HIP6301EVAL1 查看數據表（PDF） - Renesas Electronics

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HIP6301EVAL1

Microprocessor CORE Voltage Regulator Multi-Phase Buck PWM Controller

Renesas Electronics 

HIP6311

RIN

RFB Cc

FB

COMP

HIP6311

ERROR

AMPLIFIER

-

+

SAWTOOTH

GENERATOR

CORRECTION

+

-

COMPARATOR

-

PWM

+

CIRCUIT

REFERENCE

DAC

DIFFERENCE

+

-

TO OTHER

CHANNELS

CURRENT

SENSING

CURRENT

SENSING

FROM

OTHER

CHANNELS

AVERAGING

PWM

ISEN

TO OVER

+

CURRENT

TRIP

-

COMPARATOR

REFERENCE

VIN

HIP6601

Q1 L01

IL

Q2

PHASE

RISEN

ONLY ONE OUTPUT

STAGE SHOWN

INDUCTOR

CURRENT(S)

FROM

OTHER

CHANNELS

VCORE

FIGURE 7. SIMPLIFIED FUNCTIONAL BLOCK DIAGRAM SHOWING CURRENT AND VOLTAGE SAMPLING

Current Sensing and Balancing

Overview

The HIP6311 samples the on-state voltage drop across each

synchronous rectifier FET, Q2, as an indication of the

inductor current in that phase, see Figure 7. Neglecting AC

effects (to be discussed later), the voltage drop across Q2 is

simply rDS(ON)(Q2) x inductor current (IL). Note that IL, the

inductor current, is either 1/2, 1/3, or 1/4 of the total current

(ILT), depending on how many phases are in use.

The voltage at Q2’s drain, the PHASE node, is applied to the

RISEN resistor to develop the IISEN current to the HIP6311

ISEN pin. This pin is held at virtual ground, so the current

through RISEN is IL x rDS(ON)(Q2) / RISEN.

The IISEN current provides information to perform the

following functions:

1. Detection of an over-current condition

2. Reduce the regulator output voltage with increasing load

current (droop)

3. Balance the IL currents in multiple channels

FN4817 Rev 3.00

December 27, 2004

Over-Current, Selecting RISEN

The current detected through the RISEN resistor is averaged

with the current(s) detected in the other 1, 2, or 3 channels.

The averaged current is compared with a trimmed, internally

generated current, and used to detect an over-current

condition.

The nominal current through the RISEN resistor should be

50A at full output load current, and the nominal trip point for

over-current detection is 165% of that value, or 82.5A.

Therefore, RISEN = IL x rDS(ON) (Q2) / 50A.

For a full load of 25A per phase, and an rDS(ON) (Q2) of

4m, RISEN = 2k.

The over-current trip point would be 165% of 25A, or ~ 41A

per phase. The RISEN value can be adjusted to change the

over-current trip point, but it is suggested to stay within

25%of nominal.

Droop, Selection of RIN

The average of the currents detected through the RISEN

resistors is also steered to the FB pin. There is no DC return

path connected to the FB pin except for RIN, so the average

Page 11 of 17

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