摘要:
A system and method to dynamically control a reset signal for an IQ divider are provided. The system includes an IQ divider configured to output a IQ divider output clock; an input configured to receive a reference clock; a failure sensing circuit configured to sense a failure in the IQ divider output clock, the failure sensing circuit including an automatic frequency calibration (AFC) logic; and a control circuit configured to control a reset signal provided to the IQ divider, based on an output of the failure sensing circuit corresponding the failure sensed by the failure sensing circuit.
摘要:
Disclosed herein is a tunable resonant circuit including an inductance directly electrically connected in series between first and second nodes, a variable capacitance directly electrically connected between the first and second nodes, and a set of switched capacitances coupled between the first and second nodes. The set of switched capacitances includes a plurality of capacitance units, each capacitance unit comprising a first capacitance for that capacitance unit directly electrically connected between the first node and a switch and a second capacitance for the capacitance unit directly electrically connected between the switch and the second node. Control circuitry is configured to receive an input control signal and connected to control the switches of the set of switched capacitances. A biasing circuit is directly electrically connected to the tunable resonance circuit at the first and second nodes.
摘要:
Embodiments described herein relate to a 50%-duty-cycle consecutive integer frequency divider and a phase-locked loop circuit having the frequency divider. The frequency divider includes a consecutive integer frequency divider module having a non-50%-duty-cycle, wherein the module receives a clock signal CLK and an input control signal CB and outputs a consecutive frequency division clock signal CLK1 comprising a non-50% duty cycle; a D flip-flop module for receiving the clock signal CLK and the consecutive frequency division clock signal CLK1 and outputting at least one clock signal CLKx; and a logic OR gate module for receiving the consecutive frequency division clock signal CLK1 and the at least one clock signal CLKx, and outputting an output clock signal CLKout comprising a 50% duty cycle.
摘要:
Disclosed herein is an apparatus that includes a variable clock divider configured to divide a first clock signal to generate a second clock signal, a delay circuit configured to delay the second clock signal to generate a third clock signal, and a phase detector configured to compare phases of the second and third clock signals. The variable clock divider has a division ratio that is variable based, at least in part, on a delay amount of the delay circuit.
摘要:
A frequency divider circuit comprises a first divider chain including at least one first divider cell and a second divider chain coupled to the first divider chain to form an extendable divider chain. The second divider chain includes at least one second divider cell with a respective reset control. An effective length of the extendable divider chain may be altered, dynamically, via the respective reset control. Altering the effective length, dynamically, enables a division ratio of the frequency divider circuit to be changed, dynamically. The frequency divider circuit may be advantageously employed by applications that rely upon a dynamic division ratio, such as a fractional-N (frac-N) phase-locked loop (PLL).
摘要:
Disclosed herein is an apparatus that includes a variable clock divider configured to divide a first clock signal to generate a second clock signal, a delay circuit configured to delay the second clock signal to generate a third clock signal, and a phase detector configured to compare phases of the second and third clock signals. The variable clock divider has a division ratio that is variable based, at least in part, on a delay amount of the delay circuit.
摘要:
Apparatus and methods for tuning a voltage controlled oscillator (VCO) are provided. In one aspect, a method of auto-tuning in a phase-locked loop includes generating a VCO clock signal using a VCO coupled to a capacitor array, dividing the VCO clock signal to generate a divided clock signal using a prescaler circuit having a selectable division ratio, controlling a value of the selectable division ratio using a first counter and a second counter of a counter module, generating a phase-frequency detector feedback signal based on a division control signal M and the divided clock signal using the counter module, counting a number of cycles of the divided clock signal that occur during a calibration interval using a cycle counter of a digital processing logic circuit, and determining the value of a capacitor array control signal based on the number of cycles counted during the calibration interval.
摘要:
An integrated circuit device comprises a first data processing element having a first data interface configured to synchronously communicate data according to a first clock signal at a first clock speed, and a second data interface configured to synchronously communicate data at a second clock speed lower than the first clock speed; and a second data processing element configured to operate in response to a second clock signal at the second clock speed and to synchronously communicate data with the first data processing element via the second data interface according to the second clock speed; the first data processing element being configured to derive, from a source clock signal, the first clock signal and the second clock signal; and the first data processing element and the second data processing element each comprising a clock signal interface by which the second clock signal is provided by the first data processing element to the second data processing element.
摘要:
A circuit includes a reset circuit, a counter and a comparator. The reset circuit generates a reset signal based on a reference signal and a controlled signal. The reference signal and the controlled signal are to be sent to the TDC for detection of phase difference. The counter counts to a predetermined value associated with the reference signal and the controlled signal, and is reset to an initial value in response to the reset signal. The comparator compares a count from the counter and the predetermined value, and generates a mask signal when a count from the counter equals the predetermined value. The mask signal masks a portion of pulses of the controlled signal from entering the TDC.
摘要:
A semiconductor device according to the present invention includes a PLL circuit, in which the PLL circuit includes: a phase difference detection unit that detects a phase difference between a reference signal and a division signal; a filter that outputs a control signal according to a detection result of the phase difference detection unit; an oscillation unit that outputs an oscillation signal of a frequency according to the control signal; a division unit that divides the oscillation signal to output it as the division signal; a noise intensity detection unit that detects a noise intensity of a predetermined frequency component included in the control signal; and a phase difference adjustment unit that adjusts a phase difference between the reference signal and the division signal based on the noise intensity detected by the noise intensity detection unit.