LT3511MPMS-TRPBF データシートの表示(PDF) - Linear Technology
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LT3511MPMS-TRPBF Datasheet PDF : 26 Pages
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LT3511
Applications Information
Table 2 and 3 show some recommended diodes and Zener
diodes.
Table 2. Recommended Zener Diodes
PART
VZENER POWER
(V)
(W)
CASE VENDOR
MMSZ5266BT1G
68
0.5 SOD-123 On Semi
MMSZ5270BT1G
91
0.5 SOD-123
CMHZ5266B
CMHZ5267B
68
0.5 SOD-123 Central
75
0.5 SOD-123 Semiconductor
BZX84J-68
68
0.5 SOD323F NXP
BZX100A
100
0.5 SOD323F
Table 3. Recommended Diodes
PART
VREVERSE
I (A)
(V)
BAV19W
0.625 100
BAV20W
0.625 150
CASE
SOD-123
SOD-123
VENDOR
Diodes Inc.
Leakage Inductance Blanking
When the power switch turns off, the flyback pulse ap-
pears. However, a finite time passes before the trans-
former primary-side voltage waveform approximately
represents the output voltage. Rise time on the SW node
and transformer leakage inductance cause the delay. The
leakage inductance also causes a very fast voltage spike
on the primary side of the transformer. The amplitude of
the leakage spike is largest when power switch current is
highest. Introduction of an internal fixed delay between
switch turn-off and the start of sampling provides im-
munity to the phenomena discussed above. The LT3511
sets internal blanking to 150ns. In certain cases leakage
inductance spikes last longer than the internal blanking,
but will not significantly affect output regulation.
Secondary Leakage Inductance
In addition to primary leakage inductance, secondary leak-
age inductance exhibits an important effect on application
design. Secondary leakage inductance forms an inductive
divider on the transformer secondary. The inductive divider
effectively reduces the size of the primary-referred flyback
pulse. The smaller flyback pulse results in a higher regulated
output voltage. The inductive divider effect of secondary
leakage inductance is load independent. RFB/RREF ratio
adjustments can accommodate this effect to the extent
secondary leakage inductance is a constant percentage
of mutual inductance (over manufacturing variations).
Winding Resistance Effects
Resistance in either the primary or secondary will reduce
overall efficiency (POUT/PIN). Good output voltage regula-
tion will be maintained independent of winding resistance
due to the boundary mode operation of the LT3511.
Bifilar Winding
A bifilar, or similar winding technique, is a good way to
minimize troublesome leakage inductances. However, re-
member that this will also increase primary-to-secondary
capacitance and limit the primary-to-secondary breakdown
voltage, so bifilar winding is not always practical. The
Linear Technology applications group is available and
extremely qualified to assist in the selection and/or design
of the transformer.
APPLICATION DESIGN CONSIDERATIONS
Iterative Design Process
The LT3511 uses a unique sampling scheme to regulate
the isolated output voltage. The use of this isolated scheme
requires a simple iterative process to choose feedback
resistors and temperature compensation. Feedback re-
sistor values and temperature compensation resistance
is heavily dependent on the application, transformer and
output diode chosen.
Once resistor values are fixed after iteration, the values
will produce consistent output voltages with the chosen
transformer and output diode. Remember, the turns ratio
of the transformer must be guaranteed within ±1%. The
transformer vendors mentioned in this data sheet can
build transformers to this specification.
3511fa
13
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