CAT4103 Datasheet, PDF(9/13 Page) ON Semiconductor – 3-Channel Constant-Current RGB LED Driver

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CAT4103 Datasheet, PDF (9/13 Pages) ON Semiconductor – 3-Channel Constant-Current RGB LED Driver

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CAT4103

Block Diagram

VDD

LED1 LED2 LED3

1.2 V Ref

Current Setting

CURRENT

SINKS

Current Setting

RSET1

RSET2

RSET3

BIN

BLANK

LATCH

LIN

L0 L1 L2

SIN SHIFT

S0 S1 S2

CIN CLOCK

BOUT

LOUT

SOUT

COUT

GND

Figure 14. CAT4103 Functional Block Diagram

Basic Operation

The CAT4103 uses 3 independent current sinks to

accurately regulate the current in each LED channel to 400

times the current sink from the corresponding RSET pin.

Each of the resistors tied to the RSET1, RSET2, RSET3 pins

set the current respectively in the LED1, LED2, and LED3

channels. Table 6 shows some standard resistor values for

RSET and the corresponding LED current.

Table 6. RSET RESISTOR SETTINGS

LED Current [mA]

RSET [kW]

24.9

8.45

100

5.23

175

3.01

Tight current regulation for all channels is possible over

a wide range of input and LED voltages due to independent

current sensing circuitry on each channel. The LED

channels have a low dropout of 0.4 V or less for all current

ranges and supply voltages. This helps improve heat

dissipation and efficiency over other competing solutions.

Upon powerâup, an underâvoltage lockout circuit clears

all latches and shift registers and sets all outputs to off. Once

the VDD supply voltage is greater than the underâvoltage

lockout threshold, the device can be programmed.

Pullâup and pullâdown resistors are internally provided to

set the state of the BIN and LIN pins to low current off state

when not externally driven.

A highâspeed 4âwire interface is provided to program the

state of each LED channel ON or OFF.

The 4âwire interface contains a 3âbit serialâtoâparallel

shift register (S0âS2) and a 3âbit latch (L0âL2). The shift

most significant bit S2 corresponds to the first data entered

in from SIN. Programming the serialâtoâparallel register is

accomplished via SIN and CIN input pins. On each rising

edge of the CIN signal the data from SIN is moved through

the shift register serially. Data is also moved out of SOUT

to the next device if programming more than one device on

the same interface.

On the rising edge of LIN, the data content of the serial to

parallel shift register is reflected in the latches. On the falling

edge of LIN, the state of the serialâtoâparallel register at that

particular time is saved in the latches and does not change

regardless of the content of the serial to parallel register.

BIN is used to disable all LEDs off at one time while still

maintaining the data contents of the latch register. BIN is an

active low input pin. When low the outputs reflect the data

in the latches. When high the outputs are all high impedance

(LEDs off).

All 4âwire inputs have a corresponding output driver for

cascaded systems (SOUT, COUT, LOUT, BOUT). These

output buffers allow many CAT4103 drivers to be cascaded

without signal and timing degradation due to long wire

interconnections.

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