A low-power clock generation circuit has a phase generator that receives an input clock signal and uses the input clock signal to generate multiple intermediate clock signals with different phase shifts, a phase rotator circuit that outputs phase-adjusted clock signals, a frequency doubler circuit that receives a plurality of the phase-adjusted clock signals and outputs two frequency-doubled clock signals having a 180° phase difference, and a quadrature clock generation circuit that receives the two frequency-doubled clock signals and provides four output signals that include in-phase and quadrature versions of the two frequency-doubled clock signals.

Disclosed are a Miller Clamp protection circuit, a driving circuit, a driving chip and an intelligent IGBT module, which are connected to a device to be driven. The Miller Clamp protection circuit comprises a main driving circuit configured to provide a driving signal; a Miller switch configured to reduce a voltage glitch; a Miller switch control circuit configured to automatically control an on and off of the Miller switch according to an intermediate signal of the main driving circuit. The main driving circuit is connected to a power supply, the Miller switch control circuit, one end of the Miller switch and the device to be driven, and another end of the Miller switch is grounded.

Embodiments of the present invention provide for a core stage in an application-specific integrated circuit core which drives both a clock pulse signal and a clock pulse negative/complement signal concurrently, thereby resulting in perfectly aligned signals. The core stage can include a pulse generator, a clock distribution circuit, and a set of latches.

Embodiments of the present invention provide for a core stage in an application-specific integrated circuit core which drives both a clock pulse signal and a clock pulse negative/complement signal concurrently, thereby resulting in perfectly aligned signals. The core stage can include a pulse generator, a clock distribution circuit, and a set of latches.

A differential voltage-to-time converter (VTC) architecture and method of providing VTC signals are disclosed. The VTC includes a ramp generator that generates a ramp voltage, capacitors having a bottom plate coupled with the ramp generator to receive the ramp voltage, and inverters having inputs coupled to top plates of the capacitors to provide signals based on a sampled signal. A threshold voltage or supply voltage of the inverters tracks a minimum input signal voltage.

A differential voltage-to-time converter (VTC) architecture and method of providing VTC signals are disclosed. The VTC includes a ramp generator that generates a ramp voltage, capacitors having a bottom plate coupled with the ramp generator to receive the ramp voltage, and inverters having inputs coupled to top plates of the capacitors to provide signals based on a sampled signal. A threshold voltage or supply voltage of the inverters tracks a minimum input signal voltage.

Embodiments herein relate to optimizing the operation of multiple integrated circuits (ICs) operating in parallel. In one aspect, the ICs are arranged in a voltage-stacked configuration, and an operating frequency of each IC is controlled using a tunable replica circuit to stabilize its voltage drop. The tunable replica circuit mimics a critical path on the IC. In another aspect, an IC is divided into top and bottom portions which are in respective voltage domains on a substrate. The substrate include a deep n-well region for the higher voltage domain. In another aspect, a physically unclonable function (PUF) is used to generate identifiers for each IC among a multiple ICs on a board. Entropy sources of the PUF generate bits of the identifiers. Unstable entropy sources are identified and their bits are masked out.

Embodiments herein relate to optimizing the operation of multiple integrated circuits (ICs) operating in parallel. In one aspect, the ICs are arranged in a voltage-stacked configuration, and an operating frequency of each IC is controlled using a tunable replica circuit to stabilize its voltage drop. The tunable replica circuit mimics a critical path on the IC. In another aspect, an IC is divided into top and bottom portions which are in respective voltage domains on a substrate. The substrate include a deep n-well region for the higher voltage domain. In another aspect, a physically unclonable function (PUF) is used to generate identifiers for each IC among a multiple ICs on a board. Entropy sources of the PUF generate bits of the identifiers. Unstable entropy sources are identified and their bits are masked out.

An oscillating analog signal includes a succession of dampened oscillations. That oscillating analog signal is conditioned to generate an output signal including only oscillations of the oscillating analog signal which have an amplitude smaller than a first threshold. The output signal is then processed by a processing unit, where the first threshold is compatible with a maximum level of voltage tolerable by the processing unit.

An oscillating analog signal includes a succession of dampened oscillations. That oscillating analog signal is conditioned to generate an output signal including only oscillations of the oscillating analog signal which have an amplitude smaller than a first threshold. The output signal is then processed by a processing unit, where the first threshold is compatible with a maximum level of voltage tolerable by the processing unit.