HIP6302VCB-T Intersil, HIP6302VCB-T Datasheet - Page 10

HIP6302VCB-T

Manufacturer Part Number

HIP6302VCB-T

Description

IC CTRLR PWM MULTIPHASE 16-SOIC

Manufacturer

Intersil

Datasheet

1.HIP6302VCBZ.pdf (20 pages)

Specifications of HIP6302VCB-T

Pwm Type

Controller

Number Of Outputs

Frequency - Max

336kHz

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

16-SOIC (3.9mm Width)

Frequency-max

336kHz

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Duty Cycle

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function of the Channel Frequency, as explained previously.

Also note the pulses on the COMP terminal. These pulses

are the current correction signal feeding into the comparator

input (see Figure 1).

Figure 5 shows the regulator operating from an ATX supply.

In this figure, note the slight rise in PGOOD as the 5V supply

rises.The PGOOD output stage is made up of NMOS and

PMOS transistors. On the rising V

becomes active slightly before the NMOS transistor pulls

“down”, generating the slight rise in the PGOOD voltage.

FIGURE 3. START-UP OF 4-PHASE SYSTEM OPERATING

FIGURE 4. START-UP OF 4-PHASE SYSTEM OPERATING

DELAY TIME

AT 500kHz

AT 200kHz

DELAY TIME

VIN = 12V

, the PMOS device

HIP6301V, HIP6302V

PWM 1

OUTPUT

PGOOD

VCORE

VCC

V COMP

PGOOD

VCORE

VCC

Note that Figure 5 shows the 12V gate driver voltage

available before the 5V supply to the controller has reached

its threshold level. If conditions were reversed and the 5V

supply was to rise first, the start-up sequence would be

different. In this case the controller may sense an

overcurrent condition due to charging the output capacitors.

The supply would then restart and go through the normal

soft-start cycle.

Dynamic VID

The HIP6301V and HIP6302V require up to two full clock

cycles to detect a change in the VID code. VID code

changes that are not valid for at least two cycles may or may

not be detected. Once detected, the controller waits an

additional two-cycle wait period to be certain the change is

stable. After the two-cycle wait period, the DAC begins

stepping toward the new VID setting in 25mV increments.

The DAC makes one 25mV step every two clock cycles. For

example, a 500kHz system detecting a change from 1.300V

to 1.800V requires between 84ms and 88ms to complete the

change.

If a new VID code is detected during a DAC change and the

DAC can continue toward the new VID code without

changing direction, processing continues without

interruption. If a new VID code is detected during a DAC

change and the DAC has to change direction in order to

proceed toward then new VID code, processing halts. A

two-cycle wait period is initiated and processing continues

as above. These decisions are made with reference to the

transitional DAC value rather than the original target value.

FIGURE 5. SUPPLY POWERED BY ATX SUPPLY

ATX SUPPLY ACTIVATED BY ATX “PS-ON PIN”

VIN = 5V, CORE LOAD CURRENT = 31A

FREQUENCY 200kHz

May 5, 2008

12V ATX

SUPPLY

PGOOD

VCORE

5V ATX

SUPPLY

FN9034.3

HIP6302VCB-T Intersil, HIP6302VCB-T Datasheet - Page 10

HIP6302VCB-T

Specifications of HIP6302VCB-T

Available stocks

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