Assembly for Checking the Functionality of a Measuring Object

Abstract

The invention is an assembly for checking the functionality of a measuring object, that is a DUT, in a medical implant or at least one part of the medical implant. The assembly comprises a test signal generator, a test module that is connected to the test signal generator. The assembly has a first receiving structure with at least one contact electrode, into which an adapter rigidly connects to the DUT in a releasable manner which is inserted to form least one electrical contact. A control and analysis unit is connected to the test signal generator and to the test module in a wired or wireless manner.

Claims

1-14. (canceled)

15. An assembly for testing functionality of a DUT (Device Under Test) comprising a medical implant or a part thereof comprising: a) a test signal generator; b) a test module connected to the test signal generator comprising a first receiving structure including at least one contact electrode, into which an adapter is rigidly and releasably connected to the DUT by insertion into the first receiving structure, to form at least one electrical contact between the at least one contact electrode and the DUT; and c) a control and analysis unit, connected to the test signal generator and the test module by a wireless or wired connection.

16. An assembly according to claim 15, wherein the test module comprises a second receiving structure spatially fixed from the first receiving structure and into which an additional electrical component is inserted to provide contactless interaction with the DUT which supplies at least one of electrical energy and signal transmission to the DUT.

17. An assembly according to claim 16, wherein the additional electrical component comprises at least one of an induction coil and a signal antenna.

18. An assembly according to claim 16, wherein the control and analysis unit is connected with the additional electrical component by a wireless or a wired connection.

19. An assembly according claim 15, wherein the first receiving structure comprises at least one contact surface which is brought into contact with the adapter and on which at least one counter-electrode comprising a contact is located, which in a state when the adapter module is inserted into the first receiving structure, forms an interlocked or frictional contact with the counter-electrode of the adapter module.

20. An assembly according to claim 19, wherein the adapter comprises a third receiving structure with at least one contact electrode into which the DUT is inserted to form at least one electrical contact between the adapter and the DUT.

21. An assembly according to claim 20, wherein the third receiving structure comprises at least one contact surface configured to contact the DUT and on which at least one counter-electrode comprising a contact is located and when the DUT is inserted into the third receiving structure, contact is made with the counter-electrode of the DUT to provide a frictional and an interlocked contact.

22. An assembly according to claim 19, wherein the at least one contact electrode and counter-electrode comprises a plug-socket.

23. An assembly according to claim 21, wherein at least one of the at least one contact electrode and the at least one counter-electrode comprises a spring loaded, deflectable contact pin.

24. An assembly according to claim 15, wherein the DUT comprises one of: an electrical circuit board of a medically active implant; an electrical circuit board with electrical input and output leads; and a medical implant with at least one electrical contact assembly.

25. An assembly according to claim 24, wherein the medical implant is an implantable pulse generator.

26. An assembly according to claim 15, wherein the test generator generates ECG signals.

27. An assembly according to claim 20, wherein the third receiving structure within the adapter module is matched to the DUT, and further comprises at least two adapter modules each having different third receiving structures which are each insertable into the first receiving structure of the module.

28. An assembly according to claim 15, comprising means for performing diagnosis and updating a medical implant with a software update.

29. An assembly according to claim 17, wherein the control and analysis unit is either in wireless or in wired connection with the additional electrical component.

30. An assembly according claim 16, wherein the first receiving structure comprises at least one contact surface which contacts the adapter and on which at least one contact electrode comprising a contact is located and when the adapter is inserted into the first receiving structure, the module is interlocked in frictional contact with a contact electrode of the adapter.

31. An assembly according claim 17, wherein the first receiving structure comprises at least one contact surface which contacts the adapter and on which at least one contact electrode comprising a contact is located and when the adapter is inserted into the first receiving structure, the module is interlocked in frictional contact with a contact electrode of the adapter.

32. An assembly according to claim 20, wherein the at least one contact electrode and the at least one counter-electrode is a plug and socket.

33. An assembly according to claim 21, wherein the at least one contact electrode and the at least one counter-electrode is a plug and socket.

34. An assembly according to claim 16, wherein the DUT comprises one of: an electrical circuit board of a medically active implant; an electrical circuit board with electrical input and output leads; and a medical implant with at least one electrical contact assembly.

Description

BRIEF DESCRIPTION OF THE INVENTION

[0035] As an example, the invention will be described below, without restricting the general inventive concept, by way of examples of embodiment with reference to the drawings:

[0036] FIG. 1 shows an overview of an assembly for checking functionality;

[0037] FIG. 2 shows different embodiments of a DUT;

[0038] FIG. 3 shows a receiving structure with spring-loaded contact pins;

[0039] FIG. 4 shows an adapter module; and

[0040] FIG. 5 shows a receiving structure with socket contacts.

WAYS OF IMPLEMENTING THE INVENTION, INDUSTRIAL APPLICABILITY

[0041] FIG. 1 shows an overall view of an assembly for checking the functionality of a measuring object, DUT (Device Under Test) comprising a test signal generator 1, a test module 2, a control and analysis unit 3, which is connected to the test module 2 by way of an electrical additional component 4, for the purpose of energy and signal exchange. The core element is the test module 2, which comprises a first receiving structure 5, into which a DUT to be checked can be directly or indirectly rigidly inserted and electrically contacted in a releasable manner.

[0042] The assembly according to the invention is for checking the functionality and assuring the quality of a medical implant during and after its manufacturing. Illustrated in FIG. 2 are typical DUTs, showing a medical implant in different manufacturing forms. FIG. 2a shows a first manufacturing stage for the assembly of a medical implant in the form of an electrical circuit board 6 with electrical/electronic components 7 arranged thereon. FIG. 2b shows a subsequent second expansion stage, with a grommet plate 8, through which the electrical conductors 9 are fed and fixed and are each at one end connected to contact points 10 on the circuit board 6. FIG. 2c shows an enclosure 11, which surrounds the circuit board 6 as well as the grommet plate 8, preferably in a fluid-tight manner. Preferably the enclosure 11 is in the form of a hardened epoxy resin mass or metal housing, e.g. titanium housing. FIG. 2d shows a finished medical implant 12 that also has a head part 13 that in the example of embodiment comprises two sockets 14 along which contact electrodes are arranged that are connected to the electrical conductors 9. Plugs that end in a fluid-tight manner with the head part 13 and are connected with intracorporeally located electrodes are inserted into the sockets 14.

[0043] For checking the functionality of the individual expansion stages of a medical implant 12 in accordance with the differently designed DUT illustrated in FIGS. 2a to d, the test module 2 shown in FIG. 1 has a first receiving structure 5, contained in a recess 16 within the test module 2 with at least one contact surface 15 and contact electrodes 17 arranged thereon.

[0044] To carry out the measurement, for example of the circuit board illustrated in FIG. 2a as the DUT, test signals, for example ECG signals are generated by the test signal generator 1. A cable connection 18 running between the test signal generator 1 and the test module 2 transmits the ECG signals to the DUT which are arranged indirectly in the first receiving structure 5 by an adapter module.

[0045] For this, the receiving structure 5 provided in the test module 2, is designed so that adapter modules 23, matched in a counter-contoured manner to the first receiving structure 5, is inserted as shown in FIG. 4. Every adapter module 23 has a uniform joining contour 24 for insertion and electrical contacting within the first receiving structure 5 of the test module 2. Depending on the DUT to be checked, each adapter 23 has differently finished third receiving structures 25. The DUTs, which are different in shape and size, can always be inserted into respective third receiving structures 25 in an interlocking manner, and, if necessary, also to be frictionally fitted. The DUTs are contacted with contact electrodes 25 suitably provided on the adapter module 23.

[0046] For the electrical contacting of the adapter module spatially fixed within the first receiving structure 5, at least some of the contact electrodes 17 provided within the recess 16 come into electrical contact with counter-electrodes 20 present on the adapter module. FIG. 3 shows a possible implementation of the contact electrodes 17 arranged on the test module 2 in the form of spring-loaded contact pins 19, which come into contact with counter-electrodes 20 applied on the underside of the adapter module 23.

[0047] Depending on the electrical component configuration of the DUT, the test signal generator 1 also supplies electrical energy to the DUT to be checked via the cable connection 18.

[0048] The test module 2 also comprises a second receiving structure 21 configured as a drawer-like recess as shown in FIG. 1 into which the electrical additional component 4, preferably as one of an induction coil and antenna arrangement, via which electrical energy and measuring signals can be contactlessly transferred.

[0049] Optionally, the control and analysis unit 3 is directly connected to the test module 2. See cable connection 22′, or the electrical additional component 4 in FIG. 1. See cable connection 22 in FIG. 1. Via the respective cable connection 22, 22′ in FIG. 1, the measuring signals picked up by the contact electrodes 17 will be transmitted to the control and analysis unit 3. Also, the DUT can be supplied with electrical energy via the cable connection 22, 22′.

[0050] For the purpose of electrical contacting of the DUT within an adapter module 23, there are, for example, at least one of the spring-loaded contact pins 19 illustrated in FIG. 3 and the contact electrodes, each in the form of a socket connection as shown in FIG. 5. FIG. 5 shows an adapter module 23, comprising socket contacts 25 shown in FIG. 4, into which the plug contacts 27 of a DUT can be inserted. The third receiving structure 25 of the adapter module 23 makes force-actuated insertion of the DUT into the adapter module 23 along the force in direction F possible.

[0051] In principle, no limits are set on the forms of embodiment for producing both the first and the third receiving structure 5, 25.

LIST OF REFERENCE NUMBERS

[0052] 1 Test signal generator [0053] 2 Test module [0054] 3 Control and analysis unit. [0055] 4 Electrical additional component [0056] 5 First receiving structure [0057] 6 Electrical circuit board [0058] 7 Electrical/electronic component [0059] 8 Grommet plate [0060] 9 Electrical conductors [0061] 10 Contacts [0062] 11 Enclosure [0063] 12 Medical implant [0064] 13 Head part [0065] 14 Socket [0066] 15 Contact surface [0067] 16 Recess [0068] 17 Contact electrodes [0069] 18 Cable connection [0070] 19 Contact pin [0071] 20 Counter-electrode [0072] 21 Second receiving structure [0073] 22, 22′ Cable connection [0074] 23 Adapter module [0075] 24 Joining contour [0076] 25 Third receiving structure [0077] 26 Socket [0078] 27 Plug contact pin