CN207037381U - A kind of long-distance intelligent anti-theft alarm system - Google Patents

Abstract

The utility model belongs to automation field, more particularly to a kind of long-distance intelligent anti-theft alarm system.The utility model is made up of multiple detectors and main frame, and detector forms by rpyroelectric infrared detecting module and with coding wireless transmitter module.Detector detects invader by rpyroelectric infrared detecting module, is sent after invader is detected by wireless module position encoded to main frame.Main frame includes central control unit, wireless receiving module, voice module, phone module, screen display module and key-press module, is mountable to fixed position.User predeterminable alarm call number and records alarm voice by the man-machine interface of main frame, and the control that can be withdrawn a garrison and deployed troops on garrison duty.The encoded position signal that main frame is sent out by wireless receiving module pick-up probe steals feelings region to screen.After receiving and stealing feelings, main frame dials predetermined telephone, the alarm voice information such as resident family address of played pre-recorded after closing of the circuit, steals feelings region etc., realizes intelligent remote alarming function.

Description

A kind of long-distance intelligent anti-theft alarm system

Technical field

The utility model belongs to automation field, more particularly to a kind of long-distance intelligent anti-theft alarm system.

Background technology

With continuous improvement of people's life with the level of production and the reinforcement of property safety consciousness, people are to furniture, warehouse Burglar alarm demand Deng place increasingly increases.

It but traditional alarm has some limitations, such as can only be sounded the alarm locally, can not notify to lead People or security personnel, can not screen and steal feelings region, and effect is limited；In addition, the detector of traditional alarm is transmitted using wired mode more Signal or power supply, installation inconvenience.Therefore a kind of anti-theft journal that there is wireless connection, robber feelings region and remote alarms can be screened is designed Alert system has great practical significance.

Utility model content

The purpose of this utility model is to provide a kind of long-distance intelligent anti-theft alarm system, it is intended to solves traditional alarm Installation that wired connection mode is brought is constant and the problem of None- identified steals feelings region, remote alarms, realizes multiplexed detection, nothing Line connection, screen and steal the functions such as feelings region, automatic dialing predetermined telephone remote alarms.

The technical solution of the utility model is as follows：

A kind of long-distance intelligent anti-theft alarm system, including：Detector module, host module；The detector module input For the human body infrared signal of invader, the output end of the detector module is connected to the input of the host module, described The output of host module is remote alarm signal and local voice signal.

Further released according to long-distance intelligent anti-theft alarm system described in the utility model, the detector module including heat Electric infrared detection module and with coding two submodules of wireless transmitter module；The rpyroelectric infrared detecting module input be into The infrared signal of the person's of invading human body, the rpyroelectric infrared detecting module output end are connected to the band coding wireless transmitter module, The band coding wireless transmitter module output end is connected to host module as detector module output signal.

Further according to long-distance intelligent anti-theft alarm system described in the utility model, the host module includes center and controlled Six molding block, wireless receiving module, screen display module, key-press module, voice module, phone module submodules；The nothing The input of line receiving module connects the detector module output signal, and the wireless receiving module output is connected to center control mould Block, the key-press module output are connected to central control module, and the phone module output is connected to the central control module, The central control module output is connected to voice module, screen display module and phone module, the output of the voice module Hold as local voice signal and connect the phone module, the phone module output end is remote alarm signal.

It is further red according to long-distance intelligent anti-theft alarm system described in the utility model, the pyroelectricity of the detecting module Outer detecting module includes model MC7805BT voltage-stabiliser tube U1, model ATQ209 relay U2, a type Number for BISS0001 infrared sensor signal processor U3, model D203S sensor U5, a diode D1, one Individual NPN type triode Q1, adjustable resistance R1, adjustable resistance R4, electrochemical capacitor C2, electrochemical capacitor C3, electrochemical capacitor C6, electrolysis electricity Hold C8 and some capacitance resistances；The pin 1 of the BISS0001 infrared sensor signal processors U3 connects+5V voltages, pin 2 By resistance R6 connections NPN type triode Q1 base stage, pin 3 is connected to pin 4 by resistance R5, and pin 4 passes through electricity Appearance C7 ground connection, the connection electrochemical capacitor C6 positive poles of pin 5, electrochemical capacitor C6 negative poles ground connection, pin 6 and pin 5 connect adjustable respectively Resistance R1 two fixing ends, adjustable resistance R1 control terminal are connected to pin 5, and pin 7 is grounded, pin 8, pin 9, pin 11 Be connected to the pin 1 of the D203S sensors U5, pin 10 is grounded by resistance R8, between pin 12 and pin 13 connection by The electric capacity C1 and resistance R2 loops in parallel formed, connection is by adjustable resistance R4 and electrochemical capacitor C3 strings between pin 13 and pin 16 Join the loop formed, wherein pin 16 connects electrochemical capacitor C3 negative pole, and electrochemical capacitor C3 positive pole and the BISS0001 are red Outer sensing signal processor U3 pin 13 connects adjustable resistance R4 two fixing ends respectively, described in R4 control terminal connection BISS0001 infrared sensor signal processors U3 pin 13, pin 14 connect the pin 2 of the D203S sensors U5, pin The loop that forms in parallel by resistance R7 and electric capacity C4 is connected between 15 and pin 16, pin 15 connects resistance R10, and resistance R10 is another One end connects the positive pole of the electrochemical capacitor C8, electrochemical capacitor C8 negative pole ground connection；The pin 3 of the D203S sensors U5 connects Ground, electric capacity C5 one end connect the D203S sensor pins 2, other end ground connection, and resistance R9 one end connects the D203S sensings Device pin 2, other end ground connection；The base stage of the NPN type triode Q1 is connected to the infrared biographies of the BISS0001 by resistance R6 Feel signal processor U3 pin 2, grounded emitter, colelctor electrode is connected to the pin 10 of the ATQ209 relays U2；It is described ATQ209 relays U2 pin 1 is connected to the pin 8 of the BISS0001 infrared sensor signal processors U3, and connects 5V electricity Pressure, pin 7 connect in the detecting module band and encode coded modulation and HF transmitter U4 pin 5 in wireless transmitter module, Pin 8 is connected to the pin 1 of the MC7805BT voltage-stabiliser tubes U1, and pin 10 connects the diode D1 positive poles, and diode D1 is born Pole connects 5V voltages, and pin 2, pin 3, pin 4, pin 5, pin 6, pin 9 are hanging；The MC7805BT voltage-stabiliser tubes U1's draws Pin 1 connects 9V positive sources, 9V power cathodes ground connection, and pin 3 connects 5V voltages, and pin 2 connects electrochemical capacitor C2 negative poles, electrolysis Electric capacity C2 positive pole connection 5V voltages.

Further encoded according to long-distance intelligent anti-theft alarm system described in the utility model, the band of the detector module Wireless transmitter module includes four wire jumpers JP1, JP2, JP3, JP4, a coded modulation and high-frequency emission device U4；The wire jumper JP1 pin 1 connects the pin 1 of the wire jumper JP2 and connects 5V voltages, and pin 3 connects the pin 3 of the wire jumper JP2 and connect Ground, pin 2 connect the pin 1 of coded modulation and high-frequency emission the device U4；The pin 2 of the wire jumper JP2 connects the volume Code modulation and high-frequency emission device U4 pin 2；The pin 1 of the wire jumper JP3 connects the pin 1 of the wire jumper JP4 and connected 5V voltages, pin 3 connect the pin 3 of the wire jumper JP4 and are grounded, and pin 2 connects the coded modulation and HF transmitter U4 Pin 3；The pin 2 of the wire jumper JP4 connects the coded modulation and HF transmitter U4 pin 5；The coded modulation It is empty with high-frequency emission device U4 pins 4, pin 5 is feeder ear, and pin 6 is grounded.

Further according to long-distance intelligent anti-theft alarm system described in the utility model, the center control of the host module Module includes model AT89C51 single-chip microcomputer U6 as central controller, electric capacity C9, electric capacity C10, electrochemical capacitor C12, Crystal oscillator Y2, button S17, resistance R3；The AT89C51 single-chip microcomputers U6 pin 32- pins 39 connect data/address bus, are used for Data are transmitted between single-chip microcomputer and screen display module, phone module, key-press module, pin 1- pins 4 connect the main frame mould Key-press matrix in key-press module in block, produces keyboard scanning signal, and pin 5- pins 8 connect the wireless receiving module and are used to read Detector position is taken to encode, pin 21- pins 23 connect pin 6, the pin of screen display module in the host module respectively 5th, pin 4, pin 24- pins 27 connect DTMF in the DTMF transmission circuits of phone module in the host module and received and dispatched respectively Chip MT8880 pin 9- pins 12, pin 28 are connected in the host module in the telephone interface circuit of phone module PH8810 simulative telephone interface modules U10 pin 4, pin 14 connect the DTMF transmitting-receiving electricity of phone module in the host module DTMF transceiving chips MT8880 pin 13 in road, for detecting the signal sound in telephone call, pin 15- pins 17 divide The pin 1, pin 2, pin 28 of the speech chip ISD4002 in the host module in voice module is not connected, realizes monolithic Operation of the machine to speech chip；The end of crystal oscillator 1 and 2 ends connect the pin 18 of the AT89C21 single-chip microcomputers U6 respectively With pin 19；Electric capacity C10 one end connects the pin 19 of the AT89C51 single-chip microcomputers U6, other end ground connection；Electric capacity C9 one end connects The pin 18 of the AT89C51 single-chip microcomputers U6, other end ground connection；The AT89C51 single-chip microcomputers U6 pins 9 connect load resistance R3, resistance the R3 other end are grounded, and pin 9 connects button S17 2 ends, button S17 1 end connection power supply VCC, and pin 9 connects institute Electrochemical capacitor C12 negative poles are stated, the electrochemical capacitor C12 positive poles connect power supply VCC, and pin 31 and pin 40 connect power supply VCC, pin 20 ground connection；Pin 29, pin 30 are hanging.

Further according to long-distance intelligent anti-theft alarm system described in the utility model, the screen display of the host module Module includes model LCD1602 liquid crystal P1, adjustable resistance R11, adjustable resistance R17；The LCD1602 liquid crystal P1's Pin 1 is grounded, and pin 2 connects power supply VCC, and pin 3 connects the control terminal of the adjustable resistance R17, one of adjustable resistance R17 Fixing end is grounded, and another fixing end connects the pin 3 of the LCD1602 liquid crystal P1, and pin 4, pin 5, pin 6 are as read-write Controlling switch is connected with the central control module, and pin 7- pins 14 are connected to the central control module as data/address bus Middle pin 39- pins 32, pin 15 connect a fixing end of the adjustable resistance R11, and another of adjustable resistance R11 is fixed Termination power VCC, adjustable resistance R11 control terminal connection power supply VCC, pin 16 are grounded.

Further according to long-distance intelligent anti-theft alarm system described in the utility model, the key-press module of the host module Including 4 × 4 key-press matrix being made up of button S1-S16, resistance R31, resistance R32, resistance R33, resistance R34；The button S1-S4 pin 1 is connected, and is connected to power supply VCC by load resistance R31；The pin 1 of the button S5-S8 is connected, And power supply VCC is connected to by load resistance R32；The pin 1 of the button S9-12 is connected, and is connected by load resistance R33 It is connected to power supply VCC；The pin 1 of the button S13-S16 is connected, and is connected to power supply VCC by load resistance R34；It is described Button S1, S5, S9, S13 pin 2 are connected, and with AT89C51 single-chip microcomputers U6 in the central control module of the host module Pin 35 be connected；Described button S2, S6, S10, S14 pin 2 are connected, and control mould with the center of the host module AT89C51 single-chip microcomputers U6 pin 34 is connected in block；Described button S3, S7, S11, S15 pin 2 are connected, and with the master AT89C51 single-chip microcomputers U6 pin 33 is connected in the central control module of machine module；Described button S4, S8, S12, S16 pin 2 are connected, and are connected with the pin 32 of AT89C51 single-chip microcomputers U6 in the central control module of the host module.

Further according to long-distance intelligent anti-theft alarm system described in the utility model, the voice module of the host module Include model ISD4002 speech chip U7, model LM386M power amplifier U8, microphone LS1, raise one's voice Device LS2, electrochemical capacitor C13, electrochemical capacitor C15, electrochemical capacitor C16, electrochemical capacitor C17, electrochemical capacitor C24, light emitting diode LED0, and some electric capacity, resistance；Pin 1, pin 2, the pin 28 of the ISD4002 speech chips U7 is used as serial line interface The central control module is connected to, pin 4 is grounded, and pin 11 connects pin 12 and is grounded, and pin 13 connects resistance R14, electricity Hinder R14 other ends connection electrochemical capacitor C13 positive pole, electrochemical capacitor C13 negative poles connection resistance R16；The one of adjustable resistance R17 Individual fixing end connection resistance R16, another fixing end ground connection, control terminal connect the pin 3 of the LM386M power amplifiers U8；Institute The pin 14 for stating ISD4002 speech chips U7 connects the electrochemical capacitor C15 positive poles, electrochemical capacitor C15 negative poles ground connection, pin 15 Vacantly, pin 16 is grounded after connecting electric capacity C14 by load resistance R15, pin 16 by the electric capacity C14 connections microphone LS1, Power supply VCC is connected in series by resistance R13 and resistance R12 after the connection electric capacity of pin 17 C21, pin 17 is connected by electric capacity C21 The microphone LS1, pin 18 are grounded by the loop being made up of electric capacity C22 and electric capacity C23 parallel connections, and pin 23 connects pin 26 simultaneously Ground connection, pin 27 are connected to the negative pole of LED 0, positive pole connection the power supply VCC, power supply VCC of LED 0 Electrochemical capacitor C24 positive poles, electrochemical capacitor C24 negative poles ground connection are connected after connecting resistance R12, pin 27 is connected to pin 18, pin 19- pins 22 are hanging, and pin 24, pin 25 are hanging；The pin 1 of the LM386M power amplifiers U8 connects electrochemical capacitor C17 Positive pole, electrochemical capacitor C17 negative poles connection pin 8, pin 2 are grounded, and pin 4 is grounded, and pin 5 loads electricity by electric capacity C18 connections It is grounded after resistance R18, pin 5 connects electrochemical capacitor C16 positive poles, and electrochemical capacitor negative pole connects the loudspeaker LS2, loudspeaker LS2 The other end is grounded, and pin 6 connects power supply VCC and is grounded by electric capacity C20, and pin 7 is grounded by electric capacity C19.

Further according to long-distance intelligent anti-theft alarm system described in the utility model, wireless in the host module connects Receive inside modules to include stenode circuit and can decode, realize to band coding wireless transmitter module output signal Receive and read；When there is robber's feelings, pyroelectric infrared sensor D203S absorbs the infrared letter of invader's human body in detector module Number and be converted into electric signal, be output to infrared sensor signal processor BISS0001, the infrared sensing signal of invader's human body exists Pass through operation amplifier in infrared sensor signal processor BISS0001, then trigger pulse is produced by two-way amplitude discriminator, triggering is fixed When device work so that relay ATQ209 pin 7, which obtains, 9V voltages and supplies the feeder ear of wireless transmitter module, make it Work；The input data of wireless transmitter module is by the configuration of wire jumper, as the position encoded of detector module, wireless transmission mould Block by it is position encoded be modulated into high-frequency signal after launch, wireless receiving module receive after demodulates position encoded export to center Control module.

Compared with present technology, its advantage is the utility model：

1. the utility model uses multiplexed detection, send alert locations and encode to main frame, main frame receives decoding detectable signal Realize the examination to stealing feelings region.

2. wireless connection is used between the utility model detector and main frame, it is easy for installation.

3. the utility model main frame provides man-machine interface, alarm call number can be set and record alarm voice.

4. the utility model main frame is reported after screening robber's feelings by the way that the realization of telephone network automatic dialing preset alarm phone is long-range It is alert.

Brief description of the drawings

Fig. 1 is principle assumption diagram of the present utility model；

Fig. 2 is the circuit diagram of rpyroelectric infrared detecting module in the utility model detector module；

Fig. 3 is the schematic diagram with coding wireless transmitter module in the utility model detector module；

Fig. 4 is the circuit diagram of central control module in the utility model host module；

Fig. 5 is the schematic diagram of screen display module in the utility model host module；

Fig. 6 is the circuit diagram of key-press module in the utility model host module；

Fig. 7 is the circuit diagram of voice module in the utility model host module；

Fig. 8 is the schematic diagram of the DTMF transmission circuits of phone module in the utility model host module；

Fig. 9 is the schematic diagram of the telephone interface circuit of phone module in the utility model host module.

Embodiment

In order that the purpose of this utility model, technical scheme and advantage are more clearly understood, below in conjunction with accompanying drawing, to this reality It is further elaborated with new.It should be appreciated that specific embodiment described herein is only to explain the utility model, It is not used to limit the utility model.

As shown in figure 1, structure of the present utility model includes two modules：Detector module, host module.

The detector module input is the human body infrared signal of invader, and the output end of the detector module is connected to The input of the host module, the output of the host module is remote alarm signal and local voice signal.

Wherein described detector module includes rpyroelectric infrared detecting module and with coding two submodule of wireless transmitter module Block.The rpyroelectric infrared detecting module input be invader's human body infrared signal, the rpyroelectric infrared detecting module Output end is connected to the band coding wireless transmitter module, and the band encodes wireless transmitter module output end as detector module Output signal is connected to host module.

The host module includes central control module, wireless receiving module, screen display module, key-press module, voice Six module, phone module submodules.The wireless receiving module input connects the detector module output signal, the nothing The output of line receiving module is connected to central control module, and the key-press module output is connected to central control module, the phone Module output is connected to the central control module, and the central control module output is connected to voice module, screen display mould Block and phone module, the output end of the voice module for local voice signal and connect the phone module, the phone mould Block output end is remote alarm signal.

Also include DTMF transmission circuits and telephone interface circuit in the phone module.DTMF transmission circuits input and Output is all connected with the central control module.The telephone interface circuit input connects the DTMF transmission circuits and institute's predicate Sound module.The telephone interface circuit output is the output signal of phone module, i.e. remote alarm signal.

The rpyroelectric infrared detecting module of the detecting module is as shown in Fig. 2 steady including model MC7805BT Pressure pipe U1, model ATQ209 relay U2, model BISS0001 infrared sensor signal processor U3, one Individual model D203S sensor U5, a diode D1, a NPN type triode Q1, adjustable resistance R1, adjustable resistance R4, Electrochemical capacitor C2, electrochemical capacitor C3, electrochemical capacitor C6, electrochemical capacitor C8 and some capacitance resistances.

The pin 1 of the BISS0001 infrared sensor signal processors U3 connects+5V voltages；

The pin 2 of the BISS0001 infrared sensor signal processors U3 passes through the resistance R6 connections NPN type triode Q1 base stage；

The pin 3 of the BISS0001 infrared sensor signal processors U3 is connected to pin 4 by resistance R5；

The pin 4 of the BISS0001 infrared sensor signal processors U3 is grounded by electric capacity C7；

The pin 5 of the BISS0001 infrared sensor signal processors U3 connects electrochemical capacitor C6 positive poles, electrochemical capacitor C6 Negative pole is grounded；

The pin 6 and pin 5 of the BISS0001 infrared sensor signal processors U3 connects the two of adjustable resistance R1 respectively Individual fixing end, adjustable resistance R1 control terminal are connected to pin 5；

The pin 7 of the BISS0001 infrared sensor signal processors U3 is grounded；

Pin 8, pin 9, the pin 11 of the BISS0001 infrared sensor signal processors U3 is connected to the D203S and passed Sensor U5 pin 1；

The pin 10 of the BISS0001 infrared sensor signal processors U3 is grounded by resistance R8；

Connection is by electric capacity C1 and electricity between the pin 12 and pin 13 of the BISS0001 infrared sensor signal processors U3 Hinder the R2 loops in parallel formed；

Connection is by adjustable resistance R4 between the pin 13 and pin 16 of the BISS0001 infrared sensor signal processors U3 The loop in series with electrochemical capacitor C3, wherein pin 16 connection electrochemical capacitor C3 negative pole, electrochemical capacitor C3 positive pole and The pin 13 of the BISS0001 infrared sensor signal processors U3 connects adjustable resistance R4 two fixing ends, R4 control respectively End processed connects the pin 13 of the BISS0001 infrared sensor signal processors U3；

The pin 14 of the BISS0001 infrared sensor signal processors U3 connects the pin 2 of the D203S sensors U5；

Connection is by resistance R7 and electricity between the pin 15 and pin 16 of the BISS0001 infrared sensor signal processors U3 Hold the C4 loops in parallel formed；

The infrared biography signal processor U3 pins 15 of the BISS0001 connect resistance R10, described in the connection of the resistance R10 other ends Electrochemical capacitor C8 positive pole, electrochemical capacitor C8 negative pole ground connection；

The pin 3 of the D203S sensors U5 is grounded；

Electric capacity C5 one end connects the D203S sensor pins 2, other end ground connection；

Resistance R9 one end connects the D203S sensor pins 2, other end ground connection；

The base stage of the NPN type triode Q1 is connected to the BISS0001 infrared sensor signal processors by resistance R6 U3 pin 2；

The grounded emitter of the NPN type triode Q1；

The colelctor electrode of the NPN type triode Q1 is connected to the pin 10 of the ATQ209 relays U2；

The pin 1 of the ATQ209 relays U2 is connected to the pin of the BISS0001 infrared sensor signal processors U3 8, and connect 5V voltages；

The pin 7 of the ATQ209 relays U2 is connected in the detecting module in band coding wireless transmitter module (Fig. 3) The pin 5 of coded modulation and HF transmitter U4；

The pin 8 of the ATQ209 relays U2 is connected to the pin 1 of the MC7805BT voltage-stabiliser tubes U1；

The pin 10 of the ATQ209 relays U2 connects the diode D1 positive poles, diode D1 negative poles connection 5V electricity Pressure；

Pin 2, pin 3, pin 4, pin 5, pin 6, the pin 9 of the ATQ209 relays U2 is hanging；

The pin 1 of the MC7805BT voltage-stabiliser tubes U1 connects 9V positive sources, 9V power cathodes ground connection；

The pin 3 of the MC7805BT voltage-stabiliser tubes U1 connects 5V voltages；

The pin 2 of the MC7805BT voltage-stabiliser tubes U1 connects electrochemical capacitor C2 negative poles, electrochemical capacitor C2 positive pole connection 5V Voltage；

The detector module band coding wireless transmitter module as shown in figure 3, including four wire jumper JP1, JP2, JP3, JP4, a coded modulation and high-frequency emission device U4.

The pin 1 of the wire jumper JP1 connects the pin 1 of the wire jumper JP2 and connects 5V voltages；

The pin 3 of the wire jumper JP1 connects the pin 3 of the wire jumper JP2 and is grounded；

The pin 2 of the wire jumper JP1 connects the pin 1 of coded modulation and high-frequency emission the device U4；

The pin 2 of the wire jumper JP2 connects the pin 2 of coded modulation and high-frequency emission the device U4；

The pin 1 of the wire jumper JP3 connects the pin 1 of the wire jumper JP4 and connects 5V voltages；

The pin 3 of the wire jumper JP3 connects the pin 3 of the wire jumper JP4 and is grounded；

The pin 2 of the wire jumper JP3 connects the coded modulation and HF transmitter U4 pin 3；

The pin 2 of the wire jumper JP4 connects the coded modulation and HF transmitter U4 pin 5；

Coded modulation and high-frequency emission device the U4 pins 4 are empty, and pin 5 is feeder ear, and pin 6 is grounded.

The central control module of the host module is as shown in figure 4, the single-chip microcomputer U6 including a model AT89C51 makees For central controller, electric capacity C9, electric capacity C10, electrochemical capacitor C12, crystal oscillator Y2, button S17, resistance R3.

The AT89C51 single-chip microcomputers U6 pin 32- pins 39 (P0 ports) connect data/address bus, for single-chip microcomputer and screen Data are transmitted between display module, phone module, key-press module；

The AT89C51 single-chip microcomputers U6 pin 1- pins 4 (P1.1-P1.3 ports) connect button mould in the host module Key-press matrix in block (Fig. 6), produce keyboard scanning signal；

The AT89C51 single-chip microcomputers U6 pin 5- pins 8 (P1.4-1.7 ports) connect the wireless receiving module and are used for Read detector position coding；

The AT89C51 single-chip microcomputers U6 pin 21- pins 23 (P2.0-P2.2 ports) connect in the host module respectively Pin 6, pin 5, the pin 4 of screen display module (Fig. 5)；

The AT89C51 single-chip microcomputers U6 pin 24- pins 27 (P2.3-P2.6 ports) connect in the host module respectively DTMF transceiving chips MT8880 pin 9- pins 12 in the DTMF transmission circuits (Fig. 8) of phone module；

The phone that the AT89C51 single-chip microcomputers U6 pins 28 (P2.7 ports) connect phone module in the host module connects PH8810 simulative telephone interface modules U10 pin 4 in mouth circuit (Fig. 9)；

The DTMF that the AT89C51 single-chip microcomputers U6 pins 14 (P3.4 ports) connect phone module in the host module is received DTMF transceiving chips MT8880 pin 13 in Power Generation Road (Fig. 8), for detecting the signal sound in telephone call；

The AT89C51 single-chip microcomputers U6 pin 15- pins 17 (P3.5-P3.7) connect voice in the host module respectively Pin 1, pin 2, the pin 28 of speech chip ISD4002 in module (Fig. 7), realizes operation of the single-chip microcomputer to speech chip；

The end of crystal oscillator 1 and 2 ends connect the pin 18 and pin 19 of the AT89C21 single-chip microcomputers U6 respectively；

Electric capacity C10 one end connects the pin 19 of the AT89C51 single-chip microcomputers U6, other end ground connection；

Electric capacity C9 one end connects the pin 18 of the AT89C51 single-chip microcomputers U6, other end ground connection；

The AT89C51 single-chip microcomputers U6 pins 9 connect load resistance R3, resistance R3 other ends ground connection；

The AT89C51 single-chip microcomputers U6 pins 9 connect button S17 2 ends, button S17 1 end connection power supply VCC；

The AT89C51 single-chip microcomputers U6 pins 9 connect the electrochemical capacitor C12 negative poles, and the electrochemical capacitor C12 positive poles connect Meet power supply VCC；

The AT89C51 single-chip microcomputers U6 pins 31 and pin 40 meet power supply VCC；

The AT89C51 single-chip microcomputers U6 pins 20 are grounded；

Pin 29, the pin 30 of the AT89C51 single-chip microcomputers U6 is hanging.

The screen display module of the host module, can as shown in figure 5, include model LCD1602 liquid crystal P1 Adjust resistance R11, adjustable resistance R17.

The pin 1 of the LCD1602 liquid crystal P1 is grounded；

The pin 2 of the LCD1602 liquid crystal P1 connects power supply VCC；

The pin 3 of the LCD1602 liquid crystal P1 connects the control terminal of the adjustable resistance R17, one of adjustable resistance R17 Fixing end is grounded, and another fixing end connects the pin 3 of the LCD1602 liquid crystal P1；

Pin 4, pin 5, the pin 6 of the LCD1602 liquid crystal P1 controls mould as Read-write Catrol pin and the center Block (Fig. 4) connects；

The pin 7- pins 14 of the LCD1602 liquid crystal P1 are connected in the central control module as data/address bus to be drawn Pin 39- pins 32 (Fig. 4)；

The pin 15 of the LCD1602 liquid crystal connects a fixing end of the adjustable resistance R11, adjustable resistance R11's Another fixes termination power VCC, adjustable resistance R11 control terminal connection power supply VCC；

The pin 16 of the LCD1602 liquid crystal P1 is grounded.

The key-press module of the host module as shown in fig. 6,4 × 4 key-press matrix including being made up of button S1-S16, Resistance R31, resistance R32, resistance R33, resistance R34.

The pin 1 of the button S1-S4 is connected, and is connected to power supply VCC by load resistance R31；

The pin 1 of the button S5-S8 is connected, and is connected to power supply VCC by load resistance R32；

The pin 1 of the button S9-12 is connected, and is connected to power supply VCC by load resistance R33；

The pin 1 of the button S13-S16 is connected, and is connected to power supply VCC by load resistance R34；

Described button S1, S5, S9, S13 pin 2 are connected, and with the central control module of the host module AT89C51 single-chip microcomputers U6 pin 35 is connected；

Described button S2, S6, S10, S14 pin 2 are connected, and with the central control module of the host module AT89C51 single-chip microcomputers U6 pin 34 is connected；

Described button S3, S7, S11, S15 pin 2 are connected, and with the central control module of the host module AT89C51 single-chip microcomputers U6 pin 33 is connected；

Described button S4, S8, S12, S16 pin 2 are connected, and with the central control module of the host module AT89C51 single-chip microcomputers U6 pin 32 is connected.

The voice module of the host module is as shown in fig. 7, comprises model ISD4002 speech chip U7, and one Individual model LM386M power amplifier U8, microphone LS1, loudspeaker LS2, electrochemical capacitor C13, electrochemical capacitor C15, electrolysis Electric capacity C16, electrochemical capacitor C17, electrochemical capacitor C24, LED 0, and the device such as some electric capacity, resistance.

Pin 1, pin 2, the pin 28 of the ISD4002 speech chips U7 is connected to the center control as serial line interface Molding block；

The pin 4 of the ISD4002 speech chips U7 is grounded；

The pin 11 of the ISD4002 speech chips U7 connects pin 12 and is grounded；

The pin 13 of the ISD4002 speech chips U7 connects resistance R14, resistance R14 other ends connection electrochemical capacitor C13 Positive pole, electrochemical capacitor C13 negative poles connection resistance R16；

Adjustable resistance R17 fixing end connection resistance R16, another fixing end is grounded, described in control terminal connection LM386M power amplifiers U8 pin 3；

The pin 14 of the ISD4002 speech chips U7 connects the electrochemical capacitor C15 positive poles, electrochemical capacitor C15 negative poles Ground connection；

The pin 15 of the ISD4002 speech chips U7 is hanging；

The pin 16 of the ISD4002 speech chips U7 is grounded after connecting electric capacity C14 by load resistance R15；

The pin 16 of the ISD4002 speech chips U7 passes through the electric capacity C14 connections microphone LS1；

The pin 17 of the ISD4002 speech chips U7 is connected after connecting electric capacity C21 by resistance R13 and resistance R12 series connection Meet power supply VCC；

The pin 17 of the ISD4002 speech chips U7 passes through the electric capacity C21 connections microphone LS1；

The pin 18 of the ISD4002 speech chips U7 is connect by the loop being made up of electric capacity C22 and electric capacity C23 parallel connections Ground；

The pin 23 of the ISD4002 speech chips U7 connects pin 26 and is grounded；

The pin 27 of the ISD4002 speech chips U7 is connected to the negative pole of LED 0, light emitting diode Electrochemical capacitor C24 positive poles, electrochemical capacitor C24 negative poles are connected after LED0 positive pole connection power supply VCC, power supply VCC connection resistance R12 Ground connection；

The pin 27 of the ISD4002 speech chips U2 is connected to pin 18；

The pin 19- pins 22 of the ISD4002 speech chips U2 are hanging, and pin 24, pin 25 are hanging；

The pin 1 of the LM386M power amplifiers U8 connects electrochemical capacitor C17 positive poles, the connection of electrochemical capacitor C17 negative poles Pin 8；

The pin 2 of the LM386M power amplifiers U8 is grounded；

The pin 4 of the LM386M power amplifiers U8 is grounded；

The pin 5 of the LM386M power amplifiers U8 after electric capacity C18 connection load resistances R18 by being grounded；

The pin 5 of the LM386M power amplifiers U8 connects electrochemical capacitor C16 positive poles, described in the connection of electrochemical capacitor negative pole Loudspeaker LS2, loudspeaker the LS2 other end are grounded；

The pin 6 of the LM386M power amplifiers U8 connects power supply VCC and is grounded by electric capacity C20；

The pin 7 of the LM386M power amplifiers U8 is grounded by electric capacity C19；

The DTMF transmission circuits of phone module are as shown in figure 8, including model MT8880 in the host module DTMF transceiving chip U9, crystal oscillator Y1 and some capacitance resistances；

The pin 1 of the MT8880 transceiving chips U9 connects pin 4；

The pin 2 of the MT8880 transceiving chips U9 is by connecting DTMFIN signals after resistance R19 series capacitances C25；

The pin 3 of the MT8880 transceiving chips U9 passes through resistance R21 connections pin 2；

The pin 5 of the MT8880 transceiving chips U9 is grounded；

By crystal oscillator Y1 1 end, crystal oscillator Y1 2 ends connect the pin 6 of the MT8880 transceiving chips U9 Connect pin 7；

The pin 8 of the MT8880 transceiving chips U9 is grounded by the loop being made up of resistance R20 and electric capacity C26 parallel connections；

The pin 8 of the MT8880 transceiving chips U9 exports DTMFOUT signals by electric capacity C27；

The pin 9- pins 12 of the MT8880 transceiving chips U9 are as the Read-write Catrol pin connection center control mould Block (Fig. 4)；

The pin 13 of the MT8880 transceiving chips U9 passes through resistance R22 connection power supplys VCC；

The pin 14- pins 17 of the MT8880 transceiving chips U9 are connected to central control module (figure as data/address bus 4)；

The pin 18 of the MT8880 transceiving chips U9 is connected to pin 19 by resistance R23；

The pin 19 of the MT8880 transceiving chips U9 passes through electric capacity C28 connection power supplys VCC；

The pin 20 of the MT8880 transceiving chips U9 connects power supply VCC, and power supply VCC is grounded by electric capacity C29.

The telephone interface circuit block of phone mould is as shown in figure 9, telephone interface circuit includes a type in the host module Number it is PH8810 simulative telephone interface module U10, phone crystal connector P19.

The pin 1 of the PH8810 simulative telephone interfaces module U10 is grounded；

Pin 2, the pin 3 of the PH8810 simulative telephone interfaces module U10 connects drawing for phone crystal street corner P19 respectively Pin 2, pin 1；

It is mono- that the pin 4 of the PH8810 simulative telephone interfaces module U10 is connected to AT89C51 in the central control module The pin 28 of piece machine；

The pin 8 of the PH8810 simulative telephone interfaces module U10 meets power supply VCC；

The pin 10 of the PH8810 simulative telephone interfaces module U10 connects DTMFIN signals；

The pin 18 of the PH8810 simulative telephone interfaces module U10 meets power supply VCC；

The pin 28 of the PH8810 simulative telephone interfaces module U10 connects defeated in voice module (Fig. 7) in host module The DTMFOUT signals gone out；

The pin 29 of the PH8810 simulative telephone interfaces module U10 is that voice signal connects voice in the host module Loudspeaker LS2 in module (Fig. 7)；

Pin 30, pin 31, the pin 32 of the PH8810 simulative telephone interfaces module U10 is grounded；

The pin 40 of the PH8810 simulative telephone interfaces module U10 meets power supply VCC；

Pin 5, pin 6, pin 7, pin 9, the pin 11- pins of the PH8810 simulative telephone interfaces module U10 17th, pin 19- pins 27, pin 33- pins 39 are hanging；

Stenode circuit is included inside wireless receiving module in the host module and can be decoded, is realized to institute State reception and reading with coding wireless transmitter module output signal.

When there is robber's feelings, pyroelectric infrared sensor D203S absorbs the infrared signal of invader's human body in detector module And electric signal is converted into, infrared sensor signal processor BISS0001 is output to, the infrared sensing signal of invader's human body is red Pass through operation amplifier in outer sensing signal processor BISS0001, then trigger pulse, triggering timing are produced by two-way amplitude discriminator Device works, so that relay ATQ209 pin 7 obtains 9V voltages and supplies the feeder ear of wireless transmitter module, makes its work Make.The input data of wireless transmitter module is by the configuration of wire jumper, as the position encoded of detector module.Wireless transmitter module By it is position encoded be modulated into high-frequency signal after launch, wireless receiving module receive after demodulates it is position encoded export to center control Molding block.

When ISD4002 speech chips work in recording mode in voice module, voice is gathered and by internal electricity by microphone Road completes to record and storage.When ISD4002 speech chips work in playback pattern, the voice signal that the pin 13 of chip exports leads to Exported after crossing the amplification of LM386M power amplifiers to the PH1880 simulative telephone interface modules in loudspeaker and telephone interface circuit. Loudspeaker is used for the voice that audition is recorded, and voice output can be realized voice by PH8810 simulative telephone interfaces module to telephone network Alarm.

Central control module Program first inquires about detector position coded data to wireless receiving module, and data are zero expression Do not occur to steal feelings, otherwise represent that some detector detects robber's feelings, if any feelings are stolen, record robber's feelings are position encoded, set and steal feelings Indicate, then control PH8810 simulative telephone interfaces module to perform off-hook operation.MT8880 transceiving chips are set after off-hook It is call treatment pattern to detect dialing tone, if detecting the continuous square-wave signals of 450Hz in 1 second, is judged as there is dialing tone.Such as There is dialing tone, it is dual-audio pattern to set MT8880 transceiving chips, is sent to telephone number and is dialled.After the completion of dialing, It is call treatment pattern to detect ring-back tone to reset MT8880 transceiving chips, if detecting 4 seconds without, 1 second 450Hz having Square-wave signal, indicate ring-back tone.After ring-back tone is detected, if can't detect any signal sound, represent other side's off-hook into Work(, control voice chip play alarm voice, and broadcasting is removed after terminating and steals feelings mark, avoids repetition of alarms.If do not dial Sound or other side's off-hook are unsuccessful, then control PH1880 simulative telephone interfaces module to perform on-hook operation, because not stealing feelings clearly Mark, can still attempt to alarm program performs next time when, until success.

To sum up, the utility model by being wirelessly transferred of multiple detector modules and host module, in host module it is central The data processing of control module, telephone network with realizing multiplexed detection, wireless connection, screen and steal feelings region, automatic poking Beat the functions such as predetermined telephone remote alarms.

It the above is only and preferred embodiment of the present utility model is described, not by technical side of the present utility model Case limited to this, any known deformation that those skilled in the art are made on the basis of major technique of the present utility model design all belong to In the claimed technology category of the utility model, the specific protection domain of the utility model is recited as with claims It is accurate.

Claims (10)

1. A kind of 1. long-distance intelligent anti-theft alarm system, it is characterised in that including：Detector module, host module；The detector Module input is the human body infrared signal of invader, and the output end of the detector module is connected to the input of the host module End, the output of the host module is remote alarm signal and local voice signal.
2. 2. long-distance intelligent anti-theft alarm system according to claim 1, it is characterised in that the detector module includes heat Release electric infrared detection module and with coding two submodules of wireless transmitter module；The rpyroelectric infrared detecting module input is The infrared signal of invader's human body, the rpyroelectric infrared detecting module output end are connected to the band coding wireless transmission mould Block, the band coding wireless transmitter module output end are connected to host module as detector module output signal.
3. 3. long-distance intelligent anti-theft alarm system according to claim 2, it is characterised in that the host module includes center Six control module, wireless receiving module, screen display module, key-press module, voice module, phone module submodules；It is described Wireless receiving module input connects the detector module output signal, and the wireless receiving module output is connected to central control Module, the key-press module output are connected to central control module, and the phone module output is connected to the center control mould Block, central control module output are connected to voice module, screen display module and phone module, the voice module it is defeated Go out end for local voice signal and connect the phone module, the phone module output end is remote alarm signal.
4. 4. long-distance intelligent anti-theft alarm system according to claim 2, it is characterised in that the pyroelectricity of the detecting module Infrared detection module includes model MC7805BT voltage-stabiliser tube U1, model ATQ209 relay U2, one Model BISS0001 infrared sensor signal processor U3, a model D203S sensor U5, a diode D1, One NPN type triode Q1, adjustable resistance R1, adjustable resistance R4, electrochemical capacitor C2, electrochemical capacitor C3, electrochemical capacitor C6, electrolysis Electric capacity C8 and some capacitance resistances；The pin 1 of the BISS0001 infrared sensor signal processors U3 connects+5V voltages, draws Pin 2 is connected to pin 4 by resistance R6 connections NPN type triode Q1 base stage, pin 3 by resistance R5, and pin 4 passes through Electric capacity C7 ground connection, the connection electrochemical capacitor C6 positive poles of pin 5, electrochemical capacitor C6 negative poles ground connection, pin 6 and pin 5 connect respectively can Resistance R1 two fixing ends are adjusted, adjustable resistance R1 control terminal is connected to pin 5, and pin 7 is grounded, pin 8, pin 9, pin 11 are connected to the pin 1 of the D203S sensors U5, and pin 10 is grounded by resistance R8, connected between pin 12 and pin 13 The loop being made up of electric capacity C1 and resistance R2 parallel connections, connection is by adjustable resistance R4 and electrochemical capacitor C3 between pin 13 and pin 16 Loop in series, wherein pin 16 connection electrochemical capacitor C3 negative pole, electrochemical capacitor C3 positive pole and the BISS0001 Infrared sensor signal processor U3 pin 13 connects adjustable resistance R4 two fixing ends respectively, described in R4 control terminal connection BISS0001 infrared sensor signal processors U3 pin 13, pin 14 connect the pin 2 of the D203S sensors U5, pin The loop that forms in parallel by resistance R7 and electric capacity C4 is connected between 15 and pin 16, pin 15 connects resistance R10, and resistance R10 is another One end connects the positive pole of the electrochemical capacitor C8, electrochemical capacitor C8 negative pole ground connection；The pin 3 of the D203S sensors U5 connects Ground, electric capacity C5 one end connect the D203S sensor pins 2, other end ground connection, and resistance R9 one end connects the D203S sensings Device pin 2, other end ground connection；The base stage of the NPN type triode Q1 is connected to the infrared biographies of the BISS0001 by resistance R6 Feel signal processor U3 pin 2, grounded emitter, colelctor electrode is connected to the pin 10 of the ATQ209 relays U2；It is described ATQ209 relays U2 pin 1 is connected to the pin 8 of the BISS0001 infrared sensor signal processors U3, and connects 5V electricity Pressure, pin 7 connect in the detecting module band and encode coded modulation and HF transmitter U4 pin 5 in wireless transmitter module, Pin 8 is connected to the pin 1 of the MC7805BT voltage-stabiliser tubes U1, and pin 10 connects the diode D1 positive poles, and diode D1 is born Pole connects 5V voltages, and pin 2, pin 3, pin 4, pin 5, pin 6, pin 9 are hanging；The MC7805BT voltage-stabiliser tubes U1's draws Pin 1 connects 9V positive sources, 9V power cathodes ground connection, and pin 3 connects 5V voltages, and pin 2 connects electrochemical capacitor C2 negative poles, electrolysis Electric capacity C2 positive pole connection 5V voltages.
5. 5. long-distance intelligent anti-theft alarm system according to claim 2, it is characterised in that the band of the detector module is compiled Code wireless transmitter module includes four wire jumpers JP1, JP2, JP3, JP4, a coded modulation and high-frequency emission device U4；The jump Line JP1 pin 1 connects the pin 1 of the wire jumper JP2 and connects 5V voltages, and pin 3 connects the pin 3 of the wire jumper JP2 simultaneously Ground connection, pin 2 connect the pin 1 of coded modulation and high-frequency emission the device U4；The pin 2 of the wire jumper JP2 connects described The pin 2 of coded modulation and high-frequency emission device U4；The pin 1 of the wire jumper JP3 connects the pin 1 of the wire jumper JP4 and connected 5V voltages are connect, pin 3 connects the pin 3 of the wire jumper JP4 and is grounded, and pin 2 connects the coded modulation and HF transmitter U4 pin 3；The pin 2 of the wire jumper JP4 connects the coded modulation and HF transmitter U4 pin 5；The coding is adjusted System and high-frequency emission device U4 pins 4 are empty, and pin 5 is feeder ear, and pin 6 is grounded.
6. 6. long-distance intelligent anti-theft alarm system according to claim 3, it is characterised in that the center control of the host module Molding block includes model AT89C51 single-chip microcomputer U6 as central controller, electric capacity C9, electric capacity C10, electrochemical capacitor C12, crystal oscillator Y2, button S17, resistance R3；The AT89C51 single-chip microcomputers U6 pin 32- pins 39 connect data/address bus, For transmitting data between single-chip microcomputer and screen display module, phone module, key-press module, pin 1- pins 4 connect the master Key-press matrix in key-press module in machine module, produces keyboard scanning signal, and pin 5- pins 8 connect the wireless receiving module and used In read detector position coding, pin 21- pins 23 connect respectively screen display module in the host module pin 6, Pin 5, pin 4, pin 24- pins 27 connect DTMF in the DTMF transmission circuits of phone module in the host module and received respectively Chip MT8880 pin 9- pins 12 are sent out, pin 28 is connected in the host module in the telephone interface circuit of phone module PH8810 simulative telephone interface modules U10 pin 4, pin 14 connect the DTMF transmitting-receiving electricity of phone module in the host module DTMF transceiving chips MT8880 pin 13 in road, for detecting the signal sound in telephone call, pin 15- pins 17 divide The pin 1, pin 2, pin 28 of the speech chip ISD4002 in the host module in voice module is not connected, realizes monolithic Operation of the machine to speech chip；The end of crystal oscillator 1 and 2 ends connect the pin 18 of the AT89C21 single-chip microcomputers U6 respectively With pin 19；Electric capacity C10 one end connects the pin 19 of the AT89C51 single-chip microcomputers U6, other end ground connection；Electric capacity C9 one end connects The pin 18 of the AT89C51 single-chip microcomputers U6, other end ground connection；The AT89C51 single-chip microcomputers U6 pins 9 connect load resistance R3, resistance the R3 other end are grounded, and pin 9 connects button S17 2 ends, button S17 1 end connection power supply VCC, and pin 9 connects institute Electrochemical capacitor C12 negative poles are stated, the electrochemical capacitor C12 positive poles connect power supply VCC, and pin 31 and pin 40 connect power supply VCC, pin 20 ground connection；Pin 29, pin 30 are hanging.
7. 7. long-distance intelligent anti-theft alarm system according to claim 3, it is characterised in that the screen of the host module shows Show that module includes a model LCD1602 liquid crystal P1, adjustable resistance R11, adjustable resistance R17；The LCD1602 liquid crystal P1 Pin 1 be grounded, pin 2 connects power supply VCC, and pin 3 connects the control terminal of the adjustable resistance R17, the one of adjustable resistance R17 Individual fixing end ground connection, another fixing end connect the pin 3 of the LCD1602 liquid crystal P1, pin 4, pin 5, the conduct of pin 6 Read-write Catrol pin is connected with the central control module, and pin 7- pins 14 are connected to the center control as data/address bus Pin 39- pins 32 in module, pin 15 connect a fixing end of the adjustable resistance R11, adjustable resistance R11 another Fixed termination power VCC, adjustable resistance R11 control terminal connection power supply VCC, pin 16 are grounded.
8. 8. long-distance intelligent anti-theft alarm system according to claim 3, it is characterised in that the button mould of the host module Block includes 4 × 4 key-press matrix being made up of button S1-S16, resistance R31, resistance R32, resistance R33, resistance R34；It is described to press Key S1-S4 pin 1 is connected, and is connected to power supply VCC by load resistance R31；The pin 1 of the button S5-S8 is connected Connect, and power supply VCC is connected to by load resistance R32；The pin 1 of the button S9-12 is connected, and passes through load resistance R33 is connected to power supply VCC；The pin 1 of the button S13-S16 is connected, and is connected to power supply VCC by load resistance R34； Described button S1, S5, S9, S13 pin 2 are connected, and with AT89C51 monolithics in the central control module of the host module Machine U6 pin 35 is connected；Described button S2, S6, S10, S14 pin 2 are connected, and are controlled with the center of the host module AT89C51 single-chip microcomputers U6 pin 34 is connected in molding block；Described button S3, S7, S11, S15 pin 2 are connected, and with institute The pin 33 for stating AT89C51 single-chip microcomputers U6 in the central control module of host module is connected；Described button S4, S8, S12, S16's Pin 2 is connected, and is connected with the pin 32 of AT89C51 single-chip microcomputers U6 in the central control module of the host module.
9. 9. long-distance intelligent anti-theft alarm system according to claim 3, it is characterised in that the voice mould of the host module Block includes model ISD4002 speech chip U7, model LM386M power amplifier U8, microphone LS1, raises Sound device LS2, electrochemical capacitor C13, electrochemical capacitor C15, electrochemical capacitor C16, electrochemical capacitor C17, electrochemical capacitor C24, light-emitting diodes Pipe LED0, and some electric capacity, resistance；Pin 1, pin 2, the pin 28 of the ISD4002 speech chips U7 is used as serial interface Mouth is connected to the central control module, and pin 4 is grounded, and pin 11 connects pin 12 and is simultaneously grounded, and pin 13 connects resistance R14, Resistance R14 other ends connection electrochemical capacitor C13 positive pole, electrochemical capacitor C13 negative poles connection resistance R16；The one of adjustable resistance R17 Individual fixing end connection resistance R16, another fixing end ground connection, control terminal connect the pin 3 of the LM386M power amplifiers U8；Institute The pin 14 for stating ISD4002 speech chips U7 connects the electrochemical capacitor C15 positive poles, electrochemical capacitor C15 negative poles ground connection, pin 15 Vacantly, pin 16 is grounded after connecting electric capacity C14 by load resistance R15, pin 16 by the electric capacity C14 connections microphone LS1, Power supply VCC is connected in series by resistance R13 and resistance R12 after the connection electric capacity of pin 17 C21, pin 17 is connected by electric capacity C21 The microphone LS1, pin 18 are grounded by the loop being made up of electric capacity C22 and electric capacity C23 parallel connections, and pin 23 connects pin 26 simultaneously Ground connection, pin 27 are connected to the negative pole of LED 0, positive pole connection the power supply VCC, power supply VCC of LED 0 Electrochemical capacitor C24 positive poles, electrochemical capacitor C24 negative poles ground connection are connected after connecting resistance R12, pin 27 is connected to pin 18, pin 19- pins 22 are hanging, and pin 24, pin 25 are hanging；The pin 1 of the LM386M power amplifiers U8 connects electrochemical capacitor C17 Positive pole, electrochemical capacitor C17 negative poles connection pin 8, pin 2 are grounded, and pin 4 is grounded, and pin 5 loads electricity by electric capacity C18 connections It is grounded after resistance R18, pin 5 connects electrochemical capacitor C16 positive poles, and electrochemical capacitor negative pole connects the loudspeaker LS2, loudspeaker LS2 The other end is grounded, and pin 6 connects power supply VCC and is grounded by electric capacity C20, and pin 7 is grounded by electric capacity C19.
10. 10. long-distance intelligent anti-theft alarm system according to claim 3, it is characterised in that the nothing in the host module Stenode circuit is included inside line receiving module and can be decoded, is realized to band coding wireless transmitter module output letter Number reception and reading；When there is robber's feelings, pyroelectric infrared sensor D203S absorbs the red of invader's human body in detector module External signal is simultaneously converted into electric signal, is output to infrared sensor signal processor BISS0001, the infrared sensing letter of invader's human body Number pass through operation amplifier in infrared sensor signal processor BISS0001, then trigger pulse is produced by two-way amplitude discriminator, touch Runs are sent out, so that relay ATQ209 pin 7 obtains 9V voltages and supplies the feeder ear of wireless transmitter module, Make its work；The input data of wireless transmitter module, as the position encoded of detector module, is wirelessly sent out by the configuration of wire jumper Penetrate module by it is position encoded be modulated into high-frequency signal after launch, wireless receiving module receive after demodulate it is position encoded export to Central control module.