EVAL-ADT7467EBZ ON Semiconductor, EVAL-ADT7467EBZ Datasheet - Page 29

EVAL-ADT7467EBZ

Manufacturer Part Number

EVAL-ADT7467EBZ

Description

BOARD EVALUATION FOR ADT7467

Manufacturer

ON Semiconductor

Series

dBCool®r

Datasheet

1.ADT7467ARQZ.pdf (77 pages)

Specifications of EVAL-ADT7467EBZ

Sensor Type

Temperature

Sensing Range

-40°C ~ 120°C

Interface

SMBus (2-Wire/I²C)

Sensitivity

±1.5°C

Voltage - Supply

3 V ~ 5.5 V

Embedded

Utilized Ic / Part

ADT7467

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Current page: 29 of 77
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Note that when the voltage spikes (either negative going or

positive going) are more than 40 mV in amplitude, the fan

speed can be reliably determined.

LAYING OUT 2-WIRE AND 3-WIRE FANS

Figure 41 shows how to lay out a common circuit arrangement

for 2-wire and 3-wire fans. Some components are not popu-

lated, depending on whether a 2-wire or 3-wire fan is used.

TACH

ADT7467

Figure 41. Planning for 2-Wire or 3-Wire Fans on a PCB

Figure 40. Fan Speed Sensing Waveform at TACHx Pin

TACHx

PWMx

Figure 39. Driving a 2-Wire Fan

3.3V

12V OR 5V

10k Ω

TYPICAL

0.01μF

MMBT2222

12V FAN

5V OR

1N4148

FOR 3-WIRE FANS:

POPULATE R1, R2, R3

R4 = 0Ω

C1 = UNPOPULATED

FOR 2-WIRE FANS:

POPULATE R4, C1

R1, R2, R3 UNPOPULATED

R4 = 2Ω

3.3V OR 5V

PWM

NDT3055L

2 Ω

TYPICAL

SENSE

1N4148

Rev. 3 | Page 29 of 77 | www.onsemi.com

TACH Inputs

When configured as TACH inputs, Pin 4, Pin 6, Pin 7, and Pin 9

are open-drain TACH inputs intended for fan speed measurement.

Signal conditioning in the ADT7467 accommodates the slow

rise and fall times typical of fan tachometer outputs. The maxi-

mum input signal range is 0 V to 5 V, even when V

5 V. In the event that these inputs are supplied from fan outputs

that exceed 0 V to 5 V, either resistive attenuation of the fan signal

or diode clamping must be included to keep inputs within an

acceptable range.

Figure 42 to Figure 45 show circuits for most common fan

TACH outputs. If the fan TACH output has a resistive pull-up

to V

Figure 42.

If the fan output has a resistive pull-up to 12 V (or another

voltage that is greater than 5 V), the fan output can be clamped

with a Zener diode, as shown in Figure 43. The Zener diode

voltage should be chosen so that it is greater than the V

TACH input but less than 5 V, allowing for the voltage tolerance

of the Zener. A value between 3 V and 5 V is suitable.

If the fan has a strong pull-up (less than 1 kΩ) to 12 V or a

totem-pole output, a series resistor can be added to limit the

Zener current, as shown in Figure 44.

FAN

Figure 43. Fan with TACH Pull-Up to a Voltage >5 V (For Example, 12 V),

5V OR 12V

Figure 44. Fan with Strong TACH Pull-Up to >V

, it can be connected directly to the fan input, as shown in

12V

PULL-UP TYP

TOTEM POLE

<1kΩ OR

*CHOOSE ZD1 VOLTAGE APPROXIMATELY 0.8 × V

PULL-UP

*CHOOSE ZD1 VOLTAGE APPROXIMATELY 0.8 × V

TYPICAL

Figure 42. Fan with TACH Pull-Up to V

PULL-UP

TYPICAL

4.7kΩ

Clamped with Zener Diode

TACH

OUTPUT

TACH

OUTPUT

10kΩ

TACH

OUTPUT

TACHx

ZD1*

ZD1

ZENER*

TACHx

FAN SPEED

ADT7467

or Totem-Pole Output,

COUNTER

FAN SPEED

ADT7467

FAN SPEED

ADT7467

COUNTER

ADT7467

is less than

of the

EVAL-ADT7467EBZ ON Semiconductor, EVAL-ADT7467EBZ Datasheet - Page 29

EVAL-ADT7467EBZ

Specifications of EVAL-ADT7467EBZ

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