Abstract: A phase comparator includes an edge detecting unit to which a reference signal is input and to which a referred signal based on the reference signal is input as a feedback signal. The edge detecting unit detects an edge of the reference signal and an edge of the referred signal. The phase comparator also includes a phase-difference detecting unit that detects a phase difference between the edge of the reference signal and the edge of the referred signal. The phase comparator also includes a phase-difference-signal output unit that outputs a phase-difference signal for current control based on the phase difference. The phase comparator also includes an input-break detecting unit that detects an input break of the reference signal when an edge of the referred signal is again detected after an edge of the referred signal is detected and before an edge of the reference signal is detected.

Abstract: An edge-missing detector structure includes a first detector, a first delay unit, a first logic gate, a second detector, a second delay unit, and a second logic gate. After being input separately into the edge-missing detector structure, a first reference signal and a first clock signal are detected by the first and second detectors and then subjected to cycle suppression by the first and second logic gates, respectively, so as to generate a second reference signal and a second clock signal which present a phase difference less than 2?. Moreover, the edge-missing detector structure generates a compensative current corresponding to the number of occurrences of cycle suppression. Thus, a phase-locked loop (PLL) using the edge-missing detector structure can avoid cycle slip problems and achieve fast acquisition of phase lock.

Abstract: A multi-mode PLL frequency synthesizer of a wireless multi-mode transceiver is provided which includes a reference frequency source providing an oscillator signal with a constant reference frequency, a first frequency synthesizer subunit for converting the signal into carrier signals with frequencies in the range of a first frequency band, a second frequency synthesizer subunit for transforming the oscillator signal into carrier signals having frequencies in the range of a second frequency band, and a third frequency synthesizer subunit for converting the oscillator signal into an auxiliary signal with a fixed frequency. The auxiliary signal is used together with the carrier signals of the second frequency band to generate carrier signals with frequencies in the range of a third and fourth frequency band.

Abstract: A signal presence detection device has a first reference voltage generation device in the form of a first voltage divider, a second reference voltage generation device in the form of a second voltage divider and a third reference voltage generation device in the form of a third voltage divider. The detection device also has a signal conditioning device such as a hysteretic amplifier with an output that is coupled to the first and second voltage dividers. A comparison device is coupled to all three voltage dividers to compare a voltage of the first voltage divider to a voltage of the third voltage divider and to compare a voltage of the second voltage divider to the voltage of the third voltage divider. The comparison device is coupled at two outputs thereof to two respective inputs of an XOR device. The XOR device receives respective signals from the first and second outputs of the comparison device and produces a signal presence output that serves to indicate whether an incoming signal is present or absent.

Abstract: In order to provide a high frequency clock detection circuit capable to detect a high frequency clock using any period as a threshold, the high frequency clock detection circuit of the present invention includes a delay circuit having a delay time set to be longer than a clock period corresponding to the irregular high frequency state, a first flip-flop circuit for delay flip-flopping according to the clock signal and for being provided with the inverted and feedback inputted output from the first flip-flop circuit, a second flip-flop circuit for delay flip-flopping according to the clock signal and for being provided with the inverted and feedback inputted output from the second flip-flop circuit through the delay circuit, and a detection-result output circuit for detecting a difference between the output signal from the first flip-flop circuit and the output signal from the second flip-flop circuit and for providing the function circuit with the high frequency clock detection signal indicating the irregular

Abstract: A digital circuit is disclosed for detecting clock activity in an integrated circuit (IC) device. In one implementation, a clock detection circuit can include two flip flops. A first flip flop detects activity on the clock being tested (e.g., the flip flop is set when a positive clock edge is detected). A second flip flop is coupled to the output of first flip flop and is operable by an enable signal to sample the output of the first flip flop. The output of the second flip flop is asserted as active, when a positive clock edge occurs between the release of the reset signal on the first flip flop and the assertion of the enable signal on the second flip flop. In some implementations, one or more additional flips can be interposed between the first and second flips to control metastability.

Abstract: A method to detect a missing a clock pulse is provided. The method begins by providing a clock signal and a delayed clock signal. The delayed clock signal is then sampled to generate a sample of the delayed clock signal. A missing clock pulse may be detected if the sample of the delayed clock signal does not equal an expected value of the delayed clock signal.

Abstract: An AC differential connection assembly between a trans-impedance amplifier and a post amplifier for burst mode receiving comprising means for coupling a differential output of the trans-impedance amplifier to a differential input of the post amplifier, the means for coupling comprises a coupling capacitor assembly; and a switching circuit coupled across the differential input of the post amplifier, the switching circuit having an ‘on’ state with low impedance and an ‘off’ state with high impedance; wherein during burst mode receiving, the switching circuit is in the ‘off’ state and the coupling capacitor assembly having a time constant to maintain a stable DC level such that a payload is received accurately by the differential input of the post amplifier; and during an idle period, the switching circuit is in the ‘on’ state and the coupling capacitor assembly having a time constant to recover a DC level of the differential output of the trans-impedance amplifier.

Abstract: A method and system is provided for clock input mode selection. When a signal provided on one of two clock input terminals is received, the received signal is considered in connection with a second input signal in order to determine whether the first input signal and the second input signal satisfy a pre-determined condition. Based on whether the pre-determined condition is met, a clock input mode is selected that indicates whether the clock input terminals provide a differential clock input or a single-ended digital clock input.

Abstract: An oscillation detection circuit according to the present invention has a differential circuit by a bipolar transistor where oscillation output of an oscillation circuit is inputted; a capacitance element that is connected to an output terminal of this differential circuit and charges or discharges in response to potential of the output terminal; and a detection circuit that detects a desired oscillation state of an oscillation signal terminal based on potential of this capacitance element.

Abstract: A phase/frequency locked loop (PLL) includes circuitry adapted to detect missing pulses of a reference clock and to control the phase bump of the PLL. The circuitry includes, in part, first and second flip-flops, as well as a one-shot block. The first flip-flop has a data input terminal responsive to a voltage supply, and a clock terminal responsive to an inverse of feedback clock. The second flip-flop has a data input terminal responsive to an output of the first flip-flop, and a clock terminal responsive to the inverse of the feedback clock. The one-shot block generates a pulse in response to a rising edge of the reference clock that is used to generate the feedback clock. The one-shot block generates an output signal applied to a reset terminal of the first flip-flop.

Abstract: A system and method is disclosed for providing communication of an over-current protection signal and current mode control signals between a controller chip and a power chip in an integrated circuit device that comprises a plurality of integrated circuit chips. The controller chip sends pulse width modulation signals and a reference current signal to the power chip. Current flow status detection circuitry in the power chip detects a current flow status in the power chip and provides a current flow status signal to the controller chip. The current flow status signal may comprise an over-current protection signal or current mode control signals. One advantageous embodiment of the invention comprises a switch mode power supply integrated circuit.

Abstract: An apparatus is provided for detecting the loss of an input clock signal for a phase-locked loop (PLL). The apparatus includes a time delay circuit, a first frequency divider and a digital logic circuit. The time delay circuit receives the input clock signal and outputs a first time-delayed clock signal. The first frequency divider receives an input signal from an internal clock of the PLL and outputs a clock signal having the same frequency or a lower frequency than that of the time-delayed clock signal. The digital logic circuit that receives the first frequency divider output signal and the first time-delayed clock signal and outputs a signal indicating the loss of the input clock signal if there is no first time-delayed clock signal for a cycle of the first frequency divider output signal.

Abstract: A frequency sensor includes at least one a resistor element and a capacitor. A frequency is detected according to a charging/discharging time to/from the capacitor, thereby realizing a frequency sensor with reduced power consumption and reduced circuit scale. Further, plural resistors and plural capacitors can be provided, along with switches connected to the respective resistors and capacitors. Additionally, a time constant can be adjusted after production, whereby variations in production can be reduced. Furthermore, a self-diagnosis circuit can be included for determining whether the frequency sensor itself operates normally or not. Thus, a highly-reliable frequency sensor can be realized.

Abstract: A clock monitor system for monitoring an input clock signal in an integrated circuit (IC) includes a clock failure detection circuit and a delay circuit. The clock failure detection circuit generates a control signal based on the input clock signal. The delay circuit is connected to the clock failure detection circuit and provides a clock status signal based on the control signal. The clock status signal indicates whether the input clock signal is operating correctly. The delay circuit provides the clock status signal to the IC after a predetermined number of input clock cycles.

Abstract: A method and a device for equalizing mode selection are disclosed. The method comprises steps of: providing first sampling pulses in response to an equalized signal; providing second sampling pulses lagging behind the first sampling pulses for a pre-determined phase shift for sampling the equalized signal; establishing a first observing window and a second observing window according to the first sampling pulses and the second sampling pulses, so as to determine whether each of a plurality of equalizing modes is good or bad; and selecting one equalizing mode among the plurality of equalizing modes.

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: It is intended to provide a signal detection circuit and a signal detection method capable of preventing influences of variations in transistor characteristics, occurrence of yield degradations of the signal detection circuit and capable of detecting differential input signals at high speed. The signal detection circuit 4 comprises an amplifier section 1, a comparator section 2, and an output section 3. Differential input signals and differential reference voltages are differential-amplified by differential amplifiers 10, 11 of identical circuit structure provided in the amplifier section 1. The relationship of degree between differential input signals and differential reference voltages after differential amplification are compared in comparators 12 and 13 of the comparator section 2.

Abstract: A system and a method are presented for detecting the presence of at least one clock signal of a defined clock frequency applied to at least one input port of an integrated circuit system, wherein the a first number M of clock pulses related to the at least one clock signal within a predefined cycle period is counted and the counted first number M of clock pulses is compared with a reference number. Depending on the result of the comparison the presence of the at least one clock signal is detected or not.

Abstract: A method to detect a missing a clock pulse is provided. The method begins by providing a clock signal and a delayed clock signal. The delayed clock signal is then sampled to generate a sample of the delayed clock signal. A missing clock pulse may be detected if the sample of the delayed clock signal does not equal an expected value of the delayed clock signal.

Abstract: A microcontroller integrated circuit with a clock controller and a processor automatically switches the source of the clock signal that clocks the processor from a failed fast external precision oscillator to a slow internal backup oscillator, then enables a fast internal precision oscillator, and finally switches to the fast internal precision oscillator. A failure detection circuit within the clock controller detects a failure of the external precision oscillator and sends an associated interrupt signal to the processor. The clock controller decouples the external oscillator from the processor and couples the backup oscillator to the processor. The microcontroller integrated circuit then enables the fast internal precision oscillator, decouples the backup oscillator, and couples the fast internal precision oscillator to the processor.

Abstract: This invention offers a signal-off detection circuit allowing arbitrary setting of an issuing time (response time) of a signal disconnection alarm without being affected by a time constant of a direct current feedback circuit giving an offset voltage to an amplifier for amplifying a data signal. Input data signals per a fixed time determined by a timer is counted by a counter, and a count value is compared with a predetermined set value in a comparator. A configuration is made such that a signal disconnection alarm may be issued by detecting a disconnection state of the data signal according to a comparison result. Thereby, an issuing time of a signal disconnection alarm can be set without being affected by a time constant of a direct current feedback circuit giving an offset voltage to an amplifier for amplifying a data signal of a preceding stage.

Abstract: According to the IEEE1394 bus protocol, priority is given to isochronous data packets. Data transfer is done in transfer cycles under the control of a cycle master. It depends on the allocated bandwidth for isochronous data how much transport capacity is available in a transfer cycle. To managed the mixed data transfer in one cycle it is specified that the bus nodes not having isochronous data to transfer need to wait with their transmission requests until the end of the isochronous data transfers in the cycle indicated with a sub-action gap. The invention aims to improve the efficiency of data transport for the case that none of the bus nodes need to transfer isochronous data. The data link layer devices according to the invention includes means for checking whether isochronous data is to be transferred and if not they switch over to a no cycle master state, in which the local cycle synchronization events are ignored.

Abstract: A loss-of-signal (LOS) detector includes a variable gain amplifier with an input receiving an input signal, a threshold comparator with a first input receiving a signal derived from an output of the variable gain amplifier, a second input receiving a reference level and an output providing a loss-of-signal indication signal. The variable gain amplifier has a gain control input receiving a gain control signal derived from the output of the threshold comparator and such that the gain of the variable gain amplifier is set to a lower value when the loss-of-signal indication signal is active, and set to a higher value when the loss-of-signal indication signal is not active. Accordingly, the LOS detector needs only one decision level for both of the LOS and NotLOS decisions, which is set in the linear range of the signal detector so that the hysteresis is reproduced precisely.

Abstract: Methods and apparatus are disclosed for transitioning a receiver from a first state to a second state using an in-band signal over a differential serial data link.

Abstract: According to some embodiments, a presence indication associated with an attachment is provided.

Abstract: An envelope detector system is disclosed for detecting an envelope in a system input signal. The envelope detector system includes an input node for receiving an input voltage signal, a transconducting amplifier for receiving the input voltage signal and producing an input current signal, a current mirror network for receiving the input current signal and for producing a current output signal, a capacitor for receiving the current output signal, and a rectifier output node for providing a rectifier output current signal. The capacitor is coupled to an input of the transconducting amplifier. The rectifier output current signal is fed into the current-mode wide-dynamic-range peak detector. The peak detector produces the envelope detector output current signal.

Abstract: The invention refers to a circuit device (1) with at least one connection (3b), to which a clock pulse (/CLK, /CLKT) can be applied, whereby the circuit device (1) also comprises a clock pulse detection facility (2) for detecting whether there is a clock pulse (/CLK, /CLKT) present at the connection (3b), or whether there is no clock pulse (/CLK, /CLKT) present at the connection (3b).

Abstract: A wavelength tunable mode-locked laser system including a complex laser cavity comprising a broadband reflective mirror at one end and a wavelength chirped selective mirror at the other end. The system further includes a gain element and a low finesse Fabry-Perot etalon element inside the laser cavity. The gain element may be a semiconductor laser chip, with a broadband high reflection coating at one end and a partially reflecting coating at its other end. The gain element has a well-defined length, such that its longitudinal modes match a required optical frequency grid. The system also includes an active modulation element applied externally on said complex laser cavity to provide mode-locking of a specific cavity length among said defined predetermined cavity lengths, such that all possible optical frequencies emitted by the laser system are stabilized to the linear grid dictated by the Fabry-Perot longitudinal modes, that could be in accordance with the International Telecommunications Union Standards.

Abstract: Embodiments of the present invention describe methods and apparatuses for detecting signal loss in circuits such as a phase-locked loop (PLL). In one embodiment a PLL is equipped with detection logic to detect loss of a reference clock provided to the PLL and a feedback clock generated by the PLL.

Abstract: An oscillation detecting apparatus for detecting oscillation of a signal includes a high pass filter for generating an alternating current signal from which a direct current component of the signal is removed, a slicing circuit for generating a limit signal which results from restricting an amplitude level of the alternating current signal to a level lower than a predetermined level, an integration circuit for integrating a waveform of the limit signal during a predetermined period, and a comparator for detecting whether or not the signal oscillates based on a value of the waveform integrated by the integration circuit.

Abstract: A clock signal detection circuit is provided that can reliably detect whether or not a clock signal is supplied with a reduced circuit scale and reduced power consumption.

Abstract: The invention is directed to an apparatus and a method for generating a fault detection signal when a differential signal is in a fault condition. The fault condition arises when the data transmission path in a differential signaling device is either open, shorted, or terminated by an abnormal means, and is such that the inputs are within the valid common-mode range and a valid differential signal cannot be obtained. The invention is buffered from the differential signal source, and an intermediate signal is produced in response to the differential signal. Portions of the intermediate signal are compared to a reference signal, and based on the comparisons, fault condition control signals are produced. A fault detection signal is produced when two fault condition control signals indicate the presence of a fault. The fault detection signal is made available for invocation of a failsafe state.

Abstract: A clock monitoring apparatus according to the invention including a main clock monitoring portion including a first counter for counting a main clock, issuing a normal operation confirming flag indicating that a normal operation is being carried out when the first counter is overflowed or reaches a previously determined set value, monitoring the normal operation confirming flag by a sub clock, issuing a first main clock stop flag having an output in correspondence with H (high level)/L (low level) of the normal operation confirming flag and a main clock initializing signal for initializing the main clock when the main clock is determined to stop and resetting the first main clock stop flag when the main clock is recovered by receiving the main clock initializing signal, and a sub clock switching control portion including a second counter for counting a signal output produced by calculating a logical sum of the sub clock and the first main clock stop flag at fall of the sub clock at a time point of generating

Abstract: In one aspect, an embodiment provides a clock loss sense and switchover circuit and method in which clock switchover is responsive to loss of a primary signal and to additional switch command signaling. In another aspect, an embodiment provides a clock loss sense circuit and method that utilizes counters and reset signals to compare a primary clock and secondary clock signal.

Abstract: A circuit for sensing the presence of an inductive load that is particularly applicable to sensing when a solenoid is being driven by a pulse width modulation (PWM) signal. The circuit includes a high side connected transistor having an output driving a load, with the transistor driven by a PWM signal. A circulating diode is coupled to the driving output of the transistor. The circuit further comprises an operational amplifier (op amp) circuit that is coupled to the circulating diode and operates as an inverting operational amplifier (op amp). The op amp circuit charges a first capacitor when the transistor releases driving an inductive load.

Abstract: A lock detection method for generating a lock signal including providing a data signal and a clock signal to a clock detection unit, the data signal being describable by an eye pattern, the data signal and the clock signal being in lock when a data transition occurs in the center of a first transition period.

Abstract: A microcomputer is provided, which eliminates the need of input of a selection signal to select whether an external oscillator element is connected to generate an internal clock signal or an external clock signal is inputted to generate an internal clock signal. In this microcomputer, a delay circuit generates a delayed reset signal from an external reset signal to have a specific delay period. An external clock signal detection circuit detects an external clock signal at a second terminal, outputting a detection signal. An oscillation control signal generation circuit generates an oscillation control signal for an amplifier circuit, where the oscillation control signal is generated corresponding to a detection signal outputted from an external clock signal detection circuit. The oscillation control signal is used to activate the amplifier when the external clock signal does not exist at the second terminal and to inactivate the amplifier when the external clock signal exists at the second terminal.

Abstract: A test circuit receives a plurality of internal test signals and delivers a group of the plurality of internal test signals onto a bus during an idle state of the bus. The bus is coupled to output pins so that the group of internal test signals can be used in debugging operations. The test circuit may include a multiplexing circuit that receives the plurality of internal test signals as inputs and that delivers a selected group of the internal test signals as outputs. The test circuit may also include a switch that couples the selected group of the internal test signals onto the bus during an idle state.

Abstract: One embodiment of the present invention provides a system for detecting a valid clock signal at a clock receiver. The system operates by receiving a clock signal at the clock receiver, and directing the clock signal into a control input of a voltage-controlled variable resistor. Next, the system uses the voltage-controlled variable resistor to control a first current. A current mirror is then employed to create a second current from the first current. This second current passes through a resistor to produce a control voltage, which is amplified to produce a validity signal indicating whether or not the clock signal is valid. In one embodiment of the present invention, the system additionally uses at least one capacitor to filter out periodic fluctuations in the validity signal.

Abstract: A clock detect indicator capable of determining the presence of high and low frequency clock signals is provided. The clock detect indicator, which operates independent of a reference clock, has detection circuitry that determines whether a particular clock signal has alternating high-to-low and low-to-high transitions. Based on the determination, the clock detect indicator outputs a transition on a clock detect indication signal. Further, a method for detecting a clock signal in an integrated circuit is provided.

Abstract: An integrated multi-processor system with clusters of processors on a high speed split transaction bus uses a transaction acknowledge (TACK), by a target device in response to receiving a request from a master device on the bus. The master and target devices connect to the bus via a global bus interface with FIFO registers acting as buffers, and the target interface includes a TACK generator that flips the state of the global bus' TACK line upon determining that a broadcast request is addressed to its target device. A bus idle default device (BIDD) generates a TACK signal when no device is on the bus, and also detects the absence of any TACK response by monitoring the state of the TACK line, thereby indicating that a master device bus attempted to address a nonexistent target a device. The BIDD then generates a dummy response for the requesting master device with data flags set to invalid data.

Abstract: The invention provides a method of coding an information signal. An information signal is represented by a sequence of pulses. A plurality of pulse parameters are determined based on the sequence of pulses including a non-zero pulse parameter corresponding to a number of non-zero pulse positions in the sequence of pulses. The non-zero pulse parameter is coded using a variable-length codeword.

Abstract: A method for detecting dropouts in digital data transferred over a bus from a digital data source to a computer system. Each address in the computer system buffer memory is initialized to a selected code value known not to exist in the data to be transferred. After sequential transfer of data to the buffer memory, the presence of the selected code value in the buffer memory indicates that a dropout occured.

Abstract: A clock interruption detection circuit comprises a frequency divider circuit for outputting a plurality of frequency divided clocks by dividing an input clock with different division values, an AND circuit for ANDing the input clock and the plurality of frequency divided clocks, an inverter for inverting one of the frequency divided clocks with the largest division value, another AND circuit for ANDing the input clock, the rest of the frequency divided clocks and the output of the inverter, a first and a second switch with a control terminal supplied with the output of each of the AND circuits for controlling the on/off of a discharge path of a first and a second capacitor, a first and a second waveform-shaping buffer circuit supplied with a terminal voltage of the first and the second capacitor, and a selection circuit for selecting one of the outputs of the first and second waveform-shaping buffer circuits in accordance with a selection control signal obtained by delaying the output of the inverter by a pre

Abstract: An integrated circuit includes secure logic that requires protection. Secure assurance logic protects the secure logic. The secure assurance logic includes a plurality of protection modules that monitor the occurrence of insecure conditions. Each protection module monitors a different type of insecure condition. Each protection module asserts an alarm signal when an associated insecure condition is detected. The alarm signals asserted by the plurality of protection modules are stored.

Abstract: An approved demodulator is disclosed for demodulating optical ASK data signals whose data bits are each characterized by either an absence of pulses or a burst of pulses at a predetermined frequency. The demodulator includes an amplifier tuned to this predetermined frequency, and it further includes an edge detector that produces an envelope of the amplified signal. A comparator then compares the envelope signal with a prescribed threshold, to produce a pulse signal for each received burst of pulses. The duration of this pulse signal is then stretched so as to correspond to the pulse burst's expected nominal duration. The demodulator is specially configured such that it can properly demodulate ASK data signals having power levels that vary over a range of several orders of magnitude.

Abstract: A circuit for detecting a state of at least one electrical actuating element is described. The circuit has a signal input for receiving an input signal representing the state of the actuating element, a signal output for emitting an output signal representing the state of the actuating element, a control output for emitting an activation signal for an evaluation unit, to change over the evaluation unit from an inactive operating state to an active operating state, and a control unit. The control unit is connected to the signal input on the input side and to the control output on the output side and serves for generating the activation signal in a manner dependent on the input signal. The input signal at the signal input is an analog signal, the control unit generating the activation signal for the evaluation unit if the input signal lies within a predetermined range.

Abstract: A programmable timing circuit on an integrated circuit chip for testing the cycle time of functional circuits on the chip. The timing circuit includes a selectable input having at least two sources, one of which is a toggle circuit; a minimally delayed control path including a control latch; a programmable delay path in parallel with the control path and including a sample latch; and a comparator for comparing the state of the control latch and sample latches to provide a signal indicative of the delay path being longer than the control path. A plurality of configuration latches and multiplexers are provided for selecting the input source and routing an input signal through specific delay blocks to control the amount of delay in the delay path.

Abstract: A data decoder for decoding digital data in a high frequency signal in an optical storage device. A carrier signal derived from the high frequency passed through a zonal bandpass filter and a limiter is multiplied by the high frequency signal passed through a high pass filter. The resulting product is filtered and passed through a comparator forming a digital data stream.