CN203365439U - Glucometer - Google Patents

Abstract

The utility model relates to the field of medical instruments, in particular to a glucometer. The glucometer comprises a microprocessor, a test strip inserting port and a correction device, wherein a test strip can be inserted into the test strip inserting port; the correction device is used for collecting correcting code information on the test strip; and the microprocessor is used for providing corresponding current compensation according to correcting codes collected by the correction device. The correction device is realized in various forms such as an RFID (radio frequency identification) data collector and an image collector, or the correction device consists of a touch-control chip and a current digital converter, thus, the correcting code information of the test strip is directly collected when the test strip is inserted into the test strip inserting port, the collected correcting code information is transmitted to the microprocessor, accordingly, the correcting codes are not required to be manually input, a coding device is not required to be selected, the detection procedures of blood glucose are simplified, and the detection efficiency is improved.

Description

A kind of blood glucose meter

Technical field

The utility model relates to medical instruments field, particularly relates to a kind of blood glucose meter.

Background technology

The appearance of blood glucose meter, be convenient to the user blood glucose value of self monitored, so that according to the blood glucose value monitored, adjust diet, motion, and, according to supervising the blood glucose value monitored every day, can understand the fluctuation situation of user blood glucose, know the user's body situation, reduce user's potential safety hazard.Especially, for diabetes patient's treatment, the blood glucose meter monitoring equipment that is absolutely necessary.

Current widely used blood glucose meter mainly adopts the electrode measurement method, disposes a kind of test pieces of abandoning, and the medicine contained in blood to be detected and test pieces, as the enzyme material generation current, by the blood sugar in current measurement blood.For example, some blood glucose meter utilize the glucose oxidase electrode mensuration to measure blood sugar, and in this case, the principle of measurement is exactly that the magnitude of current produced by the glucose in measurement blood and the glucose oxidase enzyme reaction in test pieces is measured blood sugar.In this case, during material to be analyzed that blood glucose meter comprises in detecting blood, generally first test pieces is inserted in blood glucose meter, after starting described blood glucose meter, drip blood to be detected on described test pieces, produce corresponding electric current after the medicine comprised in described test pieces mixes with the blood of dropping, the microprocessor in described blood glucose meter, by the content of current measurement determinand, can obtain the analysis result of measuring thing in blood.But, in testing process, due to the existence of error between criticizing, the medicament contg difference comprised in the test pieces of different batches, thereby can bring impact to testing result, for example, in the test pieces of a certain batch, the medicament contg comprised is compared on the low side with normal contents, and the magnitude of current of generation will be less, microprocessor, when according to the magnitude of current, detecting the content of thing to be detected in blood, just there will be deviation.Therefore, in testing process, also need to configure a means for correcting be connected with the microprocessor of blood glucose meter, change with offset current.

Realizing timing in prior art, on test pieces, be provided with and a batch corresponding correcting code, the relevant information that includes test pieces in described correcting code, as medicament contg in test pieces etc., simultaneously, described means for correcting comprises two kinds of memory chip and code devices, described memory chip is placed in blood glucose meter, the staff is when utilizing the memory chip calibration, read described correcting code, and by being arranged on blood glucose meter, and the button be connected with described memory chip, input described correcting code, described microprocessor is after receiving described correcting code, can know the relevant information of test-strips wherein, thereby carry out current compensation, realize proofreading and correct, described code device and described test pieces batch corresponding, after the staff reads correcting code, choose corresponding code device, described code device is plugged in described blood glucose meter, thereby make the clearly described test pieces of described microprocessor batch, and then carry out current compensation, realize proofreading and correct.

But the inventor finds in the application's research process, uses the memory chip mode to realize timing, must manually input correcting code, complex steps, efficiency is low, and, if erroneous input also can exert an influence to testing result; Use code device to realize timing, need the staff at every turn according to correcting code, choose corresponding code device, loaded down with trivial details and easily make mistakes.

The utility model content

In view of this, the purpose of this utility model is to provide a kind of blood glucose meter, and to solve the problem of above-mentioned proposition, specific embodiments is as follows:

A kind of blood glucose meter, comprise microprocessor, and described blood glucose meter also comprises:

Insert the test pieces insert port of test pieces;

Be arranged on the side of described test pieces insert port, after described test pieces is inserted to described test pieces insert port, gather the means for correcting of the correcting code information on described test pieces, described means for correcting is after obtaining described correcting code information, transmit it to microprocessor, so that described microprocessor, according to the correcting code information received, obtains the relevant information of described test pieces, and provide corresponding offset current, the calibration while realizing blood testing.

Preferably, described means for correcting is:

The RFID data acquisition unit.

Preferably, described RFID data acquisition unit comprises:

When described test pieces is scanned, read the rfid interrogator of described correcting code information;

Be connected with described rfid interrogator, receive the described correcting code information that described rfid interrogator reads, and transmit it to the antenna of described microprocessor.

Preferably, described means for correcting is:

Gather the image that the correcting code on described test pieces forms, and be translated into corresponding numerical information, transfer to the image acquisition device of microprocessor.

Preferably, described image acquisition device comprises:

Gather the image that the described correcting code on described test pieces forms, and the described image collected is converted into to the ccd image sensor of corresponding numerical information;

Be connected with described ccd image sensor, receive described numerical information, transfer to the amplifying circuit of microprocessor after it is amplified.

Preferably, described image acquisition device comprises:

Gather the cmos image sensor of the image of the described correcting code formation on described test pieces;

With described cmos image sensor, be connected, the amplifying circuit that the image collected is amplified;

Be connected with described amplifying circuit, the image after amplifying changed into to corresponding numerical information, and by described digital information transmission the A/D change-over circuit to described microprocessor.

Preferably, while on described test pieces, being provided with the contact corresponding with correcting code, described means for correcting comprises:

Be arranged on the touch-control chip of described test pieces insert port side, when described test pieces is inserted to described test pieces insert port, described touch-control chip produces corresponding electric current according to described contact;

Be connected with described touch-control chip, after the electric current that receives described touch-control chip transmission, be converted into corresponding numerical information, and transfer to the current digital converter of described microprocessor.

Preferably, described means for correcting also comprises:

Be connected with the current digital converter with described touch-control chip, the electric current that will receive from described touch-control chip amplifies, transfer to the amplifying circuit of current digital converter.

Preferably, described blood glucose meter also comprises:

Be arranged on the surface of described blood glucose meter, be connected with described microprocessor, show the display screen of the testing result of described microprocessor.

Preferably, described blood glucose meter also comprises:

Receive and store the storer of the critical value of blood-sugar content;

The blood glucose value that detection is got is compared with described critical value, and, when described blood glucose value is not in the scope in described critical value, produces the signal generator of alarm signal;

Be connected with described display screen with described signal generator, after receiving described alarm signal, regulate the regulator of the display color of described display screen.

This programme discloses a kind of blood glucose meter, described blood glucose meter comprises microprocessor, test pieces insert port and means for correcting, wherein, described test pieces insert port is for inserting test pieces, described means for correcting is for gathering the correcting code information on described test pieces, and described microprocessor provides corresponding current compensation for the correcting code collected according to described means for correcting.Described means for correcting is realized in a variety of forms, as RFID data acquisition unit, image acquisition device, perhaps by touch-control chip and current digital converter, formed, can when test pieces is inserted described test pieces insert port, directly gather the correcting code information on described test pieces, and by the described correcting code communication collected to microprocessor, thereby do not need manually to input correcting code, do not need to select code device yet, simplified the detecting step of blood sugar, improved detection efficiency.

In addition, the blood glucose meter provided due to the application, do not need manually to input described correcting code, do not need to select code device yet, thereby the maloperation of having avoided human factor to cause, as input error during correcting code as described in inputting, or misplug into inappropriate code device, thereby the low problem of the accuracy of detection caused.And, when batch the changing of test-strips, code device also will be changed thereupon, if when forgetting replacing or not inserting described code device, the blood glucose meter of using in prior art just can't be calibrated new test-strips, in this case, can't obtain correct testing result.And the disclosed blood glucose meter of the application, as long as insert test pieces, means for correcting just can directly be realized the collection to correcting code, has improved measuring accuracy.

Because code device needs corresponding with correcting code, therefore, in prior art, when blood is detected, need to be equipped with a plurality of code devices, thereby increase extra expenses, in this case, the application, as long as be equipped with the means for correcting that gathers described correcting code in blood glucose meter, can effectively reduce expenses.

The accompanying drawing explanation

In order to be illustrated more clearly in the utility model embodiment or technical scheme of the prior art, below will the accompanying drawing of required use in embodiment or description of the Prior Art be briefly described, apparently, accompanying drawing in the following describes is only embodiment more of the present utility model, for those of ordinary skills, under the prerequisite of not paying creative work, can also obtain according to these accompanying drawings other accompanying drawing.

The structural representation that Fig. 1 is the disclosed a kind of blood glucose meter of the utility model embodiment;

Fig. 2 is that in the disclosed a kind of blood glucose meter of the utility model embodiment, the side of test-strips insert port is attempted;

The structural representation that Fig. 3 is disclosed another blood glucose meter of the utility model embodiment.

Embodiment

Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the utility model embodiment is clearly and completely described, obviously, described embodiment is only the utility model part embodiment, rather than whole embodiment.Embodiment based in the utility model, those of ordinary skills are not making under the creative work prerequisite the every other embodiment obtained, and all belong to the scope of the utility model protection.

Be provided with microprocessor in blood glucose meter, microprocessor is according to the correcting code arranged on test pieces, can know the relevant information of described test pieces, as as described in medicament contg on test pieces, and then according to interior establish and correction program that described medicament contg is corresponding, described test pieces is carried out to current compensation, thereby realize the correction to the test pieces of different batches.But in the prior art, when obtaining described correcting code, what usually adopt is to rely on the staff manually to input correcting code, or selection and the corresponding code device of described correcting code, it is plugged in blood glucose meter, thereby makes microprocessor determine described correcting code according to described code device.But the mode of above-mentioned two kinds of corrections, all need the correcting code on staff's read test sheet, then manually input described correcting code or grafting code device, complex steps, cause the process efficiency of blood glucose measurement low.

In order to address the above problem, the application discloses a kind of blood glucose meter, while to improve, blood being detected, and the efficiency that test pieces is calibrated.

The structural representation of blood glucose meter shown in Figure 1, and the outboard profile of the test-strips insert port shown in Fig. 2, the disclosed blood glucose meter of the application comprises: micro-processing, and described blood glucose meter also comprises: test pieces insert port 11 and means for correcting 12, wherein,

Described test pieces insert port 11 is for inserting test pieces; Wherein, on described test pieces, be provided with correcting code, the medicament contg that described correcting code comprises with it is corresponding;

Described means for correcting 12 is arranged on the side of described test pieces insert port 11, after described test pieces is inserted to described test pieces insert port 11, described means for correcting 12 is for gathering the correcting code information on described test pieces, and, described means for correcting 12 is after obtaining described correcting code information, transmit it to microprocessor, so that described microprocessor is according to the correcting code information received, obtain the relevant information of described test pieces, and provide corresponding offset current, the calibration while realizing blood testing.

The disclosed blood glucose meter of this programme, comprise microprocessor, test pieces insert port and means for correcting, when test pieces is inserted to described test pieces insert port, be arranged on the means for correcting of described test pieces insert port side for gathering the correcting code information arranged on described test pieces, and by described correcting code communication to described microprocessor; Described microprocessor, when receiving described correcting code information, can be known the medicament contg on described test pieces, thereby corresponding offset current is provided, the calibration while realizing blood is detected.In this process, do not need the staff manually to input correcting code, or select coding module according to described correcting code, only need described means for correcting to be gathered described correcting code, and transmit it to described microprocessor and get final product, simplify the flow process that blood glucose meter is detected blood, improved detection efficiency.

In addition, the blood glucose meter that the application provides, when blood is detected, directly obtain correcting code by means for correcting, and do not need the people to be inputted after reading correcting code, do not need to choose the code device corresponding with described correcting code yet, in this case, stopped the problem that human negligence may cause, input error during as the input correcting code, perhaps select the code device be not inconsistent, thereby improved the precision of blood testing.

Described means for correcting 12 is arranged on a side of described test pieces insert port 11, or both sides all are provided with described means for correcting 12.

Further, described means for correcting 12 is: RFID(Radio Frequency Identification, radio-frequency (RF) identification) data acquisition unit, the RFID data acquisition unit comprises: rfid interrogator and antenna, wherein,

After test pieces is inserted test pieces insert port 11, described rfid interrogator, for when described test pieces is scanned, reads the correcting code information arranged on described test pieces;

Described antenna is connected with described rfid interrogator, the described correcting code information read for receiving described rfid interrogator, and transmit it to described micro-processing.

In this programme, what described means for correcting 12 adopted is the form of RFID data acquisition unit, in this case, after described test pieces is inserted test pieces insert port 11, the mode of described RFID data acquisition unit so that test pieces is scanned, obtain the correcting code information on described test pieces, and transmit it to microprocessor, according to described correcting code information, realize suitable current compensation by described microprocessor.

Wherein, being arranged on the correcting code on test pieces, realizing in a variety of forms, for example, can be bar code, numeral or symbol etc., and the application does not do restriction.

Further, described means for correcting 12 can also be the form of image acquisition device.In this case, described image acquisition device gathers the image that the correcting code on described test pieces forms, and, after being translated into corresponding numerical information, transfers to microprocessor.

Wherein, described image acquisition device comprises: CCD(Charge-coupled Device, charge coupled cell) imageing sensor and amplifying circuit.

The image that described ccd image sensor forms for the described correcting code gathered on described test pieces, and the described image collected is converted into to corresponding numerical information;

Described amplifying circuit is connected with described ccd image sensor, for receiving described numerical information, and after receiving described numerical information, after it is amplified, transfer to microprocessor, by described microprocessor, according to the numerical information received, provide corresponding offset current.

In addition, described image acquisition device can also utilize CMOS (Complementary Metal Oxide Semiconductor, complementary metal oxide semiconductor (CMOS)) technology.In this case, described image acquisition device comprises: cmos image sensor, amplifying circuit and A/D(Analog-to-Digital Converter, analog to digital conversion) change-over circuit, wherein,

The image that described cmos image sensor forms for the described correcting code gathered on described test pieces;

Described amplifying circuit is connected with described cmos image sensor, for the image by collecting, is amplified;

Described A/D change-over circuit is connected with described amplifying circuit, for the image by after amplifying, changes into corresponding numerical information, and by described digital information transmission to described microprocessor.

In this application, image acquisition device adopts CCD technology or CMOS technology to realize the collection to correcting code, and wherein, CCD and CMOS technology are current two kinds of technology that generally adopted, these two kinds of technology are all to utilize opto-electronic conversion, and the image information got is converted to numerical information.Wherein, the charge data of each pixel that ccd image sensor collects can transmit successively, then amplifies output via the amplifying circuit at described ccd image sensor edge.And, in cmos image sensor, each pixel can, in abutting connection with an amplifying circuit and A/D analog to digital conversion circuit, after collecting image corresponding to described correcting code and amplifying, then be converted into corresponding numerical information by the A/D change-over circuit by the image after amplifying.

By above-mentioned disclosed image acquisition device, this programme utilizes CCD technology or CMOS technology, realized the collection to correcting code on test pieces, and by described correcting code corresponding digital information transmission to microprocessor, so that described microprocessor is according to the described numerical information got, learn the relevant information of described test pieces, and corresponding current compensation is provided.

Further, while on described test pieces, being provided with the contact corresponding with correcting code, described means for correcting comprises: touch-control chip and current digital converter, wherein,

Described touch-control chip is arranged on the side of described test pieces insert port 11, and when described test pieces is inserted to described test pieces insert port, described touch-control chip produces corresponding electric current according to described contact.

Described current digital converter is connected with described touch-control chip, after the electric current receiving described touch-control chip transmission, is converted into corresponding numerical information, and transmits it to described microprocessor.

In above-mentioned disclosed blood glucose meter, described means for correcting is comprised of touch-control chip and current digital converter.In this case, need on test pieces to be provided with the contact corresponding with correcting code, for example, to the test pieces of different batches, the contact of setting forms different shapes.After test pieces is inserted described test pieces insert port, described touch-control chip by with the contacting of described test pieces, cause electric capacity wherein or the variation of resistance, thus the output electric current corresponding with contact.Described current digital converter, after receiving described electric current, is translated into corresponding numerical information, and by described digital information transmission to microprocessor, be convenient to the relevant information that described microprocessor is learned test pieces, thereby corresponding offset current be provided.

Further, in described means for correcting, also comprise: amplifying circuit.Described amplifying circuit is connected with the current digital converter with described touch-control chip, amplifying for the electric current that will receive from described touch-control chip, transfers to the current digital converter.

Further, structural representation shown in Figure 3, in the disclosed blood glucose meter of this programme, also comprise: display screen 13.Described display screen is arranged on the surface of described blood glucose meter, with described microprocessor, is connected, for showing the testing result of described microprocessor.

By described display screen, medical personnel can intuitively get the testing result of blood, thereby provide suitable therapeutic scheme for the user.

Further, the disclosed blood glucose meter of this programme also comprises: storer, signal generator and regulator.Wherein,

The critical value of described storer for receiving and store blood-sugar content; Blood-sugar content is within the specific limits the time, illustrate that user's health is in healthy state, in this case, a storer can be set in microprocessor, the critical value of storage blood-sugar content in described storer, the critical value of wherein said blood-sugar content be the user when health status, the value range of blood-sugar content;

Described signal generator is connected with described storer, compares with described critical value for the blood glucose value that detection is got, and, when described blood glucose value is not in the scope in described critical value, produces alarm signal; Wherein, described signal generator can implemented in many forms, for example, described signal generator can be pulse producer, detecting at described microprocessor the blood glucose value got compares with the critical value of storing in described storer, while learning that the described blood glucose value detected is not in the scope of described critical value, described pulse producer produces corresponding pulse signal;

Described regulator is connected with described display screen with described signal generator, for after receiving described alarm signal, regulates the display color of described display screen.

In the disclosed blood glucose meter of the application, display screen 13 is generally LCD(Liquid Crystal Display, liquid crystal display) form, inside is provided with LED(light emitting diode, light emitting diode), can reach the purpose of critical value warning with color, for example, setting blood-sugar content is that 3.8-7.9 mmol/l is normal value, so, over 7.9 mmol/l or lower than 3.8 mmol/l the time, whole display screen shows different colors, can play the effect of warning.

For example, set blood-sugar content when normal, display screen shown in green, while under blood-sugar content, being limited to 3.8 mmol/l, show yellow, on show while being limited to 7.9 mmol/l red, in this case, if blood glucose meter detects blood-sugar content while being 3.8 mmol/l, described display screen is after receiving information warning, show yellowly, if blood glucose meter detects blood-sugar content while being 7.9 mmol/l, described display screen is after receiving information warning, show redness, thereby play warning function.

Cooperation by above-mentioned storer, signal generator and regulator, detect blood-sugar content not in normal range the time in blood glucose meter, by regulating the mode of display screen 13 colors, can realize the warning to medical personnel, thereby medical personnel can be found in time.

In addition, the disclosed blood glucose meter of this programme, also can realize warning with other form.For example, a warning device be connected with described signal generator is set, carries out alarm operation after the alarm signal that receives described signal generator generation, thereby medical personnel are known in time.In this case, described warning device can be hummer, alarm lamp etc.

When described warning device is hummer, after receiving described alarm signal, hummer is sounded a buzzer; When described warning device is alarm lamp, after receiving described alarm signal, the mode of alarm lamp to glimmer, or, to send the mode of the light different from normal condition, realize the warning to medical personnel, for example, under normal condition, the light that alarm lamp sends is for green, after receiving described alarm signal, the light that alarm lamp sends is redness, thereby plays warning function.

Further, described blood glucose meter also comprises: output port 14, described output port is connected with described microprocessor, for the detected value got after being detected blood, exports long-range processor to.

Detect the blood glucose value in blood at microprocessor, shown by display screen, so that medical personnel take corresponding medical measure.But, if can, in conjunction with the diagnostic result before the user, often can draw better diagnostic measures.In this case, the disclosed blood glucose meter of this programme also comprises output port, and described output port is for transferring to long-range processor by the blood glucose value detected.By described processor, medical personnel can carry out analysis-by-synthesis by the described blood glucose value obtained and the blood glucose value obtained before, thereby can effectively analyze.

This programme discloses a kind of blood glucose meter, described blood glucose meter comprises microprocessor, test pieces insert port and means for correcting, wherein, described test pieces insert port is for inserting test pieces, described means for correcting is for gathering the correcting code information on described test pieces, and described microprocessor provides corresponding current compensation for the correcting code collected according to described means for correcting.Described means for correcting is realized in a variety of forms, as RFID data acquisition unit, image acquisition device, perhaps by touch-control chip and current digital converter, formed, can when test pieces is inserted described test pieces insert port, directly gather the correcting code information on described test pieces, and by the described correcting code communication collected to microprocessor, thereby do not need manually to input correcting code, do not need to select code device yet, simplified the detecting step of blood sugar, improved detection efficiency.

In addition, the blood glucose meter provided due to the application, do not need manually to input described correcting code, do not need to select code device yet, thereby the maloperation of having avoided human factor to cause, as input error during correcting code as described in inputting, or misplug into inappropriate code device, thereby the low problem of the accuracy of detection caused.And, when batch the changing of test-strips, code device also will be changed thereupon, if when forgetting replacing or not inserting described code device, the blood glucose meter of using in prior art just can't be calibrated new test-strips, in this case, can't obtain correct testing result.And the disclosed blood glucose meter of the application, as long as insert test pieces, means for correcting just can directly be realized the collection to correcting code, has improved measuring accuracy.

Because code device needs corresponding with correcting code, therefore, in prior art, when blood is detected, need to be equipped with a plurality of code devices, thereby increase extra expenses, in this case, the application, as long as be equipped with the means for correcting that gathers described correcting code in blood glucose meter, can effectively reduce expenses.

To the above-mentioned explanation of the disclosed embodiments, make professional and technical personnel in the field can realize or use the utility model.Multiple modification to these embodiment will be apparent for those skilled in the art, and General Principle as defined herein can be in the situation that do not break away from spirit or scope of the present utility model, realization in other embodiments.Therefore, the utility model will can not be restricted to these embodiment shown in this article, but will meet the widest scope consistent with principle disclosed herein and features of novelty.

Claims (10)

1. a blood glucose meter, comprise microprocessor, it is characterized in that, described blood glucose meter also comprises:

Insert the test pieces insert port of test pieces;

Be arranged on the side of described test pieces insert port, after described test pieces is inserted to described test pieces insert port, gather the means for correcting of the correcting code information on described test pieces, described means for correcting is after obtaining described correcting code information, transmit it to microprocessor, so that described microprocessor, according to the correcting code information received, obtains the relevant information of described test pieces, and provide corresponding offset current, the calibration while realizing blood testing.

2. blood glucose meter according to claim 1, is characterized in that, described means for correcting is:

The RFID data acquisition unit.

3. blood glucose meter according to claim 2, is characterized in that, described RFID data acquisition unit comprises:

When described test pieces is scanned, read the rfid interrogator of described correcting code information;

Be connected with described rfid interrogator, receive the described correcting code information that described rfid interrogator reads, and transmit it to the antenna of described microprocessor.

4. blood glucose meter according to claim 1, is characterized in that, described means for correcting is:

Gather the image that the correcting code on described test pieces forms, and be translated into corresponding numerical information, transfer to the image acquisition device of microprocessor.

5. blood glucose meter according to claim 4, is characterized in that, described image acquisition device comprises:

Gather the image that the described correcting code on described test pieces forms, and the described image collected is converted into to the ccd image sensor of corresponding numerical information;

Be connected with described ccd image sensor, receive described numerical information, transfer to the amplifying circuit of microprocessor after it is amplified.

6. blood glucose meter according to claim 4, is characterized in that, described image acquisition device comprises:

Gather the cmos image sensor of the image of the described correcting code formation on described test pieces;

With described cmos image sensor, be connected, the amplifying circuit that the image collected is amplified;

Be connected with described amplifying circuit, the image after amplifying changed into to corresponding numerical information, and by described digital information transmission the A/D change-over circuit to described microprocessor.

7. blood glucose meter according to claim 1, is characterized in that, while on described test pieces, being provided with the contact corresponding with correcting code, described means for correcting comprises:

Be arranged on the touch-control chip of described test pieces insert port side, when described test pieces is inserted to described test pieces insert port, described touch-control chip produces corresponding electric current according to described contact;

Be connected with described touch-control chip, after the electric current that receives described touch-control chip transmission, be converted into corresponding numerical information, and transfer to the current digital converter of described microprocessor.

8. blood glucose meter according to claim 7, is characterized in that, described means for correcting also comprises:

Be connected with the current digital converter with described touch-control chip, the electric current that will receive from described touch-control chip amplifies, transfer to the amplifying circuit of current digital converter.

9. blood glucose meter according to claim 1, is characterized in that, described blood glucose meter also comprises:

Be arranged on the surface of described blood glucose meter, be connected with described microprocessor, show the display screen of the testing result of described microprocessor.

10. blood glucose meter according to claim 9, is characterized in that, described blood glucose meter also comprises:

Receive and store the storer of the critical value of blood-sugar content;

The blood glucose value that detection is got is compared with described critical value, and, when described blood glucose value is not in the scope in described critical value, produces the signal generator of alarm signal;

Be connected with described display screen with described signal generator, after receiving described alarm signal, regulate the regulator of the display color of described display screen.

Images