VPP voltage generator for generating stable VPP voltage
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G05F-001/10
출원번호
UP-0341868
(2008-12-22)
등록번호
US-7675350
(2010-04-21)
우선권정보
KR-10-2005-0048301(2005-06-07)
발명자
/ 주소
Lee, Jeong Woo
출원인 / 주소
Hynix Semiconductor, Inc.
대리인 / 주소
Lowe Hauptman Ham & Berner, LLP
인용정보
피인용 횟수 :
2인용 특허 :
24
초록▼
The present invention relates to a VPP voltage generator that generates a stable VPP voltage. The VPP voltage generator of the present invention generates a stable VPP voltage. Therefore, power consumption can be saved, a precharge time of word line can be prevented from increasing and a tRCD charac
The present invention relates to a VPP voltage generator that generates a stable VPP voltage. The VPP voltage generator of the present invention generates a stable VPP voltage. Therefore, power consumption can be saved, a precharge time of word line can be prevented from increasing and a tRCD characteristic can be improved. It is thus possible to improve the operational performance of semiconductor memory devices.
대표청구항▼
What is claimed is: 1. A VPP voltage generator comprising: an enable control circuit configured to generate an enable control signal by comparing an output of the VPP voltage generator with a first reference voltage; an oscillator circuit for generating a pumping control signal in response to the e
What is claimed is: 1. A VPP voltage generator comprising: an enable control circuit configured to generate an enable control signal by comparing an output of the VPP voltage generator with a first reference voltage; an oscillator circuit for generating a pumping control signal in response to the enable control signal; a pumping circuit for performing a charge pumping operation in response to the pumping control signal, thus generating a VPP voltage which is the output of the VPP voltage generator; a VPP voltage detector for outputting first and second detection signals by comparing the VPP voltage with a second reference voltage; a first cycle control circuit for outputting a first cycle control signal and a second cycle control signal for decreasing a cycle of the pumping control signal in response to the first detection signal; and a second cycle control circuit for outputting a third cycle control signal and a fourth cycle control signal for increasing a cycle of the pumping control signal in response to the second detection signal. 2. The VPP voltage generator of claim 1, wherein the VPP voltage detector includes: a voltage divider circuit for dividing the VPP voltage according to a predetermined resistance ratio and outputs the divided voltage; a differential amplifier for comparing the divided voltage with the second reference voltage and outputs a compare signal according to the comparison result; and an output logic circuit for outputting the first and second detection signals in response to the compare signal. 3. The VPP voltage generator of claim 2, wherein the voltage divider circuit includes at least one fuse, and the resistance ratio of the voltage divider circuit is changed according to a cutting or non-cutting state of the fuse. 4. The VPP voltage generator of claim 2, wherein the differential amplifier is configured to output the compare signal as a high level when the divided voltage is lower than the second reference voltage, and the output logic circuit is configured to enable the first detection signal and disables the second detection signal when the compare signal is a high level. 5. The VPP voltage generator of claim 1, wherein the oscillator circuit includes: a pulse generator for outputting the pumping control signal in response to the enable control signal and a delay signal; and a delay circuit whose delay time is controlled according to the first, second third and fourth cycle control signals and outputs the delay signal. 6. The VPP voltage generator of claim 5, wherein the pulse generator includes: a first element for inverting the enable control signal and outputs an inverted control enable signal; a second element for outputting an internal signal in response to the inverted enable control signal and the delay signal; and a fourth element for generating the pumping control signal by inverting the internal signal. 7. The VPP voltage generator of claim 5, wherein when the first cycle control signal is disabled and the third cycle control signal is enabled, the delay time of the delay circuit is increased, and when the first cycle control signal is enabled and the third cycle control signal is disabled, the delay time of the delay circuit is reduced, when the delay time is increased, the cycle of the pumping control signal is increased, and when the delay time is reduced, the cycle of the pumping control signal is reduced and when the cycle of the pumping control signal is reduced, the pumping circuit raises the VPP voltage. 8. The VPP voltage generator of claim 5, wherein the delay circuit includes a plurality of delay control circuits that are connected in series between an output terminal of the second element and one of input terminals of the second element, and each of the plurality of delay control circuits includes: a first inverter for inverting an input signal received through an input node and outputs an inverted signal; a first unit delay circuit connected to the input node parallel to the fourth inverter, for delaying the input signal during a first unit time; a second unit delay circuit connected to the input node parallel to the fourth inverter, for delaying or not delaying the input signal for a second unit time in response to the first cycle control signal and the inverted first cycle control signal; and a third unit delay circuit connected to the input node parallel to the fourth inverter, for delaying or not delaying the input signal for a third unit time in response to the second cycle control signal and the inverted second cycle control signal. 9. The VPP voltage generator of claim 8, wherein the first unit delay circuit includes first capacitors connected to the input node in parallel, the second unit delay circuit includes: second capacitors; and first switching circuits, which are connected between the input node and the second capacitors, respectively, and are turned on or off in response to the first cycle control signal and the inverted first cycle control signal, and the third unit delay circuit includes: third capacitors; and second switching circuits, which are connected between the input node and the third capacitors, respectively, and are turned on or off in response to the second cycle control signal and the inverted second cycle control signal. 10. The VPP voltage generator of claim 1, wherein the enable control circuit is configured to enable the enable control signal if the VPP voltage is lower than the first reference voltage and the oscillator circuit is enabled when the enable control signal is enabled. 11. The VPP voltage generator of claim 6, wherein the second element includes a NOR gate.
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