Abstract: A receiver and method for identifying the frequency of an RF component in an RF signal are disclosed. The receiver includes a first mixer that receives an RF signal and mixes that RF signal with a first multi-tone LO signal that includes a plurality of tones to generate a mixed signal. The output of the first mixer is filtered by a first filter that removes signals outside of a predetermined band to generate a first IF signal. A processor determines the RF frequency of the component utilizing the first IF signal and a second IF signal generated using a second multi-tone LO signal having a different plurality of tones from said first multi-tone signal. The first and second multi-tone LO signals can be generated by clocking suitable digital sequences into the mixer either by using different sequences or by using the same sequence clocked at a different rate.

Abstract: A time of flight (TOF) spectrometer and a method for operating the same is disclosed. The spectrometer includes an event extractor, a streaming processor, and a FIFO buffer. The event extractor generates a ion event record corresponding to each detected ion, the ion event record including an intensity of a plurality of aliases for that detected ion. The streaming processor includes a memory array that stores a TOF spectrum and a probability processor that provides a probability for each alias in each received ion event record and updates the TOF spectrum based on the probabilities. A FIFO buffer receives each of the ion event records after the TOF spectrum has been updated and outputs the oldest ion event record to the streaming processor when a new ion event record is processed by the streaming processor.

Abstract: A time of flight (TOF) spectrometer and a method for operating the same is disclosed. The spectrometer includes an event extractor, a streaming processor, and a FIFO buffer. The event extractor generates a ion event record corresponding to each detected ion, the ion event record including an intensity a plurality of aliases for that detected ion. The streaming processor includes a memory array that stores a TOF spectrum and a probability processor that provides a probability for each alias in each received ion event record and updates the TOF spectrum based on the probabilities. A FIFO buffer receives each of the ion event records after the TOF spectrum has been updated and outputs the oldest ion event record to the streaming processor when a new ion event record is processed by the streaming processor.

Abstract: A receiver and method for identifying the frequency of an RF component in an RF signal are disclosed. The receiver includes a first mixer that receives an RF signal and mixes that RF signal with a first multi-tone LO signal that includes a plurality of tones to generate a mixed signal. The output of the first mixer is filtered by a first filter that removes signals outside of a predetermined band to generate a first IF signal. A processor determines the RF frequency of the component utilizing the first IF signal and a second IF signal generated using a second multi-tone LO signal having a different plurality of tones from said first multi-tone signal. The first and second multi-tone LO signals can be generated by clocking suitable digital sequences into the mixer either by using different sequences or by using the same sequence clocked at a different rate.

Abstract: A detection signal generated in response to incident ions accelerated at temporally-irregular intervals having an average repetition rate greater than a reference repetition rate represents detection events each having an event time and an intensity. For each detection event, respective allowed TOFs between the event time and the transient times are calculated. Using respective initial probabilities, initial apportionments of the intensity of each detection event among the allowed TOFs linked thereto are determined. For each allowed TOF, the intensity apportionments thereto are accumulated to generate an intensity accumulation linked thereto. For each detection event, respective revised probabilities are iteratively determined using the intensity accumulations linked to the allowed TOFs linked thereto, and the respective intensity is iteratively reapportioned among the allowed TOFs linked thereto using the revised probabilities to transform the detection signal to a time-of-flight spectrum.

Abstract: A detection signal generated in response to incident ions accelerated at temporally-irregular intervals having an average repetition rate greater than a reference repetition rate represents detection events each having an event time and an intensity. For each detection event, respective allowed TOFs between the event time and the transient times are calculated. Using respective initial probabilities, initial apportionments of the intensity of each detection event among the allowed TOFs linked thereto are determined. For each allowed TOF, the intensity apportionments thereto are accumulated to generate an intensity accumulation linked thereto. For each detection event, respective revised probabilities are iteratively determined using the intensity accumulations linked to the allowed TOFs linked thereto, and the respective intensity is iteratively reapportioned among the allowed TOFs linked thereto using the revised probabilities to transform the detection signal to a time-of-flight spectrum.

Abstract: Multiple noise-FM dither. An analog dither signal is generated by summing two or more noise-FM signals, each noise-FM signal being a carrier modulated by a noise source.

Abstract: A testing device for testing transceivers includes a transmitter operable in a first state to transmit signals, a receiver operable in a second state to receive signals and a power coupler coupling the transmitter to the receiver. The testing device further includes an overload protection device operably coupled between the power coupler and the receiver to reduce or maintain the signal strength of a received signal at the receiver based on a control signal. A controller determines a current state of the received signal and generates the control signal based on the current state of the received signal.

Abstract: Pipelined digital accumulators. Parallel digital accumulators for use in digital signal processing are improved through pipelining. An accumulator is partitioned into a plurality of pipelined stages, and the pipeline delay is used to reduce the effect of carry propagation through the accumulator. While input and output delay registers are used in the accumulator partitions, the output delay registers are not needed if the results of those partitions are not needed in subsequent stages of computation. If phase coherence is not needed, input delay registers may not be needed on accumulator partitions. In the limiting case of one bit per partition, the effective speed of the pipelined accumulator is equivalent to the speed of a single bit accumulator stage.

Abstract: Multiple noise-FM dither. An analog dither signal is generated by summing two or more noise-FM signals, each noise-FM signal being a carrier modulated by a noise source.

Abstract: Temperature stabilization of an integrated circuit to reduce effects of data and activity variation. Heat dissipating load structures are integrated onto the die and controlled in response to sensed device characteristics. In a first embodiment, heat dissipating load structures on the device are used to maintain constant device power dissipation. In a second embodiment, the heat dissipating load structures are used in conjunction with on-device temperature sensors to maintain constant device temperature.

Abstract: Single port characterization of RF amplifier phase and amplitude transfer functions are developed by measuring the output of the amplifier as it is excited by a predetermined frequency over a series of bias steps. One bias step is chosen as a reference level. Amplitude characterization is obtained from measured magnitude at each step in the test sequence. Phase information is extracted from the same measurements by measuring phase and phase trajectory at a reference level, and subtracting measured phase information at a desired step in the test sequence from an estimation of the reference phase trajectory at that step. Reference measurements may be interspersed with other measurements.

Abstract: A method and apparatus for radically abbreviated decoding for providing decoded data by dividing a stream of data symbols, which form the decoder input, into symbol bit streams. The symbol bit streams are combined with delayed data streams in a first formatting means forming formatted bit streams. The formatted bit streams are applied to a selecting means for selecting bits from the formatted bit streams, forming a selected formatted bit stream. The selected formatted bit stream is applied to a sequential storage means forming delayed bits. The delayed bits are tapped from different points on the sequential storage means forming weighted bits. The weighted bits are then combined with a second formatting means further forming the delayed data streams, where the selected formatted bit stream is the decoded data.