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ADT7461A
http://onsemi.com
14
When reading data from a register there are two
possibilities.
1. If the address pointer register value of the
ADT7461A is unknown or not the desired value, it
is first necessary to set it to the correct value
before data can be read from the desired data
register. This is done by writing to the ADT7461A
as before, but only the data byte containing the
register read address is sent, because data is not to
be written to the register see Figure 16.
A read operation is then performed consisting of
the serial bus address, R/W
 bit set to 1, followed
by the data byte read from the data register see
Figure 17.
2. If the address pointer register is known to be at the
desired address, data can be read from the
corresponding data register without first writing to
the address pointer register and the bus transaction
shown in Figure 16 can be omitted.
NOTES:
1. It is possible to read a data byte from a data register without
first writing to the address pointer register. However, if the
address pointer register is already at the correct value, it is
not possible to write data to a register without writing to the
address pointer register because the first data byte of a write
is always written to the address pointer register.
2. Some of the registers have different addresses for read and
write operations. The write address of a register must be
written to the address pointer if data is to be written to that
register, but it may not be possible to read data from that
address. The read address of a register must be written to
the address pointer before data can be read from that
register.
ALERT
 Output
This is applicable when Pin 6 is configured as an ALERT
output. The ALERT
  output goes low whenever an
out-of-limit measurement is detected, or if the remote
temperature sensor is open circuit. It is an open-drain output
and requires a pullup resistor. Several ALERT
 outputs can
be wire-ORed together, so that the common line goes low
if one or more of the ALERT
 outputs goes low.
The ALERT
 output can be used as an interrupt signal to a
processor, or as an SMBALERT
. Slave devices on the SMBus
cannot normally signal to the bus master that they want to
talk, but the SMBALERT
 function allows them to do so.
One or more ALERT
  outputs can be connected to a
common SMBALERT
 line that is connected to the master.
When the SMBALERT
 line is pulled low by one of the
devices, the following procedure occurs (see Figure 18):
Figure 18. Use of SMBALERT
ALERT RESPONSE
ADDRESS
MASTER SENDS
ARA AND READ
COMMAND
DEVICE SENDS
ITS ADDRESS
RD
START
ACK
DEVICE
ADDRESS
NO
ACK
STOP
MASTER
RECEIVES
SMBALERT
1. SMBALERT
 is pulled low.
2. Master initiates a read operation and sends the
alert response 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 address. As the device address is seven
bits, an LSB of 1 is added. The address of the
device is now known and it can be interrogated in
the usual way.
4. If more than one devices ALERT
 output is low,
the one with the lowest device address takes
priority, in accordance with normal SMBus
arbitration.
Once the ADT7461A has responded to the alert response
address, it resets its ALERT
 output, provided that the error
condition that caused the ALERT
 no longer exists. If the
SMBALERT
 line remains low, the master sends the ARA
again, and so on until all devices whose ALERT
 outputs
were low have responded.
Low Power Standby Mode
The ADT7461A can be put into low power standby mode
by setting Bit 6 of the configuration register. When Bit 6 is
low, the ADT7461A operates normally. When Bit 6 is high,
the ADC is inhibited, and any conversion in progress is
terminated without writing the result to the corresponding
value register. However, the SMBus is still enabled. Power
consumption in the standby mode is reduced to 5 mA if there
is no SMBus activity, or 30 mA if there are clock and data
signals on the bus.
When the device is in standby mode, it is possible to
initiate a one-shot conversion of both channels by writing to
the one-shot register (Address 0x0F), after which the device
returns to standby. It does not matter what is written to the
one-shot register, all data written to it is ignored. It is also
possible to write new values to the limit register while in
standby mode. If the values stored in the temperature value
registers are outside the new limits, an ALERT
 is generated,
even though the ADT7461A is still in standby.
Sensor Fault Detection
At its D+ input, the ADT7461A contains internal sensor
fault detection circuitry. This circuit can detect situations
where an external remote diode is either not connected or
incorrectly connected to the ADT7461A. A simple voltage
comparator trips if the voltage at D+ exceeds V
DD
1 V
(typical), signifying an open circuit between D+ and D.
The output of this comparator is checked when a conversion
is initiated. Bit 2 of the status register (open flag) is set if a
fault is detected. If the ALERT
 pin is enabled, setting this
flag causes ALERT
 to assert low.
If the user does not wish to use an external sensor with the
ADT7461A, tie the D+ and D inputs together to prevent
continuous setting of the open flag.
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