ISL6336CRZ-T Datasheet, PDF(23/31 Page) Intersil Corporation – 6-Phase PWM Controller with Light Load Efficiency Enhancement and Current Monitoring

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ISL6336CRZ-T Datasheet, PDF (23/31 Pages) Intersil Corporation – 6-Phase PWM Controller with Light Load Efficiency Enhancement and Current Monitoring

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ISL6336, ISL6336A

VCC

VR_FAN

TM1

0.391VCC

VR_HOT

NTC

0.333VCC

FIGURE 14. BLOCK DIAGRAM OF THERMAL MONITORING

FUNCTION

100

0 20 40 60 80 100 120 140

TEMPERATURE (Â°C)

FIGURE 15. THE RATIO OF TM VOLTAGE TO NTC

TEMPERATURE WITH RECOMMENDED PARTS

0.451*Vcc

0.391*Vcc

0.333*Vcc

VR_FAN

VR_HOT

TEMPERATURE

T1 T2 T3

FIGURE 16. VR_HOT AND VR_FAN SIGNAL vs TM VOLTAGE

Based on the NTC temperature characteristics and the

desired threshold of VR_HOT signal, the pull-up resistor

RTM1 of TM pin is given by Equation 20:

RTM1 = 2.75xRNTC(T3)

(EQ. 20)

RNTC(T3) is the NTC resistance at the VR_HOT threshold

temperature T3.

The NTC resistance at the set point T2 and release point T1

of VR_FAN signal can be calculated as:

RNTC(T2) = 1.267xRNTC(T3)

(EQ. 21)

RNTC(T1) = 1.644xRNTC(T3)

(EQ. 22)

With the NTC resistance value obtained from Equations 21

and 22, the temperature value T2 and T1 can be found from

the NTC datasheet.

Temperature Compensation

ISL6336, ISL6336A supports inductor DCR sensing, or

resistive sensing techniques. The inductor DCR has a

positive temperature coefficient of about +0.385%/Â°C.

Because the voltage across inductor is sensed for output

current information, the sensed current has the same

positive temperature coefficient as the inductor DCR.

In order to obtain the correct current information, there

should be a way to correct the temperature impact on the

current sense component. The ISL6336, ISL6336A provides

two methods: integrated temperature compensation and

external temperature compensation.

Integrated Temperature Compensation

When the TCOMP voltage is equal to or greater than VCC/15,

ISL6336, ISL6336A will utilize the voltage at the TM and

TCOMP pins to compensate the temperature impact on the

sensed current. The block diagram of this function is shown in

Figure 17.

VCC

R TM1

RNTC

VCC

RTC1

TCOMP

TC2

NON-LINEAR

A/D

D/A

CHANNEL

CURRENT

SENSE

I5 I4 I3

ISen6

ISen5

ISen4

ISen3

ISen2

ISen1

I2 I1

4-BIT

A/D

DROOP IOUT AND

OVERCURRENT

PROTECTION

FIGURE 17. BLOCK DIAGRAM OF INTEGRATED

TEMPERATURE COMPENSATION

When the TM NTC is placed close to the current sense

component (inductor), the temperature of the NTC will track

the temperature of the current sense component. Therefore,

the TM voltage can be utilized to obtain temperature of the

current sense component.

FN6504.1

May 28, 2009

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