| PMC-Sierra, Inc. Patent applications |
| Patent application number | Title | Published |
|---|
| 20100201418 | Variable-Length Digitally-Controlled Delay Chain With Interpolation-Based Tuning - 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. 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. Also, variations of the delay chain generate in-phase and quadrature phase (I/Q) signals in either an end-tap or center-tap configuration. | 08-12-2010 |
| 20090309638 | Variable-Length Digitally-Controlled Delay Chain with Interpolation-Based Tuning - 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. Also, variations of the delay chain generate in-phase and quadrature phase (I/Q) signals in either an end-tap or center-tap configuration. | 12-17-2009 |
