ISL6306CRZ-T Intersil, ISL6306CRZ-T Datasheet - Page 25

ISL6306CRZ-T

Manufacturer Part Number

ISL6306CRZ-T

Description

IC CTRLR PWM 4-PHASE 40-QFN

Manufacturer

Intersil

Datasheet

1.ISL6306CRZ.pdf (33 pages)

Specifications of ISL6306CRZ-T

Pwm Type

Voltage Mode

Number Of Outputs

Frequency - Max

275kHz

Duty Cycle

66.7%

Voltage - Supply

4.75 V ~ 5.25 V

Buck

Yes

Boost

Flyback

Inverting

Doubler

Divider

Cuk

Isolated

Operating Temperature

0°C ~ 70°C

Package / Case

40-VFQFN, 40-VFQFPN

Frequency-max

275kHz

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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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:

temperature T3.

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

of VR_FAN signal can be calculated as:

With the NTC resistance value obtained from Equations 18

and 19, the temperature value T2 and T1 can be found from

the NTC datasheet.

VR_FAN

VR_HOT

FIGURE 16. VR_HOT AND VR_FAN SIGNAL vs TM VOLTAGE

NTC(T3)

0.39*V

0.33*V

0.28*V

TM1

NTC T2

NTC T1

FIGURE 15. THE RATIO OF TM VOLTAGE TO NTC

100

(

2.75xR

)

is the NTC resistance at the VR_HOT threshold

1.267xR

1.644xR

TEMPERATURE WITH RECOMMENDED PARTS

NTC T3

(

NTC T3

)

(

TEMPERATURE (°C)

)

vs TEMPERATURE

100

TEMPERATURE (°C)

120

(EQ. 17)

(EQ. 18)

(EQ. 19)

140

ISL6306

Temperature Compensation

ISL6306 supports inductor DCR sensing, MOSFET r

sensing, or resistive sensing techniques. Both inductor DCR

and MOSFET r

coefficient, which is about +0.38%/°C. Because the voltage

across inductor or MOSFET is sensed for the output current

information, the sensed current has the same positive

temperature coefficient as the inductor DCR or MOSFET

In order to obtain the correct current information, there

should be a way to correct the temperature impact on the

current sense component. ISL6306 provides two methods:

integrated temperature compensation and external

temperature compensation.

Integrated Temperature Compensation

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

ISL6306 will utilize the voltage at TM and TCOMP pins to

compensate the temperature impact on the sensed current.

The block diagram of this function is shown in Figure 17.

When the TM NTC is placed close to the current sense

component (inductor or MOSFET), the temperature of the

NTC will track the temperature of the current sense

component. Therefore the TM voltage can be utilized to

obtain the temperature of the current sense component.

Based on VCC voltage, ISL6306 converts the TM pin voltage

to a 6-bit TM digital signal for temperature compensation.

With the non-linear A/D converter of ISL6306, TM digital

signal is linearly proportional to the NTC temperature. For

accurate temperature compensation, the ratio of the TM

voltage to the NTC temperature of the practical design

should be similar to that in Figure 15.

DS(ON)

FIGURE 17. BLOCK DIAGRAM OF INTEGRATED

TCOMP

NTC

TC2

TM1

TC1

TEMPERATURE COMPENSATION

DS(ON)

NON-LINEAR

Non-linear

4-BIT

4-bit

A/D

D/A

A/D

have the positive temperature

DROOP AND OVERCURRENT

Over current protection

Channel current

PROTECTION

CHANNEL

CURRENT

Droop &

sense

SENSE

May 5, 2008

DS(ON)

FN9226.1

sen4

sen3

sen2

sen1

ISL6306CRZ-T Intersil, ISL6306CRZ-T Datasheet - Page 25

ISL6306CRZ-T

Specifications of ISL6306CRZ-T

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