CS51221EDR16 ON Semiconductor, CS51221EDR16 Datasheet - Page 8
CS51221EDR16
Manufacturer Part Number
CS51221EDR16
Description
IC CTRLR PWM FFVOLT MODE 16SOIC
Manufacturer
ON Semiconductor
Datasheet
1.CS51221EDR16G.pdf
(14 pages)
Specifications of CS51221EDR16
Pwm Type
Voltage Mode
Number Of Outputs
1
Frequency - Max
1MHz
Duty Cycle
90%
Voltage - Supply
4.7 V ~ 15 V
Buck
Yes
Boost
No
Flyback
No
Inverting
No
Doubler
No
Divider
Yes
Cuk
No
Isolated
Yes
Operating Temperature
-40°C ~ 85°C
Package / Case
16-SOIC (3.9mm Width)
Frequency-max
1MHz
Topology
Buck, Flyback, Forward
Output Voltage
- 0.3 V to + 15 V
Output Current
1000 mA
Switching Frequency
1000 KHz
Duty Cycle (max)
90 %
Fall Time
25 ns
Mounting Style
SMD/SMT
Rise Time
60 ns
Synchronous Pin
Yes
Lead Free Status / RoHS Status
Contains lead / RoHS non-compliant
Other names
CS51221EDR16OSTR
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Company:
Part Number:
CS51221EDR16G
Manufacturer:
EPSON
Quantity:
890
Part Number:
CS51221EDR16G
Manufacturer:
ON/安森美
Quantity:
20 000
Feed Forward Voltage Mode Control
fixed rising and falling slope. The feedback signal is derived
solely from the output voltage. Consequently, voltage mode
control has inferior line regulation and audio susceptibility.
signal from the input line, as shown in Figure 3. Therefore,
the ramp of the slope varies with the input voltage. At the
start of each switch cycle, the capacitor connected to the FF
pin is charged through a resistor connected to the input
voltage. Meanwhile, the Gate output is turned on to drive an
external power switching device. When the FF pin voltage
reaches the error amplifier output V
comparator turns off the Gate, which in turn opens the
external switch. Simultaneously, the FF capacitor is quickly
discharged to 0.3 V.
both input and output voltages. As illustrated in Figure 4,
with a fixed input voltage the output voltage is regulated
solely by the error amplifier. For example, an elevated
output voltage reduces V
cycle to decrease. However, if the input voltage varies, the
slope of the ramp signal will react immediately which
provides a much improved line transient response. As an
example shown in Figure 5, when the input voltage goes up,
the rising edge of the ramp signal increases which reduces
duty cycle to counteract the change.
a volt−second clamp, which limits the maximum product of
input voltage and turn on time. This clamp is used in circuits,
such as Forward and Flyback converter, to prevent the
transformer from saturating. Calculations used in the design
of the volt−second clamp are presented in the Design
Guidelines section.
V
C
In conventional voltage mode control, the ramp signal has
Feed forward voltage mode control derives the ramp
Overall, the dynamics of the duty cycle are controlled by
The feed forward feature can also be employed to provide
IN
R
Figure 3. Feed Forward Voltage Mode Control
COMP
FF
THEORY OF OPERATION
Power Stage
Latch & Driver
Error Amplifier
PWM
GATE
COMP
which in turn causes duty
−
+
+
−
COMP
FB
APPLICATION INFORMATION
, the PWM
Feedback
Network
V
OUT
http://onsemi.com
CS51221
8
Powering the IC & UVL
voltage references; the start and stop thresholds. During
power−up, the UVL comparator disables V
in−turn disables the entire IC) until the controller reaches its
V
comparator allows the controller to operate until the V
stop threshold is reached. The CS51221 requires only 50 mA
during startup. The output stage is held at a low impedance
state in lock out mode.
clamps the Comp pin voltage and limits the duty cycle. The
power up transition tends to generate temporary duty cycles
much greater than the steady state value due to the low
output voltage. Consequently, excessive current stresses
often take place in the system. Soft−Start technique
alleviates this problem by gradually releasing the clamp on
the duty cycle to eliminate the in−rush current. The duration
V
V
GATE
CC
COMP
R
GATE
V
The Undervoltage Lockout (UVL) comparator has two
During power up and fault conditions, the Soft−Start
COMP
R
I
OUT
T
Figure 5. Pulse Width Modulated by Input Voltage
V
OUT
T
FF
C
V
FF
C
IN
IN
T
T
start threshold. During power−down, the UVL
Figure 4. Pulse Width Modulated by Output
Current with Constant Input Voltage
with Constant Output Current
REF
(which
CC
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