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STK12C68-W35I PDF预览

STK12C68-W35I

更新时间: 2024-11-08 20:21:47
品牌 Logo 应用领域
SIMTEK 可编程只读存储器电动程控只读存储器电可擦编程只读存储器静态存储器光电二极管内存集成电路
页数 文件大小 规格书
4页 36K
描述
Non-Volatile SRAM, 8KX8, 35ns, CMOS, PDIP28, 0.600 INCH, PLASTIC, DIP-28

STK12C68-W35I 技术参数

是否Rohs认证: 不符合生命周期:Obsolete
包装说明:DIP, DIP28,.6Reach Compliance Code:unknown
ECCN代码:EAR99HTS代码:8542.32.00.41
风险等级:5.21Is Samacsys:N
最长访问时间:35 ns其他特性:STORE TO EEPROM SOFTWARE,HARDWARE, OR AUTOSTORE; RECALL SOFTWARE
JESD-30 代码:R-PDIP-T28JESD-609代码:e0
长度:36.83 mm内存密度:65536 bit
内存集成电路类型:NON-VOLATILE SRAM内存宽度:8
功能数量:1端口数量:1
端子数量:28字数:8192 words
字数代码:8000工作模式:ASYNCHRONOUS
最高工作温度:85 °C最低工作温度:-40 °C
组织:8KX8输出特性:3-STATE
可输出:YES封装主体材料:PLASTIC/EPOXY
封装代码:DIP封装等效代码:DIP28,.6
封装形状:RECTANGULAR封装形式:IN-LINE
并行/串行:PARALLEL峰值回流温度(摄氏度):240
电源:5 V认证状态:Not Qualified
座面最大高度:4.57 mm最大待机电流:0.0015 A
子类别:SRAMs最大压摆率:0.075 mA
最大供电电压 (Vsup):5.5 V最小供电电压 (Vsup):4.5 V
标称供电电压 (Vsup):5 V表面贴装:NO
技术:CMOS温度等级:INDUSTRIAL
端子面层:Tin/Lead (Sn85Pb15)端子形式:THROUGH-HOLE
端子节距:2.54 mm端子位置:DUAL
处于峰值回流温度下的最长时间:30宽度:15.24 mm
Base Number Matches:1

STK12C68-W35I 数据手册

 浏览型号STK12C68-W35I的Datasheet PDF文件第2页浏览型号STK12C68-W35I的Datasheet PDF文件第3页浏览型号STK12C68-W35I的Datasheet PDF文件第4页 
Using nvSRAM in RAID  
Controller Applications  
evens out the number of I/O requests per disk and  
greatly speeds up the disk access. The trouble with  
disk tuning is that it requires a lot of system adminis-  
tration time to accomplish, and when done, there is  
no guarantee that it will stay balanced. In a dynamic  
system the I/O load will change with time and there-  
fore will require constant tweaking to maintain peak  
efficiency. A better solution is to use an array of  
disks. The RAB defines an array of disks as “a col-  
lection of disks from one or more commonly acces-  
sible disk subsystems, combined with a body of  
Array Management Software (AMS)”.  
Introduction  
The term RAID (Redundant Array of Independent  
Disks) first appeared in papers written by Garth Gib-  
son, Randy Katz, and Dave Patterson of the Univer-  
sity of California at Berkeley. Since that time the  
number of manufacturers of RAID systems has  
expanded to over 100 companies with product lines  
that range from high end commercial products to  
lower cost controllers for the home market.  
The RAID advisory board (RAB) was formed in 1992  
to help minimize confusion within the industry by  
standardizing terminology and maintaining stan-  
dards for the classification and typing of controllers.  
The board is comprised of over 40 members and  
continues to promote the industry by encouraging  
the development of hardware components that are  
optimized for RAID applications. The goal of the  
RAB is to become a compliance verification and  
testing organization that will issue product approv-  
als, act as a regulatory agency, and assure users  
that the RAID level claimed by the manufacturer  
meets RAB standards. The RAB also will perform  
testing to certify that vendor hardware meets RAB  
requirements for Array-Ready Disks, and verify Disk  
Array Performance Benchmarks.  
Array Management Software is usually defined as  
firmware that executes in a dedicated control sys-  
tem rather than the host computer and has two  
major functions. Function one is to map the storage  
space available and optimize system balance to  
maximize disk I/O performance. Function two is to  
present storage to the operating environment as vir-  
tual disks by converting I/O requests to virtual disk I/  
O requests. This gives the appearance of a single  
large disk to the system and frees the administrator  
from constantly having to tweak the data distribu-  
tion. Disk arrays generally have improved I/O perfor-  
mance, and simpler storage management  
requirements than a string of parallel disks.  
RAID Theory Overview  
The next task facing the designer of RAID systems  
is to assure that data stored in the array can never  
be lost due to hardware failure. Major users of disk  
array systems such as banks, airlines, and credit  
agencies must be certain that they can never lose a  
disk in such a manner that the data stored on that  
disk is not recoverable. Even frequent and consci-  
entious backing up of all disk storage does not  
recover new data that has been written since the  
last backup cycle was performed. A solution to this  
data reliability problem is the use of a RAID Control-  
ler. RAID Controllers are defined with 7 levels:  
For disk I/O intensive systems there are two charac-  
teristics that act as the primary system performance  
bottlenecks:  
1. Data Seek Time  
2. I/O Transfer Rates  
It would seem logical that all that is required to  
reduce the time necessary for the computer to fetch  
data from the disk is to use multiple disks in parallel  
and distribute the data. While this solution sounds  
easy and cheap, the realities of life aren’t so simple.  
As any experienced system administrator can tell  
you 80% of the total I/O load of a system is directed  
at 20% of the I/O resources. This so-called 80/20  
rule requires that the I/O system be tuned to distrib-  
ute the load over the bank of parallel disks. This  
Level 0 - Data Striping  
Level 1 - Disk Mirroring  
Level 2 - Hamming Code  
Level 3 - Parallel Transfer Disks with Parity  
8-25  

与STK12C68-W35I相关器件

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STK12C68-W35M ETC

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8K x 8 AutoStore⑩ nvSRAM QuantumTrap⑩ CMOS No
STK12C68-W45 ETC

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8K x 8 AutoStore⑩ nvSRAM QuantumTrap⑩ CMOS No
STK12C68-W45I ETC

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8K x 8 AutoStore⑩ nvSRAM QuantumTrap⑩ CMOS No
STK12C68-W45M ETC

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8K x 8 AutoStore⑩ nvSRAM QuantumTrap⑩ CMOS No
STK12C68-W55 ETC

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8K x 8 AutoStore⑩ nvSRAM QuantumTrap⑩ CMOS No
STK12C68-W55I ETC

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8K x 8 AutoStore⑩ nvSRAM QuantumTrap⑩ CMOS No
STK12C68-W55M ETC

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8K x 8 AutoStore⑩ nvSRAM QuantumTrap⑩ CMOS No
STK12C68-WF25 SIMTEK

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8Kx8 AutoStore nvSRAM
STK12C68-WF25 CYPRESS

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64 Kbit (8K x 8) AutoStore nvSRAM
STK12C68-WF25I CYPRESS

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64 Kbit (8K x 8) AutoStore nvSRAM