CN104090076A - Teletransmission network blood glucose monitor - Google Patents

Abstract

The invention provides a teletransmission network blood glucose monitor which comprises a processor 1, a data acquisition processing module 2, a liquid crystal display module 3, a key circuit 4, a clock circuit 5, a remote data transmission module 6, a precise voltage stabilization module 8 and a power supply control module 7, wherein the key circuit 4 is connected with the processor 1 and is used for controlling operation of the teletransmission network blood glucose monitor; the processor 1 measures blood glucose data of a human body through the data acquisition processing module 2; the blood glucose data can be transmitted to a cloud service platform and other terminal equipment to be stored and analyzed through the remote data transmission module 6. According to the precise voltage stabilization module 8 and the power supply control module 7, the low power consumption requirement of the monitor can be met.

Description

A kind of teletransmission network blood sugar monitoring instrument

Technical field

The present invention relates to a kind of medical monitoring equipment, be specifically related to a kind of teletransmission network blood sugar monitoring instrument.

Background technology

Diabetic's number is up to 1.14 hundred million at present in China, and diabetes have been after tumour, the heart, cranial vascular disease, to occupy the 4th great chronic disease.Investigation shows, diabetes are one group and take the metabolic disease that hyperglycaemia is feature.Hyperglycaemia be due to defect of insulin secretion or its biological agent impaired, or both have concurrently and cause.Long-standing hyperglycaemia during diabetes, causes various tissues, particularly chronic lesion, the dysfunction of eye, kidney, heart, blood vessel, nerve.Diabetes cannot be cured, and its main harm is its complication, especially chronic complicating diseases.As: the heart, cerebrovascular artery sclerosis, retina and kidney microangiopathies, DPN and lower limb gangrene etc.The blood glucose meter in existing stage only plays the reading Presentation Function of single measurement data, remote data can not be transferred to the terminal devices such as cloud service platform, thereby cannot long record and analysis data.During the diagnosis state of an illness, according to the blood glucose level data of single, cannot draw and prepare rational pathological information.In addition, existing blood glucose meter is in the process of work, and blood glucose level data acquisition module and data transmission blocks, all the time in power supply state, make the power dissipation ratio of blood glucose meter higher, can not long-term work, need regular frequent charge.If adopt wireless receiving and dispatching mode, power consumption is higher.

Summary of the invention

The object of this invention is to provide teletransmission network blood sugar monitoring instrument a kind of low-power consumption, that remote data can be transferred to the terminals such as cloud service platform.

To achieve these goals, the present invention adopts following technical scheme: a kind of teletransmission network blood sugar monitoring instrument, comprise processor, the digital sampling and processing being connected with processor, LCD MODULE, key circuit and clock circuit, key circuit is connected with processor, for controlling the work of teletransmission network blood sugar monitoring instrument; Processor is measured the blood glucose level data of human body by digital sampling and processing; Also comprise remote data transport module, described remote data transport module comprises GSM chip and SIM card seat, and the FPDP of GSM chip is connected with the data transmit-receive port of processor, and SIM card seat is connected with GSM chip.

In order to reduce the power consumption of teletransmission network blood sugar monitoring instrument, the present invention also comprises accurate Voltage stabilizing module and energy supply control module, described accurate Voltage stabilizing module is comprised of the first Voltage stabilizing module and the second Voltage stabilizing module, energy supply control module comprises power supply, charging circuit and data remote control circuit, and the first Voltage stabilizing module, the second Voltage stabilizing module and data remote control circuit are all connected with power supply; The output terminal of the second Voltage stabilizing module is connected with digital sampling and processing, the output terminal of data remote control circuit is connected with the power end of GSM chip, processor is controlled the break-make of data remote control circuit by the first control port, processor is controlled the break-make of the second Voltage stabilizing module by the second control port.

In preferred version of the present invention, the second Voltage stabilizing module is comprised of TLV700XX family chip, and the Enable Pin of chip is connected with processor the second control port, and output terminal is connected with digital sampling and processing; Data remote control circuit comprises resistance R 3 and R7, triode Q4 and PMOS pipe Q3, the first control port of processor is connected with the base stage of triode Q4 by resistance R 7, the collector of triode Q4 is connected with the grid of PMOS pipe Q3, the collector of triode Q4 is connected with the source electrode of PMOS pipe Q3 by pull-up resistor R3, and the drain electrode of PMOS pipe is connected with the power end of GSM chip (61).

In preferred version of the present invention, the GSM chip of remote data transport module is A8500, and FPDP UART0_RX, the UART0_RX of described GSM chip A8500 is connected with data transmit-receive port TXD2, the RXD2 of processor, and SIM card seat is connected with GSM chip A8500.

In preferred version of the present invention, described processor is MSP430 single-chip microcomputer.

Beneficial effect of the present invention: increase remote data transport module, make blood glucose level data energy remote transmission to terminal device storages such as cloud service platforms and analyze, facilitate the diagnosis state of an illness; Increase accurate Voltage stabilizing module and energy supply control module, make the present invention there is low in energy consumption, voltage stabilization, chargeable advantage, use MSP430 single-chip microcomputer, make the present invention there is high precision, low-power consumption.

Accompanying drawing explanation

Fig. 1 is structural representation of the present invention;

Fig. 2 is processor and peripheral circuit schematic diagram thereof;

Fig. 3 is blood glucose information Acquisition Circuit schematic diagram;

Fig. 4 is remote data transport module circuit theory diagrams;

Fig. 5 is energy supply control module and accurate Voltage stabilizing module circuit theory diagrams;

In figure: 1, processor, 2, digital sampling and processing, 3, LCD MODULE, 4, key circuit, 5, clock circuit, 6, remote data transport module, 7, energy supply control module, 8, accurate Voltage stabilizing module, 61, GSM chip, 62, SIM card seat, 71, power supply, 72, charging circuit, 73, power control circuit, 81, the first Voltage stabilizing module, the 82, second Voltage stabilizing module.

Embodiment

For the ease of those skilled in the art, better understand the present invention, below in conjunction with the drawings and specific embodiments, the present invention is described in further details, following is only the exemplary protection scope of the present invention that do not limit.

With reference to accompanying drawing 1-5, a kind of teletransmission network blood sugar monitoring instrument, comprise processor 1, the digital sampling and processing 2 being connected with processor 1, LCD MODULE 3, key circuit 4 and clock circuit 5, key circuit 4 is connected with processor 1, for controlling the work of teletransmission network blood sugar monitoring instrument; Processor 1 is measured the blood glucose level data of human body by digital sampling and processing 2; Also comprise remote data transport module 6, described remote data transport module 6 comprises GSM chip 61 and SIM card seat 62, in the present embodiment, GSM chip 61 is A8500, the FPDP UART0_RX of A8500, UART0_RX are connected with data transmit-receive port TXD2, the RXD2 of processor 1, and the I/O of SIM card seat 62, CLK, RST and VCC port are connected with SIM_DATA, SIM_CLK, SIM_RST and the SIM_VCC port of GSM chip 61 A8500 respectively.

In the present embodiment, also comprise accurate Voltage stabilizing module 8 and energy supply control module 7, accurate Voltage stabilizing module 8 is comprised of the first Voltage stabilizing module 81 and the second Voltage stabilizing module 82, energy supply control module 7 comprises that power supply 71, charging circuit 72 and data remote control circuit 73, the first Voltage stabilizing modules 81, the second Voltage stabilizing module 82 are all connected with power supply 71 with data remote control circuit 73; The first Voltage stabilizing module 81 is comprised of chip XC6206, the output terminal of chip is connected with processor 1, be used to provide stable low power consumption voltage, the second Voltage stabilizing module 82 is comprised of TLV700XX family chip, the Enable Pin of chip is connected with processor 1 second control port, and output terminal is connected with digital sampling and processing 2; Data remote control circuit 73 comprises resistance R 3 and R7, triode Q4 and PMOS pipe Q3, the first control port of processor 1 is connected with the base stage of triode Q4 by resistance R 7, the collector of triode Q4 is connected with the grid of PMOS pipe Q3, the collector of triode Q4 is connected with the source electrode of PMOS pipe Q3 by pull-up resistor R3 again, and the drain electrode of PMOS pipe is connected with the power end of GSM chip 61.The first control port and the second control port can be any I/O port of processor 1, and in the present embodiment, the first control port and the second control port adopt respectively P01 mouth and the P02 mouth of processor.In the present embodiment, processor 1 is the MSP430 single-chip microcomputer of high integration, low-power consumption.

Principle of work of the present invention: S1 pushes button, processor 1 carries out initialization, now processor 1 is controlled P01 mouth output low level, P02 mouth output high level, the second Voltage stabilizing module 82 conductings, the 73 not conductings of data remote control circuit, teletransmission network blood sugar monitoring instrument only carries out the work of blood glucose level data acquisition process, processor 1 reads after blood glucose level data, in LCD MODULE 3, show blood glucose level data and control P01 mouth output high level, P02 mouth output low level, digital sampling and processing 2 quits work, 73 conductings of data remote control circuit, power supply 71 starts for 6 power supplies of remote data transport module, it to be started working, to terminal transmission data such as cloud service platforms.After blood glucose level data transfers to terminal, processor 1 is controlled P01 pin output low level, closes the supply of GSM chip A8500 power supply, and remote data transport module 6 quits work.In this process, digital sampling and processing 1 and remote data transport module 6 when not working, all non-transformer supplies, and processor 1 is always in low power consumpting state, has realized the requirement of low-power consumption of the present invention.When power supply 71 electric weight are when low, can charge by charging circuit 72.

Below only described ultimate principle of the present invention and preferred implementation, those skilled in the art can make many changes and improvements according to foregoing description, and these changes and improvements should belong to protection scope of the present invention.

Claims (5)

1. a teletransmission network blood sugar monitoring instrument, comprise processor (1), the digital sampling and processing (2) being connected with processor (1), LCD MODULE (3), key circuit (4) and clock circuit (5), key circuit (4) is connected with processor (1), for controlling the work of teletransmission network blood sugar monitoring instrument; Processor (1) is measured the blood glucose level data of human body by digital sampling and processing (2); It is characterized in that: also comprise remote data transport module (6), described remote data transport module (6) comprises GSM chip (61) and SIM card seat (62), the FPDP of GSM chip (61) is connected with the data transmit-receive port of processor (1), and SIM card seat (62) is connected with GSM chip (61).

2. teletransmission network blood sugar monitoring instrument according to claim 1, it is characterized in that: also comprise accurate Voltage stabilizing module (8) and energy supply control module (7), described accurate Voltage stabilizing module (8) is comprised of the first Voltage stabilizing module (81) and the second Voltage stabilizing module (82), energy supply control module (7) comprises power supply (71), charging circuit (72) and data remote control circuit (73), and the first Voltage stabilizing module (81), the second Voltage stabilizing module (82) and data remote control circuit (73) are all connected with power supply (71); The output terminal of the second Voltage stabilizing module (82) is connected with digital sampling and processing (2), the output terminal of data remote control circuit (73) is connected with the power end of GSM chip (61), processor (1) is controlled the break-make of data remote control circuit (73) by the first control port, processor (1) is controlled the break-make of the second Voltage stabilizing module (82) by the second control port.

3. teletransmission network blood sugar monitoring instrument according to claim 1 and 2, it is characterized in that: the second Voltage stabilizing module (2) is comprised of TLV700XX family chip, the Enable Pin of chip is connected with processor (1) second control port, and output terminal is connected with digital sampling and processing (2); Data remote control circuit (73) comprises resistance R 3 and R7, triode Q4 and PMOS pipe Q3, the first control port of processor (1) is connected with the base stage of triode Q4 by resistance R 7, the collector of triode Q4 is connected with the grid of PMOS pipe Q3, the collector of triode Q4 is connected with the source electrode of PMOS pipe Q3 by pull-up resistor R3, and the drain electrode of PMOS pipe is connected with the power end of GSM chip (61).

4. teletransmission network blood sugar monitoring instrument according to claim 1 and 2, it is characterized in that: the GSM chip (61) of remote data transport module (6) is A8500, described GSM chip A8500(61) FPDP UART0_RX, UART0_RX is connected with data transmit-receive port TXD2, the RXD2 of processor (1), and SIM card seat (62) is connected with GSM chip (61) A8500.

5. teletransmission network blood sugar monitoring instrument according to claim 1 and 2, is characterized in that: described processor (1) is MSP430 single-chip microcomputer.