ADM1021 View Datasheet(PDF) - Analog Devices
Part Name
Description
Manufacturer
ADM1021 Datasheet PDF : 12 Pages
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ADM1021
1
9
1
9
SCLK
SDATA
A6
START BY
MASTER
A5 A4 A3 A2 A1 A0 R/W
D7 D6 D5 D4 D3 D2 D1
FRAME 1
SERIAL BUS ADDRESS BYTE
ACK. BY
ADM1021
FRAME 2
DATA BYTE FROM ADM1021
Figure 15. Reading Data from a Previously Selected Register
D0
NO ACK. STOP BY
BY MASTER MASTER
ALERT OUTPUT
The ALERT output goes low whenever an out-of limit measure-
ment is detected, or if the remote temperature sensor is open-
circuit. It is an open-drain and requires a 10 kΩ pull-up to VDD.
Several ALERT outputs can be wire-ANDED together, so that
the common line will go low if one or more of the ALERT out-
puts goes low.
The ALERT output can be used as an interrupt signal to a
processor, or it may be used as an SMBALERT. Slave devices
on the SMBus can normally not signal to the master that they
want to talk, but the SMBALERT function allows them to do
so.
One or more ALERT outputs are connected to a common
SMBALERT line connected to the master. When the SMBALERT
line is pulled low by one of the devices, the following procedure
occurs as illustrated in Figure 16.
MASTER
RECEIVES
SMBALERT
START
ALERT RESPONSE ADDRESS
RD
ACK
DEVICE ADDRESS
NO
ACK
STOP
MASTER SENDS
ARA AND READ
COMMAND
DEVICE SENDS
ITS ADDRESS
Figure 16. Use of SMBALERT
1. SMBALERT pulled low.
2. Master initiates a read operation and sends the Alert Re-
sponse Address (ARA = 0001 100). This is a general call
address that must not be used as a specific device address.
3. The device whose ALERT output is low responds to the
Alert Response Address and the master reads its device ad-
dress. The address of the device is now known and it can be
interrogated in the usual way.
4. If more than one device’s ALERT output is low, the one with
the lowest device address, will have priority, in accordance
with normal SMBus arbitration.
5. Once the ADM1021 has responded to the Alert Response
Address, it will reset its ALERT output, provided that the
error condition that caused the ALERT no longer exists. If
the SMBALERT line remains low, the master will send
ARA again, and so on until all devices whose ALERT out-
puts were low have responded.
LOW POWER STANDBY MODES
The ADM1021 can be put into a low power standby mode
using hardware or software, that is by taking the STBY input
low, or by setting Bit 6 of the Configuration Register. When
STBY is high, or Bit 6 is low, the ADM1021 operates normally.
When STBY is pulled low or Bit 6 is high, the ADC is inhibited,
any conversion in progress is terminated without writing the
result to the corresponding value register.
The SMBus is still enabled. Power consumption in the standby
mode is reduced to less than 10 µA if there is no SMBus activ-
ity, or 100 µA if there are clock and data signals on the bus.
These two modes are similar but not identical. When STBY is
low, conversions are completely inhibited. When Bit 6 is set but
STBY is high, a one-shot conversion of both channels can be
initiated by writing XXh to the One-Shot Register (address 0Fh).
SENSOR FAULT DETECTION
The ADM1021 has a fault detector at the D+ input that detects
if the external sensor diode is open-circuit. This is a simple
voltage comparator that trips if the voltage at D+ exceeds VCC –
1 V (typical). The output of this comparator is checked when a
conversion is initiated, and sets Bit 2 of the Status Register if a
fault is detected.
If the remote sensor voltage falls below the normal measuring
range, for example due to the diode being short-circuited, the
ADC will output –128°C (1000 0000). Since the normal operat-
ing temperature range of the device only extends down to –55°C,
this output code should never be seen in normal operation, so it
can be interpreted as a fault condition. Since it will be outside
the power-on default low temperature limit (–55°C) and any
low limit that would normally be programmed, a short-circuit
sensor will cause an SMBus alert.
In this respect, the ADM1021 differs from and improves upon
competitive devices that output zero if the external sensor goes
short-circuit. These devices can misinterpret a genuine 0°C
measurement as a fault condition.
If the external diode channel is not being used and it is shorted
out, then the resulting ALERT may be cleared by writing 80h
(–128°C) to the low limit register.
–10–
REV. 0
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