ISL6553CBZA Intersil, ISL6553CBZA Datasheet - Page 9

ISL6553CBZA

Manufacturer Part Number

ISL6553CBZA

Description

IC PWM CORE VOLTAGE REG 16-SOIC

Manufacturer

Intersil

Datasheet

1.ISL6553CBZ.pdf (15 pages)

Specifications of ISL6553CBZA

Pwm Type

Controller

Number Of Outputs

Frequency - Max

1.5MHz

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

1.5MHz

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Duty Cycle

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Under-Voltage

The VSEN pin also detects when the CORE voltage falls

more than 10% below the VID programmed level. This

causes PGOOD to go low, but has no other effect on

operation and is not latched. There is also hysteresis in this

detection point.

Over-Current

In the event of an over-current condition, the over-current

protection circuit reduces the RMS current delivered to 41%

of the current limit. When an over-current condition is

detected, the controller forces all PWM outputs into a three

state mode. This condition results in the gate driver

removing drive to the output stages. The ISL6553 goes into

a wait delay timing cycle that is equal to the Soft-Start ramp

time. PGOOD also goes “low” during this time due to VSEN

going below its threshold voltage. To lower the average

output dissipation, the Soft-Start initial wait time is increased

from 32 to 2048 cycles, then the Soft-Start ramp is initiated.

At a PWM frequency of 200kHz, for instance, an over-current

detection would cause a dead time of 10.24ms, then a ramp

of 10.08ms.

At the end of the delay, PWM outputs are restarted and the

Soft-Start ramp is initiated. If a short is present at that time,

the cycle is repeated. This is the hiccup mode.

Figure 6 shows the supply shorted under operation and the

hiccup operating mode described above. Note that due to

the high short circuit current, over-current is detected before

completion of the start-up sequence so the delay is not quite

as long as the normal Soft-Start cycle.

CORE Voltage Programming

The voltage identification pins (VID25mV, VID0, VID1, VID2

and VID3) set the CORE output voltage. Each VID pin is

pulled to VCC by an internal 20µA current source and

accepts open-collector/open-drain/open-switch-to-ground or

standard low-voltage TTL or CMOS signals.

FIGURE 6. SHORT APPLIED TO SUPPLY AFTER POWER-UP

SHORT APPLIED HERE

HICCUP MODE. SUPPLY POWERED BY ATX SUPPLY

ATX SUPPLY ACTIVATED BY ATX “PS-ON PIN”

CORE LOAD CURRENT = 31A, 5V LOAD = 5A

SUPPLY FREQUENCY = 200kHz, V

= 12V

PGOOD

SHORT

CURRENT

50A/DIV.

ISL6553

Table 1 shows the nominal DAC voltage as a function of the

VID codes. The power supply system is ±1% accurate over

the operating temperature and voltage range.

VID25mV

VOLTAGE IDENTIFICATION CODE AT

TABLE 1. VOLTAGE IDENTIFICATION CODES

VID3

PROCESSOR PINS

VID2

VID1

VID0

VCC

(VDC)

1.075

1.125

1.175

1.225

1.275

1.325

1.375

1.425

1.475

1.525

1.575

1.625

1.675

1.725

1.775

1.825

1.05

1.10

1.15

1.20

1.25

1.30

1.35

1.40

1.45

1.50

1.55

1.60

1.65

1.70

1.75

1.80

(CORE)

ISL6553CBZA Intersil, ISL6553CBZA Datasheet - Page 9

ISL6553CBZA

Specifications of ISL6553CBZA

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