データシートサーチシステム |
|
FM18W08 データシート(PDF) 3 Page - Ramtron International Corporation |
|
FM18W08 データシート(HTML) 3 Page - Ramtron International Corporation |
3 / 11 page FM18W08 Rev. 2.0 Dec. 2011 Page 3 of 11 Overview The FM18W08 is a bytewide F-RAM memory. The memory array is logically organized as 32,768 x 8 and is accessed using an industry standard parallel interface. All data written to the part is immediately nonvolatile with no delay. Functional operation of the F-RAM memory is the same as SRAM type devices, except the FM18W08 requires a falling edge of /CE to start each memory cycle. Memory Architecture Users access 32,768 memory locations each with 8 data bits through a parallel interface. The complete 15-bit address specifies each of the 32,768 bytes uniquely. Internally, the memory array is organized into 4092 rows of 8-bytes each. This block segmentation has no effect on operation, however the user may wish to group data into blocks by its endurance characteristics as explained on page 4. The cycle time is the same for read and write memory operations. This simplifies memory controller logic and timing circuits. Likewise the access time is the same for read and write memory operations. When /CE is deasserted high, a precharge operation begins, and is required of every memory cycle. Thus unlike SRAM, the access and cycle times are not equal. Writes occur immediately at the end of the access with no delay. Unlike an EEPROM, it is not necessary to poll the device for a ready condition since writes occur at bus speed. It is the user’s responsibility to ensure that V DD remains within datasheet tolerances to prevent incorrect operation. Also proper voltage level and timing relationships between VDD and /CE must be maintained during power-up and power-down events. See Power Cycle Timing diagram on page 9. Memory Operation The FM18W08 is designed to operate in a manner similar to other bytewide memory products. For users familiar with BBSRAM, the performance is comparable but the bytewide interface operates in a slightly different manner as described below. For users familiar with EEPROM, the obvious differences result from the higher write performance of F-RAM technology including NoDelay writes and much higher write endurance. Read Operation A read operation begins on the falling edge of /CE. At this time, the address bits are latched and a memory cycle is initiated. Once started, a full memory cycle must be completed internally even if /CE goes inactive. Data becomes available on the bus after the access time has been satisfied. After the address has been latched, the address value may be changed upon satisfying the hold time parameter. Unlike an SRAM, changing address values will have no effect on the memory operation after the address is latched. The FM18W08 will drive the data bus when /OE is asserted low. If /OE is asserted after the memory access time has been satisfied, the data bus will be driven with valid data. If /OE is asserted prior to completion of the memory access, the data bus will not be driven until valid data is available. This feature minimizes supply current in the system by eliminating transients caused by invalid data being driven onto the bus. When /OE is inactive the data bus will remain tri-stated. Write Operation Writes occur in the FM18W08 in the same time interval as reads. The FM18W08 supports both /CE- and /WE-controlled write cycles. In all cases, the address is latched on the falling edge of /CE. In a /CE controlled write, the /WE signal is asserted prior to beginning the memory cycle. That is, /WE is low when /CE falls. In this case, the part begins the memory cycle as a write. The FM18W08 will not drive the data bus regardless of the state of /OE. In a /WE controlled write, the memory cycle begins on the falling edge of /CE. The /WE signal falls after the falling edge of /CE. Therefore, the memory cycle begins as a read. The data bus will be driven according to the state of /OE until /WE falls. The timing of both /CE- and /WE-controlled write cycles is shown in the electrical specifications. Write access to the array begins asynchronously after the memory cycle is initiated. The write access terminates on the rising edge of /WE or /CE, whichever is first. Data set-up time, as shown in the electrical specifications, indicates the interval during which data cannot change prior to the end of the write access. Unlike other truly nonvolatile memory technologies, there is no write delay with F-RAM. Since the read and write access times of the underlying memory are the same, the user experiences no delay through the bus. The entire memory operation occurs in a single bus cycle. Therefore, any operation including read or write can occur immediately following a write. Data polling, a technique used with EEPROMs to determine if a write is complete, is unnecessary. |
同様の部品番号 - FM18W08 |
|
同様の説明 - FM18W08 |
|
|
リンク URL |
プライバシーポリシー |
ALLDATASHEET.JP |
ALLDATASHEETはお客様のビジネスに役立ちますか? [ DONATE ] |
Alldatasheetは | 広告 | お問い合わせ | プライバシーポリシー | リンク交換 | メーカーリスト 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 |