KR930006731Y1 - Remote control signal sensing circuit by single transfer line - Google Patents

Abstract

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Description

Remote control signal detection circuit by single transmission path

1 is a remote control signal detection circuit according to the present invention.

2 is an exemplary waveform diagram of each part of FIG.

* Explanation of symbols for the main parts of the drawings

1: notch filter part 2: clamping circuit

3: comparison unit 4: band pass filter unit

5: voltage follower 6: microprocessor

The present invention relates to a circuit for detecting a remote control signal for controlling a variety of devices by using a general public communication line or a dedicated line, in particular, the general public communication network transmits a remote control signal for controlling various devices through a telephone line at the receiving side The present invention relates to a remote control signal detection circuit by a single transmission path for detecting a remote control signal and controlling various devices connected to a receiving side.

In general, the integrated power meter to measure the amount of electricity, or the gas meter or water meter to measure the amount of gas or water used by the meter reader visited Kaga Lake every day, and had to check and record the amount of use directly. When the meter reader could not read the amount of usage due to the outing of the company, there was a possibility of dispute over the payment fee because the meter was measured by artificial calculation.

In order to solve this problem, a remote sedimentation system has been developed for remotely reading a measurement using a single dedicated line. However, such a signal transmission method has a very expensive circuit for distinguishing a remote control signal, has a high metering error, and is particularly complicated. There was a problem of malfunction due to the misjudgement of the signal.

In view of this situation, the present invention utilizes the telephone line currently in use, but the telephone of the receiving side transmits transmission signals of various measurement values in the no ringing state, and the receiving side detects this signal and receives the signal. It is an object of the present invention to provide a remote control signal sensing circuit using a single transmission path that can control various connected devices.

The present invention for achieving the above object is a notch filter for removing a 60HZ noise signal by a power line from a remote control signal on a telephone line, and clamping for removing surge waveform noise of a remote control signal filtered by the notch filter. A plurality of comparators for outputting a plurality of signals by comparing the circuit, the clamped signal and a predetermined reference voltage signal, a plurality of bandpass filters for determining the respective bandwidths, and the amount of each filtered frequency signal It consists of a plurality of voltage followers for selecting a positive value and a microprocessor for operating a plurality of remote control devices by a signal selected in the voltage follower, respectively.

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

FIG. 1 is a remote control sensing circuit diagram using a single transmission path according to the present invention. As shown in FIG. This remote control signal may have various types of waveforms.

In general, a telephone call signal of a telephone line is supplied with 16-20HZ (about AC90V). In the present invention, a remote control signal applied to an input signal terminal A is supplied at a frequency of several hundred HZ. By the way, such a remote control signal is applied to the input signal terminal (A) to pass only the necessary signal through the notch filter (1) configured to remove the noise on the telephone line.

In general, notch filter 1 composed of a plurality of capacitors (C ₁ -C ₂ ) and resistors (R ₁ -R ₃ ) is a 60HZ noise (dotted line in FIG. Part).

The remote control signal from which 60HZ of noise is removed by the power line by the notch filter 1 passes through the clamping circuit 2 made of diodes D ₁ and D ₂ , where the clamping circuit 2 In order to remove the surge waveform as shown in FIG. 2b, both sides of the remote control signal of FIG. 2a are clamped to output the clamped signal as shown in FIG. 2b. Thus, the signal passing through the notch filter 1 and the clamping circuit 2 becomes a pure remote control signal from which noise is completely removed.

The remote control signal from which the noise is removed is input to the non-inverting terminals of the plurality of comparators COM _{1 to} COM ₃ constituting the comparator 3 through the coupling capacitor C ₄ . At this time, the comparator (COM ₁ -COM ₃ ) compares the input voltage with the reference voltage set in its inverting terminal, but the output waveforms of these comparators are the same. The output waveform diagram of the comparator COM ₁ is shown in FIG.

And. The signals output from the comparators (COM ₁ -COM ₃ ) are respectively set resistance values (Rs ₁ -Rs ₃ , Rt ₁ -Rt ₃ ) connected to the amplifiers OP ₁ -OP ₆ constituting the band pass filter 4. According to the present invention, a frequency signal whose bandwidth is determined is output. The output waveform of the amplifier OP ₂ is equal to 2d ₁ .

In addition, the amplifier OP ₄ outputs a signal equal to 2d ₂ , and the output signal of the amplifier OP ₆ is equal to that of FIG. ₂ .

The output signal of the band pass filter 4 thus output is applied to the amplifiers OP _{7 to} OP ₉ constituting the voltage follower 5, and an amplifier equal to 2d ₁ degree is applied to the input terminal of the amplifier OP ₇ . then (OP ₂₎ if the output is the input of the voltage follower (O _P 7) is passed through the diode (D ₃₎ and amplifies it. Accordingly, the signal passing through the diode D ₃ is input to the microprocessor 6 connected to various controllers (gas meter, water meter, and integrated power meter) in the same manner as the second e ₁ degree.

At this time, the microprocessor 6 recognizes when a signal to pass through the diode D ₃ is input as shown in FIG. 2E ₁ , and operates the gas meter. ), And the microprocessor 6 can read the gas meter usage remotely by sending it to the remote metering center.

Also, the signal 2d ₂ output from the amplifier OP ₄ is amplified by the amplifier OP ₃ and detected as a signal equal to the 2e ₂ degree through the diode D ₄ , and the 2d 2 output from the amplifier OP ₆ . _A signal equal to ₃ degrees is amplified by the amplifier OP ₉ and then converted into a 2e ₃ degree through the diode D ₅ and input to the microprocessor 6, respectively.

In this case, the microprocessor (6) drives the control device (not shown) to the sensing 2e to Figure ₂ to detect the amount of the water meter, and the second also to detect e ₃ also detects the amount of the integrated meter.

As a result, when the remote control signal is applied as a single signal to the single transmission path (i.e., one signal for metering usage of a gas meter, a water meter, and an integrated power meter) as shown in FIG. Remotely detect gas, water and power usage.

On the other hand, the circuit of the present invention shown in FIG. 1 can selectively control the gas meter, water meter or integrated power meter.

For example, when only the part (a) as shown in FIG. 2a is applied to the input signal terminal A, only the second 2e ₁ degree signal is applied to the microprocessor 6, and the 2e ₂ and 2e ₃ degree signals are not generated. The microprocessor 6 can remotely detect only the gas meter usage by recognizing the 2e ₁ degree signal. In addition, when only the same signal as part (b) of the signal of FIG. 2a is applied, only 2e ₂ degree is generated so that only the amount of water used can be detected remotely. Only signals equal to 2e ₃ degrees are generated so that the microprocessor 6 can remotely detect the amount of power.

In this way, when a complex remote control signal such as FIG. 2A is transmitted, the microprocessor 6 allows remote detection of gas, water, and power usage. When only a signal such as part (a) of FIG. If only the (b) partial signal of FIG. 2a is applied, the usage of water may be remotely read. In addition, when only two signals of (a) (b) and (c) of FIG. 2a are applied, the corresponding usage amount may be remotely read.

The present invention operating as described above transmits a remote control signal using a single transmission line, and completely removes the noise included in the transmitted remote control signal and transmits it to the microprocessor, so that the microprocessor can control various devices connected to the receiver. It has a characteristic.

Although the present invention has been described with reference to the accompanying drawings, the present invention is not limited thereto, and many modifications may be made in the scope of the following claims. For example, in FIG. 1, three comparators, six band filters, and three voltage followers are shown for operating three devices. Therefore, it is easy to see that when 10 devices are connected to the microprocessor, the comparator, the bandpass filter and the voltage follower can be extended by the corresponding number.

Claims (1)

A notch filter unit for removing a 60HZ noise signal from the remote control signal on the telephone line, a clamping unit for removing the surge waveform noise of the remote control signal passing through the notch filter unit, and the clamping A plurality of comparison units for outputting a plurality of signals by comparing the received signal with a predetermined reference signal, a plurality of band pass filter units for determining a bandwidth of frequency by inputting respective outputs of the comparison unit; A plurality of voltage followers for selecting the positive (+) side value of the frequency signal passing through the band filter unit, respectively, and for operating a plurality of devices by each signal input from the plurality of voltage followers Remote control signal detection circuit by a single transmission line, characterized in that composed of a microprocessor.