Biosensor with rf signal transmission
First Claim
1. A device (1) comprising a sensor element (5, 31, 32, 33, 71) having biomolecular binding sites (5a) for a biomolecule (6a), characterised in that the device (1) comprises:
- a remote power transmission element (3, 101), a resonance circuit, said resonance circuit comprising an resonance frequency determining sensor element (5, 31, 32,) or being electrically coupled to a resonance frequency determining sensor element (33, 71), wherein binding at the binding sites (5a) effects a physical property (R, L, C, mass) of the sensor element (5, 31, 32, 33, 71) and thereby the resonance frequency (f), and a circuit for RF communication of an RF signal (RF) in dependence of the resonance frequency of the resonance circuit.
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Accused Products
Abstract
A device (1) and method for measuring and or detecting the presence of biomolecules. The device comprises a resonance circuit arranged to operate and emit a resonance frequency (f). The resonance circuit comprises or is coupled to a sensor element (5) for detecting the binding of biomolecules (6a) to binding sites (5a). The binding of the biomolecules changes a physical property (R, L, C. mass) of the sensor element (5), which in it'"'"'s turn, either directly when the sensor element forms part of the resonance circuit, or via a coupling of the sensor element to the resonance circuit, the resonance frequency. The change in the resonance frequency is detected. The device comprises a remote power transmission element, such as a photodiode or coil, for providing power to the resonance circuit using light or RF radiation respectively.
44 Citations
13 Claims
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1. A device (1) comprising a sensor element (5, 31, 32, 33, 71) having biomolecular binding sites (5a) for a biomolecule (6a), characterised in that the device (1) comprises:
- a remote power transmission element (3, 101), a resonance circuit, said resonance circuit comprising an resonance frequency determining sensor element (5, 31, 32,) or being electrically coupled to a resonance frequency determining sensor element (33, 71), wherein binding at the binding sites (5a) effects a physical property (R, L, C, mass) of the sensor element (5, 31, 32, 33, 71) and thereby the resonance frequency (f), and a circuit for RF communication of an RF signal (RF) in dependence of the resonance frequency of the resonance circuit.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 12)
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9. A method for detecting biomolecules in samples using a device (1) comprising a sensor element (5, 31, 32, 33, 71) having biomolecular binding sites (5a) for a biomolecule, characterised in that a sensor device is used comprising a remote power transmission element (3), a resonance circuit comprising an resonance frequency determining sensor element (5, 31, 32), or being electrically coupled to a resonance frequency determining sensor element (33, 71), wherein binding at the bonding sites effects a physical property of the sensor element (5, 31, 32, 33, 71) and thereby the resonance frequency, and a circuit for RF communication of an RF signal in dependence of the resonance frequency, the method comprising the steps of:
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a) Binding a target to binding sites of the sensor element b) Remotely sending power to the remote power transmission element for powering the biosensor device c) recording the RF signal emitted by the circuit for RF communication. - View Dependent Claims (10, 11)
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13. A reader station comprising:
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a power transmitting element for transmitting power to a biosensor device;
an antenna and a receiver for receiving of signals to be wirelessly transmitted from the biosensor device to the reader station with a transmitting frequency, and an analyser for analysing the transmitting frequency of the signal of the biosensor device or the change thereof with respect to a calibration frequency.
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Specification