An enable control circuit, which includes a counter circuit configured to count a current clock cycle and determine a clock cycle count value; a selection circuit configured to determine a clock cycle count target value according to a first setting signal; and a control circuit configured to control an ODT path to be enabled and start the counter circuit when the voltage level of an ODT pin signal is flipped over, control the ODT path to be switched from being enabled to disabled when the clock cycle count value reaches the clock cycle count target value and the voltage level of the ODT pin signal is not changed, and control the ODT path continue to be enabled when the clock cycle count value reaches the clock cycle count target value and the voltage level of the ODT pin signal flips again.

A microcontroller is coupled to a detection circuit which generates a detection signal. The microcontroller includes a processing circuit and an input-output circuit. The processing circuit generates an output signal according to the detection signal. In response to the output signal being at a specific level, the processing circuit enables a reset signal. The input-output circuit includes a latch circuit and a counter circuit. The latch circuit latches the output signal to generate a latched signal. The counter circuit starts adjusting the count value in response to the reset signal being enabled. The counter circuit changes the level of the latched signal in response to the count value being equal to a predetermined value.

A queuing requester for access to a memory system is provided. Transaction requests are received from two or more requestors for access to the memory system. Each transaction request includes an associated priority value. A request queue of the received transaction requests is formed in the queuing requester. Each transaction request includes an associated priority value. A highest priority value of all pending transaction requests within the request queue is determined. An elevated priority value is selected when the highest priority value is higher than the priority value of an oldest transaction request in the request queue; otherwise the priority value of the oldest transaction request is selected. The oldest transaction request in the request queue with the selected priority value is then provided to the memory system. An arbitration contest with other requesters for access to the memory system is performed using the selected priority value.

A queuing requester for access to a memory system is provided. Transaction requests are received from two or more requestors for access to the memory system. Each transaction request includes an associated priority value. A request queue of the received transaction requests is formed in the queuing requester. Each transaction request includes an associated priority value. A highest priority value of all pending transaction requests within the request queue is determined. An elevated priority value is selected when the highest priority value is higher than the priority value of an oldest transaction request in the request queue; otherwise the priority value of the oldest transaction request is selected. The oldest transaction request in the request queue with the selected priority value is then provided to the memory system. An arbitration contest with other requesters for access to the memory system is performed using the selected priority value.

Disclosed is a frequency dividing circuit, a frequency dividing method and a phase locked loop. The frequency dividing circuit comprises: a clock selection unit outputting a first clock signal, select a second clock signal lagging behind the first clock signal by (½-1/M) of one phase; an integer frequency dividing unit performing frequency division on the first clock signal to provide a frequency-divided clock signal; a trigger unit triggering the frequency-divided clock signal according to the second clock signal to obtain a modulation clock signal; a switching signal unit providing a switching signal according to the modulation clock signal and a preset target output frequency. The clock selection unit selects and further outputs a third clock signal as the first clock signal according to the target phase selection information, to adjust the frequency of the frequency-divided clock signal, reduce noise and improve loop bandwidth of the phase locked loop.

A clock signal generation circuit for a switched capacitor circuit with a chopping function unit includes: first and second synchronous clock circuits that generate first and second synchronous clock signals, respectively; an edge signal generation circuit that generates one or more rise and fall edge signals by delaying the first synchronous clock signal; a first clock generator that generate a first clock signal group for driving the switched capacitor circuit; and a second clock generator that generates a second clock signal group for driving the chopping function unit. Frequencies of the first and second clock signal groups are respectively defined by the first and second synchronous clock circuits. Rise and fall edges of the first and second clock signal groups are defined by the edge signal generation circuit.

A clock signal generation circuit for a switched capacitor circuit with a chopping function unit includes: first and second synchronous clock circuits that generate first and second synchronous clock signals, respectively; an edge signal generation circuit that generates one or more rise and fall edge signals by delaying the first synchronous clock signal; a first clock generator that generate a first clock signal group for driving the switched capacitor circuit; and a second clock generator that generates a second clock signal group for driving the chopping function unit. Frequencies of the first and second clock signal groups are respectively defined by the first and second synchronous clock circuits. Rise and fall edges of the first and second clock signal groups are defined by the edge signal generation circuit.

An enable control circuit, which includes a counter circuit configured to count a current clock cycle and determine a clock cycle count value; a selection circuit configured to determine a clock cycle count target value according to a first setting signal; and a control circuit configured to control an ODT path to be enabled and start the counter circuit when the voltage level of an ODT pin signal is flipped over, control the ODT path to be switched from being enabled to disabled when the clock cycle count value reaches the clock cycle count target value and the voltage level of the ODT pin signal is not changed, and control the ODT path continue to be enabled when the clock cycle count value reaches the clock cycle count target value and the voltage level of the ODT pin signal flips again.

Disclosed is a frequency dividing circuit, a frequency dividing method and a phase locked loop. The frequency dividing circuit comprises: a clock selection unit outputting a first clock signal, select a second clock signal lagging behind the first clock signal by (½-1/M) of one phase; an integer frequency dividing unit performing frequency division on the first clock signal to provide a frequency-divided clock signal; a trigger unit triggering the frequency-divided clock signal according to the second clock signal to obtain a modulation clock signal; a switching signal unit providing a switching signal according to the modulation clock signal and a preset target output frequency. The clock selection unit selects and further outputs a third clock signal as the first clock signal according to the target phase selection information, to adjust the frequency of the frequency-divided clock signal, reduce noise and improve loop bandwidth of the phase locked loop.

Approaches describe a mobile computing device, e.g., an ergonomically configured connected counting device, to capture counts of people, products, or any countable object, store the counts and associated information in a central repository for access by other connected counting devices. The counts and associated qualifying information can then be displayed through mobile devices and web applications, and can display count data with sales, demographic and other qualifying data sources to provide information for qualitative and quantitative reporting, as well as enable count based automated promotions through traditional channels and social networks.