ADT7476AARQZ 查看數據表(PDF) - ON Semiconductor
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ADT7476AARQZ Datasheet PDF : 67 Pages
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ADT7476A
Interrupt Mask Register 2 (0x75)
Bit 7 (D2) = 1, masks SMBALERT for Diode 2 errors.
Bit 6 (D1) = 1, masks SMBALERT for Diode 1 errors.
Bit 5 (FAN4) = 1, masks SMBALERT for Fan 4 failure.
If the TACH4 pin is being used as the THERM input, this
bit masks SMBALERT for a THERM event. If the TACH4
pin is being used as GPIO6, setting this bit masks interrupts
related to GPIO6.
Bit 4 (FAN3) = 1, masks SMBALERT for Fan 3.
Bit 3 (FAN2) = 1, masks SMBALERT for Fan 2.
Bit 2 (FAN1) = 1, masks SMBALERT for Fan 1.
Bit 1 (OVT) = 1, masks SMBALERT for overtemperature
(exceeding THERM temperature limits).
Bit 0 (12V/VC) = 1, masks SMBALERT for 12 V channel
or for a VID code change, depending on the function used.
Enabling the SMBALERT Interrupt Output
The SMBALERT interrupt function is disabled by
default. Pin 10 or Pin 14 can be reconfigured as an
SMBALERT output to signal out-of-limit conditions.
Table 11. Configuring Pin 10 as SMBALERT Output
Register
Configuration Register 3
(0x78)
Bit Setting
[1] Pin 10 = SMBALERT
[0] Pin 10 = PWM2
Assigning THERM Functionality to a Pin
Pin 14 on the ADT7476A has four possible functions:
SMBALERT, THERM, GPIO6, and TACH4. The user
chooses the required functionality by setting Bit 0 and Bit 1
of Configuration Register 4 (0x7D).
If THERM is enabled on Bit 1, Configuration Register 3
(0x78):
• Pin 22 becomes THERM.
• If Pin 14 is configured as THERM on Bit 0 and Bit 1 of
Configuration Register 4 (0x7D), THERM is enabled
on this pin.
If THERM is not enabled:
• Pin 22 becomes a 2.5 V measurement input.
• If Pin 14 is configured as THERM, then THERM is
disabled on this pin.
Table 12. Configuring Pin 14
Bit 1
Bit 0
0
0
0
1
1
0
1
1
Function
TACH4
THERM
SMBALERT
GPIO6
THERM as an Input
When THERM is configured as an input, the user can time
assertions on the THERM pin. This can be useful for
connecting to the PROCHOT output of a CPU to gauge
system performance.
When the THERM pin is driven low externally, the user
can also set up the ADT7476A to run the fans at 100%. The
fans run at 100% for the duration of time that the THERM
pin is pulled low. This is done by setting the BOOST bit
(Bit 2) in Configuration Register 3 (0x78) to 1. This works
only if the fan is already running, for example, in manual
mode, when the current duty cycle is above 0x00, or in
automatic mode when the temperature is above TMIN.
If the temperature is below TMIN or if the duty cycle in
manual mode is set to 0x00, pulling the THERM low
externally has no effect. See Figure 31 for more information.
TMIN
THERM
THERM ASSERTED TO LOW AS AN INPUT:
FANS DO NOT GO TO 100% BECAUSE
TEMPERATURE IS BELOW TMIN
.
THERM ASSERTED TO LOW AS AN INPUT:
FANS GO TO 100% BECAUSE TEMPERATURE
IS ABOVE TMIN AND FANS ARE ALREADY RUNNING.
Figure 31. Asserting THERM Low as an Input in
Automatic Fan Speed Control Mode
THERM Timer
The ADT7476A has an internal timer to measure THERM
assertion time. For example, the THERM input can be
connected to the PROCHOT output of a Pentium 4 CPU to
measure system performance. The THERM input can also
be connected to the output of a trip-point temperature sensor.
The timer is started on the assertion of the ADT7476A’s
THERM input and stopped when THERM is de-asserted.
The timer counts THERM times cumulatively; that is, the
timer resumes counting on the next THERM assertion. The
THERM timer continues to accumulate THERM assertion
times until the timer is read (where it is cleared), or until it
reaches full scale. If the counter reaches full scale, it stops
at that reading until cleared.
The 8-bit THERM timer status register (0x79) is designed
so that Bit 0 is set to 1 on the first THERM assertion. Once
the cumulative THERM assertion time has exceeded
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