LTC3209-2 Linear Technology, LTC3209-2 Datasheet - Page 17

LTC3209-2

Manufacturer Part Number

LTC3209-2

Description

600mA Main/Camera LED Controller

Manufacturer

Linear Technology

Datasheet

1.LTC3209-2.pdf (20 pages)

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APPLICATIO S I FOR ATIO

lose considerable capacitance over that range. Z5U and

Y5V capacitors may also have a very poor voltage

coefficient causing them to lose 60% or more of their

capacitance when the rated voltage is applied. Therefore,

when comparing different capacitors, it is often more

appropriate to compare the amount of achievable

capacitance for a given case size rather than comparing

the specified capacitance value. For example, over rated

voltage and temperature conditions, a 1µF, 10V, Y5V

ceramic capacitor in a 0603 case may not provide any

more capacitance than a 0.22µF, 10V, X7R available in the

same case. The capacitor manufacturer’s data sheet

should be consulted to determine what value of capacitor

is needed to ensure minimum capacitances at all

temperatures and voltages.

Table 1 shows a list of ceramic capacitor manufacturers

and how to contact them:

Table 1. Recommended Capacitor Vendors

Layout Considerations and Noise

Due to the high switching frequency and the transient

currents produced by the LTC3209-1/LTC3209-2, careful

board layout is necessary. A true ground plane and short

connections to all capacitors will improve performance

and ensure proper regulation under all conditions.

The flying capacitor pins C1P, C2P, C1M and C2M will

have high edge rate waveforms. The large dv/dt on these

pins can couple energy capacitively to adjacent PCB runs.

Magnetic fields can also be generated if the flying capaci-

tors are not close to the LTC3209-1/LTC3209-2 (i.e., the

loop area is large). To decouple capacitive energy transfer,

a Faraday shield may be used. This is a grounded PCB

trace between the sensitive node and the LTC3209-1/

LTC3209-2 pins. For a high quality AC ground, it should be

returned to a solid ground plane that extends all the way to

the LTC3209-1/LTC3209-2.

Taiyo Yuden

Murata

Vishay

Kemet

AVX

www.avxcorp.com

www.t-yuden.com

www.murata.com

www.vishay.com

www.kemet.com

The following guidelines should be followed when design-

ing a PCB layout for the LTC3209.

• The Exposed Pad should be soldered to a large copper

• Input and output capacitors (C1 and C4) must be placed

• The flying capacitors (C2 and C3) must be placed close

• V

• LED pads must be large and connected to other layers of

GND

plane that is connected to a solid, low impedance ground

plane using plated, through-hole vias for proper heat

sinking and noise protection.

close to the part.

to the part. The traces running from the pins to the

capacitor pads should be as wide as possible.

inductance and handle the high currents.

metal to ensure proper heat sinking.

PLANE

LAYER

GND

BAT

, CPO traces must be made wide to minimize

Figure 7. PC Board Layout Example (LTC3209-1)

CPO

BAT

LTC3209-1/LTC3209-2

LAYER

PLANE

BAT

GND

BAT1

BAT2

GND

REF

BAT

ALL VIAS

LABELED V

ARE CONNECTED TO

BAT

PLANE LAYER

ARE CONNECTED TO

GND

GND PLANE LAYER

SOLDER SIDE

COMPONENT

LABELED GND

BAT

ALL VIAS

320912fa

3209 F07

LTC3209-2 Linear Technology, LTC3209-2 Datasheet - Page 17

LTC3209-2

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