MAX34441 MAXIM [Maxim Integrated Products], MAX34441 Datasheet - Page 24

MAX34441

Manufacturer Part Number

MAX34441

Description

PMBus 5-Channel Power-Supply Manager and Intelligent Fan Controller

Manufacturer

MAXIM [Maxim Integrated Products]

Datasheet

1.MAX34441.pdf (53 pages)

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PMBus 5-Channel Power-Supply Manager

and Intelligent Fan Controller

One or all of the six available temperature sensors can

be used to control the fan speed. Each temperature

sensor has an offset adjustment that allows monitor-

ing specific temperature zones with different thermal

characteristics. In Figure 1, I

monitoring a zone that is 15NC more sensitive than the

zone that the I

To keep the audible noise and fan power consumption

as low as possible, the device allows each temperature

sensor to have a temperature offset added. This allows

temperature zones with different thermal profiles to con-

trol the fan at the lowest possible speed to maintain the

required temperature.

If no temperature sensors are assigned to control the fan,

the output fan PWM signal is ramped to 100% duty cycle.

In Figure 2, at temperature sample 1, the required fan

speed is at the level associated with temperature level

2 and since temperature sample 1 is above temperature

level 3, the fan PWM duty cycle needs to be increased

to increase the fan speed. The device increases the fan

PWM duty cycle at a rate controlled by the RAMP bits in

the MFR_FAN_CONFIG command code. If the PWM duty

cycle has not reached the target value before the tem-

perature sample detects that a new PWM target value is

needed, the device stops moving toward the old target

Figure 2. Fan Speed Example

C temperature sensor 3 is measuring.

HYSTERESIS

C temperature sensor 0 is

THERMAL

TEMPERATURE

SENSOR

ELAPSED TIME

SAMPLE 1

SAMPLE 2

SAMPLED TEMPERATURES

and starts moving to the new target according to the

programmed ramp rate.

At temperature sample 2, the temperature has increased

to greater than temperature level 4 so again the PWM

duty cycle must be increased. At temperature sample

3, the temperature has dropped but not below the ther-

mal hysteresis level (which is set by the HYS bits in the

MFR_FAN_CONFIG command code), so the fan speed

remains at level 4. At temperature sample 4, the tem-

perature has dropped below the hysteresis point so the

PWM duty cycle is decreased.

In some 3-wire fan applications, when the supply power

is interrupted to control fan speed, the tachometer sig-

nal is not available. Some fan controllers periodically

stretch the PWM signal to allow the tachometer to be

accurately detected. Pulse stretching can create audible

noise. This device does not implement pulse stretch-

ing. Hence, the RPM fan modes that require a reliable

tachometer signal to be available at all times should

not be used in applications that switch power to the fan

to control the speed of the fan. For example, low-side

switching of a 3-wire fan should not use either of the RPM

fan modes.

TEMPERATURE SAMPLE RATE

SAMPLE 3

(ONCE PER SECOND)

SAMPLE 4

FAN SPEED

Pulse Stretching

MAX34441 MAXIM [Maxim Integrated Products], MAX34441 Datasheet - Page 24

MAX34441

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