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T0P246R View Datasheet(PDF) - Power Integrations, Inc

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T0P246R Datasheet PDF : 52 Pages
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TOP242-250
Application Examples
A High Efficiency, 30 W, Universal Input Power Supply
The circuit shown in Figure 41 takes advantage of several of
the TOPSwitch-GX features to reduce system cost and power
supply size and to improve efficiency. This design delivers
30 W at 12 V, from an 85 VAC to 265 VAC input, at an ambient
of 50 °C, in an open frame configuration. A nominal efficiency
of 80% at full load is achieved using TOP244Y.
The current limit is externally set by resistors R1 and R2 to a
value just above the low line operating peak DRAIN current
of approximately 70% of the default current limit. This
allows use of a smaller transformer core size and/or higher
transformer primary inductance for a given output power,
reducing TOPSwitch-GX power dissipation, while at the same
time avoiding transformer core saturation during startup and
output transient conditions. The resistors R1 & R2 provide a
signal that reduces the current limit with increasing line voltage,
which in turn limits the maximum overload power at high input
line voltage. This function in combination with the built-in
soft-start feature of TOPSwitch-GX, allows the use of a low cost
RCD clamp (R3, C3 and D1) with a higher reflected voltage,
by safely limiting the TOPSwitch-GX drain voltage, with
adequate margin under worst case conditions. Resistor R4
provides line sensing, setting UV at 100 VDC and OV at
450 VDC. The extended maximum duty cycle feature of
TOPSwitch-GX (guaranteed minimum value of 75% vs. 64%
for TOPSwitch-II) allows the use of a smaller input capacitor
(C1). The extended maximum duty cycle and the higher
reflected voltage possible with the RCD clamp also permit
the use of a higher primary to secondary turns ratio for T1,
which reduces the peak reverse voltage experienced by the
secondary rectifier D8. As a result a 60 V Schottky rectifier
can be used for up to 15 V outputs, which greatly improves
power supply efficiency. The frequency reduction feature of the
TOPSwitch-GX eliminates the need for any dummy loading
for regulation at no load and reduces the no-load/standby
consumption of the power supply. Frequency jitter provides
improved margin for conducted EMI, meeting the CISPR 22
(FCC B) specification.
Output regulation is achieved by using a simple Zener sense
circuit for low cost. The output voltage is determined by the
Zener diode (VR2) voltage and the voltage drops across the
optocoupler (U2) LED and resistor R6. Resistor R8 provides
bias current to Zener VR2 for typical regulation of ±5% at
the 12 V output level, over line and load and component
variations.
A High Efficiency, Enclosed, 70 W, Universal Adapter Supply
The circuit shown in Figure 42 takes advantage of several of the
TOPSwitch-GX features to reduce cost, power supply size and
PERFORMANCE SUMMARY
Output Power:
Regulation:
Efficiency:
Ripple:
30 W
± 4%
79%
50 mV pk-pk
BR1
600 V
2A
CY1
2.2 nF
C3
4.7 nF
1 kV
R3
68 k
2W
D1
UF4005
C14 R15
1 nF 150
D8
MBR1060
C10
560 µF
35 V
L3
3.3 µH
C11
560 µF
35 V
12 V @
2.5 A
C12
220 µF
35 V
RTN
L1
20 mH
CX1
100 nF
250 VAC
C1
68 µF
400 V
R4
2 M
1/2 W
R1
4.7 M
1/2 W
D2
1N4148
T1
TOPSwitch-GX
D
L
U1
CONTROL
TOP244Y
C
C6
0.1 µF
R6
150
R8
150
U2
LTV817A
F1
J1
3.15 A
L
N
S
R2
9.09 k
XF
R5
6.8
C5
47 µF
10 V
VR2
1N5240C
10 V, 2%
PI-2657-081204
Figure 41. 30 W Power Supply using External Current Limit Programming and Line Sensing for UV and OV.
20 M
12/04
 

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