tny274 Power Integrations, Inc., tny274 Datasheet - Page 8
tny274
Manufacturer Part Number
tny274
Description
Energy Ef?cient, Of?ine Switcher With Enhanced Flexibility And Extended Power Range
Manufacturer
Power Integrations, Inc.
Datasheet
1.TNY274.pdf
(24 pages)
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Figure 14. TNY278P, 12 V, 1 A Universal Input Power Supply.
Applications Example
The circuit shown in Figure 14 is a low cost, high efficiency,
flyback power supply designed for 12 V, 1 A output from
universal input using the TNY278.
The supply features undervoltage lockout, primary sensed
output overvoltage latching shutdown protection, high
efficiency (>80%), and very low no-load consumption
(<50 mW at 265 VAC). Output regulation is accomplished using
a simple zener reference and optocoupler feedback.
The rectified and filtered input voltage is applied to the primary
winding of T1. The other side of the transformer primary is
driven by the integrated MOSFET in U1. Diode D5, C2, R1,
R2, and VR1 comprise the clamp circuit, limiting the leakage
inductance turn-off voltage spike on the DRAIN pin to a safe
value. The use of a combination a Zener clamp and parallel
RC optimizes both EMI and energy efficiency. Resistor R2
allows the use of a slow recovery, low cost, rectifier diode by
limiting the reverse current through D5. The selection of a
slow diode also improves efficiency and conducted EMI but
should be a glass passivated type, with a specified recovery
time of ≤2 µs.
The output voltage is regulated by the Zener diode VR3. When
the output voltage exceeds the sum of the Zener and optocoupler
8
85-265
VAC
TNY274-280
J1
J2
G
6/06
3.15 A
275 VAC
F1
RV1
1N4007
1N4007
D1
D3
†
*R5 and R8 are optional
components
C7 is configurable to adjust
U1 current limit, see circuit
description
1N4007
1N4007
6.8 µF
400 V
D2
C1
D4
1 mH
L1
TinySwitch-III
3.6 MΩ
22 µF
400 V
R5*
C2
TNY278P
U1
1 kΩ
R1
P6KE150A
VR1
D
S
S
100 nF
1N4007GP
EN/UV
50 V
BP/M
C7
D5
†
100 Ω
10 nF
1 kV
R2
C4
1N5255B
LED forward drop, current will flow in the optocoupler LED.
This will cause the transistor of the optocoupler to sink current.
When this current exceeds the ENABLE pin threshold current
the next switching cycle is inhibited. When the output voltage
falls below the feedback threshold, a conduction cycle is allowed
to occur and, by adjusting the number of enabled cycles, output
regulation is maintained. As the load reduces, the number of
enabled cycles decreases, lowering the effective switching
frequency and scaling switching losses with load. This provides
almost constant efficiency down to very light loads, ideal for
meeting energy efficiency requirements.
As the TinySwitch-III devices are completely self-powered,
there is no requirement for an auxiliary or bias winding on the
transformer. However by adding a bias winding, the output
overvoltage protection feature can be configured, protecting
the load against open feedback loop faults.
When an overvoltage condition occurs, such that bias voltage
exceeds the sum of VR2 and the BYPASS/MULTIFUNCTION
(BP/M) pin voltage (28 V+5.85 V), current begins to flow into the
BP/M pin. When this current exceeds I
shutdown circuit in TinySwitch-III is activated. This condition
is reset when the BP/M pin voltage drops below 2.6 V after
removal of the AC input. In the example shown, on opening
the loop, the OVP trips at an output of 17 V.
VR2
28 V
21 kΩ
R8*
1%
NC
1
3
250 VAC
1/8 W
2.2 nF
47 Ω
R3
C5
T1
4
2
5
8
6
20 Ω
R7
1 µF
60 V
C6
BYV28-200
PC817A
U2
D7
UF4003
D6
1000 µF
1/8 W
BZX79-C11
2 kΩ
390 Ω
1/8 W
R4
25 V
C10
R6
11 V
VR3
SD
3.5 × 7.6 mm
Ferrite Bead
the internal latching
PI-4244-021406
L2
100 µF
25 V
C11
+12 V, 1 A
RTN
J4
J3
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