SC441CTETRT Semtech, SC441CTETRT Datasheet - Page 14

SC441CTETRT

Manufacturer Part Number

SC441CTETRT

Description

TVS

Manufacturer

Semtech

Datasheet

1.SC441CTETRT.pdf (20 pages)

Specifications of SC441CTETRT

Constant Current

Constant Voltage

Topology

Number Of Outputs

Internal Driver

Type - Primary

Type - Secondary

Frequency

Voltage - Supply

Voltage - Output

Mounting Type

Surface Mount

Package / Case

20-TSSOP Exposed Pad, 20-eTSSOP, 20-HTSSOP

Operating Temperature

Current - Output / Channel

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Other names

SC441CTETRTTR

Available stocks

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Part Number

Manufacturer

Quantity

Price

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

SC441CTETRT

Manufacturer:

BROADCOM

Quantity:

1 450

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Applications Information (continued)

tap connected to OVPIN.

Note: If this disconnect function is not desired, bypass

the OVPRTN pin and connect the end of the OVP resistor

divider directly to GND. The OVPIN pin is sensitive to

noise, and a proper decoupling capacitor (1nF ~ 10nF) is

required. The combined impedance of the resistor divider

for OVPIN should be greater than 200kΩ.

LED Short-Circuit Protection

If one or more LEDs are detected as short-circuit, that

string will be latched off. Voltage is monitored if it exceeds

2.35V on the internal LED current source (IO pins). (The IO

voltage on an abnormal LED string will rise earlier than

other normal LED strings). If the voltage exceeds 2.35V

on any IO pin, the IO current source will latch off and the

FFLAG will go high. The latch is reset if VIN falls below

UVLO or it will recycle the EN signal. Other LED strings

operate normally.

If all IO pin voltages reach 1.07V then the internal main

switch will be off until any of the IO voltages is lower than

970mV.

LED Open-Circuit Protection

If any LED string is detected as an open-circuit, that

string will latch off. If any given string is open, the IO

current source will go to deep saturation; the COMP and

FFLAG pins will be driven high and the boost converter

duty cycle will increase causing VOUT to rise. At some

point VOUT will rise high enough to cause all the IO pin

voltages of the intact strings to reach the shorted LED

detection level and latch off those strings. Because of the

LED open string VOUT will continue to rise until it reaches

the programmed OVP level.

When OVP is reached, the voltage on the IO pins are

monitored and if any IO voltage is less than 0.2V that

string will be identified as open and will latch off.

Only when VIN falls below UVLO, or an EN signal is re-

cycled, and if thermal shutdown occurs, can this latch be

reset. A hiccup cycle is then initiated and the SS pin is

discharged slowly with a 1µA current source and a 0.9mA

discharge path (turned on to pull down VOUT). When SS

falls below 0.5V and VOUT falls below to VIN, the shorted

LED detection latches are reset and a new soft-start se-

quence is initiated to resume normal operation.

Thermal Shutdown (TSD)

If the thermal shutdown temperature of 150

a hiccup sequence is initiated where the boost converter

and all IO current sources are turned off. SS is discharged

by a 1µA current source, and a 0.9mA discharge path is

turned on to pull down VOUT. As temperature falls below

the TSD trip point, SC441C will retry when SS falls below

0.5V and VOUT falls to VIN.

PWM Dimming

The PWM input needs to be held high for normal operation.

PWM dimming can be done by cycling the PWM input at a

given frequency where a “low” on the PWM input turns off

all IO current sources and a “high” turns on all IO current

sources. The short and open detection latches are blanked

for approximately 2µs as the PWM input transitions from

low-to-high to prevent a false fault detection during PWM

dimming.

The PWM pin can be toggled by external circuitry to allow

PWM dimming. In a typical application, a microcontroller

sets a register – or counter, that varies the pulse-width

on a GPIO pin. The SC441C allows dimming over two

decades in frequency (50Hz–50kHz), in order to allow

compatibility with a wide range of devices, including the

newest dimming strategies that avoid the audio band

by using high frequency PWM dimming. In this manner,

a wide range of illumination can be generated while

keeping the instantaneous LED current at its peak value

for luminescent efficiency and color purity. Furthermore,

advanced lighting effects such as backlight dim-on can be

implemented as the SC441C can resolve 10µs (minimum),

PWM dimming pulse-width.

As far as the maximum PWM dimming pulse-width, it

depends on the PWM dimming frequency. Clearly, it is

trivial to get 100% LED brightness by pulling PWM pin

“High” constantly. When the user tries to dim the LED

brightness using PWM signal from 100% down, he or she

needs to observe the following. When the PWM dimming

signal is actively switching from “High” to “Low” and to

“High”, there is a minimal OFF time (T_off_min, 200ns,

guaranteed by design) requirement of the PWM dimming

signal with this IC.

maximum PWM duty ratio before hitting to 100% in the

following way.

For example, if the PWM dimming frequency f_

PWM=200Hz, the D_max=99.996%. If f_PWM=25kHz,

the D_max=99.5%. With most practical dimming

max

Such minimal OFF time sets the

1−

off

min

PWM

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SC441C

°C

is reached,

SC441CTETRT Semtech, SC441CTETRT Datasheet - Page 14

SC441CTETRT

Specifications of SC441CTETRT

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