LTC3212EDDB#TRPBF【PDF 9/12 页】IC LED DRIVER RGB 12-DFN

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LTC3212

APPLICATIONS INFORMATION

I OUT

2 f OSC ? C CPO

V IN ,CPOCapacitorSelection

The style and value of the capacitors used with the LTC3212

determine several important parameters such as regulator

control loop stability, output ripple, charge pump strength

and minimum start-up time.

To reduce noise and ripple, it is recommended that low

equivalent series resistance (ESR) ceramic capacitors are

used for both C VIN and C CPO . Tantalum and aluminum

capacitors are not recommended due to high ESR.

The value of C CPO directly controls the amount of output

ripple for a given load current. Increasing the size of C CPO

will reduce output ripple at the expense of longer start-up

time. The peak-to-peak output ripple of the 2x mode is

approximately given by the expression:

V RIPPLEP-P =

where f OSC is the LTC3212 oscillator frequency or typically

900kHz and C CPO is the output storage capacitor.

Flying Capacitor Selection

Warning: Polarized capacitors such as tantalum or

aluminum should never be used for the flying capaci-

tors since their voltage can reverse upon start-up of the

LTC3212. Ceramic capacitors should always be used for

the flying capacitors.

The flying capacitors control the strength of the charge

pump. In order to achieve the rated output current it is

necessary to have at least 0.6μF of capacitance for flying

capacitor. Capacitors of different materials lose their ca-

pacitance with higher temperature and voltage at different

rates. For example, a ceramic capacitor made of X7R mate-

rial will retain most of its capacitance from –40°C to 85°C

whereas a Z5U or Y5V style capacitor will 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 2 shows a list of ceramic capacitor manufacturers

and how to contact them:

Table 2. Recommended Capacit or Vendors

AVX www.avxcorp.com

Kemet www.kemet.com

Murata www.murata.com

Taiyo Yuden www.t-yuden.com

Vishay www.vishay.com

Layout Considerations and Switching Noise

The LTC3212 has been designed to minimize EMI. How-

ever due to its high switching frequency and the transient

currents produced by the LTC3212, 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 CP and CM will have 5ns to 10ns

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 capacitors are

not close to the LTC3212 (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 LTC3212 pins. For a high quality

AC ground, it should be returned to a solid ground plane

that extends all the way to the LTC3212.

3212fb

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