CN106419838A - Integrated chip for intestinal tract detection and implementation method of integrated chip - Google Patents
Integrated chip for intestinal tract detection and implementation method of integrated chip Download PDFInfo
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- CN106419838A CN106419838A CN201610768073.4A CN201610768073A CN106419838A CN 106419838 A CN106419838 A CN 106419838A CN 201610768073 A CN201610768073 A CN 201610768073A CN 106419838 A CN106419838 A CN 106419838A
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B5/00—Measuring for diagnostic purposes; Identification of persons
- A61B5/42—Detecting, measuring or recording for evaluating the gastrointestinal, the endocrine or the exocrine systems
- A61B5/4222—Evaluating particular parts, e.g. particular organs
- A61B5/4255—Intestines, colon or appendix
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B5/00—Measuring for diagnostic purposes; Identification of persons
- A61B5/01—Measuring temperature of body parts ; Diagnostic temperature sensing, e.g. for malignant or inflamed tissue
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B5/00—Measuring for diagnostic purposes; Identification of persons
- A61B5/68—Arrangements of detecting, measuring or recording means, e.g. sensors, in relation to patient
- A61B5/6846—Arrangements of detecting, measuring or recording means, e.g. sensors, in relation to patient specially adapted to be brought in contact with an internal body part, i.e. invasive
- A61B5/6847—Arrangements of detecting, measuring or recording means, e.g. sensors, in relation to patient specially adapted to be brought in contact with an internal body part, i.e. invasive mounted on an invasive device
- A61B5/6861—Capsules, e.g. for swallowing or implanting
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B2562/00—Details of sensors; Constructional details of sensor housings or probes; Accessories for sensors
- A61B2562/02—Details of sensors specially adapted for in-vivo measurements
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B2562/00—Details of sensors; Constructional details of sensor housings or probes; Accessories for sensors
- A61B2562/02—Details of sensors specially adapted for in-vivo measurements
- A61B2562/0271—Thermal or temperature sensors
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- Health & Medical Sciences (AREA)
- Life Sciences & Earth Sciences (AREA)
- Medical Informatics (AREA)
- Biophysics (AREA)
- Pathology (AREA)
- Engineering & Computer Science (AREA)
- Biomedical Technology (AREA)
- Heart & Thoracic Surgery (AREA)
- Physics & Mathematics (AREA)
- Molecular Biology (AREA)
- Surgery (AREA)
- Animal Behavior & Ethology (AREA)
- General Health & Medical Sciences (AREA)
- Public Health (AREA)
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- Endocrinology (AREA)
- Gastroenterology & Hepatology (AREA)
- Physiology (AREA)
- Charge And Discharge Circuits For Batteries Or The Like (AREA)
Abstract
The invention provides an integrated chip for intestinal tract detection. The integrated chip comprises an intestinal tract detection sensor, an ADC conversion unit, a CPU, a Bluetooth control circuit, a Bluetooth antenna, a battery, a wireless charging coil and a power supply management circuit which are integrally encapsulated, wherein the intestinal tract detection sensor, the ADC conversion unit, the CPU, the Bluetooth control circuit and the Bluetooth antenna are sequentially connected, the battery and the wireless charging coil are respectively connected with the power supply management circuit, and no electric interfaces are left in the surface of the encapsulated chip. The integrated chip has the advantages that the whole integrated chip has no external physical electric connecting interfaces, the single chip can work independently without an external printed circuit board, charging and communication are completed in a wireless manner, the chip can work in environments, where original electronic equipment cannot work, such as water and human bodies, and the application scene range of the Internet of Things chip is expanded greatly.
Description
Technical field
The present invention relates to a kind of enteron aisle detection integrated chip, particularly to a kind of enteron aisle detection integrated chip and in fact
Existing method.
Background technology
With developing rapidly of SOC technology, technology of Internet of things is more and more important, the Internet of Things web-roll core of particularly healthy class
The demand of piece is increasing.But a major issue of the Internet of Things chipset of restriction medical treatment at present is all of equipment and base
Plinth chip all also relies on traditional physical electrical, such as supply socket, debugging socket etc., for connection carry out information exchange and
Power source charges etc. apply, therefore equipment cannot work with severe liquid in or other adverse circumstances in.
Through retrieval, the research to Medical Devices chip at present is devoted to functionally more, rare chip is placed directly within people
The application study of the poor environments such as body enteron aisle, so the present invention proposes the intestinal health detection chip of a kind of integration, whole core
Piece does not has any external physical electrical to connect interface, it is not necessary to outside printed circuit board (PCB) can single-chip work alone, logical
Cross wireless completing to charge and communication, the ring that the medium original electronic equipment of chip operation human body in water cannot work completely can be made
In border, greatly improve the application scenarios scope of Internet of Things chip.
Content of the invention
The technical problem to be solved in the present invention, is to provide a kind of enteron aisle detection integrated chip and its implementation, whole
Individual chip does not has any external physical electrical to connect interface, it is not necessary to outside printed circuit board (PCB) can single-chip independence work
Make, complete charging and communication by wireless, can make the medium original electronic equipment of chip operation human body in water completely cannot work
In the environment made, greatly improve the application scenarios scope of Internet of Things chip.
Integrated chip of the present invention is realized in:A kind of enteron aisle detection integrated chip, including be packaged as a whole
Enteron aisle detection sensor, ADC converting unit, CPU, Bluetooth control circuit, Bluetooth antenna, battery, Wireless charging coil and electricity
Power management circuits;Described enteron aisle detection sensor, ADC converting unit, CPU, Bluetooth control circuit and Bluetooth antenna connect successively
Connect;Described battery, Wireless charging coil connect electric power management circuit respectively, and the chip surface after encapsulation does not stay and any electrically connects
Mouthful.
The implementation method of integrated chip of the present invention is realized in:A kind of realization side of enteron aisle detection integrated chip
Method, including:
S1, ADC converting unit, CPU, Bluetooth control circuit and electric power management circuit are set on chip silicon chip;And
Enteron aisle detection sensor, battery, Wireless charging coil and Bluetooth antenna are set outside chip silicon chip;And described enteron aisle detection sensing
Device, ADC converting unit, CPU, Bluetooth control circuit and Bluetooth antenna are sequentially connected with;Described battery, Wireless charging coil are respectively
Connect electric power management circuit;
S2, chip silicon chip, enteron aisle to chip detect sensor, battery, Wireless charging coil and Bluetooth antenna and carry out
Chip surface after integrative packaging, and encapsulation does not stay any electric interfaces.
Further, in chip of the present invention and its implementation,
Described enteron aisle detection sensor includes that temperature sensor, acidity-basicity sensor and at least one enteric pathogenic bacteria pass
Sensor, described temperature sensor, acidity-basicity sensor and enteric pathogenic bacteria sensor are all connected with described ADC converting unit.
Described electric power management circuit farther include charging detector unit, mu balanced circuit, the first path selection unit, second
Path selection unit and supply network unit;Described Wireless charging coil connects charging detector unit and mu balanced circuit respectively;
Described charging detector unit connects the first path selection unit respectively and alternate path selects unit;Described mu balanced circuit connects respectively
Connect the first path selection unit and alternate path selects unit;Described battery, the first path selection unit, alternate path select single
Unit and supply network unit are sequentially connected with.
Described ADC converting unit, CPU, Bluetooth control circuit and electric power management circuit are each provided on chip silicon chip;Described
Battery is set to cell panel;Described Wireless charging coil is set to Wireless charging coil film or plate;Described Bluetooth antenna is set to
Bluetooth antenna film or plate;
The packaged type of described integrated chip is following any kind:
(1), described enteron aisle detection sensor, Bluetooth antenna film or plate, chip silicon chip, cell panel, Wireless charging coil film
Or plate is stacked gradually from top to bottom on a substrate and is adhesively fixed by insulating cement, and described enteron aisle detection sensor and chip
Between silicon chip, between Bluetooth antenna film or plate and chip silicon chip, between described chip silicon chip and cell panel, described cell panel and nothing
Between line charge coil film or plate, between Wireless charging coil film or plate and substrate, and between chip silicon chip and substrate respectively
Form electrical connection by sealing wire after being welded;
(2), described enteron aisle detection sensor, Bluetooth antenna film or plate, chip silicon chip, cell panel and Wireless charging coil film
Or plate tiling is distributed in the front surface of a substrate and is adhesively fixed by insulating cement, and after being welded by sealing wire with substrate respectively
Form electrical connection;
(3), described enteron aisle detection sensor, Bluetooth antenna film or plate, chip silicon chip, cell panel stack gradually from top to bottom
And it is adhesively fixed on the front of a substrate by insulating cement, described Wireless charging coil film or plate are then adhesively fixed on the back of the body of substrate
Face;Between described enteron aisle detection sensor and chip silicon chip, between Bluetooth antenna film or plate and chip silicon chip, described chip silicon chip
And between cell panel, between described cell panel and substrate, between Wireless charging coil film or plate and substrate, and chip silicon chip and
Form electrical connection by sealing wire after being welded respectively between substrate;And substrate is provided with metallic vias to connect the front of substrate
Signal with the back side.
Described integrated chip encapsulation after be shaped as capsule shape or flattened cylinder, or orbicule.
The invention have the advantages that:
(1) the intestinal health detection chip design of present invention integration, wirelessly completes charging and correspondence with foreign country,
The printed circuit board (PCB) not needing outside can single-chip work alone;
(2) it and volume can be made very little, is beneficial to work in enteron aisle;
(3) whole chip does not has any external physical electrical to connect interface, can make chip operation in human body in water
Etc. in the environment that original electronic equipment cannot work completely, do not affected by the adverse environment in enteron aisle, greatly improved Internet of Things
The application scenarios scope of web-roll core piece.
Brief description
The present invention is further illustrated in conjunction with the embodiments with reference to the accompanying drawings.
Fig. 1 is the circuit theory schematic diagram of enteron aisle of the present invention detection integrated chip.
Fig. 2 is a kind of packaged type structural representation of enteron aisle of the present invention detection integrated chip.
Fig. 2 a is the forward sight structural representation of Fig. 2.
Fig. 3 is the another kind of packaged type structural representation of enteron aisle of the present invention detection integrated chip.
Fig. 3 a is the forward sight structural representation of Fig. 3.
Fig. 4 is another packaged type structural representation of enteron aisle of the present invention detection integrated chip.
Fig. 5 and Fig. 6 is the surface structure schematic diagram of enteron aisle of the present invention detection integrated chip.
Detailed description of the invention
Refer to shown in Fig. 1, the enteron aisle detection integrated chip of the present invention, including the enteron aisle detection sensing being packaged as a whole
Device the 1st, ADC converting unit the 2nd, CPU, Bluetooth control circuit the 3rd, Bluetooth antenna the 4th, battery the 5th, Wireless charging coil 6 and power management
Circuit 7;Described enteron aisle detection sensor the 1st, ADC converting unit the 2nd, CPU, Bluetooth control circuit 3 and Bluetooth antenna 4 connect successively
Connect;Described battery, Wireless charging coil connect electric power management circuit respectively, and the chip surface after encapsulation does not stay and any electrically connects
Mouthful.
Described ADC converting unit the 2nd, CPU, Bluetooth control circuit 3 and electric power management circuit 7 are each provided at chip silicon chip 100
On;Described enteron aisle detection sensor the 1st, battery the 5th, Wireless charging coil 6 and Bluetooth antenna 4 be located at chip silicon chip 100 outer and with
Chip silicon chip 100 1 is packaged as a whole.
Wherein, described enteron aisle detection sensor 1 includes temperature sensor the 11st, acidity-basicity sensor 12 and at least one intestines
Road pathogen sensor 13, described temperature sensor the 11st, acidity-basicity sensor 12 and enteric pathogenic bacteria sensor 13 are all connected with
Described ADC converting unit 2.
The function of above-mentioned each circuit unit is as follows:
The temperature information in monitoring enteron aisle is responsible for by described temperature sensor 11, and temperature analog signal is sent to ADC conversion
Unit;
The acid-base value information in detection enteron aisle is responsible for by described soda acid sensor 12, and acid-base value analog signal is sent to ADC
Converting unit;
Described enteric pathogenic bacteria sensor 13 (comprising the various sensor that can detect enteric bacteria) is responsible for detection enteron aisle
Interior various pathogen information, and pathogen analog signal is sent to ADC converting unit.
Described ADC converting unit 2 is responsible for that the analog signal on each road is converted to data signal and is sent at CPU
Reason;
Described CPU is responsible for the program process of chip, including data are processed and Control on Communication, enteron aisle can be detected sensor 1
Every data are sent to Bluetooth control circuit 3, and the bluetooth that simultaneously can receive Bluetooth control circuit 3 input accepts at information
Reason;
Described Bluetooth control circuit 3 is responsible for carrying out blue-teeth data transmission and reception, and bluetooth sends and refers to accept what CPU transmitted
Data to be sent are sent to Bluetooth antenna 4 after Bluetooth modulation, and Bluetooth receptions refers to that the signal accepting Bluetooth antenna 4 input enters
Row demodulation is sent to CPU process after becoming data signal;
Described Bluetooth antenna 4 is responsible for sending and receives bluetooth wireless signal;
Described battery 5 is responsible for whole chip and provides power supply;
Described Wireless charging coil 6 is responsible for carrying out wireless charging to battery 5;
Described electric power management circuit 7 is used for detecting the duty of battery 5, and whether controls Wireless charging coil 6 to institute
State being charged of battery 5.
And described electric power management circuit 7 farther includes that charging detector unit the 71st, mu balanced circuit the 72nd, the first path selects single
Unit's the 73rd, alternate path selects unit 74 and supply network unit 75;It is single that described Wireless charging coil 6 connects charging detection respectively
Unit 71 and mu balanced circuit 72;Described charging detector unit 71 connects the first path selection unit 73 respectively and alternate path selects single
Unit 74;Described mu balanced circuit 72 connects the first path selection unit 73 respectively and alternate path selects unit 74;Described battery is the 5th,
First path selection unit the 73rd, alternate path selects unit 74 and supply network unit 75 to be sequentially connected with.
Wherein,
Described charging detector unit 71 is responsible for whether monitoring Wireless charging coil 6 is in charged state,
(1) if being in charged state, controlling the first path selection unit 73 and gating mu balanced circuit 72 filling to battery 5
Electric pathway, gates mu balanced circuit 72 simultaneously and arrives the supply access of supply network unit 75, allow Wireless charging coil 6 enter battery 5
Row charging provides the powered operation of chip simultaneously;
(2) if Wireless charging coil 6 is not on charged state, then control the first path selection unit the 73rd, second lead to
Road selects unit 74 to gate the path that battery 5 arrives supply network unit 75, allows battery 5 complete powered operation.
Described mu balanced circuit 72 is responsible for carrying out voltage stabilizing process to the power supply energy of charge coil input, then by after voltage stabilizing
Electric energy exports battery 5 and is charged, and the supply network unit 75 being simultaneously outputting to chip provides the powered operation of chip.
As shown in Figures 1 to 4, based on above-mentioned integrated chip, the present invention also provides a kind of enteron aisle detection integrated chip
Implementation method, comprise the steps:
S1, ADC converting unit the 2nd, CPU, Bluetooth control circuit 3 and electric power management circuit 7 are set on chip silicon chip;And
Enteron aisle detection sensor the 1st, battery the 5th, Wireless charging coil 6 and Bluetooth antenna 4 are set outside chip silicon chip 100;And described intestines
Road detection sensor the 1st, ADC converting unit the 2nd, CPU, Bluetooth control circuit 3 and Bluetooth antenna 4 are sequentially connected with;Described battery is the 5th,
Wireless charging coil 6 connects electric power management circuit 7 respectively;
S2, chip silicon chip the 100th, the enteron aisle to chip detect sensor the 1st, battery the 5th, Wireless charging coil 6 and bluetooth sky
Chip surface after line 4 carries out integrative packaging, and encapsulation does not stay any electric interfaces, but described enteron aisle detects sensor 1
Detection part is exposed to the surface of packaging body 300.Its face shaping is capsule shape (such as Fig. 2) or flattened cylinder (such as Fig. 3), or
It is orbicule (not shown), it is easy to swallow.
Described battery 5, when implementing, can be set to cell panel 500 by the present invention;Described Wireless charging coil 6 is set
It is set to Wireless charging coil film or plate 600;Described Bluetooth antenna 4 is set to Bluetooth antenna film or plate 400;
Then it is packaged with following any packaged type:
(1), as shown in figures 2 and 2 a, described enteron aisle detection sensor the 1st, Bluetooth antenna film or plate the 400th, chip silicon chip
100th, cell panel the 500th, Wireless charging coil film or plate 600 are sequentially stacked on from top to bottom on a substrate 200 and pass through insulating cement
It is adhesively fixed, and between described enteron aisle detection sensor 1 and chip silicon chip 100, Bluetooth antenna film or plate 400 and chip silicon chip
Between 100, between described chip silicon chip 100 and cell panel 500, described cell panel 500 and Wireless charging coil film or plate 600 it
Between, between Wireless charging coil film or plate 600 and substrate 200, and respectively by weldering between chip silicon chip 100 and substrate 200
Form electrical connection after wiring welding.
(2), as shown in Fig. 3 and Fig. 3 a, described enteron aisle detects sensor the 1st, Bluetooth antenna film or plate the 400th, chip silicon chip
100th, cell panel 500 and Wireless charging coil film or plate 600 tiling is distributed in the front surface of a substrate 200 gluing by insulation
Connect fixing, and form electrical connection after being welded by sealing wire with substrate 200 respectively.
(3), as shown in Figure 4, described enteron aisle detection sensor the 1st, Bluetooth antenna film or plate the 400th, chip silicon chip the 100th, battery
Plate 500 stacks gradually and is adhesively fixed on by insulating cement the front of a substrate 200, described Wireless charging coil film from top to bottom
Or plate 600 is then adhesively fixed on the back side of substrate 200;Between described enteron aisle detection sensor 1 and chip silicon chip 100, bluetooth sky
Between line film or plate 400 and chip silicon chip 100, between described chip silicon chip 100 and cell panel 500, described cell panel 500 and base
Between plate 200, between Wireless charging coil film or plate 600 and substrate 200, and between chip silicon chip 100 and substrate 200 respectively
Form electrical connection by sealing wire after being welded;And substrate 200 be provided with metallic vias 201 with connect substrate 200 front and
The signal at the back side.
Again as shown in Figure 5 and Figure 6, described integrated chip encapsulation after be shaped as capsule shape (such as Fig. 5) or flattened cylindrical
Body (such as Fig. 6), or orbicule (not shown), it is easy to swallow.Described temperature sensor the 11st, acidity-basicity sensor 12 and at least
The detection part of a kind of enteric pathogenic bacteria sensor 13 is all exposed to the surface of packaging body 300.
Although the foregoing describing the detailed description of the invention of the present invention, but those familiar with the art should managing
Solving, we are merely exemplary described specific embodiment, rather than for the restriction to the scope of the present invention, are familiar with this
The technical staff in field, in the equivalent modification made according to the spirit of the present invention and change, should be covered the present invention's
In scope of the claimed protection.
Claims (12)
1. an enteron aisle detection integrated chip, it is characterised in that:Including the enteron aisle detection sensor being packaged as a whole, ADC turn
Change unit, CPU, Bluetooth control circuit, Bluetooth antenna, battery, Wireless charging coil and electric power management circuit;Described enteron aisle is examined
Survey sensor, ADC converting unit, CPU, Bluetooth control circuit and Bluetooth antenna to be sequentially connected with;Described battery, wireless charging electric wire
Chip surface after circle connects electric power management circuit, and encapsulation respectively does not stay any electric interfaces, but the detection of described enteron aisle senses
The detection part of device is exposed to encapsulate chip surface.
2. enteron aisle according to claim 1 detection integrated chip, it is characterised in that:Described enteron aisle detection sensor includes
Temperature sensor, acidity-basicity sensor and at least one enteric pathogenic bacteria sensor, described temperature sensor, acid-base value sensing
Device and enteric pathogenic bacteria sensor are all connected with described ADC converting unit.
3. enteron aisle according to claim 1 detection integrated chip, it is characterised in that:Described electric power management circuit is further
Including charging detector unit, mu balanced circuit, the first path selection unit, alternate path select unit and supply network unit;
Described Wireless charging coil connects charging detector unit and mu balanced circuit respectively;Described charging detector unit connects first respectively and leads to
Road selects unit and alternate path to select unit;Described mu balanced circuit connects the first path selection unit and alternate path choosing respectively
Select unit;Described battery, the first path selection unit, alternate path select unit and supply network unit to be sequentially connected with.
4. enteron aisle according to claim 1 detection integrated chip, it is characterised in that:
Described ADC converting unit, CPU, Bluetooth control circuit and electric power management circuit are each provided on chip silicon chip;
Described battery is set to cell panel;
Described Wireless charging coil is set to Wireless charging coil film or plate;
Described Bluetooth antenna is set to Bluetooth antenna film or plate.
5. enteron aisle according to claim 4 detection integrated chip, it is characterised in that:The encapsulation side of described integrated chip
Formula is following any one:
(1), described enteron aisle detection sensor, Bluetooth antenna film or plate, chip silicon chip, cell panel, Wireless charging coil film or plate
Stack gradually from top to bottom on a substrate and be adhesively fixed by insulating cement, and described enteron aisle detection sensor and chip silicon chip
Between, between Bluetooth antenna film or plate and chip silicon chip, between described chip silicon chip and cell panel, described cell panel and wireless charging
Between electric coil film or plate, between Wireless charging coil film or plate and substrate, and pass through respectively between chip silicon chip and substrate
Form electrical connection after sealing wire welding;
(2), described enteron aisle detection sensor, Bluetooth antenna film or plate, chip silicon chip, cell panel and Wireless charging coil film or plate
Tiling is distributed in the front surface of a substrate and is adhesively fixed by insulating cement, and is formed after being welded by sealing wire with substrate respectively
Electrical connection;
(3), described enteron aisle detection sensor, Bluetooth antenna film or plate, chip silicon chip, cell panel stack gradually from top to bottom and lead to
Crossing insulating cement and being adhesively fixed on the front of a substrate, described Wireless charging coil film or plate are then adhesively fixed on the back side of substrate;
Described enteron aisle detection sensor and chip silicon chip between, between Bluetooth antenna film or plate and chip silicon chip, described chip silicon chip and
Between cell panel, between described cell panel and substrate, between Wireless charging coil film or plate and substrate, and chip silicon chip and base
Form electrical connection by sealing wire after being welded respectively between plate;And substrate be provided with metallic vias with connect substrate front and
The signal at the back side.
6. the enteron aisle detection integrated chip according to claim 1 or 4, it is characterised in that:Described integrated chip encapsulates
After be shaped as capsule shape or flattened cylinder, or orbicule.
7. the implementation method of an enteron aisle detection integrated chip, it is characterised in that:Including:
S1, ADC converting unit, CPU, Bluetooth control circuit and electric power management circuit are set on chip silicon chip;And at chip
Enteron aisle detection sensor, battery, Wireless charging coil and Bluetooth antenna are set outside silicon chip;And described enteron aisle detection sensor,
ADC converting unit, CPU, Bluetooth control circuit and Bluetooth antenna are sequentially connected with;Described battery, Wireless charging coil connect respectively
Connect electric power management circuit;
S2, chip silicon chip, enteron aisle to chip detect sensor, battery, Wireless charging coil and Bluetooth antenna and carry out one
Change the chip surface after encapsulation, and encapsulation and do not stay any electric interfaces, and ensure the detection part of described enteron aisle detection sensor
It is exposed to encapsulate chip surface.
8. the implementation method of enteron aisle according to claim 7 detection integrated chip, it is characterised in that:Described enteron aisle detects
Sensor includes temperature sensor, acidity-basicity sensor and at least one enteric pathogenic bacteria sensor, described temperature sensor,
Acidity-basicity sensor and enteric pathogenic bacteria sensor are all connected with described ADC converting unit.
9. the implementation method of enteron aisle according to claim 7 detection integrated chip, it is characterised in that:Described power management
Circuit farther includes that charging detector unit, mu balanced circuit, the first path selection unit, alternate path select unit and power supply
NE;Described Wireless charging coil connects charging detector unit and mu balanced circuit respectively;Described charging detector unit is respectively
Connect the first path selection unit and alternate path selects unit;Described mu balanced circuit connect respectively the first path selection unit and
Alternate path selects unit;Described battery, the first path selection unit, alternate path select unit and supply network unit to depend on
Secondary connection.
10. the implementation method of enteron aisle according to claim 7 detection integrated chip, it is characterised in that:
Described ADC converting unit, CPU, Bluetooth control circuit and electric power management circuit are each provided on chip silicon chip;
Described battery is set to cell panel;
Described Wireless charging coil is set to Wireless charging coil film or plate;
Described Bluetooth antenna is set to Bluetooth antenna film or plate.
The implementation method of 11. enteron aisle according to claim 10 detection integrated chips, it is characterised in that:Described integration
The packaged type of chip is following any kind:
(1), described enteron aisle detection sensor, Bluetooth antenna film or plate, chip silicon chip, cell panel, Wireless charging coil film or plate
Stack gradually from top to bottom on a substrate and be adhesively fixed by insulating cement, and described enteron aisle detection sensor and chip silicon chip
Between, between Bluetooth antenna film or plate and chip silicon chip, between described chip silicon chip and cell panel, described cell panel and wireless charging
Between electric coil film or plate, between Wireless charging coil film or plate and substrate, and pass through respectively between chip silicon chip and substrate
Form electrical connection after sealing wire welding;
(2), described enteron aisle detection sensor, Bluetooth antenna film or plate, chip silicon chip, cell panel and Wireless charging coil film or plate
Tiling is distributed in the front surface of a substrate and is adhesively fixed by insulating cement, and is formed after being welded by sealing wire with substrate respectively
Electrical connection;
(3), described enteron aisle detection sensor, Bluetooth antenna film or plate, chip silicon chip, cell panel stack gradually from top to bottom and lead to
Crossing insulating cement and being adhesively fixed on the front of a substrate, described Wireless charging coil film or plate are then adhesively fixed on the back side of substrate;
Described enteron aisle detection sensor and chip silicon chip between, between Bluetooth antenna film or plate and chip silicon chip, described chip silicon chip and
Between cell panel, between described cell panel and substrate, between Wireless charging coil film or plate and substrate, and chip silicon chip and base
Form electrical connection by sealing wire after being welded respectively between plate;And substrate be provided with metallic vias with connect substrate front and
The signal at the back side.
The implementation method of 12. enteron aisle according to claim 7 detection integrated chips, it is characterised in that:Described integration
It is shaped as capsule shape or flattened cylinder, or orbicule after chip package.
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CN201610768073.4A CN106419838A (en) | 2016-08-30 | 2016-08-30 | Integrated chip for intestinal tract detection and implementation method of integrated chip |
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CN112119938A (en) * | 2020-09-29 | 2020-12-25 | 赵成功 | Livestock manure treatment method |
CN113066789A (en) * | 2021-03-16 | 2021-07-02 | 陈甲锋 | Internet of things multimode communication chip structure based on SiP packaging |
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