CN104158971A - Digital voice circuit - Google Patents

Abstract

The invention provides a digital voice circuit. The digital voice circuit comprises an audio input device and an audio output device, wherein the audio input device is connected to a loudspeaker through a first audio amplifying circuit; the loudspeaker is used for outputting a voice signal received from another terminal device to a user; and the audio output device is used for receiving the voice signal of the user, uploading the voice signal to a mobile communication network through a second audio amplifying circuit, and transmitting the voice signal to another terminal device through the mobile communication network. Power compensation is performed on an audio signal input into the audio input device and an audio signal output by the audio output device through a compensation circuit, and the volumes of the input and output audio signals are adjusted automatically according to a volume differential value between the received and output audio signals, so that comfortable conversation experience is brought to the user; and moreover, setting of volume keys is not needed, and the compactness and attractiveness of a mobile phone are further improved.

Description

A kind of digital speech circuit

Technical field

The present invention relates to electronic applications, refer to especially a kind of digital speech circuit.

Background technology

Existing mobile phone has experienced non intelligent mobile phone and smart mobile phone epoch, especially since apple issue iPhone smart mobile phone, having there is revolutionary variation in the general layout of Mobile Industry, progressively enters the smart mobile phone epoch, and the development of related industry has also entered fast rise passage.2008, whole world smart mobile phone sales volume is 1.39 hundred million, only account for 11.40% of global mobile phone sales volume, by 2013, whole world smart mobile phone sales volume has reached 9.68 hundred million, accounts for 53.56% of global mobile phone sales volume, compares 2008 and increases nearly six times, annual average compound growth rate is 47.36%, far above the growth rate of global mobile phone sales volume.

No matter be smart mobile phone or non intelligent mobile phone, the control of its volume is mainly that smart mobile phone is realized volume adjusting by real key or touch-screen virtual key by manually realizing the adjusting of volume, and non intelligent mobile phone regulates volume by real key, at present, also do not have the mobile phone of automatic regulating volume to occur.

Summary of the invention

The present invention proposes a kind of digital speech circuit, has solved and in prior art, by button, has realized the problem of volume adjusting.

Technical scheme of the present invention is achieved in that

A kind of digital speech circuit, comprise: voice input device and audio output device, described voice input device is connected to loud speaker by the first audio amplifier circuit, the voice signal of another terminal equipment that loud speaker receives to user's output, audio output device receives user's voice signal and it is uploaded to mobile communications network by the second audio amplifier circuit, by mobile communications network, be transferred to another terminal equipment

Described voice input device is also connected to the first sample circuit, and the first sample circuit gathers the volume value of voice input device and is converted into corresponding the first magnitude of voltage;

Described audio output device is connected to the second sample circuit, and the second sample circuit gathers the volume value of audio output device and is converted into corresponding second voltage value;

The first comparator is hysteresis comparator, the first magnitude of voltage and second voltage value compared, and when the difference of the first magnitude of voltage and second voltage value exceeds preset range, the first comparator output difference threshold voltage;

Select circuit, be connected to the output of described the first comparator and receive described difference voltage, selecting the output of circuit is two, exports respectively on the occasion of voltage and negative value voltage;

The first compensating circuit and the second compensating circuit are on-off controller, the first compensating circuit be connected to described selection circuit on the occasion of voltage output end, the second compensating circuit is connected to the negative value voltage output end of described selection circuit, according to the adjustable pulse signal of described difference voltage output duty cycle, control respectively turning on and off of switching tube in the first audio amplifier circuit and the second audio amplifier circuit, regulation output is to the power of loud speaker and mobile communications network;

Described the first sample circuit, the second sample circuit, the first comparator, selection circuit, the first compensating circuit and the second compensating circuit are realized by DSP circuit, described DSP circuit is TMS320DM642 chip, builds described the first sample circuit, the second sample circuit, the first comparator, selects circuit, the first compensating circuit and the second compensating circuit by programming in dsp chip inside;

Described the first audio amplifier circuit comprises:

The second inductor, its one end is connected to described power supply;

Second switch pipe and the 3rd switching tube, the source electrode of second switch pipe and the 3rd switching tube links together and is connected to the other end of the second inductor, the drain electrode of second switch pipe is connected to secondary earth potential, the drain electrode of the 3rd switching tube is connected to the second capacitor, and the other end of the second capacitor is connected to secondary earth potential;

Second switch driver, the UC3714 of Qi Wei Texas Instruments chip, clock signal based on control end input produces the switching drive signal of two-way complementation, one tunnel is coupled to described second switch tube grid, another road is coupled to described the 3rd switching tube grid, and its control end is connected to the pulse signal of described the first compensating circuit output;

Described the second audio amplifier circuit comprises:

Transformer, comprise former limit winding and secondary winding, former limit winding comprises first end and the second end, secondary winding comprises first end and the second end, former limit winding first end is connected to battery, secondary winding the second end is connected to secondary earth potential, and former limit winding first end and secondary winding the second end are Same Name of Ends;

The first switching tube, its source electrode is connected to transformer primary side winding the second end, and its drain electrode is connected to former limit earth potential, and its grid is connected to the first switch driver;

The first switch driver, comprise the first transistor and transistor seconds, the first transistor is NPN transistor, transistor seconds is PNP transistor, the base stage of the first transistor and transistor seconds links together as control end, and control end receives the pulse signal of described the second compensating circuit output, and the emitter of the first transistor and transistor seconds links together as output, the collector electrode of the first transistor is connected to described battery, and the collector electrode of transistor seconds is connected to former limit earth potential;

The first diode, its anodic bonding is to transformer secondary winding first end, and its negative electrode is connected to the first inductor;

The common port of the first inductor and the first capacitor is as output, and the other end of the first capacitor is connected to secondary earth potential.

The invention has the beneficial effects as follows:

By compensating circuit, to being input to the audio signal of the audio signal of voice input device and audio output device output, carry out power back-off, according to the volume difference of the audio signal that receives and export, automatically regulate the volume of input and output audio signal, make user's call experience comfortable, and the setting that can omit volume key, further improve compactedness and the aesthetic property of mobile phone.

Accompanying drawing explanation

In order to be illustrated more clearly in the embodiment of the present invention or technical scheme of the prior art, to the accompanying drawing of required use in embodiment or description of the Prior Art be briefly described below, apparently, accompanying drawing in the following describes is only some embodiments of the present invention, for those of ordinary skills, do not paying under the prerequisite of creative work, can also obtain according to these accompanying drawings other accompanying drawing.

Fig. 1 is the control block diagram of digital speech circuit of the present invention;

Fig. 2 is the circuit diagram of the first audio amplifier circuit of the present invention;

Fig. 3 is the circuit diagram of the second audio amplifier circuit of the present invention.

Embodiment

Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is clearly and completely described, obviously, described embodiment is only the present invention's part embodiment, rather than whole embodiment.Embodiment based in the present invention, those of ordinary skills, not making the every other embodiment obtaining under creative work prerequisite, belong to the scope of protection of the invention.

As shown in Figure 1, digital speech circuit of the present invention, comprise: voice input device 100 and audio output device 400, described voice input device is connected to loud speaker 800 by the first audio amplifier circuit 700, the voice signal of another terminal equipment that loud speaker receives to user's output, audio output device 400 receives user's voice signal and it is uploaded to mobile communications network 810 by the second audio amplifier circuit 710, by mobile communications network, is transferred to another terminal equipment.

Described voice input device is also connected to the first sample circuit 200, the first sample circuits and gathers the volume value of voice input device and be converted into corresponding the first magnitude of voltage; Described audio output device is connected to the second sample circuit 300, the second sample circuits and gathers the volume value of audio output device and be converted into corresponding second voltage value.

The first comparator 500 is hysteresis comparator, the first magnitude of voltage and second voltage value compared, and when the difference of the first magnitude of voltage and second voltage value exceeds preset range, the first comparator output difference threshold voltage.Select circuit 510, be connected to the output of described the first comparator and receive described difference voltage, selecting the output of circuit is two, exports respectively on the occasion of voltage and negative value voltage.

The first compensating circuit 600 and the second compensating circuit 610 are on-off controller, the first compensating circuit be connected to described selection circuit on the occasion of voltage output end, the second compensating circuit is connected to the negative value voltage output end of described selection circuit, according to the adjustable pulse signal of described difference voltage output duty cycle, control respectively turning on and off of switching tube in the first audio amplifier circuit 700 and the second audio amplifier circuit 710, regulation output is to the power of loud speaker and mobile communications network.

Described the first sample circuit, the second sample circuit, the first comparator, selection circuit, the first compensating circuit and the second compensating circuit can be realized by discrete form, also can realize by integrated form, discrete form i.e. the first sample circuit, the second sample circuit, the first comparator, selection circuit, the first compensating circuit and the second compensating circuit realizes by a plurality of discrete chips and peripheral component thereof; Integrated form is set up the first sample circuit, the second sample circuit, the first comparator, is selected circuit, the first compensating circuit and the second compensating circuit by the programming of DSP circuit in dsp chip inside, described DSP circuit is TMS320DM642 chip.

Up-to-date fixed DSP in the TMS320DM642 ShiTI C6000 of company series DSP, its core is C6416 type high-performance digital signal processor, there is extremely strong handling property, flexibility and the programmability of height, simultaneously peripheral integrated very complete equipment and the interface such as audio frequency, video and network service.

TMS320DM642 chip comprises: 3 configurable video ports (VPORT0-2) can be realized seamless link with general video coding and decoding device, supports various video resolution and video standard, supports RAW video input/output, transport stream mode; 1 10/100Mb/s Ethernet interface (EMAC), meets IEEE802.3 standard; 1 multichannel band buffered audio serial port (McASP), supports I2S, DIT, S/PDIF, IEC60958-1, the audio formats such as AES-3, CP-430; 2 multichannel band buffering serial ports (McBSP), adopt RS232 level to drive; 1 VCXO interpolation control unit (VIC), supports that audio/video is synchronous; 1 32,66M hertz, the master/slave pci interface of 3.3V, follow PCI2.2 standard; 1 configurable 16/32 host interface of user (HPI); 1 16 general input/output port (GPIO); 1 64 external memory interfaces (EMIF), can with most of asynchronous memories (SRAM, EPROM) and synchronous memories (SDRAM, SBSRAM, ZBTSRAM, FIFO) seamless link, maximum addressable external memory storage space is 1024MB; 1 enhancement mode direct memory access controller (EDMA) with 64 autonomous channels, tunnel; 1 data management input/output module (MDIO); 1 I2C bus module; 3 32 general purpose timers; 1 jtag interface that meets IEEE1149.1 standard and daughter board interface etc.

As shown in Figure 2, above-mentioned the first audio amplifier circuit specifically comprises:

The second inductor 61, its one end is connected to power supply; Second switch pipe 62 and the 3rd switching tube 63, the source electrode of second switch pipe 62 and the 3rd switching tube 63 links together and is connected to the other end of the second inductor 61, the drain electrode of second switch pipe 62 is connected to secondary earth potential, the other end that the drain electrode of the 3rd switching tube 63 is connected to output and the second capacitor 65, the second capacitors 65 is connected to secondary earth potential; Second switch driver 64, the UC3714 of Qi Wei Texas Instruments chip, clock signal based on control end input produces the switching drive signal of two-way complementation, and a road is coupled to described second switch pipe 62 grids, and another road is coupled to described the 3rd switching tube 63 grids.

Described the first compensating circuit output pulse signal is to the control end of second switch driver 64, the turn-on and turn-off of control switch pipe.

As shown in Figure 3, above-mentioned the second audio amplifier circuit comprises:

Transformer 51, comprise former limit winding and secondary winding, former limit winding comprises first end and the second end, secondary winding comprises first end and the second end, former limit winding first end is connected to battery as input, secondary winding the second end is connected to secondary earth potential, and former limit winding first end and secondary winding the second end are Same Name of Ends; The first switching tube 52, its source electrode is connected to transformer primary side winding the second end, and its drain electrode is connected to former limit earth potential, and its grid is connected to the first switch driver 53; The first switch driver 53, comprise the first transistor and transistor seconds, the first transistor is NPN transistor, transistor seconds is PNP transistor, the base stage of the first transistor and transistor seconds links together as control end, the emitter of the first transistor and transistor seconds links together as output, and the collector electrode of the first transistor is connected to battery, and the collector electrode of transistor seconds is connected to former limit earth potential; The first diode 54, its anodic bonding is to transformer secondary winding first end, and its negative electrode is connected to the first inductor 55; The common port of the first inductor 55 and the first capacitor 56 is as output, and the other end of the first capacitor 56 is connected to secondary earth potential.

The impulse circuit of described the second compensating circuit output is couple to the control end of the first switch driver 53, the turn-on and turn-off of control switch pipe.

The present invention carries out power back-off by compensating circuit to being input to the audio signal of the audio signal of voice input device and audio output device output, according to the volume difference of the audio signal that receives and export, automatically regulate the volume of input and output audio signal, make user's call experience comfortable, and the setting that can omit volume key, further improve compactedness and the aesthetic property of mobile phone.

The foregoing is only preferred embodiment of the present invention, in order to limit the present invention, within the spirit and principles in the present invention not all, any modification of doing, be equal to replacement, improvement etc., within all should being included in protection scope of the present invention.

Claims (1)

1. a digital speech circuit, comprise: voice input device and audio output device, described voice input device is connected to loud speaker by the first audio amplifier circuit, the voice signal of another terminal equipment that loud speaker receives to user's output, audio output device receives user's voice signal and it is uploaded to mobile communications network by the second audio amplifier circuit, by mobile communications network, be transferred to another terminal equipment, it is characterized in that

Described voice input device is also connected to the first sample circuit, and the first sample circuit gathers the volume value of voice input device and is converted into corresponding the first magnitude of voltage;

Described audio output device is connected to the second sample circuit, and the second sample circuit gathers the volume value of audio output device and is converted into corresponding second voltage value;

The first comparator is hysteresis comparator, the first magnitude of voltage and second voltage value compared, and when the difference of the first magnitude of voltage and second voltage value exceeds preset range, the first comparator output difference threshold voltage;

Select circuit, be connected to the output of described the first comparator and receive described difference voltage, selecting the output of circuit is two, exports respectively on the occasion of voltage and negative value voltage;

The first compensating circuit and the second compensating circuit are on-off controller, the first compensating circuit be connected to described selection circuit on the occasion of voltage output end, the second compensating circuit is connected to the negative value voltage output end of described selection circuit, according to the adjustable pulse signal of described difference voltage output duty cycle, control respectively turning on and off of switching tube in the first audio amplifier circuit and the second audio amplifier circuit, regulation output is to the power of loud speaker and mobile communications network;

Described the first sample circuit, the second sample circuit, the first comparator, selection circuit, the first compensating circuit and the second compensating circuit are realized by DSP circuit, described DSP circuit is TMS320DM642 chip, builds described the first sample circuit, the second sample circuit, the first comparator, selects circuit, the first compensating circuit and the second compensating circuit by programming in dsp chip inside;

Described the first audio amplifier circuit comprises:

The second inductor, its one end is connected to described power supply;

Second switch pipe and the 3rd switching tube, the source electrode of second switch pipe and the 3rd switching tube links together and is connected to the other end of the second inductor, the drain electrode of second switch pipe is connected to secondary earth potential, the drain electrode of the 3rd switching tube is connected to the second capacitor, and the other end of the second capacitor is connected to secondary earth potential;

Second switch driver, the UC3714 of Qi Wei Texas Instruments chip, clock signal based on control end input produces the switching drive signal of two-way complementation, one tunnel is coupled to described second switch tube grid, another road is coupled to described the 3rd switching tube grid, and its control end is connected to the pulse signal of described the first compensating circuit output;

Described the second audio amplifier circuit comprises:

Transformer, comprise former limit winding and secondary winding, former limit winding comprises first end and the second end, secondary winding comprises first end and the second end, former limit winding first end is connected to battery, secondary winding the second end is connected to secondary earth potential, and former limit winding first end and secondary winding the second end are Same Name of Ends;

The first switching tube, its source electrode is connected to transformer primary side winding the second end, and its drain electrode is connected to former limit earth potential, and its grid is connected to the first switch driver;

The first switch driver, comprise the first transistor and transistor seconds, the first transistor is NPN transistor, transistor seconds is PNP transistor, the base stage of the first transistor and transistor seconds links together as control end, and control end receives the pulse signal of described the second compensating circuit output, and the emitter of the first transistor and transistor seconds links together as output, the collector electrode of the first transistor is connected to described battery, and the collector electrode of transistor seconds is connected to former limit earth potential;

The first diode, its anodic bonding is to transformer secondary winding first end, and its negative electrode is connected to the first inductor;

The common port of the first inductor and the first capacitor is as output, and the other end of the first capacitor is connected to secondary earth potential.