KR910009042Y1 - Remocon transmission of tv and vtr - Google Patents

Abstract

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Description

Integrated remote control transmission circuit of TV / VTR

1 is a conventional TV and VTR transmission circuit.

2 is an integrated transmission circuit of the present invention.

3 and 4 is a circuit diagram of one embodiment of the present invention.

* Explanation of symbols for the main parts of the drawings

5: Code generating means 10: Drive stage

15 amplification unit IC1: microcomputer integrated device for TV

IC2: VTR Microcomputer Integrated Device Q1-Q3: Transistor

LED1, LED2: Infrared light emitting diodes C1-C3: Capacitor

B1: Battery

The present invention relates to an integrated remote control transmission circuit of a TV / VTR, in which a TV and a VTR are integrally formed and two remote control reception processing integrated devices are used. . Conventionally, a TV and a VTR are integrally formed. However, when two remote control reception processing integrated devices are installed, two remote control transmitters having respective remote control transmitter circuits are required to operate the TV and the VTR.

That is, after the power supply V _DD is supplied from the battery B1 to the TV microcomputer IC1 or VTR microcomputer IC2, according to the key matrix (not shown), the microcomputer integrated device IC1 ) And the output of control code signals from the microcomputer IC (IC2) for VTR to control the driving of the transistor (Q1) connected to the resistor (R1) so that the TV / It was to send the remote control signal to the VTR integrated set.

Since two remote control receiver integrated devices are installed in the TV / VTR integrated set, two remote control transmitters configured as shown in FIG. 1 are required to control the operation of each TV and the VTR. Therefore, the infrared light emitting diode 2 (LED1) The circuit configuration of LEDs (LED2) and battery (B1), etc. are duplicated, and it is inconvenient because two remote control transmitters must be used to control the driving of the set.

In order to alleviate this inconvenience, conventionally, one remote control transmitter controls the driving of the set by receiving a remote control transmitter and receiving a transmission signal of another remote control signal and storing a format of the received signal. The configuration is complicated and its use is inexperienced, it is difficult to use.

In view of the above, the present invention is to configure two remote control transmitters into one remote control transmitter so that the TV and the VTR integrated set can be remotely controlled, and the code signal of the code generating means for the TV and VTR operation control is driven by a drive circuit. It is configured to drive the infrared light emitting diode in the amplifier by driving the. That is, by configuring each remote control transmitter as one, the remote control code signals of the TV and the VTR are output through the drive unit and the amplification unit, thereby controlling the operation of the TV and the VTR with one remote control transmitter. This will be described in detail based on the accompanying drawings.

FIG. 2 is a circuit diagram of the present invention, which recognizes the keypress of a key matrix, not shown, and outputs control code signals generated by the microcomputer integrated device IC1 for TV and the microcomputer integrated device IC2 for VTR to buffer BF1, BF2. The code generation means 5 to be output through the control unit and the control code signal outputted from the code generation unit 5 are waveform-formed by the waveform shaping resistors R4, R5, and the capacitors C2 and C3. After the drive stage 10 for controlling the driving of the transistors Q2 and Q3 and the transistor R1 connected to the collector outputs of the transistors Q2 and Q3 of the drive stage 10. And amplifying section 15 for controlling the driving of Q1) to drive the infrared light emitting diodes LED1 and LED2. At this time, the power supply of the present invention is configured to be supplied through the smoothing capacitor (C1) from the battery (B1) and the resistor (R2), (R3) connected to the infrared light emitting diodes (LED1), (LED2) is for current limiting.

FIG. 3 is a circuit diagram of an embodiment of the present invention, and the infrared light emitting diodes (LED1) and (LED2) are code collectors of transistors (Q2) and (Q3) to which the TV and VTR control code signals are applied to the base. It is connected to the side. In addition, in FIG. 4, the TV and the VTR control code signal generated by the code generating means 5 are logically summed at the oragate OR1, and the output of the oragate OR1 is passed through the capacitor C2 and the resistor R4 to the transistor ( It is configured to be connected to the base of Q2) and to connect the infrared light emitting diodes LED1 and LED2 to the collector side of the transistor Q2. Looking at the effect of the present invention configured as described above are as follows.

First of all, the remote control transmitter of the present invention has a circuit diagram of FIG. 2 and is configured with a key matrix for TV control and a key matrix for VTR control on the outside, and when a function key of the key matrix for TV control is pressed, a microcomputer integrated device (IC1) In response to this, the control code signal for TV control is output, and when the VTR control key matrix function key is pressed, the VTR microcom IC (IC2) recognizes this and outputs the control signal for VTR control.

The remote control code signals generated by the TV microcomputer IC1 and the VTR microcomputer IC2 are applied to the drive terminal 10 through the buffers BF1 and BF2, respectively. That is, the code generating means 5 recognizes the pressing of the function keys of the key matrix for TV control and the key matrix for VTR control by the microcomputer integrated device IC1 and the microcomputer integrated device IC2 for the VTR to recognize the control signals for the TV and VTR control, respectively. To print each.

The remote control code signal for TV and VTR control generated in the code generating means 5 is waveform-formed through the waveform shaping resistors R4, R5 and capacitors C2 and C3, and then transistors Q2 and Q3. Is applied to the base to control the driving of the transistors Q2 and Q3. The reason why the resistors R4, R5 and the capacitors C2, C3 are used is that the frequency of the remote control code signal generated by the code generating means 5 is quite high. It is to improve efficiency by improving switching response characteristics. That is, the waveforms of the remote control code signal are shaped by the resistors R4, R5, capacitors C2, and C3 to improve the response characteristics of the switching pulses.

In this way, the remote control code signal generated by the code generating means 5 is waveform-shaped by the resistors R4, R5 and capacitors C2 and C3, and then applied to the bases of the transistors Q2 and Q3. By controlling the driving of the transistors Q2 and Q3, a pulse code signal is output from the collector side of the transistors Q2 and Q3. At this time, the transistors Q2 and Q3 operate according to the signal level of the remote control code signal applied to each base. The TV code signal is output to the collector of transistor Q2, and the VTR signal is the collector of transistor Q3. Each code signal at this time does not affect other code signals.

Therefore, since one code signal generated among the TV and VTR code signals is output to the collectors of the transistors Q2 and Q3, the operation of the TV or VTR can be controlled by one remote control transmitter. That is, when the code generating means 5 generates one remote control code signal for operating the TV or the VTR, it is waveform-formed in the capacitors C2 and C3 and then driven by one of the transistors Q2 and Q3. To control the output of the remote control code signal to the collector of transistors Q2 and Q3.

The pulse code signal output to the collectors of the transistors Q2 and Q3 is applied to the base of the transistor Q1 to which the resistor R1 is connected to control the driving of the transistor Q1 so that the current limiting resistor R2 is controlled. , The driving of the infrared light emitting diodes (LED1) and (LED2) connected to (R3) is controlled to transmit a remote control signal to the TV / VTR integrated system. That is, the pulse code signal output to the collector side of the transistors Q2 and Q3 is controlled by controlling the infrared light emitting diodes LED1 and LED2 through the transistor Q1 of the amplifier 15. The code signal will be sent as a set. At this time, the remote control code signal transmitted through the infrared light emitting diodes (LED1) and (LED2) is a code signal generated by the key matrix of the microcom integrated device (IC1) or (IC2) for TV or VTR. The operation can be controlled by one remote control transmitter.

In the present invention, the amplification unit 15 is configured to increase the current between the emitter collectors of the transistor Q1 to increase the transmission effective distance of the remote control code signal. Meanwhile, another embodiment of the present invention will be described with reference to FIGS. 3 and 4.

First, in FIG. 3, the infrared light emitting diodes LED1 and LED2 are directly driven by a pulse code signal output from the collectors of the transistors Q2 and Q3 without using the amplifier 15 as in the present invention. The remote control code signal is transmitted. That is, when it is not necessary to lengthen the transmission effective distance of the remote control code signal, the infrared light emitting diodes (LED1) and (LED2) are directly connected to the collectors of the transistors (Q2) and (Q3) to which the pulse code signal is output as shown in FIG. Connect to configure the connection. In addition, in FIG. 4, the infrared light emitting diodes LED1 and LED2 are driven by using one transistor Q2, but the VTR and VT control code signals are transmitted to the base of the transistor Q2 through the OR gate OR1. It is configured to be authorized.

That is, when a control code signal of either TV or VTR is input, it drives the transistor Q2 through the OR gate OR1 to drive the infrared light emitting diodes LED1 and LED2. Therefore, the TV or VTR can be controlled by outputting a control code signal using a single remote control transmitter. On the other hand, the present invention can control the audio and video in the audio and video, respectively, as well as can be controlled by one remote control transmitter by integrating the two devices controlled by the remote control transmission.

As described above, the present invention forms an output of a code generating means for generating a separate code signal to simultaneously control a TV and a VTR. To drive the diode. Therefore, the present invention can control the operation of the TV or VTR with a single remote control transmitter without controlling the system in which the TV or VTR is formed integrally with each remote control transmitter, thereby providing a convenient effect.

Claims (4)

In a remote control transmitter for driving a system in which a TV and a VTR are integrally formed, a remote controller code signal generated by a TV microcomputer integrated device (IC1) and a VTR microcomputer integrated device (IC2) by recognizing keypresses of a key matrix is buffered ( The code generating means 5 outputs through the BF1 and BF2 and the code signal generated by the code generating means 5 controls the driving of the transistors Q2 and Q3 to output pulse code signals. Drive stage 10 and amplification unit 15 driven by pulse code signals output from transistors Q2 and Q3 of the drive stage 10 to operate infrared light emitting diodes LED1 and LED2. Integrated remote control transmission circuit of configured TV / VTR. 2. The resistors (R4), (R5) and capacitor (C2) of claim 1, wherein the bases of the transistors (Q2), (Q3) of the drive stage (10) are shaped to shape the remote control code signals of the code generating means (5). An integrated remote control transmission circuit of a TV / VTR connected to (C3). The TV / VTR integrated remote control transmission according to claim 1, wherein the infrared light emitting diodes (LED1) and (LED2) are connected to the collectors of the transistors (Q2) and (Q3) of the drive stage 10 for outputting a pulse code signal. Circuit. The remote control code signal generated by the code generating means (5) is applied to the base of the transistor (Q3) for driving the infrared light emitting diodes (LED1) and (LED2) after being ORed at the OR gate OR1. Integrated remote control transmission circuit of TV / VTR.