A varainductor includes a signal line over a substrate. The varainductor further includes a first ground plane over the substrate. The varainductor further includes a first floating plane over the substrate, wherein the first floating plane is between the first ground plane and the signal line, and the first floating plane is a same distance from the substrate as the first ground plane. The varainductor further includes a first transistor configured to selectively electrically connect the first ground plane to the first floating plane. The varainductor further includes a second transistor configured to selectively electrically connect the first ground plane to the first floating plane, wherein a gate of the first transistor is connected to a gate of the second transistor.

A timepiece with a mechanical movement which includes an indicator mechanism of at least one time data item, a mechanical resonator forming a mechanical oscillator which paces the running of the indicator mechanism, and a regulation device to prevent a potential time drift in the running of the indicator mechanism. The regulation device is formed by a master oscillator and a mechanical braking device of the mechanical resonator, this mechanical braking device being arranged to be able to apply periodically to the mechanical resonator braking pulses at a braking frequency determined by the master oscillator. The system, formed of the mechanical resonator and the mechanical braking device, is configured so as to enable the mechanical braking device to be able to start the braking pulses at any position of the mechanical resonator. The braking pulses have a duration less than one quarter of a set-point period.

A timepiece with a mechanical movement which includes an indicator mechanism of at least one time data item, a mechanical resonator forming a mechanical oscillator which paces the running of the indicator mechanism, and a regulation device to prevent a potential time drift in the running of the indicator mechanism. The regulation device is formed by a master oscillator and a mechanical braking device of the mechanical resonator, this mechanical braking device being arranged to be able to apply periodically to the mechanical resonator braking pulses at a braking frequency determined by the master oscillator. The system, formed of the mechanical resonator and the mechanical braking device, is configured so as to enable the mechanical braking device to be able to start the braking pulses at any position of the mechanical resonator. The braking pulses have a duration less than one quarter of a set-point period.

A RF antenna or sensor comprising substrate with at least a pair of resonators bonded thereto, whereon a first one of the at least a pair of resonators is coated with a magnetostrictive film and a second one of the at least a pair of resonators is not coated with a magnetostrictive film. The resonators are preferably connected to sustaining circuits to form oscillators and the oscillators a preferably used within a phase lock loop to detect the magnetic component of an incident RF field with a bandwidth determined by the phase lock loop. Also disclosed is a method of making a RF sensor or antenna comprises providing a substrate of a semiconductor material, simultaneously forming two resonators on the substrate, and during the forming of the resonators a resist coating partially covering a first one of the resonators and completely covering a second one of the resonators is applied. Then, a magnetostrictive material is deposited to regions not covered by the resist coating. Thereafter, the resist coating is removed thereby leaving the magnetostrictive material deposited on only one of the two resonators.

A RF antenna or sensor comprising substrate with at least a pair of resonators bonded thereto, whereon a first one of the at least a pair of resonators is coated with a magnetostrictive film and a second one of the at least a pair of resonators is not coated with a magnetostrictive film. The resonators are preferably connected to sustaining circuits to form oscillators and the oscillators a preferably used within a phase lock loop to detect the magnetic component of an incident RF field with a bandwidth determined by the phase lock loop. Also disclosed is a method of making a RF sensor or antenna comprises providing a substrate of a semiconductor material, simultaneously forming two resonators on the substrate, and during the forming of the resonators a resist coating partially covering a first one of the resonators and completely covering a second one of the resonators is applied. Then, a magnetostrictive material is deposited to regions not covered by the resist coating. Thereafter, the resist coating is removed thereby leaving the magnetostrictive material deposited on only one of the two resonators.

A timepiece with a mechanical movement which includes an indicator mechanism of at least one time data item, a mechanical resonator forming a mechanical oscillator which paces the running of the indicator mechanism, and a regulation device to prevent a potential time drift in the running of the indicator mechanism. The regulation device is formed by a master oscillator and a mechanical braking device of the mechanical resonator, this mechanical braking device being arranged to be able to apply periodically to the mechanical resonator braking pulses at a braking frequency determined by the master oscillator. The system, formed of the mechanical resonator and the mechanical braking device, is configured so as to enable the mechanical braking device to be able to start the braking pulses at any position of the mechanical resonator. The braking pulses have a duration less than one quarter of a set-point period.

A timepiece with a mechanical movement which includes an indicator mechanism of at least one time data item, a mechanical resonator forming a mechanical oscillator which paces the running of the indicator mechanism, and a regulation device to prevent a potential time drift in the running of the indicator mechanism. The regulation device is formed by a master oscillator and a mechanical braking device of the mechanical resonator, this mechanical braking device being arranged to be able to apply periodically to the mechanical resonator braking pulses at a braking frequency determined by the master oscillator. The system, formed of the mechanical resonator and the mechanical braking device, is configured so as to enable the mechanical braking device to be able to start the braking pulses at any position of the mechanical resonator. The braking pulses have a duration less than one quarter of a set-point period.