ISL6263 INTERSIL [Intersil Corporation], ISL6263 Datasheet - Page 17

ISL6263

Manufacturer Part Number

ISL6263

Description

5-Bit VID Single-Phase Voltage Regulator for IMVP-6+ Santa Rosa GPU Core

Manufacturer

INTERSIL [Intersil Corporation]

Datasheet

1.ISL6263.pdf (19 pages)

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Current page: 17 of 19
Download datasheet (494Kb)

actual board by examining the transient voltage. It is

recommended to choose the minimum capacitance based

on the maximum inductance. C

grade capacitor such as NPO/COG or X7R with tight

tolerance. The NPO/COG caps are only available in small

capacitance values. In order to use such capacitors, the

resistors and thermistors surrounding the droop voltage

sensing and droop amplifier need to be scaled up 10x to

reduce the capacitance by 10x.

Static and Dynamic Droop using Discrete Resistor

Sensing

Figure 3 shows a detailed schematic using discrete resistor

sensing of the inductor current. Figure 9 shows the

equivalent circuit. Since the current sensing resistor voltage

represents the actual inductor current information, R

is strongly recommended for R

is the most significant source of noise that affects discrete

resistor sensing. It is recommended to start out using 100Ω

for R

resistance changes very little with temperature, the NTC

network is not needed for thermal compensation. Discrete

resistor sensing droop design follows the same approach as

DCR sensing. The voltage on the current sensing resistor is

given by Equation 20:

Equation 21 shows the droop amplifier gain. So the actual

droop is given by:

Solution to R

For example: R

The current sensing traces should be routed directly to the

current sensing resistor pads for accurate measurement.

However, due to layout imperfection, the calculated R

may still need slight adjustment to achieve optimum load line

slope. It is recommended to adjust R

has achieved thermal equilibrium at full load.

Dynamic Mode of Operation - Compensation

Parameters

The voltage regulator is equivalent to a voltage source in

series with the output impedance. The voltage source is the

VID state and the output impedance is 8.0mΩ in order to

achieve the 8.0mV/A load line. It is highly recommended to

design the compensation such that the regulator output

impedance is 8.0mΩ. Intersil provides a spreadsheet to

DRP1

RSNS

droop

DRP2

simply provide noise filtering. A low ESL sensing resistor

and 47pF for C

= 1kΩ, R

SNS

DRP1

⋅

DRP2

SNS

droop

⋅

DRP2

⎛

⎜

⎝

⋅

⎛

⎜

⎝

yields Equation 22:

------------------ - 1

droop

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

SNS

= 8.0mΩ, R

DRP2

DRP1

then = 7kΩ.

. Since the current sensing

–

⎞

⎟

⎠

⎞

⎟

⎠

SNS

also needs to be a high-

because this parameter

DRP2

= 1.0mΩ, and

after the system

(EQ. 20)

(EQ. 21)

(EQ. 22)

DRP2

and

ISL6263

calculate the compensator parameters. Caution needs to be

used in choosing the input resistor to the FB pin. Excessively

high resistance will cause an error to the output voltage

regulation due to the bias current flowing through the FB pin.

It is recommended to keep this resistor below 3kΩ.

Layout Considerations

As a general rule, power should be on the bottom layer of

the PCB and weak analog or logic signals are on the top

layer of the PCB. The ground-plane layer should be adjacent

to the top layer to provide shielding.

Inductor Current Sensing and the NTC Placement

It is crucial that the inductor current be sensed directly at the

PCB pads of the sense element, be it DCR sensed or

discrete resistor sensed. The effect of the NTC on the

inductor DCR thermal drift is directly proportional to its

thermal coupling with the inductor and thus, the physical

proximity to it.

Signal Ground and Power Ground

The ground plane layer should have a single point

connection to the analog ground at the VSS pin. The VSS

island should be located under the IC package along with

the weak analog traces and components. The paddle on the

bottom of the ISL6263 QFN package is not electrically

connected to the IC however, it is recommended to make a

good thermal connection to the VSS island using several

vias. Connect the input capacitors, the output capacitors,

and the source of the lower MOSFETs to the power ground

plane.

LGATE, PVCC, and PGND

PGND is the return path for the pull-down of the LGATE

low-side MOSFET gate driver. Ideally, PGND should be

connected to the source of the low-side MOSFET with a

low-resistance, low-inductance path. The LGATE trace

should be routed in parallel with the trace from the PGND

pin. These two traces should be short, wide, and away from

other traces because of the high peak current and extremely

fast dv/dt. PVCC should be decoupled to PGND with a

ceramic capacitor physically located as close as practical to

the IC pins.

FIGURE 13. TYPICAL POWER COMPONENT PLACEMENT

INDUCTOR

HIGH-SIDE

MOSFETS

GROUND

VIAS TO

PLANE

PHASE

NODE

VOUT

GND

VIN

OUTPUT

CAPACITORS

SCHOTTKY

DIODE

LOW-SIDE

MOSFETS

INPUT

CAPACITORS

June 10, 2010

FN9213.2

ISL6263 INTERSIL [Intersil Corporation], ISL6263 Datasheet - Page 17

ISL6263

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