ADM1031ARQ-REEL7 ON Semiconductor, ADM1031ARQ-REEL7 Datasheet - Page 21
ADM1031ARQ-REEL7
Manufacturer Part Number
ADM1031ARQ-REEL7
Description
IC SENSOR 2-TEMP/FAN CTRL 16QSOP
Manufacturer
ON Semiconductor
Datasheet
1.ADM1031ARQ.pdf
(30 pages)
Specifications of ADM1031ARQ-REEL7
Rohs Status
RoHS non-compliant
Function
Fan Control, Temp Monitor
Topology
ADC, Comparator, Multiplexer, Register Bank
Sensor Type
External & Internal
Sensing Temperature
0°C ~ 100°C, External Sensor
Output Type
SMBus™
Output Alarm
Yes
Output Fan
Yes
Voltage - Supply
3 V ~ 5.5 V
Operating Temperature
0°C ~ 100°C
Mounting Type
Surface Mount
Package / Case
16-QSOP
PWM control.
3.3 V gate drive, low on−resistance, and can handle 3.5 A of
current. Other MOSFETs can be substituted based on the
system’s fan drive requirements.
ADM1031. This circuit allows the speed of the 2−wire fan
to be measured even though the fan has no dedicated Tach
signal. A series R
the fan commutation pulses into a voltage. This is accoupled
into the ADM1031 through the 0.01 mF capacitor. On−chip
signal conditioning allows accurate monitoring of fan speed.
For typical notebook fans drawing approximately 170 mA,
a 2 W R
server fans that draw more current, R
The smaller R
developed across the fan, and the fan then spins faster.
the TACH/AIN pin. The most important thing is that the
negative−going spikes are more than 250 mV in amplitude.
This is the case for most fans when R
of R
TACH/AIN pin are greater than 250 mV. This allows fan
speed to be reliably determined.
Figure 34. Interfacing the ADM1031 to a 3−Wire Fan
Figure 35. Interfacing the ADM1031 to a 2−Wire Fan
Figure 34 shows how a 3−wire fan can be driven using
The NDT3055L n−type MOSFET was chosen since it has
Figure 35 shows how a 2−wire fan can be connected to the
Figure 36 shows a typical plot of the sensing waveform at
SENSE
ADM1031
ADM1031
PWM_OUT
TACH/AIN
PWM_OUT
SENSE
TACH/AIN
can be reduced as long as the voltage spikes at the
value is suitable. For fans such as desktop or
SENSE
SENSE
3.3 V
3.3 V
3.3 V
10kW
TYPICAL
10kW
TYPICAL
10kΩ
TYPICAL
is, the better, since more voltage is
0.01μF
resistor in the fan circuit converts
TACH
TACH
SENSE
SENSE
+V
+V
Q1
NDT3055L
R SENSE
(2W TYPICAL)
Q1
NDT3055L
5.0 V OR 12 V
FAN
5.0 V OR 12 V
FAN
= 2 W. The value
can be reduced.
http://onsemi.com
21
Fan Speed Measurement
directly, because the fan speed can be less than 1000 RPM
and it would take several seconds to accumulate a
reasonably large and accurate count. Instead, the period of
the fan revolution is measured by gating an on−chip
11.25 kHz oscillator into the input of an 8−bit counter. The
fan speed measuring circuit is initialized on the rising edge
of a PWM high output if fan speed measurement is enabled
(Bit 2 and Bit 3 of Configuration Register 2 = 1). It then starts
counting on the rising edge of the second tach pulse and
counts for two fan tach periods, until the rising edge of the
fourth tach pulse, or until the counter overranges if the fan
tach period is too long. The measurement cycle repeats until
monitoring is disabled. The fan speed measurement is stored
in the fan speed reading register at address 0×08, 0×09. The
fan speed count is given by:
expected running speed of the fan by varying N, the speed
range. The oscillator frequency is set by Bit 7 and Bit 6 of
Fan
Characteristics Register 2 (0×21) as shown in Table 11.
Figure 37 shows how the fan measurements relate to the
PWM_OUT pulse trains.
Table 11. Oscillator Frequencies
The fan counter does not count the fan tach output pulses
Count = (f × 60)/R × N
The frequency of the oscillator can be adjusted to suit the
Bit 7
0
0
1
1
where:
Figure 36. Fan Speed Sensing Waveform at
Characteristics
f = 11.25 kHz
R = fan speed in RPM.
N = speed range (either 1, 2, 4, or 8)
Bit 6
0
1
0
1
N
1
2
4
8
TACH/AIN Pin
Register
Oscillator Frequency (kHz)
1
5.625
2.812
1.406
11.25
(0×20)
and
Fan
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