CN1879581A - In-vitro voice processing unit for electronic cochlear duct - Google Patents

Abstract

The invention relates to an electric cochlear external voice treatment device, comprising microprocessor and power circuit. The input end of microprocessor is connected to acoustic frequency interface, output end is connected to radio frequency mode; said microprocessor employs digital signal processor TMS320VC5509A, the acoustic frequency interface employs TLV320AIC23B, the digital signal processor is connected with acoustic frequency interface through interface of I2C and MCBSP, the digital signal processor TMS320VC5509A is outer connected with FLASH memory, said FLASH memory stores systematic program for electric cochlear external voice treatment device. The kernel processor employs TMS320VC5509A, which increases system computing ability and reduces power consumption. The employed single chip acoustic frequency decoder accomplishes functions of enlargement, resisting aliasing filtering and AD sampling, which simplifies hard construction for whole flat base and reduces cost in further.

Description

In-vitro voice processing unit for electronic cochlear duct

Technical field

The present invention relates to cochlear implant, the in-vitro voice processing unit in particularly a kind of cochlear implant, it finishes collection, the processing of voice signal to external world, and the body that the signal after will handling sends to cochlear implant is implanted into part.

Background technology

Cochlear implant is a kind of high-tech electronic installation, can substitute impaired inner ear hair cells fully, it is converted into the neuroelectric pulse signal with outside sound, walk around hair cell downright bad in the auditory system, directly stimulate the spiral ganglion of auditory nerve, communicate information to brain, make deafness patient regain audition.

Cochlear implant can be divided into two major parts on hardware configuration, promptly external speech processes platform and body are implanted into part.The function of external speech processes platform is to pick up voice signal from the external world, with its digitized, and particular processing algorithm in addition, be implanted into part according to certain coded system by RF-coupled transmission donor afterwards.

At present, the core processor of external speech processes platform all is the DSP56000 series DSP of motorola inc in most of cochlear implant products.Its processor calculating speed is lower, and power consumption is big, and ram in slice is too small, needs to expand external RAM in design process, and it carries Peripheral Interface complex structure when outwards expanding.In the speech processes process, analoging sound signal need be converted into digital signal, because the output voltage of mike is very low, generally before A/D transforms, all must amplifies the signal of mike output and resist and mix repeatedly filtering.The existence of these three links makes the complex structure of system, cost up.In addition, processing platform with PC between all adopt the RS232 serial communication when communicating by letter, defective such as it is poor to exist data transmission credibility, and transmission speed is low.

Summary of the invention

The objective of the invention is the problems referred to above at the existence of existing voice processing platform, a kind of in-vitro voice processing unit for electronic cochlear duct based on TMS320VC5509A and TLV320AIC23B is provided, makes the cochlear implant product more effectively to provide service for deafness patient.

In-vitro voice processing unit for electronic cochlear duct of the present invention comprises microprocessor and power circuit, the input termination audio interface of microprocessor, the outfan of microprocessor connects radio-frequency module, this radio-frequency module is used for in-vitro voice processing unit and is implanted into communicating by letter of part with body, described microprocessor adopts digital signal processor TMS320VC5509A, described audio interface adopts audio codec TLV320AIC23B, and digital signal processor TMS320VC5509A passes through I ²C interface is connected with audio codec TLV320AIC23B with the MCBSP interface, the system program of storage in-vitro voice processing unit for electronic cochlear duct in the external FLASH memory of digital signal processor TMS320VC5509A, this FLASH memory.

This in-vitro voice processing unit for electronic cochlear duct is a core with the TMS320VC5509A and the TLV320AIC23B of TI company, outwards expands other functional module, and its main effect has:

A) be core processor with TMS320VC5509A, improved the operational capability of system, under the prerequisite that satisfies the system real time requirement, can realize complicated algorithm more.The power consumption of system is lower, provides very big advantage for portable.TMS320VC5509A ram in slice space is big, when processes voice signals, need not expansion RAM again, has simplified system structure.

B) analogue signal is being used the TLV320AIC23B audio codec in the digital signal conversion process, required amplification, anti-repeatedly filtering, AD three functions of sampling of mixing have been finished with one chip, the system that makes is further simplified, and can reduce the physical space of system, can reduce cost again.In the sampling process, can be according to the different actual different parameters that require to be provided with flexibly.In addition, TLV320AIC23B also has audio interface more than needed, is easy to expand other functional module, for the debugging of product with expand other function and facilitate.

C) communicate by letter between system and PC and finish,, only need a spot of discrete device of expansion because the TMS320VC5509A chip integration becomes the USB module by USB interface.Simplified the structure of system, it is poor to have overcome in traditional RS232 serial communication data transmission credibility simultaneously, shortcoming such as transmission speed is low.

Description of drawings

Fig. 1 is the structure chart of this in-vitro voice processing unit for electronic cochlear duct;

Fig. 2 is the connection layout of its DSP and audio codec;

Fig. 3 is the connection layout of its DSP and FLASH memorizer;

Fig. 4 is the connection layout of its DSP and power management chip;

Fig. 5 is the USB interface connection layout between its DSP and PC;

Fig. 6 is its DSP and FSK modulation module interface connection layout;

Fig. 7 is the implementation of its radio-frequency module;

Fig. 8 is its theory diagram based on the cochlear implant speech processing algorithm of feature of Chinese language.

The specific embodiment

Describe in detail below in conjunction with accompanying drawing.

As shown in Figure 1, present embodiment comprises six parts altogether based on the external speech processes platform of the cochlear implant of TMS320VC5509A and TLV320AIC23B: digital signal processor (DSP) 1, audio codec 3, power circuit 6, USB interface 8, FLASH memorizer 2 and radio-frequency module 5.Core is a digital signal processor (DSP) 1, outwards the control circuit 4 of extended audio interface 3, radio frequency interface 5, external memory storage 2, computer interface 8, power circuit 6 and system.Introduce the implementation method of each several part below respectively.

Consider other factorses such as system structure, task processing operand and power consumption, DSP1 of the present invention adopts the TMS320VC5509A digital signal processor of TI company, TMS320VC5509A is a low power processor of the up-to-date release of TI, be specially adapted to portable type electronic product, has powerful operation capacity, maximum clock can reach 200MHz, and chip integration has become abundant Peripheral Interface, can with many peripheral hardware seamless links.In addition, carry RAM in the sheet, when the deal with data amount is not king-sized task, need not to expand RAM outside the sheet than large space.

The device that audio interface 3 is adopted is a audio coding decoding chip TLV320AIC23B of TI company, its function has to be amplified the analogue signal of input, resist and mix repeatedly filtering and AD sampling, TLV320AIC23B carries out two-stage to the output signal of Mic and amplifies: first order maximum amplification is 5, and is adjustable by hardware; Second level amplification range is 0 to 20DB, and is adjustable by software.Voice signal is being carried out in the sampling process, the sample frequency scope be 8KHz to 96KHz, the signal word length after the sampling can be 16,20,24 and 32, above-mentioned parameter all can dispose by software.As shown in Figure 2, being connected between audio coding decoding chip TLV320AIC23B and the TMS320VC5509A comprises control interface and data-interface two parts.Control interface is used for the setting to audio coding decoding chip TLV320AIC23B working environment, by the I2C interface and the TMS320VC5509A realization seamless link of standard.Data-interface is used for audio data transmission between the two, employing be the synchronous transfer agreement, realize seamless link by the McBSP interface.TLV320AIC23B needs clock signal in sampling process, the present invention adopts the outside that 12.288MHz is provided clock signal, realizes required sampled clock signal by in house software.TLV320AIC23B provides analog-and digital-audio frequency input/output interface, and input interface comprises Mic interface and LineIn interface, and output interface comprises HeadPhone interface and LineOut interface.For the Mic interface, TLV320AIC23B provides the bias voltage of 0.75Vdd, can connect common no polar form Mic.

For the software that prevents system under power-down conditions is not lost, all software programs of system must be stored in the nonvolatile memory.The method applied in the present invention is that DSP1 extends out FLASH memorizer 2.The program of system is stored among the FLASH in advance, after system re-powers at every turn, the Bootload function that utilization DSP1 carries, loading procedure from FLASH automatically.The FLASH memorizer 2 that extends out of present embodiment adopts the AM29LV160D FLASH of AMD, with being connected as shown in Figure 3 between the DSP1, this FLASH is asynchronous storage, take the CE1 space of TMS320VC5509A (being DSP1), the major control signal is read signal OE, write signal WE and chip selection signal CE.FLASH memorizer 2 is connected as Fig. 3 with data, the address wire of TMS320VC5509A, and data format is 16.

The system program of storage comprises speech processing algorithm in the described FLASH memory 2, this speech processing algorithm is based on the cochlear implant speech processing algorithm of feature of Chinese language, as shown in Figure 8, should comprise pretreatment module, band filter group, envelope extract block and fundamental frequency information extraction module based on the cochlear implant speech processing algorithm of feature of Chinese language, voice signal is through after the pretreatment, and one the tunnel carries out frequency band division and envelope extraction by band filter group, envelope extract block successively; Another road utilizes small echo to promote by the fundamental frequency information extraction module and extracts fundamental frequency information, the fundamental frequency information that extracts is subjected to the regulation and control of hearing mechanism control module, be passed to the part low-frequency range of selection, and with selected low-frequency range in the envelope signal that extracted be implanted into part in the mode of command frame through radio-frequency module transmission donor.

The speech processing algorithm of storage also can be based on the cochlear implant speech processing algorithm of English or other Languages in the described FLASH memory 2.

With reference to Fig. 4, it is kernel and the IO power supply of DSP1 that power circuit 6 adopts low pressure difference linearity power supply (LDO).The concrete adjustable output low pressure difference linearity of the two-way power supply TPS70102 chip that adopts, it is to DSP1, and promptly TMS320VC5509A provides the common IO voltage of 3.3v and the core voltage of 1.6v, and this power supply chip also provides the reset signal of standard to TMS320VC5509A simultaneously.It regulates output voltage by changing outside feedback resistance size.

In the clinical practice of cochlear implant, can use the parameter of computer for analysis cochlea inside, thereby assess and improve clinical effectiveness.The interface that adopts USB interface 8 conducts to communicate by letter with PC in the present embodiment, this USB interface 8 utilize the inner integrated USB module of TMS320VC5509A, and for communication between PC provides simple and direct connected mode, its specific implementation as shown in Figure 5.

Radio-frequency module 5 is used for external speech processes platform and is implanted into communicating by letter of part with body, is implanted into part voice signal data and the required power supply energy of implant system work to body, simultaneously, also can obtain feedback signal from implanting the unit.Present embodiment adopts the AD9883 DDS chip of ADI company that audio digital signals is carried out the FSK modulation, and the carrier frequency of employing is 10MHz and 5MHz, and message transmission rate is 500K bps, Figure 6 shows that the connection layout of AD9883 interface chip and DSP1.Voice signal after the FSK modulation is finished transfer of data by the coupling of the tuning concussion of LC loop, and physical circuit as shown in Figure 7.

Digital signal processor TMS320VC5509A also connects emulator interface 7, and this emulator interface 7 adopts the jtag interface of standard.

The control circuit 4 of system is realized the configuration of system's important parameter by common IO and external interrupt.At the outside expansion of digital signal processor TMS320VC5509A key switch, after detecting the outside stage casing of IO pin state and system, regulate speech processes signal volume, filters solutions, parameters such as mode of operation with software.

Claims (6)

1, a kind of in-vitro voice processing unit for electronic cochlear duct, comprise microprocessor and power circuit, the input termination audio interface of microprocessor, the outfan of microprocessor connects radio-frequency module, this radio-frequency module is used for in-vitro voice processing unit and is implanted into communicating by letter of part with body, it is characterized in that: described microprocessor adopts digital signal processor TMS320VC5509A, described audio interface adopts audio codec TLV320AIC23B, digital signal processor TMS320VC5509A is connected with audio codec TLV320AIC23B with the MCBSP interface by the I2C interface, the system program of storage in-vitro voice processing unit for electronic cochlear duct in the external FLASH memory of digital signal processor TMS320VC5509A, this FLASH memory.

2, in-vitro voice processing unit for electronic cochlear duct according to claim 1 is characterized in that: the system program of storage comprises speech processing algorithm in the described FLASH memory, and this speech processing algorithm is based on the cochlear implant speech processing algorithm of feature of Chinese language.

3, in-vitro voice processing unit for electronic cochlear duct according to claim 2, it is characterized in that: described cochlear implant speech processing algorithm based on feature of Chinese language comprises pretreatment module, band filter group, envelope extract block and fundamental frequency information extraction module, voice signal is through after the pretreatment, and one the tunnel carries out frequency band division and envelope extraction by band filter group, envelope extract block successively; Another road utilizes small echo to promote by the fundamental frequency information extraction module and extracts fundamental frequency information, the fundamental frequency information that extracts is subjected to the regulation and control of hearing mechanism control module, be passed to the part low-frequency range of selection, and with selected low-frequency range in the envelope signal that extracted be implanted into part in the mode of command frame through radio-frequency module transmission donor.

4, in-vitro voice processing unit for electronic cochlear duct according to claim 1 is characterized in that: also comprise being used for the USB interface that is connected with PC, this USB interface adopts integrated USB module in digital signal processor TMS320VC5509A.

5, in-vitro voice processing unit for electronic cochlear duct according to claim 1 is characterized in that: described digital signal processor TMS320VC5509A also connects emulator interface, and this emulator interface adopts the jtag interface of standard.

6, in-vitro voice processing unit for electronic cochlear duct according to claim 1, it is characterized in that: described power circuit adopts the adjustable output low pressure difference linearity of two-way power supply TPS70102 chip, it provides the common IO voltage of 3.3v and the core voltage of 1.6v to digital signal processor TMS320VC5509A, and this power supply chip also provides the reset signal of standard to digital signal processor TMS320VC5509A simultaneously.

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