TNY287PG Power Integrations, TNY287PG Datasheet - Page 8
TNY287PG
Manufacturer Part Number
TNY287PG
Description
AC/DC Switching Converters 18 W (85-265 VAC) 23.5 W (230 VAC)
Manufacturer
Power Integrations
Type
Off-Line Switcherr
Datasheet
1.TNY286PG.pdf
(26 pages)
Specifications of TNY287PG
Rohs
yes
Output Voltage
85 V to 265 V
Input / Supply Voltage (max)
265 V
Input / Supply Voltage (min)
85 V
Supply Current
550 uA
Mounting Style
Through Hole
Package / Case
DIP-8C
Number Of Outputs
1
Output Power
23.5 W
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Company:
Part Number:
TNY287PG
Manufacturer:
CYPRESS
Quantity:
5 000
Part Number:
TNY287PG
Manufacturer:
POWER
Quantity:
20 000
Rev. A 09/12
Figure 16. TNY290PG, 5 V, 4 A Universal Input Power Supply.
Applications Example
The circuit shown in Figure 16 is a low cost, high efficiency,
flyback power supply designed for 5 V, 4 A output from
universal input using the TNY290PG.
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 D1, C3, R1, and
VR1 comprise the clamp circuit, limiting the leakage inductance
turn-off voltage spike on the DRAIN pin to a safe value.
The output voltage is regulated by TL431 U2. When the output
voltage ripple exceeds the sum of the U2 (CATHODE D6) and
optocoupler 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
In a PC standby application input stage
will be part of main power supply input
8
10 mH
5 A
F1
L1
90 - 295
275 VAC
RT1
6 Ω
100 nF
2KBP10M
TNY284-290
VAC
1000 V
C1
BR1
68 µF
450 V
C2
2 MΩ
R12
TinySwitch-4
TNY290PG
2.2 nF
1 kV
C3
U1
2 MΩ
R13
100 nF
1/2 W
100 V
22 Ω
UF4006-E3
P6KE150A
C16
R1
VR1
D1
10 µF
16 V
C9
3
250 VAC
1
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-4 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
(BYPASS/MULTI-FUNCTIONAL) pin voltage, current begins to
flow into the BYPASS/MULTI-FUNCTIONAL pin. When this
current exceeds I
TinySwitch-4 is activated. This condition is reset when the
ENABLE/UNDERVOLTAGE pin current flowing through R12 and
R13 drop below 18.75 μA each AC line half-cycle. The
configuration of Figure 16 is therefore non-latching for an
overvoltage fault. Latching overvoltage protection can be
achieved by connecting R12 and R13 to the positive terminal of
C2, at the expense of higher standby consumption. In the
example shown, on opening the loop, the OVP trips at an
output of 17 V.
For lower no-load input power consumption, the bias winding
may also be used to supply the TinySwitch-4 device. Resistor
1.5 MΩ
2.2 nF
1/8 W
EE22
C13
R15
T1
9,10
7,8
4
5
STPS30L60CT
1N4937
1/2 W
4.7 Ω
100 µF
R3
50 V
D4
D3
C4
1N5254
27 V
VR2
SD
1.5 nF
100 V
C5
the internal latching shutdown circuit in
PC817
2.2 µF
50 V
C11
U3
8.2 Ω
1500 µF
R2
C6, C7
10 V
1/8 W
30 kΩ
R4
TL431
47 Ω
R9
U2
2.2 µH
L2
3.3 kΩ
1/8 W
1/8 W
R14
1 kΩ
R8
1000 µF
10 V
10 kΩ
C8
100 V
47 nF
1%
R6
C10
PI-6559-062012
www.powerint.com
10 kΩ
1%
R7
5 V, 4 A
RTN
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