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LTC3630 Datasheet, PDF (11/26 Pages) Linear Technology – High Efficiency, 65V 500mA Synchronous
LTC3630
APPLICATIONS INFORMATION
The basic LTC3630 application circuit is shown on the front
page of the data sheet. External component selection is
determined by the maximum load current requirement and
begins with the selection of the peak current programming
resistor, RISET. The inductor value L can then be determined,
followed by capacitors CIN and COUT.
Peak Current Resistor Selection
The peak current comparator has a guaranteed maximum
current limit of 1A (1.2A typical), which guarantees a
maximum average current of 500mA. For applications
that demand less current, the peak current threshold can
be reduced to as little as 100mA (120mA typical). This
lower peak current allows the use of lower value, smaller
components (input capacitor, output capacitor, and induc-
tor), resulting in lower input supply ripple and a smaller
overall DC/DC converter.
The threshold can be easily programmed using a resis-
tor (RISET) between the ISET pin and ground. The voltage
generated on the ISET pin by RISET and the internal 5μA
current source sets the peak current. The voltage on the
ISET pin is internally limited within the range of 0.1V to
1.0V. The value of resistor for a particular peak current can
be selected by using Figure 2 or the following equation:
RISET = IPEAK • 0.2 • 106
where 100mA < IPEAK < 1A.
The internal 5μA current source is reduced to 1μA in sleep
mode to maximize efficiency and to facilitate a trade-off
220
200
180
160
140
120
100
80
60
40
20
0
50 100 150 200 250 300 350 400 450 500
MAXIMUM LOAD CURRENT (mA)
3630 F02
Figure 2. RISET Selection
between efficiency and light load output voltage ripple, as
described in the CISET Selection section of the Applica-
tions Information. For maximum efficiency, minimize the
capacitance on the ISET pin and place the RISET resistor
as close to the pin as possible.
The typical peak current is internally limited to be within the
range of 120mA to 1.2A. Shorting the ISET pin to ground
programs the current limit to 120mA, and leaving it float
sets the current limit to the maximum value of 1.2A. When
selecting this resistor value, be aware that the maximum
average output current for this architecture is limited to
half of the peak current. Therefore, be sure to select a value
that sets the peak current with enough margin to provide
adequate load current under all conditions. Selecting the
peak current to be 2.2 times greater than the maximum
load current is a good starting point for most applications.
Inductor Selection
The inductor, input voltage, output voltage, and peak cur-
rent determine the switching frequency during a burst
cycle of the LTC3630. For a given input voltage, output
voltage, and peak current, the inductor value sets the
switching frequency during a burst cycle when the output
is in regulation. Generally, switching between 50kHz and
250kHz yields high efficiency, and 200kHz is a good first
choice for many applications. The inductor value can be
determined by the following equation:
L
=
⎛
⎜
⎝
f
VOUT
• IPEAK
⎞
⎟
⎠
•
⎛
⎝⎜1–
VOUT
VIN
⎞
⎠⎟
The variation in switching frequency during a burst cycle
with input voltage and inductance is shown in Figure 3. For
lower values of IPEAK, multiply the frequency in Figure 3
by 1.2A/IPEAK.
An additional constraint on the inductor value is the
LTC3630’s 150ns minimum on-time of the high side switch.
Therefore, in order to keep the current in the inductor
3630fb
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