CN202798733U - Infrared remote control signal generator - Google Patents

Abstract

The utility model discloses an infrared remote control signal generator. The infrared remote control signal generator comprises a single chip microcomputer, a keyboard, a reference voltage generation circuit and a waveform generator and is characterized by also comprising a remote-control unit, an infrared receiver, a band-switching controller, a summing circuit and a compression circuit, wherein the remote-control unit sends infrared light signals to the infrared receiver after key information is coded and modulated, the infrared receiver receives infrared light signals sent by the remote-control unit, converts infrared light signals into electric signals, conducts modulation, decoding and amplification and outputs control signals to the single chip microcomputer, the keyboard outputs control signals to the single chip microcomputer, and the single chip microcomputer receives control signals output by the infrared receiver and/or receives control signals output by the keyboard, conducts processing and conversion, outputs signals to the band-switching controller, the reference voltage generation circuit and the compression circuit and outputs waveform selection and control signals to the waveform generator.

Description

The infrared remote-controlled signal generator

Technical field:

The utility model relates to signal generator, is specifically related to the infrared remote-controlled signal generator.

Technical background:

Function signal generator is widely used in Experiment of Electronic Technology, electronic product exploitation, research, and all there are a large amount of uses the aspects such as electronic equipment production debugging and systematic survey in school, institute, electronic product manufacturer and electronic equipment working service unit.

When carrying out systematic survey, if distant between the equipment adopts the normal signal generator then not too convenient.Because generally need level meter or oscilloscope to cooperate when measuring, in order to reduce to disturb, p-wire can not be oversize, so just required two people to cooperate, and perhaps a people operates back and forth.The infrared remote-controlled signal generator is a kind of for the system testing instrument, and its output signal frequency, amplitude can be controlled with remote control panel, conveniently increases work efficiency when a people measures.

The utility model content:

Technical problem to be solved in the utility model provides a kind of infrared remote-controlled signal generator.

In order to address the above problem, technical solutions of the utility model are that the infrared remote-controlled signal generator comprises: single-chip microcomputer, keyboard, reference voltage generating circuit and waveform generator,

It is characterized in that: described infrared remote-controlled signal generator also comprises remote controller, infrared remote receiver, frequency range switching controller, summing circuit and compressor circuit;

Described remote controller is with key information, by sending infrared signal to described infrared remote receiver after coding, the modulation;

Described infrared remote receiver receives the infrared signal that described remote controller sends, and converts the signal of telecommunication to, and carries out demodulation, decoding, amplification, outputs a control signal to described single-chip microcomputer;

Described keyboard outputs a control signal to described single-chip microcomputer;

Described single-chip microcomputer receives the control signal of described infrared remote receiver output and/or receives the control signal of described keyboard output, process conversion, output signal is to described frequency range switching controller, described reference voltage generating circuit and described compressor circuit, and described single-chip microcomputer also output waveform select control signal to described waveform generator;

Described frequency range switching controller receives the signal of described single-chip microcomputer output, and the output frequency control signal is to described waveform generator; The frequency of control signal generator output signal;

After described reference voltage generating circuit received the signal of described single-chip microcomputer output, output reference voltage arrived described summing circuit,

Described compressor circuit receives the signal of described single-chip microcomputer output, and the aanalogvoltage that produces after compressing outputs to described summing circuit; Compressor circuit dwindles the change in voltage scope, improves the precision of signal generator output signal;

Described summing circuit receives the voltage signal of described reference voltage generating circuit and the output of described compressor circuit, and the processing of suing for peace outputs to described waveform generator;

Waveform generator receives the waveform of single-chip microcomputer output and selects control signal, and receives the frequency control signal of described frequency range switching controller output, and simultaneously, described waveform generator receives the voltage signal of described summing circuit output, produces waveform signal.

According to a kind of preferred version of infrared remote-controlled signal generator described in the utility model, between described summing circuit and described waveform generator, be provided with hand-operated switch; When manually controlling, the voltage signal of described summing circuit output converts the FREQUENCY CONTROL electric current to by hand-operated switch, outputs to waveform generator; Described waveform generator receives the FREQUENCY CONTROL electric current of hand-operated switch output, the waveform of single-chip microcomputer output is selected the frequency control signal of control signal and the output of described frequency range switching controller, produces waveform signal; By hand-operated switch is set, realize the manual control to output waveform, when manual control, the type of waveform signal, frequency and amplitude are by hand-operated switch, frequency range switching controller and Single-chip Controlling.

According to a kind of preferred version of infrared remote-controlled signal generator described in the utility model, described infrared remote-controlled signal generator also is provided with the DA change-over circuit;

Described DA change-over circuit converts described single-chip microcomputer output digit signals to analog signal output to described compressor circuit;

Described compressor circuit receives the analog signal of described DA change-over circuit output and the control signal of described single-chip microcomputer output, and the aanalogvoltage that produces after compressing outputs to described summing circuit.

The DA change-over circuit is set the range of choice of single-chip microcomputer is enlarged, can select not to be with the single-chip microcomputer of DA conversion, reduce product cost.

According to a kind of preferred version of infrared remote-controlled signal generator described in the utility model, described infrared remote-controlled signal generator also is provided with amplifying circuit and display panel;

Described DA change-over circuit output amplifier gain control signal is to described amplifying circuit;

Described amplifying circuit receives the amplifier gain control signal of described DA change-over circuit output, outputs to display panel after the waveform signal of waveform generator output is amplified and shows.

The beneficial effect of infrared remote-controlled signal generator described in the utility model is: the utility model can the far distance controlled function signal generator, can automatically control, and can manually control again, can realize frequency, amplitude, Waveform Control; Simultaneously, aspect the data processing, adopt the frequency range compress technique, improved data bits, improved control precision.

Description of drawings

Fig. 1 is the schematic block circuit diagram of infrared remote-controlled signal generator described in the utility model.

Fig. 2 is the circuit theory diagrams of frequency range switching controller 7 described in the utility model.

Fig. 3 is the circuit theory diagrams of DA change-over circuit 8 described in the utility model, reference voltage generating circuit 9, summing circuit 10 and compressor circuit 11.

Fig. 4 is the partial circuit schematic diagram of DA change-over circuit 8.

Embodiment

Referring to Fig. 1,1. the infrared remote-controlled signal generator is made of remote controller 1, infrared remote receiver 2, keyboard 3, single-chip microcomputer 4, display 5, frequency range switching controller 7, reference voltage generating circuit 9, summing circuit 10, compressor circuit 11, hand-operated switch 12 and waveform generator 13;

Wherein: described remote controller 1 is with key information, by sending infrared signal to described infrared remote receiver 2 after coding, the modulation; The key information of remote controller 1 output comprises frequency numerical value, amplitude numerical value, type of waveform;

Described infrared remote receiver 2 receives the infrared signal that described remote controller 1 sends, and converts the signal of telecommunication to, and amplify, demodulation, decoding, output a control signal to described single-chip microcomputer 4;

Described keyboard 3 outputs a control signal to described single-chip microcomputer 4; The control signal of keyboard 3 outputs comprises frequency numerical value, amplitude numerical value, type of waveform;

Described single-chip microcomputer 4 receives the control signal of described infrared remote receiver 2 outputs and/or receives the control signal of described keyboard 3 outputs, process conversion, output signal is to described frequency range switching controller 7, described reference voltage generating circuit 9 and described compressor circuit 11, and described single-chip microcomputer 4 is gone back output waveform selection control signal to described waveform generator 13;

Described frequency range switching controller 7 receives the signal of described single-chip microcomputer 4 outputs, and the output frequency control signal is to described waveform generator 13;

After described reference voltage generating circuit 9 received the signal of described single-chip microcomputer 4 outputs, output reference voltage arrived described summing circuit 10,

Described compressor circuit 11 receives the signal of described single-chip microcomputer 4 outputs, and the aanalogvoltage that produces after compressing outputs to described summing circuit 10;

Described summing circuit 10 receives the voltage signal of described reference voltage generating circuit 9 and 11 outputs of described compressor circuit, and the processing of suing for peace outputs to described waveform generator 13;

Waveform generator 13 receives the waveform of single-chip microcomputer 4 outputs and selects control signal, and receives the frequency control signal of described frequency range switching controller 7 outputs, and simultaneously, described waveform generator 13 receives the voltage signal of described summing circuit 10 outputs, produces waveform signal.

In specific embodiment, between described summing circuit 10 and described waveform generator 13, be provided with hand-operated switch 12; The voltage signal of described summing circuit 10 outputs converts the FREQUENCY CONTROL electric current to by hand-operated switch 12, outputs to waveform generator 13; Described waveform generator 13 receives the FREQUENCY CONTROL electric current of hand-operated switch 12 outputs, the waveform of single-chip microcomputer 4 outputs is selected the frequency control signal of control signal and 7 outputs of described frequency range switching controller, produces waveform signal.Be provided with manually, automatically control change over switch and adjustable potentiometer in the hand-operated switch 12, adjustable potentiometer is used for converting the voltage signal that summing circuit 10 is exported to the FREQUENCY CONTROL electric current and outputs to waveform generator 13.

In specific embodiment, can select not to be with the single-chip microcomputer of DA conversion, and DA change-over circuit 8, amplifying circuit 14 and display panel 15 are set in the infrared remote-controlled signal generator;

Described DA change-over circuit 8 converts described single-chip microcomputer 4 output digit signals to analog signal output to described compressor circuit 11; Simultaneously, DA change-over circuit 8 converts described single-chip microcomputer 4 output digit signals to the amplifier gain control signal and outputs to amplifying circuit 14;

Described compressor circuit 11 receives the analog signal of described DA change-over circuit 8 outputs and the control signal of described single-chip microcomputer 4 outputs, and the aanalogvoltage that produces after compressing outputs to described summing circuit 10.

Described amplifying circuit 14 receives the amplifier gain control signal of described DA change-over circuit 8 outputs, outputs to display panel 15 after the waveform signal of waveform generator 13 outputs is amplified and shows.

Wherein, described remote controller 1 comprises coding chip, timing circuit, keyboard circuit, drive circuit and infrared light emitting diode; The specific coding chip can adopt the SAA3010 chip, adopts the RC-5 protocol code, and 2 start bits, 1 control bit, 5 systematic codes and 6 bit instruction codes are arranged.Keyboard circuit comprises numerical key, frequency acknowledgement key, amplitude acknowledgement key, scanning key, sinusoidal wave options button, square wave options button and sawtooth waveforms options button.

Wherein, DA changes 8 circuit and is made of D/A conversion chip, constant current and voltage transitions amplifying circuit and level shifter.The D/A conversion chip receives the data of single-chip microcomputer 4 outputs, carry out the D/A conversion, output current signal carries out constant current and voltage transitions to constant current and voltage transitions amplifying circuit, output controls voltage to compressor circuit 11 and compresses processing, and the control voltage of constant current and the output of voltage transitions amplifying circuit is processed by level shifter, generate the amplifier gain control signal that amplifying circuit 14 needs, output to amplifying circuit 14.

Described reference voltage generating circuit 9 is under the control of single-chip microcomputer 4 output signals, and dividing potential drop obtains different reference voltages, and this voltage amplifies through isolation, to prevent the impact of other circuit.

Referring to Fig. 3 and Fig. 4, in specific embodiment, DA conversion 8 comprises D/A conversion chip 8U01,8U03, and the DI0 of D/A conversion chip～DI7 connects single-chip microcomputer 4 outputs; Constant current and voltage transitions amplifying circuit comprise amplifier 8U02A, 8U02C; Level shifter comprises amplifier 8U02D, resistance 8R01,8R02,8R03.

In specific embodiment, compressor circuit 11 is comprised of analog switch 11U01, amplifier 8U02B, resistance 11R01～11R09.Output signal by single-chip microcomputer 4 is controlled A, B, the C end of analog switch 11U01, selects the input resistance 11R04～11R09 of access amplifier, changes the amplification coefficient of amplifier 8U02B, to adapt to the needs of compression.

In specific embodiment, described summing circuit 10 is comprised of amplifier 12U01A, resistance 10R01～10R04.

After adopting compressor circuit and summing circuit, the band limits of high band is reduced into 2MHZ, and step-length is reduced to 1/5 of general circuit, improves the precision of signal generator output signal.

In specific embodiment, reference voltage generating circuit 9 comprises analog switch 9U02, amplifier 12U01C, resistance 9R01～9R10.Output signal by single-chip microcomputer 4 is controlled A, B, the C end of analog switch 9U02, selects the input resistance 9R02～9R07 of access amplifier, obtains different reference voltages.

Referring to Fig. 2, in specific embodiment, described frequency range conversion control circuit 7 is comprised of analog switch 7U01 and electric capacity 7C01～7C08.Output signal by single-chip microcomputer 4 is controlled the electric capacity of access different capabilities, the operating frequency of change waveform generator 13 to A, B, the C end of analog switch 7U01.

The utility model operation principle:

Infrared remote receiver receives the code signal of remote controller output, carry out demodulation, decoding, output to single-chip microcomputer, single-chip microcomputer receives the control signal of the machine keyboard output and/or the control signal of infrared remote receiver output, and processes, send the frequency range control signal, the frequency data signal, the amplitude data signal, the control waveform generator sends the waveform signal of certain frequency, these waveforms comprise sine wave, square wave, sawtooth waveforms etc., and its signal frequency can show by display panel 15.The difference of the utility model and other function signal generator has realized the far distance controlled function signal generator, can automatically control, and can manually control again, can realize frequency, amplitude, Waveform Control; Simultaneously, aspect the data processing, adopt the frequency range compress technique, improved data bits, improved control precision.

Claims (4)

1. infrared remote-controlled signal generator comprises: single-chip microcomputer (4), keyboard (3), reference voltage generating circuit (9) and waveform generator (13),

It is characterized in that: described infrared remote-controlled signal generator also comprises remote controller (1), infrared remote receiver (2), frequency range switching controller (7), summing circuit (10) and compressor circuit (11);

Described remote controller (1) is with key information, by sending infrared signal to described infrared remote receiver (2) after coding, the modulation;

Described infrared remote receiver (2) receives the infrared signal that described remote controller (1) sends, and converts the signal of telecommunication to, and carries out demodulation, decoding, amplification, outputs a control signal to described single-chip microcomputer (4);

Described keyboard (3) outputs a control signal to described single-chip microcomputer (4);

Described single-chip microcomputer (4) receives the control signal of described infrared remote receiver (2) output and/or receives the control signal of described keyboard (3) output, process conversion, output signal is to described frequency range switching controller (7), described reference voltage generating circuit (9) and described compressor circuit (11), and described single-chip microcomputer (4) is gone back output waveform selection control signal to described waveform generator (13);

Described frequency range switching controller (7) receives the signal of described single-chip microcomputer (4) output, and the output frequency control signal is to described waveform generator (13);

After described reference voltage generating circuit (9) received the signal of described single-chip microcomputer (4) output, output reference voltage arrived described summing circuit (10),

Described compressor circuit (11) receives the signal of described single-chip microcomputer (4) output, and the aanalogvoltage that produces after compressing outputs to described summing circuit (10);

Described summing circuit (10) receives the voltage signal of described reference voltage generating circuit (9) and described compressor circuit (11) output, and the processing of suing for peace outputs to described waveform generator (13);

Waveform generator (13) receives the waveform of single-chip microcomputer (4) output and selects control signal, and receive the frequency control signal of described frequency range switching controller (7) output, simultaneously, described waveform generator (13) receives the voltage signal of described summing circuit (10) output, produces waveform signal.

2. infrared remote-controlled signal generator according to claim 1 is characterized in that: be provided with hand-operated switch (12) between described summing circuit (10) and described waveform generator (13); The voltage signal of described summing circuit (10) output converts the FREQUENCY CONTROL electric current to by hand-operated switch (12), outputs to waveform generator (13); Described waveform generator (13) receives the FREQUENCY CONTROL electric current of hand-operated switch (12) output, the waveform of single-chip microcomputer (4) output is selected the frequency control signal of control signal and described frequency range switching controller (7) output, produces waveform signal.

3. infrared remote-controlled signal generator according to claim 1 and 2, it is characterized in that: described infrared remote-controlled signal generator also is provided with DA change-over circuit (8);

Described DA change-over circuit (8) converts described single-chip microcomputer (4) output digit signals to analog signal output to described compressor circuit (11);

Described compressor circuit (11) receives the analog signal of described DA change-over circuit (8) output and the control signal of described single-chip microcomputer (4) output, and the aanalogvoltage that produces after compressing outputs to described summing circuit (10).

4. infrared remote-controlled signal generator according to claim 3 is characterized in that:

Described infrared remote-controlled signal generator also is provided with amplifying circuit (14) and display panel (15);

Described DA change-over circuit (8) output amplifier gain control signal is to described amplifying circuit (14);

Described amplifying circuit (14) receives the amplifier gain control signal of described DA change-over circuit (8) output, outputs to display panel (15) after the waveform signal of waveform generator (13) output is amplified and shows.

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