DT28F320J5-120 データシートの表示(PDF) - Intel
部品番号
コンポーネント説明
一致するリスト
DT28F320J5-120 Datasheet PDF : 51 Pages
| |||
1.0
28F320J5 and 28F640J5
Product Overview
The Intel StrataFlash® memory family contains high-density memories organized as 8 Mbytes or 4
Mwords (64-Mbit) and 4 Mbytes or 2 Mwords (32-Mbit). These devices can be accessed as 8- or
16-bit words. The 64-Mbit device is organized as sixty-four 128-Kbyte (131,072 bytes) erase
blocks while the 32-Mbits device contains thirty-two 128-Kbyte erase blocks. Blocks are
selectively and individually lockable and unlockable in-system. See the memory map in Figure 4
on page 12.
A Common Flash Interface (CFI) permits software algorithms to be used for entire families of
devices. This allows device-independent, JEDEC ID-independent, and forward- and backward-
compatible software support for the specified flash device families. Flash vendors can standardize
their existing interfaces for long-term compatibility.
Scaleable Command Set (SCS) allows a single, simple software driver in all host systems to work
with all SCS-compliant flash memory devices, independent of system-level packaging (e.g.,
memory card, SIMM, or direct-to-board placement). Additionally, SCS provides the highest
system/device data transfer rates and minimizes device and system-level implementation costs.
A Command User Interface (CUI) serves as the interface between the system processor and
internal operation of the device. A valid command sequence written to the CUI initiates device
automation. An internal Write State Machine (WSM) automatically executes the algorithms and
timings necessary for block erase, program, and lock-bit configuration operations.
A block erase operation erases one of the device’s 128-Kbyte blocks typically within one second—
independent of other blocks. Each block can be independently erased 100,000 times. Block erase
suspend mode allows system software to suspend block erase to read or program data from any
other block.
Each device incorporates a Write Buffer of 32 bytes (16 words) to allow optimum programming
performance. By using the Write Buffer, data is programmed in buffer increments. This feature can
improve system program performance by up to 20 times over non-Write Buffer writes.
Individual block locking uses a combination of bits, block lock-bits and a master lock-bit, to lock
and unlock blocks. Block lock-bits gate block erase and program operations while the master lock-
bit gates block lock-bit modification. Three lock-bit configuration operations set and clear lock-bits
(Set Block Lock-Bit, Set Master Lock-Bit, and Clear Block Lock-Bits commands).
The status register indicates when the WSM’s block erase, program, or lock-bit configuration
operation is finished.
The STS (STATUS) output gives an additional indicator of WSM activity by providing both a
hardware signal of status (versus software polling) and status masking (interrupt masking for
background block erase, for example). Status indication using STS minimizes both CPU overhead
and system power consumption. When configured in level mode (default mode), it acts as a RY/
BY# pin. When low, STS indicates that the WSM is performing a block erase, program, or lock-bit
configuration. STS-high indicates that the WSM is ready for a new command, block erase is
suspended (and programming is inactive), or the device is in reset/power-down mode.
Additionally, the configuration command allows the STS pin to be configured to pulse on
completion of programming and/or block erases.
Datasheet
7
Share Link: 