Abstract: A method and apparatus controlling the output phase of a VCO (Voltage Controlled Oscillator). The apparatus has a phase locked loop 20 having a first input 21 for receiving a reference signal and a second input 22 for receiving a feedback signal and the output for controlling of a VCO. A phase shifter 50 is provided on the feedback path between the VCO and the second input of the phase locked loop. The phase shifter is arranged for shifting the phase for feedback signal by controlled amount. The phase shifter may be a variable phase shifter for controlling and varying the amount by which the phase feedback signal is shifted.

Abstract: Embodiments of the invention relate to a lighting control console for controlling a lighting system, wherein digital control commands are generated in the lighting control console and can be transmitted via data links to the lighting devices of the lighting system, and wherein the lighting control console includes at least one housing, in which the hardware components are arranged with protection against external influences, and wherein the lighting control console includes a plurality of operating elements, particularly keys, slide controls and/or rotary controls, which are arranged on the upper side of the housing and may be used for entering operating commands, and wherein the lighting control console includes at least one display device on which a user interface can be displayed.

Abstract: A semiconductor integrated circuit includes an n-channel spin FET including one of a magnetic tunnel junction and a magneto-semiconductor junction, the n-channel spin FET including a gate terminal to receive an input signal, a source terminal to receive a first power supply potential, and a drain terminal connected to an output terminal, a p-channel FET including a gate terminal to receive a clock signal, a source terminal to receive a second power supply potential, and a drain terminal connected to the output terminal, a subsequent circuit connected to the output terminal, and a control circuit which turns on the p-channel FET to start charging the output terminal, then turns off the p-channel FET to end the charging, and supplies the input signal to the gate terminal of the n-channel spin FET.

Abstract: An integrated circuit (IC) includes self-calibrating programmable digital logic circuitry. The IC includes at least one programmable digital logic cell, wherein the first programmable digital logic cell provides (i) a plurality of different accessible circuit configurations or (ii) a voltage level controller. A self-calibration system is provided that includes at least one reference device, a measurement device for measuring at least one electrical performance parameter that can affect a processing speed of the first programmable digital logic cell or at least one parameter that can affect the electrical performance parameter using the reference device to obtain calibration data. A processing device maps the calibration data or a parameter derived therefrom to generate a control signal that is operable to select from the plurality of different accessible circuit configurations or a voltage level output to change the processing speed of the programmable digital logic cell.

Abstract: Embodiments of a circuit for use with an inter-chip connection that has a variable complex impedance (which can be conductive, capacitive or both), a system that includes the circuit, and a communication technique are described. This inter-chip connection may be formed between a microspring or an anisotropic film and a metal connector on or proximate to a surface of a chip. Moreover, the circuit may mitigate signal distortion associated with the variable complex impedance. For example, the circuit may include an internal impedance that is electrically coupled in series with the metal connector, and that has an impedance which dominates the variable complex impedance over a range of operating frequencies. Separately or additionally, the circuit may be adapted to correct for the signal distortion.

Abstract: An RESURF region is formed so as to surround a high-potential logic region with an isolation region interposed therebetween, in which a sense resistance and a first logic circuit which are applied with a high potential are formed in high-potential logic region. On the outside of RESURF region, a second logic circuit region is formed, which is applied with the driving voltage level required for driving a second logic circuit with respect to the ground potential. In RESURF region, a drain electrode of a field-effect transistor is formed along the inner periphery, and a source electrode is formed along the outer periphery. Furthermore, a polysilicon resistance connected to sense resistance is formed in the shape of a spiral from the inner peripheral side toward the outer peripheral side.

Abstract: Systems and methods for increasing the frequency range of an output signal generated by a VCO, where one or more variable delay units are incorporated into an interpolative VCO to decrease the minimum frequency at which the VCO oscillates. In one embodiment, the VCO includes a ring of serially connected inverters, a set of bypass circuits and a set of variable delay units. The bypass circuits are coupled to the ring of serially connected inverters to bypass one or more of the serially connected inverters when enabled. Each variable delay unit delays signal transitions at the input of a corresponding one of the serially connected inverters by a variable amount. The variable delay units may be positioned in series with the ring of inverters, in parallel with the bypass paths, or in parallel with corresponding inverters in the ring of inverters.

Abstract: A current source and a method for designing the current source are provided. The current source is designed by a recursive rule and enables controllable delay lines to provide linear delay and occupy smaller area than conventional controllable delay lines with thermometer code current sources do.

Abstract: Circuits, methods, and apparatus for dynamic control of source and termination impedances. One output stage provides a series termination when transmitting and a parallel termination when receiving data. A pull-up device has a nominal impedance of 50 ohms when the output stage pulls a pin from a low voltage to a high voltage, while a pull-down device has a nominal impedance of 50 ohms when the pin is pulled from a high voltage to a low voltage. Both the pull-up and pull-down devices are turned on when receiving data. Due to their non-linear current-voltage characteristics, the pull-up device appears as 50 ohms when the pin voltage is higher than one half the supply voltage, while the pull-down device appears as 50 ohms when the pin voltage is lower than one half the supply voltage. The pull-up and pull-down devices can be calibrated to provide a nominal 50 ohm impedance.

Abstract: A common-mode voltage controller for adjusting common-mode voltages between a first buffer and a second buffer at a subsequent stage or a preceding stage of the first buffer in a signal transmission circuit, comprising: a first reference voltage generation unit for generating a common-mode voltage corresponding to the first buffer; a second reference voltage generation unit for generating a common-mode voltage corresponding to the second buffer at the subsequent stage or the preceding stage; and a control signal generation unit for generating a control signal for controlling a common-mode voltage of the first buffer according to a difference voltage between an output of the first reference voltage generation unit and an output of the second reference voltage generation unit, and giving the control signal to the first buffer and first reference voltage generation unit.

Abstract: An integrated circuit includes a programmable logic device, a dedicated device, and an interface circuit between the two. The interface circuit can be easily modified to accommodate the different interface I/O demands of various dedicated devices that may be embedded into the integrated circuit. In one embodiment, the interface circuit may be implemented using a plurality of mask programmable uni-directional interface buffer circuits. The direction of any desired number of the interface buffer circuits can be reversed based on the needs of a desired dedicated device by re-routing the conductors in the interface buffer circuits in a single metal layer of the integrated circuit. In another embodiment, the interface circuit may be implemented using a hardware configurable bi-directional interface buffer circuit.

Abstract: A thin-film logic circuit, which can be fabricated entirely of TFTs of the same conductivity type, includes a logic stage connected to a supply voltage and a level shifter connected to a wider voltage range provided by the supply voltage and ground. The logic circuit produces output signals with full rail-to-rail signal range from ground to the supply voltage and can implement or include a basic logic component such as an inverter, a NAND gate, or a NOR gate or more complicated circuits in which many basic logic components are cascaded together. Such logic circuits can be fabricated directly on flexible structures or large areas such as in flat panel displays.

Abstract: First and second devices may simultaneously communicate bidirectionally with each other using only a single pair of LVDS signal paths. Each device includes an input circuit and a differential output driver connected to the single pair of LVDS signal paths. An input to the input circuit is also connected to the input of the driver. The input circuit may also receive an offset voltage. In response to its inputs, the input circuit in each device can use comparators, gates and a multiplexer to determine the logic state being transmitted over the pair of LVDS signal paths from the other device. This advantageously reduces the number of required interconnects between the first and second devices by one half.

Abstract: A source of radiation comprises a first low frequency oscillator 200 for providing a reference signal and a plurality of phase shifters 210a, 210b, 210c coupled to the first oscillator. In addition there are a plurality of phase locked loops 230a, 230b, 230c, each phase locked loop having a respective Voltage Controlled Oscillator (VCO) 240a, 240b, 240c for outputting a signal. Each phased locked loop is coupled to a respective one of the phase shifters, so that in use each VCO is phase locked to a reference signal which has been phase shifted by a respective one of the phase shifters. In this way the phase of the radiation output by each VCO may be controlled indirectly by controlling the phase shift of the reference signal. In a preferred embodiment the phase shifters are adjustable to shift the phase by an adjustable amount.

Abstract: Techniques are provided for controlling on-chip termination (OCT) impedance using OCT calibration blocks that serially transmit OCT control signals to input/output (IO) blocks. The OCT control signals are serially transmitted through a shared conductor. An OCT calibration block can transmit OCT control signals to one or multiple IO blocks. The IO blocks can be programmed to select OCT control signals from one of the calibration blocks. Enable signals enable one or more of the IO blocks to receive the selected OCT control signals. The OCT control signals are used to control the on-chip termination impedance at one or more IO buffers.

Abstract: An embodiment of a low-to-high-level voltage translator is proposed. This translator translates the low voltage swing signals for the core into high voltage swing signals of the I/O blocks. This translator may be particularly useful for high-speed application where the difference between the core and the I/O supply voltage is very large, e.g., the core is working at 0.8V and the I/O is working at 3.6V or higher without little or no static power dissipation. The proposed translator may give improved transition times and propagation delays as compared to conventional translators. The proposed translator may also use less hardware in comparison to other such translators.

Abstract: An energy saving control 40 for a fluorescent light which is easily installed in an existing merchandising machine 10 and a method of retrofitting the energy saving control for a fluorescent light into an existing merchandising machine.

Abstract: A phase-locked loop circuit having a dual-reference input and a phase detector. The dual-reference input is configured to accept both a rising edge of an input clock having a first phase and a falling edge of the input clock having a second phase. The phase detector is coupled to the dual-reference input and is configured to produce a center phase signal based upon and centered in phase between the first and second phases. The phase detector is further configured with a feedback loop to adjust any tracking error and provide a tracking output signal. The phase detector system maintains both a high tracking bandwidth and a bounded jitter amplification based as a result of the dual reference signal. The high tracking bandwidth and the bounded jitter amplification are independent of an applied loop gain.

Abstract: Capacitive node isolation circuitry in an integrated circuit eliminates the creation of hot spots (stored charge) on high capacitive nodes during a test of electrostatic discharge (ESD) protection circuitry of the integrated circuit or during any ESD event occurring while the integrated circuit is in a standby mode. The isolation circuitry includes a standby mode logic circuit responsive to a standby mode signal received at one of its inputs and provides an output signal to a gate of an active switching device located in a path between an external pin of the integrated circuit and the internal high capacitive node. The output signal keeps the active switching device turned off for the duration of the ESD test or ESD event. The standby mode logic circuit transparently passes an input logic signal to the active switching device whenever the integrated circuit is in a normal operating mode.

Abstract: A bus-based logic block for an integrated circuit includes a provision for placing an arbitrary constant onto a data bus in the logic block. An exemplary logic block has multi-bit first and second inputs and a multi-bit output. The logic block includes a multi-bit multiplexer circuit, a multi-bit programmable logic circuit, and a constant generator circuit. The multiplexer circuit has a multi-bit first input coupled to a multi-bit first input of the logic block, a multi-bit second input, and a multi-bit output. The programmable logic circuit has a multi-bit first input coupled to the output of the multiplexer circuit, and a multi-bit output. The constant generator circuit has a multi-bit output coupled to the second input of the multiplexer circuit. Each bit of the logic block may be commonly controlled with all other bits of the logic block.