EMC2300-AZC-TR SMSC, EMC2300-AZC-TR Datasheet - Page 42

EMC2300-AZC-TR

Manufacturer Part Number

EMC2300-AZC-TR

Description

Industrial Temperature Sensors Auto Fan Contrllr Up to 4 Fans

Manufacturer

SMSC

Datasheet

1.EMC2300-AZC-TR.pdf (82 pages)

Specifications of EMC2300-AZC-TR

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

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Revision 0.32 (06-23-08)

7.1.4.8

FREQUENCY

PWM

(HZ)

87.7

58.6

35.2

29.3

21.9

14.6

Note 7.3

Examples of Minimum RPMs Supported

The following tables show minimum RPMs that can be supported with the different parameters. The

first table uses 3 edges and the second table uses 2 edges.

As described in

TACH detection circuitry expects a fan to deliver 5 TACH edges per full revolution. When measuring

the fan speed using a PWM drive, the slowest fan speed that can be measured is dependent upon

how long the PWM drive is high as well as how many edges are being counted to make a valid

measurement.

The data shown in

TACH signal is seen as a square wave with a fixed duty cycle and variable period (where period is

inversely proportional to the fan speed), then 3 edges would coincide with a single TACH pulse.

Therefore, in order to accurately measure a TACH signal using 3 edges, the PWM must be high for

at least as long as the full period of the TACH signal.

For example, if the PWM frequency is 87.7Hz (1st row), then the maximum measurement time

available is 11.36msec at 100% duty cycle. This implies, that the maximum period that can be

measured is also 11.36msec. Because period is inversely proportional to fan speed and 1 full period

is equivalent to 1/2 a single rotation, this means that the minimum fan speed that can be detected at

100% duty cycle is:

The values shown in

PWM is set high where the TACH pulse is not measured. The effect of this guard time is to reduce

the effective “on” time of the PWM with respect to measuring a TACH pulse.

(MSEC)

11.42

17.12

22.73

25%

2.85

4.27

5.68

8.53

PULSE WIDTH AT DUTY CYCLE

7.1

---------------------- -

11.36 ms

This max value will be FFFFh if the programmed number of edges is detected when the

count reaches FFFFh or if no edges are detected. If the count reaches FFFFh in Mode 1

and some edges were detected, but less than the programmed number of edges, the

maximum tach count value is determined by the Slow Interrupt Enable bit located in the

TACHx Options registers at offsets 90h to 93h. If slow interrupt detection is set to 0, the

count will be forced to FFFEh, else the count will be forced to FFFFh.

Assumptions (refer to Figure 7.5, "PWM and Tachometer Concept"): on page

(PWM ”ON” TIME)

Table 7.2 Minimum RPM Detectable Using 3 Edges

× rotation

Table 7.2

-- -

(MSEC)

Table 7.2

17.06

22.83

34.25

45.45

11.36

50%

8.53

14.2

5.7

is taken by measuring 3 TACH edges or 1/2 of a single rotation. If the

and

1000 ms

--------------------- -

DATASHEET

(Note

Table 7.3

(MSEC)

100%

22.64

45.48

68.23

90.55

11.36

28.3

7.4)

--------- -

min

60 s

Fan Control Device with High Frequency PWM and Temperature Monitors

include a guard time that occurs immediately after the

2641

MINIMUM RPM AT DUTY CYCLE

10865

7175

5366

4279

3554

2648

1761

1325

25%

(30/T

5347

3554

2662

2126

1768

1319

50%

878

661

TachPulse

)

SMSC EMC2300

(Note

100%

2662

1774

1330

1063

885

661

440

332

Datasheet

7.5)

39, the

EMC2300-AZC-TR SMSC, EMC2300-AZC-TR Datasheet - Page 42

EMC2300-AZC-TR

Specifications of EMC2300-AZC-TR

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