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TL431CDMR2ONN/a15400avaiProgrammable Precision Reference
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NCP1203D100R2ONN/a52675avaiPWM Current-Mode Controller for Universal Off-Line Supplies Featuring Standby and Short Circuit Protection
NCP1203D40R2ONN/a3287avaiPWM Current-Mode Controller for Universal Off-Line Supplies Featuring Standby and Short Circuit Protection
NCP1203D60R2ONN/a3757avaiPWM Current-Mode Controller for Universal Off-Line Supplies Featuring Standby and Short Circuit Protection
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NCP1200D100R2 ,PWM Current-Mode Controller for Low-Power Universal Off-Line Supplies2AND8076/Dthe peaks), we divide the input power by the averageVmin-1 sin (3)V in 2rectified volta ..
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NCP1200D40R2 ,PWM Current-Mode Controller for Low-Power Universal Off-Line SuppliesON Semiconductor14, rue Paul Mesplé – BP1112 – 31035 TOULOUSE Cedex 1, FranceAPPLICATION NOTE33 (0) ..
NCP1200D40R2 ,PWM Current-Mode Controller for Low-Power Universal Off-Line SuppliesAND8076/DA 70 W Low Standby Power Supply with the NCP120x SeriesPrepared by: Christophe Basso
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MUR160-MUR160RL-NCP1200-NCP1200D100R2-NCP1200D40R2-NCP1200P60-NCP1203D100R2-NCP1203D40R2-NCP1203D60R2-NCP1217D100R2-TL431-TL431CDMR2-TL431CDR2
1A 600V Ultrafast Rectifier
AND8076/D
A 70 W Low Standby
Power Supply with
the NCP120x Series
Prepared by: Christophe Basso
ON Semiconductor
INTRODUCTION

The NCP1200 represents one of the cheapest solutions to
build efficient and cost-effective Switch-Mode Power
Supplies (SMPS). As this design example will show, the part
definition does not confine the component in low-power
applications only, but it can actually be used in Flyback and
Forward supplies for virtually any output power. The below
example depicts a universal mains 90-260 V AC power
supply delivering 16.5 V @ 4.5 A.
Beside its ease of implementation, the NCP1200 excels in
true low standby power designs. This application note
details how an amazing standby power of less than 100 mW
can be reached at high line with a nominal 70 W board.
DSS or Not DSS?

The Dynamic Self Supply (DSS) lets you directly drive
MOSFETs from the high-voltage rail. This option brings
you several advantages, as stated below: True overload detection: with UC384X-based systems,
the switching oscillations are stopped in case the Vcc
line drops below a given Undervoltage Lockout level
(UVLO). This principle considers a good coupling
between the primary auxiliary winding and the power
secondary winding. Unfortunately, leakage elements
often degrade this coupling and you only can detect true
short-circuit (when Vout is close to zero) and not
overload conditions. Thanks to the DSS, the NCP1200
does not need an auxiliary information to sense an
overload condition. By detecting a current setpoint
pushed to the maximum, the internal logic takes the
decision to enter into a safe burst operation,
auto-recovering when the default leaves. Precise
overload levels can thus be implemented. Guaranteed operation at low output levels: the Vcc
delivered by an auxiliary winding moves with the
power output level because a coupling exists between
both windings. When the supply is used in battery
charging applications, Vout can move depending on the
charging state. That is to say, when the battery is nearly
this level. Thanks to the natural secondary / auxiliary
reflection, the primary auxiliary winding cannot
maintain a sufficient voltage on the control IC: Vcc
collapses and puts the controller in trouble, probably
entering an hiccup mode, similar to that of a startup
sequence. DSS being decoupled from Vout, you never
see that phenomenon.
As you can see, the DSS offers interesting features but, on
the other hand, it can sometimes compromise key design
parameters. Standby power and power dissipation are one of
these: Standby power: the DSS standby power contribution
can easily be evaluated: VHV × Iavg with Iavg, the current
consumption taken by the controller and VHV, the
high-voltage supply rail. If Iavg equals 1 mA, then we
have a standby power of 350 mW at a 350 VDC voltage
rail. Tricks exist to slightly reduce it, like the half-wave
diode, but you will only gain between 20–30%. Power dissipation: as stated above, all the current
consumed by the IC is seen through pin8. This is due to
the self-adaptive feature of the DSS. Should the IC
current move up or down, the DSS duty-cycle will
automatically adjust to deliver it. The controller current
depends on the internal IC consumption, but also on the
type of MOSFET connected to the output. It therefore
important to assess the total current drawn from the HV
rail and checks the right compatibility with the package
type. All details are given in the NCP1200 dedicated
data sheet and the application note AND8023/D.
As a result, the answer lies behind your design constraints.
If you would like to have a precise Over Current Protection
(OCP) trip point while driving a moderate size MOSFET,
DSS can be a good choice, provided low standby power is
not an absolute necessity. In our case, we want to drive a
large MOSFET for a better efficiency but we need to reach
the lowest possible standby power. We will thus adopt an
auxiliary winding configuration to permanently disable the
DSS. Solutions to various combinations of these constraints
are described in the application note “Tips and Tricks for the
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