Abstract: A receiver for decoding a communication signal is disclosed. The receiver includes an input port and a filter. The input port receives the communication signal from a communication medium. The communication signal comprises a sequence of symbols. Each symbol of the symbol sequence is an analog pulse that has a leading edge of exponential shape. The exponential shape has an exponential growth parameter value that has been selected from values ?0 and ?1, which are distinct positive values. For each symbol of the symbol sequence, the exponential growth parameter value for the leading edge of the symbol has been selected based on a corresponding bit from a stream of information bits. The filter receives the communication signal from the input port and filters the communication signal to obtain an output signal. The transfer function of the filter has one or more zeros at ?0.

Abstract: A first transmitter transmits symbols. The leading edge of each symbol has the form Djexp{?jt}, where Dj is real, where ?j is selected from N possible values based on a current group of bits. The receiver has N filters whose transfer functions correspond respectively to the N possible values. The filter outputs are used to recover the group of bits. A second transmitter transmits an exponential symbol or a zero symbol depending on a current bit to be transmitted. The zero symbol has zero amplitude over the symbol period. The corresponding receiver applies threshold detection to estimate the transmitted bits. A third transmitter transmits a sequence of analog pulses with known interpulse time separation(s). The pulse sequence reflects from a moving object. A receiver captures the reflected pulse sequence. The interpulse separation(s) of the reflect pulse sequence is used to determine the radial velocity of the object.

Abstract: A compact optically-pumped solid-state laser designed for efficient nonlinear intracavity frequency conversion into desired wavelengths using periodically poled nonlinear crystals. These crystals contain dopants such as MgO or ZnO and/or have a specified degree of stoichiometry that ensures high reliability. The laser includes a solid-state gain media chip, such as Nd:YVO4, which also provides polarization control of the laser; and a periodically poled nonlinear crystal chip such as PPMgOLN or PPZnOLT for efficient frequency doubling of the fundamental infrared laser beam into the visible wavelength range. The described designs are especially advantageous for obtaining low-cost green and blue laser sources. Also described design of the continuously operated laser with an electro-optic element for modulation of the intensity of the laser output at frequencies up to hundred of megahertz. Such modulation is desired for various applications, including compact projectors with high resolution.

Abstract: A circuit for detecting a time skew, including: at least two comparators; a first set of paths respectively connecting a first source of a first signal to said comparators; and a second set of paths respectively connecting a second source of a second signal to said comparators, each comparator detecting a possible skew between said first and second signals.

Abstract: This description relates to an edge detector including a pulse generator configured to generate a first pulse when a first clock and a second clock are at a same logic level and generate a second pulse when the first clock and the second clock are at different logic levels. The edge detector further includes a first RC circuit configured to charge the first pulse and a second RC circuit configured to charge the second pulse. The edge detector further includes a circuitry that, based on a width of the first pulse or of the second pulse, is configured to provide a select signal to select an edge of the second clock for triggering.

Abstract: A method and device detect synchronization errors between logic signals of a group of logic signals. A control word is loaded into a shift register arranged in loop and clocked by resulting logic signals equal to the result of the OR logic function and to the result of the AND logic function applied to the logic signals of the group of logic signals. The value of the control word is monitored as it propagates in the shift register, and a synchronization error signal is sent if the control word changes value. Application in particular for checking the integrity of a clock tree in an integrated circuit.

Abstract: The clock based voltage deviation detector of the present invention includes a pulse module, an indicator module and a correlation module. The pulse module generates a stream of reset pulses as a function of a clock signal. The indicator module generates a pass/fail indicator signal as a function of the reset pulse stream and a difference between an input signal and a reference voltage. The correlation module correlates an event (e.g., overvoltage or undervoltage) of the pass/fail indicator signal with a period of the clock signal at which the event occurred.

Abstract: A light detecting circuit includes a power source circuit, an optoelectronic component, a switch and a Trans Impedance Amplifier (TIA) circuit. The power source circuit provides an electric signal. When the optoelectronic component is biased at a bias voltage, the optoelectronic component generates a corresponding current according to the received light density. The switch has a trigger receiver. After the trigger receiver receives a trigger signal, the switch turns on and the optoelectronic component is biased at the bias voltage. The TIA circuit transforms the corresponding current to a corresponding voltage and then calculates the corresponding voltage to obtain the light density.

Abstract: A circuit for a parity tree is disclosed. In one embodiment, a circuit for a parity tree includes a pull-up circuit, a pull-down circuit, and a cross-couple circuit. The circuit, an XOR/XNOR circuit, includes both an output node and an inverted output node. For a given set of input signals, a pull-up path exists through the cross-couple circuit for one of the output node and the inverted output node, and wherein a pull-down path exists through the cross-couple circuit for the other one of the output node and the inverted output node.

Abstract: An apparatus comprising a first arbiter cell, a second arbiter cell and a selection device. The first arbiter cell may be configured to lock if one or more requests are not resolved within a first predetermined time period. The second arbiter cell may be configured to dominate if the first arbiter cell enters a metastable state. The selection device may be configured to provide arbitration between the first and second arbiter cells within a second predetermined time period.

Abstract: Unlike prior art synchronizers and asynchronous arbiters that produce glitches in their outputs, the present invention provides a failure-free synchronizer that can sample an arbitrary and unstable inputs while maintaining zero probability of system failure. In particular, the invention addresses the synchronization failure problem and the lack of a metastable state in prior art synchronizers. Prior attempts have shown that the conditions rex and rex (where re is the control input and x is the data input) cannot be arbitrated. To overcome this, embodiments of the present invention introduce explicit signals a0 and a1 to hold the values rex and rex, respectively. One embodiment is a fast synchronizer. It has four main components—an input integrator, an inverting component, a SEL component and an output filter. Another embodiment of the present invention is a safe synchronizer that meets the strictest QDI design requirements. Other embodiments use a standard arbiter and a killable arbiter for arbitration.

Abstract: An apparatus comprising a first arbiter cell, a second arbiter cell and a selection device. The first arbiter cell may be configured to lock if one or more requests are not resolved within a first predetermined time period. The second arbiter cell may be configured to dominate if the first arbiter cell enters a metastable state. The selection device may be configured to provide arbitration between the first and second arbiter cells within a second predetermined time period.

Abstract: PMOS transistors P1-Pn and PMOS transistors P1′-Pn′ are respectively connected in series between a supply voltage terminal VD and output terminals OUTB, while NMOS transistors N1-Nn and NMOS transistors N1′-Nn′ are respectively connected in series between the output terminals OUTB and a ground terminal G. Input terminals S1-Sn are respectively connected to the gates of the PMOS transistors P1′-Pn′ and NMOS transistors N1-Nn, and they are respectively connected to the gates of the PMOS transistors P1-Pn and NMOS transistors N1′-Nn′ through corresponding inverters IV1-IVn.

Abstract: An apparatus comprising an arbiter cell and a delay logic circuit. The arbiter cell may be configured to receive a plurality of request signals and provide two or more grant signals. The delay logic circuit may be configured to interface the arbiter cell and force each of the plurality of request signals to be serviced in succession when a metastable state occurs.

Abstract: The present invention provides a new (ATD) address transition detection circuit for use on an address bus having any number of address lines. An ATD circuit is disclosed which comprises a first and second circuit and an interval timer. The first circuit has a first and second input and an output. The first circuit receives, at the first input, a change signal corresponding to transitions in one or more addresses of an address bus. In response, the output of the first circuit transitions from an initial first state to a second state. The first circuit is also responsive to a reset command at the second input to return the output to the first state. The interval timer has an output coupled to the second input of the first circuit and an input. The interval timer responsive to an initialize command at the input initiates a timed interval and after the timed interval generates the reset command at the output. The second circuit has an output coupled to the input of the interval timer and an input.

Abstract: A means and method for testing high speed phase locked loops (13) in an integrated circuit (12) at a test frequency lower than the operation speed of the phase locked loop (13). A test circuit portion (10) repeatedly tests for a zero level (42) of a recover clock signal (34) from the phase locked loop (13) and a latching flip flop (26) is set to provide a lock indication output (30) as long as repeated samples, taken at a test time (38) continue to indicate a zero level (42) of the recover clock signal (34). The test time (38) is the leading edge (40) of a reference clock signal (36) provided from an external source at a reference clock input (28) to the integrated circuit (12).

Abstract: It is an object of the present invention to provide a phase comparator which can compare phase at high speed with simple structure. The phase is compared by a precharge type NAND gate including transistors (Q35-Q37). The result of comparison in the NAND gate is then outputted only in a period in which the input clock CLKref is at "1" by the NAND gate (NA 15), and thus the phase lag of the internal clock CLKint with respect to the input clock CLKref is detected. Phase lead of the internal clock CLKint with respect to the input clock CLKref is compared with interchanged relation of clocks inputted to a phase detecting portion (PD 2). Phase comparison can be made at high speed with a simple circuit including the precharge type NAND gate and the NAND gate (NA 15).

Abstract: A circuit is provided for filtering asynchronous metastability. The circuit includes two or more output lines that provide signals indicative of the assertion of control or data input signals at a plurality of input lines. Despite the simultaneous assertion of two or more input signals, the circuit prevents the simultaneous assertion of more than one output signal, thereby preventing adverse effects within a digital system connected to the circuit.