Abstract: Techniques and apparatus for a clock and data recovery circuit to lock to data having frequency offsets relative to a local clock reference are disclosed. One embodiment includes a multi-step frequency tracking system in which each step is used to track a sub-range of frequency deviation from local clock reference. The frequency tracking sub-range of each step is selected so that the clock and data recovery system is relatively assured of achieving lock when the frequency of the incoming data lies within or is relatively near the frequency tracking sub-range of the selected step. Embodiments may use control signals to select the sub-ranges, and hence guide the frequency tracking portion of the clock and data recovery circuit to operate in a frequency tracking range that is optimized for achieving and maintaining lock.

Abstract: A programmable delay element, variable-length delay chain, and ring oscillator are disclosed. The programmable delay element performs phase interpolation of input signals in response to a control signal and can be used in combination with other delay elements to create a highly-modular, variable-length delay chain or ring oscillator. The ring oscillator can be used as part of a digitally-controlled oscillator (DCO) in a digital clock synthesizer to adjust the frequency and phase of a clock signal by fractional unit delay steps. Optionally, the programmable delay element utilizes current-mode logic (CML) and the control signal is a thermometer coded digital signal. Within the variable-length delay chain, some programmable delay elements can be configured to scale the delay-step of other programmable delay elements so that a plurality of step sizes can be implemented with identical delay elements.

Abstract: A programmable delay element, variable-length delay chain, and ring oscillator are disclosed. The programmable delay element performs phase interpolation of input signals in response to a control signal and can be used in combination with other delay elements to create a highly-modular, variable-length delay chain or ring oscillator. The ring oscillator can be used as part of a digitally-controlled oscillator (DCO) in a digital clock synthesizer to adjust the frequency and phase of a clock signal by fractional unit delay steps. Optionally, the programmable delay element utilizes current-mode logic (CML) and the control signal is a thermometer coded digital signal. Within the variable-length delay chain, some programmable delay elements can be configured to scale the delay-step of other programmable delay elements so that a plurality of step sizes can be implemented with identical delay elements.

Abstract: Apparatus and methods advantageously maintain transistors of open-drain differential pairs biased in the saturation region when “active,” rather in than the triode or linear region. The biasing techniques are effective over a broad range of process, voltage, and temperature (PVT) variations. By controlling a high voltage level used to drive the gate of a transistor of the differential pair, the biasing of the transistor in the saturation region is maintained. In one embodiment, the low voltage level used to cut off the transistor of the differential pair is also controlled. These techniques advantageously permit differential drivers to exhibit relatively large output swings, relatively high edge rates, relatively high return loss, and relatively good efficiency.