EVAL-ADT7467EBZ ON Semiconductor, EVAL-ADT7467EBZ Datasheet - Page 54
EVAL-ADT7467EBZ
Manufacturer Part Number
EVAL-ADT7467EBZ
Description
BOARD EVALUATION FOR ADT7467
Manufacturer
ON Semiconductor
Series
dBCool®r
Datasheet
1.ADT7467ARQZ.pdf
(77 pages)
Specifications of EVAL-ADT7467EBZ
Sensor Type
Temperature
Sensing Range
-40°C ~ 120°C
Interface
SMBus (2-Wire/I²C)
Sensitivity
±1.5°C
Voltage - Supply
3 V ~ 5.5 V
Embedded
No
Utilized Ic / Part
ADT7467
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
ADT7467
Enabling the THERM Trip Point as the Operating Point
Bits <4:2> of the dynamic T
enable/disable THERM monitoring to program the operating
point.
Dynamic T
<2> PHTR1 = 1 copies the Remote 1 current temperature to the
Remote 1 operating point register if THERM is asserted. The
operating point contains the temperature at which THERM is
asserted. This allows the system to run as quietly as possible
without affecting system performance.
PHTR1 = 0 ignores THERM assertions. The Remote 1
operating point register reflects its programmed value.
<3> PHTL = 1 copies the local current temperature to the local
temperature operating point register if THERM is asserted. The
operating point contains the temperature at which THERM is
asserted. This allows the system to run as quietly as possible
without affecting system performance.
PHTL = 0 ignores THERM assertions. The local temperature
operating point register reflects its programmed value.
<4> PHTR2 = 1 copies the Remote 2 current temperature to the
Remote 2 operating point register if THERM is asserted. The
operating point contains the temperature at which THERM is
asserted. This allows the system to run as quietly as possible
without affecting system performance.
PHTR2 = 0 ignores THERM assertions. The Remote 2
operating point register reflects its programmed value.
Enabling Dynamic T
Bits <7:5> of the dynamic T
enable/disable dynamic T
channels.
Dynamic T
<5> R1T = 1 enables dynamic T
temperature channel. The chosen T
adjusted based on the current temperature, operating point, and
high and low limits for this zone.
R1T = 0 disables dynamic T
is not adjusted, and the channel behaves as described in the
Automatic Fan Control Overview section.
<6> LT = 1 enables dynamic T
temperature channel. The chosen T
adjusted based on the current temperature, operating point, and
high and low limits for this zone.
LT = 0 disables dynamic T
is not adjusted, and the channel behaves as described in the
Enhancing System Acoustics section.
MIN
MIN
Control Register 1 (0x36)
Control Register 1 (0x36)
MIN
MIN
Control Mode
MIN
MIN
MIN
MIN
control on the temperature
control. The T
MIN
control Register 1 (0x36)
control Register 1 (0x36)
control. The T
MIN
control on the local
control on the Remote 1
MIN
MIN
value is dynamically
value is dynamically
MIN
MIN
value chosen
value chosen
Rev. 3 | Page 54 of 77 | www.onsemi.com
<7> R2T = 1 enables the dynamic T
temperature channel. The chosen T
adjusted based on the current temperature, operating point, and
high and low limits for this zone.
R2T = 0 disables dynamic T
is not adjusted, and the channel behaves as described in the
Enhancing System Acoustics section.
STEP 12: RAMP RATE FOR ACOUSTIC
ENHANCEMENT
The optimal ramp rate for acoustic enhancement can be
determined through system characterization after completing
the thermal optimization. If possible, the effect of each ramp
rate should be logged to determine the best setting for a given
solution.
Enhanced Acoustics Register 1 (0x62)
<2:0> ACOU selects the ramp rate for PWM1.
Enhanced Acoustics Register 2 (0x63)
<2:0> ACOU3 selects the ramp rate for PWM3.
<6:4> ACOU2 selects the ramp rate for PWM2.
Another way to view the ramp rates is as the time it takes for
the PWM output to ramp up from 0% to 100% duty cycle for an
instantaneous change in temperature. This can be tested by
000 = 1 time slot = 35 sec
001 = 2 time slots = 17.6 sec
010 = 3 time slots = 11.8 sec
011 = 5 time slots = 7 sec
100 = 8 time slots = 4.4 sec
101 = 12 time slots = 3 sec
110 = 24 time slots = 1.6 sec
111 = 48 time slots = 0.8 sec
000 = 1 time slot = 35 sec
001 = 2 time slots = 17.6 sec
010 = 3 time slots = 11.8 sec
011 = 5 time slots = 7 sec
100 = 8 time slots = 4.4 sec
101 = 12 time slots = 3 sec
110 = 24 time slots = 1.6 sec
111 = 48 time slots = 0.8 sec
000 = 1 time slot = 35 sec
001 = 2 time slots = 17.6 sec
010 = 3 time slots = 11.8 sec
011 = 5 time slots = 7 sec
100 = 8 time slots = 4.4 sec
101 = 12 time slots = 3 sec
110 = 24 time slots = 1.6 sec
111 = 48 time slots = 0.8 sec
MIN
control. The T
MIN
MIN
value is dynamically
control on the Remote 2
MIN
value chosen
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