product selector guide mid-power ac-dc products · pdf file• capzero/senzero energy...
Post on 17-Feb-2018
214 Views
Preview:
TRANSCRIPT
Product Selector GuideMid-Power AC-DC Products
March 2017
2
About Power Integrations
Power Integrations is the leading supplier of high-voltage analog integrated circuits used in energy-efficient power supplies. The company’s innovative technology enables compact, energy-efficient power converters for a wide range of electronic products, AC-DC, DC-DC and LED lighting applications. With industry-leading product quality and delivery, the company has shipped billions of devices to customers around the world.
50 W3 W2.5 W0 W 10 W 25 W 30 W 35 W 250 W150 W 350 W 450 W 550 W 3000 W20 W 90 W
Isolated Flyback
High Power,Isolated Flyback and
Main, PFC Boost,Boost-Follower,
PFC + LLCHalf Bridge
High-PerformanceHigh-Voltage Diodes
PI-6
361x
-030
917
Power Productsto Support
Low Standby and No-Load Operation
HiperTFS-2(Two-Switch Forward)
HiperTFS™-2(Standby)
LinkSwitch™-HP
Qspeed™
CAPZero™-2/ SENZero™
HiperLCS™(LLC)
HiperPFS™-4(600 V PFC)
HiperPFS-3(PFC)
TOPSwitch™-JX
Mid-Power Product Portfolio• Qspeed 600 V, 300 V, 200 V, and 150 V high performance diodes• CAPZero/SENZero energy saving devices for reducing no-load or standby input power• HiperPFS-4 and HiperPFS-3 integrated CCM PFC solution• HiperTFS-2 integrated two-switch forward converter solution• HiperLCS integrated LLC resonant converter solution• TOPSwitch-JX integrated secondary-side regulated flyback solution• LinkSwitch-HP integrated primary-side regulated flyback solution
For more information, please visit www.power.com
3
Resonant Converter Power MOSFET LLC Solution
HiperLCS – Resonant Converter Power MOSFET LLC Solution
Product Maximum Practical Power1 (W)
LCS700HG/LG 110
LCS701HG/LG 170
LCS702HG/LG 220
LCS703HG/LG 275
LCS705HG 350
LCS708HG 440
Table 1. Output Power Table. Notes: 1. Maximum practical power is the power the part can deliver when properly mounted
to a heat sink and a maximum heat sink temperature of 90 °C.
Additional Features:• LLC half-bridge power stage incorporating controller, high and low-side gate drives, and
high-voltage power MOSFETs • High maximum operating frequency of 1 MHz• Precise duty symmetry balances output rectifier current, improving efficiency• Comprehensive fault handling and current limiting
• Programmable brown-in/out thresholds and hysteresis• Undervoltage (UV) and overvoltage (OV) protection• Programmable over-current protection (OCP)• Short-circuit protection (SCP)• Over-temperature protection (OTP)
• Programmable dead-time for optimized design• Programmable burst mode maintains regulation at no-load and improves light load
efficiency• Programmable soft-start time and delay before soft-start• Accurate programmable minimum and maximum frequency limits
Additional Features:• Single IC solution for two-switch forward main (66 kHz/132 kHz) and flyback (132 kHz)
standby• High integration allows smaller form factor and higher power density designs, with
reduced component count• Incorporates control, gate drivers, and three power MOSFETs• Level shift technology eliminates need for pulse transformer• Protection features include: UV, OV, OTP, OVP, standby OPC, SCP, and ILIMIT• Transformer reset control, prevents saturation under all conditions• Up to 586 W peak output power in a highly compact package• >90% efficiency at full load
HiperTFS-2 – Two-Switch Forward and Flyback Solution
Product3
Two-Switch Forward380 V
Flyback100 V - 400 V
Continuous1
(50 °C)Peak2
Continuous(50 °C)
TFS7701H 148 W 187 W 20 W
TFS7702H 190 W 297 W 20 W
TFS7703H 229 W 375 W 20 W
TFS7704H 251 W 419 W 20 W
TFS7705H 269 W 466 W 20 W
TFS7706H 298 W 513 W 20 W
TFS7707H 322 W 553 W 20 W
TFS7708H 343 W 586 W 20 W
Table 1. Output Power Table. Notes:1. Maximum practical continuous power in an open frame design with adequate
heat sinking to maintain a heat sink temperature ≤95 ºC (see Key Applications Considerations for more information) measured at specified ambient temperature.
2. Peak load less than 10 seconds and average power less than maximum continuous load.
3. Package: eSIP-16F. (Note: Direct attach to heat sink, does not require insulation SIL pad).
4
CCM Boost Power Factor Correction Solution
Notes: 1. Maximum practical continuous power at 90 VAC in an open-frame design with adequate
heat sinking, measured at 50 °C ambient. 2. Internal output power limit.3. Packages: H: eSIP-16D, L: eSIP-16G.
HiperPFS-3 – PFC Controller with Integrated High-Voltage MOSFET and Qspeed Diode Optimized for High PF and Efficiency Across Load Range
Universal Input Devices
ProductMaximum Continuous
Output Power Rating at90 VAC1 (Full Power Mode) (W)
Peak Output Power2 (Full Power Mode) (W)
PFS7523L/H 110 120
PFS7524L/H 130 150
PFS7525L/H 185 205
PFS7526H 230 260
PFS7527H 290 320
PFS7528H 350 385
PFS7529H 405 450
High-Line Only Input Devices
ProductMaximum Continuous
Output Power Rating at180 VAC1 (Full Power Mode) (W)
Peak Output Power2 (Full Power Mode) (W)
PFS7533H 255 280
PFS7534H 315 350
PFS7535H 435 480
PFS7536H 550 610
PFS7537H 675 750
PFS7538H 810 900
PFS7539H 900 1000
Additional Features:• Incorporates high-voltage power MOSFET, ultra-low reverse recovery loss Qspeed
diode, controller and gate driver• EN61000-3-2 Class C and Class D compliance• Integrated protection features reduce external component count
• Accurate built-in brown-in/out protection• Accurate built-in undervoltage (UV) protection• Accurate built-in overvoltage (OV) protection• Hysteretic thermal shutdown (OTP)• Internal power limiting function for overload protection• Cycle-by-cycle power switch current limit• Internal non-linear error amplifier for enhanced load transient response
• No external current sense resistor required• Provides ‘lossless’ internal sensing via sense-FET• Reduces component count and system losses• Minimizes high current gate drive loop area
• Minimizes output overshoot and stresses during start-up• Integrated power limit
• Improved dynamic response• Digitally controlled input line feed-forward gain adjustment for flattened loop
gain across entire input voltage range• Eliminates up to 40 discrete components for higher reliability and lower cost• Continuous conduction mode PFC uses novel constant amp-second [on-time]
volt-second [off-time] control engine• High efficiency across load• High power factor across load• Low cost EMI filter
• Frequency sliding technique for light load efficiency improvements• >95% efficiency from 10% load to full load achievable at nominal input voltages
• Variable switching frequency to simplify EMI filter design • Varies over line input voltage to maximize efficiency and minimize EMI filter
requirements• Varies with input line cycle voltage by >60 kHz to maximize spread spectrum
effectAdvanced Package for High Power Applications• Up to 450 W [universal], 1 kW [high-line only] peak output power capability in a
highly compact package• Simple adhesive or clip mounting to heat sink
• No insulation pad required and can be directly connected to heat sink• Staggered pin arrangement for simple routing of board traces and high-voltage
creepage requirements• Single package solution for PFC converter reduces assembly costs and layout size
5
600 V CCM Boost Power Factor Correction Solution
Notes: 1. Maximum practical continuous power in an open-frame design with adequate heat sinking, measured at 50 °C ambient.2. Internal output power limit.
HiperPFS-4 – PFC Controller with Integrated 600 V MOSFET Optimized for High PF and Efficiency Across Load RangeUniversal Input Devices
Product Continuous Output Power at 90 VAC1 (W) Peak Output Power2 (W)
PFS7623H/L 110 120
PFS7624H/L 130 150
PFS7625H/L 185 205
PFS7626H 230 260
PFS7627H 290 320
PFS7628H 350 385
PFS7629H 405 450
High-Line Input Only Devices
Product Continuous Output Power at 180 VAC1 (W) Peak Output Power2 (W)
PFS7633H 255 280
PFS7634H 315 350
PFS7635H 435 480
PFS7636H 550 610
Additional Features:• Incorporates 600 V power MOSFET, controller and gate driver.• EN61000-3-2 Class C and Class D compliance.• Integrated protection features reduce external component count
• Accurate built-in brown-in/out protection.• Accurate built-in undervoltage (UV) protection.• Accurate built-in overvoltage (OV) protection.• Hysteretic thermal shutdown (OTP).• Internal power limiting function for overload protection.• Cycle-by-cycle power-switch current limit.• Internal non-linear error amplifier for enhanced load transient response
• No external current sense resistor required.• Provides ‘lossless’ internal sensing via sense-FET.• Reduces component count and system losses.• Minimizes high current gate drive loop area.
• Minimizes output overshoot and stresses during start-up• Integrated power limit.
• Improved dynamic response.• Digitally controlled input line feed-forward gain adjustment for flattened loop gain
across entire input voltage range.• Eliminates up to 39 discrete components for higher reliability and lower cost.• Continuous conduction mode PFC uses novel constant amp-second [on-time]
volt-second [off-time] control.• High efficiency across load.• High power factor across load.
• Frequency sliding technique for light load efficiency improvements.• >95% efficiency from 10% load to full load achievable at nominal input voltages.
• Variable switching frequency to simplify EMI filter design.• Varies over line input voltage to maximize efficiency and minimize EMI filter
requirements.• Varies with input line cycle voltage by >60 kHz to maximize spread spectrum effect.
• Up to 450 W [universal], 610 W [high-line only] peak output power capability in a highly compact package.
• Simple adhesive or clip mounting to heat sink• No insulation pad required and can be directly connected to heat sink.
• Staggered pin arrangement allows simple routing of board traces and to meet high-voltage creepage requirements.
• Single package solution for PFC converter reduces assembly costs and layout size.
6
High-Efficiency, Flyback Solution
Additional Features:• Multi-mode operation maximizes efficiency at all loads• eDIP™-12 package
• Low profile horizontal orientation for ultra-slim designs• Heat transfer to both PCB and heat sink• Optional external heat sink provides thermal impedance
equivalent to a TO-220• eSIP™-12 package
• Vertical orientation for minimum PCB footprint• Simple heat sink mounting using clip provides thermal imped-
ance equivalent to a TO-220• eSOP™-12 package
• 66 W universal input output power capability• Low profile surface mounted for ultra-slim designs• Heat transfer to PCB via exposed pad and SOURCE pins• Supports wave or reflow soldering
• Output overvoltage protection is user programmable for latching/non-latching shutdown with fast AC reset• Allows both primary and secondary sensing
• Line undervoltage detection prevents turn-off glitches• Line overvoltage shutdown extends line surge limit• Accurate programmable current limit• Optimized line feed-forward for line ripple rejection• 132 kHz frequency reduces transformer and power supply size
• Half frequency option for video applications• Frequency jittering reduces EMI filter cost• Improved auto-restart delivers <3% of maximum power in
short-circuit and open loop fault conditions• Accurate hysteretic thermal shutdown function automatically
recovers • Fully integrated soft-start for minimum start-up stress
TOPSwitch-JX – Integrated Off-Line Switcher with EcoSmart Technology for Highly Efficient Power Supplies Auto-Restart Protection Option
Product4
PCB Copper Area1
Open Frame2 (W) Open Frame2 (W)
230 VAC ± 15%3 85-265 VAC
TOP264V 34 22.5
TOP264K 49 30
TOP265V 36 25
TOP265K 53 34
TOP266V 39 28.5
TOP266K 58 39
TOP267V 44 32
TOP267K 65 45
TOP268V 48 36
TOP268K 73 50
TOP269V 51 37.5
TOP269K 81 55
TOP270V 55 41
TOP270K 91 60
TOP271V 59 43
TOP271K 102 66
Product4
Metal Heat Sink1
Open Frame2 (W) Open Frame2 (W)
230 VAC ±15%3 85-265 VAC
TOP264E/V 62 43
TOP265E/V 81 57
TOP266E/V 119 86
TOP267E/V 137 103
TOP268E/V 148 112
TOP269E/V 162 120
TOP270E/V 190 140
TOP271E/V 244 177
Notes: 1. See Key Application Considerations in the data sheet section for
more details.2. Maximum continuous power in an open frame design at +50 °C
ambient temperature.3. 230 VAC or 110/115 VAC with doubler.4. Packages: E: eSIP-7C, V: eDIP-12, K: eSOP-12.
7
High-Efficiency, PSR Flyback Solution
Notes:1. PCB heat sink with wave soldering. 2. Maximum power specified based on proper thermal dissipation.3. Packages: E: eSIP-7C, K: eSOP-12B, V: eDIP-12B.
LinkSwitch-HP – Energy Efficient, High-Power Off-Line Switcher with Accurate Primary-Side Regulation (PSR)
Product4 HeatSink
230 VAC ±15% 85-265 VAC
Open Frame (W) Open Frame (W)
LNK6xx3K/V PCB-W1 25 15
LNK6xx3E Metal 35 27
LNK6xx4K/V PCB-W1 28 20
LNK6xx4E Metal 47 36
LNK6xx5K/V PCB-W1 30 22
LNK6xx5E Metal 592 45
LNK6xx6K/V PCB-W1 34 26
LNK6xx6E Metal 882 682
LNK6xx7K/V PCB-W1 41 30
LNK6xx7E Metal 1172 902
LNK6xx8K/V PCB-W1 47 34
LNK6xx8E Metal 1352 1042
LNK6xx9K/V PCB-W1 54 39
LNK6xx9E Metal 1532 1182
Additional Features:• EcoSmart – energy efficient
• Multi-mode control maximizes efficiency• No-load consumption below 30 mW at
230 VAC (LNK67xx)• >75% efficiency with 1 W input at 230 VAC• >50% efficiency with 0.1 W input at 230 VAC
• High design flexibility for low system cost• Dramatically simplifies power supply designs
• Eliminates optocoupler and all secondary control circuitry• ±5% or better output voltage tolerance
• 132 kHz operation reduces transformer and power supply size• Accurate programmable current limit
• Compensation over line limits overload power• Frequency jittering reduces EMI filter cost
CAPZero-2 – Zero1 Loss Automatic X Capacitor Discharge IC
Product2 BVDSSTotal X
Capacitance
Total Series Resistance(R1 + R2)
CAP200DG 1000 V 100 nF to 6 mF 7.5 MW to 142 kW
Notes:1. IEC 62301 clause 4.5 rounds standby power use below 5 mW to zero. 2. Package: D: SO-8.
Additional Features:• Automatically discharges X capacitors through
discharge resistors when AC is disconnected• Simplifies EMI filter design – larger X capacitor
allows smaller inductive components with no change in consumption
SENZero – Zero1 Loss High Voltage Sense Signal Disconnect IC
Product2 IntegratedDisconnect MOSFETs
230 VAC Power Consumption
in Standby
SEN012D 2 <1 mW
SEN013D 3 <1.5 mW
Additional Features:• Eliminates significant standby losses
• Disconnects unnecessary circuit blocks during standby, remote-off, or light-load conditions
• Ultra-low leakage (maximum 1 mA) 650 V MOSFETs <0.5 mW per channel during standby
Notes: 1. IEC 16301 clause 4.5 rounds standby power use below 5 mW to zero. 2. Package: D: SO-8.
8
Qspeed DiodesQspeed™ diodes combine an extremely low reverse recovery charge (QRR) with very soft recovery. Together, these features help designers improve the performance of their power conversion circuits.
Product Highlights• Ideal for continuous conduction mode (CCM) PFC circuits
• Very low reverse recovery (QRR) greatly reduces power loss in PFC diode and switching MOSFET• Flat QRR temperature characteristic reduces overdesign compared to ultrafast diodes• Ultra-soft recovery characteristic reduces EMI • Reduced switching losses and EMI allows higher switching frequency for smaller PFC inductors• Common cathode TO-220 package option is ideal for interleaved designs
• Reduced peak inverse voltage and soft recovery characteristic eliminate snubber circuits • Ideal for output rectifier diodes for electric vehicle chargers
• Product families optimized for different performance characteristics – lowest EMI and highest efficiency against different operating frequencies
Application Guide
High-Performance Diodes
Qspeed diodes significantly reduce reverse recovery loss that improves efficiency.
PI-6452-051011
f < 80 kHz X-Series Lowest VF
f > 80 kHzQ-Series Lowest EMI
H-Series Highest Efficiency
0 20 40 60 80 120100 180 200140 160
Time (ns)
Dio
de
Cur
rent
(A)
8
6
4
2
0
-2
-4
-6
-8
PI-
6645
-121
511
Qspeed H-Series DiodeUltrafast Diode
0
10
20
30
40
50
60
70
80
PI-
6644
-120
211
150 1 10 30
Frequency (MHz)
Leve
l (d
BµV
)
Qspeed Q-Series DiodeUltrafast Diode
0 20 40 60 80 120100 180 200140 160
Time (ns)
Dio
de
Cur
rent
(A)
9
678
543210
-1-2-3-4-5-6
PI-
6643
-120
211
Qspeed Q-Series DiodeUltrafast Diode
9
Design Examples
Hip
erLC
SU
1LC
S701
HG
HB
VR
EF
DT/
BF
IS
FB
VC
C
VC
CH
OV
/UV
G
R62.
2 Ω
D1
UF4
005
R14
3.3
kΩ
R13
442
kΩ1%
C17
2.2
nF
R11
27 Ω
R12
220 Ω
U2A
LTV8
17A
D2-
D3
SL44
D4
STPS
30L6
0CT
U2B
LTV8
17A
12
V
24
V
RTN
R10
6.81
kΩ
1%
R54.
7 Ω
R18
10 kΩ
1%
R17
22 kΩ
C23
330 µF
16 V
C16
680 µF
16 V
C14
10 µ
F35
V
C922
nF
630
V
C15
10 µ
F35
V
L115
0 nH
L215
0 nH
C833
0 nF
50 V
C44.
7 nF
200
V
C25
33 n
F20
0 V
R21
1.2
kΩ
R24
1.5
kΩ
R23
4.7
kΩ
R22
130
kΩ1%
R851
.1 kΩ
1%
R95.
76 kΩ
1%
1 6
7
T1EF
D35
/35 12 9,10 11 8
C24.
7 nF
200
V
C1 1 µF
25 V
C6 1 µF
25 V
C54.
7 nF
200
V
C24
47 µ
F35
VC3
220
nF50
V
D5
BAV1
9WS
C7 1 nF
200
V
C12
47 p
F1
kV
C11
6.2
nF1.
6 kV
C13
2.2
nF25
0 VA
C
U3
LM43
1AI
M3D
R2%
VR1
ZMM
5243
B-7
13 V
C10
1 µF
50 V
R15
1 kΩ
R20
47.5
kΩ
1%
R420
kΩ
1%
R1
976
kΩ1% R2
976
kΩ1% R3
976
kΩ1%
S1/S
2
D
38
0 V
PI-6
542a
-012
716
VC
C
+1
2 V
CO
NTR
OL
B+ B-
Inpu
t lin
e se
nsin
gU
VLO
pro
tect
ion
Hig
hly
inte
grat
ed L
LC r
eson
ant
conv
erte
r an
d po
wer
MO
SFET
sH
igh
switc
hing
fre
quen
cy r
educ
esm
agne
tics
size
and
cos
t
Ou
tpu
t R
ecti
fier
Very
tig
ht s
ymm
etry
and
du
ty c
ycle
ena
blin
g 60
VSc
hott
ky a
t 24
V o
utpu
tPo
st f
ilter
and
dam
ping
net
wor
k
TL43
1 re
fere
nce
circ
uit
Soft
fin
ish
capa
cito
rEM
I fil
ter
Smal
ler
valu
ere
sona
nt c
apac
itor
Cu
rren
t Se
nse
Cir
cuit
Sim
ple,
fast
(1-
cycl
e) n
o pe
akde
tect
or o
r re
ctifi
er n
eede
d
Feed
back
Cir
cuit
Prog
ram
mab
le F
MAX
, FM
IN, F
STAR
T,
F BU
RST
and
dea
d-tim
e
V CC
inpu
tne
twor
k
Mai
n ou
tput
cera
mic
cap
acito
rs
Activ
e lo
adZe
ner
Boot
str
ap
Hig
h-vo
ltage
by
pass
cap
acito
r
HiperLCS – LLC High-Voltage DC-DC Resonant Converter (DER-270)125 W, 24 V, 4 A, and 12 V, 2.4 A, 380 VDC INPUT LED TV POWER SUPPLY
10
Design Examples
HiperLCS – LLC CVCC Charger (DER-447)184 W, 23 V, 0.5 A – 8 A, 90 – 132 VAC INPUT BATTERY CHARGER POWER SUPPLY
Hip
erLC
SU
1LC
S705
HG
HB
VR
EF
DT/
BF
IS
FB
VC
C
VC
CH
OV
/UV
G
R19
2.2 Ω
D3
UF4
005 U
4BPC
357A
R16
11.8
kΩ
1%
R18
4.7 Ω
C11
1 µF
25 V
C94.
7 nF
200
VC1
01 µF
25 V
C547
nF
630
V
C633
0 nF
50 V
C15
47 p
F1
kV
R14
2.2
kΩ
R15
4.7
kΩ1/
8 W
R17
226
kΩ1% 1/8
W
R12
82.5
kΩ
1% 1/8
W
R13
10.2
kΩ
1%R2
151
Ω1/
8 W
R20
220 Ω
1/10
W
12
T1
9
C7 1 µF
25 V
C13
1 nF
200
V
C12
4.7
nF20
0 V
C822
nF
200
VD
1BA
V19W
S
C16
2.2
nF25
0 VA
C
R10
10.5
kΩ
1% 1/8
WU
6BPC
357A
R99.
76 kΩ
1%
R11
3.3
kΩ1/
8 W
R84.
75 kΩ
1% 1/8
W
D2
BAV1
9WS
VR1BZX84C5V1LT1G
5.1 V
R433
2 kΩ
1% R533
2 kΩ
1% R633
2 kΩ
1%
S1/S
2
D
CO
NTR
OL
D5
STPS
30L6
0CT
D4
STPS
30L6
0CT
1,2
T1ET
D34
T2 EE10
3,4
5,6
C14
33 n
F1.
6 kV
R368
0 kΩ
R268
0 kΩ
L19
mH
L210
0 µH
BR1
GBU
8J60
0 V
R168
0 kΩ
RT1
2.5 Ω
F1 5 A
1 4
23
C456
0 µF
200
V
C122
0 nF
275
V
C247
0 nF
275
V
RV1
175
VAC
J1-1
J1-3
90
- 1
32
VA
C
C356
0 µF
200
V
tO
D7
1N41
48
D8
IN40
02-
E3/5
4
D6
1N41
48
C17
82 µ
F35
V
C18
82 µ
F35
V
C19
470 µF
35 V
C21
33 n
F50
V
C34
10 µ
F50
V
C22
10 n
F20
0 V
C23
100
nF50
V
C24
100
nF50
V
C26
100
nF50
V
23
V, 0
.5 -
8.0
A
Mai
nJ2
-1,2
VC
C
VC
CB
+
R22
4.7
kΩ1/
8 W
R23
4.7
kΩ1/
8 W
R26
22 kΩ
1/8
W
R41
220 Ω
1/8
W
R24
82.5
kΩ
1%
R27
10 kΩ
1%
R39
10 kΩ
1/8
W
R28
4.7
kΩR3
010
kΩ
R29
4.7
kΩ
R31
105
kΩ1%
R33
2.2
kΩ
RTN
J2-3
,4
B+
VC
CP
R
U3
LM43
1AIM
32%
R32
5.11
kΩ
1%
R38
15 kΩ
1/8
W
R36
100 Ω
1/10
W
R37
1 kΩ
1/10
WR4
01
kΩ1/
8 W
C25
10 µ
F50
V
C29
150 µF
25 V
VR3
SMAJ
150A
D11
US1
J
Q1
MM
BT44
03
D9
UF4
003
VR2
MM
SZ52
42B-
7-F
D10
UF4
003
C30
150 µF
25 V
C28
1 µF
16 V
C31
10 n
F50
V
C27
4.7
nF1
kV
R34
0.03
Ω5% 5
W
R35
0.03
Ω5% 5
W
U6A
PC35
7A
SW1
SPD
T
U5B
LM35
8D
U5A
LM35
8D
3 248
1
5 67
U4A
PC35
7A
PI-7
666-
1009
15
+
+
C33
10 n
F20
0 V
C20
22 n
F20
0 V
R25
470 Ω
1/8
W
VC
CP
R
FL1
FL2 6 5
421
D S
FB BP
Lin
kSw
itch
-TN
U2
LNK3
02D
G
11
HD
14 -
25
V
VR4MMSZ5243BT1G
13 V
D7
STP
S30
L60C
T
D6STPS30L60CT
D9
UF4
005
L141
µH
C4
47 n
F50
V
C5
47 n
F50
V
C10
1500
µF
16 V
C24
1500
µF
16 V
R21
3.3
kΩ
R28
100 Ω
R30
1 kΩ
R34
19.1
kΩ
1% R31
4.99
kΩ
1%
U7
LM43
1U5
LM43
1
R33
1 kΩ
R32
10 kΩS
W1
Rem
ote
ON
/OFF
U3A
PC
357A
R24
3.92
kΩ
1%
R15
1 kΩ
R38
1 kΩ
U1A
PC
357A
R9
15 kΩ
1%
R10
220 Ω
C9
1 nF
100
V
D8
UF4
005
C19
1 nF
200
V
C20
330 µF
35 V
C1
120 µF
450
V
R26
200 Ω C
1710
00 µ
F16
V
C21
2.2
nF25
0 VA
C
U2A
PC
357A
C16
330
nF50
V
C15
330 µF
25 V
C13
470
pF
100
V
U2B
PC
357A
U1B
PC
357A
R25
232
kΩ1%
R27
232
kΩ1% R
394.
7 kΩ
D10
BA
V19
WS
+38
0 V
DC
J3-1
12 V
Bia
s
J4-1 B-
J3-3
B-
J4-2
R14
1 kΩ
C3
100
nF50
V
D3
1N40
07
R5
4.7 Ω
1/2
W
R1
2.2 Ω
1 W
F13.
5 A
D13
1N40
05
R20
4.7
kΩ
R16
7.5
kΩ
R35
1.33
MΩ
1%R13
1.33
MΩ
1%R12
1.33
MΩ
1%
R23
619 Ω
1%
R22
4.7
kΩ
U3B
PC
357A
R6
100 Ω
1/2
W
VR3P6KE150A
R18
1.33
MΩ
1% R19
1.33
M1%
R36
1.33
MΩ
1%
Hip
erT
FS-2
U6
TFS
7703
HD
41N
4007
D12
UF4
003
D16
SB
3100
2 1
34 6
9,10
7,8,
9
10,1
1,12
5
HS
+38
0 V
DC
RT
N
J5-3
,4
RT
N
J2-2
FB
EN
T1 EF2
5
T2E
E16
D
GS
56
VD
DH
13
R L
FB BP
EN7 9 10 11 8
DS
B
16 14 1 3
PI-
6999
-110
513
C12
10 µ
F16
V
6,7
CO
NT
RO
L
+12
V
Mai
nJ5
-1,2
+12
V
Sta
ndb
yJ2
-1
R37
2.2 Ω
1 WC22
3.3
nF10
0 V
L22.
2 µH
R7
2.2 Ω
1/2
W
C18
1 nF
200
V
C2
2.2
nF1
kV
C8
47 n
F50
V
R11
39 kΩ
Q1
MM
BT4
401
C6
100
nF50
V
Design Examples
HiperTFS-2 – Two-Switch Forward and Flyback Standby Power Supply (DER-368)190 W CONTINUOUS, 280 W PEAK, 12 V, 15 A and 12 V, 0.83 A, 300 – 420 VAC INPUT ALL-IN-ONE PC POWER SUPPLY
12
Design Examples
HiperTFS-2 – High-Efficiency, Non-PFC Stage Forward Power Supply (DER-483)184 W, 23 V, 0.5 A – 8 A, 90 – 132 VAC INPUT BATTERY CHARGER POWER SUPPLY
HD
C810
0 nF
50 V
D3
US1
D
C710
0 nF
50 V
R16
1 kΩ
R13
47 kΩ
R12
7.5
kΩ
R15
232
kΩ1%
R14
1.2
kΩ
R697
9 kΩ
1%R593
1 kΩ
1%R493
1 kΩ
1%
R363
0 kΩ
R263
0 kΩ
L19
mH
L29
mH
BR1
GBU
8J60
0 V
R163
0 kΩ
RT1
2.5 Ω
F1 5 A
U3B
PC35
7A
1 4
23
R18
6.8 Ω
1/2
W
VR3
P6KE
150A
VR1
SMBJ
150A
150
V
D1
BAV1
9WS
D6
1N40
07
D5
UF4
005
D11
1N41
48
D4
UF4
005
D7
UF4
003
VR5
SMBJ
150A
150
V
VR6
P6KE
170A
R9
931
kΩ1% R1
093
1 kΩ
1%
R11
976
kΩ1%
Hip
erTF
S-2
U3
TFS7
704H
D2
1N40
07
2 133 5 1 5
8 9
HS
FB
T2EF
12.6
T1EE
R28
L
D
GS
56
VD
DH
13
R L
FB BP
EN
7 9
10
11 8
DSB
16
14
1 3
C610
µF
16 V
C12
150 µF
25 V
R22
1 kΩ
R20
4.7
kΩ
R21
4.7
kΩ
Q1
MM
ST39
04Q
2M
MST
3904
C11
10 n
F50
V
VR2MMSZ5245B-7-F
C456
0 µF
200
V
C122
0 nF
275
V
C247
0 nF
275
V
CO
NTR
OL
R8
2.2 Ω
1/2
W
C92.
2 nF
1 kV
C52.
2 nF
1 kV
Q3MMST3904
RV1
175
VAC
R17
22 kΩ
R710
0 Ω
1/2
WD
8ST
PS30
150C
T
D12
UF4
003
D13
IN40
02-
E3/5
4
D10
1N41
48
D9STPS30150CT
L341
µH
C16
330 µF
35 V
C15
330 µF
35 V
C18
10 n
F20
0 V
C19
2.2
nF20
0 V
C17
10 µ
F50
V
C20
10 n
F20
0 V
C23
100
nF50
V
C22
10 n
F20
0 V
C24
100
nF50
V
C21
150 µF
25 V
C13
4.7
nF25
0 VA
C
C10
1 nF
1 kV
9,1012,1
3
23
V, 0
.5 -
8.0
A
Mai
nJ2
-1,2
VC
C
J1-1
J1-3
90
- 1
32
VA
C
R23
4.7 Ω
1 W
R26
3.3
kΩ1/
8 W
R25
4.7
kΩ
R29
3.3
kΩ
R24
220 Ω
R27
82.5
kΩ
1%
R30
10 kΩ
1%
R39
10 kΩ
R28
10 kΩ
R31
4.7
kΩR34
6.8
kΩR32
4.7
kΩ
R33
105
kΩ1%
R35
10 kΩ
C14
1.0
nF1
kV
RTN
J2-3
,4
C356
0 µF
200
V
tO
U4
LM43
1AIM
3DR
2%
R19
2.2 Ω
R36
5.11
kΩ
1%
C25
10 µ
F50
V
R37
0.03
Ω5% 5
W
R38
0.03
Ω5% 5
W
U3A
PC35
7A
SW1
SPD
T
U5B
LM35
8D
U5A
LM35
8D
3 248
1
5 67
U2A
PC35
7A
PI-7
729-
0929
15
+
+
VC
C
VC
CP
R
VC
CP
R
13
HiperPFS-3 – Boost PFC Front-End Power Supply (DER-394)275 W, 385 V, 0.71 A, 90 – 264 VAC INPUT PFC FRONT-END POWER SUPPLY
Design Examples
L140
0 µH
VO
J3-1
J2-2
J4-1
J4-2
RL1
J2-1
DC
OU
T+ VO
J3-3
S
C PG
T
FBVC
C
PG
KD
REF
GVC
ON
TRO
L
Hip
erP
FS-3
U1
PFS7
527H
PI-725
7a-061
915
N
Po
wer
Go
od
90
- 2
64
VA
C
EL
R1
510
kΩ
R6
1 Ω
1%
R3
10 kΩ
1%
R4
16.2
kΩ
1%
R5
3.01
kΩ
1% D1
S1AB
-13-
F
C847
µF
50 V
C768
0 nF
450
V
C9 1 µF
35 V
C10
1 µF
50 V
R14
30.1
kΩ
1% 1/8
W
R15
332
kΩ1% 1/8
W
C11
470
pF50
VH
S1
D3S1AB-13-F
VR1BZX384-B13,115
13 V
Q1
MM
BT44
03
3 4
21
U3
LTV81
7A
Q2
MM
BT44
01LT
1G
R7
1 Ω
1%
R8
2.21
kΩ
1% 1/8
W
R2
510
kΩ
C268
0 pF
250
VAC
BR1
GBU
8K-B
P80
0 V
L29
mH
C433
0 nF
275
V
C668
0 pF
250
VAC
C568
0 pF
250
VAC
C168
0 pF
250
VAC
F1 5 A
RV1
320
VAC
VC
CSu
pply
C333
0 nF
275
VAC
RT1
2.5 Ω
D1
CA
PZ
ero
U2
CAP0
03D
G
D2
L333
0 µH
+
+C1
41
nF50
V
C17
180 µF
450
V
R19
162
kΩ1% 1/8
W
R16
3.74
MΩ
1%R10
6.2
MΩ
1% R11
6.2
MΩ
1% R12
3.74
MΩ
1% R13
162
kΩ1% 1/8
W
R17
6.2
MΩ
1% R18
6.2
MΩ
1%
C15
10 n
F1
kV
C13
1 µF
50 V
D2
1N54
08-T
C12
100
nF25
V
C16
470
pF50
V
tO
14
Design Examples
HiperPFS-4 – Boost PFC Front-End Power Supply (DER-547)275 W, 440 V, 0.63 A, 100 – 300 VAC INPUT PFC FRONT-END POWER SUPPLY
L140
0 µH
VO
J3-1
J2-2
J4-1
J4-2
RL1
J2-1
DC
OU
T+ VO
J3-3
S
C PG
T
FBVC
C
PG
D
REF
GVC
ON
TRO
L
Hip
erP
FS-4
U1
PFS7
627H
PI-8
037-
0201
17
N Po
wer
Go
od
10
0 -
30
0V
AC
EL
R151
0 kΩ
R6 1 Ω
1%
R310
kΩ
1%
R416
.2 kΩ
1%
R53.
01 kΩ
1% D1
S1AB
-13-
F
C847
µF
50 V
C70.
68 µ
F63
0 VD
C
C9 1 µF
35 V
C10
1 µF
50 V
R14
30.1
kΩ
1% 1/8
W
R15
332
kΩ1% 1/8
W
C11
470
pF50
V
D3S1AB-13-F
VR1BZX384-B13,115
13 V
Q1
MM
BT44
03
3 4
21
U3
LTV81
7A
Q2
MM
BT44
01LT
1G
R7 1 Ω
1%
R82.
21 kΩ
1% 1/8
W
R251
0 kΩ
C268
0 pF
250
VAC
BR1
GBU
8K-B
P80
0 V
L29
mH
C40.
33 µ
F76
0 V
C668
0 pF
250
VAC
C568
0 pF
250
VAC
C168
0 pF
250
VAC
F1 5 A
RV1
420
VAC
VC
CSu
pply
C30.
33 µ
F76
0 VA
CRT
12.
5 Ω
D1
CA
PZ
ero
-2U
2CA
P200
DG
D2
L333
0 µH
+
+C1
41
nF50
V
C18
180 µF
550
V
R19
143
kΩ1% 1/8
W
R16
3.74
MΩ
1%R1
06.
2 MΩ
1% R11
6.2
MΩ
1% R12
3.74
MΩ
1% R13
143
kΩ1% 1/8
W
R17
6.2
MΩ
1% R18
6.2
MΩ
1%
C15
10 n
F1
kV
C13
1 µF
50 V
D2
1N54
07-E
3/54
D4
LXA0
6T60
0
C12
100
nF25
V
C16
470
pF50
V
tO
Spre
ad s
pect
rum
var
iabl
e sw
itchi
ngfr
eque
ncy
over
line
cyc
le r
educ
es E
MI
CAPZ
ero
elim
inat
es
pow
er lo
st f
rom
X c
apac
itor
disc
harg
e re
sist
ors
Driv
e fr
om e
xter
nal
bias
sup
ply
Inpu
t lin
e se
nse
(bro
wn-
in a
nd
brow
n-ou
t pr
otec
tion)
Ultr
a-lo
w r
ever
sere
cove
ry Q
spee
d D
iode
Hip
erPF
S-4
inte
grat
ed P
FC c
ontr
olle
r pl
usM
OSF
ET a
nd lo
ssle
ss c
urre
nt s
ensi
ng
POW
ER G
OO
D p
inge
nera
tes
a co
ntro
lsy
nchr
oniz
atio
n si
gnal
whe
n ou
tput
vol
tage
isw
ithin
reg
ulat
ion
DC
volta
ge s
ense
,lo
op c
ompe
nsat
ion
and
OV/
UV
prot
ectio
n
15
Design Examples
PI-6844-120312
C182.2 nF
250 VAC
VR1BZG03C130
130 V
L410 mH
BR2DF206ST-G
600 V
C268 µF400 V
D2BAV21WS-
7-F
T1RM8D1
DL4937
C622 µF16 V
C8100 pF50 V
C2310 pF50 VC20
4.7 nF50 V
C310 nF630 V
C121000 µF
16 V
C13680 pF100 V
D8STPS30100ST
C5470 nF50 V
7
FL2
FL19
6 8
C14150 nF
275 VAC
R293.3 MΩ
R303.3 MΩ
F12 A
90 - 265VAC
12 V, 2.5 A
J3
RTN
J4
J1 J2
LinkSwitch-HP
D
S
FB
BP
CPPD
CONTROLU1
LNK6766E
C2210 µF16 V
L5100 µH
R1941.2 kΩ
1%
R823.2 kΩ
1%1/8 W
R7100 kΩ1/8 W
R94.3 kΩ
1%1/8 W
R1320 Ω1/8 W
R2100 Ω1/2 W
R33 kΩ R28
27 kΩ
R2010.2 kΩ
1%
C7100 nF25 V
LinkSwitch-HP – High-Efficiency, Universal Input Power Supply (RDK-313)30 W, 12 V, 2.5 A, 90 – 265 VAC INPUT ADAPTER POWER SUPPLY
16
Design Examples
PI-8
122-
1005
16
R25
11 kΩ
1%1/
16 W
R23
200
kΩ1/
10 W
R21
2.4
kΩ
R22
1 kΩ
1/8
W
R18
3.48
kΩ
1%1/
16 W
U2A
TCLT
1007
C14
15 n
F50
VR2
416
2 kΩ
1%1/
16 W
C17
47 n
F25
V
U4
LMV4
31AI
MF
C15
680 µF
25 V
C18
1 µF
50 V
C982
µF
400
V
C12
470
pF25
0 V
R162
0 Ω
R362
0 Ω
R575
0 kΩ
R262
0 Ω
D4
V201
20C-
E3/4
W
A2 1
B
FL
19
V, 2
.37
A
J3 RTN J4
R19
22 Ω
R20
22 Ω
RT1
2.5 Ω
C410
0 pF
50 V
C133
nF
50 V
Q1
MM
ST39
04Q
2M
MST
3904
D2
1N41
48
C233
nF
50 V
C747
0 nF
50 V
Link
Swit
ch-H
P
D S
FB
BP
CP
PD
CO
NTR
OL
U1
LNK6
777E
R423
.2 kΩ
1%1/
16 W
R32
200
kΩ1/
8 W
R33
200
kΩ1/
10 W
R31
100
kΩ1/
4 W
R712
kΩ
1/10
W
R14
7.5
kΩ1%
R824
.9 kΩ
1% 1/8
W
R10
1 kΩ
1/8
W
R9 1 kΩ 1%
1/16
W
R6 1 kΩ 1% 1/8
W
R17
1.2
kΩ
R16
0.0 Ω
T1 RM8
D3
BAV2
1WS-
7-F
D1
GS1
M-L
TP
R15
35.7
kΩ
1% 1/8
W
C5 1 µF
16 V
C19
1 µF
25 V
C347
0 pF
1 kV
C822
0 µF
25 V
Q4
2N70
02
VR4
MM
SZ46
89T1
G5.
1 V
TP1
TP2
GN
D
VR5
MM
SZ46
89T1
G5.
1 V
19 V
C11
10 n
F1
kV
C13
470
pF25
0 VA
C
U2B
TCLT
1007
BR1
2KBP
06M
600
V
L213
mH
C647
0 nF
275
VAC
tO
L120
0 µH
F13.
15 A RV
132
0 VA
C 9
0 -
265
VA
C
L N
11N
C
12
R12
620
kΩ
R13
620
kΩ
D6
DL4
148
D1
CA
PZe
ro-2
U3
CAP2
00D
G
D2
+19
V
U5
HC
PL-
4701
-500
E
VC
C
VB
VO
GN
D
NC
AN
OD
E
CA
TH
OD
E
NC
LinkSwitch-HP – High-Efficiency, Universal Input Power Supply (DER-581)45 W, 19 V, 2.37 A, 90 – 265 VAC INPUT APPLIANCE POWER SUPPLY
17
TOPSwitch-JX – LCD Monitor (DER-187)35 W, 13 V, 2.69 A, 90 – 264 VAC INPUT FLYBACK LCD MONITOR POWER SUPPLY
D
S X F
C
V
CONTROL
PI-6233-030916
R1033 Ω
R433 Ω1/8 WR3
3.9 MΩ1/2 W
R9100 Ω
R1210 kΩ
R1410 kΩ1%
R1342.2 kΩ
1%
R111.2 kΩ
U3TL4312%
VR21N5255B
28 V
D5FR106
R520 Ω
R810 Ω1/8 W
R715.4 kΩ
1%
R2100 kΩ1/2 W
R133 Ω
U2BLTV817A
U2ALTV817A
L19 mH
L33.3 µH
L2(3.5 × 7.6 mm)
U1TOP267EG
C947 µF16 V
C1, C2220 pF
250 VAC
C1647 nF50 V
C1022 µF50 V
C51 nF100 V
D6BAV20
D7, D8SB580
C8100 nF50 V
D11N4937
D21N4007
D31N4937
D41N4007
C13680 µF25 V
C14680 µF25 V
C15330 µF25 V
C12470 pF100 V
1
3
2
NC
T1EF25
9,10
7,8
5
4C4100 µF400 V
C62.2 nF1 kV
C72.2 nF
250 VAC
C3100 nF
275 VAC
RT110 Ω
F13.15 A
TOPSwitch-JX
L
E
N
13 V, 2.69 A
RTN
tO
90 - 264VAC
R64.7 Ω
C1122 pF1 kV
725 V MOSFET technology allowshigher transformer turns ratio enablinglower diode voltage rating; reduces circuit cost, improves efficiency
Output overvoltage protection (OVP).Resistor (R5) sets latching or hysteretic shutdown
– Internal high-voltage current source eliminates start-up circuitry– Internal current sense circuit eliminates sense resistor
– Tight I2f tolerance minimizes the size of the transformer and output diodes and reduces overload to rated power ratio
132 kHz switching frequency forgreatly reduced transformer costFrequency jittering simplifies
EMI filter design, reducingdevelopment time andcomponent cost
Line undervoltage/overvoltage(UV/OV) detection, dual-slope line feed-forward for output ripplereduction
TOPSwitch-JX– Accurate thermal shutdown with large hyteresis provides complete system-level protection
– DIP-8 package with 2 Ω MOSFET and optimized pinout eliminates heat sink– Auto-restart limits available power to <3% of maximum power in short-circuit and open-loop fault conditions
Design Examples
18
TOPSwitch-JX – Universal Input Non-PFC CVCC Flyback Charger (DER-566)70 W, 23 V, 3.04 A, 90 – 264 VAC INPUT BATTERY CHARGER POWER SUPPLY
Design Examples
R11
33 Ω
1 W
R168
0 kΩ
R268
0 kΩ
R368
0 kΩ
D1
FR30
7G
R10
6.8 Ω
U2B
LTV8
17A
U1
TOP2
66EG
C647
µF
16 V
C510
0 µF
25 V
D2
UF4
003
D3
STPS
3015
0CT
C410
0 nF
50 V
BR1
GBU
8J60
0 V
L29
mH
L111
5 µH
4 5
T1PQ
26/2
510,1
1,12
7,8,
9
1 3
6
C133
0 nF
275
VAC
F1 4 A
TOP
Swit
ch-J
X
C218
0 µF
400
V
C32.
2 nF
1 kV
RV1
320
VAC
90 -
264
VA
C
D S
C
V
FX
CO
NTR
OL
R71.
5 MΩ
RT1
5 Ω
R61.
5 MΩ
VR1
P6KE
150A
R433
kΩ
1 W
R5 33 Ω
1 W
R96.
65 kΩ
1%
R81.
3 MΩ
C9 1 nF
200
V
C868
0 µF
35 V
C10
680 µF
35 V
C72.
2 nF
250
VAC
43
12
PI-8
011-
0719
16
tO
J2-1
,2
RTN
J2-3
,4
U3B
LM35
8D5 6
U3A
LM35
8D4
7
38
21
U2A
LTV8
17A
+
+
C11
220 µF
35 V
R19
10 kΩ
R22
5.11
kΩ
1%U
4LM
431B
IM3/
NO
PB
R21
102
kΩ1%
R16
47 Ω
C14
1.0 µF
50 V
C13
47 n
F50
V
C12
100
nF50
V
R14
0.15
Ω2
W
R13
9.31
kΩ
1%
R17
68 kΩ
R12
1.5
kΩ
R18
68 kΩ
D5
1N41
48
R23
6.8
kΩ
R20
42.2
kΩ
1%
R15
0.15
Ω2
W D6
1N40
01
D4
BAV1
9WS
L33.
3 µH
19
Reference DesignsR
DR
Reference Design Report (RDR)
Reference Design Reports contain a power supply reference design specification, schematic, bill of materials, transformer documentation, and PCB layout. Performance data and typical operating characteristics are included. The design has been put into production for use in our Reference Design Kits (RDKs).
DERDesign Example
Report (DER)
Design Example Reports contain a power supply design specification, schematic, bill of materials, transformer documentation, and PCB layout. This design has been built and bench-tested to provide performance data and typical operation characteristics.
Application ProductFamily
AC Input Voltage
(V)
Output Voltage
(V)
Output Power
(W)Topology Documents DAK/
RDK
All-In-One PCHiperPFS-3 + LinkSwitch-HP 90-264 20 150 PFC + Flyback DER-437
HiperPFS-4 100-300 440 275 PFC Boost DER-547
Appliance LinkSwitch-HP + CAPZero-2 90-265 19 45 Flyback DER-581
Battery Charger
HiperTFS-2 90-132 23 184 Two-Switch Forward + Flyback DER-483
HiperTFS-2 90-132 61, 5 300 Two-Switch Forward + Flyback DER-472
HiperLCS + LinkSwitch-TN 90-132 23 184 LLC + Flyback DER-447
General Purpose
HiperLCS 300-420 (DC) 24 150 LLC RDR-239
TOPSwitch-JX 85-264 12 30 Flyback RDR-242 RDK-242
LCD Monitor
LinkSwitch-HP 90-265 12 30 Flyback RDR-313 RDK-313
LinkSwitch-HP 90-265 5 / 18 17 Flyback RDR-321 RDK-321
TOPSwitch-JX 90-264 5 / 16 36.3 Flyback DER-259
TOPSwitch-JX 90-265 5 / 14.5 27 Flyback DER-235
LCD TV
HiperPFS-3 90-264 380 275 PFC Boost DER-394
HiperPFS-4 100-305 440 275 PFC Boost DER-547
TOPSwitch-JX 300-420 (DC) 12 / 24 100 Flyback DER-299
HiperLCS 300-420 (DC) 12 / 24 125 LLC DER-270
HiperLCS 300-420 (DC) 12 / 24 100 LLC DER-282
LinkSwitch-HP 90-265 12 36 Flyback DER-467
HiperPFS-3 + LinkSwitch-HP 90-264 12 / 24 100 PFC + Flyback DER-393
LED Driver
HiperLCS 90-265 43 150 LLC RDR-382 RDK-382
HiperLCS 90-265 48 150 PFC + LLC RDR-292
HiperPFS-4 100-300 440 275 PFC Boost DER-547
Notebook Adapter
TOPSwitch-JX 90-265 19 65 Flyback DER-243
LinkSwitch-HP 90-265 19 45 Flyback DER-453
PC Main
HiperTFS-2 300-420 12 190 Two-Switch Forward + Flyback DER-368
HiperPFS-3 90-264 385 275 PFC Boost DER-394
HiperPFS-4 100-300 440 275 PFC Boost DER-547
HiperTFS 300-385 5 / 12 300 Two-Switch Forward + Flyback RDR-249
HiperTFS-2 + HiperPFS-3 90-264 5 / 61 300 Two-Switch Forward + Flyback DER-484
PC Standby
TOPSwitch-JX 110-400 12 30 Flyback DER-275
CAPZero 85-264 N/A N/A N/A RDR-252 RDK-252
TOPSwitch-JX 110-400 5 20 Flyback DER-247
TOPSwtich-JX 110-400 12 30 Flyback DER-246
Power Tools and eBikes
HiperLCS 90-132 23 184 LLC DER-447
HiperTFS-2 90-132 23 184 Two-Switch Forward DER-483
HiperPFS-2 + HiperTFS-2 90-264 61 300 PFC + Two-Switch Forward DER-484
HiperTFS-2 90-132 61 300 Two-Switch Forward DER-472
TOPSwitch-JX 90-264 23 70 Flyback DER-566
TOPSwitch-JX 165-264 59 106 Flyback DER-583
TOPSwitch-JX 180-264 59 118 Flyback DER-580
©2017 Power Integrations. Power Integrations and the Power Integrations logo are registered trademarks of Power Integrations. All rights reserved.
Worldwide Sales Support Locations
World Headquarters5245 Hellyer AvenueSan Jose, CA 95138, USAMain: +1 408-414-9200Customer Service: Worldwide: +1-65-635-64480Americas: +1-408-414-9621Email: usasales@power.com info@power.com
AMERICAS WEST5245 Hellyer Avenue San Jose, CA 95138 USA Tel: +1-408-414-8778Fax: +1-408-574-3760Email: usasales@power.com
GERMANY (AC-DC/LED Sales)Lindwurmstrasse 114D-80337 MünchenGermany Tel: +49-89-5527-39100Fax: +49-89-1228-5374Email: eurosales@power.com
INDIA (Mumbai)Power Integrations India Private LimitedUnit: 106-107, Sagar Tech Plaza-BSakinaka, Andheri Kurla RoadMumbai - 400072, Maharashtra, IndiaTel 1: +91-22-40033700Tel 2: +91-22-40033600Email: indiasales@power.com
JAPANKosei Dai-3 Bldg.2-12-11, Shin-Yokohama, Kohoku-ku,Yokohama-shi, Kanagawa Japan 222-0033Tel: +81-45-471-1021 Fax: +81-45-471-3717Email: japansales@power.com
TAIWAN5F, No. 318, Nei Hu. Rd., Sec. 1Nei Hu Dist.Taipei, Taiwan 114, R.O.C.Tel: +886-2-2659-4570Fax: +886-2-2659-4550Email: taiwansales@power.com
On the Webwww.power.com
AMERICAS EAST7360 McGinnis Ferry RoadSuite 225Suwanee, GA 30024Tel: +1-678-957-0724Fax: +1-678-957-0784Email: usasales@power.com
CHINA (Shanghai)Room 1601-1603, Charity PlazaNo. 88 North Caoxi RoadShanghai, PRC 200030Tel: +86-021-6354 6323Fax: +86-021-6354 6325Email: chinasales@power.com
GERMANY (IGBT Driver Sales)HellwegForum 159469 EnseGermany Tel: +49-2938-64-39990Email: igbt-driver.sales@power.com
INDIA (New Delhi)#45, Top FloorOkhla Industrial Area, Phase – IIINew Delhi, IndiaPin – 110020 Tel: +91-11-4055-2351/53Email: indiasales@power.com
KOREARM602, 6FL, 22Teheran-ro 87-gil, Gangnam-guSeoul, 06164, KoreaTel: + 82-2-2016-6610 Fax: + 82-2-2016-6630Email: koreasales@power.com
UNITED KINGDOMBuilding 5, Suite 21The Westbrook CentreMilton RoadCambridgeCB4 1YGTel: +44 (0)7823 557484Email: eurosales@power.com
AMERICAS CENTRAL3100 Dundee Road, Suite 204Northbrook, IL 60062Tel: +1-847-721-6293Email: usasales@power.com
CHINA (Shenzhen)17/F, Hivac Building, No 2Keji South 8th Road, Nanshan DistrictShenzhen, ChinaZip Code: 518057Tel: +86-755-8672-8689 Fax: +86-755-8672-8690Email: chinasales@power.com
ITALYVia Milanese 2020099 Sesto San Giovanni (MI)ItalyTel: +39 02 455 08708Email: eurosales@power.com
INDIA (Bangalore)# 1, 14th Main Road VasanthanagarBangalore 560052 IndiaTel 1: +91-80-4113-8020Tel 2: +91-80-4113-8028Fax: +91-80-4113-8023Email: indiasales@power.com
SINGAPORE51 Newton Road#20-01/03 Goldhill PlazaSingapore, 308900Tel: +65-6358-2160 Cust. Svc: +65-6356-4480Fax: +65-6358-2015Email: singaporesales@power.com
top related