ISL1902FAZ-T7A Intersil, ISL1902FAZ-T7A Datasheet - Page 2

ISL1902FAZ-T7A

Manufacturer Part Number

ISL1902FAZ-T7A

Description

LED Lighting Drivers Dimmable AC Mains LED Driver PFC

Manufacturer

Intersil

Datasheet

1.ISL1902FAZ-T7A.pdf (25 pages)

Specifications of ISL1902FAZ-T7A

Rohs

yes

Input Voltage

4 V

Operating Frequency

320 Hz

Maximum Supply Current

14.5 mA

Output Current

1 A

Maximum Operating Temperature

+ 125 C

Mounting Style

SMD/SMT

Package / Case

QSOP-24

Minimum Operating Temperature

- 40 C

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Pin Configuration

Pin Descriptions

11, 12 FB2, FB1 FBx is the inverting input to the error amplifier (EAs). The current feedback signal is applied to EA1 and EA2. EA1 is the primary error

PIN #

6, 7

PRELOAD The output control signal to drive an external FET placed in parallel with the LED load. This feature allows the output capacitor to be

SYMBOL

CS+, CS- The differential inputs for the current sense circuit. This circuit generates a DC feedback signal for the control loop as well as the

OFFREF Sets the reference level to disable the driver at light loading. The turn-off reference can be set at any level between 0V and 0.6V,

DELADJ Sets delay before a new switching cycles starts. This adjustment allows the user to delay the next switching cycle until the switching

LPOUT

RAMP

REFIN

VERR

VREF

IOUT

VDD

LFB

VDD is the power connection for the IC. To optimize noise immunity, bypass VDD to GND with a ceramic capacitor as close to the VDD

and GND pins as possible.

quickly discharged to prevent continued low level illumination of the LEDs due to stored energy in the output capacitor.

corresponding to 0% to 100% of output loading. This feature is normally used in triac-based wall dimmer applications to disable the

output before the dimmer becomes unstable due to insufficient holding current. OFFREF triggers PRELOAD to discharge the output

capacitance with an external FET.

The 5.40V reference voltage output having ±100mV tolerance over line, load and operating temperature. Bypass to GND with a 0.1µF

to 3.3µF low ESR capacitor.

The output of the differential current sensing circuit. A pair of resistors and capacitors is placed on this output to form two low pass

filters. IOUT creates the current feedback signals for the control loop and is normally filtered and scaled prior to inputing at FB1 and

FB2 through separate input resistors to allow for different BWs.

input to the CrCM circuit to determine the critical conduction operating point. CS± has a common mode range of -0.3V to 0.5V and

a differential input range of 0V to1.5V

The reference voltage input that sets the control loop reference. Normally connected to LPOUT or an external control reference.

Output of the digital low-pass filter. The output ranges from 0V to 0.5V in proportion to the AC conduction angle. This output may be

used as is or manipulated (such as when used with an external light sensor or temperature monitor) and applied to REFIN to be used

as the reference for the control loop.

This is the input to the peak overcurrent comparator. The overcurrent comparator threshold is set at 600mV nominal. Peak OCP is

required for cycle-by-cycle protection. It also protects against low AC line conditions. OCP includes leading-edge-blanking (LEB), which

blocks the signal at the beginning of the OUT pulse for the duration of the blanking period, and also while the OUT pulse is low.

amplifier and is used for steady state operation. EA2 is the secondary control loop for operation during transients. Normally EA1 is

configured for low bandwidth operation, about 20Hz, to obtain power factor correction. EA2 is configured for higher BW to respond

to transients. Both error amplifiers are externally compensated to give the user complete flexibility.

FET drain-source voltage reaches a minimum value to allow quasi-ZVS (Zero Voltage Switching) operation. A resistor to ground

programs the delay. Pulling DELADJ to VREF disables the CrCM oscillator.

Output of the error amplifiers and the control voltage input to the inverting input of the PWM comparator. VERR requires an external

pull-up resistor to VREF.

This is the input for the sawtooth waveform for the PWM comparator. Using an RC from VREF, a sawtooth waveform is created for

use by the PWM. It is compared to the error amplifier output, VERR, to create the PWM control signal. The RAMP pin is shorted to

GND at the termination of the PWM signal.

The inverting input to the uncommitted linear amplifier.

PRELOAD

OFFREF

LPOUT

REFIN

VREF

IOUT

VDD

CS+

FB2

FB1

CS-

ISL1902

(24 LD QSOP

TOP VIEW

ISL1902

DESCRIPTION

OUT

PWMOUT

INRUSH

GND

OVP

LOUT

LREF

LFB

RAMP

VERR

DELADJ

March 20, 2013

FN7981.2

ISL1902FAZ-T7A Intersil, ISL1902FAZ-T7A Datasheet - Page 2

ISL1902FAZ-T7A

Specifications of ISL1902FAZ-T7A

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