LT3437HFE#TRPBF Linear Technology, LT3437HFE#TRPBF Datasheet - Page 22
LT3437HFE#TRPBF
Manufacturer Part Number
LT3437HFE#TRPBF
Description
IC REG SW HV 500MA 16-TSSOP
Manufacturer
Linear Technology
Type
Step-Down (Buck)r
Datasheet
1.LT3437HFEPBF.pdf
(28 pages)
Specifications of LT3437HFE#TRPBF
Internal Switch(s)
Yes
Synchronous Rectifier
No
Number Of Outputs
1
Voltage - Output
1.25 ~ 54 V
Current - Output
500mA
Frequency - Switching
200kHz
Voltage - Input
3.3 ~ 60 V
Operating Temperature
-40°C ~ 125°C
Mounting Type
Surface Mount
Package / Case
16-TSSOP Exposed Pad, 16-eTSSOP, 16-HTSSOP
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Power - Output
-
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LT3437
APPLICATIO S I FOR ATIO
THERMAL CALCULATIONS
Power dissipation in the LT3437 chip comes from four
sources: switch DC loss, switch AC loss, boost circuit
current, and input quiescent current. The following formu-
las show how to calculate each of these losses. These
formulas assume continuous mode operation, and should
not be used for calculating efficiency at light load currents.
Switch loss:
Boost current loss:
Quiescent current loss:
Example: with V
Total power dissipation is:
22
P
R
t
(t
t
t
t
f = switch frequency
P
P
P
P
P
P
0 008 0 092 0 1
EFF
r
f
IR
BOOST
SW
BOOST
Q
SW
Q
TOT
SW
r
.
= (V
= (V
+ t
= t
= V
=
= effective switch current/voltage overlap time
=
=
= 0.1 + 0.065 + 0.024 = 0.13W
f
= switch resistance (≈1 when hot )
IF
40 0 0005
IN
IN
IN
+ t
+
R
( )(
/2)ns
= (I
/0.6)ns
1 0 25
(
=
=
SW OUT
(500µA) + V
IR
.
.
(
( ) (
OUT
V
5
+ t
( ) ( )
.
OUT
40
I
IN
2
IF
/0.05)ns
=
V
) ( )
)
= 40V, V
0 25 30
40
2
)
IN
U
) (
. /
2
+
V
2
5
.
IN
I
5 0 0008
OUT
V
W
(
OUT
+
OUT
.
U
( ) ( ) (
)
/
92 12 0 25 40 200 3
OUT
30
=
(800µA)
+
)
0 005
= 5V and I
.
)
t
/
EFF
=
W
0 024
( )( )( )( )
W
1 2 /
.
.
)( )(
OUT
W
I
OUT
= 250mA:
U
V
IN
e
)
f
Thermal resistance for the LT3437 package is influenced
by the presence of internal or backside planes. With a full
plane under the package, thermal resistance will be about
45°C for the FE and DD packages. No plane will increase
resistance to about 150°C/W. To calculate die temperature,
use the proper thermal resistance number for the desired
package and add in worst-case ambient temperature:
With the DD package (Q
temperature of 70°C:
HIGH TEMPERATURE OPERATION
Extreme care must be taken when designing LT3437
applications to operate at high ambient temperatures. The
LT3437 is designed to work at elevated temperatures but
erratic operation can occur due to external components.
Each passive component should be checked for absolute
value and voltage ratings to ensure loop stability at tem-
perature. Boost and Catch diode leakages, as well as
increased series resistance, will adversely affect efficiency
and low quiescent current operation. Junction tempera-
ture increase in the diodes due to self heating (leakage)
and power dissipation should be measured to ensure their
maximum temperature specifications are not violated.
Input Voltage vs Operating Frequency Considerations
The absolute maximum input supply voltage for the LT3437
is specified at 80V. This is based solely on internal semi-
conductor junction breakdown effects. Due to internal
power dissipation, the actual maximum V
a particular application may be less than this.
A detailed theoretical basis for estimating internal power
loss is given in the section Thermal Considerations. Note
that AC switching loss is proportional to both operating
frequency and output current. The majority of AC switch-
ing loss is also proportional to the square of input voltage.
For example, while the combination of V
5V at 700mA and f
simultaneously raising V
possible. Nevertheless, input voltage transients up to 80V
can usually be accommodated, assuming the resulting
T
T
J
J
= T
= 70 + 45(0.1) = 74.5°C
A
+ Q
JA
(P
OSC
TOT
= 200kHz may be easily achievable,
)
IN
to 80V and f
JA
= 45°C/W) at an ambient
OSC
IN
to 700kHz is not
IN
= 40V, V
achievable in
OUT
3437fc
=
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