參數(shù)資料
型號(hào): X80001
廠商: Intersil Corporation
英文描述: Smart Power Plug Penta-Power Sequence Controller with Hot Swap
中文描述: 智能電源插頭五-序控制器電源熱插拔
文件頁(yè)數(shù): 33/37頁(yè)
文件大小: 695K
代理商: X80001
33
FN8148.0
March 18, 2005
Device Type Identifier MUST be set to 1010 in order to
select the device.
The next two bits (SA3 - SA2) are slave address bits. The
bits received via the SMBus are compared to A0 and A1
pins and must match or the communication is aborted.
The next bit, SA1, selects the device memory sector.
There are two addressable sectors: the memory array and
the control, fault detection and remote shutdown registers.
The Least Significant Bit of the Slave Address (SA0) Byte
is the R/W bit. This bit defines the operation to be
performed. When the R/W bit is “1”, then a READ
operation is selected. A “0” selects a WRITE operation
(Refer to Figure 39).
Serial Write Operations
In order to perform a write operation to either a Control
Register or the EEPROM array, the Write Enable Latch
(WEL) bit must first be set.
Writes to the WEL bit do not cause a high voltage write
cycle, so the device is ready for the next operation
immediately after the stop condition.
Byte Write
For a write operation, the device requires the Slave Address
Byte and a Word Address Byte. This gives the master
access to any one of the words in the array. After receipt of
the Word Address Byte, the device responds with an
acknowledge, and awaits the next eight bits of data. After
receiving the 8 bits of the Data Byte, the device again
responds with an acknowledge. The master then terminates
the transfer by generating a stop condition, at which time the
device begins the internal write cycle to the nonvolatile
memory. During this internal write cycle, the device inputs
are disabled, so the device will not respond to any requests
from the master. The SDA output is at high impedance.
A write to a protected block of memory will suppress the
acknowledge bit.
Page Write
The device is capable of a page write operation (See Figure
40). It is initiated in the same manner as the byte write
operation; but instead of terminating the write cycle after the
first data byte is transferred, the master can transmit an
unlimited number of 8-bit bytes. After the receipt of each
byte, the device will respond with an acknowledge, and the
address is internally incremented by one. The page address
remains constant. When the counter reaches the end of the
page, it “rolls over” and goes back to ‘0’ on the same page
(See Figure 41).
This means that the master can write 16 bytes to the page
starting at any location on that page. If the master begins
writing at location 10, and loads 12 bytes, then the first 6
bytes are written to locations 10 through 15, and the last 6
bytes are written to locations 0 through 5. Afterwards, the
address counter would point to location 6 of the page that
was just written. If the master supplies more than 16 bytes of
data, then new data overwrites the previous data, one byte
at a time.
The master terminates the Data Byte loading by issuing a
stop condition, which causes the device to begin the
nonvolatile write cycle. As with the byte write operation, all
inputs are disabled until completion of the internal write
cycle.
Stop and Write Modes
Stop conditions that terminate write operations must be sent
by the master after sending at least 1 full data byte plus the
subsequent ACK signal. If a stop is issued in the middle of a
data byte, or before 1 full data byte plus its associated ACK
is sent, then the device will reset itself without performing the
write. The contents of the array will not be effected.
Acknowledge Polling
The disabling of the inputs during high voltage cycles can be
used to take advantage of the typical 5ms write cycle time.
Once the stop condition is issued to indicate the end of the
master’s byte load operation, the device initiates the internal
high voltage cycle. Acknowledge polling can be initiated
immediately. To do this, the master issues a start condition
followed by the Slave Address Byte for a write or read
operation. If the device is still busy with the high voltage
cycle then no ACK will be returned. If the device has
completed the write operation, an ACK will be returned and
the host can then proceed with the read or write operation
(See Figure 44).
SA6
SA7
SA5
SA3
SA2
SA1
SA0
DEVICE TYPE
IDENTIFIER
READ /
WRITE
SA4
R/W
1
0
1
0
ADDRESS
EXTERNAL
DEVICE
Memory
Select
A1
A0
MS
INTERNAL
ADDRESS (SA1)
INTERNALLY ADDRESSED
DEVICE
0
EEPROM Array
1
Control Register,
Fault Detection Register,
Remote Shutdown Register
BIT SA0
OPERATION
0
WRITE
1
READ
FIGURE 39. SLAVE ADDRESS FORMAT
X80000, X80001
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