US 20050034983 A1
The invention relates to a sensor adapted for electrical connection to a power source having an electrical contact means (3). The sensor has a first insulating substrate (1) carrying a first electrode (2) and a second insulating substrate (7) carrying a second electrode (6). The electrodes are disposed to face each other in spaced apart relationship, sandwiching a spacer (4) therebetween. A first cut-out portion extends through the first insulating substrate (1) and a spacer (4) to expose a first contact area (23) on the second insulating substrate (7). This permits the electrical contact means (31) to effect electrical connection with the first contact (23) which in turn is in electrically conductive connection with the second electrode (6). A similar contact arrangement may be disposed on the opposite side of the sensor.
1. A sensor adapted for electrical connection with a power source having a contactor, the sensor comprising:
a first insulating substrate carrying a first electrode and a second insulating substrate carrying a second electrode, said electrodes being disposed to face each other in spaced apart relationship, a first cut-out portion extending through said first insulating substrate and a spacer to expose a first contact area on the second insulating substrate to permit the contactor to effect electrical connection with the first contact area disposed on the second insulating substrate, the first contact area being in electrically conductive connection with the second electrode.
This application is a continuation application of International Patent Application No. PCT/AU98/00184, internationally filed 20 Mar. 1998, and claiming priority from Australian Provisional Patent Application No. PO 5813, filed 21 Mar. 1997.
This invention relates to disposable electrochemical sensors of the type used for quantitative analysis, for example, of glucose levels in blood, for pH measurement, or the like. More particularly the invention relates to means for electrical connection of such sensors to a measuring apparatus.
U.S. Pat. No. 5,437,999 discloses an electrochemical sensor of the kind which in use is electrically connected with a power source. The sensor is constructed from two spaced apart printed circuit boards each having a metal layer on one side and disposed so that the metal layers are facing each other in spaced apart relationship. The metal layers are photolithographically treated to define electrode areas which form part of a cell. At one end of the assembly the electrode substrates are cut to provide laterally spaced protruding tabs bearing the metal layer. The exposed metal surfaces of the tabs act as contact pads, each contact pad being electrically connected with a corresponding electrode. The contact pads in turn engage contact prongs connected to a power source and provide electrical connection between the sensor and a power source.
The arrangement of U.S. Pat. No. 5,437,999 suffers from the disadvantages that the substrate is required to be of considerable rigidity in order to ensure satisfactory and reliable electrical contact. Moreover the user is often left uncertain as to whether a sensor has satisfactorily been connected with the power source.
In co-pending applications PCT/AU96/00207, PCT/AU96/00365, PCT/AU96/00723 and PCT/AU96/00724 there are described various very thin electrochemical cells. Each cell is defined between facing spaced apart electrodes which are formed as thin metal coatings (for example sputter coatings) deposited on thin inert plastic film (for example 100 micron thick PET). The electrodes are separated one from the other by a spacer of thickness of for example 500 μm or less.
The connection arrangement of U.S. Pat. No. 5,437,999 is not suitable for use with the extremely thin sensor devices of the kind discussed in our co-pending applications in view of the flexibility of the insulating electrode carriers. In general, it is desirable that the disposable sensor be capable of simple, quick, reliable and effective connection with the power source in the measuring device by unskilled users. It is an object of the present invention to overcome or ameliorate at least one of the disadvantages of the prior art, or to provide a useful alternative.
According to a first aspect, the invention provides a sensor adapted for electrical connection with a power source having first contact means, the sensor comprising:
a first insulating substrate carrying a first electrode and a second insulating substrate carrying a second electrode, said electrodes being disposed to face each other in spaced apart relationship,
a first cut-out portion extending through said first insulating substrate and a spacer to expose a first contact area on the second insulating substrate to permit a first contact means to effect electrical connection with the first contact area disposed on the second insulating substrate, the first contact area being in electrically conductive connection with the second electrode.
The first contact area may be maintained at a predetermined depth from the first insulating substrate.
According to a second aspect, the invention provides a sensor according to the first aspect further comprising a second cut-out portion extending through said second insulating substrate and the, or another, spacer to expose a second contact area on the first insulating substrate to permit a second contact means to effect electrical connection with a second contact area disposed on the first insulating substrate, the second contact area being in electrically conductive connection with the first electrode.
The second contact area may be maintained at a predetermined depth from the second insulating substrate.
According to a third aspect, the invention also provides a sensing system comprising a sensor according to the first or second aspects and a sensing apparatus including a first contact means and/or second contact means adapted to effect electrical contact with the first and second contact areas respectively.
“Comprising” as herein used is used in an inclusive sense, that is to say in the sense of “including” or “containing.” The term is not intended in an exclusive sense (“consisting of” or “composed of”).
In preferred embodiments the insulating substrate is made of a flexible insulating material. The second electrode and the first contact area are formed from a unified layer of metal deposited on the first substrate, and more preferably deposited by being sputter coated thereon. Suitable metals include, but are not limited to palladium, gold, platinum, iridium, and silver. Carbon may also be used. Desirably the contactor is a metal contactor which is resiliently biased to extend through the first cut-out portion to make contact with the metal first contact area on the second substrate. In highly preferred embodiments the contactor is adapted for click engagement with the cut-out portion which extends through the first insulating substrate and the spacer.
With a connector according to the current invention the spacer layer provides extra strength. A rigid connector can therefore be formed using flexible materials. This allows a wider range of materials to be utilized. An audible confirmation of connection can also be simply provided by the current invention unlike the connector described in U.S. Pat. No. 5,437,999.
The invention will now be described by way of example only with reference to the accompanying drawings in which:
With reference to FIGS. 1 to 3 there is shown a first embodiment of an electrochemical sensor. The sensor comprises a polyester spacer 4 approximately 25 mm×5 mm and 100 microns thick and having a circular aperture 8 of 3.4 mm diameter. Aperture 8 defines a cylindrical cell wall 10. Adhered to one side of spacer 4 is a first insulating substrate polyester sheet 1 having a first coating of palladium 2. The palladium was sputter coated on sheet 1 at between 4 and 5 millibar pressure in an atmosphere of argon gas to give a uniform coating thickness of about 100-1000 angstroms. Sheet 1 is adhered by means of adhesive 3 to spacer 4 with palladium coating 2 adjacent spacer 4 and covering one side of aperture 8.
A second insulating substrate 7 consists of a polyester sheet having a second sputter coating 6 of palladium adhered by means of contact adhesive 5 to the other side of spacer 4 and covering the opposite side of aperture 8. There is thereby defined a cell having cylindrical side wall 10 and closed at one cylinder end by a first electrode of palladium metal 2. The other cylinder end wall is a second electrode formed from palladium 6. The assembly is notched at 9 to provide a means for admission of a solution to the cell, and to allow air to escape.
Adjacent one end 20 a cut-out aperture 21 pierces first insulating layer 1 and first metal layer 2. In the present example cut-out 21 is oval-shaped. A corresponding cut-out portion 22 in spacer 4 is in registration with cut-out 21.
In the embodiment shown in
Resilient connectors 31 and 32 are arranged in a slot 30 of the measuring device and are electrically connected in a measuring circuit. In use, the sensor is inserted into slot 30 with edge 20 leading. The first resilient contactor 31 rides over the end margin of the sensor 1 until it encounters first aperture 21, 22 whereupon it click engages with the opening and makes electrical contact with the first contact area 23 of metal layer 6. Slight additional insertion of sensor 1 in slot 30 causes the second contactor 32 to click engage with the second aperture 25, 26 and make contact with second contact area 27 of metal layer 2.
Spacer 4 surrounds both apertures and ensures that, despite the intrinsic flexibility of the insulating layers and the thinness of the sensor, electrical contact can be made with reliable precision.
A second embodiment of the invention is shown in
Although in the embodiment shown in
A third embodiment is shown schematically in
It will be understood that both construction materials and dimensions are given merely by way of example and that sensors of a differing design or construction may utilize the invention. One, two or more than two contacts may be provided by the means shown. The invention extends to include a power source or measuring device when connected to a sensor by the means described. Any suitable form of contactor may be used with sensors according to the invention.