AD7418ARMZ Analog Devices Inc, AD7418ARMZ Datasheet - Page 14
AD7418ARMZ
Manufacturer Part Number
AD7418ARMZ
Description
1CH. I2C ADC W/ON-CHIP TEMP SENSOR I.C.
Manufacturer
Analog Devices Inc
Datasheet
1.AD7418ARZ.pdf
(24 pages)
Specifications of AD7418ARMZ
Function
Temp Monitoring System (Sensor)
Topology
ADC, Comparator, Register Bank
Sensor Type
Internal
Sensing Temperature
-40°C ~ 125°C
Output Type
I²C™
Output Alarm
No
Output Fan
Yes
Voltage - Supply
2.7 V ~ 5.5 V
Operating Temperature
-40°C ~ 125°C
Mounting Type
Surface Mount
Package / Case
8-TSSOP, 8-MSOP (0.118", 3.00mm Width)
Number Of Elements
1
Resolution
10Bit
Architecture
SAR
Input Polarity
Unipolar
Input Type
Voltage
Rated Input Volt
2.5V
Differential Input
No
Power Supply Requirement
Single
Single Supply Voltage (typ)
3.3/5V
Single Supply Voltage (min)
2.7V
Single Supply Voltage (max)
5.5V
Dual Supply Voltage (typ)
Not RequiredV
Dual Supply Voltage (min)
Not RequiredV
Dual Supply Voltage (max)
Not RequiredV
Power Dissipation
450mW
Differential Linearity Error
±1LSB
Integral Nonlinearity Error
±1LSB
Operating Temp Range
-40C to 125C
Operating Temperature Classification
Automotive
Mounting
Surface Mount
Pin Count
8
Package Type
MSOP
Input Signal Type
Single-Ended
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
For Use With
EVAL-AD7416/7/8EBZ - BOARD EVALUATION FOR AD7416/7/8
Lead Free Status / Rohs Status
Compliant
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AD7416/AD7417/AD7418
Config2 Register (Address 0x05)
A second configuration register is included in the AD7417/
AD7418 for the functionality of the CONVST pin. It is an 8-bit
register with Bit D5 to Bit D0 being left at 0. Bit D7 determines
whether the AD7417/AD7418 should be operated in its default
mode (D7 = 0), performing conversions every 355 μs or in its
CONVST pin mode (D7 = 1), where conversions start only
when the CONVST pin is used. Bit 6 contains the Test 1 bit.
When this bit is 0, the I
this bit to 1 disables the filters.
Table 16. Config2 Register
D7
Conversion mode
SERIAL BUS INTERFACE
Control of the AD7416/AD7417/AD7418 is carried out via the
I
connected to this bus as a slave device, under the control of a
master device, for example, the processor.
Serial Bus Address
As with all I
have a 7-bit serial address. The four MSBs of this address for the
AD7416 are set to 1001; the AD7417 are set to 0101, and the
three LSBs can be set by the user by connecting the A2 to A0
pins to either V
up to eight AD7416/AD7417 devices can be connected to a
single serial bus, or the addresses can be set to avoid conflicts
with other devices on the bus. The four MSBs of this address for
the AD7418 are set to 0101, and the three LSBs are all set to 0.
If a serial communication occurs during a conversion operation,
the conversion stops and restarts after the communication.
The serial bus protocol operates as follows:
1.
2
C compatible serial bus. The AD7416/AD7417/AD7418 are
Figure 14. Ideal Transfer Function Characteristic for the AD7417/AD7418
The master initiates data transfer by establishing a start condi-
tion, defined as a high-to-low transition on the serial data
line, SDA, while the serial clock line, SCL, remains high.
This indicates that an address/data stream follows. All slave
peripherals connected to the serial bus respond to the 7-bit
address (MSB first) plus an R/ W bit, which determines the
000...010
000...001
000...000
111...000
011...111
111...111
111...110
2
C compatible devices, the AD7416/AD7417/AD7418
0V 1/2LSB
DD
or GND. By giving them different addresses,
D6
Test 1
2
C filters are enabled (default). Setting
D5
0
ANALOG INPUT
1LSB – VREF/1024
D4
0
+VREF – 1LSB
D3
0
D2
0
D1
0
Rev. I | Page 14 of 24
D0
0
2.
3.
Any number of bytes of data can be transferred over the serial
bus in one operation, but it is not possible to mix read and write
in one operation because the type of operation is determined at
the beginning and cannot subsequently be changed without
starting a new operation.
Writing to the AD7416/AD7417/AD7418
Depending on the register being written to, there are three
different writes for the AD7416/AD7417/AD7418.
•
•
direction of the data transfer, that is, whether data is written
to or read from the slave device.
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 acknowl-
edge bit. All other devices on the bus now 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, then the master writes to the
slave device. If the R/ W bit is a 1, then the master reads
from the slave device.
Data is sent over the serial bus in sequences of nine clock
pulses, eight bits of data followed by an acknowledge bit
from the receiver of 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 transi-
tion when the clock is high may be interpreted as a stop signal.
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 pulls the
data line high during the low period before the ninth clock
pulse. This is known as no acknowledge. The master then
takes the data line low during the low period before the
10th clock pulse, then high during the 10th clock pulse to
assert a stop condition.
Writing to the address pointer register for a subsequent read.
To read data from a particular register, the address pointer
register must contain the address of that register. If it does
not, the correct address must be written to the address pointer
register by performing a single-byte write operation, as shown
in Figure 15. The write operation consists of the serial bus
address followed by the address pointer byte. No data is
written to any of the data registers.
Writing a single byte of data to the configuration register, the
Config2 register, or to the T
registers.
The configuration register is an 8-bit register, so only one
byte of data can be written to it. If only 8-bit temperature
comparisons are required, the temperature LSB can be
ignored in T
written to the T
Writing a single byte of data to one of these registers consists
of the serial bus address, the data register address written
to the address pointer register, followed by the data byte
OTI
and T
OTI
setpoint and T
HYST
, and only eight bits need to be
OTI
setpoint or T
HYST
setpoint registers.
HYST
setpoint
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