LT3799IMSE-1(RevA) 查看數據表(PDF) - Linear Technology
零件编号
产品描述 (功能)
比赛名单
LT3799IMSE-1 Datasheet PDF : 20 Pages
| |||
LT3799-1
Operation
Universal Input
The LT3799-1 easily operates over the universal input
range of 90VAC to 265VAC, but is not limited to this range.
Applications with input voltages above 500VAC can be
implemented with the LT3799-1. Output current regulation
error may be minimized by using two application circuits
for the wide input range: one optimized for 120VAC and
another optimized for 220VAC. The first application pictured
in the Typical Applications section shows three options:
universal input, 120VAC, and 220VAC. The circuit varies by
three resistors. In the Typical Performance Characteristics
section, the LED Current vs VIN graphs show the output
current line regulation for all three circuits.
Selecting Winding Turns Ratio
Boundary mode operation gives a lot of freedom in selecting
the turns ratio of the transformer. We suggest to keep the
duty cycle low, lower NPS, at the maximum input voltage
since the duty cycle will increase when the AC waveform is
decreases to zero volts. A higher NPS increases the output
current while keeping the primary current limit constant.
Although this seems to be a good idea, it comes at the
expense of a higher RMS current for the secondary-side
diode which might not be desirable because of the primary
side MOSFET’s superior performance as a switch. A higher
NPS does reduce the voltage stress on the secondary-side
diode while increasing the voltage stress on the primary-
side MOSFET. If switching frequency at full output load is
kept constant, the amount of energy delivered per cycle by
the transformer also stays constant regardless of the NPS.
Therefore, the size of the transformer remains the same at
practical NPS’s. Adjusting the turns ratio is a good way to
find an optimal MOSFET and diode for a given application.
Switch Voltage Clamp Requirement
Leakage inductance of an offline transformer is high due
to the extra isolation requirement. The leakage inductance
energy is not coupled to the secondary and goes into
the drain node of the MOSFET. This is problematic since
400V and higher rated MOSFETs cannot always handle
this energy by avalanching. Therefore the MOSFET needs
protection. A transient voltage suppressor (TVS) and diode
are recommended for all offline application and connected,
as shown in Figure 3. The TVS device needs a reverse
breakdown voltage greater than (VOUT + Vf)*N where VOUT
is the output voltage of the flyback converter, Vf is the
secondary diode forward voltage, and N is the turns ratio.
VSUPPLY
GATE
37991 F03
Figure 3. Clamp
Transformer Design Considerations
Transformer specification and design is a critical part of
successfully applying the LT3799-1. In addition to the
usual list of caveats dealing with high frequency isolated
power supply transformer design, the following informa-
tion should be carefully considered. Since the current on
the secondary side of the transformer is inferred by the
current sampled on the primary, the transformer turns
ratio must be tightly controlled to ensure a consistent
output current.
A tolerance of ±5% in turns ratio from transformer to
transformer could result in a variation of more than ±5% in
output regulation. Fortunately, most magnetic component
manufacturers are capable of guaranteeing a turns ratio
tolerance of 1% or better. Linear Technology has worked
with several leading magnetic component manufacturers
to produce predesigned flyback transformers for use with
the LT3799-1. Table 1 shows the details of several of these
transformers.
14
For more information www.linear.com/LT3799-1
37991fa
Share Link: 