CN201449300U - Programmable pressure sensor - Google Patents

Programmable pressure sensor Download PDF

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Publication number
CN201449300U
CN201449300U CN2009200469362U CN200920046936U CN201449300U CN 201449300 U CN201449300 U CN 201449300U CN 2009200469362 U CN2009200469362 U CN 2009200469362U CN 200920046936 U CN200920046936 U CN 200920046936U CN 201449300 U CN201449300 U CN 201449300U
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China
Prior art keywords
chip
pressure sensor
programmable
signal processing
processing circuit
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Expired - Lifetime
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CN2009200469362U
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Chinese (zh)
Inventor
郭宏
王莉莎
申爱群
李恩君
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Beijing Nokisens Electronic Technology Development Co., Ltd.
Beijing Nokisens SAC Co., Ltd.
Suzhou Zhongyin Sensing Co., Ltd.
Weihai Nokisens SAC Co., Ltd.
Original Assignee
BEIJING NOKISENS ELECTRONIC TECHNOLOGY DEVELOPMENT Co Ltd
BEIJING NOKISENS SAC Co Ltd
WEIHAI NOKISENS SAC CO Ltd
KUNSHAN NOKISENS SAC CO Ltd
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Priority to CN2009200469362U priority Critical patent/CN201449300U/en
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Abstract

The utility model discloses programmable pressure sensor, which comprises a chip and a chip programming plate which achieves the programming of the chip, wherein the chip is provided with a programmable signal processing circuit and a pressure sensor, wherein the input end of the signal processing circuit is connected with the output end of the pressure sensor, one end of the chip programming plate is connected with a computer through a computer USB communication hole, and the other end of the chip programming plate is connected with the signal processing circuit on the chip. The programmable pressure sensor adopts MEMS technology to integrate the pressure sensor and the digital signal processing circuit, thereby reducing the influence of outside to sensor signals, improving stability, lowering production cost, and simultaneously achieving a scale-friendly human-machine interface which is convenient for users to calibrate sensors, and the programmable pressure sensor has the advantages of simple structure, small volume, light weight, long service span and the like, can be widely used in various industrial automatic control environment, and is related to the industries of water conservancy, hydroelectricity, railway traffic, intelligent building, automatic control of production, aviation and aerospace, military industry and the like.

Description

Programmable pressure sensor
Technical field
The utility model relates to sensor field, what be specifically related to is that a kind of sensor and signal processing circuit are arranged on the programmable pressure sensor on the chip.
Background technology
Sensor is a kind of pick-up unit, can experience measured information, and the information that detection can be experienced, be for conversion into the information output of electric signal or other desired forms according to certain rules, to satisfy requirements such as transmission of Information, processing, storage, demonstration, record and control.It is a primary link of realizing detection automatically and automatic control.
Sensing technology---the complex art of material, design, technology, performance and the application etc. of research sensor.Sensing technology is a marginal technology, it relates to physics, mathematics, chemistry, and to the research and development partly of its sensitive element, except research and development to its chip, also should attach great importance to the packaging technology of sensor and the research of encapsulating structure, this causes one of key factor that sensor can not reliablely and stablely be worked often.
But when automotive electronicsization makes that pressure transducer obtains large batch of use on automobile, the problem of debug difficulties just appears suddenly out, the temperature range that the pressure transducer of automotive grade uses is from-40~125 degree, require sensor in so wide temperature range, to satisfy certain measuring accuracy, unique method is that each sensor is all done the full scale of total temperature range ability and the temperature compensation at zero point, this desk checking method not only needs a large amount of high-quality workmans, and needs a large amount of instrument and equipments.This sensor is used for this production in enormous quantities of automobile and the very abominable product of environment for use, the signal condition of piezoelectric transducer, temperature compensation and pressure correction become the greatest problem that this product lot quantity is produced.
And at present in sensor application, mostly be the circuit that sensor and its signal processing circuit are separated, doing maximum problem like this is that volume is big, cost is high and the encapsulation difficulty, especially the automatization level of compensation method, production run of design, temperature characterisitic of signal circuit of pressure transducer that is applied in automotive grade is all very low, influence the stability of sensor, simultaneously can't realize mass production, so sensor needs further to improve.
The utility model content
At the deficiency that exists on the prior art, the utility model purpose provides that a kind of volume is little, cost is low, the programmable pressure sensor of sensor and signal processing circuit integral type, has improved the stability of sensor.
To achieve these goals, the utility model is to realize by the following technical solutions:
Programmable pressure sensor, comprise a chip, it is characterized in that, it comprises that also one realizes the chip programming plate of chip programming function, is provided with a programmable signal processing circuit and a pressure transducer on described chip, and described signal processing circuit input end connects the pressure transducer output terminal, the utility model signal processing circuit and pressure transducer are integrated on the same chip, thereby constituting integral structure is the integrated pressure sensor, has reduced volume, has reduced production cost.
Further, described chip programming plate one end is connected with computing machine by communication interface, and the other end of chip programming plate is connected with signal processing circuit on the chip then.
As preferably, the USB communication interface that described this communication interface is a computing machine, chip programming plate one end is connected with computing machine by the USB communication interface of computing machine.
The implementation of chip programming is:
The upper computer software of computing machine links to each other with the chip programming plate by computing machine USB communication port, and the other end of chip programming plate links to each other with chip then.Online normal after, the function software by computing machine can realize that programming is demarcated in chip output and temperature compensation is programmed.
According to described programmable pressure sensor, wherein, also be provided with the pad that pin is drawn in programming, signal on the described chip, be connected with external unit such as chip programming plate by pad, made things convenient for the encapsulation of entire chip, improved the stability of sensor.
In order to realize programmable functions, integrated single-chip microcomputer and EEPROM (Electrically Erasable Programmable Read Only Memo) (EEPROM) realize programmable compensated digital signal function by single-chip microcomputer and EEPROM in signal processing circuit.
As preferably, in the utility model, also be provided with the interface adjusted that is connected with external unit on the described chip, i.e. the pad of output pin on the chip.Be fit to connect different equipment by adjusting interface, suitable client specifically uses.
Described pressure transducer comprises a strain bridge, and described strain bridge output terminal also is connected with first amplifying circuit and second amplifying circuit, changes to be converted into electric signal output after back voltage amplifies through first amplifying circuit.
Also be connected with copped wave detuner and gain calibration circuit between described first amplifying circuit and second amplifying circuit, the output terminal of described first amplifying circuit connects the copped wave detuner, the copped wave detuner connects gain calibration circuit, and described gain calibration circuit connects second amplifying circuit again.
According to described programmable pressure sensor, wherein, it also comprises temperature sensor and testing circuit, and described temperature sensor is connected described signal processing circuit with testing circuit.
Principle of work of the present utility model is as follows:
The utility model adopts MEMS (pressure resistance type) technology that pressure transducer and digital signal processing circuit are integrated on the chip, and the function of pressure transducer is to be electric signal output with the ambient pressure conversion of signals; The function of digital signal processing circuit is the voltage signal output that the electrical signal conversion of sensor output is become standard by programming.The major function of chip programming is to realize output demarcation and temperature compensation.
The utility model adopts the process structure of MEMS (pressure resistance type) technology with pressure transducer and digital signal processing circuit integral type, thereby has reduced the influence of outer bound pair sensor signal, has improved stability, has reduced production cost.The man-machine interface that has realized the scale close friend simultaneously makes things convenient for the user that sensor is demarcated; on technology, can guarantee large-scale production; satisfied the demand in market; will be to the automobile sensor; medical electronics plays import substitution with pressure transducer and industrial OEM with pressure transducer and forms part core devices production domesticization purpose; and have simple in structure; volume is little; in light weight; excellent characteristics such as long service life; can be widely used in various industrial automatic control environment, relate to water conservancy and hydropower; railway traffic; intelligent building; the production automatic control; Aero-Space; military project; petrochemical industry; oil well; electric power; boats and ships; lathe; numerous industries such as pipeline.
Description of drawings
Describe the utility model in detail below in conjunction with the drawings and specific embodiments;
Fig. 1 is the structured flowchart of integrated pressure sensor of the present utility model.
Fig. 2 is the circuit theory diagrams of integrated pressure sensor of the present utility model.
Fig. 3 is the connected mode synoptic diagram of chip programming plate of the present utility model.
Fig. 4 is an embodiment of the present utility model.
Embodiment
For technological means, creation characteristic that the utility model is realized, reach purpose and effect is easy to understand, below in conjunction with embodiment, further set forth the utility model.
Referring to Fig. 1 to Fig. 4, the utility model adopts MEMS (pressure resistance type) technology that pressure transducer and digital signal processing circuit are integrated in a programmable pressure sensor on the chip, it comprises the chip programming plate of a chip 100 and a realization chip programming function, this chip programming plate one end connects computing machine by the USB communication interface, its other end connects chip 100, realizes the programmable functions of chip 100 by the chip programming plate.In the utility model, a programmable signal processing circuit 110 and a pressure transducer 120 are installed on chip 100, these signal processing circuit 110 input ends connect pressure transducer 120 output terminals; Thereby signal processing circuit 110 and pressure transducer 120 are integrated on the chip, the integral structure that has constituted signal processing circuit 110 and pressure transducer 120 is the integrated pressure sensor, reduced the influence of volume He the outer bound pair sensor of sensor, improved the stability of sensor, reduced and produced this.
It should be noted that, in this enforcement, in order to realize programmable functions, in digital signal processing circuit, also be integrated with single-chip microcomputer and EEPROM (Electrically Erasable Programmable Read Only Memo) (EEPROM), realize programmable compensated digital signal function, the serviceable life of having improved pressure transducer by single-chip microcomputer and EEPROM.
In addition, use in the market at home, the major technique bottleneck of existence is the packaging technology of state inner sensor factory.In the present embodiment, encapsulation for the ease of entire chip 100, improve the stability of sensor, on chip 100, also be provided with various programmings, signal and draw the pad 130 of pin, this programming, signal are drawn pin and are connected single-chip microcomputer and EEPRO, be connected with external unit such as chip programming plate etc. by pad 130, made things convenient for the encapsulation of entire chip 100.Also be provided with the pad that the interface adjusted that is connected with external unit is an output signal on chip 100, can adjust interface and be fit to connect different equipment, suitable client specifically uses.In the utility model, because pressure transducer 120 and signal processing circuit 120 are encapsulated on the slight chip, and be connected with external unit by pad 130, so its demarcation and encapsulation process need instruments such as gold wire bonder, cleaning shop and realize, increase the packaging effect of chip 100, improved the stability of sensor.
Again referring to Fig. 2, pressure transducer 120 in the utility model adopts the Hui Sitong principle, foil gauge is bonded on the generation mechanics strain matrix closely by special bonding agent, when the stressed generation STRESS VARIATION of matrix, resistance strain gage also produces deformation together, the resistance of foil gauge is changed, be added in ohmically voltage and change thereby make; In the present embodiment, this foil gauge is the strain bridge 121 that resistance is formed, because the change in resistance that this foil gauge produces when stressed is less usually, voltage changes also corresponding less, so these strain bridge 121 output terminals also are connected with first amplifying circuit 122 and second amplifying circuit 125, change being converted into electric signal output after back voltage amplifies through first amplifying circuit.
What deserves to be mentioned is, in the utility model, also be connected with copped wave detuner 123 and gain calibration circuit 124 at first amplifying circuit, 122 output terminals, after electric signal after the amplification is reconciled and is calibrated by copped wave detuner 123 and gain calibration circuit 124, be transferred to treatment circuit (normally A/D conversion and CPU) again and show or topworks that 125 outputs of second amplifying circuit are arranged again.
What note more is, again referring to Fig. 2, in the utility model, on chip 100, be built-in with temperature sensor 140, the induction information of temperature sensor 140 is defeated by digital processing circuit 110 input ends after by A/D converter 160, flow to first amplifying circuit 122 and second amplifying circuit 125 through D/A converter 170 then, thereby reach the purpose of temperature compensation of the present utility model.In addition, on digital processing circuit 110, go back connection detection circuit 150, the effect that detects and debug.
For introducing the technical solution of the utility model in detail, referring to Fig. 1 to Fig. 4, specific implementation process is as follows:
1, sensor package process:
Because chip 100 is nude film encapsulation, so need to be earlier final products custom encapsulation (opening a mold). it is being on the pad 130 with power-with the packaging pin that it is good that gold wire bonder is drawn out to the customization in early stage just that chip uses the user only to need signal output pin, power supply.
2, the sensor debugging step and the course of work:
Referring to Fig. 2 and Fig. 4, the utility model can be achieved as follows debug function: the selection and the chip of the setting of the setting of the selection of temperature compensation point, ratio output parameter, output clamp, the selection of input pattern signal, temperature sensor are selected.
3, chip programming plate method of attachment
As shown in Figure 3, the upper computer software of computing machine links to each other with the chip programming plate by computing machine USB communication interface, and the other end of chip programming plate is connected with the digital signal processing circuit of integrated pressure sensor then.Online normal after, the function software by computing machine can realize that output demarcates programming and temperature compensation programming to single-chip microcomputer in the digital signal processing circuit and EEPROM, be that chip realizes that programming is demarcated in output and temperature compensation is programmed from making entire chip.
2, the debugging detailed process in the present embodiment is as follows:
The first step, first temperature spot are demarcated
The pressure transducer release is in the input state at zero point, click i.e. " Firsttemperature " zone the 1st button " Set Low Input " of first temperature spot, debug the flicker that the frock green light can not stop this moment, the expression system is in and reads the parameter state at zero point, parameter reads and finishes, green light stops flicker, and the 2nd button " Set High Input " becomes black by grey, and the expression system can begin to read full position parameter.
Pressure transducer is pressurized to full position input state, click " First temperature " zone the 2nd button " Set High Input ", debug the flicker that the frock green light can not stop this moment, the expression system is in and reads full position parameter state, parameter reads and finishes, green light stops flicker, and the 3rd button " Set LowInput " becomes black by grey, and the expression system can begin to read the zero-bit parameter.
The pressure transducer release is in the input state at zero point, click " First temperature " zone the 3rd button " Set Low Input ", debug the flicker that the frock green light can not stop this moment, the expression system is in and reads the parameter state at zero point, parameter reads and finishes, green light stops flicker, the 1st temperature spot staking-out work finished, second temperature spot i.e. " Second temperature " zone " Set Low Input " button becomes black by grey, and expression can be carried out the 2nd temperature spot compensation.
Heated pressure transducer is heated to the 2nd temperature spot temperature with pressure transducer, keeps beginning the 2nd step after 1 hour, does not allow outage in the process, does not allow connection is disconnected.
The pressure transducer release is in the input state at zero point, click " Second temperature " zone the 1st button " Set Low Input ", debug the flicker that the frock green light can not stop this moment, the expression system is in and reads the parameter state at zero point, parameter reads and finishes, green light stops flicker, and the 2nd button " Set HighInput " becomes black by grey, and the expression system can begin to read full position parameter.
Pressure transducer is pressurized to full position input state, click " Second temperature " zone the 2nd button " Set High Input ", debug the flicker that the frock green light can not stop this moment, the expression system is in and reads full position parameter state, parameter reads and finishes, green light stops flicker, and the 3rd button " Set LowInput " becomes black by grey, and the expression system can begin to read the zero-bit parameter.
Second step, second temperature spot are demarcated
The pressure transducer release is in the input state at zero point, click " Second temperature " zone the 3rd button " Set Low Input ", debug the flicker that the frock green light can not stop this moment, the expression system is in and reads the parameter state at zero point, parameter reads and finishes, and green light stops flicker, and the 2nd temperature spot compensation work finished, " Third temperature " zone " Set Low Input " button becomes black by grey, and expression can be carried out the 3rd temperature spot compensation.
The 3rd step, the 3rd temperature spot are demarcated
Heated pressure transducer is heated to the 3rd temperature spot temperature with pressure transducer, keeps beginning the 2nd step after 1 hour, does not allow outage in the process, does not allow connection is disconnected.
The pressure transducer release is in the input state at zero point, click i.e. " Thirdtemperature " zone first button " Set Low Input " of the 3rd temperature spot, debug the flicker that the frock green light can not stop this moment, the expression system is in and reads the parameter state at zero point, parameter reads and finishes, green light stops flicker, and the 2nd button " Set High Input " becomes black by grey, and the expression system can begin to read full position parameter.
Pressure transducer is pressurized to full position input state, click " Third temperature " zone " SetHigh Input " button, debug the flicker that the frock green light can not stop this moment, the expression system is in and reads full position parameter state, parameter reads and finishes, green light stops flicker, and the 3rd button " Set Low Input " becomes black by grey, and the expression system can begin to read the zero-bit parameter.
The pressure transducer release is in the input state at zero point, click " Third temperature " zone the 3rd button " Set Low Input ", debug the flicker that the frock green light can not stop this moment, the expression system is in and reads the parameter state at zero point, parameter reads and finishes, green light stops flicker, and the 3rd temperature spot compensation work finished.
The 4th step, parameter are preserved
After the pressure sensor calibrating temperature compensation is finished, can eject dialog box.
Dialog box is system's parameter value that configuration is finished through internal calculation, clicks " Change Solution ", will eject dialog box, clicks " OK " button, and parameter will be deposited in EEPROM in the sheet.
Parameter is preserved and is finished, and expression pressure sensor calibrating compensation work is finished.
Points for attention, do not click " LOCK " button under the general situation, there be not to click " LOCK " if the pressure transducer test failure of button calibration compensation is again clicked " LOCK " if the pressure transducer test failure of button can't be demarcated correction once more.
The 5th step, nominal data test
Parameter is preserved and is finished, and can click " Measurements " button and test.
Click " Measurements " button, eject dialog box as shown in Figure 1, choose " Continuous " option.
According to the release of pressurizeing of the test specification of pressure pressure transducer, dialog box can show the output voltage values of this moment, test output valve at zero point, intermediate point output valve, a full position output valve, record test data.
Sensor is heated, be incubated 1 hour, carry out the temperature index test, record test data.
Based on above-mentioned, the utility model adopts the process structure of MEMS (pressure resistance type) technology with pressure transducer and digital signal processing circuit integral type, thereby has reduced the influence of outer bound pair sensor signal, has improved stability, has reduced production cost.The man-machine interface that has realized the scale close friend simultaneously makes things convenient for the user that sensor is demarcated.On technology, can guarantee large-scale production, satisfied the demand in market, to play import substitution with pressure transducer and industrial OEM with pressure transducer with sensor, medical electronics and form part core devices production domesticization purpose automobile, and has simple in structure a, excellent characteristics such as volume is little, in light weight, long service life, can be widely used in various industrial automatic control environment, relate to numerous industries such as water conservancy and hydropower, railway traffic, intelligent building, production automatic control, Aero-Space, military project, petrochemical industry, oil well, electric power, boats and ships, lathe, pipeline.
More than showing and described ultimate principle of the present utility model and principal character and advantage of the present utility model. the technician of the industry should understand; the utility model is not restricted to the described embodiments; that describes in the foregoing description and the instructions just illustrates principle of the present utility model; under the prerequisite that does not break away from the utility model spirit and scope; the utility model also has various changes and modifications, and these changes and improvements all fall in claimed the utility model scope. and the claimed scope of the utility model is defined by appending claims and equivalent thereof.

Claims (8)

1. programmable pressure sensor, comprise a chip, it is characterized in that, it comprises that also one realizes the chip programming plate of chip programming function, on described chip, be provided with a programmable signal processing circuit and a pressure transducer, described signal processing circuit input end connects the pressure transducer output terminal, and described chip programming plate one end is connected with computing machine by communication interface, and the other end of described chip programming plate is connected with signal processing circuit on the chip.
2. programmable pressure sensor according to claim 1 is characterized in that, also is integrated with single-chip microcomputer and EEPROM (Electrically Erasable Programmable Read Only Memo) in the described digital signal processing circuit.
3. programmable pressure sensor according to claim 1 is characterized in that, also is provided with the interface adjusted that is connected with external unit on the described chip.
4. programmable pressure sensor according to claim 1 is characterized in that, also is provided with the pad that pin is drawn in programming, signal on the described chip.
5. programmable pressure sensor according to claim 1, it is characterized in that, described pressure transducer comprises a strain bridge, described strain bridge output terminal also is connected with first amplifying circuit and second amplifying circuit, changes to be converted into electric signal output after back voltage amplifies through first amplifying circuit.
6. programmable pressure sensor according to claim 5, it is characterized in that, also be connected with copped wave detuner and gain calibration circuit between described first amplifying circuit and second amplifying circuit, the output terminal of described first amplifying circuit connects the copped wave detuner, the copped wave detuner connects gain calibration circuit, and described gain calibration circuit connects second amplifying circuit again.
7. programmable pressure sensor according to claim 1 is characterized in that, it also comprises temperature sensor and detect testing circuit that described temperature sensor is connected described signal processing circuit with the detection testing circuit.
8. programmable pressure sensor according to claim 1 is characterized in that, described communication interface is the USB communication interface.
CN2009200469362U 2009-07-17 2009-07-17 Programmable pressure sensor Expired - Lifetime CN201449300U (en)

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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101644612B (en) * 2009-07-17 2011-12-28 昆山诺金传感技术有限公司 Programmable pressure sensor
CN103048085A (en) * 2011-10-13 2013-04-17 江苏恩泰传感器有限公司 Temperature compensation system of pressure sensor and temperature compensation method thereof
WO2022028193A1 (en) * 2020-08-06 2022-02-10 广东高标电子科技有限公司 Strain measurement apparatus and manufacturing method therefor

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101644612B (en) * 2009-07-17 2011-12-28 昆山诺金传感技术有限公司 Programmable pressure sensor
CN103048085A (en) * 2011-10-13 2013-04-17 江苏恩泰传感器有限公司 Temperature compensation system of pressure sensor and temperature compensation method thereof
CN103048085B (en) * 2011-10-13 2015-08-19 贾庆锋 Temperature compensation system for pressure sensors and temperature compensation thereof
WO2022028193A1 (en) * 2020-08-06 2022-02-10 广东高标电子科技有限公司 Strain measurement apparatus and manufacturing method therefor

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C56 Change in the name or address of the patentee

Owner name: SUZHOU ZHONGYIN SENSE CO., LTD.

Free format text: FORMER NAME: BEIJING NOKISENS SAC CO. LTD.

CP01 Change in the name or title of a patent holder

Address after: 215325 hi tech park, Zhouzhuang Town, Jiangsu, Kunshan

Patentee after: Suzhou Zhongyin Sensing Co., Ltd.

Patentee after: Beijing Nokisens SAC Co., Ltd.

Patentee after: Beijing Nokisens Electronic Technology Development Co., Ltd.

Patentee after: Weihai Nokisens SAC Co., Ltd.

Address before: 215325 hi tech park, Zhouzhuang Town, Jiangsu, Kunshan

Patentee before: Kunshan Nokisens SAC Co., Ltd.

Patentee before: Beijing Nokisens SAC Co., Ltd.

Patentee before: Beijing Nokisens Electronic Technology Development Co., Ltd.

Patentee before: Weihai Nokisens SAC Co., Ltd.

CX01 Expiry of patent term

Granted publication date: 20100505

CX01 Expiry of patent term