ISL6267HRZ-T Intersil, ISL6267HRZ-T Datasheet - Page 28

ISL6267HRZ-T

Manufacturer Part Number

ISL6267HRZ-T

Description

IC PWM CTRLR MULTIPHASE 48TQFN

Manufacturer

Intersil

Datasheet

1.ISL6267HRZ-T.pdf (33 pages)

Specifications of ISL6267HRZ-T

Applications

Converter, AMD Fusion™ CPU GPU

Voltage - Input

4.75 V ~ 5.25 V

Number Of Outputs

Voltage - Output

0.0125 V ~ 1.55 V

Operating Temperature

-10°C ~ 100°C

Mounting Type

Package / Case

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Current page: 28 of 33
Download datasheet (2Mb)

recommended to use a rather long R

that the ISEN voltages have minimal ripple and represent the DC

current flowing through the inductors. Recommended values are

NTC Thermal Monitors and VR_HOT Function

The ISL6267 features three pins (NTC, NTC_NB, and VR_HOT)

that allow the IC to monitor board temperature and alert the

AMD CPU of a thermal issue. Figure 30 shows the thermal

monitor feature of the ISL6267. An NTC network is connected

between the NTC and NTC_NB pins and GND. The controller

drives a 60µA current source out of the NTC pin and the NTC_NB

pin alternatively at 1kHz frequency with 50% duty cycle. The

pulsed current flows through the respective NTC resistor network

on the pins and creates a voltage that is compared to an

over-temperature trip threshold. If the voltage on both NTC pins is

higher than the over-temperature trip threshold, then VR_HOT is

pulled up by an external resistor on the pin.

As the board temperature rises, the NTC thermistor resistance

decreases and the voltage at the NTC pin drops. When the

voltage on the NTC pin drops below the over-temperature trip

threshold, then VR_HOT is pulled low. The VR_HOT signal is used

to change the CPU operation and decrease power consumption.

With the reduction in power consumption by the CPU, the board

temperature decreases and the NTC thermistor voltage rises.

Once the over-temperature threshold is tripped and VR_HOT is

taken low, the over-temperature threshold changes to the reset

Layout Guidelines

Table 9 shows layout considerations for the ISL6267 controller. Refer to the reference designators shown in Figure 31.

BOTTOM PAD

FIGURE 30. CIRCUITRY ASSOCIATED WITH THE THERMAL

= 10kΩ and C

ISL6267

NTC

NTC_NB

NTC

MONITOR FEATURE OF THE ISL6267

NTC

= 0.22µF.

SYMBOL

SW1

SW2

GND

Create analog ground plane underneath the controller and the analog signal processing components. Do not let

the power ground plane overlap with the analog ground plane. Avoid allowing noisy planes/traces (e.g., phase

node) to crossover/overlap the analog plane.

isen

TABLE 9. LAYOUT CONSIDERATIONS FOR THE ISL6267 CONTROLLER

INTERNAL TO

60µA

SW1 SW2

MONITOR

ISL6267

isen

time constant such

VR_HOT

ISL6267

level. The addition of hysteresis to the over-temperature

threshold prevents nuisance trips. Once both pin voltages exceed

the over-temperature reset threshold, the pull-down on VR_HOT

is released. The signal changes state and the CPU resumes

normal operation. The over-temperature threshold returns to the

trip level.

Selection of the NTC components can vary depending on how the

resistor network is configured. The equivalent resistance at the

typical over-temperature threshold voltage of 0.88V, to change

the state of VR_HOT, is defined in Equation 38.

The equivalent resistance at the typical reset threshold voltage of

0.92V required to change the state of VR_HOT back low, is

defined in Equation 39.

The NTC thermistor value correlates this resistance change to the

required temperature hysteresis. A standard 1% resistor is

typically needed to meet the NTC pin threshold voltage.

For example, a Panasonic NTC thermistor with B = 4700 has a

resistance ratio of 0.03322 of its nominal value at +105°C and

0.03956 of its nominal value at +100°C. The required resistance

of the NTC is defined in Equation 40.

The closest, larger thermistor value for B = 4700 is 100kΩ. The

NTC thermistor part number is ERTJ1VV104.

At +105°C, a 100kΩ NTC resistance drops to

(0.03322 x 100kΩ) = 3.322kΩ. With a 60µA current flowing out

of the NTC pin, the voltage drop across the resistor is only

(3.322kΩ x 60µA) = 0.199V. This value is much lower than the

threshold voltage of 0.88V. A standard resistor, 1% tolerance,

added in series with the thermistor is required to raise the

voltage on the pin. The resistance required to meet the trip

threshold is calculated in Equation 41.

The closest, standard 1% tolerance resistor is 11.3kΩ.

The NTC thermistor is placed in a hot spot on the board, typically

near the upper MOSFET of channel 1 of the respective output.

The standard resistor is placed next to the controller.

0.88V

-------------- -

0.92V

-------------- -

-------------------------------------------------------

(

0.88V

-------------- - 3.322kΩ

60μA

(

0.03956 0.03322

15.3kΩ 14.7kΩ

–

LAYOUT GUIDELINES

14.7k

15.3k

–

)

11.34kΩ

94.6kΩ

January 31, 2011

(EQ. 40)

(EQ. 38)

(EQ. 39)

(EQ. 41)

FN7801.0

ISL6267HRZ-T Intersil, ISL6267HRZ-T Datasheet - Page 28

ISL6267HRZ-T

Specifications of ISL6267HRZ-T

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