LTC1435 Linear Technology, LTC1435 Datasheet - Page 11
LTC1435
Manufacturer Part Number
LTC1435
Description
High Efficiency Low Noise Synchronous Step-Down Switching Regulator
Manufacturer
Linear Technology
Datasheet
1.LTC1435.pdf
(20 pages)
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APPLICATIONS
INTV
An internal P-channel low dropout regulator produces the
5V supply which powers the drivers and internal circuitry
within the LTC1435. The INTV
15mA and must be bypassed to ground with a minimum
of 2.2 F tantalum or low ESR electrolytic. Good bypassing
is necessary to supply the high transient currents required
by the MOSFET gate drivers.
High input voltage applications, in which large MOSFETs
are being driven at high frequencies, may cause the
maximum junction temperature rating for the LTC1435 to
be exceeded. The IC supply current is dominated by the
gate charge supply current when not using an output
derived EXTV
operating frequency as discussed in the Efficiency Consid-
erations section. The junction temperature can be esti-
mated by using the equations given in Note 1 of the
Electrical Characteristics. For example, the LTC1435 is
limited to less than 17mA from a 30V supply:
To prevent maximum junction temperature from being
exceeded, the input supply current must be checked when
operating in continuous mode at maximum V
EXTV
The LTC1435 contains an internal P-channel MOSFET
switch connected between the EXTV
The switch closes and supplies the INTV
ever the EXTV
until EXTV
driver and control power to be derived from the output
during normal operation (4.8V < V
internal regulator when the output is out of regulation
(start-up, short circuit). Do not apply greater than 10V to
the EXTV
Significant efficiency gains can be realized by powering
INTV
from the driver and control currents will be scaled by a
factor of Duty Cycle/Efficiency. For 5V regulators this
supply means connecting the EXTV
However, for 3.3V and other lower voltage regulators,
T
J
CC
CC
CC
= 70 C + (17mA)(30V)(100 C/W) = 126 C
Regulator
from the output, since the V
Connection
CC
CC
pin and ensure that EXTV
CC
drops below 4.5V. This allows the MOSFET
CC
source. The gate charge is dependent on
pin is above 4.8V, and remains closed
U
INFORMATION
U
CC
OUT
CC
pin can supply up to
W
CC
IN
pin directly to V
CC
< 9V) and from the
and INTV
current resulting
CC
< V
power when-
IN
IN
.
U
.
CC
pins.
OUT
.
5V V
additional circuitry is required to derive INTV
from the output.
The following list summarizes the four possible connec-
tions for EXTV
1. EXTV
2. EXTV
3. EXTV
4. EXTV
CONNECTION
to be powered from the internal 5V regulator resulting
in an efficiency penalty of up to 10% at high input
voltages.
connection for a 5V regulator and provides the highest
efficiency.
For 3.3V and other low voltage regulators, efficiency
gains can still be realized by connecting EXTV
output-derived voltage which has been boosted to
greater than 4.8V. This can be done with either the
inductive boost winding as shown in Figure 4a or the
capacitive charge pump shown in Figure 4b. The charge
pump has the advantage of simple magnetics.
supply is available in the 5V to 10V range (EXTV
V
compatible with the MOSFET gate drive requirements.
When driving standard threshold MOSFETs, the exter-
nal supply must always be present during operation to
prevent MOSFET failure due to insufficient gate drive.
OPTIONAL
Figure 4a. Secondary Output Loop and EXTV
SEC
EXT V
IN
), it may be used to power EXTV
9V
CC
CC
CC
CC
CC
left open (or grounded). This will cause INTV
connected to an output-derived boost network.
connected to an external supply. If an external
connected directly to V
R6
R5
CC:
EXTV
SFB
SGND
LTC1435
CC
PGND
V
SW
TG
BG
IN
+
C
IN
N-CH
N-CH
V
IN
OUT
. This is the normal
1:N
L1
CC
1N4148
LTC1435
CC
providing it is
Connection
R
LTC1435 • F04a
SENSE
CC
V
SEC
CC
11
+
+
power
to an
CC
1 F
C
V
CC
OUT
OUT
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