LTC3205 LINER [Linear Technology], LTC3205 Datasheet - Page 10

LTC3205

Manufacturer Part Number

LTC3205

Description

Multidisplay LED Controller

Manufacturer

LINER [Linear Technology]

Datasheet

1.LTC3205.pdf (16 pages)

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Download datasheet (253Kb)

APPLICATIO S I FOR ATIO

LTC3205

necessary for LD to load the data once it has shifted into

the device. Command data is latched into the command

will begin to act on new command data as soon as LD goes

low. Any general purpose microcontroller I/O line can be

configured to control the LD pin if the microcontroller

doesn’t provide this feature automatically.

The style and value of capacitors used with the LTC3205

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:

where f

800kHz) and C

on CPO. Both the style and value of the output capacitor

can significantly affect the stability of the LTC3205. The

LTC3205 uses a linear control loop to adjust the strength

of the charge pump to match the current required at the

output. The error signal of this loop is stored directly on

the output charge storage capacitor. The charge storage

capacitor also serves to form the dominant pole for the

control loop. To prevent ringing or instability, it is impor-

tant for the output capacitor to maintain at least 0.6 F of

capacitance over all conditions. Likewise, excessive ESR

on the output capacitor will tend to degrade the loop

stability of the LTC3205. The closed-loop output resis-

tance of the LTC3205 is designed to be 0.6 . For a 100mA

load current change, the error signal will change by about

60mV. If the output capacitor has 0.6 or more of ESR,

the closed-loop frequency response will cease to roll off in

a simple one-pole fashion and poor load transient re-

sponse or instability could result. Multilayer ceramic chip

, CPO Capacitor Selection

RIPPLE

OSC

P-P

is the LTC3205’s oscillator frequency (typically

OUT

is the output charge storage capacitor

OSC

OUT

•

OUT

and CPO. Tanta-

capacitors typically have exceptional ESR performance.

MLCCs combined with a tight board layout will yield very

good stability. As the value of C

output ripple, the value of C

present at the input pin (V

LTC3205 will be relatively constant while the charge pump

is on either the input charging phase or the output charg-

ing phase but will drop to zero during the clock nonoverlap

times. Since the nonoverlap time is small (~25ns), these

missing “notches” will result in only a small perturbation

on the input power supply line. Note that a higher ESR

capacitor such as tantalum will have higher input noise

due to the input current change times the ESR. Therefore,

ceramic capacitors are again recommended for their ex-

ceptional ESR performance. Input noise can be further

reduced by powering the LTC3205 through a very small

series inductor as shown in Figure 6. A 10nH inductor will

reject the fast current notches, thereby presenting a nearly

constant current load to the input power supply. For

economy, the 10nH inductor can be fabricated on the PC

board with about 1cm (0.4") of PC board trace.

Flying Capacitor Selection

Warning: A polarized capacitor such as tantalum or alumi-

num should never be used for the flying capacitors since

their voltage can reverse upon start-up of the LTC3205.

Ceramic capacitors should always be used for the flying

capacitors.

The flying capacitor controls the strength of the charge

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

necessary to have at least 0.7 F of capacitance for each of

the flying capacitors. Capacitors of different materials lose

their capacitance with higher temperature and voltage at

different rates. For example, a ceramic capacitor made of

X7R material will retain most of its capacitance from

–40 C to 85 C whereas a Z5U or Y5V style capacitor will

Figure 6. 10nH Inductor Used for Input Noise

Reduction (Approximately 1cm of Wire)

0.1 F

10nH

controls the amount of ripple

). The input current to the

1 F

OUT

controls the amount of

GND

LTC3205

3205 F06

3205f

LTC3205 LINER [Linear Technology], LTC3205 Datasheet - Page 10

LTC3205

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