ISL62883HRTZ Intersil, ISL62883HRTZ Datasheet - Page 24

ISL62883HRTZ

Manufacturer Part Number

ISL62883HRTZ

Description

IC REG PWM 3PHASE BUCK 40TQFN

Manufacturer

Intersil

Datasheet

1.ISL62883EVAL2Z.pdf (39 pages)

Specifications of ISL62883HRTZ

Applications

Controller, Intel IMVP-6.5™

Voltage - Input

5 V ~ 21 V

Number Of Outputs

Voltage - Output

0.0125 V ~ 1.5 V

Operating Temperature

-10°C ~ 100°C

Mounting Type

Package / Case

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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Current page: 24 of 39
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constant long enough such that switching frequency

ripples are removed.

Compensator

Figure 15 shows the desired load transient response

waveforms. Figure 21 shows the equivalent circuit of a

voltage regulator (VR) with the droop function. A VR is

equivalent to a voltage source (= VID) and output

impedance Z

slope LL, i.e. constant output impedance, in the entire

frequency range, V

has a square change.

Intersil provides a Microsoft Excel-based spreadsheet to

help design the compensator and the current sensing

network, so the VR achieves constant output impedance

as a stable system. Figure 24 shows a screenshot of the

spreadsheet.

A VR with active droop function is a dual-loop system

consisting of a voltage loop and a droop loop which is a

current loop. However, neither loop alone is sufficient to

describe the entire system. The spreadsheet shows two

loop gain transfer functions, T1(s) and T2(s), that

describe the entire system. Figure 22 conceptually shows

T1(s) measurement set-up and Figure 23 conceptually

shows T2(s) measurement set-up. The VR senses the

inductor current, multiplies it by a gain of the load line

slope, then adds it on top of the sensed output voltage

and feeds it to the compensator. T(1) is measured after

the summing node, and T2(s) is measured in the voltage

loop before the summing node. The spreadsheet gives

both T1(s) and T2(s) plots. However, only T2(s) can be

actually measured on an ISL62883 regulator.

T1(s) is the total loop gain of the voltage loop and the

droop loop. It always has a higher crossover frequency

than T2(s) and has more meaning of system stability.

T2(s) is the voltage loop gain with closed droop loop. It

has more meaning of output voltage response.

FIGURE 21. VOLTAGE REGULATOR EQUIVALENT

VID

out

CIRCUIT

(s). If Z

Zout(s)=LL

will have square response when I

out

(s) is equal to the load line

o i

Load

ISL62883, ISL62883B

V o

Design the compensator to get stable T1(s) and T2(s)

with sufficient phase margin, and output impedance

equal or smaller than the load line slope.

FIGURE 22. LOOP GAIN T1(s) MEASUREMENT SET-UP

FIGURE 23. LOOP GAIN T2(s) MEASUREMENT SET-UP

V in

LOOP GAIN =

DRIVER

GATE

DRIVER

GATE

Mod.

CHANNEL B

CHANNEL A

CHANNEL B

Comp

ANALYZER

NETWORK

CHANNEL A

Comp

ANALYZER

NETWORK

CHANNEL A

LOAD LINE SLOPE

C out

VID

C out

EXCITATION

V o

EXCITATION

OUTPUT

V o

o i

ISOLATION

TRANSFORMER

ISOLATION

TRANSFORMER

CHANNEL B

FN6891.3

ISL62883HRTZ Intersil, ISL62883HRTZ Datasheet - Page 24

ISL62883HRTZ

Specifications of ISL62883HRTZ

Available stocks

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