TOP266KG Power Integrations, TOP266KG Datasheet - Page 6
TOP266KG
Manufacturer Part Number
TOP266KG
Description
IC OFFLINE SWITCHER 39W 58W
Manufacturer
Power Integrations
Series
TOPSwitch®-JXr
Datasheet
1.TOP264EG.pdf
(40 pages)
Specifications of TOP266KG
Output Isolation
Isolated
Frequency Range
66 ~ 132kHz
Voltage - Output
725V
Power (watts)
39W
Operating Temperature
-40°C ~ 125°C
Package / Case
12-BSOP (0.350", 8.89mm Width) Exposed Pad
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Other names
596-1399
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modes. Please see the following sections for the details of the
operation of each mode and the transitions between modes.
Full Frequency PWM mode: The PWM modulator enters full
frequency PWM mode when the CONTROL pin current (I
reaches I
kept constant at f
cycle is reduced from DC
when I
PWM control of all other TOPSwitch families. TOP264-271 only
operates in this mode if the cycle-by-cycle peak drain current
stays above k
and I
Variable Frequency PWM mode: When peak drain current is
lowered to k
reduction, the PWM modulator initiates the transition to variable
frequency PWM mode, and gradually turns off frequency jitter.
In this mode, peak drain current is held constant at k
I
frequency of f
frequency of f
accomplished by extending the off-time.
Low Frequency PWM mode: When switching frequency
reaches f
transition to low frequency mode. In this mode, switching
frequency is held constant at f
similar to the full frequency PWM mode, through the reduction
of the on-time. Peak drain current decreases from the initial
value of k
k
is the current limit externally set via the X pin.
Multi-Cycle-Modulation mode: When peak drain current is
lowered to k
multi-cycle-modulation mode. In this mode, at each turn-on,
the modulator enables output switching for a period of T
at the switching frequency of f
at 30 kHz) with the peak drain current of k
and stays off until the CONTROL pin current falls below I
This mode of operation not only keeps peak drain current low
but also minimizes harmonic frequencies between 6 kHz and
30 kHz. By avoiding transformer resonant frequency this way,
all potential transformer audible noises are greatly suppressed.
Rev. C 11/10
LIMIT
Figure 7.
PS(LOWER)
Frequency
V
Switching
DRAIN
6
(set) while switching frequency drops from the initial full
LIMIT
C
is increased beyond I
(set) is the current limit externally set via the X pin.
× I
B
MCM(MIN)
PS(UPPER)
Switching Frequency Jitter (Idealized V
. In this mode, the average switching frequency is
LIMIT
TOP264-271
PS(UPPER)
PS(LOWER)
PS(UPPER)
OSC
MCM(MIN)
(set), where k
(30 kHz typical), the PWM modulator starts to
× I
(132 kHz or 66 kHz) towards the minimum
OSC
f
OSC
f
OSC
LIMIT
× I
× I
(30 kHz typical). Duty cycle reduction is
× I
(pin selectable 132 kHz or 66 kHz). Duty
-
+
LIMIT
LIMIT
(set) towards the minimum value of
LIMIT
MAX
(set) as a result of power supply load
(set), the modulator transitions to
(set), where k
PS(LOWER)
through the reduction of the on-time
B
MCM(MIN)
MCM(MIN)
. This operation is identical to the
4 ms
is 25% (typical) and I
(4 or 5 consecutive pulses
and duty cycle is reduced,
DRAIN
PS(UPPER)
PS(LOWER)
Waveforms).
is 55% (typical)
× I
LIMIT
PS(UPPER)
Time
(set),
LIMIT
MCM(MIN)
C(OFF)
C
)
(set)
×
.
Maximum Duty Cycle
The maximum duty cycle, DC
value of 78% (typical). However, by connecting the VOLTAGE-
MONITOR to the rectified DC high-voltage bus through a resistor
with appropriate value (4 MW typical), the maximum duty cycle
can be made to decrease from 78% to 40% (typical) when input
line voltage increases from 88 V to 380 V, with dual gain slopes.
Error Amplifier
The shunt regulator can also perform the function of an error
amplifier in primary side feedback applications. The shunt
regulator voltage is accurately derived from a temperature-
compensated bandgap reference. The CONTROL pin dynamic
impedance Z
pin clamps external circuit signals to the V
CONTROL pin current in excess of the supply current is
separated by the shunt regulator and becomes the feedback
current I
On-Chip Current Limit with External Programmability
The cycle-by-cycle peak drain current limit circuit uses the
output MOSFET ON-resistance as a sense resistor. A current
limit comparator compares the output MOSFET on-state drain
to source voltage V
current causes V
the output MOSFET off until the start of the next clock cycle.
The current limit comparator threshold voltage is temperature
compensated to minimize the variation of the current limit due
to temperature related changes in R
The default current limit of TOP264-271 is preset internally.
However, with a resistor connected between EXTERNAL
CURRENT LIMIT (X) pin and SOURCE pin, current limit can be
programmed externally to a lower level between 30% and 100%
of the default current limit. By setting current limit low, a larger
TOP264-271 than necessary for the power required can be used
to take advantage of the lower R
smaller heat sinking requirements. With a second resistor
connected between the EXTERNAL CURRENT LIMIT (X) pin
and the rectified DC high-voltage bus, the current limit is
reduced with increasing line voltage, allowing a true power
limiting operation against line variation to be implemented. When
using an RCD clamp, this power limiting technique reduces
maximum clamp voltage at high line. This allows for higher
reflected voltage designs as well as reducing clamp dissipation.
The leading edge blanking circuit inhibits the current limit
comparator for a short time after the output MOSFET is turned
on. The leading edge blanking time has been set so that, if a
power supply is designed properly, current spikes caused by
primary-side capacitances and secondary-side rectifier reverse
recovery time should not cause premature termination of the
switching pulse. The current limit is lower for a short period
after the leading edge blanking time. This is due to dynamic
characteristics of the MOSFET. During start-up and fault
conditions the controller prevents excessive drain currents by
reducing the switching frequency.
Line Undervoltage Detection (UV)
At power up, UV keeps TOP264-271 off until the input line
voltage reaches the undervoltage threshold. At power down,
FB
for the pulse width modulator.
C
sets the gain of the error amplifier. The CONTROL
DS(ON)
DS(ON)
to exceed the threshold voltage and turns
with a threshold voltage. High drain
MAX
DS(ON)
, is set at a default maximum
DS(ON)
for higher efficiency/
of the output MOSFET.
C
voltage level. The
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