поискавой системы для электроныых деталей |
|
KM718FV4021H-7 датащи(PDF) 4 Page - Samsung semiconductor |
|
KM718FV4021H-7 датащи(HTML) 4 Page - Samsung semiconductor |
4 / 12 page Rev 1.0 KM718FV4021 128Kx36 & 256Kx18 SRAM - 4 - KM736FV4021 Dec. 1998 FUNCTION DESCRIPTION The KM736FV4021 and KM718FV4021 are 4,718,592 bit Synchronous Pipeline Mode SRAM. It is organized as 131,072words of 36 bits(or 262, 144 words of 18 bits)and is implemented in SAMSUNG ′s advanced CMOS technology. Single differential PECL level K clocks are used to initiate the read/write operation and all internal operations are self-timed. At the rising edge of K clock, All addresses, Write Enables, Synchronous Select and Data Ins are registered internally. Data outs are updated from output registers edge of the next rising edge of the K clock. An internal write data buffer allows write data to follow one cycle after addresses and controls. The package is 119(7x17) Ball Grid Array with balls on a 1.27mm pitch. Read Operation During reads, the address is registered during the frist clock edge, the internal array is read between this first edge and the second- edge, and data is captured in the output register and driven to the CPU during the second clock edge. SS is driven low during this cycle, signaling that the SRAM should drive out the data. During consecutive read cycles where the address is the same, the data output must be held constant without any glitches. This characteristic is because the SRAM will be read by devices that will operate slower than the SRAM frequency and will require multi- ple SRAM cycles to perform a single read operation. Write(Store) Operation All addresses and SW are sampled on the clock rising edge. SW is low on the rising clock. Write data is sampled on the rising clock, one cycle after write address and SW have been sampled by the SRAM. SS will be driven low during the same cycle that the Address, SW and SW[a:d] are valid to signal that a valid operation is on the Address and Control Input. Pipelined write are supported. This is done by using write data buffers on the SRAM that capture the write addresses on one write cycle, and write the array on the next write cycle. The "next write cycle" can actually be many cycles away, broken by a series of read cycles. Byte writes are supported. The byte write signals SW[a:d] signal which 9-bit bytes will be writen. Timing of SW[a:d] is the same as the SW signal. Bypass Read Operation Since write data is not fully written into the array on first write cycle, there is a need to sense the address in case a future read is to be done from the location that has not been written yet. For this case, the address comparator check to see if the new read address is the same as the contents of the stored write address Latch. If the contents match, the read data must be supplied from the stored write data latch with standard read timing. If there is no match, the read data comes from the SRAM array. The bypassing of the SRAM array occurs on a byte by byte basis. If one byte is written and the other bytes are not, read data from the last written will have new byte data from the write data buffer and the other bytes from the SRAM array. Low Power Dissipation Mode During normal operation, asynchronous signal ZZ must be pulled low. Low Power Mode is enabled by switching ZZ high. When the SRAM is in Power Down Mode, the outputs will go to a Hi-Z state and the SRAM will draw standby current. SRAM data will be pre- served and a recovery time(tZZR) is required before the SRAM resumes to normal operation. TRUTH TABLE K ZZ G SS SW SWa SWb SWc SWd DQa DQb DQc DQd Operation X H X X X X X X X Hi-Z Hi-Z Hi-Z Hi-Z Power Down Mode. No Operation X L H X X X X X X Hi-Z Hi-Z Hi-Z Hi-Z Output Disabled. ↑ L L H X X X X X Hi-Z Hi-Z Hi-Z Hi-Z Output Disabled. No Operation ↑ L L L H X X X X DOUT DOUT DOUT DOUT Read Cycle ↑ L X L L H H H H Hi-Z Hi-Z Hi-Z Hi-Z No Bytes Written ↑ L X L L L H H H DIN Hi-Z Hi-Z Hi-Z Write first byte ↑ L X L L H L H H Hi-Z DIN Hi-Z Hi-Z Write second byte ↑ L X L L H H L H Hi-Z Hi-Z DIN Hi-Z Write third byte ↑ L X L L H H H L Hi-Z Hi-Z Hi-Z DIN Write fourth byte ↑ L X L L L L L L DIN DIN DIN DIN Write all byte |
Аналогичный номер детали - KM718FV4021H-7 |
|
Аналогичное описание - KM718FV4021H-7 |
|
|
ссылки URL |
Конфиденциальность |
ALLDATASHEETRU.COM |
Вашему бизинису помогли Аллдатащит? [ DONATE ] |
Что такое Аллдатащит | реклама | контакт | Конфиденциальность | обмен ссыками | поиск по производителю All Rights Reserved©Alldatasheet.com |
Russian : Alldatasheetru.com | Korean : Alldatasheet.co.kr | Spanish : Alldatasheet.es | French : Alldatasheet.fr | Italian : Alldatasheetit.com Portuguese : Alldatasheetpt.com | Polish : Alldatasheet.pl | Vietnamese : Alldatasheet.vn Indian : Alldatasheet.in | Mexican : Alldatasheet.com.mx | British : Alldatasheet.co.uk | New Zealand : Alldatasheet.co.nz |
Family Site : ic2ic.com |
icmetro.com |