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| LM3444MM Datasheet, PDF (13/30 Pages) Texas Instruments – AC-DC Offline LED Driver | |||
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LM3444
www.ti.com
SNVS682C â NOVEMBER 2010 â REVISED MAY 2013
Common equations for determining duty cycle and switching frequency in any buck converter:
1
fSW = tOFF + tON
D=
tON
tON + tOFF
=
VLED
VBUCK
'¶
=
tOFF
tON + tOFF
(8)
Therefore:
fSW =
D,
tON
and
fSW =
1-D
tOFF
(9)
With efficiency of the buck converter in mind:
VLED
VBUCK = K u D
(10)
Substitute equations and rearrange:
¨©§1
· 1
¸¹ K
u
VLED
VBUCK
fSW =
tOFF
(11)
Off-time, and switching frequency can now be calculated using the equations above.
SETTING THE SWITCHING FREQUENCY
Selecting the switching frequency for nominal operating conditions is based on tradeoffs between efficiency
(better at low frequency) and solution size/cost (smaller at high frequency).
The input voltage to the buck converter (VBUCK) changes with both line variations and over the course of each
half-cycle of the input line voltage. The voltage across the LED string will, however, remain constant, and
therefore the off-time remains constant.
The on-time, and therefore the switching frequency, will vary as the VBUCK voltage changes with line voltage. A
good design practice is to choose a desired nominal switching frequency knowing that the switching frequency
will decrease as the line voltage drops and increase as the line voltage increases (Figure 17).
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