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NCP1230 Datasheet, PDF (1/21 Pages) ON Semiconductor – Low-Standby Power High Performance PWM Controller | |||
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NCP1230
Low-Standby Power High
Performance PWM
Controller
The NCP1230 represents a major leap towards achieving low
standby power in mediumâtoâhigh power SwitchedâMode Power
Supplies such as notebook adapters, offâline battery chargers and
consumer electronics equipment. Housed in a compact 8âpin package
(SOICâ8, SOICâ7, or PDIPâ7), the NCP1230 contains all needed
control functionality to build a rugged and efficient power supply. The
NCP1230 is a current mode controller with internal ramp
compensation. Among the unique features offered by the NCP1230 is
an event management scheme that can disable the frontâend PFC
circuit during standby, thus reducing the no load power consumption.
The NCP1230 itself goes into cycle skipping at light loads while
limiting peak current (to 25% of nominal peak) so that no acoustic
noise is generated. The NCP1230 has a highâvoltage startup circuit
that eliminates external components and reduces power consumption.
The NCP1230 also features an internal latching function that can be
used for OVP protection. This latch is triggered by pulling the CS pin
above 3.0 V and can only be reset by pulling VCC to ground. True
overload protection, internal 2.5 ms softâstart, internal leading edge
blanking, internal frequency dithering for low EMI are some of the
other important features offered by the NCP1230.
Features
⢠CurrentâMode Operation with Internal Ramp Compensation
⢠Internal HighâVoltage Startup Current Source for LossâLess Startup
⢠Extremely Low NoâLoad Standby Power
⢠SkipâCycle Capability at Low Peak Currents
⢠Direct Connection to PFC Controller for Improved NoâLoad Standby
Power
⢠Internal 2.5 ms SoftâStart
⢠Internal Leading Edge Blanking
⢠Latched Primary Overcurrent and Overvoltage Protection
⢠ShortâCircuit Protection Independent of Auxiliary Level
⢠Internal Frequency Jittering for Improved EMI Signature
⢠+500 mA/â800 mA Peak Current Drive Capability
⢠Available in Three Frequency Options: 65 kHz, 100 kHz, and 133 kHz
⢠Direct Optocoupler Connection
⢠SPICE Models Available for TRANsient and AC Analysis
⢠This is a PbâFree Device
http://onsemi.com
MARKING
DIAGRAM
8
SOICâ8 VHVIC
230Dy
8
D SUFFIX
CASE 751
ALYWy
G
1
1
8
1
SOICâ7
D1 SUFFIX
CASE 751U
8
30D16
ALYWG
G
1
8
1
PDIPâ7 VHVIC
P SUFFIX
CASE 626B
1
1230Pxxx
AWL
YYWWG
xxx
= Device Code: 65, 100, 133
y
= Device Code: 6, 1, 1
y
= Device Code: 5, 0, 3
A
= Assembly Location
L
= Wafer Lot
Y, YY = Year
W, WW = Work Week
G
= PbâFree Package
G
= PbâFree Package
(Note: Microdot may be in either location)
PIN CONNECTIONS
1
PFC Vcc
FB
CS
GND
8
HV
VCC
DRV
Typical Applications
⢠High Power ACâDC Adapters for Notebooks, etc.
⢠Offline Battery Chargers
⢠SetâTop Boxes Power Supplies, TV, Monitors, etc.
ORDERING INFORMATION
See detailed ordering and shipping information in the ordering
information section on page 4 of this data sheet.
© Semiconductor Components Industries, LLC, 2011
1
February, 2011 â Rev. 11
Publication Order Number:
NCP1230/D
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