ADM1026JST-REEL 查看數據表(PDF) - Analog Devices
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ADM1026JST-REEL Datasheet PDF : 56 Pages
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ADM1026
Bit 3 of EEPROM Register 3 is used for EEPROM write protec-
tion. Setting this bit prevents accidental programming or era-
sure of the EEPROM. If an EEPROM write or erase operation
is attempted when this bit is set, the ADM1026 responds with
No Acknowledge. This bit is write-once and can only be cleared
by a power-on reset.
EEPROM Register 3 Bit 7 is used for clock extend. Program-
ming an EEPROM byte takes approximately 250 µs, which
would limit the SMBus clock for repeated or block write opera-
tions. Because EEPROM block read/write access is slow, it is
recommended that this clock extend bit typically be set to 1.
This allows the ADM1026 to pull SCL low and extend the
clock pulse when it cannot accept any more data.
ADM1026 SMBus Operations
The SMBus specification defines several protocols for different
types of read and write operations. The ones used in the
ADM1026 are discussed below. The following abbreviations are
used in the diagrams:
S Start
W Write
P Stop
A Acknowledge
R Read
A No Acknowledge
ADM1026 Write Operations
Send Byte
In this operation, the master device sends a single command
byte to a slave device, as follows:
1. The master device asserts a start condition on the SDA.
2. The master sends the 7-bit slave address followed by the
write bit (low).
3. The addressed slave device asserts an ACK on the SDA.
4. The master sends a command code.
5. The slave asserts ACK on the SDA.
6. The master asserts a stop condition on the SDA and the
transaction ends.
In the ADM1026, the send byte protocol is used to write a
register address to RAM for a subsequent single-byte read from
the same address or block read or write starting at that address.
This is illustrated in Figure 19.
1
2
3
4
56
S
SLAVE
ADDRESS
W
A
RAM
ADDRESS
(00h TO 6Fh)
A
P
Figure 19. Setting a RAM Address for Subsequent Read
If it is required to read data from the RAM immediately after
setting up the address, the master can assert a repeat start
condition immediately after the final ACK and carry out a
single byte read, block read, or block write operation without
asserting an intermediate stop condition.
Write Byte/Word
In this operation, the master device sends a command byte and
one or two data bytes to the slave device as follows:
1. The master device asserts a start condition on the SDA.
2. The master sends the 7-bit slave address followed by the
write bit (low).
3. The addressed slave device asserts an ACK on the SDA.
4. The master sends a command code.
5. The slave asserts an ACK on the SDA.
6. The master sends a data byte.
7. The slave asserts an ACK on the SDA.
8. The master sends a data byte (or may assert stop here.)
9. The slave asserts an ACK on the SDA.
10. The master asserts a stop condition on the SDA to end the
transaction.
In the ADM1026, the write byte/word protocol is used for four
purposes. The ADM1026 knows how to respond by the value of
the command byte and EEPROM Register 3.
The first purpose is to write a single byte of data to RAM. In
this case, the command byte is the RAM address from 00h to
6Fh and the (only) data byte is the actual data. This is illustrated
in Figure 20.
1
2
3
4
5 6 78
S
SLAVE
ADDRESS
W
A
RAM
ADDRESS
(00h TO 6Fh)
A
DATA
A
P
Figure 20. Single Byte Write to RAM
The protocol is also used to set up a 2-byte EEPROM address
for a subsequent read or block read. In this case, the command
byte is the high byte of the EEPROM address from 80h to 9Fh.
The (only) data byte is the low byte of the EEPROM address.
This is illustrated in Figure 21.
1
2
3
4
5
6
78
EEPROM
EEPROM
S
SLAVE
ADDRESS
W
A
ADDRESS
HIGH BYTE
A
ADDRESS
LOW BYTE
AP
(80h TO 9Fh) (00h TO FFh)
Figure 21. Setting an EEPROM Address
If it is required to read data from the EEPROM immediately
after setting up the address, the master can assert a repeat start
condition immediately after the final ACK and carry out a
single-byte read or block read operation without asserting an
intermediate stop condition. In this case, Bit 0 of EEPROM
Register 3 should be set.
The third use is to erase a page of EEPROM memory. EEPROM
memory can be written to only if it is previously erased. Before
writing to one or more EEPROM memory locations that are
already programmed, the page or pages containing those
locations must first be erased. EEPROM memory is erased by
writing an EEPROM page address plus an arbitrary byte of data
with Bit 2 of EEPROM Register 3 set to 1.
Rev. A | Page 14 of 56
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