ADM1062ASUZ Analog Devices Inc, ADM1062ASUZ Datasheet - Page 28
ADM1062ASUZ
Manufacturer Part Number
ADM1062ASUZ
Description
IC SUPERVISOR/SEQUENCER 48-TQFP
Manufacturer
Analog Devices Inc
Type
Sequencerr
Datasheet
1.EVAL-ADM1062LFEB.pdf
(36 pages)
Specifications of ADM1062ASUZ
Number Of Voltages Monitored
10
Output
Programmable
Voltage - Threshold
Adjustable/Selectable
Operating Temperature
-40°C ~ 85°C
Mounting Type
Surface Mount
Package / Case
48-TQFP, 48-VQFP
For Use With
EVAL-ADM1062TQEBZ - BOARD EVALUATION FOR ADM1062TQEVAL-ADM1062LFEBZ - BOARD EVALUATION FOR ADM1062LF
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Reset
-
Reset Timeout
-
Available stocks
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Manufacturer:
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ADM1062
The device also has several identification registers (read-only)
that can be read across the SMBus. Table 13 lists these registers
with their values and functions.
Table 13. Identification Register Values and Functions
Name
MANID
REVID
MARK1
MARK2
General SMBus Timing
Figure 39, Figure 40, and Figure 41 are timing diagrams for
general read and write operations using the SMBus. The SMBus
specification defines specific conditions for different types of
read and write operations, which are discussed in the Write
Operations and Read Operations sections.
The general SMBus protocol operates as follows:
Step 1
The master initiates data transfer by establishing a start condition,
defined as a high-to-low transition on the serial data-line SDA,
while the serial clock-line SCL remains high. This indicates that
a data stream follows. All slave peripherals connected to the
serial bus respond to the start condition and shift in the next eight
bits, consisting of a 7-bit slave address (MSB first) plus an R/ W
bit. This bit determines the direction of the data transfer, that is,
whether data is written to or read from the slave device (0 =
write, 1 = read).
The peripheral whose address corresponds to the transmitted
address responds by pulling the data line low during the low
period before the ninth clock pulse, known as the acknowledge
bit, and by holding it low during the high period of this clock pulse.
Address
0xF4
0xF5
0xF6
0xF7
(CONTINUED)
(CONTINUED)
SDA
SCL
START BY
SDA
SCL
MASTER
Value
0x41
0x02
0x00
0x00
1
0
Manufacturer ID for Analog Devices
Silicon revision
Software brand
Software brand
Function
1
D7
0
D6
SLAVE ADDRESS
1
FRAME 1
D5
0
D4
1
DATA BYTE
FRAME 3
A1
D3
Figure 39. General SMBus Write Timing Diagram
A0
D2
R/W
ACK. BY
D1
SLAVE
Rev. B | Page 28 of 36
9
D0
ACK. BY
SLAVE
1
9
D7
D6
1
All other devices on the bus remain idle while the selected device
waits for data to be read from or written to it. If the R/ W bit is
a 0, the master writes to the slave device. If the R/ W bit is a 1,
the master reads from the slave device.
Step 2
Data is sent over the serial bus in sequences of nine clock pulses:
eight bits of data followed by an acknowledge bit from the slave
device. Data transitions on the data line must occur during the
low period of the clock signal and remain stable during the high
period because a low-to-high transition when the clock is high
could be interpreted as a stop signal. If the operation is a write
operation, the first data byte after the slave address is a command
byte. This command byte tells the slave device what to expect next.
It may be an instruction telling the slave device to expect a block
write, or it may be a register address that tells the slave where subse-
quent data is to be written. Because data can flow in only one
direction, as defined by the R/ W bit, sending a command to a
slave device during a read operation is not possible. Before a read
operation, it may be necessary to perform a write operation to
tell the slave what sort of read operation to expect and/or the
address from which data is to be read.
Step 3
When all data bytes have been read or written, stop conditions
are established. In write mode, the master pulls the data line
high during the 10th clock pulse to assert a stop condition. In
read mode, the master device releases the SDA line during the
low period before the ninth clock pulse, but the slave device
does not pull it low. This is known as a no acknowledge. The
master then takes the data line low during the low period
before the 10th clock pulse and then high during the 10th clock
pulse to assert a stop condition.
D7
D5
COMMAND CODE
D4
D6
FRAME 2
D5
D3
D4
DATA BYTE
D2
FRAME N
D3
D1
ACK. BY
D2
D0
SLAVE
9
D1
D0
ACK. BY
SLAVE
9
MASTER
STOP
BY
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