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NCP1050P100ONN/a4avaiMonolithic High Voltage Gated Oscillator Power Switching Regulator
NCP1050ST136T3ONN/a4000avaiMonolithic High Voltage Gated Oscillator Power Switching Regulator
NCP1053ONN/a60avaiMonolithic High Voltage Gated Oscillator Power Switching Regulator


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NCP1050P100-NCP1050ST136T3-NCP1053
Monolithic High Voltage Gated Oscillator Power Switching Regulator
AND8098/D
Low-Cost 100 mA
High-Voltage Buck and
Buck-Boost Using NCP1052
Prepared by: Kahou Wong

ON Semiconductor
INTRODUCTION

This application note presents low-cost high-voltage
100 mA non-isolated power supply using NCP1052 by
buck and buck-boost topology. The NCP1052 is one of the
latest low-cost switching controllers with integrated 700V/
300 mA power switch from ON Semiconductor. It is
primarily designed for isolated 10 W-range flyback
converter. If isolation is not needed, the IC can also be used
as stepping-down buck and buck-boost converter for
further cost saving by removing optocoupler and replacing
the transformer by an inductor. The output current capability
is 100 mA. The possible operating range is from input range
between 20 Vdc and 700 Vdc to output range of 5.0 V or
above with 100 mA. Typical efficiency around 65% is
obtained in the 12 V buck demo board.
Advantages of the proposed circuits include: Comparing to flyback, buck and buck-boost eliminates
optocoupler and replaces transformer by an inductor for
cost saving. Buck and buck-boost offers smaller voltage stress in
switches comparing to flyback. It minimizes the
switching loss and increases efficiency. NCP105x can power up itself from the high input
voltage with wide range between 20 Vdc and 700 Vdc.
It needs no extra supply circuit. NCP105x operates at 44, 100, or 136 kHz and
accommodates low-cost components such as aluminum
electrolytic capacitors and powered-iron core magnetic. NCP105x offers frequency jittering for reduced
electromagnetic inference (EMI). NCP105x offers thermal and short circuit fault
protection. Simple design as no control-loop compensation is
concerned.
The proposed buck and buck-boost converters are very
similar to each other. Their major difference is that buck
provides a positive output voltage but buck-boost provides
a negative output voltage referring to the input ground.
Figure 1 shows the proposed buck and buck-boost
converters. The rectifier circuit, which consists of capacitor
C3 and diode D3, is in the front end for AC or DC input
voltage. Then, the NCP1052 is self-powered up from the
rectified input voltage directly with a VCC capacitor C2.
When the switch inside the IC is opened, there is a voltage
across Drain (D) and Source (S) pins of the IC. If this voltage
is greater than 20 V, an internal current source Istart = 6.3 mA
(typ.) inside the IC charges up C2 and a voltage in C2 is built
up for the operation of the IC. Comparing to the switching
frequency, the VCC voltage level is in a lower-frequency
7.5-8.5 V hysteresis loop. This VCC hysteresis loop is for
frequency jittering features to minimize EMI and
short-circuit
Input
Input
Figure 1. Proposed Circuit Using NCP1052

In Figure 2a it is noted that in the buck topology the input
voltage powers up the IC through the path across the
inductor L and capacitor C. This charging path
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