參數(shù)資料
型號(hào): DC1561B
廠商: Linear Technology
文件頁(yè)數(shù): 19/42頁(yè)
文件大?。?/td> 0K
描述: EVAL BOARD FOR LTC4278
標(biāo)準(zhǔn)包裝: 1
主要目的: 電源管理,以太網(wǎng)供電(POE)
嵌入式:
已用 IC / 零件: LTC4278
已供物品:
LTC4278
26
4278fc
Note the use of the external feedback resistive divider
ratio to set output voltage provides the user additional
freedom in selecting a suitable transformer turns ratio.
Turns ratios that are the simple ratios of small integers;
e.g., 1:1, 2:1, 3:2 help facilitate transformer construction
and improve performance.
When building a supply with multiple outputs derived
through a multiple winding transformer, lower duty cycle
can improve cross regulation by keeping the synchronous
rectifier on longer, and thus, keep secondary windings
coupledlonger.Foramultipleoutputtransformer,theturns
ratio between output windings is critical and affects the
accuracy of the voltages. The ratio between two output
voltages is set with the formula VOUT2=VOUT1N21where
N21 is the turns ratio between the two windings. Also
keep the secondary MOSFET RDS(ON) small to improve
cross regulation.
The feedback winding usually provides both the feedback
voltage and power for the LTC4278. Set the turns ratio
between the output and feedback winding to provide a
rectifiedvoltagethatunderworst-caseconditionsisgreater
than the the preregulator maximum supply voltage. For
example if the preregulator maximum output were 7V:
NSF >
VOUT
7
+ VF
where:
VF =Diode Forward Voltage
For our example: NSF >
5
7
+ 0.7
=
1
1.56
We will choose
1
3
Leakage Inductance
Transformer leakage inductance (on either the primary or
secondary) causes a spike after the primary-side switch
turn-off. This is increasingly prominent at higher load
currents, where more stored energy is dissipated. Higher
flyback voltage may break down the MOSFET switch if it
has too low a BVDSS rating.
One solution to reducing this spike is to use a clamp circuit
to suppress the voltage excursion. However, suppressing
the voltage extends the flyback pulse width. If the flyback
pulse extends beyond the enable delay time, output
voltage regulation is affected. The feedback system has a
deliberately limited input range, roughly ±50mV referred
to the FB node. This rejects higher voltage leakage spikes
because once a leakage spike is several volts in amplitude,
a further increase in amplitude has little effect on the
feedback system. Therefore, it is advisable to arrange the
clamp circuit to clamp at as high a voltage as possible,
observing MOSFET breakdown, such that leakage spike
duration is as short as possible. Application Note 19
provides a good reference on clamp design.
As a rough guide, leakage inductance of several percent
(of mutual inductance) or less may require a clamp, but
exhibit little to no regulation error due to leakage spike
behavior.Inductancesfromseveralpercentupto,perhaps,
ten percent, cause increasing regulation error.
Avoid double digit percentage leakage inductances. There
is a potential for abrupt loss of control at high load cur-
rent. This curious condition potentially occurs when the
leakage spike becomes such a large portion of the flyback
waveform that the processing circuitry is fooled into think-
ing that the leakage spike itself is the real flyback signal!
It then reverts to a potentially stable state whereby the
top of the leakage spike is the control point, and the
trailing edge of the leakage spike triggers the collapse
detect circuitry. This typically reduces the output voltage
abruptly to a fraction, roughly one-third to two-thirds of
its correct value.
Onceloadcurrentisreducedsufficiently,thesystemsnaps
back to normal operation. When using transformers with
considerable leakage inductance, exercise this worst-case
check for potential bistability:
1. Operate the prototype supply at maximum expected
load current.
2. Temporarily short-circuit the output.
3. Observe that normal operation is restored.
If the output voltage is found to hang up at an abnormally
lowvalue,thesystemhasaproblem.Thisisusuallyevident
bysimultaneouslyviewingtheprimary-sideMOSFETdrain
voltage to observe firsthand the leakage spike behavior.
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