TOP266KG Power Integrations, TOP266KG Datasheet - Page 16
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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The clamp network is formed by VR2, C4, R5, R6, R11, R28,
R29 and D2. It limits the peak drain voltage spike caused by
leakage inductance to below the BV
TOPSwitch-JX MOSFET. This arrangement was selected over a
standard RCD clamp to improve light load efficiency and
no-load input power.
In a standard RCD clamp C4 would be discharged by a parallel
resistor rather than a resistor and series Zener. In an RCD clamp
the resistor value is selected to limit the peak drain voltage
under full load and overload conditions. However under light or
no-load conditions this resistor value now causes the capacitor
voltage to discharge significantly as both the leakage inductance
energy and switching frequency are lower. As the capacitor has
to be recharged to above the reflected output voltage each
switching cycle the lower capacitor voltage represents wasted
energy. It has the effect of making the clamp dissipation
appear as a significant load just as if it were connected to the
output of the power supply.
The RZCD arrangement solves this problem by preventing the
voltage across the capacitor discharging below a minimum
value (defined by the voltage rating of VR2) and therefore
minimizing clamp dissipation under light and no-load conditions.
Resistors R6 and R28 provide damping of high frequency
ringing to reduce EMI. Due to the resistance in series with VR2,
limiting the peak current, standard power Zeners vs a TVS type
may be used for lower cost (although a TVS type was selected
due to availability of a SMD version). Diode D2 was selected to
have an 800 V vs the typical 600 V rating due to its longer
reverse recovery time of 500 ns. This allows some recovery of
the clamp energy during the reverse recovery time of the diode
improving efficiency. Multiple resistors were used in parallel to
share dissipation as SMD components were used.
Feedback Configuration
•
•
•
Typically the feedback current into the CONTROL pin at high
line is ~3 mA. This current is both sourced from the bias
winding (voltage across C10) and directly from the output. Both
of these represent a load on the output of the power supply.
Rev. C 11/10
A Darlington connection formed together with optocoupler
transistor to reduce secondary side feedback current and
therefore no-load input power
Low voltage, low current voltage reference IC used on
secondary side to reduce secondary side feedback current
and therefore no-load input power
Bias winding voltage tuned to ~9 V at no-load, high line to
reduce no-load input power
16
TOP264-271
DSS
rating of the internal
To minimize the dissipation from the bias winding under no-load
conditions the number of bias winding turns and value of C10
was adjusted to give a minimum voltage across C10 of ~9 V.
This is the minimum required to keep the optocoupler biased.
To minimize the dissipation of the secondary side feedback
circuit Q2 was added to form a Darlington connection with U3B.
This reduced the feedback current on the secondary to ~1 mA.
The increased loop gain (due to the h
compensated by increasing the value of R16 and the addition of
R25. A standard 2.5 V TL431 voltage reference was replaced
with the 1.24 V LMV431 to reduce the supply current requirement
from 1 mA to 100 mA.
Output Rectifier Choice
•
A dual 15 A, 100 V Schottky rectifier diode with a V
at 5 A was selected for D5. This is a higher current rating than
required to reduce resistive and forward voltage losses to improve
both full load and average efficiency. The use of a 100 V Schottky
was possible due to the high transformer primary to secondary
turns ratio (V
high-voltage rating of the TOPSwitch-JX internal MOSFET.
Increased Output Overvoltage Shutdown Sensitivity
•
During an open loop condition the output and therefore bias
winding voltage will rise. When this exceeds the voltage of VR1
plus a V
V pin. The addition of Q1 ensures that the current into the V pin
is sufficient to exceed the latching shutdown threshold even
when the output is fully loaded while the supply is operating at
low line as under this condition the output voltage overshoot is
relatively small
Output overload power limitation is provided via the current limit
programming feature of the X pin and R7, R8 and R9. Resistors
R8 and R9 reduce the device current limit as a function of
increasing line voltage to provide a roughly flat overload power
characteristic, below the 100 VA limited power source (LPS)
requirement. In order to still meet this under a single fault condition
(such as open circuit of R8) the rise in the bias voltage that occurs
during an overload condition is also used to trigger a latching
shutdown.
Higher current rating, low V
for output rectifier
Transistor Q1 and VR1 added to improve the output over-
voltage shutdown sensitivity
BE
voltage drop Q1 turns on and current is fed into the
OR
= 110 V) which was in turn possible due to the
F
Schottky rectifier diode selected
FE
of the transistor) was
www.powerint.com
F
of 0.455 V
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