A plasma power limiter fabricated using wafer-level fabrication techniques with other circuit elements. The power limiter includes a signal substrate having a first side and a second side, an input signal line formed on the first side, a signal transmission line formed on the second side and an output signal line formed on the first side. The power limiter also includes a ground substrate having a first side and a second side, and being bonded to the signal substrate to form a sealed cavity including an ionizable gas therebetween. The ground substrate includes a ground metal layer formed on the second side. A signal propagating on the input signal line at a power level greater than a threshold power level generates a voltage potential across the cavity that ionizes the gas and generates a plasma discharge, and limits power of the output signal coupled to the output signal line.

A plasma power limiter fabricated using wafer-level fabrication techniques with other circuit elements. The power limiter includes a signal substrate having a first side and a second side, an input signal line formed on the first side, a signal transmission line formed on the second side and an output signal line formed on the first side. The power limiter also includes a ground substrate having a first side and a second side, and being bonded to the signal substrate to form a sealed cavity including an ionizable gas therebetween. The ground substrate includes a ground metal layer formed on the second side. A signal propagating on the input signal line at a power level greater than a threshold power level generates a voltage potential across the cavity that ionizes the gas and generates a plasma discharge, and limits power of the output signal coupled to the output signal line.

A radio frequency (RF) transmission line is described. The RF transmission line includes a first ground line, a second ground line, and a signal line disposed on a substrate and forming a coplanar waveguide. A plasma limiter feature is integrated into an internal surface of one or more of the first ground line, the second ground line, and the signal line. The plasma limiter decreases a gap distance between the signal line and the associated ground line. The gap distance is selected, together with a gas pressure, to control a voltage at which the gas within the gap breaks down, targeted at a breakdown power of 1 W across a wide bandwidth. The plasma limiter thus limits a power transmitted by way of the RF transmission line for protecting a sensitive integrated circuit.

A radio frequency (RF) transmission line is described. The RF transmission line includes a first ground line, a second ground line, and a signal line disposed on a substrate and forming a coplanar waveguide. A plasma limiter feature is integrated into an internal surface of one or more of the first ground line, the second ground line, and the signal line. The plasma limiter decreases a gap distance between the signal line and the associated ground line. The gap distance is selected, together with a gas pressure, to control a voltage at which the gas within the gap breaks down, targeted at a breakdown power of 1 W across a wide bandwidth. The plasma limiter thus limits a power transmitted by way of the RF transmission line for protecting a sensitive integrated circuit.

A protection circuit configured to protect delicate electronics from high power signals is disclosed herein. To that end, the protection circuit includes a limiter circuit comprising a phase changing material to prevent high power signals from reaching one or more electronic circuits. The phase changing material assumes a limiting state automatically when an energy of an applied signal exceeds a threshold, which limits the energy of the signal passed on to any associated electronics.

A protection circuit configured to protect delicate electronics from high power signals is disclosed herein. To that end, the protection circuit includes a limiter circuit comprising a phase changing material to prevent high power signals from reaching one or more electronic circuits. The phase changing material assumes a limiting state automatically when an energy of an applied signal exceeds a threshold, which limits the energy of the signal passed on to any associated electronics.

The present disclosure provides an electronic device, and a radio-frequency device and a signal transmission component thereof. The signal transmission component is operable in an operating frequency band and applied in a radio frequency device having a signal connector and a radio frequency circuit. The signal transmission component includes a signal transmission line and an electrostatic protection unit. The signal transmission line is disposed between the signal connector and the radio frequency circuit. The electrostatic protection unit is electrically connected to the signal transmission line, and includes a connecting end and a grounding end. An impedance of the electrostatic protection unit is greater than an impedance of the signal transmission line. An electrical length is defined between the connecting end and the grounding end, and the electrical length is less than of a wavelength corresponding to a lowest operating frequency within the operating frequency band.

The present disclosure provides an electronic device, and a radio-frequency device and a signal transmission component thereof. The signal transmission component is operable in an operating frequency band and applied in a radio frequency device having a signal connector and a radio frequency circuit. The signal transmission component includes a signal transmission line and an electrostatic protection unit. The signal transmission line is disposed between the signal connector and the radio frequency circuit. The electrostatic protection unit is electrically connected to the signal transmission line, and includes a connecting end and a grounding end. An impedance of the electrostatic protection unit is greater than an impedance of the signal transmission line. An electrical length is defined between the connecting end and the grounding end, and the electrical length is less than of a wavelength corresponding to a lowest operating frequency within the operating frequency band.

A protection circuit configured to protect delicate electronics from high power signals is disclosed herein. To that end, the protection circuit includes a limiter circuit comprising a phase changing material to prevent high power signals from reaching one or more electronic circuits. The phase changing material assumes a limiting state automatically when an energy of an applied signal exceeds a threshold, which limits the energy of the signal passed on to any associated electronics.

The present disclosure provides an electronic device, and a radio-frequency device and a signal transmission component thereof. The signal transmission component is operable in an operating frequency band and applied in a radio frequency device having a signal connector and a radio frequency circuit. The signal transmission component includes a signal transmission line and an electrostatic protection unit. The signal transmission line is disposed between the signal connector and the radio frequency circuit. The electrostatic protection unit is electrically connected to the signal transmission line, and includes a connecting end and a grounding end. An impedance of the electrostatic protection unit is greater than an impedance of the signal transmission line. An electrical length is defined between the connecting end and the grounding end, and the electrical length is less than of a wavelength corresponding to a lowest operating frequency within the operating frequency band.