推奨電源回路例 (9)
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ADP1613 3.3 Vin, 200 Vout at 2 mA
(pdf, 348 kB)
This design uses a boost converter with quadrupler charge pump. It utilizes an innovative 4 stage charge pump to increase the output voltage of the boost stage by a factor of 4. -
ADP1613 50mA Iout SEPIC-Cuk
(pdf, 411 kB)
Cascoded coupled SEPIC-Cuk converter producing clean ± 9 V rails from a 12V input. -
ADP1613 50mA Iout SEPIC-Cuk
(pdf, 411 kB)
Cascoded coupled SEPIC-Cuk converter producing clean ± 9 V rails from a 12V input. -
ADP1613 Coupled SEPIC converter
(pdf, 88 kB)
Coupled SEPIC converter which converts a 3 -5 V input to a clean 5 V output with very low ripple noise. -
ADP1613 Isolated Flyback Converter; Input +30-
(pdf, 311 kB)
30 - 60V input isolated flyback converter with a "cascode" MOSFET. It uses primary side regulation to avoid the power consumption of a feedback optocoupler. -
ADP1613 SEPIC Converter Vin 30-60 Vout 3.3V 150mA
(pdf, 118 kB)
Cascode SEPIC converter which produces 3.3V output at 0 - 150 mA. -
PRD1209: ±10 Vout from 24 Vin at 100 mA
(pdf, 0)
A SEPIC-Cuk converter used to create a dual rail output from a single input voltage. -
PRD1210: ±15 Vout from 24 Vin at 80 mA
(pdf, 375 kB)
A SEPIC-Cuk converter is used to create a dual rail output from a single input voltage. -
PRD1211: 5.0 Vin, 200 Vout at 2mA
(pdf, 329 kB)
A boost converter with quadrupler charge pump. It utilizes an innovative 4 stage charge pump to increase the output voltage of the boost stage by a factor of 4. This enable us to use a very inexpensive integrated FET boost controller. The power draw was tested at 33 mA with no load.
