ADT7476AARQZ ON Semiconductor, ADT7476AARQZ Datasheet - Page 12
ADT7476AARQZ
Manufacturer Part Number
ADT7476AARQZ
Description
IC REMOTE THERM CTRLR 5V 24QSOP
Manufacturer
ON Semiconductor
Series
dBCool®r
Datasheet
1.ADT7476AARQZ.pdf
(67 pages)
Specifications of ADT7476AARQZ
Function
Fan Control, Temp Monitor
Topology
ADC, Comparator, Fan Speed Counter, Multiplexer, Register Bank
Sensor Type
External & Internal
Sensing Temperature
-40°C ~ 125°C, External Sensor
Output Type
SMBus™
Output Alarm
No
Output Fan
Yes
Voltage - Supply
3 V ~ 3.6 V
Operating Temperature
-40°C ~ 125°C
Mounting Type
Surface Mount
Package / Case
24-QSOP
Temperature Threshold
+ 150 C
Full Temp Accuracy
+/- 0.5 C
Digital Output - Bus Interface
SMBus
Digital Output - Number Of Bits
8 bit
Supply Voltage (max)
3.6 V
Supply Voltage (min)
3 V
Description/function
Remote Thermal Controller
Maximum Operating Temperature
+ 125 C
Minimum Operating Temperature
- 40 C
Supply Current
1.5 mA
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Write Operations
different types of read and write operations. The ones used
in the ADT7476A are discussed below. The following
abbreviations are used in the diagrams:
•
•
•
•
•
•
The ADT7476A uses the following SMBus write protocols.
Send Byte
command byte to a slave device, as follows:
a register address to RAM for a subsequent single-byte read
from the same address. This operation is illustrated in
Figure 21.
immediately after setting up the address, it can assert a repeat
start condition immediately after the final ACK and carry
out a single byte read without asserting an intermediate stop
condition.
Write Byte
and one data byte to the slave device, as follows:
The SMBus specification defines several protocols for
In this operation, the master device sends a single
For the ADT7476A, the send byte protocol is used to write
If the master is required to read data from the register
In this operation, the master device sends a command byte
S – START
P – STOP
R – READ
W– WRITE
A – ACKNOWLEDGE
A – NO ACKNOWLEDGE
1. The master device asserts a start condition on SDA.
2. The master sends the 7-bit slave address followed
3. The addressed slave device asserts ACK on SDA.
4. The master sends a command code.
5. The slave asserts ACK on SDA.
6. The master asserts a stop condition on SDA, and
1. The master device asserts a start condition on SDA.
2. The master sends the 7-bit slave address followed
Figure 21. Setting a Register Address for
by the write bit (low).
the transaction ends.
by the write bit (low).
SDA
SCL
START BY
MASTER
S
1
ADDRESS
SLAVE
Subsequent Read
2
1
0
W A
3
1
Figure 20. Reading Data from a Previously Selected Register
REGISTER
ADDRESS
SERIAL BUS ADDRESS BYTE
0
4
1
FRAME 1
A P
5 6
1
A1
http://onsemi.com
A0
R/W
ADT7476A
12
ACK. BY
9
Read Operations
protocols.
Receive Byte
register. The register address is set up beforehand. In this
operation, the master device receives a single byte from a
slave device, as follows:
read a single byte of data from a register whose address has
previously been set by a send byte or write byte operation.
This operation is illustrated in Figure 23.
Alert Response Address
devices, allowing an interrupting device to identify itself to
the host when multiple devices exist on the same bus.
This operation is illustrated in Figure 22.
The ADT7476A uses the following SMBus read
This operation is useful when repeatedly reading a single
In the ADT7476A, the receive byte protocol is used to
Alert response address (ARA) is a feature of SMBus
D7
3. The addressed slave device asserts ACK on SDA.
4. The master sends a command code.
5. The slave asserts ACK on SDA.
6. The master sends a data byte.
7. The slave asserts ACK on SDA.
8. The master asserts a stop condition on SDA,
1. The master device asserts a start condition on SDA.
2. The master sends the 7-bit slave address followed
3. The addressed slave device asserts ACK on SDA.
4. The master receives a data byte.
5. The master asserts NO ACK on SDA.
6. The master asserts a stop condition on SDA, and
1
Figure 23. Single-Byte Read from a Register
Figure 22. Single-Byte Write to a Register
and the transaction ends.
by the read bit (high).
the transaction ends.
D6
S
1
ADDRESS W A
SLAVE
D5
2
DATA BYTE FROM ADT7476A
1
S
ADDRESS
SLAVE
D4
2
FRAME 2
3
D3
REGISTER
ADDRESS
R
A
3
4
D2
DATA
4
D1
A
5
DATA
A P
5 6
6
D0
NO ACK. BY
MASTER
A P
7 8
9
STOP BY
MASTER
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