TC648 Datasheet, PDF(6/28 Page) Microchip Technology – Fan Speed Controller with Auto-Shutdown and Over-Temperature Alert

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TC648 Datasheet, PDF (6/28 Pages) Microchip Technology – Fan Speed Controller with Auto-Shutdown and Over-Temperature Alert

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TC648

3.0 DETAILED DESCRIPTION

3.1 PWM

The PWM circuit consists of a ramp generator and

threshold detector. The frequency of the PWM is

determined by the value of the capacitor connected to

the CF pin. A frequency of 30 Hz is recommended for

most applications (CF = 1 ÂµF). The PWM is also the

time base for the Start-up Timer (see Section 3.3,

âStart-up Timerâ). The PWM voltage control range is

1.25V to 2.65V (typical) for 0% to 100% output duty

cycle.

3.2 VOUT Output

The VOUT pin is designed to drive a low cost transistor

or MOSFET as the low side power switching element in

the system. Various examples of driver circuits will be

shown throughout this data sheet. This output has

asymmetric complementary drive and is optimized for

driving NPN transistors or N-channel MOSFETs. Since

the system relies on PWM rather than linear control,

the power dissipation in the power switch is kept to a

minimum. Generally, very small devices (TO-92 or SOT

packages) will suffice.

3.3 Start-Up Timer

To ensure reliable fan start-up, the Start-up Timer turns

the VOUT output on for 32 cycles of the PWM whenever

the fan is started from the off state. This occurs at

power-up and when coming out of shutdown or auto-

shutdown mode. If the PWM frequency is 30 Hz

(CF = 1 ÂµF), the resulting start-up time will be

approximately one second.

3.4 Over-Temperature Fault (OTF)

Output

OTF is asserted when the PWM control voltage applied

to VIN becomes greater than that needed to drive 100%

duty cycle (see Section 1.0, âElectrical Characteris-

ticsâ). This indicates that the fan is at maximum drive,

and the potential exists for system overheating. Either

heat dissipation in the system has gone beyond the

cooling systemâs design limits, or some subtle fault

exists (such as fan bearing failure or an airflow obstruc-

tion). This output may be treated as a âSystem Over-

heatâ warning and used to trigger system shutdown or

some other corrective action. OTF will become inactive

when VIN < VOTF.

3.5 Auto-Shutdown Mode

If the voltage on VIN becomes less than the voltage on

VAS, the fan is automatically shut off (auto-shutdown

mode). The TC648 exits auto-shutdown mode when

the voltage on VIN becomes higher than the voltage on

VAS by VHAS (the auto-shutdown hysteresis voltage

(see Figure 3-1)). The Start-up Timer is triggered and

normal operation is resumed upon exiting auto-shut-

down mode. The VAS input should be grounded if auto-

shutdown mode is not used.

3.6 Shutdown Mode (Reset)

If an unconditional shutdown and/or device reset is

desired, the TC648 may be placed in shutdown mode

by forcing VIN to a logic low (i.e., VIN < VSHDN) (see

Figure 3-1). In this mode, all functions cease and the

OTF output is unconditionally inactive. The TC648

should not be shut down unless all heat producing

activity in the system is at a negligible level. The TC648

exits shutdown mode when VIN becomes greater than

VREL, the release voltage.

Entering shutdown mode also performs a complete

device reset. Shutdown mode resets the TC648 into its

power-up state. OTF is unconditionally inactive in shut-

down mode. Upon exiting shutdown mode (VIN >

VREL), the Start-up Timer will be triggered and normal

operation will resume, assuming VIN > VAS + VHAS

Note: If VIN < VAS when the device exits shutdown

mode, the fan will not restart as it will be in auto-shut-

down mode.

If VIN is not greater than (VAS + VHAS) upon exiting

shutdown mode, the fan will not be restarted. To ensure

that a complete reset takes place, the userâs circuitry

must ensure that VIN > (VAS + VHAS) when the device

is released from shutdown mode. A recommended

algorithm for management of the TC648 by a host

microcontroller or other external circuitry is given in

Section 5.0, âTypical Applicationsâ. A small amount of

hysteresis, typically one percent of VDD (50 mV at

VDD = 5.0V), is designed into the VSHDN/VREL thresh-

old. The levels specified for VSHDN and VREL in

Section 1.0, âElectrical Characteristicsâ, include this

hysteresis plus adequate margin to account for normal

variations in the absolute value of the threshold and

hysteresis.

CAUTION: Shutdown mode is unconditional. That is,

the fan will remain off as long as the VIN pin is being

held low or VIN < VAS + VHAS.

DS21448C-page 6

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