A clock recovery device is provided. The clock recovery device includes a clock data recovery circuit and a fast relock circuit. The clock data recovery circuit is configured to generate an output clock signal in response to an input clock signal. The clock data recovery circuit includes a charge pump for generating a control voltage and a voltage controlled block for generating the output clock signal based on the control voltage. The fast relock circuit is configured to convert a comparison signal indicating a comparison result between the input clock signal and the output clock signal to an analog output voltage. When the charge pump is disabled, an output path of the fast relock circuit is turned on, and the analog output voltage is applied to an input of the voltage controlled block.

Techniques and apparatus for detection of a signal at an I/O interface module are described. In one embodiment, for example, an apparatus to provide signal detection may include at least one receiver, at least one memory, and logic for a signal detection module, at least a portion of the logic comprised in hardware coupled to the at least one memory and the at least one receiver, the logic to access a plurality of pulse signals of a clock and data recovery (CDR) circuit, analyze at least one pulse characteristic of the plurality of pulse signals, and generate a signal determination to indicate a signal at the at least one receiver based on the at least one pulse characteristic. Other embodiments are described and claimed.

A clock data recovery (CDR) circuit includes: a band select circuit, a low dropout regulator (LDO), a charge pump and a voltage-controlled oscillator (VCO), wherein the band select circuit is arranged to generate a digital signal according to at least a reference voltage; the LDO is arranged to regulate a ground voltage, wherein the LDO adjusts an operating band of the LDO by receiving at least a part of the digital signal to adjust a bias current of an amplifier of the LDO; the charge pump is arranged to generate a control voltage according to at least a part of the digital signal; and the VCO is arranged to generate a clock signal according to the control voltage, wherein the VCO adjusts an operating band of the CDR circuit by receiving at least a part of the digital signal to adjust a bias current of the VCO.

Techniques and apparatus for detection of a signal at an I/O interface module are described. In one embodiment, for example, an apparatus to provide signal detection may include at least one receiver, at least one memory, and logic for a signal detection module, at least a portion of the logic comprised in hardware coupled to the at least one memory and the at least one receiver, the logic to access a plurality of pulse signals of a clock and data recovery (CDR) circuit, analyze at least one pulse characteristic of the plurality of pulse signals, and generate a signal determination to indicate a signal at the at least one receiver based on the at least one pulse characteristic. Other embodiments are described and claimed.

A communication device of the disclosure includes a phase synchronizer, a first modulator, and a detector. The phase synchronizer generates a second signal on a basis of a first signal received from a communication partner. The first modulator is able to modulate the first signal on a basis of the second signal. The detector detects that synchronization between the first signal and the second signal is lost.

A display device includes a display panel and a display driver driving the display panel. The display driver is connected to a host with a clock lane and at least one a data lane. The display driver includes: an interface circuit configured to receive an external clock signal from the host via the clock lane, receive a data signal from the host via the data lane, and output reception data transmitted over the data signal; a control circuit configured to output an internal clock signal synchronous with the external clock signal; and a drive circuitry configured to drive the display panel in response to image data included in the reception data in synchronization with the internal clock signal fed from the control circuit. The control circuit is configured to feed the internal clock signal in response to a type of a reception packet included in the reception data.

An unlock detector includes a checker, an accumulator, and a comparator. The accumulator is electrically connected to the checker, and the comparator is electrically connected to the accumulator. The checker includes several checking units. The checker is configured to receive a sampled data signal and a sampled edge signal, and to check the sampled data signal and the sampled edge signal via the checking units to generate several checking results. The accumulator is configured to generate a counting value in a manner of counting according to the checking results. The comparator is configured to compare the counting value with a threshold to generate an unlock-detecting result.

A transmission apparatus including: a first transferer that transfers first data including first identification information; a second transferer that transfers second data including second identification information; a detector that detects the first identification information from the first data transferred from the first transferer; and a storage that stores the second data transferred from the second transferer; wherein the detector detects the second identification information from the second data stored into the storage after detecting the first identification information from the first data.

An integrated circuit includes a plurality of receivers, each having a clock and data recovery circuit. A first local clock recovery circuit in a first receiver can be caused to produce a test clock which simulates a condition to be tested, and while a second receiver in the plurality of receivers that includes a second local clock recovery circuit is caused to use the test clock in place of the reference clock while receiving a test data sequence at its input. The clock and data recovery circuits in the receivers can include clock control loops responsive to loop control signals to modify the selected reference clock to generate the local clock in response to selective one of (i) a corresponding data signal for normal operation or during a test, and (ii) a test signal applied to the clock control loop in which case the test clock is produced.

A clock and data recovery (CDR) circuit is provided, and includes a sampling circuit, an error sampler, a phase detect circuit, and a phase adjust circuit. The sampling circuit generates a data signal according to an input data and a first clock signal, and generates an edge signal according to the input data and a second clock signal. The error sampler compares the input data with a reference voltage according to the first clock signal to generate a control signal. The phase detect circuit receives the control signal and generates a corrective signal according to the data signal and the edge signal. When the values of the control signal and the data signal are different, the phase detect circuit stops transmitting the corrective signal. The phase adjust circuit generates and adjusts the first and the second clock signal according to the corrective signal.