Table 5. pwm frequency select (10h) – Rainbow Electronics MAX6641 User Manual
Page 12
frequency setting is used for controlling fans that have
logic-level PWM input pins for speed control. Duty-
cycle resolution is decreased from 2/240 to 4/240 at the
35kHz frequency setting.
PWM Output
The PWMOUT signal is normally used in one of three
ways to control the fan’s speed:
1)
PWMOUT drives the gate of a MOSFET or the base
of a bipolar transistor in series with the fan’s power
supply. The Typical Application Circuit shows the
PWMOUT pin driving an n-channel MOSFET. In this
case, the PWM invert bit (D4 in register 02h) is set to
1.
Figure
5 shows PWMOUT driving a p-channel
MOSFET and the PWM invert bit must be set to zero.
2)
PWMOUT is converted (using an external circuit)
into a DC voltage that is proportional to duty cycle.
This duty-cycle-controlled voltage becomes the
power supply for the fan. This approach is less effi-
cient than 1), but can result in quieter fan operation.
Figure
6 shows an example of a circuit that con-
verts the PWM signal to a DC voltage. Because this
circuit produces a full-scale output voltage when
PWMOUT = 0V, bit D4 in register 02h should be set
to zero.
3)
PWMOUT directly drives the logic-level PWM
speed-control input on a fan that has this type of
input. This approach requires fewer external com-
ponents and combines the efficiency of 1) with the
low noise of 2). An example of PWMOUT driving a
fan with a speed-control input is shown in
Figure
7.
Bit D4 in register 02h should be set to 1 when this
configuration is used.
Whenever the fan has to start turning from a motionless
state, PWMOUT is forced high for 2s. After this spin-up
period, the PWMOUT duty cycle settles to the predeter-
mined value. If spin-up is disabled (bit 2 in the configu-
ration byte = 1), the duty cycle changes immediately
from zero to the nominal value, ignoring the duty-cycle
rate-of-change setting.
MAX6641
SMBus-Compatible Temperature Monitor with
Automatic PWM Fan-Speed Controller
12
______________________________________________________________________________________
PWM
FREQUENCY
(Hz)
SELECT A
SELECT B
SELECT C
20
0
0
0
33
0
1
0
50
1
0
0
100
1
1
0
35k
X
X
1
Table
5. PWM Frequency Select (10h)
V
CC
PWMOUT
10k
Ω
5V
P
Figure 5. Driving a P-Channel MOSFET for Top-Side PWM
Fan Drive
+3.3V
PWMOUT
18k
Ω
27k
Ω
10k
Ω
120k
Ω
P
+3.3V
+12V
500k
Ω
V
OUT
TO FAN
1
µF
1
µF
0.01
µF
Figure 6. Driving a Fan with a PWM-to-DC Circuit
V
CC
PWMOUT
4.7k
Ω
5V
Figure 7. Controlling a PWM Input Fan with the MAX6641’s
PWM Output (Typically, the 35kHz PWM Frequency is Used)