Clock signal generation circuit and semiconductor device
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H03K-003/017
H03K-005/135
H03K-007/08
출원번호
US-0609422
(2009-10-30)
등록번호
US-8416000
(2013-04-09)
우선권정보
JP-2007-117849 (2007-04-27)
발명자
/ 주소
Endo, Masami
출원인 / 주소
Semiconductor Energy Laboratory Co., Ltd.
대리인 / 주소
Fish & Richardson P.C.
인용정보
피인용 횟수 :
1인용 특허 :
24
초록▼
In a semiconductor device capable of radio communication, a stable clock signal is generated even if a reference clock signal for generating a clock signal has varied frequencies in each cycle. A clock signal generation circuit includes an edge detection circuit that detects an edge of an input sign
In a semiconductor device capable of radio communication, a stable clock signal is generated even if a reference clock signal for generating a clock signal has varied frequencies in each cycle. A clock signal generation circuit includes an edge detection circuit that detects an edge of an input signal and generates a synchronization signal, a reference clock signal generation circuit that generates a clock signal which functions as reference, a counter circuit that counts the number of edges of rise of the reference clock signal in accordance with the synchronization signal, a duty ratio selection circuit that selects a duty ratio of a clock signal from a count value, and a frequency division circuit that generates the clock signal having the selected duty ratio.
대표청구항▼
1. A clock signal generation circuit comprising: a reference clock signal generation circuit;an edge detection circuit configured to detect an edge of an input signal; anda duty ratio selection circuit,wherein the reference clock signal generation circuit is configured to generate a reference clock
1. A clock signal generation circuit comprising: a reference clock signal generation circuit;an edge detection circuit configured to detect an edge of an input signal; anda duty ratio selection circuit,wherein the reference clock signal generation circuit is configured to generate a reference clock signal and to output the reference clock signal to the duty ratio selection circuit, andwherein the clock signal generation circuit is configured to generate a clock signal by selecting a duty ratio, from data of a plurality of duty ratios stored in the duty ratio selection circuit, in accordance with a signal from the edge detection circuit. 2. The clock signal generation circuit according to claim 1 further comprising a frequency division circuit, wherein the frequency division circuit is configured to divide the reference clock signal and generate the clock signal having the duty ratio selected by the duty ratio selection circuit. 3. The clock signal generation circuit according to claim 1, wherein the duty ratio selection circuit comprises a memory portion and a duty ratio selection portion. 4. The clock signal generation circuit according to claim 1, wherein the edge detection circuit is any combination of a latch circuit, a NOT circuit, an AND circuit, an OR circuit, a NAND circuit, a NOR circuit, an EXOR circuit, and an EX-NOR circuit. 5. A semiconductor device comprising the clock signal generation circuit according to claim 1. 6. A clock signal generation circuit comprising: a reference clock signal generation circuit configured to generate a reference clock signal; anda duty ratio selection circuit,wherein the clock signal generation circuit is configured to generate a clock signal by comparing a difference in frequency between an input signal to the duty ratio selection circuit and the reference clock signal and by selecting a duty ratio from data of a plurality of duty ratios stored in the duty ratio selection circuit. 7. The clock signal generation circuit according to claim 6 further comprising an edge detection circuit, and a counter circuit, wherein the edge detection circuit is configured to detect an edge of an input signal to the edge detection circuit, wherein the counter circuit is configured to count the number of edges of the reference clock signal in accordance with a signal output from the edge detection circuit, andwherein a signal from the counter circuit is the input signal to the duty ratio selection circuit. 8. The clock signal generation circuit according to claim 6, wherein the duty ratio selection circuit comprises a memory portion and a duty ratio selection portion. 9. The clock signal generation circuit according to claim 7, wherein the edge detection circuit is any combination of a latch circuit, a NOT circuit, an AND circuit, an OR circuit, a NAND circuit, a NOR circuit, an EXOR circuit, and an EX-NOR circuit. 10. A semiconductor device comprising the clock signal generation circuit according to claim 6. 11. A clock signal generation circuit comprising: a counter circuit configured to count the number of edges of a reference clock signal in accordance with an input signal to the clock signal generation circuit;a duty ratio selection circuit configured to select a duty ratio, from data of a plurality of stored duty ratios, in accordance with a signal from the counter circuit and the reference clock signal,wherein the clock signal generation circuit is configured to generate a clock signal with the duty ratio selected at the duty ratio selection circuit. 12. The clock signal generation circuit according to claim 11 further comprising a reference clock signal generation circuit, wherein the reference clock signal generation circuit is configured to generate the reference clock signal and to output the reference clock signal to the duty ratio selection circuit and the counter circuit. 13. The clock signal generation circuit according to claim 11, wherein the duty ratio selection circuit comprises a memory portion and a duty ratio selection portion. 14. A semiconductor device comprising the clock signal generation circuit according to claim 11. 15. The clock signal generation circuit according to claim 11 further comprising a frequency division circuit, wherein the frequency division circuit is configured to divide the reference clock signal and generate the clock signal having the duty ratio selected by the duty ratio selection circuit.
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이 특허에 인용된 특허 (24)
Frankeny Richard F. (Elgin TX), Accurately generating precisely skewed clock signals.
Toyomura Yuji,JPX, Motor velocity controlling method employing detection of all side edges of phase signals of an encoder to generate control target values for updating a motor control command.
Miki, Kazuhiko; Nakamura, Yutaka, Semiconductor integrated circuit device operating in synchronism with clock and method for controlling duty of clock.
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