A clock synchronization signal generator generates a dead time in which gates of both of two switching elements included in a switching circuit are in an off state, and generates the dead time for controlling a plurality of pulses having different widths to pulses having a constant width, which is output by the switching circuit.

Disclosed are methods, systems and devices for distribution of a timing signal among operational nodes of a circuit device comprising one or more circuit dies. In one implementation, a timing signal distribution network may transmit a timing signal to one or more operational circuit nodes formed on a circuit die and a clock circuit may generate a first clock signal for transmission as the timing signal to the one or more operational circuit nodes. A switch circuit may apply a second clock signal for transmission as the timing signal in lieu of the first clock signal if the circuit die is integrated at least one of the one or more other circuit dies. In another implementation, timing signals received at timing signal terminals of at least two of two or more of operational circuit nodes may be synchronized independently of the timing signal distribution network.

Described herein are reduced-power electronic circuits with wide-band energy recovery using non-interfering topologies. A resonant clock distribution network comprises a plurality of resonant clock drivers that receive at least one of a plurality of reference clock signals. An energy saving component is coupled with the plurality of resonant clock drivers. The energy saving component provides for lower energy consumption by resonating with unwanted parasitic capacitance of a load capacitance. The energy saving component and the load capacitance (LC) form a series resonant frequency that is significantly greater than a clock frequency of the plurality of resonant clock drivers, so that output clock signal paths are not interfered with and so that effects on skew are minimized.

In various embodiments, a clock pulse generation circuit may include a combination circuit, a first set-reset (SR) latch, a second SR latch, and a pulse generator. The combination circuit may be configured to generate a set signal based on an external clock signal. The first SR latch may be configured to generate an internal clock signal based on the reset signal and the set signal. The second SR latch may be configured to generate the reset signal based on the external clock signal and a reset pulse signal. The pulse generator may be configured to generate the reset pulse signal based on the internal clock signal. As a result, the clock pulse generation circuit may be configured to prevent the set signal from being asserted when the reset signal is asserted.

Examples provide a system, a phase locked loop, an apparatus, a method and a computer program for generating a clock signal, a transceiver, and a mobile terminal. A system comprises clock generator (10) configured to output provide a clock signal having a predefined average clock rate, a reference signal generator (14) configured to provide a reference signal, and a clock divider (16) configured to divide the reference signal to generate the clock signal, wherein a time difference between a clock cycles and a subsequent clock cycle of the clock signal is irregular.

A clock driver control scheme for a resonant clock distribution network provides robust operation by controlling a pulse width of the output of clock driver circuits that drive the resonant clock distribution network so that changes are sequenced. The clock driver control circuit controls the clock driver circuits in the corresponding sector according to a selected operating mode via a plurality of control signals provided to corresponding clock driver circuits. The pulse widths differ for at least some of the sectors during operation of digital circuits within the integrated circuit having clock inputs coupled to the resonant clock distribution network. The different pulse widths may be a transient difference that is imposed in response to a mode or frequency change of the global clock that provides an input to the clock driver circuits.