IRS2552DSPBF International Rectifier, IRS2552DSPBF Datasheet - Page 16

IRS2552DSPBF

Manufacturer Part Number

IRS2552DSPBF

Description

IC BALLAST CTLR CCFL/EEFL 16SOIC

Manufacturer

International Rectifier

Type

CCFL/EEFL Controllerr

Datasheet

1.IRS2552DSTRPBF.pdf (32 pages)

Specifications of IRS2552DSPBF

Frequency

39 ~ 69 kHz

Current - Supply

10mA

Current - Output

450mA

Voltage - Supply

10.6 V ~ 15.6 V

Operating Temperature

-40°C ~ 125°C

Package / Case

16-SOIC (3.9mm Width)

Module Configuration

Half Bridge

Supply Current

10mA

Supply Voltage Range

9.6V To 16.6V

Driver Case Style

SOIC

No. Of Pins

Operating Temperature Range

-40Â°C To +125Â°C

Base Number

Rohs Compliant

Yes

Svhc

No SVHC

Package

16-lead SOIC Narrow

Circuit

Half-Bridge Driver

Offset Voltage (v)

600

Output Source Current Min (ma)

300

Output Sink Current Min (ma)

450

Pbf

Yes

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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Oscillator

During UVLO and shutdown and the voltage at the MIN and MAX pins remain at 0 V. When V

pin sources 5 V and the resistance connected from this point to COM determines the C

consequently the frequency. R

frequency. In IGNITION mode the MAX pin supplies 5 V to R

charging current and consequently a higher ignition frequency, as R

MAX pin is no longer active and the voltage will drop to 0V. C

threshold and then it is discharged rapidly to V

producing a saw tooth waveform. The MIN pin sources 5 V during IGNITION and RUN modes. The current

flowing through F

current reference for the currents supplied from the CD and CR pins.

Deadtime

In the IRS2552D the dead time is determined by an independent external timing circuit comprising of R

high. C

the start of the dead time. The dead time ends when C

remain consistent over the working range of V

Ignition

During the IGNITION phase the C

reaches V

at the CS pin is less than VCS

the IRS2552D will shut down until V

function is achieved by applying a frequency somewhat above resonance to the output step up transformer and

resonant load. This should develop sufficient voltage across the lamps to allow partial ignition and some arc

current to flow. The combined lamp current is fed back to the CS pin through a suitable isolating network to

determine whether the lamps have ignited successfully. If a successful ignition is detected after the voltage at C

has reached V

www.irf.com

CCUV+

and is not affected by the values of C

the oscillator will start and LO and HO will produce output drive waveforms at frequency F

is charged through R

CR+

then if the voltage at CS is greater than VCS

CR+

MIN

then R

to COM determines the charging current of C

MAX

is disconnected inside the IRS2552D and the frequency will switch immediately to

IGN

VCCUV+

1/3*VCC

MIN

VCC

VCT+

VCT-

, which is connected to VCC, when DT is internally disconnected from COM at

the IRS2552D will enter FAULT mode whereby LO and HO will both go low and

is always connected from the MIN pin to COM, which sets the RUN mode

capacitor is charged through an internal current source ICR_IGN. When C

Figure 3: Oscillator waveforms

is reduced below V

, R

MIN

CT-

, i.e. from UVLO+ to the clamp voltage of 15.6 V.

or R

. It then begins to charge again, repeating this sequence and

MAX

. The DT pin voltage is held at COM when LO or HO is

IGN

has charged to 1/3 V

CCUV-

MAX

, the IRS2552D will enter RUN mode. If the voltage

, which is connected to COM setting a higher C

and then increased above V

charges until the voltage reaches the 5 V

MAX

during RUN mode and also serves as a

is smaller than R

. This allows the dead time to

MIN

charging current and

. In RUN mode the

CCU+

IRS2552D

is raised above

MAX

. The ignition

. The MAX

and

IRS2552DSPBF International Rectifier, IRS2552DSPBF Datasheet - Page 16

IRS2552DSPBF

Specifications of IRS2552DSPBF

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