CN201947255U - Device capable of receiving and transmitting alarming information and processing acoustic code speech communication - Google Patents
Device capable of receiving and transmitting alarming information and processing acoustic code speech communication Download PDFInfo
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- CN201947255U CN201947255U CN2011200283394U CN201120028339U CN201947255U CN 201947255 U CN201947255 U CN 201947255U CN 2011200283394 U CN2011200283394 U CN 2011200283394U CN 201120028339 U CN201120028339 U CN 201120028339U CN 201947255 U CN201947255 U CN 201947255U
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Abstract
The utility model discloses a device capable of receiving and transmitting alarming information and processing acoustic code speech communication, which comprises a channel modem, a channel coding / decoding module, a data coding / decoding module, a liquid crystal display ( LCD ) module, a microprocessor control module, an operating panel, a display interface module, an analog speech to data speech conversion module, a digital alarming signal generator, a transmitter interface and an audio output interface. When a radio frequency antenna receives alarming information, the channel modem firstly processes a radio frequency demodulation to received signals, then the channel coding / decoding module processes a channel signal decoding, the data coding / decoding module decodes transmission data, and the alarming information is displayed by the LCD module. The device is not only capable of receiving alarming information, but also transmitting alarming information, audibly alarming the received alarming information and utilizing words to display concrete contents. If required, the device can process acoustic code speech communication.
Description
Technical field
The utility model relates to a kind of device that receives and send various alarms and information warning and can carry out Digital Speech Communication, particularly relates to a kind of device that the various alarms that receive and caution can also be carried out audible alarm and text prompt.
Background technology
Typical existing equipment be have existing manufacturer production alarm terminal control appliance and various monitoring alarm equipment.The alarm terminal control appliance is unidirectional, when needs are provided alarm or alert messages, carry the line signal of alarm or alert messages by the transmission of monitoring of tools center, after the alarm terminal control appliance receives this line signal, decode, and start light or audible alarm.Its shortcoming one is that the audible alarm kind is limited, at present country has only defined the sound equipment format standard at three kinds of audible alarms of air raid alarm in advance, air raid alarm, allclear that people's air defense department uses, and various the condition of a disaster alarms such as typhoon warning, tsunami warning, flood control alarm, flood discharge alarm, mud-rock flow alarm, alarm of fire, earthquake warning, chemical accident etc. can't be discerned by distinguishing of sound equipment; The 2nd, the light warning pattern is single, and the warning kind is not easily distinguishable.When need receiving alarm or alert messages, be delivered to the monitoring of tools center by monitoring alarm equipment, alarm or alert messages that this mode is transmitted are single, can't distinguish the particular content and the character of message.
The utility model content
The purpose of this utility model is to overcome the deficiency of prior art, the various warning informations of a kind of transmitting-receiving are provided and can carry out sound sign indicating number words communicating devices, this device can not only receiving alarm or alert messages, can also send alarm or alert messages, and the alarm or the alert messages that receive carried out audible alarm and show particular content with literal, when needing, can also carry out the communication of sound sign indicating number words with this device.
The technical scheme that its technical problem that solves the utility model adopts is: the various warning informations of a kind of transmitting-receiving also can carry out sound sign indicating number words communicating devices, comprising:
One Channel Modulation demodulator is used to receive and dispatch radiofrequency signal;
One channel coding/decoding module is used for transmission line signals is carried out chnnel coding or decoding;
One data encoding/decoding module is used for the transmission data are encoded or decoded;
One LCD display module is used for display text and image information;
One microprocessor control module is used for producing corresponding control signal;
One panel operation, display interface module are used for carrying out panel operation and externally carry out interface and be connected;
One simulated voice and data voice conversion module are used for the speech audio signal is carried out digitized processing or carried out the inverse transformation processing;
One digital alarm signal generator is used for producing and storing all kinds of alarm acoustic signals;
One transmitter interface is used to provide and being connected of transmitter;
One audio output interface is used to provide and being connected of player;
One end of Channel Modulation demodulator is connected with radio-frequency antenna, and the other end of Channel Modulation demodulator is connected with an end of channel coding/decoding module, and an end again of Channel Modulation demodulator is connected with the microprocessor control module; The other end of channel coding/decoding module is connected with an end of data encoding/decoding module, and an end again of channel coding/decoding module is connected with the microprocessor control module; The other end of data encoding/decoding module is connected with the data voice conversion module with simulated voice, and an end again of data encoding/decoding module is connected with the microprocessor control module, and an output of data encoding/decoding module is connected to the LCD display module; Panel operation, display interface module are connected with the microprocessor control module; The other end of simulated voice and data voice conversion module is connected with the microprocessor control module, one output of simulated voice and data voice conversion module is connected to audio output interface, and an input of simulated voice and data voice conversion module is connected to the transmitter interface; The input of numeral alarm signal generator is connected with the microprocessor control module, and the output of digital alarm signal generator is connected to audio output interface.
The described Channel Modulation demodulator that is used to receive and dispatch radiofrequency signal is made up by TDMA specialized high-speed data radio.
When radio-frequency antenna receives alarm and information warning, at first carry out radio demodulating to received signal through the Channel Modulation demodulator, carry out the channel signal decoding through the channel coding/decoding module then, process data encoding/decoding module is to the transmission data decode again, to alarm and information warning, show by the LCD display module.To the various air defence warning early warning information that receive, produce corresponding audio signal by microprocessor control module control figure alarm signal generator, through audio output interface output, to the data voice signal that receives, after process simulated voice and data voice conversion module are varied to analogue voice signal with the data voice signal, through audio output interface output.When this device of need sends various alarms and information warning, by panel operation, display interface module man-machine interface operation, by the microprocessor control module message is handled, message data is encoded, the channel coding/decoding module is carried out chnnel coding to message data to sending, the channel modulator-demodulator is sent by wireless antenna after modulating through the data encoding/decoding module then.To the voice signal that sends, by simulated voice and data voice conversion module simulated voice is carried out the digitlization conversion, then through the data encoding/decoding module voice data that sends is encoded, the channel coding/decoding module is carried out chnnel coding to voice data, sent by wireless antenna after the modulation of channel modulator-demodulator.
The beneficial effects of the utility model are, owing to adopted a Channel Modulation demodulator, one channel coding/decoding module, one data encoding/decoding module, one LCD display module, one microprocessor control module, the operation of one panel, display interface module, one simulated voice and data voice conversion module, one digital alarm signal generator, an one transmitter interface and an audio output interface constitute the various warning informations of transmitting-receiving and can carry out sound sign indicating number words communicating devices, this device can not only receiving alarm or alert messages, can also send alarm or alert messages, and the alarm or the alert messages that receive carried out audible alarm and show particular content with literal, when needing, can also carry out the communication of sound sign indicating number words with this device.
Below in conjunction with drawings and Examples the utility model is described in further detail; But the various warning informations of a kind of transmitting-receiving of the present utility model also can carry out a sound sign indicating number words communicating devices is not limited to embodiment.
Description of drawings
Fig. 1 is a theory diagram of the present utility model;
Fig. 2 is a Channel Modulation demodulator module circuit diagram of the present utility model;
Fig. 3 is a channel coding/decoding module circuit diagram of the present utility model;
Fig. 4 is a data encoding/decoding module circuit diagram of the present utility model;
Fig. 5 is a microprocessor control module circuit diagram of the present utility model;
Fig. 6 is simulated voice of the present utility model and data voice conversion module block diagram;
Fig. 7 is a speech A/D-D/A circuit diagram of the present utility model;
Fig. 8 is speech coding of the present utility model/decoding circuit figure;
Fig. 9 is data voice I/O control circuit figure of the present utility model;
Figure 10 is a voice data frame assumption diagram of the present utility model;
Figure 11 is a digital alarm signal generator circuit diagram of the present utility model.
Embodiment
Embodiment, referring to shown in Figure 1, the various warning informations of a kind of transmitting-receiving of the present utility model also can carry out sound sign indicating number words communicating devices, comprising:
One Channel Modulation demodulator 1 is used to receive and dispatch radiofrequency signal;
One channel coding/decoding module 2 is used for transmission line signals is carried out chnnel coding or decoding;
One data encoding/decoding module 3 is used for the transmission data are encoded or decoded;
One LCD display module 4 is used for display text and image information;
One microprocessor control module 5 is used for producing corresponding control signal;
One panel operation, display interface module 6 are used for carrying out panel operation and externally carry out interface and be connected;
One simulated voice and data voice conversion module 7 are used for the speech audio signal is carried out digitized processing or carried out the inverse transformation processing;
One digital alarm signal generator 8 is used for producing and storing all kinds of alarm acoustic signals;
One transmitter interface 9 is used to provide and being connected of transmitter;
One audio output interface 10 is used to provide and being connected of player;
One power supply 11 is used for providing power supply signal to circuit;
One end of Channel Modulation demodulator 1 is connected with radio-frequency antenna, and the other end of Channel Modulation demodulator 1 is connected with an end of channel coding/decoding module 2, and an end again of Channel Modulation demodulator 1 is connected with microprocessor control module 5; The other end of channel coding/decoding module 2 is connected with an end of data encoding/decoding module 3, and an end again of channel coding/decoding module 2 is connected with microprocessor control module 5; The other end of data encoding/decoding module 3 is connected with data voice conversion module 7 with simulated voice, an end again of data encoding/decoding module 3 is connected with microprocessor control module 5, and an output of data encoding/decoding module 3 is connected to LCD display module 4; Panel operation, display interface module 6 are connected with microprocessor control module 5; The other end of simulated voice and data voice conversion module 7 is connected with microprocessor control module 5, one output of simulated voice and data voice conversion module 7 is connected to audio output interface 10, and an input of simulated voice and data voice conversion module 7 is connected to transmitter interface 9; The input of numeral alarm signal generator 8 is connected with microprocessor control module 5, and the output of digital alarm signal generator 8 is connected to audio output interface 10.
The described Channel Modulation demodulator 1 that is used to receive and dispatch radiofrequency signal is made up by TDMA specialized high-speed data radio.
When radio-frequency antenna receives alarm and information warning, at first carry out radio demodulating to received signal through Channel Modulation demodulator 1, carry out the channel signal decoding through channel coding/decoding module 2 then, again through 3 pairs of transmission of data encoding/decoding module data decode, to alarm and information warning, show by LCD display module 4.To the various air defence warning early warning information that receive, produce corresponding audio signal by microprocessor control module 5 control figure alarm signal generators 8, through audio output interface 10 outputs, to the data voice signal that receives, after process simulated voice and data voice conversion module 7 are varied to analogue voice signal with the data voice signal, through audio output interface 10 outputs.When this device of need sends various alarms and information warning, by panel operation, display interface module 6 man-machine interfaces operation, handle by 5 pairs of message of microprocessor control module, send that message data is encoded, 2 pairs of message datas of channel coding/decoding module are carried out chnnel coding, send by wireless antenna after 1 modulation of channel modulator-demodulator through 3 pairs of data encoding/decoding modules then.To the voice signal that sends, carry out digitlization conversion by simulated voice and 7 pairs of simulated voices of data voice conversion module, then through the voice data of 3 pairs of transmissions of data encoding/decoding module encode, 2 pairs of voice datas of channel coding/decoding module carry out chnnel coding, sent by wireless antenna after 1 modulation of channel modulator-demodulator.
Referring to shown in Figure 2, Channel Modulation demodulator 1 is used for finishing the modulation that mediation sends signal of separating of circuit received signal, and the radio-frequency (RF) transmit-receive circuit core adopts the SI4432 chip design.After receiving the various alarms and information warning that control centre sends out, after the SI4432 demodulation process, be sent to channel coding/decoding module 2; During transmission, pass through the SI4432 modulation treatment, after UPG2214 amplifies, send by radio-frequency antenna from the channel encoded signal of channel coding/decoding module 2.
This Channel Modulation demodulator must meet following performance index and require:
1. high-speed phase-locked loop frequency stabilization wireless receiving and dispatching;
2. satisfy internal and international radio management channel index;
3. transparent data transmission means;
4. system address recognition function;
5. support that data start (three-way) and RTS/CTS Handshake Protocol;
6. the forward packet error correction coding+error correcting coding function interweaves;
7. channel frequency and other optional parameters are able to programme;
8. working frequency points: the special-purpose frequency of industry;
9. working method: joining common-frequency simplex, data-voice compatibility;
10. receive and dispatch change-over time :≤5ms;
11. communication distance: 25 kilometers of radiuses;
12. traffic rate: 19.2Kbps;
13. communication interface: RS-232;
14. channel bit error rate :≤1X10-5
15. carrier frequency power: 25W;
16. data sensitivity :-108dBm (BER 1X10-5);
17. consumption stream: reception≤75mA emission≤8A;
18. frequency stability: 1.5PPm;
19. the neighboring trace radiation<-65dBc;
20. frequency stability: 1.5PPm;
21. intermodulation anti-interference :≤-70dB;
22. adjacentchannel selectivity: 60dB;
23. spurious response :-65dB;
Suppress 24. block: 80dB;
25. operational environment: temperature :-25~+ 55 ℃ humidity: 95%@35 ℃;
Referring to shown in Figure 3, channel coding/decoding module 2 is used for line signal is carried out error correction coding, main control chip is EPM3128A, its RXD0 is connected with the RS232 mouth of Channel Modulation demodulator 1 with TXD0, the data/address bus line links to each other with data encoding/decoding module 3, realizes the data interaction with data encoding/decoding module 3.Chnnel coding adopts the RS coding method, and the utility model has compared various RS coding methods, has revised deficiency and mistake wherein, has adopted the method for the RS encoding and decoding that realize with software.
For (message polynomial is m (x) for n, k) RS sign indicating number, and a is a primitive element, and RS sign indicating number generator polynomial is:
G (x)=(x ten is (x+a a)
2) (x+a
3) ... (x+a
2t)
r(x)=[x
n-k·m(x)modg(x)]
Code polynomial behind the coding is
c(x)=x
n-k·m(x)+r(x)
Referring to shown in Figure 4, data encoding/decoding module 3 is used for the transmission data are encrypted or deciphered.Main control chip is the SM89C52 single-chip microcomputer, the LINK BUS bus parallel connection of its LINK BUS bus and channel coding/decoding module 2 and simulated voice and data voice conversion module 7, realize data interaction with channel coding/decoding module 2 and simulated voice and data voice conversion module 7, its TXD_CTR, RXD_CTR are connected with RX1, the TX1 of audio output interface 10, are used for the transmitting audio data signal.SM89C52 adopts information stacking pseudorandom code encryption and deciphering.
Referring to shown in Figure 5, microprocessor control module 5 is used for realizing Channel Modulation demodulator 1, channel coding/decoding module 2, data encoding/decoding module 3, simulated voice and data voice are changed the control of module 7, panel operation interface module 6, digital alarm signal generator 7.Microprocessor can be selected the C8051F363 series monolithic for use, in the control program 32k of the curable portion within it bytes Flash.Control program is pressed main program module, radio frequency trace routine module, channel coding/decoding mould control program module, data encoding and decoding control program module, is received data processing procedure module, alarm signal handling procedure, Word message release process module, digital speech control program module, audio alert attention program module, decryption software program module structure.
Panel operation, display interface module 6 are used to provide the equipment man-machine interface, and its circuit is realized partly being finished by software scans by SM89C52 by Key1 among Fig. 5~Key8 end.
To shown in Figure 9, simulated voice and data voice conversion module 7 are simulated voice and data voice conversion module, finish the data-voice conversion referring to Fig. 6.The channel width that this module provides according to circuit and to the basic demand of speech coding, speech coding employing sound sign indicating number words technology, Fig. 6 is simulated voice and data voice conversion module block diagram, and 3 parts are arranged, Fig. 7, Fig. 8, Fig. 9 are the circuit diagrams of its 3 parts.Form and mainly comprise voice A/D-D/A circuit, encoding and decoding speech circuit, data voice I/O control circuit.The interface of data voice I/O control circuit and encoding and decoding speech circuit adopts parallel port frame structure mode, with the interface employing serial communication mode of data encoding/decoding module 3.
Fig. 7 is a speech A/D-D/A circuit diagram of the present utility model, and the pcm encoder of voice is the voice signals that the voice signal of simulation changed into numeral.It is the first step of voice digitization, also is the basis of compress speech.It is μ/A rule PCM chip that this circuit core chip adopts CSP1027, CSP1027, and analog voice signal adopts difference output and input, and by amplified analog signal to drive analog voice equipment; Synchronization Control partly be mainly used in control frame synchronously and bit synchronous, the control pin is mainly used in the selection that μ/A restrains and the selection of low-power consumption mode.Realize the coupling of sequential between CSP1027 and Fig. 8 speech coding/decoding acp chip AMBE21000 by clock synchronization circuit, the key of this interface circuit is that the frame synchronization of PCM speech data and bit are synchronous.It is synchronous that the 8kHz clock source of input is used for bit, and 2.048MHz clock source is used for frame synchronization.The speech sample rate of AMBE-1000 and A/D or D/A interface all is 8kHz, the speech data of this 8kHz comes input and output by serial ports, command frame from a frame ID=0x03 to decoder that import is provided with these control signals exactly, can carry out whole configurations to SIOC.Because the CSP1027 chip is programmable, programming information also can transmit by command frame.In order to simplify the configuration of A/D-D/A chip, one group of default Configuration Values can dispose by pin.The Configuration Values that these are default has indicated the order of the program word of the direction of interface and programming device.
Fig. 8 is speech coding of the present utility model/decoding circuit figure, and the core codec chip adopts AMBE-1000, and AMBE-1000 is duplexing vocoder chip, adopts the AMBE speech coding algorithm, and code rate is 2.4~9.6kb/s.The most basic part of MBE-1000 is exactly an encoder and a decoder, and both are separate.The audio data stream of encoder reception 8KHz sampling (the 16bit linearity, 8bitA restrains, 8bitu restrains) and with certain speed delivery channel data.On the contrary, decoder receive channel merging becomes audio data stream.The sequential of encoder interface is fully asynchronous.AMBE-1000 adopts the interface of A/D-D/A chip as voice signal.The form of the audio data stream of input and output is identical, and channel interface adopts 8 or 16 s' microcontroller.
Fig. 9 is data voice I/O control circuit figure, adopt the 89C51 single-chip microcomputer to constitute control system and finish control from the compression bit stream of encoder output be input to the compression bit stream of decoder, when initialization, coder/decoder is carried out voice and the selection of error correcting code speed, the Equipment Control of A/D-D/A chip simultaneously.The AX232 effect of changing of flatting turn that electrifies.Circuit is finished the transmission of vocoded information and control information, carries out data input, output by P0 mouth and AMBE-1000, carries out interface by serial communication port and channel circuit.AMBE-1000 selects pin to link to each other by pull-up resistor with DIP switch and corresponding interface, so that select corresponding work mode.Between 2400~9600b/s and 50~4750b/s, freely select voice rate and error correcting code speed by selector switch.Adopt the parallel port passive mode, the clock of CHS_0_CLK is set, this clock need satisfy the data (i.e. 1 frame data) that can read 34 bytes in 20ms; The parallel port takies more interface resource simultaneously, and application program is comparatively simple.
Figure 10 is the voice data frame assumption diagram, and it is by 17 16 data formats that word is formed, and every 20ms encoder is exported 17 words, and same decoder will receive this 17 words.The frame format of input and output will give detailed introduction in following content.5 words are frame head, represent locating information and control information, by header, and ID, these 3 parts of status are formed.12 remaining words are made up of coded data bit.These 12 words (192) and if only if when AMBE-1000 is operated in 9600bps whole representative voice data, otherwise the data bit of not using will be filled (voice data begins to fill from highest order) by 0.When AMBE-1000 did not work in 9600bps, whole 272 also were transferred to decoder from encoder.
Referring to shown in Figure 11, digital alarm signal generator 8 is used for storing all kinds of alarm acoustic signals.Acp chip is recording playback sound chip I SD4008 and 1W amplifier CG7001, the various alarm sound that need report are stored in the chip I SD4008 with the form of data, when needing to report, synthetic again analog alarm sound is exported through the J5 terminal, J5 connects audio output interface 10, exports various warnings or other need warn sound through audio output interface 10 Interface Terminals.
The foregoing description only is used for further specifying the various warning informations of a kind of transmitting-receiving of the present utility model and can carries out sound sign indicating number words communicating devices; but the utility model is not limited to embodiment; every foundation technical spirit of the present utility model all falls in the protection range of technical solutions of the utility model any simple modification, equivalent variations and modification that above embodiment did.
Claims (2)
1. the various warning informations of transmitting-receiving also can carry out sound sign indicating number words communicating devices, it is characterized in that: comprising:
One Channel Modulation demodulator is used to receive and dispatch radiofrequency signal;
One channel coding/decoding module is used for transmission line signals is carried out chnnel coding or decoding;
One data encoding/decoding module is used for the transmission data are encoded or decoded;
One LCD display module is used for display text and image information;
One microprocessor control module is used for producing corresponding control signal;
One panel operation, display interface module are used for carrying out panel operation and externally carry out interface and be connected;
One simulated voice and data voice conversion module are used for the speech audio signal is carried out digitized processing or carried out the inverse transformation processing;
One digital alarm signal generator is used for producing and storing all kinds of alarm acoustic signals;
One transmitter interface is used to provide and being connected of transmitter;
One audio output interface is used to provide and being connected of player;
One end of Channel Modulation demodulator is connected with radio-frequency antenna, and the other end of Channel Modulation demodulator is connected with an end of channel coding/decoding module, and the end of purchasing again of Channel Modulation demodulator is connected with the microprocessor control module; The other end of channel coding/decoding module is connected with an end of data encoding/decoding module, and an end again of channel coding/decoding module is connected with the microprocessor control module; The other end of data encoding/decoding module is connected with the data voice conversion module with simulated voice, and an end again of data encoding/decoding module is connected with the microprocessor control module, and an output of data encoding/decoding module is connected to the LCD display module; Panel operation, display interface module are connected with the microprocessor control module; The other end of simulated voice and data voice conversion module is connected with the microprocessor control module, one output of simulated voice and data voice conversion module is connected to audio output interface, and an input of simulated voice and data voice conversion module is connected to the transmitter interface; The input of numeral alarm signal generator is connected with the microprocessor control module, and the output of digital alarm signal generator is connected to audio output interface.
2. the various warning informations of transmitting-receiving according to claim 1 also can carry out sound sign indicating number and talk about communicating devices, it is characterized in that: the described Channel Modulation demodulator that is used to receive and dispatch radiofrequency signal is made up by TDMA specialized high-speed data radio.
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102136848A (en) * | 2011-01-27 | 2011-07-27 | 厦门日华科技股份有限公司 | Device capable of receiving and sending various alarming messages and conducting acoustic code word communication |
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2011
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102136848A (en) * | 2011-01-27 | 2011-07-27 | 厦门日华科技股份有限公司 | Device capable of receiving and sending various alarming messages and conducting acoustic code word communication |
CN102136848B (en) * | 2011-01-27 | 2014-01-15 | 厦门日华科技股份有限公司 | Device capable of receiving and sending various alarming messages and conducting acoustic code word communication |
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