A phase change switch device includes a phase change material and a heater device thermally coupled to the phase change material. The heater device is configured to have a first electrical resistance in a first state where current is applied to the heater device for heating the phase change material, and have a second electrical resistance higher than the first electrical resistance in a second state outside heating phases of the heater device.

A semiconductor device according to an embodiment of the present disclosure includes a substrate, a gate electrode layer disposed over the substrate, a gate dielectric layer disposed on the gate electrode layer, a channel electrode layer disposed on the gate dielectric layer, a threshold switching layer disposed on the channel electrode layer, and a source electrode layer and a drain electrode layer that are disposed on the threshold switching layer to be spaced apart from each other.

A layout pattern of a magnetoresistive random access memory (MRAM) includes a substrate having a first cell region and a second cell region and a diffusion region on the substrate extending through the first cell region and the second cell region. Preferably, the diffusion region includes a first H-shape and a second H-shape according to a top view.

A rapid testing read out integrated circuit (ROIC) includes phase-change material (PCM) radio frequency (RF) switches residing on an application specific integrated circuit (ASIC). Each PCM RF switch includes a PCM and a heating element transverse to the PCM. The ASIC is configured to provide amorphizing and crystallizing electrical pulses to a selected PCM RF switch. The ASIC is also configured to determine if the selected PCM RF switch is in an OFF state or in an ON state. In one implementation, a testing method using the ASIC is disclosed.

A rapid testing read out integrated circuit (ROIC) includes phase-change material (PCM) radio frequency (RF) switches residing on an application specific integrated circuit (ASIC). Each PCM RF switch includes a PCM and a heating element transverse to the PCM. The ASIC is configured to provide amorphizing and crystallizing electrical pulses to a selected PCM RF switch. The ASIC is also configured to determine if the selected PCM RF switch is in an OFF state or in an ON state. In one implementation, a testing method using the ASIC is disclosed.

In fabricating a semiconductor device, a shared material is formed in a resonator region of the semiconductor device and in a phase-change material (PCM) switch region of the semiconductor device. A portion of the shared material is removed to concurrently form a heat spreader comprising the shared material in the PCM switch region and a piezoelectric segment comprising the shared material in the resonator region. The piezoelectric segment in the resonator region and the heat spreader in the PCM switch region are situated at substantially the same level in the semiconductor device. The PCM switch region includes a heating element between the heat spreader and a PCM. The resonator region includes the piezoelectric segment between two electrodes.

In fabricating a semiconductor device, a shared material is formed in a resonator region of the semiconductor device and in a phase-change material (PCM) switch region of the semiconductor device. A portion of the shared material is removed to concurrently form a heat spreader comprising the shared material in the PCM switch region and a piezoelectric segment comprising the shared material in the resonator region. The piezoelectric segment in the resonator region and the heat spreader in the PCM switch region are situated at substantially the same level in the semiconductor device. The PCM switch region includes a heating element between the heat spreader and a PCM. The resonator region includes the piezoelectric segment between two electrodes.

A semiconductor chip or system, such as a multi-chip module (MCM), a system-in-package (SiP), and/or a printed circuit board (PCB) module, includes a substrate, a resonator and/or a micro-electrical-mechanical system (MEMS), and a phase-change material (PCM) switch. The PCM switch includes a hearing element, a PCM situated over the heating element, and PCM contacts connected to passive segments of the PCM. The heating element is transverse to the PCM and approximately defines an active segment of the PCM. The PCM contacts are electrically connected to the resonator and/or the MEMS in a shared routing region of the semiconductor chip. The PCM switch is configured to engage or disengage the resonator and/or the MEMS. In one approach, a plurality of PCM switches are capable of reconfiguring an array of resonators and/or an array of MEMS. In another approach, a redundant PCM switch is electrically connected to a redundant resonator and/or a redundant MEMS.

In fabricating a semiconductor device, a shared material is formed in a resonator region of the semiconductor device and in a phase-change material (PCM) switch region of the semiconductor device. A portion of the shared material is removed to concurrently form a heat spreader comprising the shared material in the PCM switch region and a piezoelectric segment comprising the shared material in the resonator region. The piezoelectric segment in the resonator region and the heat spreader in the PCM switch region are situated at substantially the same level in the semiconductor device. The PCM switch region includes a heating element between the heat spreader and a PCM. The resonator region includes the piezoelectric segment between two electrodes.

In fabricating a semiconductor device, a shared material is formed in a resonator region of the semiconductor device and in a phase-change material (PCM) switch region of the semiconductor device. A portion of the shared material is removed to concurrently form a heat spreader comprising the shared material in the PCM switch region and a piezoelectric segment comprising the shared material in the resonator region. The piezoelectric segment in the resonator region and the heat spreader in the PCM switch region are situated at substantially the same level in the semiconductor device. The PCM switch region includes a heating element between the heat spreader and a PCM. The resonator region includes the piezoelectric segment between two electrodes.