FM24CL64-G Ramtron, FM24CL64-G Datasheet - Page 5
FM24CL64-G
Manufacturer Part Number
FM24CL64-G
Description
F-RAM 64K (8Kx8) 2.7V
Manufacturer
Ramtron
Datasheet
1.FM24CL64-G.pdf
(13 pages)
Specifications of FM24CL64-G
Memory Size
64 KB
Organization
8 K x 8
Interface
2-Wire
Operating Supply Voltage
2.7 V to 3.6 V
Operating Temperature Range
- 40 C to + 85 C
Package / Case
SOIC-8
Mounting Style
SMD/SMT
Lead Free Status / Rohs Status
Details
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Part Number:
FM24CL64-G
Manufacturer:
RAMTRON
Quantity:
20 000
Company:
Part Number:
FM24CL64-GTR
Manufacturer:
ramtron
Quantity:
10 000
Part Number:
FM24CL64-GTR
Manufacturer:
RAMTROM
Quantity:
20 000
Addressing Overview
After the FM24CL64 (as receiver) acknowledges the
device address, the master can place the memory
address on the bus for a write operation. The address
requires two bytes. The first is the MSB. Since the
device uses only 13 address bits, the value of the
upper three bits are “don’t care”. Following the MSB
is the LSB with the remaining eight address bits. The
address value is latched internally. Each access
causes the latched address value to be incremented
automatically. The current address is the value that is
held in the latch -- either a newly written value or the
address following the last access. The current address
will be held for as long as power remains or until a
new value is written. Reads always use the current
address. A random read address can be loaded by
beginning a write operation as explained below.
After transmission of each data byte, just prior to the
acknowledge, the FM24CL64 increments the internal
address latch. This allows the next sequential byte to
be accessed with no additional addressing. After the
last address (1FFFh) is reached, the address latch will
roll over to 0000h. There is no limit to the number of
bytes that can be accessed with a single read or write
operation.
Data Transfer
After the address information has been transmitted,
data transfer between the bus master and the
FM24CL64 can begin. For a read operation the
FM24CL64 will place 8 data bits on the bus then wait
for an acknowledge from the master. If the
acknowledge occurs, the FM24CL64 will transfer the
next sequential byte. If the acknowledge is not sent,
the FM24CL64 will end the read operation. For a
write operation, the FM24CL64 will accept 8 data
bits from the master then send an acknowledge. All
data transfer occurs MSB (most significant bit) first.
Rev. 3.4
Feb. 2011
1
7
Slave ID
0
6
Figure 4. Slave Address
1
5
0
4
A2
3
Device Select
A1
2
A0
1
R/W
0
Memory Operation
The FM24CL64 is designed to operate in a manner
very similar to other 2-wire interface memory
products. The major differences result from the
higher performance write capability of F-RAM
technology. These improvements result in some
differences between the FM24CL64 and a similar
configuration
complete operation for both writes and reads is
explained below.
Write Operation
All writes begin with a device address, then a
memory address. The bus master indicates a write
operation by setting the LSB of the device address
to a 0. After addressing, the bus master sends each
byte of data to the memory and the memory
generates an acknowledge condition. Any number of
sequential bytes may be written. If the end of the
address range is reached internally, the address
counter will wrap from 1FFFh to 0000h.
Unlike other nonvolatile memory technologies,
there is no effective 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 cycle occurs in
less time than a single bus clock. Therefore, any
operation including read or write can occur
immediately following a write. Acknowledge
polling, a technique used with EEPROMs to
determine if a write is complete is unnecessary and
will always return a ready condition.
Internally, an actual memory write occurs after the
8
the acknowledge is sent. Therefore, if the user
desires to abort a write without altering the memory
contents, this should be done using start or stop
condition prior to the 8
uses no page buffering.
The memory array can be write protected using the
WP pin. Setting the WP pin to a high condition
(V
FM24CL64 will not acknowledge data bytes that are
written to protected addresses. In addition, the
address counter will not increment if writes are
attempted to these addresses. Setting WP to a low
state (V
down internally.
Figure 5 below illustrates both a single-byte and
multiple-byte write cycles.
th
DD
data bit is transferred. It will be complete before
)
SS
will
) will deactivate this feature. WP is pulled
write-protect
EEPROM
th
data bit. The FM24CL64
during
all
addresses.
writes.
FM24CL64
Page 5 of 13
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