參數(shù)資料
型號(hào): LTC3216EDE
廠商: LINEAR TECHNOLOGY CORP
元件分類: 穩(wěn)壓器
英文描述: 1A Low Noise High Current LED Charge Pump with Independent Torch/Flash Current Control
中文描述: 1.5 A SWITCHED CAPACITOR REGULATOR, PDSO12
封裝: 3 X 4 MM, PLASTIC, MO-229-WGED, DFN-12
文件頁(yè)數(shù): 8/12頁(yè)
文件大?。?/td> 102K
代理商: LTC3216EDE
LTC 3216
8
3216fa
V
IN
, CPO Capacitor Selection
The style and value of capacitors used with the LTC3216
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 be
used for both C
VIN
and C
CPO
. Tantalum and aluminum
capacitors are not recommended because of their 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 the output ripple at the expense of higher
start-up current. The peak-to-peak output ripple for 1.5x
mode is approximately given by the expression:
V
RIPPLE(P-P)
= I
OUT
/(3f
OSC
C
CPO
)
Where f
OSC
is the LTC3216’s oscillator frequency (typi-
cally 900kHz) and C
CPO
is the output storage capacitor.
Both the style and value of the output capacitor can
significantly affect the stability of the LTC3216. As shown
in the block diagram, the LTC3216 uses a 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 as the dominant
pole for the control loop. To prevent ringing or instability,
it is important for the output capacitor to maintain at least
2.2
μ
F of actual capacitance over all conditions.
Likewise, excessive ESR on the output capacitor will tend
to degrade the loop stability of the LTC3216. The closed
loop output resistance of the LTC3216 is designed to be
76m
. For a 100mA load current change, the error signal
will change by about 7.6mV. If the output capacitor has
76m
or more of ESR, the closed-loop frequency re-
sponse will cease to roll off in a simple one-pole fashion
and poor load transient response of instability could
result. Multilayer ceramic chip capacitors typically have
exceptional ESR performance. MLCCs combined with a
tight board layout will yield very good stability. As the value
(3)
of C
CPO
controls the amount of output ripple, the value of
C
VIN
controls the amount of ripple present at the input pin
(V
IN
). The input current to the LTC3216 will be relatively
constant while the charge pump is on either the input
charging phase or the output charging phase but will drop
to zero during the clock nonoverlap times. Since the
nonoverlap time is small (~15ns), 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 capaci-
tors are again recommended for their exceptional ESR
performance. Input noise can be further reduced by pow-
ering the LTC3216 through a very small series inductor as
shown in Figure 2. 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.
APPLICATIU
W
U
U
Figure 2. 10nH Inductor Used for Input Noise Reduction
(Approximately 1cm of Wire)
V
IN
GND
LTC3216
2.2
μ
F
0.1
μ
F
10nH
3216 F02
Flying Capacitor Selection
Warning: Polarized capacitors such as tantalum or alumi-
num should never be used for the flying capacitors since
their voltage can reverse upon start-up of the LTC3216.
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 2.2
μ
F of actual capacitance for
each of the flying capacitors. Capacitors of different mate-
rials 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
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