ISL1902FAZ-T7A Intersil, ISL1902FAZ-T7A Datasheet - Page 22

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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In applications requiring PFC, the fast loop bandwidth can be set

to react to line transients without affecting steady state

operation. For example, the slow loop requires IOUT to be filtered

with a time constant of 50ms to 100ms. The fast loop (to be

effective), requires less filtering on IOUT and requires a

bandwidth three orders of magnitude (1000x) higher with a 60%

divider weighting compared to the slow loop (taking into account

the peak-to-average ratio of a sinusoid).

OVP

The ISL1902 has independent overvoltage protection accessed

through the OV pin. There is a nominal 20µA switched current

source used to create hysteresis. The current source is active only

during an OV fault; otherwise, it is inactive and does not affect

the node voltage. The magnitude of the hysteresis voltage is a

function of the external resistor divider impedance.

1.2

1.0

0.8

0.6

0.4

0.2

TIME/ms

FILTERED IOUT FAST LOOP

FILTERED IOUT SLOW LOOP

FIGURE 31. IOUT FILTERED WAVEFORMS (100Hz)

VERR

CS+

VREF

CS-

FIGURE 30. CONTROL LOOP CONFIGURATION

DIFFERENTIAL

GENERATOR

REFERENCE

PROCESSOR

CS - IOUT

ISL1902

EA1

EA2

FB1

FB2

LPOUT

REFIN

IOUT

FB1

FB2

IOUT FILTERING

FB1

FB2

2ms/DIV

ISL1902

If the divider formed by R1 and R2 is sufficiently high

impedance, R3 is not required, and the hysteresis is:

ΔV

If that does not result in the desired hysteresis then R3 is

needed, and the hysteresis is:

ΔV

If the OV signal requires filtering, the filter capacitor, C

be placed as shown in Figure 17. The current hysteresis provides

great flexibility in setting the magnitude of the hysteresis voltage,

but it is susceptible to noise due to its high impedance. If the

hysteresis was implemented as a fixed voltage instead, the

signal could be filtered with a small capacitor placed between

the OV pin and signal ground. This technique does not work well

when the hysteresis is a current source because a current source

takes time to charge the filter capacitor. There is no

instantaneous change in the threshold level rendering the

current hysteresis ineffective. To remedy the situation, the filter

capacitor must be separated from the OV pin by R3. The

capacitor and R3 must be physically close to the OV pin.

OFFREF Control

The ISL1902 provides the ability to disable the output based on

the level of the control loop reference, REFIN. Setting OFFREF to

a voltage between 0 and 0.6V determines the threshold voltage

that disables the output.

REFIN off

OFFREF allows the designer to disable the output at a

predetermined load current to prevent undesirable behavior,

such as at light loading conditions when there may be

insufficient current to maintain the holding current in a

triac-based dimmer. Setting OFFREF to less than 100mV disables

this feature. OFFREF has a nominal hysteresis of 50mV.

ov ri

(

sin

20 10

(

MONITORED

VOLTAGE

⋅

)

–

1.5

OFFREF 0.100

⋅

OPT

⎛

⎝

⋅

(

-------------------------- -

FIGURE 32. OV HYSTERESIS

–

⋅

(

-------------------------- -

)

⎞

⎠

VREF

1.5V

20µA

March 20, 2013

OPT

, should

FN7981.2

(EQ. 30)

(EQ. 31)

(EQ. 32)

(EQ. 33)

ISL1902FAZ-T7A Intersil, ISL1902FAZ-T7A Datasheet - Page 22

ISL1902FAZ-T7A

Specifications of ISL1902FAZ-T7A

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