LT3430EFE#PBF Linear Technology, LT3430EFE#PBF Datasheet - Page 10
LT3430EFE#PBF
Manufacturer Part Number
LT3430EFE#PBF
Description
IC SW REG STEP-DWN 3A 16-TSSOP
Manufacturer
Linear Technology
Type
Step-Down (Buck)r
Datasheet
1.LT3430EFE-1PBF.pdf
(28 pages)
Specifications of LT3430EFE#PBF
Internal Switch(s)
Yes
Synchronous Rectifier
No
Number Of Outputs
1
Voltage - Output
1.2 ~ 54 V
Current - Output
3A
Frequency - Switching
200kHz
Voltage - Input
5.5 ~ 60 V
Operating Temperature
-40°C ~ 125°C
Mounting Type
Surface Mount
Package / Case
16-TSSOP Exposed Pad, 16-eTSSOP, 16-HTSSOP
Primary Input Voltage
60V
No. Of Outputs
1
Output Voltage
54V
Output Current
6.5A
No. Of Pins
16
Operating Temperature Range
-40°C To +125°C
Msl
MSL 1 - Unlimited
Rohs Compliant
Yes
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Power - Output
-
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
LT3430/LT3430-1
APPLICATIONS INFORMATION
inductor value to achieve a desirable output ripple volt-
age level. If output ripple voltage is of less importance,
the subsequent suggestions in Peak Inductor and Fault
Current and EMI will additionally help in the selection of
the inductor value.
Peak-to-peak output ripple voltage is the sum of a triwave
(created by peak-to-peak ripple current (I
and a square wave (created by parasitic inductance (ESL)
and ripple current slew rate). Capacitive reactance is as-
sumed to be small compared to ESR or ESL.
where:
ESR = equivalent series resistance of the output capaci-
tor
ESL = equivalent series inductance of the output capaci-
tor
dI/dt = slew rate of inductor ripple current = V
Peak-to-peak ripple current (I
and into the output capacitor is typically chosen to be
between 20% and 40% of the maximum load current. It
is approximated by:
Example: with V
0.080Ω and ESL = 10nH, output ripple voltage can be
approximated as follows:
To reduce output ripple voltage further requires an increase
in the inductor value with the trade-off being a physically
larger inductor with the possibility of increased component
height and cost.
10
I
I
V
V
=
dI
dt
LP P
P-P
RIPPLE
RIPPLE
0 079 0 018 97
-
=
.
=
22 10
=
( )
40 22 10
(
=
=
•
+
V
40
OUT
(
(
(
I
0 99
LP P
.
( )( )( )
−
.
V
IN
-
6
)(
IN
( )
•
5 40 5
V
=
)(
A
= 40V, V
IN
=
(
ESR
)(
10
f L
−
–
0 08
6
6
.
V
)(
−
mV
)
• .
OUT
200 10
+
1 8
)
)
OUT
P-P
(
+
ESL
)
LP-P
(
•
10 10
= 5V, L = 22µH, ESR =
)
) through the inductor
•
3
dI
dt
)
=
−
0 99
9
LP-P
)( )
.
10
) times ESR)
A
6
IN
( )
/L
1 8
.
Ceramic Output Capacitor
An alternative way to further reduce output ripple voltage
is to reduce the ESR of the output capacitor by using a
ceramic capacitor. Although this reduction of ESR removes
a useful zero in the overall loop response, this zero can
be replaced by inserting a resistor (R
V
Capacitors in Applications Information.)
Peak Inductor Current and Fault Current
To ensure that the inductor will not saturate, the peak
inductor current should be calculated knowing the
maximum load current. An appropriate inductor should
then be chosen. In addition, a decision should be made
whether or not the inductor must withstand continuous
fault conditions.
If maximum load current is 1A, for instance, a 1A induc-
tor may not survive a continuous 4A overload condition.
Dead shorts will actually be more gentle on the inductor
because the LT3430/LT3430-1 have frequency and current
limit foldback.
Table 2
VENDOR/
PART NO.
Sumida
CDRH104R-150
CDRH104R-220
CDRH104R-330
CDRH124-220
CDRH124-330
CDRH127-330
CDRH127-470
CEI122-220
Coiltronics
UP3B-330
UP3B-470
UP4B-680
Coilcraft
DO3316P-153
DO5022p-683
C
pin and the compensation capacitor C
VALUE
(µH)
15
22
33
22
33
33
47
22
33
47
68
15
68
(Amps)
3.6
2.9
2.3
2.9
2.7
3.0
2.5
2.3
2.4
4.3
3.5
I
DC
3
3
C
(Ohms)
) in series with the
0.050
0.073
0.093
0.066
0.097
0.065
0.100
0.085
0.069
0.108
0.120
0.046
0.130
DCR
C
. (See Ceramic
HEIGHT
(mm)
4.5
4.5
6.8
6.8
7.9
5.2
7.1
4
4
4
8
8
8
34301fa
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