| Patent application number | Description | Published |
|---|
| 20110298474 | IMPLEMENTING INTEGRAL DYNAMIC VOLTAGE SENSING AND TRIGGER - A method and circuit for implementing dynamic voltage sensing and a trigger circuit, and a design structure on which the subject circuits resides are provided. The voltage sensing circuit includes a first quiet oscillator generating a reference clock, and a second noisy oscillator generating a noisy clock. A digital control loop coupled to the first quiet oscillator and the second noisy oscillator matches frequency of the first quiet oscillator and the second noisy oscillator. The reference clock drives a first predefined-bit shift register and the noisy clock drives a second predefined-bit shift register, where the second predefined-bit shift register is greater than the first predefined-bit shift register. When the first predefined-bit shift register overflows, the contents of the second predefined-bit shift register are evaluated. The contents of the second predefined-bit shift register are compared with a noise threshold select value to identify a noise event and trigger a noise detector control output. | 12-08-2011 |
| 20120047481 | IMPLEMENTING PHASE LOCKED LOOP (PLL) WITH ENHANCED LOCKING CAPABILITY WITH A WIDE RANGE DYNAMIC REFERENCE CLOCK - A method and a phase locked loop (PLL) circuit for implementing enhanced locking capability with a wide range dynamic reference clock, and a design structure on which the subject circuit resides are provided. The PLL circuit includes a Voltage Controlled Oscillator (VCO) and a plurality of filter comparators receiving a differential filter VCO control voltage. The plurality of filter comparators comparing the differential filter VCO control voltage values, provides a respective gate enable signal responsive to the compared differential filter VCO control voltage values. A clock signal is applied to an up/down counter responsive to the respective gate enable signal and the wide range dynamic reference clock. The count values of the up/down counter are provided to the VCO to select a respective frequency range for the VCO. | 02-23-2012 |
| 20120194236 | IMPLEMENTING PHASE LOCKED LOOP (PLL) WITH ENHANCED LOCKING CAPABILITY WITH A WIDE RANGE DYNAMIC REFERENCE CLOCK - A method and a phase locked loop (PLL) circuit for implementing enhanced locking capability with a wide range dynamic reference clock, and a design structure on which the subject circuit resides are provided. The PLL circuit includes a Voltage Controlled Oscillator (VCO) and a plurality of filter comparators receiving a differential filter VCO control voltage. The plurality of filter comparators comparing the differential filter VCO control voltage values, provides a respective gate enable signal responsive to the compared differential filter VCO control voltage values. A clock signal is applied to an up/down counter responsive to the respective gate enable signal and the wide range dynamic reference clock. The count values of the up/down counter are provided to the VCO to select a respective frequency range for the VCO. | 08-02-2012 |
| 20120212280 | IMPLEMENTING DUAL SPEED LEVEL SHIFTER WITH AUTOMATIC MODE CONTROL - A method and circuit for implementing a dual speed level shifter with automatic mode control, and a design structure on which the subject circuit resides are provided. A low speed level shifter and a high speed level shifter are used to provide a wide frequency range of operation. The circuit operates in one of a low speed mode or a high speed mode. The appropriate mode is selected automatically by detecting the frequency of the signal to be level shifted. When the incoming signal is slower than a reference frequency, the low speed level shifter is selected, and when the incoming signal is faster than the reference frequency, the high speed level shifter is selected. | 08-23-2012 |
| 20120331432 | IMPLEMENTING DUAL SPEED LEVEL SHIFTER WITH AUTOMATIC MODE CONTROL - A method and circuit for implementing a dual speed level shifter with automatic mode control, and a design structure on which the subject circuit resides are provided. A low speed level shifter and a high speed level shifter are used to provide a wide frequency range of operation. The circuit operates in one of a low speed mode or a high speed mode. The appropriate mode is selected automatically by detecting the frequency of the signal to be level shifted. When the incoming signal is slower than a reference frequency, the low speed level shifter is selected, and when the incoming signal is faster than the reference frequency, the high speed level shifter is selected. | 12-27-2012 |
| 20130088269 | IMPLEMENTING CONTROL VOLTAGE MIRROR - A circuit for implementing a control voltage mirror for phase error and jitter performance optimization and a design structure on which the subject circuit resides are provided. The control voltage mirror is used with a phase locked loop filter utilizing a thin oxide filter capacitor connected to a control voltage and a distal side of the capacitor connected to a voltage reference. The control voltage mirror includes an operational amplifier holding voltage across the capacitor to be near or at zero volts, substantially eliminating capacitor leakage current to provide phase error and jitter performance optimization. | 04-11-2013 |
| 20130106461 | IMPLEMENTING SCREENING FOR SINGLE FET COMPARE OF PHYSICALLY UNCLONABLE FUNCTION (PUF) | 05-02-2013 |
| 20140132321 | IMPLEMENTING COMPACT CURRENT MODE LOGIC (CML) INDUCTOR CAPACITOR (LC) VOLTAGE CONTROLLED OSCILLATOR (VCO) FOR HIGH-SPEED DATA COMMUNICATIONS - A method and a phase locked loop (PLL) circuit for implementing compact current mode logic inductor capacitor voltage controlled oscillator for high speed communications, and a design structure on which the subject circuit resides are provided. The PLL circuit includes a current mode logic (CML) inductor capacitor (LC) Voltage Controlled Oscillator (VCO). The PLL circuit includes a reference circuit generates a virtual ground node for biasing noise sensitive components, providing level shifted VCO increment and decrement tuning values from a phase detector coupled by a respective resistor to tune a varactor of the LC VCO, and providing a loop filter function. The virtual ground node tracks a logic power supply noise, incurring no jitter penalty, and eliminating the need for a separate power supply for the PLL circuit. | 05-15-2014 |
