Patent application number | Description | Published |
20100127908 | SELF-TIMED CLOCKED ANALOG TO DIGITAL CONVERTER - An SAR analog-to-digital converter performs bit decisions in each of a plurality of clock cycles A sense circuit monitors signals input to a latch within a comparator of the ADC and, when the signals are sufficient to establish a bit decision, the sense circuit terminates a currently active clock cycle causes a bit decision to occur in advance of a normal expiration of the clock cycle. If the signals are insufficient to establish a bit decision prior to a default expiration time of the clock cycle, the clock cycle concludes at the default expiration time. | 05-27-2010 |
20100220000 | METHOD TO REDUCE ERROR IN TIME INTERLEAVED ANALOG-TO-DIGITAL CONVERTERS ARISING DUE TO APERTURE DELAY MISMATCH - A system for randomizing aperture delay in a time interleaved ADC system that includes a plurality of selection switch stages corresponding to each of the ADCs in the system and a second selection switch stage coupled to a voltage source. A plurality of conductors extend between the second selection switch stage and each of the selection switch stages, in excess of the number of ADCs in the system. For each of N ADCs in the system, the selection switch stages and the second selection switch stage support at least N+1 selectable conductive paths extending from each of the sampling capacitors of the ADCs to the voltage source. Random selection of the N+1 paths can randomize aperture delay. | 09-02-2010 |
20110038083 | GUARDED ELECTRICAL OVERSTRESS PROTECTION CIRCUIT - Disclosed embodiments are directed to an electrical overstress protection circuit. The electrical overstress protection circuit may include an intermediate node receiving a reference voltage, a first pair of clamp devices, having opposite polarity, clamping an input signal line to the intermediate node, and a second pair of clamp devices, each clamping the intermediate node to one of two reference potentials. The electrical overstress protection circuit may also include a filter connected to the intermediate node to reduce noise at the intermediate node. | 02-17-2011 |
20110043251 | Opportunistic Timing Control in Mixed-Signal System-On-Chip Designs - An integrated circuit may include a plurality of circuit sub-systems that include at least one converter circuit operating in respective critical phases and non-critical phases of operation, a clock distribution circuit that has an input for an externally-supplied clock signal that is active during the non-critical phases and inactive during the critical phases, and a clock generator to generate an internal clock signal to the converter circuit that is active when the external-supplied clock signal is inactive. | 02-24-2011 |
20110043397 | SYSTEM AND METHOD FOR REDUCING PATTERN NOISE IN ANALOG SYSTEM PROCESSING - An analog-to-digital conversion system includes an analog-to-digital converter (ADC), a plurality of receivers, each for capturing input analog signals, a multiplexer having inputs coupled to each of the receivers and an output coupled to the ADC, the multiplexer establishing a signal path between a selected one of the inputs and the output in response to an index signal, and a mux controller to supply a random sequence of index signals to the multiplexer. | 02-24-2011 |
20110115658 | DUAL DAC STRUCTURE FOR CHARGE REDISTRIBUTED ADC - A system for converting an analog signal to a digital codeword having N bit positions that includes a dual DAC structure having a small DAC and a large DAC. At least one comparator is coupled to the small DAC and large DAC. The small DAC performs bit trials to calculate bit positions 1 to M, and the large DAC with performs bit trial calculates bit positions M+1 to N after having been set with bit decisions from the bit trials of the small DAC. | 05-19-2011 |
20120200350 | RESET AND RESETTABLE CIRCUITS - An amplifier system can include a feedback amplifier circuit having an amplifier, a feedback capacitor connected between an input terminal and an output terminal of the amplifier by at least one first switch, and a reset capacitor connected across the feedback capacitor by at least one second switch and between a pair of reference voltages by at least one third switch. During an input-signal processing phase of operation, a control circuit may close the at least one first switch and open the at least one second switch to electrically connect the feedback capacitor between the input and output terminals to engage feedback processing by the feedback amplifier circuit, and close the third switch to electrically connect the reset capacitor between the first and second voltages to charge the reset capacitor to a selectable voltage difference. During a reset phase of operation, the control circuit may open the at least one third switch, close the at least one second switch and open the at least one first switch to electrically connect the reset capacitor across the feedback capacitor to reset the feedback capacitor using the reset capacitor. The amplifier system can optionally include a plurality of the feedback amplifier circuits. | 08-09-2012 |
20130076402 | TECHNIQUES FOR REDUCING CORRELATED ERRORS IN MULTI-CHANNEL SAMPLING SYSTEMS - Techniques to reduce correlated errors in a multi-channel sampling system. A plurality of clock signals may be generated from a master clock signal, each with edges offset from each other. The offset clock signals may be distributed to a plurality of sampling devices. Each sampling device may capture a respective input signal according to its offset clock. In this manner, the sampling units may sample their inputs signals over a distributed window of time rather than sampling in response to a common clock edge. By distributing the switching operations performed by the sampling units, noise effects are likely to be reduced. | 03-28-2013 |