TC642BEUA Microchip Technology, TC642BEUA Datasheet - Page 24

TC642BEUA

Manufacturer Part Number

TC642BEUA

Description

IC PWM FAN SPEED CTRLR 8-MSOP

Manufacturer

Microchip Technology

Type

Controller - PWM Fanr

Datasheet

1.TC647BEOA.pdf (34 pages)

Specifications of TC642BEUA

Applications

Fan Controller, Brushless (BLDC)

Number Of Outputs

Voltage - Supply

3 V ~ 5.5 V

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

8-MSOP, Micro8™, 8-uMAX, 8-uSOP,

Motor Type

PWM

No. Of Outputs

Output Current

5mA

Output Voltage

4.4V

Supply Voltage Range

3V To 5.5V

Driver Case Style

MSOP

No. Of Pins

Operating Temperature Range

-40Â°C To +85Â°C

Product

Fan / Motor Controllers / Drivers

Operating Supply Voltage

6 V

Supply Current

400 uA

Mounting Style

SMD/SMT

Rohs Compliant

Yes

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Current - Output

Voltage - Load

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

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Part Number

Manufacturer

Quantity

Price

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Part Number:

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Quantity:

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Part Number:

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Current page: 24 of 34
Download datasheet (684Kb)

TC642B/TC647B

Using standard 1% resistor values yields the following

values:

Step 6: Selecting the Fan Drive Device (Q

Since the fan operating current is below 200 mA, a

transistor or MOSFET can be used as the fan drive

device. In order to reduce component count and cur-

rent draw, the drive device for this design is chosen to

be a N-channel MOSFET. Selecting from Table 5-2,

there are two MOSFETs that are good choices: the

MGSF1N02E and the SI2302. These devices have the

same pinout and are interchangeable for this design.

Step 7: Selecting the R

The goal again for selecting these values is to ensure

that the signal at the SENSE pin is 90 mV in amplitude

under all operating conditions. This will ensure that the

pulses are detected by the TC642B/TC647B device

and that the fan operation is detected.

The fan current waveform is shown in Figure 5-8 and,

as discussed previously, with a waveform of this shape,

the current sense resistor values shown in Table 5-1 are

good reference values. Given that the average fan oper-

ating current was measured to be 120 mA, this falls

between two of the values listed in the table. For refer-

ence purposes, both values have been tested and

these results are shown in Figures 5-11 (4.7 ) and 5-12

(3.0 ). The selected C

vides the appropriate coupling of the voltage to the

SENSE pin.

FIGURE 5-11:

4.7

DS21756B-page 24

- R

sense resistor.

= 32.4 k

= 17.8 k

SENSE

SENSE pin voltage with

SENSE

value is 0.1 F as this pro-

and C

SENSE

Values.

FIGURE 5-12:

3.0

Since the 3.0

proper voltage to the SENSE pin, it is the correct choice

for this solution as it will also provide the lowest power

dissipation and the most voltage to the fan. Using the

RMS fan current that was measured previously, the

power dissipation in the resistor during a fan fault con-

dition is 71 mW (Irms

the wattage rating of the resistor that is selected. The

selected value will vary depending upon the derating

guidelines that are used.

Now that all the values have been selected, the sche-

matic representation of this design can be seen in

Figure 5-13.

sense resistor.

value of sense resistor provides the

SENSE pin voltage with

* R

2003 Microchip Technology Inc.

SENSE

). This number will set

TC642BEUA Microchip Technology, TC642BEUA Datasheet - Page 24

TC642BEUA

Specifications of TC642BEUA

Available stocks

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