Table 3. duty-cycle rate-of-change register (0eh), Table 4. duty-cycle step-size register (0fh) – Rainbow Electronics MAX6641 User Manual

MAX6641

SMBus-Compatible Temperature Monitor with

Automatic PWM Fan-Speed Controller

______________________________________________________________________________________

11

Fan Instantaneous Duty Cycle (0Ah)

Read the fan instantaneous duty-cycle register to deter-
mine the duty cycle at PWMOUT at any time. The POR
state of the fan instantaneous duty-cycle register is 00h.

Remote- and Local-Diode

Fan-Start Temperature (0Bh, 0Ch)

These registers contain the temperature threshold val-
ues at which fan control begins in automatic mode. See
the Automatic PWM Duty-Cycle Control section for
details on setting the fan-start thresholds. The POR
state of the remote- and local-diode fan-start tempera-
ture registers is 00h.

Fan Configuration (0Dh)

The fan-configuration register controls the hysteresis
level, temperature step size, and whether the remote or
local diode controls the PWMOUT signal; see

Table

1.

Set bit D7 of the fan-configuration register to zero to set
the hysteresis value to 5

°C. Set bit D7 to 1 to set the

hysteresis value to 10

°C. Set bit D6 to zero to set the

fan-control temperature step size to 1

°C. Set bit D6 to 1

to set the fan-control temperature step size to 2

°C. Set

bit D5 to 1 to control the fan with the remote-diode’s
temperature reading. Set bit D4 to 1 to control the fan
with the local-diode’s temperature reading. If both bits
D5 and D4 are high, the device uses the highest PWM
value. If both bits D5 and D4 are zero, the MAX6641
runs in manual fan-control mode where only the value
written to the fan-target duty-cycle register (09h) con-
trols the PWMOUT duty cycle. In manual fan-control
mode, the value written to the fan-target duty-cycle reg-
ister is not limited by the value in the maximum duty-
cycle register. It is, however, clipped to 240 if a value
above 240 is written. The POR state of the fan-configu-
ration register is 00h.

Duty-Cycle Rate of Change (0Eh)

Bits D7, D6, and D5 of the duty-cycle rate-of-change
register set the time between increments of the duty
cycle. Each increment is 2/240 of the duty cycle; see

Table

3. This allows the time from 33% to 100% duty

cycle to be adjusted from 5s to 320s. The rate-of-
change control is always active in manual mode. To
make instant changes, set bits D7, D6, D5 = 000. The
POR state of the duty-cycle rate-of-change register is
A0h (1s time between increments).

Duty-Cycle Step Size (0Fh)

Bits D7–D4 of the duty-cycle step-size register change
the size of the duty-cycle change for each temperature
step. The POR state of the duty-cycle step-size register
is 50h; see

Table

4.

PWM Frequency Select (10h)

Set bits D7, D6, and D5 (select A, select B, and select
C) in the PWM frequency-select register to control the
PWMOUT frequency; see

Table

5. The POR state of the

PWM frequency select register is 40h, 33Hz. The lower
frequencies are usually used when driving the fan’s
power-supply pin as in the Typical Application Circuit,
with 33Hz being the most common choice. The 35kHz

D7, D6, D5

TIME BETWEEN

INCREMENTS (s)

TIME FROM 33%

TO 100% (s)

000

0

0

001

0.0625

5

010

0.1250

10

011

0.2500

20

100

0.5000

40

101

1.0000

80

110

2.0000

160

111

4.0000

320

Table

3. Duty-Cycle Rate-of-Change

Register (0Eh)

D7–D4

CHANGE IN DUTY

CYCLE PER

TEMPERATURE STEP

TEMPERATURE RANGE

FOR FAN CONTROL

(1

°C STEP, 33% TO 100%)

0000

0/240

N/A

0001

2/240

80.00

0010

4/240

40.00

0011

6/240

26.67

0100

8/240

20.00

0101

10/240

16.00

0110

12/240

13.33

0111

14/240

11.43

1000

16/240

10.00

1001

18/240

8.89

1010

20/240

8.00

1011

22/240

7.27

1100

24/240

6.67

1101

26/240

6.15

1110

28/240

5.71

1111

30/240

5.33

Table

4. Duty-Cycle Step-Size

Register (0Fh)