DE102006045952A1 - Bio sensor for parameter configuration, has radio frequency identification device system, micro processing unit, memory unit, indicator, power supply unit and control strip interface - Google Patents

Abstract

The bio sensor (1) has a Radio frequency identification device (RFID) system, a micro processing unit, a memory unit, an indicator (12), a power supply unit, a control strip interface, a RFID-chip (21) with calibration parameters stored in the chip. A RFID-reader (16) is arranged inside the bio sensor for receiving of the radio frequency signals of the RFID-chip. The received RF signals are sent to the micro processing unit for releasing, for accomplishing the calibration operation at the bio sensor.

Description

Field of the invention

The The present invention relates to a biosensor comprising Radio frequency identification system or an RFID system for a parameter configuration used, and in particular to a biosensor with an RFID reader, which is located in the biosensor, and its corresponding test strip has an RFID chip, which is arranged on the housing, with the transmit a calibration parameter of the test strip through the RFID chip can be and is received by the RFID reader while the received parameters to a micro-processing unit of the biosensor to enable them to send a calibration operation to perform on the biosensor, so the usual complicated parameter configuration procedure can be avoided which is used in the known biosensors, whereby the biosensor The invention is not only easy to use and quickly calibrated can be, but also no code card required.

Background of the invention

As a result Of the progress of medical technology can most diseases be healed or prevented in people, men or Women always a longer one To give life. These days you can People themselves apply some scientific test methods and the test data to provide for doctors, to treat the diseases properly.

diabetes is one of the modern diseases caused by the pancreas, which is unable to take insulin (or insufficient insulin) secrete. Insulin breaks down glucose in human blood and converts it it in useful Energy around. The diabetic patient can not effectively break down glucose, so that glucose accumulates in the blood, which is the probability a stroke, a heart attack, a kidney disease increases. Therefore, a diabetic patient has regular medicines and goes to hospital for follow-up treatment prevent related complications.

Laboratory tests such as. Blood tests and urine tests are helpful for evaluation the state of health of an individual. Any unusual or abnormal outcome should be discussed with her physician. It is not possible, diagnose any disease or problem with this blood test alone or treat. However, it can help to learn more about their bodies and potential ones Problems in an early Phase to recognize.

Around Any Diabetes Patient's Glycemic Index Anytime To The Exact Use to control the progression of the disease most patients a kind of portable hand glucose monitor (biosensor) to capture and record their glycemic index. It should be noted that each of the aforementioned portable hand-held glucose monitors, wel che currently available are not operable without matching code card since the parameters, which correspond to the characteristics of the test strips in which Code card will be saved, so that the hand-held glucose monitor with configured the appropriate test strip with respect to the processing data can be calibrated, with the test strip in an enzyme takes up which is used by one of Patients received blood through the glucose monitor to test. Consequently Each and every test strip becomes a special manufactured code card need, which corresponds thereto, whereby the manufacturing costs and the Time increased and thus this should be improved.

Summary of the invention

in view of the disadvantages of the prior art, it is a primary goal the present invention to propose a biosensor with an RFID reader, which is arranged therein and their corresponding test strip has an RFID chip which is arranged on the housing thereof, with which a calibration parameter of the test strip is transmitted through the RFID chip can be received and received by the RFID reader while the received parameters to a micro-processing unit of the biosensor to release it is sent to a calibration operation to perform on the biosensor, such that the known complicated parameter configuration procedure, which is applied in the known biosensor can be avoided can, and thus the biosensor of the invention not only easy to is operating and can be calibrated quickly, but also no Code card required.

It Another object of the invention is a useful biosensor to provide a selected one Test of the group of analytical recognitions in physiological liquids to provide, consisting of a glucose test, urea test, a Urine test, a saliva test, a sweat test, a cholesterol test, a calcium test, a pyruvate test, a bilirubin test.

In order to achieve the above objects, the present invention provides a biosensor which verifies a radio frequency identification (RFID) system for the parameter configuration which includes a micro processing device, a storage unit, a display device, a power supply unit, a test strip interface, an RFID chip with calibration parameters of the biosensor, which are stored on the RFID chip, and an RFID reader is disposed inside the biosensor for receiving RF signals of the RFID chip while the received RF signals are sent to the micro processing unit for enabling them to perform a calibration operation on the biosensor.

Other Aspects and advantages of the present invention will become apparent from the following detailed description, in conjunction with the accompanying drawings, to exemplify the principles of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS

It demonstrate:

1 a schematic diagram illustrating the transmission of a calibration parameter of a test strip by an RFID chip, which is attached to the test strip, during reception by an RFID reader of a biosensor according to the present invention;

2 a schematic diagram illustrating the transmission of a calibration parameter of a test strip by an RFID chip, which is arranged on a housing of the test strip, while receiving by an RFID reader of a biosensor according to the present invention; and

3 a functional block diagram of a biosensor, which uses a RFID system for the parameter configuration according to the present invention.

DESCRIPTION OF THE PREFERRED EMBODIMENT

To the better understanding and to understand the full function and the structural Features of the invention will be various preferred embodiments presented in the context of the detailed description below.

It There are two types of RFID systems, which are summarized as follows can be: an active system and a passive system. This by the present Invention used RFID system is a passive RFID system since the cost of the RFID chip is lower and as it is better known. One passive RFID chip has no integrated power source, and is thus totally independent of the RFID reader type (magnetic / electric), around the needed Get power supply. Typically, passive RFID chips smaller and lighter than active and cheaper. They are maintenance free and are unlimited.

Referring to 1 Fig. 12 is a schematic diagram for explaining the transmission of a calibration parameter to a test strip by an RFID chip disposed on the test strip while being detected by an RFID reader of a biosensor according to the present invention. In 1 is an RFID chip 21 on at least one test strip 2 attached, by which the of the RFID chip 21 transmitted RF signal through the RFID reader 16 which can be obtained inside the biosensor 1 is arranged. Once the RF signal through the RFID reader 16 is obtained, the result of the detection on a display device 12 issued, the display device 12 a liquid crystal display (LCD) or an array of LEDs. Because the RFID chip 21 and the RFID reader 16 are the components of a passive RFID system, the cost of the test strip will not be high. If a test strip 2 which does not belong to the same production lot of the test strip previously used in the biosensor, becomes the RFID chip in operation 21 on such a test strip 2 output the RF signal to calibrate the parameters of the biosensor so that an accurate test can be performed.

Referring to 2 FIG. 12 is a schematic diagram illustrating the transmission of a calibration parameter of a test strip through an RFID chip disposed on a housing of the test strip during reception by an RFID reader of a biosensor according to the present invention. FIG. The difference between the embodiment according to 1 and the embodiment according to 2 is that the RFID chip 21 according to 2 on the housing 3 a test strip, ie, at the bottom of the test strip housing 3 or somewhere else, on or in the strip housing 3 is arranged. However, this embodiment enables the same functions as that according to FIG 1 ,

Except for the arrangement of the RFID chip on the test strip 2 or on the housing 3 of the test strip, as in 1 and 2 can be seen, the RFID chip can also be arranged on the leaflet, which is known in the art and is not excluded from the invention.

Referring to 3 becomes a functi 1 is a block diagram of a biosensor using an RFID system for parameter configuration according to the present invention. In 3 the biosensor uses 1 a radio frequency identification system or RFID system for parameter configuration, comprising: a micro-processor 11 , a storage unit 15 , a display device 12 , a power supply unit 14 , a test strip interface 13 , an RFID chip 4 with calibration parameters of the biosensor 1 which are stored therein, and an RFID reader 16 which is inside the biosensor 1 for receiving the RF signals from the RFID chip 4 is arranged while the RF signals to the micro-processing device 11 to be sent to it for performing a calibration operation on the biosensor 1 release. In a preferred embodiment, the calibration parameters include magnification, intercept, etc.

As in the 1 to 3 As can be seen, the present invention relates to a biosensor with an RFID reader which is arranged in the biosensor and whose corresponding test strip has an RFID chip, which is arranged on the packaging thereof, in which a calibration parameter is applied to the test strip can be transmitted through the RFID chip and received by the RFID reader while the received parameter is sent to a micro-processor of the biosensor to enable the same to perform a calibration operation on the biosensor so that the complicated parameter configuration procedure can be avoided; which is commonly used by the known biosensor, and thus the biosensor of the invention is not only easy to operate and can be calibrated quickly, but also requires no code card. In addition, the biosensor of the invention is capable of performing multiple analytical observations on physiological fluids, eg, blood tests or urine tests for measuring sugar, urea, cholesterol, calcium, pyruvate, serum bilirubin, etc.

While that preferred embodiment The invention has been set forth as the object of the disclosure Modifications of the disclosed embodiment of the invention as well as other embodiments for one Professional possible. the accordingly, the pending Claims provided around all these embodiments which does not reflect the spirit and scope of the Invention.

In summary The present invention relates to a biosensor which a radio frequency identification system or an RFID system for parameter configuration which uses a micro-processing device, a memory unit, a display device, a power supply device, a test strip interface, a RFID chip with calibration parameters of the biosensor contained therein stored, and includes an RFID reader, which is inside the biosensor arranged to receive the RF signals of the RFID chip is while the received RF signals sent to the micro-processor to enable it to perform a calibration operation on the biosensor.

Claims (6)

A biosensor using an RFID system for parameter configuration, comprising: a micro-processor ( 11 ); a storage unit ( 15 ); a display device ( 12 ); a power supply device ( 14 ); a test strip interface ( 13 ); an RFID chip ( 21 ) with calibration parameters of the biosensor ( 1 ) stored therein; and an RFID reader ( 16 ), which is inside the biosensor ( 1 ) for receiving the RF signals of the RF chip ( 21 ), while the received RF signals are applied to the micro-processing device ( 15 ) to enable them to perform a calibration operation on the biosensor ( 1 ). Biosensor according to claim 1, characterized in that the RFID chip ( 21 ) is a passive RFID chip. Biosensor according to claim 1, characterized in that the RFID chip ( 21 ) is arranged at a position which is selectable from the group of the following: on a test strip ( 2 ) and / or on a packaging of the test strip ( 2 ) and / or on an instruction leaflet of the test strip ( 2 ). Biosensor according to claim 1, characterized in that that each calibration parameter is the increase and / or increase and / or a detection. Biosensor according to claim 1, characterized in that the biosensor ( 1 ) used a test selected from the group of analytical tests on a physiological fluid comprising: a glucose test, a urea test, a urine test, a saliva test, a sweat test, a cholesterol test, a calcium test, a pyruvate test, a bilirubin test. Biosensor according to claim 1, characterized gekenn records that the display device ( 12 ) is a device selectable from the following group, comprising: a liquid crystal display (LCD) and / or an array of LEDs.