HIP6311CB Intersil, HIP6311CB Datasheet - Page 8

HIP6311CB

Manufacturer Part Number

HIP6311CB

Description

IC CTRLR PWM MULTIPHASE 20-SOIC

Manufacturer

Intersil

Datasheet

1.HIP6311CBZ.pdf (17 pages)

Specifications of HIP6311CB

Pwm Type

Controller

Number Of Outputs

Frequency - Max

305kHz

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

20-SOIC (7.5mm Width)

Frequency-max

305kHz

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Duty Cycle

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Current page: 8 of 17
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than the average current, the signal applied via the summing

Correction circuit to the Comparator, reduces the output

pulse width of the Comparator to compensate for the

detected “above average” current in that channel.

Droop Compensation

In addition to control of each power channel’s output current,

the average channel current is also used to provide CORE

voltage “droop” compensation. Average full channel current

is defined as 50µA. By selecting an input resistor, R

amount of voltage droop required at full load current can be

programmed. The average current driven into the FB pin

results in a voltage increase across resistor R

direction to make the Error Amplifier “see” a higher voltage

at the inverting input, resulting in the Error Amplifier

adjusting the output voltage lower. The voltage developed

across R

Sensing and Balancing” section for more details.

Applications and Convertor Start-Up

Each PWM power channel’s current is regulated. This

enables the PWM channels to accurately share the load

current for enhanced reliability. The HIP6601, HIP6602 or

HIP6603 MOSFET driver interfaces with the HIP6311. For

more information, see the HIP6601, HIP6602 or HIP6603

data sheets.

The HIP6311 is capable of controlling up to 4 PWM power

channels. Connecting unused PWM outputs to V

automatically sets the number of channels. The phase

relationship between the channels is 360

PWM channels. For example, for three channel operation,

the PWM outputs are separated by 120

PWM output signals for a four channel system.

Power supply ripple frequency is determined by the channel

frequency, F

FIGURE 2. FOUR PHASE PWM OUTPUT AT 500kHz

is equal to the “droop” voltage. See the “Current

, multiplied by the number of active channels.

. Figure 2 shows the

/number of active

that is in the

PWM 1

PWM 2

PWM 3

PWM 4

, the

HIP6311

For example, if the channel frequency is set to 250kHz and

there are three phases, the ripple frequency is 750kHz.

The IC monitors and precisely regulates the CORE voltage

of a microprocessor. After initial start-up, the controller also

provides protection for the load and the power supply. The

following section discusses these features.

Initialization

The HIP6311 usually operates from an ATX power supply.

Many functions are initiated by the rising supply voltage to the

Start and other functions are initialized during this interval.

These circuits are controlled by POR, Power-On Reset. During

this interval, the PWM outputs are driven to a three state

condition that makes these outputs essentially open. This state

results in no gate drive to the output MOSFETs.

Once the V

level to insure proper internal function, the PWM outputs are

enabled and the Soft-Start sequence is initiated. If for any

reason, the V

POR circuit shuts the converter down and again three states

the PWM outputs.

Soft-Start

After the POR function is completed with V

4.375V, the Soft-Start sequence is initiated. Soft-Start, by its

slow rise in CORE voltage from zero, avoids an over-current

condition by slowly charging the discharged output

capacitors. This voltage rise is initiated by an internal DAC

that slowly raises the reference voltage to the error amplifier

input. The voltage rise is controlled by the oscillator

frequency and the DAC within the HIP6311, therefore, the

output voltage is effectively regulated as it rises to the final

programmed CORE voltage value.

For the first 32 PWM switching cycles, the DAC output

remains inhibited and the PWM outputs remain three stated.

From the 33rd cycle and for another, approximately 150

cycles the PWM output remains low, clamping the lower

output MOSFETs to ground, see Figure 3. The time variability

is due to the Error Amplifier, Sawtooth Generator and

Comparators moving into their active regions. After this short

interval, the PWM outputs are enabled and increment the

PWM pulse width from zero duty cycle to operational pulse

width, thus allowing the output voltage to slowly reach the

CORE voltage. The CORE voltage will reach its programmed

value before the 2048 cycles, but the PGOOD output will not

be initiated until the 2048th PWM switching cycle.

The Soft-Start time or delay time, DT = 2048/F

oscillator frequency, F

160µs, the PWM outputs are held in a three state level as

explained above. After this period and a short interval

described above, the PWM outputs are initiated and the

voltage rises in 10.08ms, for a total delay time DT of

10.24ms.

pin of the HIP6311. Oscillator, Sawtooth Generator, Soft-

voltage reaches 4.375V (+125mV), a voltage

voltage drops below 3.875V (+125mV). the

, of 200kHz, the first 32 cycles or

reaching

December 27, 2004

. For an

FN4817.3

HIP6311CB Intersil, HIP6311CB Datasheet - Page 8

HIP6311CB

Specifications of HIP6311CB

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