LTC3206EUF#PBF Linear Technology, LTC3206EUF#PBF Datasheet - Page 11

LTC3206EUF#PBF

Manufacturer Part Number

LTC3206EUF#PBF

Description

IC LED DRVR WT/RGB BCKLGT 24-QFN

Manufacturer

Linear Technology

Type

Backlight, White LED, RGB (I²C Interface)r

Datasheet

1.LTC3206EUF.pdf (16 pages)

Specifications of LTC3206EUF#PBF

Topology

PWM, Switched Capacitor (Charge Pump)

Number Of Outputs

Internal Driver

Yes

Type - Primary

Backlight

Type - Secondary

RGB, White LED

Frequency

680kHz ~ 1.36MHz

Voltage - Supply

2.7 V ~ 4.5 V

Mounting Type

Surface Mount

Package / Case

24-QFN

Operating Temperature

-40°C ~ 85°C

Current - Output / Channel

400mA

Internal Switch(s)

Yes

Efficiency

92%

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Voltage - Output

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APPLICATIO S I FOR ATIO

The RED, GREEN and BLUE pins can also enable the

charge pump, however, since they each have individual

disable control they can be left floating or grounded if

unused.

RGB Illuminator Brightness Control

The RED, GREEN and BLUE LEDs can be individually set

to have a linear duty cycle ranging from 0/15 (off) to

15/15 (full on) with 1/15 increments in between. The

combination of 16 possible brightness levels gives the

RGB indicator LED a total of 4096 colors. Table 1 indicates

the decoding of the RED, GREEN and BLUE LEDs.

The full-scale currents in the RED, GREEN and BLUE LEDs

are controlled by the current at the I

manner to those in the MAIN, SUB and AUX LEDs. The

a precise multiple of the I

RGB display LED currents will follow the relationship:

where R

The average value of the current in the RED, GREEN and

BLUE LEDs will be:

where D is the decimal equivalent of the 4-bit digital code

programmed for the given LED(0 to 15). Table 1 summa-

rizes the RED, GREEN and BLUE LED power settings.

The RED, GREEN and BLUE LEDs are pulse width modu-

lated at a frequency of 1/240 of the frequency of the charge

pump oscillator or about 4kHz.

ENRGB/S Pin

The ENRGB/S pin can be used to enable or disable the

LTC3206 without re-accessing the I

useful to indicate an incoming phone call without waking

the microcontroller. ENRGB/S can be software pro-

grammed as an independent control for either the RGB

display or the SUB display. Control bit A2 in the serial port

RGB

AVG I

RED GREENBLUE

pin also servos to 0.6V and the RGB LED currents are

(

RGB

RED GREEN BLUE

is the value of the resistor at the I

= 400

)

RGB

= 400

0 6

RGB

current. The DC value of the

•

C port. This might be

RGB

•

0 6

RGB

pin in a similar

RGB

pin.

(see Figure 3 and Table 3) determines which display

ENRGB/S controls. When bit A2 is 0, the ENRGB/S pin

controls the RGB display. If it is set to 1, ENRGB/S controls

the SUB display.

To use the ENRGB/S pin, the I

configured to the desired setting. For example, if ENRGB/S

will be used to control the SUB display, then a non-zero

code must reside in the C3-C0 nibble of the I

A2 must be set to 1 (see Table 1). Now when ENRGB/S is

high (DV

setting. When ENRGB/S is low, the SUB display will be off.

If no other displays are programmed to be on, the entire

chip will be in shutdown.

Likewise, if ENRGB/S will be used to enable the RGB

display, then a non-zero code must reside in one of the

RED, GREEN or BLUE nibbles of the serial port (A4-A7 or

B0-B7), and bit A2 must be 0. Now when ENRGB/S is high

(DV

color. When ENRGB/S is low, the RGB display will be off.

If no other displays are programmed to be on, the entire

chip will be in shutdown.

If bit A2 is set to 1 (SUB display control), then ENRGB/S

will have no effect on the RGB display. Likewise, if bit A2

is set to 0 (RGB display control), then ENRGB/S will have

no effect on the SUB display.

If the ENRGB/S pin is not used, it should be connected to

The style and value of capacitors used with the LTC3206

determine several important parameters such as regulator

control-loop stability, output ripple and charge pump

strength. To reduce noise and ripple, it is recommended

that low equivalent series resistance (ESR) multilayer

ceramic capacitors be used on both V

lum and aluminum capacitors are not recommended be-

cause of their high ESR. The value of the capacitor on CPO

directly controls the amount of output ripple for a given

load current. Increasing the size of this capacitor will

reduce the output ripple. The peak-to-peak output ripple is

approximately given by the expression:

, CPO Capacitor Selection

RIPPLE

. It should not be grounded or left floating.

), the RGB display will light with the programmed

P-P

), the SUB display will be on with the C3-C0

≅

OSC

CPO

•

CPO

C port must first be

LTC3206

and CPO. Tanta-

C port and bit

3206f

LTC3206EUF#PBF Linear Technology, LTC3206EUF#PBF Datasheet - Page 11

LTC3206EUF#PBF

Specifications of LTC3206EUF#PBF

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