signal according to the set processing is output through the output port of the microcomputer 100.

The output ports of the microcomputer 100 are the power on / off port 111, the I ² C clock port 114, the I ² C data port 114, the high voltage control port 117, and the OSD R port 119. ), An OSD G port 120, an OSD B port 121, an LED port 123, and a GND port 124.

The power on / off port 111 outputs a signal corresponding to a command for turning on or off the power of the main power source of the broadcast signal receiving apparatus.

The I ² C clock port 114 outputs a synchronization clock signal for synchronizing with each other for processing the video signal. The I ² C data port 114 outputs data of the received video signal for processing the video signal.

The high voltage control port 117 outputs a scan control signal of the CRT output in response to the signal controlled according to the voltage value input to the X-RAY port 116 to the CRT. The OSD R port 119, the OSD G port 120, and the OSD B port 121 output R, G, and B, each of which a video signal input to the image port 122 and data for the OSD are combined. The LED port 123 outputs a light emitting signal indicating an operating state of the broadcast signal receiving apparatus. GND port 124 provides ground for the input power.

As such, the signal processed according to the processing set in the microcomputer 100 is output through the corresponding output port.

3 is a circuit diagram showing a preferred embodiment of the micom interface of the video signal receiving apparatus according to the present invention.

The illustrated microcomputer 100 has the same port and function as in FIG. 2, but for the purpose of explanation, the microcomputer 100 receives the Vcc port 118 for outputting power and an analog signal transmitted from the outside. D port 113 is shown briefly.

As shown, the microcomputer interface 200 of the image signal receiving apparatus has a key input interface unit 220 and an X-RAY interface unit 240. In this case, the key input interface 220 and the X-RAY interface 240 is connected in series with the A / D port 113.

The key input interface unit 220 is connected to the A / D port 113 to convert a command input from the outside into a predetermined level value using the power supplied from the Vcc port 118 and the set resistance, and converts the converted level value. Is transmitted to the A / D port 113.

The X-RAY interface unit 240 receives analog data corresponding to the voltage value emitted from the CRT. At this time, the analog data input to the X-RAY interface unit 240 is converted into an analog voltage between 0 [V] and 5 [V] and transmitted to the A / D port 113.

Meanwhile, the key input interface unit 220 is disposed between the A / D port 113 and the X-RAY interface unit 240 to supply a voltage corresponding to the selected command using a power source provided from the Vcc port 118. The data is transmitted to the D port 113. In the key input interface 220, a plurality of resistors R3, R4, R5, R6, and R7 are disposed in series between the A / D port 113 and the X-RAY interface 240. In addition, a plurality of switches A, B, C, D, and E are arranged in parallel between the resistors R3, R4, R5, R6, and R7 arranged in series with the A / D port 113, respectively. .

Accordingly, the power output from the Vcc port 118 by the switch shorted according to the switching operation among the switches A, B, C, D, and E provided in the key input interface 220 corresponds to the shorted switch. The voltage is divided by the resistor, and the voltage-divided voltage is transmitted to the A / D port 113. On the other hand, each of the resistors R3, R4, R5, R6, and R7 arranged in series with the A / D port 113 has different values so as to divide the voltages of the input power into voltages having different values.

The X-RAY interface 240 connected in series with the key input interface 220 transmits the power provided from the Vcc port 118 to the key input interface 220 and transmits analog data, which is output voltage information of the CRT, to O. Any value of [V] to 5 [V] is converted and transmitted to the A / D port 113.

In the X-RAY interface unit 240, resistors R1 and R2 and a transistor Q are provided. The resistors R1 and R2 are arranged in series to divide the voltage supplied from the Vcc port 118. The transistor Q has a collector connected in series with the resistors R1 and R2, a base for receiving analog data provided from the CRT, and an emitter connected to ground. Accordingly, the analog data input from the X-RAY interface unit 240 to the base of the transistor Q is divided by the resistors R1 and R2 connected in series with the collector, and the voltage divided by the key input interface unit. Is entered at 220.

The analog data input to the base of the transistor Q is divided by the Vcc port 118 and the resistors R1 and R2 into a voltage value of any one of O [V] to 5 [V], and the key input interface unit ( 220 is provided. At this time, when there is no switching operation of the switches A, B, C, D, and E of the key input interface unit 220, the voltage inputted to the transistor Q by the X-RAY interface unit 240 is divided into voltages. It is transmitted to the A / D port 113. In addition, when there is a switching operation of at least one of the switches A, B, C, D, and E of the key input interface 220, the X-RAY interface 240 is input to the transistor Q to supply voltage. In accordance with the switching operation of the divided voltages and the switches A, B, C, D, and E, a voltage obtained by combining the voltage-divided voltages is transmitted to the A / D port 113.

Accordingly, in the microcomputer 100, a complex voltage in which the voltage divided by the X-RAY interface 240 is combined with the voltage divided by the switching operation of the switches A, B, C, D, and E is input. When the threshold voltage is set, the threshold voltage is set to the sum of the voltage-divided voltages according to the switching operations of the switches A, B, C, D, and E.

Accordingly, the key input interface 220 receives the external selection command and divides the voltage and transmits the voltage to the A / D port 113 to the A / D port 113. By arranging the X-RAY interface unit 240 in series and connecting them to one A / D port 113, a signal having more various levels can be generated to use a limited number of A / D ports provided in the microcomputer 100. Can increase.

In addition, the resistors R3, R4, R5, R6, and R7 of the key input interface 220 are arranged in series, and a plurality of switches between the resistors R3, R4, R5, R6, and R7 arranged in series. By arranging (A, B, C, D, and E), the misjudge and image signal receiving device of the microcomputer 100 can be operated even if at least two of the switches A, B, C, D, and E are operated simultaneously. It can prevent malfunction.

According to the present invention, an X-RAY interface unit which receives an external selection command and divides the voltage and transmits the output voltage data of the key input interface unit CTR to the A / D port and transmits it to the A / D port in series By arranging and connecting to one A / D port, a signal having more various levels can be generated to increase the utilization rate of a limited number of A / D ports provided in the microcomputer.

Also, by arranging a plurality of resistors in series in the key input interface unit and placing a plurality of switches between the resistors arranged in series, the misjudge and video signal in the microcomputer are operated even if at least two of the plurality of switches are operated simultaneously. Malfunction of the receiver can be prevented.

In the above described and illustrated with respect to the preferred embodiment of the present invention, the present invention is not limited to the specific preferred embodiment described above, without departing from the gist of the invention claimed in the claims in the art Various modifications can be made by those skilled in the art, and such changes are within the scope of the claims.

Claims (5)

In the micom interface of the video signal receiving apparatus connected to the A / D port provided in the micom of the video signal receiving apparatus converts a signal input from the outside to a predetermined level value and transmits the signal to the A / D port, A key input interface unit connected to the A / D port to convert a signal input from the outside into a level value corresponding to the signal through voltage distribution using a power source and a resistor, and transmit the signal to the A / D port; And It is connected in series with the key input interface, receives analog data which is voltage data corresponding to the X-RAY emitted from the CRT, converts the voltage into a predetermined level value by dividing the voltage using the power and the set resistor. And a X-RAY interface unit for transmitting to the A / D port via a key input interface unit. The method of claim 1, The key input interface unit, A plurality of resistors having different values disposed in series between the A / D port and the X-RAY interface unit; And Disposed in parallel between the A / D port and the plurality of resistors to perform a switching operation according to an external selection, and to distribute the power by the resistor according to the switching operation to transmit the voltage to the A / D port. Micom interface of the video signal receiving apparatus comprising a plurality of switches. The method of claim 2, The X-RAY interface unit, A plurality of resistors disposed in series to divide the power by a predetermined level; And And a transistor having a collector connected in series with the plurality of resistors, a base receiving analog data corresponding to the scanned voltage provided from the CRT, and an emitter connected to ground. Accordingly, the analog data input to the base is voltage-divided by the plurality of resistors connected in series with the collector, and the voltage-divided voltage is input to the key input interface unit. Micom Interface. The method of claim 3, The voltage of the analog data is divided by the plurality of resistors in the X-RAY interface unit, the voltage is a micom interface of the video signal receiving apparatus, characterized in that any one of 0 [V] to 5 [V]. The method of claim 4, wherein When the at least one switch of the plurality of switches is switched in the state in which the analog data is input to the X-RAY interface unit, the predetermined level value and the switching operation converted by the X-RAY interface unit are changed. And a complex voltage of the voltage-divided voltages is transmitted to the A / D port.