LNK6663E(2014) Ver la hoja de datos (PDF) - Power Integrations, Inc
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Fabricante
LNK6663E
(Rev.:2014)
(Rev.:2014)
Power Integrations, Inc
LNK6663E Datasheet PDF : 24 Pages
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LinkSwitch-HP
Remote On/Off and Fast AC Reset
The PROGRAM pin can be used to turn on/off the device
remotely. If the voltage on the pin is set to 1.35 V externally, the
device stops switching. After releasing the PROGRAM pin the
PROGRAM pin device commences switching when the voltage
drops below 0.535 V.
500
450
400
350
300
250
PROGRAM Pin Resistor Value
124 kΩ
78.7 kΩ
52.3 kΩ
34.8 kΩ
23.2 kΩ
15.0 kΩ
10.0 kΩ
200
150
100
50
0
1
10
100
PROGRAM Pin Capacitor Value (nF)
Figure 6. Optional Shutdown Time Extension Programming.
At power-up the current out of the FEEDBACK pin has to
exceed the line undervoltage turn-on threshold (brown-in)
current IFB(UVREF) = -250 µA (typ.) before switching is enabled.
During normal operation switching is disabled if the FEEDBACK
pin current falls below the line undervoltage turn-off threshold
(brown-out) current IFB(UVOFF) = -100 µA (typ.) for at least 8
consecutive switching cycles. After switching has ended, the
device enters auto-restart. The applicable auto-restart off-
period tAR(OFF) 1 = 150 ms (typ.).
VBUS
VSEC D
NP
NS
CO
VO
D
U1
BP
CONTROL
FB
NA
T1
S
PD CP
VFB
VAUX
RFB1
RFB2
The PROGRAM pin can also be used to reset the device latch
after a latching OVP or OTP event. If the voltage on the pin is
set to 3.4 V externally, the device latch is reset. Once the
voltage drops below 0.535 V, device will start switching.
110
PI-6837-120312
Figure 8. Indirect High-Voltage Bus Sensing.
Switching is also stopped if the FEEDBACK pin current exceeds
the line overvoltage threshold current IFB(OV) = -1.15 mA (typ.) for
at least 2 consecutive switching cycles.
100
90
80
70
-150
-300
-450
-600 -750
-900 -1050 -1200
FEEDBACK Pin Current During MOSFET On-Time
Figure 7. Current Limit Compensation Over Line.
High-Voltage Bus Sensing
LinkSwitch-HP senses indirectly the HV voltage bus VBUS during
the power MOSFET on-time by monitoring the current flowing
out of the FEEDBACK pin. During the MOSFET on-time the
voltage across the auxiliary winding is proportional to the voltage
across the input winding. The current flowing through resistor
RFB1 (see Figure 8) is therefore representing VBUS. Indirect line
sensing minimizes power dissipation and is used for line UV or
line OV protection and current limit compensation over line.
Current Limit Compensation Over Line
The high-voltage bus is sensed by means of measuring the
current out of the FEEDBACK pin during the MOSFET on-time.
To limit available overload power over line the set current limit is
compensated as shown in Figure 7. The compensation is
disabled at peak currents below 50% of the set current limit,
and is re-enabled at 62.5% of the set current limit.
Soft-Start
A digital soft-start is implemented to reduce component stress
at power supply start-up. The internal reference voltage will ramp
up to 2 V during tSOFT (typ. 15 ms) at start-up. The loop will
typically close (output reaches regulation) during this time to
ensure smooth output voltage rise.
Fault Filter
This is the digital filter to handle all the fault conditions including
line overvoltage, line undervoltage, output overvoltage, and
output undervoltage, thermal shutdown as well as package
level fault (pin open-circuit or pin to pin short-circuit).
Transconductance Amplifier
The controller uses a high gain (typ. 70 dB) transconductance
amplifier to ensure exceptional output regulation.
www.powerint.com
5
Rev. C 03/14
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