NCP1230D133R2G ON Semiconductor, NCP1230D133R2G Datasheet - Page 12
NCP1230D133R2G
Manufacturer Part Number
NCP1230D133R2G
Description
IC CTLR PWM SMPS 133KHZ 8-SOIC
Manufacturer
ON Semiconductor
Datasheet
1.NCP1230P100G.pdf
(21 pages)
Specifications of NCP1230D133R2G
Output Isolation
Isolated
Frequency Range
133kHz
Voltage - Input
11.6 ~ 18 V
Power (watts)
702mW
Operating Temperature
-40°C ~ 125°C
Package / Case
8-SOIC (0.154", 3.90mm Width)
Number Of Outputs
1
Duty Cycle (max)
80 %
Output Voltage
18 V
Output Current
800 mA
Mounting Style
SMD/SMT
Switching Frequency
143 KHz
Operating Supply Voltage
- 0.3 V to + 18 V
Maximum Operating Temperature
+ 150 C
Fall Time
15 ns
Rise Time
40 ns
Synchronous Pin
No
Topology
Flyback
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Other names
NCP1230D133R2G
NCP1230D133R2GOSTR
NCP1230D133R2GOSTR
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Company:
Part Number:
NCP1230D133R2G
Manufacturer:
Etron
Quantity:
2 023
Part Number:
NCP1230D133R2G
Manufacturer:
ON/安森美
Quantity:
20 000
Feedback
directly to the open−collector output of an optocoupler. The
pin is pulled−up through a 20 kW resistor to the internal
Vdd_fb supply (5 volts nominal). The feedback input signal
is divided down, by a factor of three, and connected to the
negative (−) input of the PWM comparator. The positive (+)
input to the PWM comparator is the current sense signal
(Figure 30).
the feedback signal is proportional to the output power. At
the beginning of the cycle, the power switch is turns−on and
the current begins to increase in the primary of the
transformer, when the peak current crosses the feedback
voltage level, the PWM comparators switches from a logic
level low, to a logic level high, resetting the PWM latching
Flip−Flop, turning off the power switch until the next
oscillator clock cycle begins.
ESD protection.
Skip Mode
cycle logic (Figure 31). When the feedback voltage drops
below 25% of the maximum peak current (1.0 V/Rsense) the
IC prevents the current from decreasing any further and
starts to blank the output pulses. This is called the skip cycle
mode. While the controller is in the burst mode the power
transfer now depends upon the duty cycle of the pulse burst
width which reduces the average input power demand.
where:
The feedback pin has been designed to be connected
The NCP1230 is a peak current mode controller, where
2
3
The feedback pin input is clamped to a nominal 10 volt for
The feedback input is connected in parallel with the skip
V
I
R
3 = Feedback divider ratio.
pk
s
c
= Current sense resistor,
= control voltage (Feedback pin input),
= Peak primary current,
FB
2.3 Vpp
Ramp
SkipLevel + 3V @ 25% + 0.75V
18k
20k
Vdd_fb
V c + I pk @ R s @ 3
Figure 30.
10 V
55k
LEB
25k
+
−
PWM
http://onsemi.com
12
where:
where:
the skip mode
where:
asserted into a high impedance state when a light load
condition is detected and confirmed, Figure 32 shows
typical waveforms. The first section of the waveform shows
a normal startup condition, where the output voltage is low,
as a result the feedback signal will be high asking the
controller to provide the maximum power to the output. The
second phase is under normal loading, and the output is in
regulation. The third phase is when the output power drops
below the 25% threshold (the feedback voltage drops to 0.75
volts). When this occurs, the 125 msec timer starts, and if the
conditions is still present after the time output period, the
FB
P
L
f = NCP1230 controller frequency
Eff = the power supply efficiency
During the skip mode the PFC_Vcc signal (pin 1) is
in
p
= Primary inductance
= is the power level where the NCP1230 will go into
Vdd_fb
Vskip
+
+
1.25 V
0.75 V
Vskip
/ Vstby−out
P in +
I pk +
I pk @ R s + 1V
R out + E out
I pk + 0.75
P in + P out
Figure 31.
+
−
−
+
L p @ f @ I pk 2
CS Cmp
R s @ 3
2 @ P in
P out
L p @ f
Eff
2
S is rising edge triggered
R is falling edge triggered
2
S
125 ms
R
PFC_V
Latch
Reset
CC
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