MEMORY DEVICE AND SYSTEM SUPPORTING COMMAND BUS TRAINING, AND OPERATING METHOD THEREOF
원문보기
IPC분류정보
국가/구분
United States(US) Patent
공개
국제특허분류(IPC7판)
G11C-007/22
G11C-007/12
출원번호
US-0187967
(2016-06-21)
공개번호
US-0110169
(2017-04-20)
우선권정보
KR-10-2015-0146097 (2015-10-20)
발명자
/ 주소
KIM, Hye-Ran
OH, Tae-Young
출원인 / 주소
KIM, Hye-Ran
인용정보
피인용 횟수 :
0인용 특허 :
0
초록▼
A memory device and system supporting command bus training are provided. An operating method of the memory device includes entering into a command bus training mode, receiving a clock signal, a chip selection signal and a first command/address signal, generating an internal clock signal by dividing
A memory device and system supporting command bus training are provided. An operating method of the memory device includes entering into a command bus training mode, receiving a clock signal, a chip selection signal and a first command/address signal, generating an internal clock signal by dividing the clock signal, generating a second command/address signal by latching the first command/address signal at a rising edge or a falling edge of the internal clock signal when a chip selection signal is activated, and outputting the second command/address signal.
대표청구항▼
1. A command bus training method in a system in which a command/address signal and a clock signal are provided to a memory device from a memory controller, the command bus training method comprising: entering into a command bus training mode at the memory device;generating an internal clock signal i
1. A command bus training method in a system in which a command/address signal and a clock signal are provided to a memory device from a memory controller, the command bus training method comprising: entering into a command bus training mode at the memory device;generating an internal clock signal in the memory device by dividing the clock signal;transmitting a first command/address signal by the memory controller;transmitting a chip selection signal by the memory controller, the chip selection signal having an adjustable delay with respect to the internal clock signal;generating and transmitting by the memory device, a second command/address signal by latching the first command/address signal at a rising edge or a falling edge of the internal clock signal, when the chip selection signal is activated;comparing the first command/address signal with the second command/address signal by the memory controller; anddetermining a delay of the chip selection signal based on a plurality of comparison results corresponding to the adjustable delay of the chip selection signal. 2. The command bus training method of claim 1, wherein transmitting the chip selection signal comprises gradually changing the delay of the chip selection signal. 3. The command bus training method of claim 1, wherein determining the delay of the chip selection signal comprises determining median value of delays of the chip selection signal corresponding to comparison results as the delay of the chip selection signal, whereby the first and second command/address signals correspond to each other. 4. The command bus training method of claim 1, further comprising transmitting a phase selection signal by the memory controller, wherein generating the internal clock signal comprises:generating a plurality of internal clock signals having different phases by dividing the clock signal, andselecting one of the plurality of internal clock signals in response to the phase selection signal. 5. The command bus training method of claim 4, wherein transmitting the phase selection signal comprises changing the phase selection signal such that a non-selected internal clock signal among the plurality of internal clock signals is selected. 6. The command bus training method of claim 4, wherein a command/address bus and a data bus are connected between the memory controller and the memory device, and wherein the phase selection signal is transmitted through at least one signal line of the data bus or is transmitted to a data mask pad of the memory device. 7. The command bus training method of claim 4, wherein generating the plurality of internal clock signals comprises generating first and second internal clock signals having different phases by dividing the clock signal, and wherein, in the generating and transmitting by the memory device, the second command/address signal, the second command/address signal includes a first second command/address signal generated based on the first internal clock signal, and a second second command/address signal generated based on the second internal clock signal. 8. The command bus training method of claim 7, wherein the first and second internal clock signals have a phase difference of 180° with respect to each other. 9. The command bus training method of claim 1, wherein the chip selection signal has an active pulse width that is equal to or less than a cycle of the clock signal. 10. An operating method of a memory device supporting command bus training, the operating method comprising: entering into a mode of the command bus training;receiving a clock signal, a chip selection signal and a first command/address signal;generating first and second internal clock signals by dividing the clock signal, each of the first and second internal clock signals having the same frequency and different phases with respect to each other;generating a second command/address signal by latching the first command/address signal at a rising edge or a falling edge of one of the first and second internal clock signals when the chip selection signal is activated; andoutputting the second command/address signal to an outside of the memory device. 11. The operating method of claim 10, further comprising: receiving a phase selection signal,wherein the generating of the internal clock signal comprises selecting one of the first and second internal clock signals in response to the phase selection signal. 12. The operating method of claim 10, wherein each of the first and second internal clock signals has a phase difference of 180° with respect to each other. 13. The operating method of claim 10, wherein the memory device is connected to a memory controller through a command/address bus and a data bus, and wherein the phase selection signal is received through at least one signal line of the data bus or is transmitted to a data mask pad of the memory device. 14. The operating method of claim 10, further comprising: a memory controller connected to the memory device through a command/address bus that transmits a command signal or an address signal, and through a data bus that transmits data,wherein the first command/address signal is output through at least one signal line of the command/address bus, andwherein the second command/address signal is output through at least one data line of the data bus. 15. A method of command bus training for a semiconductor device, the method comprising: receiving a clock signal having a first frequency;generating internal clock signals based on the clock signal, each of the internal clock signals having a second frequency and different phases with respect to each other, wherein the second frequency is smaller than the first frequency;a) receiving a first command/address signal having variable delays with respect to a first internal clock signal of the internal clock signals;b) generating a second command/address signal based on the first command/address signal and the first internal clock signal;c) comparing the first command/address signal with the second command/address signal;repeating a), b), and c) with a different delay of the variable delays; anddetermining a delay of the first command/address signal based on the comparison results. 16. The method of claim 15, wherein the internal clock signals include the first internal clock signal and a second internal clock signal, the second internal clock signal has a phase difference of 180° with respect to the first internal clock signal, and wherein receiving the first command/address signal further includes receiving the first command/address signal having variable delays with respect to the second internal clock signal. 17. The method of claim 15, wherein the semiconductor device is connected to a controller through a command/address bus that transmits a command signal or an address signal, and through a data bus that transmits data, wherein receiving the first command/address signal includes receiving the first command/address signal from the controller through at least one signal line of the command/address bus, andwherein generating the second command/address signal includes transmitting the second command/address signal through at least one data line of the data bus. 18. The method of claim 15, wherein one of the internal clock signals is selected in response to a control signal, and wherein the control signal is received through a first data line of a data bus or a separated line. 19. The method of claim 15, wherein receiving the first command/address signal further includes receiving a chip selection signal having variable delays with respect to the first internal clock signal. 20. The method of claim 15, wherein the second frequency is ½ or ¼ frequency of the first frequency.
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