CN103049993B - Wireless remote control receiver capable of transmitting feedback information - Google Patents

Abstract

The invention discloses a wireless remote control receiver capable of transmitting feedback information, which relates to an electronic remote control receiving apparatus. The wireless remote control receiver mainly comprises a shell, electronic elements and a circuit board, wherein the panel of the shell is provided with a socket outlet and an indication lamp, the rear part of the shell is externally connected with a receiving antenna, a transmitting antenna and a cable, the electronic elements are mounted on the circuit board, the indication lamp, the receiving antenna, the transmitting antenna and a lead of the cable are connected to the circuit board, and the circuit board is arranged in the shell. The wireless remote control receiver is used in cooperation with a wireless remote control transmitter, when the wireless remote control transmitter transmits a starting-up remote control signal to the receiver, the output end of the receiver switches on the power, meanwhile, an oscillator of the receiver works, and the oscillator transmits a feedback signal to the remote control transmitter through a high frequency electromagnetic wave transmitting circuit so as to light the indication lamp of the remote control transmitter, thereby confirming that remote control starting up is successful. The wireless remote control receiver capable of transmitting feedback information is suitable for being used in industrial production, engineering construction, hazardous operation and daily life, and further facilitates the work and the life of people.

Description

A kind of Wireless remote receiver with transmitting feedback information

Technical field

The present invention relates to electronic apparatus, specially refer to a kind of electronic telecontrol receiving trap.

Background technology

Current, electronic telecontrol operates in household electrical appliance and commercial production and is used widely, and greatly facilitates people's work and life.

But current electronic telecontrol transmitter and receiver do not have the function of feedback information, when remote control distance is far away or in the situation that not observing, be difficult to be confirmed whether remote control success, can only confirm by other communication tool, as the other side's unmanned, just be difficult to confirm remote control situation.

Chinese Patent Application No. 201310048690.3 discloses " a kind of wireless remote control emitter with receiving feedback information " that the applicant provides, for the straighforward operation of commercial production, engineering construction, dangerous operation, daily life and entertainment, when sending instruction, can determine that whether the other side is by remote control success.

Summary of the invention

The invention provides a kind of Wireless remote receiver with transmitting feedback information being used in conjunction with Chinese Patent Application No. 201310048690.3, for the straighforward operation of commercial production, engineering construction, dangerous operation, daily life and entertainment, when the other side sends operational order, energy transmitting feedback information is to the other side, make, to confirming remote control success, to further facilitate people's work and life.

A kind of Wireless remote receiver with transmitting feedback information of the present invention, mainly by housing (1), electronic component and circuit board, formed, wherein, on the panel (2) of housing, there are receptacle (3) and pilot lamp (4), at the rear portion of housing (1), there are receiving antenna (X1), emitting antenna (X2) and cable (5) to pick out, electronic component is arranged on circuit board, the lead-in wire of pilot lamp (4), receiving antenna (X1), emitting antenna (X2) and cable (5) is connected on circuit board, and circuit board is arranged in housing (1); Circuit structure on circuit board is: commutation diode a(VD1) anodic bonding to ground end, commutation diode a(VD1) negative electrode and commutation diode b(VD2) anode and connect after be connected to one end of dropping resistor (R1), the other end of dropping resistor (R1) is connected to one end of decompression capacitor (C2), and the other end of decompression capacitor (C2) is connected to the phase line cap (L) of alternating current 220V power supply; Commutation diode b(VD2) negative electrode be connected to one end, the negative electrode of voltage stabilizing diode (VD3), a stiff end of variable resistor (RP), one end of biasing resistor (R2), the triode b(VT2 of filter capacitor (C1)) current collection collection, positive pole, the vdd terminal of d type flip flop (IC4) and one end of transmitting coil (T2) of anti-interference condenser (C4), another stiff end of the other end of filter capacitor (C1), the anode of voltage stabilizing diode (VD3) and variable resistor (RP) is connected to be held; The movable end of variable resistor (RP) is connected to one end of negative electrode and the frequency-selecting capacitor (C3) of varactor (VD4), the other end of frequency-selecting capacitor (C3) is connected to one end, receiving antenna (X1) and the commutation diode c(VD5 of receiving coil (T1)) anode, the anodic bonding of the other end of receiving coil (T1) and varactor (VD4) is to ground end; Commutation diode c(VD5) negative electrode and commutation diode d(VD6) negative electrode and connect after be connected to triode a(VT1) base stage, triode a(VT1) emitter be connected to the anode of clamp diode (VD7), the negative electrode of clamp diode (VD7) and commutation diode d(VD6) anodic bonding to ground end; Triode a(VT1) collector be connected to the other end and the not gate a(IC1 of biasing resistor (R2)) input end, not gate a(IC1) output terminal be connected to triode b(VT2) base stage, triode b(VT2) emitter be connected to the CP end of the negative pole of anti-interference condenser (C4), the one end of being close to road resistance (R3) and d type flip flop (IC4), the other end that is close to road resistance (R3) is connected to be held; S end, R end and the VSS end of d type flip flop (IC4) are connected to be held; The D end of d type flip flop (IC4) is connected to

end, the Q end of d type flip flop (IC4) is connected to the one end and the not gate b(IC2 that drive resistance (R5)) input end, drive the other end of resistance (R5) to be connected to the control utmost point of two-way push controllable silicon (VS1), the negative electrode of two-way push controllable silicon (VS1) is connected to the control utmost point of bidirectional power controllable silicon (VS2), and the negative electrode of bidirectional power controllable silicon (VS2) is connected to phase line output port (L '); The anode of the anode of two-way push controllable silicon (VS1) and bidirectional power controllable silicon (VS2) and connect after be connected to the phase line cap (L) of alternating current 220V power supply; Not gate b(IC2) output terminal be connected to the anode of isolating diode (VD8), the negative electrode of isolating diode (VD8) is connected to one end of oscillating capacitor (C5), one end and the not gate c(IC3 of oscillation resistance (R4)) input end, the other end of oscillating capacitor (C5) is connected to be held; Not gate c(IC3) output terminal and the other end of oscillation resistance (R4) be connected to current-limiting resistance a(R6) one end, current-limiting resistance a(R6) the other end be connected to triode c(VT3) base stage, triode c(VT3) emitter be connected to and hold, triode c(VT3) collector be connected to the other end of emitting antenna (X2) and transmitting coil (T2); The neutral line port (N) of alternating current 220V power supply is connected to be held.During concrete enforcement, not gate a(IC1), not gate b(IC2) and not gate c(IC3) share the cmos digital integrated circuit of a CD40106 hex inverter, the present invention only uses three groups of not gates wherein, the input end of untapped another three groups of not gates is connected to be held or working power or the rear triode c(VT3 that replaces in parallel), the vdd terminal of CD40106 hex inverter is connected to working power, and the VSS end of CD40106 hex inverter is connected to be held.

In above-mentioned invention, it is characterized in that current limiting resistance b(R7 in circuit structure), light emitting diode (VD9) and reverse protection diode (VD10), current-limiting resistance b(R7) one end be connected to phase line output port (L '), current-limiting resistance b(R7) the other end be connected to the anode of light emitting diode (VD9) and the negative electrode of reverse protection diode (VD10), the anodic bonding of the negative electrode of light emitting diode (VD9) and reverse protection diode (VD10) is to ground end; Luminophor by light emitting diode (VD9) forms pilot lamp (4); Receptacle (3) on panel (2) comprises Three-hole socket and two hole socket, on Three-hole socket, there are phase line jack, neutral line jack and protective ground jack, on two hole socket, have phase line jack and neutral line jack, the phase line jack on phase line jack and two hole socket on Three-hole socket is connected to phase line output port on circuit board (L '); Neutral line jack on neutral line jack and two hole socket on Three-hole socket is connected to the neutral line port (N) of alternating current 220V power supply, and the protective ground jack on Three-hole socket is connected to protective ground port (G).

In the circuit structure of foregoing invention, by dropping resistor (R1) and decompression capacitor (C2) structure, at reduction voltage circuit, dropping resistor (R1) and decompression capacitor (C2) series connection are used and can be made decompression capacitor (C2) avoid rush of current and damage, by commutation diode a(VD1), commutation diode b(VD2), filter capacitor (C1) and voltage stabilizing diode (VD3) form rectifying and wave-filtering and mu balanced circuit, as the working power of receiver, by receiving coil (T1), varactor (VD4) and frequency-selecting capacitor (C3), form resonant circuit, regulate variable resistor (RP), the frequency signal that resonant circuit is chosen send from remote control transmitter, the remote signal that resonant circuit is chosen is through commutation diode a(VD5) and commutation diode b(VD6) carry out after multiplication of voltage lifting, be input to triode a(VT1) base stage, make triode a(VT1) conducting, thereby make not gate a(IC1) input end be low level, output terminal is high level, not gate a(IC1) output terminal high level impel triode b(VT2) collector and emitter between conducting, anti-interference condenser (C4) is by triode b(VT2) rapid discharge, make the CP input end of d type flip flop (IC4) obtain rising edge trigger pip, thereby make the Q output terminal level upset of d type flip flop (IC4), the level upset of the Q output terminal of d type flip flop (IC4) is controlled the utmost point by driving resistance (R5) to be input to two-way push controllable silicon (VS1), make (VS1) conducting of two-way push controllable silicon or cut-off, then drive (VS2) conducting of bidirectional power controllable silicon or cut-off, thereby make the output terminal (OUT) of this receiver be switched on or switched off power supply, d type flip flop of the present invention (IC4) connects into bistable trigger mode, when having rising edge pulse to be input to the CP end of d type flip flop (IC4), will make the level upset of Q output terminal, at the CP input end of d type flip flop (IC4), anti-interference condenser (C4) is set, after capacitor (C4) charging, making the CP input end of d type flip flop (IC4) is low level, only have and become after low level when the CP input end of d type flip flop (IC4), rising edge pulse just can make the Q output terminal level upset of d type flip flop (IC4), any undesired signal at capacitor (C4) in the duration of charging all can not make the Q output terminal level upset of d type flip flop (IC4), the Q output terminal of d type flip flop (IC4) is transported to not gate b(IC2 simultaneously) input end, when the Q output terminal of d type flip flop (IC4) is high level, when making bidirectional power controlled silicon conducting, make not gate b(IC2) input end be high level, output terminal is low level, make oscillator release, oscillator work, when the Q output terminal of d type flip flop (IC4) is low level, when making the cut-off of bidirectional power controllable silicon, make not gate b(IC2) input end be low level, output terminal is high level, by isolating diode (VD8) pin pierce circuit, oscillator is quit work, by not gate c(IC3), oscillation resistance (R4) and oscillating capacitor (C5) form pierce circuit, as not gate b(IC2) output terminal when being low level and making oscillator release starting of oscillation, not gate c(IC3) input end be just low level, make not gate c(IC3) output terminal be high level, not gate c(IC3) high level of output terminal charges to oscillating capacitor (C5) by oscillation resistance (R4), when the charging voltage of oscillating capacitor (C5) reaches 2/3VDD voltage, not gate c(IC3) output terminal is just low level, oscillating capacitor (C5) just by oscillation resistance (R4) to not gate c(IC3) output terminal electric discharge, when the voltage on oscillating capacitor (C5) drops to 1/3VDD voltage, not gate c(IC3) output terminal is again high level, not gate c(IC3) high level of output terminal charges to oscillating capacitor (C5) by oscillation resistance (R4) again, so go round and begin again, make not gate c(IC3) output terminal appearance high level and the low level of going round and beginning again, form oscillator signal, oscillation frequency f=1/1.4RC, the oscillator signal that oscillator produces is by triode c(VT3) amplify, then by transmitting coil (T2) and emitting antenna (X2), to remote control transmitter, send feedback signal, when the output terminal (OUT) of this receiver switches on power, electric current is by current-limiting resistance b(R7) and light emitting diode (VD9) to ground end, light emitting diode (VD9) is lighted, display power supply connection, reverse protection diode (VD10) carries out reverse parallel connection with light emitting diode (VD9), to avoid light emitting diode (VD9) bear too high back-pressure and damage.

The present invention is for the straighforward operation of commercial production, engineering construction, dangerous operation and daily life, make household electrical appliance or production equipment start or shutdown, and can send feedback information to remote control transmitter, make remote control transmitter can determine that whether household electrical appliance or production equipment are by remote control success.

The present invention is used in conjunction with the wireless remote control emitter with receiving feedback information, the feedback information frequency that the remote control frequency that wireless remote control emitter is transmitted to this receiver and this receiver are transmitted to wireless remote control emitter is two kinds of different frequencies, the remote control frequency of wireless remote control emitter transmitting is identical with the receive frequency of this receiver, and the receive frequency of wireless remote control emitter is identical with the feedback information frequency of this receiver transmitting.When wireless remote control emitter is started shooting remote signal to the transmitting of this receiver, the Q output terminal of the d type flip flop (IC4) of this receiver is high level, make two-way push controllable silicon (VS1) and bidirectional power controllable silicon (VS2) conducting, thereby the output terminal (OUT) of this receiver is switched on power, simultaneously, make the oscillator work of this receiver, by high-frequency electromagnetic wave transmitting circuit emitting electromagnetic wave, to remote control transmitter, send feedback signal, the pilot lamp of remote control transmitter is lighted, thereby determined remote-controlled start-up success; When wireless remote control emitter shuts down remote signal to the transmitting of this receiver, the Q output terminal of d type flip flop (IC4) is low level, make two-way push controllable silicon (VS1) and bidirectional power controllable silicon (VS2) cut-off, thereby make output terminal (OUT) deenergization of this receiver, meanwhile, the oscillator of this receiver is quit work, high-frequency electromagnetic wave transmitting circuit stops emitting electromagnetic wave, the pilot lamp of remote control transmitter is extinguished, thereby determine remote-control closedown success.

The invention has the beneficial effects as follows: a kind of Wireless remote receiver with transmitting feedback information is provided, come remote control home appliance or production equipment start or shutdown, and can send feedback information to remote control transmitter, make remote control transmitter can determine that whether household electrical appliance or production equipment are by remote control success, the present invention is adapted at applying in commercial production, engineering construction, dangerous operation and daily life, further facilitates people's work and life.

Accompanying drawing explanation

Fig. 1 is a kind of Wireless remote receiver external view with transmitting feedback information of the present invention.

Fig. 2 is the internal circuit diagram of the Wireless remote receiver with transmitting feedback information of the present invention.

In figure: 1. housing, 2. panel, 3. the receptacle of output terminal, 4. pilot lamp, 5. cable, VD1. commutation diode a, VD2. commutation diode b, VD3. voltage stabilizing diode, VD4. varactor, VD5. commutation diode c, VD6. commutation diode d, VD7. clamp diode, VD8. isolating diode, VD9. light emitting diode, VD10. reverse protection diode, RP. variable resistor, R1. dropping resistor, R2. biasing resistor, R3.Bang road resistance, R4. oscillation resistance, R5. drive resistance, R6. current-limiting resistance a, R7. current-limiting resistance b, C1. filter capacitor, C2. decompression capacitor, C3. frequency-selecting capacitor, C4. anti-interference condenser, C5. oscillating capacitor, VT1. triode a, VT2. triode b, VT3. triode c, IC1. not gate a, IC2. not gate b, IC3. not gate c, IC4.D trigger, VS1. two-way push controllable silicon, VS2. bidirectional power controllable silicon, T1. receiving coil, T2. transmitting coil, X1. receiving antenna, X2. emitting antenna, OUT. output terminal, L. the phase line cap of alternating current 220V power supply, L '. phase line output port, N. the neutral line port of alternating current 220V power supply, G. protective ground port.

Embodiment

A kind of Wireless remote receiver with transmitting feedback information shown in embodiment Fig. 1 and Fig. 2, mainly by housing (1), electronic component and circuit board, formed, wherein, the panel (2) of housing has receptacle (3) and pilot lamp (4), and pilot lamp (4) consists of the luminophor of light emitting diode (VD9); At the rear portion of housing (1), there are receiving antenna (X1), emitting antenna (X2) and cable (5) to pick out, electronic component is arranged on circuit board, the lead-in wire of pilot lamp (4), receiving antenna (X1), emitting antenna (X2) and cable (5) is connected on circuit board, and circuit board is arranged in housing (1); Circuit structure on circuit board is: commutation diode a(VD1) anodic bonding to ground end, commutation diode a(VD1) negative electrode and commutation diode b(VD2) anode and connect after be connected to one end of dropping resistor (R1), the other end of dropping resistor (R1) is connected to one end of decompression capacitor (C2), and the other end of decompression capacitor (C2) is connected to the phase line cap (L) of alternating current 220V power supply; Commutation diode b(VD2) negative electrode be connected to one end, the negative electrode of voltage stabilizing diode (VD3), a stiff end of variable resistor (RP), one end of biasing resistor (R2), the triode b(VT2 of filter capacitor (C1)) current collection collection, positive pole, the vdd terminal of d type flip flop (IC4) and one end of transmitting coil (T2) of anti-interference condenser (C4), another stiff end of the other end of filter capacitor (C1), the anode of voltage stabilizing diode (VD3) and variable resistor (RP) is connected to be held; The movable end of variable resistor (RP) is connected to one end of negative electrode and the frequency-selecting capacitor (C3) of varactor (VD4), the other end of frequency-selecting capacitor (C3) is connected to one end, receiving antenna (X1) and the commutation diode c(VD5 of receiving coil (T1)) anode, the anodic bonding of the other end of receiving coil (T1) and varactor (VD4) is to ground end; Commutation diode c(VD5) negative electrode and commutation diode d(VD6) negative electrode and connect after be connected to triode a(VT1) base stage, triode a(VT1) emitter be connected to the anode of clamp diode (VD7), the negative electrode of clamp diode (VD7) and commutation diode d(VD6) anodic bonding to ground end; Triode a(VT1) collector be connected to the other end and the not gate a(IC1 of biasing resistor (R2)) input end, not gate a(IC1) output terminal be connected to triode b(VT2) base stage, triode b(VT2) emitter be connected to the CP end of the negative pole of anti-interference condenser (C4), the one end of being close to road resistance (R3) and d type flip flop (IC4), the other end that is close to road resistance (R3) is connected to be held; S end, R end and the VSS end of d type flip flop (IC4) are connected to be held; The D end of d type flip flop (IC4) is connected to

end, the Q end of d type flip flop (IC4) is connected to the one end and the not gate b(IC2 that drive resistance (R5)) input end, drive the other end of resistance (R5) to be connected to the control utmost point of two-way push controllable silicon (VS1), the negative electrode of two-way push controllable silicon (VS1) is connected to the control utmost point of bidirectional power controllable silicon (VS2), and the negative electrode of bidirectional power controllable silicon (VS2) is connected to phase line output port (L '); The anode of the anode of two-way push controllable silicon (VS1) and bidirectional power controllable silicon (VS2) and connect after be connected to the phase line cap (L) of alternating current 220V power supply; Not gate b(IC2) output terminal be connected to the anode of isolating diode (VD8), the negative electrode of isolating diode (VD8) is connected to one end of oscillating capacitor (C5), one end and the not gate c(IC3 of oscillation resistance (R4)) input end, the other end of oscillating capacitor (C5) is connected to be held; Not gate c(IC3) output terminal and the other end of oscillation resistance (R4) be connected to current-limiting resistance a(R6) one end, current-limiting resistance a(R6) the other end be connected to triode c(VT3) base stage, triode c(VT3) emitter be connected to and hold, triode c(VT3) collector be connected to the other end of emitting antenna (X2) and transmitting coil (T2); The neutral line port (N) of alternating current 220V power supply is connected to be held; Current-limiting resistance b(R7) one end be connected to phase line output port (L '); current-limiting resistance b(R7) the other end be connected to the anode of light emitting diode (VD9) and the negative electrode of reverse protection diode (VD10), the anodic bonding of the negative electrode of light emitting diode (VD9) and reverse protection diode (VD10) is to ground end.Not gate a(IC1), not gate b(IC2) and not gate c(IC3) share the cmos digital integrated circuit of a CD40106 hex inverter, the present embodiment is only used three groups of not gates wherein, the input end of untapped another three groups of not gates is connected to be held or working power, the vdd terminal of CD40106 hex inverter is connected to working power, and the VSS end of CD40106 hex inverter is connected to be held.Phase line cap (L) and neutral line port (N) are connected to alternating current 220V power supply by cable (5).

In the present embodiment, the output terminal (OUT) that receptacle (3) on panel (2) is circuit, output terminal (OUT) has Three-hole socket and two hole socket, on Three-hole socket, there are phase line jack, neutral line jack and protective ground jack, on two hole socket, have phase line jack and neutral line jack, the phase line jack on phase line jack and two hole socket on Three-hole socket is connected to phase line output port on circuit board (L '); Neutral line jack on neutral line jack and two hole socket on Three-hole socket is connected to the neutral line port (N) of alternating current 220V power supply; protective ground jack on Three-hole socket is connected to protective ground port (G), and protective ground port (G) is connected to the earth by the ground wire in cable (5).

The present embodiment is used in commercial production, engineering construction, dangerous operation and daily life, the attaching plug of household electrical appliance or production equipment is plugged in receptacle (3), by straighforward operation, make the start of household electrical appliance or production equipment or shutdown, by the pilot lamp of telepilot, light or extinguish and determine that household electrical appliance or production equipment are whether by remote-controlled start-up or shut down successfully.In the present embodiment, the frequency of operation of remote control transmitter and this receiver is selected between 30-40MHz.

In the above embodiments, the voltage of voltage regulation of voltage stabilizing diode (VD3) is 12V, VD4 selects the varactor of 2CB series, commutation diode a(VD1), commutation diode b(VD2), commutation diode c(VD5), commutation diode d(VD6), clamp diode (VD7), isolating diode (VD8) and reverse protection diode (VD10) are selected the silicon rectifier diode of 1N4001 model, light emitting diode (VD9) is selected the high brightness LED of 5 millimeters of diameters, variable resistor (RP) is selected the variable resistor of 20K Ω, dropping resistor (R1) is selected the carbon resistance film of 300 Ω/1W, biasing resistor (R2) is selected the metalfilmresistor of 20K Ω/025W, be close to road resistance (R3) and select the carbon resister of 100K Ω/025W, the metalfilmresistor of 1K Ω/0.25W that oscillation resistance (R4) is selected, drive resistance (R5) to select the carbon resister of 2 K Ω/1W, current-limiting resistance a(R6) select the carbon resister of 10K Ω/0.25W, current-limiting resistance b(R7) select the carbon resister of 120K Ω/1W, filter capacitor (C1) is selected the electrolytic condenser of 100uF/16V, decompression capacitor (C2) is selected the polypropylene capacitor of 0.33uF/400V, frequency-selecting capacitor (C3) is selected the ceramic disc capacitor device of 0.01uF/50V, anti-interference condenser (C4) is selected the ceramic disc capacitor device of 0.022uF/25V, oscillating capacitor (C5) is selected the ceramic disc capacitor device of 20pF/25V, triode a(VT1), triode b(VT2) and triode c(VT3) Technitron of 3DG122 selected, d type flip flop (IC4) is selected the two rising edge d type flip flops of the CD4013 of CMOS, (VS1) select the miniwatt bidirectional triode thyristor of 1A/400V, (VS2) select the great power bidirectional controllable silicon of 3-100A/600V, the silver jacketed wire of diameter 1.25mm for receiving coil (L1), diameter 10mm long for the shortwave bar magnet of 3cm on around 10 circles, it is that the 10mm number of turns is the air core coil of 6 circles that transmitting coil (L2) is coiled into diameter with the enameled wire of diameter 1mm.

Claims (4)

1. one kind has the Wireless remote receiver of transmitting feedback information, it is characterized in that Wireless remote receiver is mainly comprised of housing (1), electronic component and circuit board, wherein, on the panel (2) of housing, there are receptacle (3) and pilot lamp (4), at the rear portion of housing (1), there are receiving antenna (X1), emitting antenna (X2) and cable (5) to pick out, electronic component is arranged on circuit board, the lead-in wire of pilot lamp (4), receiving antenna (X1), emitting antenna (X2) and cable (5) is connected on circuit board, and circuit board is arranged in housing (1); Circuit structure on circuit board is:

Commutation diode a(VD1) anodic bonding to ground end, commutation diode a(VD1) negative electrode and commutation diode b(VD2) anode and connect after be connected to one end of dropping resistor (R1), the other end of dropping resistor (R1) is connected to one end of decompression capacitor (C2), and the other end of decompression capacitor (C2) is connected to the phase line cap (L) of alternating current 220V power supply; Commutation diode b(VD2) negative electrode be connected to one end, the negative electrode of voltage stabilizing diode (VD3), a stiff end of variable resistor (RP), one end of biasing resistor (R2), the triode b(VT2 of filter capacitor (C1)) current collection collection, positive pole, the vdd terminal of d type flip flop (IC4) and one end of transmitting coil (T2) of anti-interference condenser (C4), another stiff end of the other end of filter capacitor (C1), the anode of voltage stabilizing diode (VD3) and variable resistor (RP) is connected to be held; The movable end of variable resistor (RP) is connected to one end of negative electrode and the frequency-selecting capacitor (C3) of varactor (VD4), the other end of frequency-selecting capacitor (C3) is connected to one end, receiving antenna (X1) and the commutation diode c(VD5 of receiving coil (T1)) anode, the anodic bonding of the other end of receiving coil (T1) and varactor (VD4) is to ground end; Commutation diode c(VD5) negative electrode and commutation diode d(VD6) negative electrode and connect after be connected to triode a(VT1) base stage, triode a(VT1) emitter be connected to the anode of clamp diode (VD7), the negative electrode of clamp diode (VD7) and commutation diode d(VD6) anodic bonding to ground end; Triode a(VT1) collector be connected to the other end and the not gate a(IC1 of biasing resistor (R2)) input end, not gate a(IC1) output terminal be connected to triode b(VT2) base stage, triode b(VT2) emitter be connected to the CP end of the negative pole of anti-interference condenser (C4), the one end of being close to road resistance (R3) and d type flip flop (IC4), the other end that is close to road resistance (R3) is connected to be held; S end, R end and the VSS end of d type flip flop (IC4) are connected to be held; The D end of d type flip flop (IC4) is connected to

end, the Q end of d type flip flop (IC4) is connected to the one end and the not gate b(IC2 that drive resistance (R5)) input end, drive the other end of resistance (R5) to be connected to the control utmost point of two-way push controllable silicon (VS1), the negative electrode of two-way push controllable silicon (VS1) is connected to the control utmost point of bidirectional power controllable silicon (VS2), and the negative electrode of bidirectional power controllable silicon (VS2) is connected to phase line output port (L '); The anode of the anode of two-way push controllable silicon (VS1) and bidirectional power controllable silicon (VS2) and connect after be connected to the phase line cap (L) of alternating current 220V power supply; Not gate b(IC2) output terminal be connected to the anode of isolating diode (VD8), the negative electrode of isolating diode (VD8) is connected to one end of oscillating capacitor (C5), one end and the not gate c(IC3 of oscillation resistance (R4)) input end, the other end of oscillating capacitor (C5) is connected to be held; Not gate c(IC3) output terminal and the other end of oscillation resistance (R4) be connected to current-limiting resistance a(R6) one end, current-limiting resistance a(R6) the other end be connected to triode c(VT3) base stage, triode c(VT3) emitter be connected to and hold, triode c(VT3) collector be connected to the other end of emitting antenna (X2) and transmitting coil (T2); The neutral line port (N) of alternating current 220V power supply is connected to be held.

2. a kind of Wireless remote receiver with transmitting feedback information according to claim 1; it is characterized in that current limiting resistance b(R7 in circuit structure), light emitting diode (VD9) and reverse protection diode (VD10); current-limiting resistance b(R7) one end be connected to phase line output port (L '); current-limiting resistance b(R7) the other end be connected to the anode of light emitting diode (VD9) and the negative electrode of reverse protection diode (VD10), the anodic bonding of the negative electrode of light emitting diode (VD9) and reverse protection diode (VD10) is to ground end.

3. a kind of Wireless remote receiver with transmitting feedback information according to claim 1, is characterized in that forming pilot lamp (4) by the luminophor of light emitting diode (VD9).

4. a kind of Wireless remote receiver with transmitting feedback information according to claim 1, it is characterized in that the receptacle (3) on panel (2) comprises Three-hole socket and two hole socket, on Three-hole socket, there are phase line jack, neutral line jack and protective ground jack, on two hole socket, have phase line jack and neutral line jack, the phase line jack on phase line jack and two hole socket on Three-hole socket is connected to phase line output port on circuit board (L '); Neutral line jack on neutral line jack and two hole socket on Three-hole socket is connected to the neutral line port (N) of alternating current 220V power supply, and the protective ground jack on Three-hole socket is connected to protective ground port (G).

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