hip6016cb Intersil Corporation, hip6016cb Datasheet - Page 7

hip6016cb

Manufacturer Part Number

hip6016cb

Description

Advanced Pwm And Dual Linear Power Control

Manufacturer

Intersil Corporation

Datasheet

1.HIP6016CB.pdf (14 pages)

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VIN2 (Pin 12)

This pin supplies power to the internal regulator. Connect

this pin to a suitable 3.3V source.

Additionally, this pin is used to monitor the 3.3V supply. If,

following a start-up cycle, the voltage drops below 2.45V

(typically), the chip shuts down. A new soft-start cycle is

initiated upon return of the 3.3V supply above the under-

voltage threshold.

Description

Operation

The HIP6016 monitors and precisely controls 3 output

voltage levels (Refer to Figures 1, 2, and 3). It is designed for

microprocessor computer applications with 3.3V and 5V

power, and 12V bias input from an ATX power supply. The IC

has one PWM controller, a linear controller, and a linear

regulator. The PWM controller is designed to regulate the

microprocessor core voltage (V

(Q1 and Q2) in a synchronous-rectiﬁed buck converter

conﬁguration. The core voltage is regulated to a level

programmed by the 5-bit digital-to-analog converter (DAC).

An integrated linear regulator supplies the 2.5V clock power

(Q3) to supply the 1.5V GTL bus power (V

Initialization

The HIP6016 automatically initializes upon receipt of input

power. Special sequencing of the input supplies is not

necessary. The Power-On Reset (POR) function continually

monitors the input supply voltages. The POR monitors the bias

voltage (+12V

on the OCSET pin, and the 3.3V input voltage (+3.3V

VIN2 pin. The normal level on OCSET is equal to +5V

fixed voltage drop (see over-current protection). The POR

function initiates soft-start operation after all three input supply

voltages exceed their POR thresholds.

Soft-Start

The POR function initiates the soft-start sequence. Initially, the

voltage on the SS pin rapidly increases to approximately 1V

(this minimizes the soft-start interval). Then an internal 11 A

pin to 4V. The PWM error amplifier reference input (+ terminal)

and output (COMP pin) is clamped to a level proportional to the

SS pin voltage. As the SS pin voltage slews from 1V to 4V, the

output clamp generates PHASE pulses of increasing width that

charge the output capacitor(s). After this initial stage, the

reference input clamp slows the output voltage rate-of-rise and

provides a smooth transition to the final set voltage. Additionally

both linear regulator’s reference inputs are clamped to a voltage

proportional to the SS pin voltage. This method provides a

rapid and controlled output voltage rise.

Figure 6 shows the soft-start sequence for the typical

application. At T0 the SS voltage rapidly increases to

approximately 1V. At T1, the SS pin and error amplifier output

current source charges an external capacitor (C

OUT2

). The linear controller drives an external MOSFET

) at the VCC pin, the 5V input voltage (+5V

2-202

OUT1

) by driving 2 MOSFETs

OUT3

) on the SS

) on the

less a

)

HIP6016

voltage reach the valley of the oscillator’s triangle wave. The

oscillator’s triangular waveform is compared to the clamped

error amplifier output voltage. As the SS pin voltage increases,

the pulse-width on the PHASE pin increases. The interval of

increasing pulse-width continues until each output reaches

sufficient voltage to transfer control to the input reference

clamp. If we consider the 2.0V output (V

time occurs at T2. During the interval between T2 and T3, the

error amplifier reference ramps to the final value and the

converter regulates the output to a voltage proportional to the

SS pin voltage. At T3 the input clamp voltage exceeds the

reference voltage and the output voltage is in regulation.

The remaining outputs are also programmed to follow the SS

pin voltage. Each linear output (V

follows a ramp similar to that of the PWM output. When each

output reaches sufﬁcient voltage the input reference clamp

slows the rate of output voltage rise. The PGOOD signal

toggles ‘high’ when all output voltage levels have exceeded

their under-voltage levels. See the Soft-Start Interval section

under Applications Guidelines for a procedure to determine

the soft-start interval.

Fault Protection

All three outputs are monitored and protected against

extreme overload. A sustained overload on any linear

regulator output or an over-voltage on the PWM output

disables all converters and drives the FAULT pin to VCC.

Figure 7 shows a simpliﬁed schematic of the fault logic. An

over-voltage detected on VSEN1 immediately sets the fault

SOFT-START

(1V/DIV)

FIGURE 6. SOFT-START INTERVAL

(1V/DIV)

PGOOD

VOLTAGES

(0.5V/DIV)

OUTPUT

TIME

OUT2

OUT1

and V

) in Figure 6, this

OUT1

OUT3

OUT2

OUT3

(DAC = 2V)

( = 2.5V)

( = 1.5V)

) initially

hip6016cb Intersil Corporation, hip6016cb Datasheet - Page 7

hip6016cb

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