HIP6302EVAL1 Intersil, HIP6302EVAL1 Datasheet - Page 9

HIP6302EVAL1

Manufacturer Part Number

HIP6302EVAL1

Description

EVALUATION BOARD HIP6302

Manufacturer

Intersil

Datasheets

1.HIP6302CBZ.pdf (16 pages)

2.HIP6302EVAL1.pdf (11 pages)

Specifications of HIP6302EVAL1

Main Purpose

DC/DC, Step Down

Outputs And Type

1, Non-Isolated

Voltage - Output

1.7V

Current - Output

35A

Voltage - Input

5V, 12V

Regulator Topology

Buck

Board Type

Fully Populated

Utilized Ic / Part

HIP6302

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Power - Output

Frequency - Switching

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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.

Note that Figure 5 shows the 12V gate driver voltage

available before the 5V supply to the HIP6302 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 HIP6303 will sense an over-current

condition due to charging the output capacitors. The supply

will then restart and go through the normal Soft-Start cycle.

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

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

DELAY TIME

500kHz

200kHz

DELAY TIME

, the PMOS device

= 12V

PWM 1

OUTPUT

PGOOD

V COMP

PGOOD

CORE

HIP6302

Fault Protection

The HIP6302 protects the microprocessor and the entire

power system from damaging stress levels. Within the

HIP6302 both Over-Voltage and Over-Current circuits are

incorporated to protect the load and regulator.

Over-Voltage

The VSEN pin is connected to the microprocessor CORE

voltage. A CORE over-voltage condition is detected when

the VSEN pin goes more than 15% above the programmed

VID level.

The over-voltage condition is latched, disabling normal PWM

operation, and causing PGOOD to go low. The latch can

only be reset by lowering and returning V

POR and Soft-Start sequence.

During a latched over-voltage, the PWM outputs will be

driven either low or three state, depending upon the VSEN

input. PWM outputs are driven low when the VSEN pin

detects that the CORE voltage is 15% above the

programmed VID level. This condition drives the PWM

outputs low, resulting in the lower or synchronous rectifier

MOSFETs to conduct and shunt the CORE voltage to

ground to protect the load.

If after this event, the CORE voltage falls below the over-

voltage limit (plus some hysteresis), the PWM outputs will

three state. The HIP6601 family drivers pass the three state

information along, and shuts off both upper and lower

MOSFETs. This prevents “dumping” of the output capacitors

back through the lower MOSFETS, avoiding a possibly

destructive ringing of the capacitors and output inductors. If

the conditions that caused the over-voltage still persist, the

PWM outputs will be cycled between three state and V

clamped to ground, as a hysteretic shunt regulator.

FIGURE 5. SUPPLY POWERED BY ATX SUPPLY

ATX SUPPLY ACTIVATED BY ATX “PS-ON PIN”

= 5V, CORE LOAD CURRENT = 31A

FREQUENCY 200kHz

high to initiate a

December 27, 2004

12V ATX

SUPPLY

PGOOD

5 V ATX

SUPPLY

FN4766.3

CORE

HIP6302EVAL1 Intersil, HIP6302EVAL1 Datasheet - Page 9

HIP6302EVAL1

Specifications of HIP6302EVAL1

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