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ADM1021AARQZ-R Datasheet(PDF) 10 Page - ON Semiconductor

Part No. ADM1021AARQZ-R
Description  Low Cost Microprocessor System Temperature Monitor Microcomputer
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Maker  ONSEMI [ON Semiconductor]
Homepage  http://www.onsemi.com
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ADM1021AARQZ-R Datasheet(HTML) 10 Page - ON Semiconductor

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ADM1021A
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Table 4. Configuration Register Bit Assignments
Bit
Name
Function
Power−On
Default
7
MASK1
0 = ALERT Enabled
1 = ALERT Masked
0
6
RUN/STOP
0 = Run
1 = Standby
0
5 to 0
Reserved
0
Conversion Rate Register
The lowest three bits of this register are used to program
the conversion rate by dividing the ADC clock by 1, 2, 4, 8,
16, 32, 64, or 128 to give conversion times from 125 ms
(Code 0x07) to 16 seconds (Code 0x00). This register can be
written to and read back over the SMBus. The higher five
bits of this register are unused and must be set to 0. Use of
slower conversion times greatly reduces the device power
consumption, as shown in Table 5.
Table 5. Conversion Rate Register Code
Data
Conversion/
Sec
Average Supply Current
mA Typ at VCC = 3.3 V
0x00
0.0625
150
0x01
0.125
150
0x02
0.25
150
0x03
0.5
150
0x04
1
150
0x05
2
150
0x06
4
160
0x07
8
180
0x08 to 0xFF
Reserved
Limit Registers
The ADM1021A has four limit registers to store local and
remote and high and low temperature limits. These registers
can be written to and read back over the SMBus. The high
limit registers perform a > comparison, while the low limit
registers perform a < comparison. For example, if the high
limit register is programmed as a limit of 80
°C, measuring
81
°C results in an alarm condition. Even though the
temperature measurement range is from 0
° to 127°C, it is
possible to program the limit register with negative values.
This is for backwards compatibility with the ADM1021.
Offset Register
An offset register is provided at Address 0x11. This allows
the user to remove errors from the measured remote
temperature. These errors can be introduced by clock noise
and PCB track resistance. See Table 6 for an example of
offset values.
The offset value is stored as an 8−bit, twos complement
value. The value of the offset is negative if the MSB of
Register 0x11 is 1, and is positive if the MSB of Register
0x11 is 0. This value is added to the remote temperature. The
offset register defaults to 0 at powerup. The offset register
range is −128
°C to +127°C.
Table 6. Offset Values
Offset Register
Remote Temperature
(0x11)
Offset
Value
(With Offset)
(Without
Offset)
1111 1100
−4
°C
14
°C
18
°C
1111 1111
−1
°C
17
°C
18
°C
0000 0000
0
°C
18
°C
18
°C
0000 0001
+1
°C
19
°C
18
°C
0000 0100
+4
°C
22
°C
18
°C
One−Shot Register
The one−shot register is used to initiate a single
conversion and comparison cycle when the ADM1021A is
in standby mode, after which the device returns to standby.
This is not a data register as such, and it is the write operation
that causes the one−shot conversion. The data written to this
address is irrelevant and is not stored.
Serial Bus Interface
Control of the ADM1021A is carried out via the serial bus.
The ADM1021A is connected to this bus as a slave device,
under the control of a master device. Note that the SMBus
and SCL pins are three−stated when the ADM1021A is
powered down and will not pull down the SMBus.
Address Pins
In general, every SMBus device has a 7−bit device address
(except for some devices that have extended 10−bit
addresses). When the master device sends a device address
over the bus, the slave device with that address responds.
The ADM1021A has two address pins, ADD0 and ADD1,
to allow selection of the device address so that several
ADM1021A’s can be used on the same bus, and/or to avoid
conflict with other devices. Although only two address pins
are provided, these are three−state and can be grounded, left
unconnected, or tied to VDD so that a total of nine different
addresses are possible, as shown in Table 7.
It should be noted that the state of the address pins is only
sampled at powerup, so changing them after powerup has no
effect.
Table 7. Device Addresses (Note 1)
ADD0
ADD1
Device Address
0
0
0011 000
0
NC
0011 001
0
1
0011 010
NC
0
0101 001
NC
NC
0101 010
NC
1
0101 011
1
0
1001 100
1
NC
1001 101
1
1
1001 110
1. ADD0 and ADD1 are sampled at powerup only.


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