Abstract: A delay circuit includes a state transition section configured to start state transition based on a trigger signal and output state information indicating the internal state and a transition-state acquisition section configured to latch and hold the state information. The state transition section includes a tapped delay line in which a plurality of delay elements are coupled, a logical circuit configured to generate a third signal based on a first signal based on the trigger signal and a second signal, which is an output signal of the delay element, and a synchronous transition section configured to count an edge of the third signal. The state information is having an output signal of the synchronous transition section and an output signal of the tapped delay line. A humming distance of the state information before and after the state transition is 1.

Abstract: A frequency ratio measurement device includes a counter section configured to count a time event of a first signal and output a count value obtained by multiplying the time event by k0, a time to digital converter section configured to output a time digital value corresponding to a phase difference between the first signal and a second signal, a combiner section configured to output a combined value of the count value and the time digital value, a subtractor section configured to output a difference value between a first value based on the combined value and a second value, a quantizer section configured to compare a third value based on the difference value with a predetermined threshold to thereby output a quantized value obtained by quantizing the third value, and a feedback section configured to output, based on a time event of the second signal, the second value based on the quantized value.

Abstract: An A/D conversion circuit includes a comparison-reference-signal generator section configured to generate a comparison reference signal synchronized with a sampling clock signal, a comparator configured to compare a voltage of an input signal and a voltage of the comparison reference signal to thereby generate a trigger signal, a time to digital converter configured to calculate a first time digital value, and a digital-signal generator section configured to generate, based on the first time digital value and a second time digital value, a digital signal corresponding to the voltage of the input signal.

Abstract: A frequency delta sigma modulation signal output circuit includes a phase modulation circuit that outputs a phase modulation signal based on a delay signal obtained by delaying a signal to be measured, in synchronization with the signal to be measured, and a frequency ratio digital conversion circuit that generates a frequency delta sigma modulation signal using a reference signal and the phase modulation signal.

Abstract: A physical quantity sensor module includes: a resonant frequency shift based physical quantity sensor whose frequency adjusts with a adjust in physical quantity; a reference signal oscillator which outputs a reference signal; a frequency delta-sigma modulator which performs frequency delta-sigma modulation of the reference signal, using an operation signal based on a measurement target signal as an output from the resonant frequency shift based physical quantity sensor, and generates a frequency delta-sigma modulated signal; a first low-pass filter provided on an output side of the frequency delta-sigma modulator and operating synchronously with the measurement target signal as the output from the resonant frequency shift based physical quantity sensor; and a second low-pass filter provided on an output side of the first low-pass filter and operating synchronously with the reference signal.

Abstract: A delay circuit includes a state transition section configured to start state transition based on a trigger signal and output state information indicating the internal state and a transition-state acquisition section configured to latch and hold the state information. The state transition section includes a tapped delay line in which a plurality of delay elements are coupled, a logical circuit configured to generate a third signal based on a first signal based on the trigger signal and a second signal, which is an output signal of the delay element, and a synchronous transition section configured to count an edge of the third signal. The state information is having an output signal of the synchronous transition section and an output signal of the tapped delay line. A humming distance of the state information before and after the state transition is 1.

Abstract: There is provided a time to digital converter to which a reference signal and a trigger signal are input, the time to digital converter outputting a time digital value corresponding to a time event of the trigger signal with respect to the reference signal, the time to digital converter including a state transition section configured to output state information indicating an internal state and start, based on the trigger signal, state transition in which the internal state transitions, a transition-state acquiring section configured to acquire, in synchronization with the reference signal, the state information from the state transition section and hold the state information, and an arithmetic operation section configured to calculate, based on the state information acquired by the transition-state acquiring section, the time digital value corresponding to a number of times of transition of the internal state.

Abstract: A delay circuit includes a state transition section configured to start state transition based on a trigger signal and output state information indicating the internal state and a transition-state acquisition section configured to latch and hold the state information. The state transition section includes a tapped delay line in which a plurality of delay elements are coupled, a logical circuit configured to generate a third signal based on a first signal based on the trigger signal and a second signal, which is an output signal of the delay element, and a synchronous transition section configured to count an edge of the third signal. The state information is having an output signal of the synchronous transition section and an output signal of the tapped delay line. A humming distance of the state information before and after the state transition is 1.

Abstract: An A/D conversion circuit includes a comparison-reference-signal generator section configured to generate a comparison reference signal synchronized with a sampling clock signal, a comparator configured to compare a voltage of an input signal and a voltage of the comparison reference signal to thereby generate a trigger signal, a time to digital converter configured to calculate a first time digital value, and a digital-signal generator section configured to generate, based on the first time digital value and a second time digital value, a digital signal corresponding to the voltage of the input signal.

Abstract: A frequency ratio measurement device includes a counter section configured to count a time event of a first signal and output a count value obtained by multiplying the time event by k0, a time to digital converter section configured to output a time digital value corresponding to a phase difference between the first signal and a second signal, a combiner section configured to output a combined value of the count value and the time digital value, a subtractor section configured to output a difference value between a first value based on the combined value and a second value, a quantizer section configured to compare a third value based on the difference value with a predetermined threshold to thereby output a quantized value obtained by quantizing the third value, and a feedback section configured to output, based on a time event of the second signal, the second value based on the quantized value.

Abstract: A time to digital converter includes a state transition section configured to start, based on a trigger signal, state transition in which an internal state transitions, a transition-state acquiring section configured to acquire, in synchronization with a reference signal, state information from the state transition section and hold the state information, and an arithmetic operation section configured to calculate, based on the state information, a time digital value corresponding to the number of times of transition of the internal state. The state transition section includes a tapped delay line to which a plurality of delay elements are coupled, a logic circuit, and a state machine. The state information is represented by count information output from the state machine and propagation information output from the tapped delay line. A hamming distance of the state information before and after the state transition is 1.

Abstract: A time to digital converter includes a state transition section configured to start, based on a trigger signal, state transition in which an internal state transitions, a transition-state acquiring section configured to acquire, in synchronization with a reference signal, state information from the state transition section and hold the state information, and an arithmetic operation section configured to calculate, based on the state information, a time digital value corresponding to the number of times of transition of the internal state. The state transition section includes a tapped delay line to which a plurality of delay elements are coupled, a logic circuit, and a state machine. The state information is represented by count information output from the state machine and propagation information output from the tapped delay line. A hamming distance of the state information before and after the state transition is 1.

Abstract: There is provided a time to digital converter to which a reference signal and a trigger signal are input, the time to digital converter outputting a time digital value corresponding to a time event of the trigger signal with respect to the reference signal, the time to digital converter including a state transition section configured to output state information indicating an internal state and start, based on the trigger signal, state transition in which the internal state transitions, a transition-state acquiring section configured to acquire, in synchronization with the reference signal, the state information from the state transition section and hold the state information, and an arithmetic operation section configured to calculate, based on the state information acquired by the transition-state acquiring section, the time digital value corresponding to a number of times of transition of the internal state.

Abstract: A transition state acquisition device includes an oscillator that includes a tapped delay line and a combination circuit provided on a signal path from one end to the other end of the tapped delay line, and oscillates based on a first signal, and a latch that captures and holds an output signal of the tapped delay line in synchronization with a second signal. The oscillator starts a transition of a state of the tapped delay line based on the first signal. An interval between timings at which the latch captures the output signals of the tapped delay line is shorter than a time during which the state transition of the tapped delay line makes one round.

Abstract: A count value generation circuit includes a first counter that counts edges of a reference signal to generate a first count value in synchronization with an input signal, a time digital value generator that generates a time digital value corresponding to a phase difference between the reference signal and the input signal, a count integrated value combiner that outputs a difference between an integer multiple of the first count value and the time digital value, and a count value generator that generates a count value based on a difference between a first output value and a second output value output from the count integrated value combiner.

Abstract: A count value generation circuit includes a first counter that counts edges of a reference signal to generate a first count value in synchronization with an input signal, a time digital value generator that generates a time digital value corresponding to a phase difference between the reference signal and the input signal, a count integrated value combiner that outputs a difference between an integer multiple of the first count value and the time digital value, and a count value generator that generates a count value based on a difference between a first output value and a second output value output from the count integrated value combiner.

Abstract: A count value generation circuit includes a first counter that counts edges of a reference signal to generate a first count value in synchronization with an input signal, a time digital value generator that generates a time digital value corresponding to a phase difference between the reference signal and the input signal, a count integrated value combiner that outputs a difference between an integer multiple of the first count value and the time digital value, and a count value generator that generates a count value based on a difference between a first output value and a second output value output from the count integrated value combiner.

Abstract: A delay circuit includes: a cyclic number control circuit that generates a third signal based on first and second signals generated based on a trigger signal; a loop circuit in which a plurality of delay elements are electrically connected in series, one output of outputs of the plurality of delay elements is fed back to form a loop, and the third signal is input to the delay element at an initial stage; and a latch circuit that latches output values of the plurality of delay elements as latch signals. The second signal is one output among the outputs of the plurality of delay elements. The loop circuit stops the feedback when a cyclic number of loops reaches a prescribed cyclic number.

Abstract: A frequency delta sigma modulation signal output circuit includes a phase modulation circuit that outputs a phase modulation signal based on a delay signal obtained by delaying a signal to be measured, in synchronization with the signal to be measured, and a frequency ratio digital conversion circuit that generates a frequency delta sigma modulation signal using a reference signal and the phase modulation signal.

Abstract: A vibration rectification error correction circuit includes a first correction circuit that obtains a digital value based on a signal to be measured output from a sensor element configured to measure a physical quantity and corrects a vibration rectification error of the digital value by a correction function based on a product of values obtained by biasing the digital value.