lt3845ife-trpbf Linear Technology Corporation, lt3845ife-trpbf Datasheet - Page 14
lt3845ife-trpbf
Manufacturer Part Number
lt3845ife-trpbf
Description
High Voltage Synchronous Current Mode Step-down Controller With Adjustable Operating Frequency
Manufacturer
Linear Technology Corporation
Datasheet
1.LT3845IFE-TRPBF.pdf
(24 pages)
LT3845
APPLICATIONS INFORMATION
will increase the peak currents, requiring more fi ltering
on the input and output of the supply. If ΔI
the slope compensation circuit is ineffective and current
mode instability may occur at duty cycles greater than
50%. To satisfy slope compensation requirements the
minimum inductance is calculated as follows:
The magnetics vendors specify either the saturation cur-
rent, the RMS current or both. When selecting an inductor
based on inductor saturation current, use the peak cur-
rent through the inductor, I
saturation current specifi cation is the current at which
the inductance, measured at zero current, decreases by
a specifi ed amount, typically 30%.
When selecting an inductor based on RMS current rating,
use the average current through the inductor, I
The RMS current specifi cation is the RMS current at which
the part has a specifi c temperature rise, typically 40°C,
above 25°C ambient.
After calculating the minimum inductance value, the
volt-second product, the saturation current and the RMS
current for your design, select an off-the-shelf inductor.
Contact the Application group at Linear Technology for
further support.
For more detailed information on selecting an inductor,
please see the “Inductor Selection” section of Linear
Technology Application Note 44.
MOSFET Selection
The selection criteria of the external N-channel standard
level power MOSFETs include on resistance (R
reverse transfer capacitance (C
source voltage (V
continuous drain current.
For maximum effi ciency, minimize R
Low R
minimizes transition losses. The problem is that R
is inversely related to C
14
L
MIN
DS(ON)
> V
OUT
minimizes conduction losses while low C
•
DSS
2DC
DC
), total gate charge (Q
MAX
MAX
RSS
– 1
OUT(MAX)
. In selecting the top MOSFET
•
R
SENSE
RSS
+ ΔI
f
SW
), maximum drain
• 8.33
DS(ON)
L
G
/2. The inductor
) and maximum
L
is too high,
and C
OUT(MAX)
DS(ON)
DS(ON)
RSS
RSS
),
.
.
balancing the transition losses with the conduction losses
is a good idea while the bottom MOSFET is dominated by
the conduction loss, which is worse during a short-circit
condition or at a very low duty cycle.
Calculate the maximum conduction losses of the
MOSFETs:
Note that R
dence. The MOSFET manufacturer’s data sheet contains a
curve, R
In the main MOSFET, transition losses are proportional
to V
plications (V
losses:
where k is a constant inversely related to the gate driver
current, approximated by k = 2 for LT3845 applications.
The total maximum power dissipations of the MOSFET
are:
To achieve high supply effi ciency, keep the total power dis-
sipation in each switch to less than 3% of the total output
power. Also, complete a thermal analysis to ensure that
the MOSFET junction temperature is not exceeded.
where θ
ambient temperature. Keep the calculated T
imum specifi ed junction temperature, typically 150°C.
Note that when V
losses may dominate. A MOSFET with higher R
and lower C
with higher voltage V
R
DS(ON)
P
P
P
T
P
P
TRAN(TOP)
TOP(TOTAL)
J
IN
BOT(TOTAL)
COND(TOP)
COND(BOT)
= T
2
and can be considerably large in high voltage ap-
JA
DS(ON)
and lower C
A
+ P
is the package thermal resistance and T
DS(ON)
RSS
IN
(TOTAL)
= k • V
= P
= I
= P
= I
> 20V). Calculate the maximum transition
vs Temperature.
may provide higher effi ciency. MOSFETs
IN
OUT(MAX)
OUT(MAX)
has a large positive temperature depen-
COND(MAIN)
COND(SYNC)
is high and f
RSS
DSS
IN
• θ
2
JA
.
• I
specifi cation usually have higher
OUT(MAX)
2
2
•
•
+ P
V
V
V
IN
OUT
SW
IN
TRAN(MAIN)
– V
V
IN
is high, the transition
• C
• R
OUT
RSS
DS(ON)
J
• R
below the max-
• f
DS(ON)
SW
A
DS(ON)
is the
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