參數(shù)資料
型號(hào): 24FC32-IP
廠商: Microchip Technology Inc.
英文描述: 32K 5.0V 1 MHz I 2 C Smart Serial EEPROM
中文描述: 32K的5.0V 1兆赫的I 2 C串行EEPROM智能
文件頁(yè)數(shù): 9/12頁(yè)
文件大?。?/td> 99K
代理商: 24FC32-IP
1996 Microchip Technology Inc.
DS21126B-page 3-9
24FC32
7.0
PAGE CACHE AND ARRAY
MAPPING
The cache is a 64 byte (8 pages x 8 bytes) FIFO buffer.
The cache allows the loading of up to 64 bytes of data
before the write cycle is actually begun, effectively
providing a 64-byte burst write at the maximum bus
rate. Whenever a write command is initiated, the cache
starts loading and will continue to load until a stop bit is
received to start the internal write cycle. The total length
of the write cycle will depend on how many pages are
loaded into the cache before the stop bit is given. Max-
imum cycle time for each page is 5 ms. Even if a page
is only partially loaded, it will still require the same cycle
time as a full page. If more than 64 bytes of data are
loaded before the stop bit is given, the address pointer
will' wrap around' to the beginning of cache page 0 and
existing bytes in the cache will be overwritten. The
device will not respond to any commands while the
write cycle is in progress.
7.1
Cache Write Starting at a Page
Boundary
If a write command begins at a page boundary
(address bits A2, A1 and A0 are zero), then all data
loaded into the cache will be written to the array in
sequential addresses. This includes writing across a 4K
block boundary. In the example shown below,
(Figure 7-1) a write command is initiated starting at
byte 0 of page 3 with a fully loaded cache (64 bytes).
The first byte in the cache is written to byte 0 of page 3
(of the array), with the remaining pages in the cache
written to sequential pages in the array. A write cycle is
executed after each page is written. Since the write
begins at page 3 and 8 pages are loaded into the
cache, the last 3 pages of the cache are written to the
next row in the array.
7.2
Cache Write Starting at a Non-Page
Boundary
When a write command is initiated that does not begin
at a page boundary (i.e., address bits A2, A1 and A0
are not all zero), it is important to note how the data is
loaded into the cache, and how the data in the cache is
written to the array. When a write command begins, the
first byte loaded into the cache is always loaded into
page 0. The byte within page 0 of the cache where the
load begins is determined by the three least significant
address bits (A2, A1, A0) that were sent as part of the
write command. If the write command does not start at
byte 0 of a page and the cache is fully loaded, then the
last byte(s) loaded into the cache will roll around to
page 0 of the cache and fill the remaining empty bytes.
If more than 64 bytes of data are loaded into the cache,
data already loaded will be overwritten. In the example
shown in Figure 7-2, a write command has been
initiated starting at byte 2 of page 3 in the array with a
fully loaded cache of 64 bytes. Since the cache started
loading at byte 2, the last two bytes loaded into the
cache will 'roll over' and be loaded into the first two
bytes of page 0 (of the cache). When the stop bit is
sent, page 0 of the cache is written to page 3 of the
array. The remaining pages in the cache are then
loaded sequentially to the array. A write cycle is
executed after each page is written. If a partially loaded
page in the cache remains when the STOP bit is sent,
only the bytes that have been loaded will be written to
the array.
7.3
Power Management
This design incorporates a power standby mode when
the device is not in use and automatically powers off
after the normal termination of any operation when a
stop bit is received and all internal functions are
complete. This includes any error conditions, ie. not
receiving an acknowledge or stop condition per the
two-wire
bus
specification.
incorporates V
DD
monitor circuitry to prevent
inadvertent writes (data corruption) during low-voltage
conditions. The V
DD
monitor circuitry is powered off
when the device is in standby mode in order to further
reduce power consumption.
The
device
also
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24FC32-ISM 32K 5.0V 1 MHz I 2 C Smart Serial EEPROM
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24FC32-ISM 制造商:MICROCHIP 制造商全稱:Microchip Technology 功能描述:32K 5.0V 1 MHz I 2 C Smart Serial EEPROM
24FC32-P 制造商:MICROCHIP 制造商全稱:Microchip Technology 功能描述:32K 5.0V 1 MHz I 2 C Smart Serial EEPROM
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