CN206007219U - A kind of low-power consumption human body physiological parameter remote supervision system - Google Patents
A kind of low-power consumption human body physiological parameter remote supervision system Download PDFInfo
- Publication number
- CN206007219U CN206007219U CN201620636610.5U CN201620636610U CN206007219U CN 206007219 U CN206007219 U CN 206007219U CN 201620636610 U CN201620636610 U CN 201620636610U CN 206007219 U CN206007219 U CN 206007219U
- Authority
- CN
- China
- Prior art keywords
- module
- physiological parameter
- human body
- measurement module
- filter circuit
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Active
Links
Landscapes
- Measuring And Recording Apparatus For Diagnosis (AREA)
- Measurement And Recording Of Electrical Phenomena And Electrical Characteristics Of The Living Body (AREA)
Abstract
This utility model is related to a kind of low-power consumption human body physiological parameter remote supervision system, using brand-new Design of Intelligent Structures, integrated multiple measurement modules, by the height measurement module of designed introducing, measured body weight module, vital capacity measurement module, heart rate measurement module, measure for human body physiological parameter, and it is respectively directed to each measurement module, each filter circuit designed by corresponding introducing is concrete, in conjunction with concrete designed calendar times module, using the time as data refer yardstick, carry out Data Integration, eventually through the wireless communication configuration that sets up, data signal is uploaded to monitor terminal in real time, again by monitor terminal in message output module realize information output;Thus, the low-power consumption human body physiological parameter remote supervision system designed by this utility model, on the one hand achieves the collection of much information, tool functional integration, on the other hand, while data information acquisition is realized, achieve the real-time Transmission of data message, it is ensured that data message ageing.
Description
Technical field
This utility model is related to a kind of low-power consumption human body physiological parameter remote supervision system, belongs to intelligent medical technology neck
Domain.
Background technology
With advancing by leaps and bounds for scientific and technological level in recent years, intelligent medical also gradually rises, and various intelligent medical means and sets
Standby just constantly change traditional medical field, the especially addition of the smart machine such as various sensors so that traditional medical is gradually
Trend precisely medical treatment, various armarium emerge in an endless stream, and such as sensor technology is introduced medical field by prior art, it is achieved that
For the detection of people's each side physiological parameter, traditional loaded down with trivial details means are broken away from, but existing sensor application has also been stopped
On single function machine device, collection, process, output are all concentrated on single machine, in practical application, are on the one hand lacked more
On the other hand the integration of function, lacks the transporting of data, and this just leverages actual work efficiency, if above-mentioned two
Aspect is improved and innovation, will be ageing for the application for effectively improving sensor.
Utility model content
Technical problem to be solved in the utility model is to provide a kind of using brand-new Design of Intelligent Structures, integrated multiple surveys
Amount module, measures for human body physiological parameter, and combines specific design filter circuit, is to refer to yardstick with the time, is protecting
While card practical function, can effectively ensure that the ageing low-power consumption human body physiological parameter of data transfer is remotely monitored is
System.
This utility model is employed the following technical solutions to solve above-mentioned technical problem:This utility model devises a kind of low
Power consumption human body physiological parameter remote supervision system, including acquisition terminal and monitor terminal, wherein, acquisition terminal includes that height is measured
Module, measured body weight module, vital capacity measurement module, heart rate measurement module and the first control module, and control with first respectively
The first power module that molding block is connected, calendar times module, the first wireless communication module, four filter circuits;Wherein, body
High measurement module, measured body weight module, vital capacity measurement module, heart rate measurement module are distinguished each filter circuit and are corresponded,
Each measurement module is connected with the first control module respectively through corresponding filter circuit;First power module is through the first control
Module is respectively calendar times module, the first wireless communication module and is powered;Meanwhile, the first power module is through the first control
After module, it is powered through the measurement module that each filter circuit is corresponding connection respectively;The structure of each filter circuit is identical,
Each filter circuit includes transport and placing device A1, first resistor R1, second resistance R2, the first electric capacity C1 and the second electric capacity C2 respectively;Its
In, the input of filter circuit is sequentially connected in series first resistor R1, the reverse input end of the first electric capacity C1 to transport and placing device A1, meanwhile,
The input of filter circuit connects corresponding measurement module;Is connected in parallel between the reverse input end and outfan of transport and placing device A1
The positive input ground connection of two resistance R2 and the second electric capacity C2, transport and placing device A1, the outfan of transport and placing device A1 are defeated with filter circuit
Go out end to be connected, meanwhile, the outfan of filter circuit is connected with the first control module;When calendar times module includes DS1302
Clock chip, quartz-crystal filter and stand-by power supply;Wherein, the main power source incoming end of DS1302 clock chips with via first control
The feeder ear of molding block is connected;Vibration source X1 of DS1302 clock chips is filtered with quartz crystal respectively with vibration source X1
The two ends of device are connected, and are grounded, DS1302 clock cores after the stand-by power supply incoming end series connection stand-by power supply of DS1302 clock chips
The reset terminal of piece, input/output terminal, output terminal of clock are connected with the first control module respectively;Monitor terminal includes the second control
Molding block, and be connected with the second control module respectively second source module, message output module, server module,
Two wireless communication modules;Wherein second source module through the second control module be respectively message output module, server module,
Second wireless communication module is powered;The second channel radio in the first wireless communication module and monitor terminal in acquisition terminal
Letter module carries out radio communication.
As optimal technical scheme of the present utility model:The acquisition terminal also includes being connected with first control module
The wireless signal measurement module that connects, memory module, first power module through the first control module be respectively memory module,
Wireless signal measurement module is powered.
As optimal technical scheme of the present utility model:The measured body weight module is HX Z series diplopore overarm forms
Pressure transducer.
As optimal technical scheme of the present utility model:The height measurement module is WF20D resistor type displacement sensors.
As optimal technical scheme of the present utility model:The vital capacity measurement module is MPX5010 silicon pressure sensors.
As optimal technical scheme of the present utility model:The heart rate measurement module is 07 heart rate measurement modules of HKG.
As optimal technical scheme of the present utility model:First control module is MSP430F5529 single-chip microcomputers,
Second control module is the 2nd MSP430F5529 single-chip microcomputers.
A kind of low-power consumption human body physiological parameter remote supervision system described in the utility model adopts above technical scheme and shows
There is technology to compare, with following technique effect:
(1)The low-power consumption human body physiological parameter remote supervision system of this utility model design, is set using brand-new structure of intelligence
Meter, integrated multiple measurement modules, by the height measurement module of designed introducing, measured body weight module, vital capacity measurement module,
Heart rate measurement module, measures for human body physiological parameter, and is respectively directed to each measurement module, and corresponding introducing is concrete set
Each filter circuit of meter, in conjunction with concrete designed calendar times module, using the time as data refer yardstick, enters line number
According to integration, eventually through the wireless communication configuration that sets up, data signal is uploaded to monitor terminal in real time, then by monitor terminal in
Message output module realize information output;Thus, the low-power consumption human body physiological parameter designed by this utility model is remotely monitored
System, on the one hand achieves the collection of much information, has functional integration, on the other hand, is realizing data information acquisition
While, it is achieved that the real-time Transmission of data message, it is ensured that data message ageing;
(2)In the low-power consumption human body physiological parameter remote supervision system of this utility model design, for acquisition terminal, also enter
The design of one step includes wireless signal measurement module, the memory module being connected with first control module, is giving birth to for human body
While reason parameter carries out Real-time Collection, by designed wireless signal measurement module, in real time for acquisition terminal and monitoring
Radio signal quality between terminal is detected, and regards radio signal quality situation, and Based Intelligent Control realizes acquisition terminal and prison
Radio communication between control terminal, and while communication between acquisition terminal, monitor terminal is suspended, by the human body for being gathered
Physiological parameter data information cache waits to be sent in the middle of memory module, and the transmission for data message achieves intelligent selection
With control operation, the integrity and accuracy of received data is can effectively ensure that;
(3)In the low-power consumption human body physiological parameter remote supervision system of this utility model design, for the first control module,
MSP430F5529 single-chip microcomputers are further designed with, and for the second control module, are further designed with second
MSP430F5529 single-chip microcomputers;On the one hand can remotely monitor for designed low-power consumption human body physiological parameter suitable for the later stage and be
The extension demand of system, on the other hand, succinct control architecture mode can be easy to the maintenance in later stage;In addition, can realize
Whole design low-power consumption work in actual applications.
Description of the drawings
Fig. 1 is the high-level schematic functional block diagram of the low-power consumption human body physiological parameter remote supervision system of this utility model design;
Fig. 2 is the schematic diagram of filter circuit in this utility model design low-power consumption human body physiological parameter remote supervision system;
Fig. 3 is the circuit of calendar times module in this utility model design low-power consumption human body physiological parameter remote supervision system
Schematic diagram.
Specific embodiment
Specific embodiment of the present utility model is described in further detail with reference to Figure of description.
As shown in figure 1, this utility model devises a kind of low-power consumption human body physiological parameter remote supervision system, including collection
Terminal and monitor terminal, wherein, acquisition terminal includes height measurement module, measured body weight module, vital capacity measurement module, heart rate
Measurement module and the first control module, and be connected with the first control module respectively the first power module, calendar times mould
Block, the first wireless communication module, four filter circuits;Wherein, height measurement module, measured body weight module, vital capacity measurement mould
Block, heart rate measurement module are distinguished each filter circuit and are corresponded, and each measurement module is respectively through corresponding filter circuit and the
One control module is connected;First power module is respectively calendar times module, the first radio communication through the first control module
Module is powered;Meanwhile, the first power module connects for corresponding through each filter circuit after the first control module respectively
Measurement module be powered;The structure of each filter circuit is identical, as shown in Fig. 2 each filter circuit includes amplifier respectively
Device A1, first resistor R1, second resistance R2, the first electric capacity C1 and the second electric capacity C2;Wherein, the input of filter circuit is gone here and there successively
Connection first resistor R1, the reverse input end of the first electric capacity C1 to transport and placing device A1, meanwhile, the input connection of filter circuit is corresponding
Measurement module;Second resistance R2 and the second electric capacity C2, amplifier is connected in parallel between the reverse input end and outfan of transport and placing device A1
The positive input ground connection of device A1, the outfan of transport and placing device A1 are connected with the outfan of filter circuit, meanwhile, filter circuit
Outfan is connected with the first control module;As shown in figure 3, calendar times module includes DS1302 clock chips, quartz crystal
Wave filter and stand-by power supply;Wherein, the main power source incoming end of DS1302 clock chips(VCC2)With via the first control module
Feeder ear(VCC)It is connected;Vibration source X1 of DS1302 clock chips with vibration source X1 respectively with quartz-crystal filter
Two ends be connected, the stand-by power supply incoming end of DS1302 clock chips(VCC1)Series connection stand-by power supply(BATTERY)After be grounded,
The reset terminal of DS1302 clock chips(RST), input/output terminal(I/O), output terminal of clock(SCLK)Respectively with the first control mould
Block is connected;Monitor terminal includes the second control module, and be connected with the second control module respectively second source module,
Message output module, server module, the second wireless communication module;Wherein second source module is distinguished through the second control module
It is powered for message output module, server module, the second wireless communication module;The first radio communication mold in acquisition terminal
Block carries out radio communication with the second wireless communication module in monitor terminal.Low-power consumption human body life designed by above-mentioned technical proposal
Reason parameters remote monitoring system, using brand-new Design of Intelligent Structures, integrated multiple measurement modules, by the height of designed introducing
Measurement module, measured body weight module, vital capacity measurement module, heart rate measurement module, measure for human body physiological parameter, and
Each measurement module is respectively directed to, each specifically designed filter circuit of corresponding introducing, in conjunction with concrete designed calendar
Time module, using the time as data refer yardstick, carries out Data Integration, eventually through the wireless communication configuration that sets up, by number
It is believed that number be uploaded to monitor terminal in real time, then by monitor terminal in message output module realize information output;Thus, this practicality
New designed low-power consumption human body physiological parameter remote supervision system, on the one hand achieves the collection of much information, with work(
The integration of energy, on the other hand, while data information acquisition is realized, it is achieved that the real-time Transmission of data message, it is ensured that
Data message ageing.
On basis based on above-mentioned design low-power consumption human body physiological parameter remote supervision system technical scheme, this practicality is new
Type also further devises following optimal technical scheme:For acquisition terminal, also further design includes and the described first control
Wireless signal measurement module that module is connected, memory module, while Real-time Collection is carried out for human body physiological parameter, lead to
Designed wireless signal measurement module is crossed, is examined for the radio signal quality between acquisition terminal and monitor terminal in real time
Survey, and regard radio signal quality situation, Based Intelligent Control realizes the radio communication between acquisition terminal and monitor terminal, and temporary
While stopping communication between acquisition terminal, monitor terminal, the human body physiological parameter data message for being gathered is buffered in storage mould
In the middle of block, wait to be sent, the transmission for data message achieves intelligent selection and control operation, can effectively ensure that and is received
Integrity and accuracy to data;And for the first control module, further it is designed with MSP430F5529 monolithics
Machine, and for the second control module, further it is designed with the 2nd MSP430F5529 single-chip microcomputers;On the one hand can be applied to
Extension demand of the later stage for designed low-power consumption human body physiological parameter remote supervision system, on the other hand, succinct control cage
Structure pattern can be easy to the maintenance in later stage;In addition, whole design low-power consumption work in actual applications can be realized.
This utility model devises low-power consumption human body physiological parameter remote supervision system in the middle of actual application, specifically
Including acquisition terminal and monitor terminal, wherein, acquisition terminal includes height measurement module, measured body weight module, vital capacity measurement
Module, heart rate measurement module and MSP430F5529 single-chip microcomputers, and be connected with MSP430F5529 single-chip microcomputers respectively
The first power module for connecing, calendar times module, the first wireless communication module, wireless signal measurement module, memory module, four
Filter circuit;Wherein, height measurement module, measured body weight module, vital capacity measurement module, heart rate measurement module distinguish each filter
Wave circuit is corresponded, and each measurement module is connected with MSP430F5529 single-chip microcomputers respectively through corresponding filter circuit;
First power module is respectively calendar times module, the first wireless communication module, wireless through MSP430F5529 single-chip microcomputers
Signal measurement module, memory module are powered;Meanwhile, the first power module divides after MSP430F5529 single-chip microcomputers
It is not powered through the measurement module that each filter circuit is corresponding connection;The structure of each filter circuit is identical, each filtering
Circuit includes transport and placing device A1, first resistor R1, second resistance R2, the first electric capacity C1 and the second electric capacity C2 respectively;Wherein, filtered electrical
The input on road is sequentially connected in series first resistor R1, the reverse input end of the first electric capacity C1 to transport and placing device A1, meanwhile, filter circuit
Input connects corresponding measurement module;Be connected in parallel between the reverse input end and outfan of transport and placing device A1 second resistance R2 and
The positive input ground connection of the second electric capacity C2, transport and placing device A1, the outfan of transport and placing device A1 are connected with the outfan of filter circuit,
Meanwhile, the outfan of filter circuit is connected with MSP430F5529 single-chip microcomputers;Calendar times module includes DS1302 clocks
Chip, quartz-crystal filter and stand-by power supply;Wherein, the main power source incoming end of DS1302 clock chips(VCC2)With via
The feeder ear of one MSP430F5529 single-chip microcomputers(VCC)It is connected;Vibration source X1 of DS1302 clock chips and vibration source X1
It is connected with the two ends of quartz-crystal filter respectively, the stand-by power supply incoming end of DS1302 clock chips(VCC1)Series connection is standby
Power supply(BATTERY)After be grounded, the reset terminal of DS1302 clock chips(RST), input/output terminal(I/O), output terminal of clock
(SCLK)It is connected with MSP430F5529 single-chip microcomputers respectively;Monitor terminal includes the 2nd MSP430F5529 single-chip microcomputers, with
And be connected with the 2nd MSP430F5529 single-chip microcomputers respectively second source module, message output module, server module,
Two wireless communication modules;Wherein second source module is respectively message output module, clothes through the 2nd MSP430F5529 single-chip microcomputers
Business device module, the second wireless communication module are powered;In the first wireless communication module and monitor terminal in acquisition terminal
Second wireless communication module carries out radio communication.In practical application, measured body weight module is using HX Z series diplopore overarm forms
Pressure transducer;Height measurement module adopts WF20D resistor type displacement sensors;Vital capacity measurement module adopts MPX5010 silicon
Pressure transducer;Heart rate measurement module adopts 07 heart rate measurement modules of HKG;The physiology of each measurement module Real-time Collection human body
Parameter data information, and be uploaded in the filter circuit being correspondingly connected respectively, each filter circuit is respectively directed to from corresponding
The physiological parameter data information of measurement module is filtered process, filters noise data therein, then, each filter circuit point
The physiological parameter data information for processing after filtering is not transmitted to MSP430F5529 single-chip microcomputers respectively in real time, the
One MSP430F5529 single-chip microcomputers according to the calendar times module being attached thereto, using the time as data refer yardstick, for real
When every physiological parameter data information for receiving carry out Data Integration, and sent out to monitor terminal by the first wireless communication module
Send, the 2nd MSP430F5529 single-chip microcomputers in monitor terminal pass through the second connected wireless communication module real-time reception
Every physiological parameter data information that acquisition terminal is sent in real time, and letter is carried out by connected message output module
Breath output, it is achieved that the remote monitoring of physiological parameter number;While above-mentioned implementation procedure, in acquisition terminal first
The connected wireless signal measurement module real time operation of MSP430F5529 Single-chip Controlling, real-time detection acquisition terminal with
The stability of wireless signal between monitor terminal, and it is mono- that wireless signal testing result is uploaded to a MSP430F5529 in real time
In the middle of piece machine, MSP430F5529 single-chip microcomputers are analyzed judgement for received wireless signal testing result in real time, if sentencing
Disconnected now wireless signal is stable, then MSP430F5529 single-chip microcomputers do not do any further operate, in real time will be received
Every physiological parameter data information, is transmitted via the first wireless communication module;If judging, now wireless signal is unstable,
First MSP430F5529 single-chip microcomputers suspend the radio communication between acquisition terminal and monitor terminal, while will be received each
Physiological parameter data information Store to connected memory module, until between acquisition terminal and monitor terminal
After wireless signal becomes stable, MSP430F5529 single-chip microcomputers connect wireless between acquisition terminal and monitor terminal again
Communication, and the every physiological parameter data information in the middle of memory module is will be stored in first temporally to monitor terminal transmission, same
When, received every physiological parameter data information Store is deposited by MSP430F5529 single-chip microcomputers to connected
In the middle of storage module, after the every physiological parameter data information in module to be stored is sent, MSP430F5529 single-chip microcomputers
The every physiological parameter data information for arriving real-time reception again, is carried out sending out to monitor terminal in real time by the first wireless communication module
Send.
Embodiment of the present utility model is explained in detail above in conjunction with accompanying drawing, but this utility model is not limited to
Above-mentioned embodiment, in the ken that those of ordinary skill in the art possess, can be with without departing from this utility model
Make a variety of changes on the premise of objective.
Claims (7)
1. a kind of low-power consumption human body physiological parameter remote supervision system, it is characterised in that:Including acquisition terminal and monitor terminal, its
In, acquisition terminal includes height measurement module, measured body weight module, vital capacity measurement module, heart rate measurement module and the first control
Molding block, and be connected with the first control module respectively the first power module, calendar times module, the first radio communication mold
Block, four filter circuits;Wherein, height measurement module, measured body weight module, vital capacity measurement module, heart rate measurement module point
Each filter circuit is not corresponded, and each measurement module is connected with the first control module respectively through corresponding filter circuit;
First power module is respectively calendar times module, the first wireless communication module through the first control module and is powered;Meanwhile,
First power module is supplied through the measurement module that each filter circuit is corresponding connection after the first control module respectively
Electricity;The structure of each filter circuit is identical, each filter circuit include respectively transport and placing device A1, first resistor R1, second resistance R2,
First electric capacity C1 and the second electric capacity C2;Wherein, the input of filter circuit is sequentially connected in series first resistor R1, the first electric capacity C1 to fortune
The reverse input end of device A1 is put, meanwhile, the input of filter circuit connects corresponding measurement module;The reverse input of transport and placing device A1
The positive input ground connection of second resistance R2 and the second electric capacity C2, transport and placing device A1, transport and placing device is connected in parallel between end and outfan
The outfan of A1 is connected with the outfan of filter circuit, meanwhile, the outfan of filter circuit is connected with the first control module;
Calendar times module includes DS1302 clock chips, quartz-crystal filter and stand-by power supply;Wherein, DS1302 clock chips
Main power source incoming end be connected via the feeder ear of the first control module;Vibration source X1 of DS1302 clock chips and vibration
Source X1 is connected with the two ends of quartz-crystal filter respectively, and the stand-by power supply incoming end series connection of DS1302 clock chips is standby
After power supply be grounded, the reset terminal of DS1302 clock chips, input/output terminal, output terminal of clock respectively with the first control module phase
Connection;Monitor terminal includes the second control module, and be connected with the second control module respectively second source module, information
Output module, server module, the second wireless communication module;Wherein second source module is respectively through the second control module and believes
Breath output module, server module, the second wireless communication module are powered;The first wireless communication module in acquisition terminal with
The second wireless communication module in monitor terminal carries out radio communication.
2. a kind of low-power consumption human body physiological parameter remote supervision system according to claim 1, it is characterised in that:The collection
Terminal also includes wireless signal measurement module, the memory module being connected with first control module, the first power supply mould
Block is respectively memory module, wireless signal measurement module through the first control module and is powered.
3. a kind of low-power consumption human body physiological parameter remote supervision system according to claim 1, it is characterised in that:The body weight
Measurement module is HX Z series diplopore overarm form pressure transducers.
4. a kind of low-power consumption human body physiological parameter remote supervision system according to claim 1, it is characterised in that:The height
Measurement module is WF20D resistor type displacement sensors.
5. a kind of low-power consumption human body physiological parameter remote supervision system according to claim 1, it is characterised in that:The lung is lived
Measurement module is MPX5010 silicon pressure sensors.
6. a kind of low-power consumption human body physiological parameter remote supervision system according to claim 1, it is characterised in that:The heart rate
Measurement module is 07 heart rate measurement modules of HKG.
7. a kind of low-power consumption human body physiological parameter remote supervision system according to claim 1, it is characterised in that:Described first
Control module is MSP430F5529 single-chip microcomputers, and second control module is the 2nd MSP430F5529 single-chip microcomputers.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201620636610.5U CN206007219U (en) | 2016-06-25 | 2016-06-25 | A kind of low-power consumption human body physiological parameter remote supervision system |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201620636610.5U CN206007219U (en) | 2016-06-25 | 2016-06-25 | A kind of low-power consumption human body physiological parameter remote supervision system |
Publications (1)
Publication Number | Publication Date |
---|---|
CN206007219U true CN206007219U (en) | 2017-03-15 |
Family
ID=58243129
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201620636610.5U Active CN206007219U (en) | 2016-06-25 | 2016-06-25 | A kind of low-power consumption human body physiological parameter remote supervision system |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN206007219U (en) |
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110517763A (en) * | 2019-08-21 | 2019-11-29 | 武汉联析医疗技术有限公司 | A kind of remote supervision system and equipment for CRRT |
CN110507330A (en) * | 2019-08-21 | 2019-11-29 | 苏州华墨信息科技有限公司 | It is a kind of for supporting the remote supervision system of CRRT |
WO2020150921A1 (en) * | 2019-01-23 | 2020-07-30 | 深圳迈瑞生物医疗电子股份有限公司 | Monitoring method and system capable of integrating physiological parameters, and computer storage medium |
WO2020220661A1 (en) * | 2019-04-30 | 2020-11-05 | 广东乐之康医疗技术有限公司 | Power consumption control method and system of artificial intelligence dynamic cardiopulmonary monitoring device |
-
2016
- 2016-06-25 CN CN201620636610.5U patent/CN206007219U/en active Active
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2020150921A1 (en) * | 2019-01-23 | 2020-07-30 | 深圳迈瑞生物医疗电子股份有限公司 | Monitoring method and system capable of integrating physiological parameters, and computer storage medium |
CN112969405A (en) * | 2019-01-23 | 2021-06-15 | 深圳迈瑞生物医疗电子股份有限公司 | Monitoring method and system of integrated physiological parameters and computer storage medium |
WO2020220661A1 (en) * | 2019-04-30 | 2020-11-05 | 广东乐之康医疗技术有限公司 | Power consumption control method and system of artificial intelligence dynamic cardiopulmonary monitoring device |
CN110517763A (en) * | 2019-08-21 | 2019-11-29 | 武汉联析医疗技术有限公司 | A kind of remote supervision system and equipment for CRRT |
CN110507330A (en) * | 2019-08-21 | 2019-11-29 | 苏州华墨信息科技有限公司 | It is a kind of for supporting the remote supervision system of CRRT |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN206007219U (en) | A kind of low-power consumption human body physiological parameter remote supervision system | |
CN104507148B (en) | A kind of low-consumption wireless Sensor Network | |
CN107132329A (en) | A kind of LoRaWAN multi-parameter water qualities on-line monitoring system and method | |
CN101908377B (en) | Modular data logger based on Zigbee wireless communication and operating method thereof | |
CN207369033U (en) | NFC interface with energy management functionality | |
CN206919929U (en) | A kind of low-power consumption NB IoT Temperature Humidity Sensors | |
CN101561408A (en) | Soil humidity measuring device based on wireless microcomputer control | |
CN106793176A (en) | A kind of environment real-time monitoring system based on booster circuit | |
CN202066527U (en) | Intelligent bridge health monitor based on Zigbee module | |
CN103313365B (en) | Long-distance Control metering system | |
CN108540956A (en) | A kind of internet of things data collection and its network-building method | |
CN108362369B (en) | Self-contained single-channel marine acoustic signal measuring device with synchronization function | |
CN206388038U (en) | A kind of synchronous inspection and control system of dyeing machine | |
CN203376862U (en) | Self-powered low-power-consumption data collection and transmission instrument | |
CN202677114U (en) | Industrial control main board based on MSP430 single chip microcomputer | |
CN208386945U (en) | A kind of wake-up circuit for acquiring RF energy for wireless sensor node | |
CN106600924A (en) | Wireless multichannel vibration wire acquisition instrument and acquisition method thereof | |
CN203376007U (en) | Gas meter used for remote and automatic meter reading | |
CN206518565U (en) | A kind of self-power wireless heart sound transducer | |
CN203870096U (en) | Wireless water quality ammonia nitrogen monitoring device | |
CN113795007A (en) | Wireless sensor for measuring transformer vibration signal and low-power-consumption working method | |
CN208462057U (en) | A kind of ad hoc network low-power consumption water utilities monitoring RTU based on LoRa technology | |
CN208061420U (en) | Wireless communication collection module and its manufactured electric energy meter | |
CN108109223A (en) | A kind of low power-consumption intelligent office real-time synchronization display system and its method of work | |
CN107121222B (en) | A kind of self-power wireless based on piezo technology is hydraulic to use pressure sensor |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant |