EVAL-ADT7473EBZ ON Semiconductor, EVAL-ADT7473EBZ Datasheet - Page 38

EVAL-ADT7473EBZ

Manufacturer Part Number

EVAL-ADT7473EBZ

Description

BOARD EVALUATION FOR ADT7473

Manufacturer

ON Semiconductor

Series

dBCool®r

Type

Temperature Sensorr

Datasheet

1.ADT7473ARQZ-1RL.pdf (74 pages)

Specifications of EVAL-ADT7473EBZ

Contents

Evaluation Board

For Use With/related Products

ADT7473

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Current page: 38 of 74
Download datasheet (2Mb)

Step 6: T

fan control occurs once the programmed T

is exceeded. T

value, that is, a T

PWM

effective T

following procedure:

PWM

remains the same. The higher the PWM

smaller the effective T

Figure 56. T

The T

Figure 57 shows how adjusting PWM

RANGE

1. Determine the maximum operating temperature for

2. Determine experimentally the fan speed (PWM

3. Determine the slope of the required control loop to

4. Graphically program and visualize this

Figure 57. Adjusting PWM

MIN

that channel (for example, 70°C).

duty cycle value) that does not exceed the

temperature at the worst−case operating points (for

example, 70°C is reached when the fans are

running at 50% PWM duty cycle).

meet these requirements.

functionality using the ADT7473/ADT7473−1

evaluation software.

PWM

RANGE

100%

RANGE

100%

50%

33%

= 33%. If PWM

is changed, T

RANGE

is the range of temperature over which automatic

MIN

is implemented as a slope, which means that as

RANGE

or fan control slope is determined by the

for Temperature Channels

changes. Refer to Figure 56.

RANGE

MIN

is a temperature slope, not an arbitrary

Parameter Affects Cooling Slope

MIN

RANGE

MIN

of 40°C holds true only for

, that is, the fan reaches full

305C

is increased or decreased, the

changes, but the actual slope

MIN

405C

RANGE

TEMPERATURE

Affects T

MIN

affects T

MIN

RANGE

temperature

value, the

RANGE

http://onsemi.com

speed (100%) at a lower temperature. Figure 58 shows how

increasing PWM

fan runs at full speed for different PWM

easily calculated as follows:

Max DC is the maximum duty cycle (100%) = 255 decimal.

Min DC is equal to PWM

Example 1

PWM

Example 2

40°C, and PWM

Example 3

40°C, and PWM

MAX

MIN

RANGE

MAX

For a given T

Calculate T, given that T

Calculate T

Figure 58. Increasing PWM

where:

MIN

MAX

is the temperature at which the fan turns on.

is the temperature at which the fan runs full speed.

= T

= 30°C + (100% − 10%) x 40°C/170

= 30°C + (255 − 26) x 40°C/170

= 84°C (effective T

= T

= 30°C + (100% − 25%) x 40°C/170

= 30°C + (255 − 64) x 40°C/170

= 75°C (effective T

= T

= 30°C + (100% − 33%) x 40°C/170

= 30°C + (255 − 85) x 40°C/170

= 70°C (effective T

is the duty PWM duty cycle vs. temperature slope.

100%

50%

33%

25%

10%

MIN

= 10% duty cycle = 26 (decimal).

= T

MAX

MIN

+ (Max DC − Min DC) x T

RANGE

MIN

, given that T

+ (Max DC − Min DC) x T

= 25% duty cycle = 64 (decimal).

= 33% duty cycle = 85 (decimal).

changes the effective T

value, the temperature at which the

MIN

RANGE

305C

= 30°C, T

405C

MIN

455C

MIN

= 54°C)

= 45°C)

= 40°C)

545C

Changes Effective

= 30°C, T

RANGE

MIN

RANGE

values can be

RANGE

= 40°C, and

RANGE

/170

EVAL-ADT7473EBZ ON Semiconductor, EVAL-ADT7473EBZ Datasheet - Page 38

EVAL-ADT7473EBZ

Specifications of EVAL-ADT7473EBZ

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