Description EVL150W-HVSL The EVL150W-HVSL is an …Feb 26, 2020 · R46 330K R18 1R0 2512 R11 56R...
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Features • Universal input mains range: 90 to 264 Vac -frequency 45 to 65 Hz • Half-bridge topology: LCC • Max. output voltage and current: 150 V at 1 A continuous operation • No-load mains consumption: < 0.5 W • THD < 10% at 230 Vac from 30 to 100% of the full load • No need of auxiliary SMPS (Viper or equivalent) • Efficiency: >91% at full load • No electrolytic capacitors for long term reliability • Conducted EMC: within EN55022-Class-C limits • Safety: meets EN60950 • Dimming: analog, resistive, PWM (open collector) • Feedback loops: constant current and constant voltage • Protections: LED short-circuit, LED string open, regulation loop failure • Dimensions: 69x157 mm, 28 mm components maximum height • PCB: double side, 70 μm, FR-4, mixed PTH/SMT Description The EVL150W-HVSL is an evaluation board of a150 W / 1 A LED driver with wide input mainsrange. The electrical specification is tailored on a typical high-power street lighting application. It is based on a two-stage architecture, consisting of a front-end PFC pre-regulator and a downstream half-bridge resonant tank converter. The pre-regulator is a transition mode PFC based on constant ON time control, while the resonant converter is an LCC tank that is more suitable than LLC tank to build a current source. Both stages are based on the new STCMB1 combo controller that integrates, in the same device, a transition mode PFC controller and a half-bridge resonant controller. Thanks to the STCMB1, the main features of this design are high efficiency, no-load input power consumption is very low, reduced harmonics compliant with the EN61000-3-2 Class-C, and EMI within the relevant EN55022 limits. Another noticeable feature of this LED driver is the extremely wide dimming capability, actually the board can regulate the current from maximum level down to less than 10% with analog dimming and to 1% in PWM dimming. The PWM dimming is perfectly flicker free, because even in the case of very low current, it is kept continuous (DC) in the LED and thus independent of the frequency of the PWM dimming signal. The board also has protection features in case of overload, short-circuit, open loop by each section. For this particular application, all protections in case of intervention have an auto-restart functionality. Product status link EVL150W-HVSL 150 V - 150 W LED driver using the STCMB1transition mode PFC and HBR resonant tank combo controller EVL150W-HVSL Data brief DB3398 - Rev 3 - February 2020 For further information contact your local STMicroelectronics sales office. www.st.com
Transcript of Description EVL150W-HVSL The EVL150W-HVSL is an …Feb 26, 2020 · R46 330K R18 1R0 2512 R11 56R...
Features• Universal input mains range: 90 to 264 Vac -frequency 45 to 65 Hz• Half-bridge topology: LCC• Max. output voltage and current: 150 V at 1 A continuous operation• No-load mains consumption: < 0.5 W• THD < 10% at 230 Vac from 30 to 100% of the full load• No need of auxiliary SMPS (Viper or equivalent)• Efficiency: >91% at full load• No electrolytic capacitors for long term reliability• Conducted EMC: within EN55022-Class-C limits• Safety: meets EN60950• Dimming: analog, resistive, PWM (open collector)• Feedback loops: constant current and constant voltage• Protections: LED short-circuit, LED string open, regulation loop failure• Dimensions: 69x157 mm, 28 mm components maximum height• PCB: double side, 70 μm, FR-4, mixed PTH/SMT
DescriptionThe EVL150W-HVSL is an evaluation board of a150 W / 1 A LED driver with wideinput mainsrange. The electrical specification is tailored on a typical high-powerstreet lighting application.
It is based on a two-stage architecture, consisting of a front-end PFC pre-regulatorand a downstream half-bridge resonant tank converter. The pre-regulator is atransition mode PFC based on constant ON time control, while the resonantconverter is an LCC tank that is more suitable than LLC tank to build a currentsource.
Both stages are based on the new STCMB1 combo controller that integrates, in thesame device, a transition mode PFC controller and a half-bridge resonant controller.
Thanks to the STCMB1, the main features of this design are high efficiency, no-loadinput power consumption is very low, reduced harmonics compliant with theEN61000-3-2 Class-C, and EMI within the relevant EN55022 limits.
Another noticeable feature of this LED driver is the extremely wide dimmingcapability, actually the board can regulate the current from maximum level down toless than 10% with analog dimming and to 1% in PWM dimming. The PWM dimmingis perfectly flicker free, because even in the case of very low current, it is keptcontinuous (DC) in the LED and thus independent of the frequency of the PWMdimming signal.
The board also has protection features in case of overload, short-circuit, open loopby each section. For this particular application, all protections in case of interventionhave an auto-restart functionality.
Product status link
EVL150W-HVSL
150 V - 150 W LED driver using the STCMB1transition mode PFC and HBR resonant tank combo controller
EVL150W-HVSL
Data brief
DB3398 - Rev 3 - February 2020For further information contact your local STMicroelectronics sales office.
www.st.com
1 Electrical diagram
Figure 1. Electrical diagram
90-264Vac
150V @1A
SECONDARY SIDEDIMMING
DIMMINGGND
12V
FGND: OPT for VDR
2220
400 Vdc
ANODECATHODE
PHEARTHN
VAC
N.C
ISEN
_PFC
GD_P
FC
VOUT
_PFC
VCC
CV LOOPCC LOOP
N.C.
HVGOUT
N.C.
N.C.GND-U2
GND-U3
GND
GND
ZCD
ISEN
_HB
LVG
CC CONTROL BOARD
0.375 A
A2
A2
A2
CC LOOP
CV LOOP
STCMB1 DAUGHTER BOARD
OPEN
2220
63V 63V
2220
MALE STRIP DIRECTLY SOLDERED ON BOTH SIDES (MB & CC-CB)
R50R0
R110N.M.
R1012M2
C112N2-Y1
R2140R0
T11860.0152
4 10
12
14
9
2
5
6
Q102BC847C 1
32
D3
1N4005
12
R45100K
C101100N
Q4BSS169
R21020K
R9N.M.
R16N.M.
C10710uF
JPX1021N4148
JPX103
C13220pF-630V
R20727K
C17470N
R15100R
R1032M2
L12019.0002
1 2
4 3
R35R6
R123N.M.
R4-JPX10R18
C11422P
R2181K0
D13STPS1H100A
1 2
R1163K0
R2110R
JP1B
FEM
ALE
HEA
DER
20
11121314151617181920
C1114u7F
C204100N
R20527K
C5470N - 630V
D6S1M
R10956K
R512K2
R206N.M.
C212N2
R1NTC 2R5-S237
R10-JPX2SHORTED
R1022M2
R1356R
R422K7
R2130R0
C102N2-Y1
JPX1
R212620K
U1TLVH431AIL3T
23
1
U201LM258AD
OUT11
OP2+5
OP2-6
GND4
OP1+3
OP1-2
OUT27
VCC8
JP101AMALE HEADER 20P 90°1 2 3 4 5 6 7 8 9 10
C810uF
R63R3
D12STTH3R02Q
1 2
R394K7
D11STTH3R02Q
1 2
JP10
1BM
ALE
HEA
DER
20P
90°
11121314151617181920
R108160K
U6TLVH431AIL3T
23
1
R11410R
C19N.M.
C244.7uF
R20310K
Q2STF13N60M2
2
1
3
R12256K
R21612K
R221K5
R325180K
C18470N
JP1AFEMALE HEADER 20
1 2 3 4 5 6 7 8 9 10
R197K5
U2SFH617A-2
12
43
J1MKDS 1,5/ 3-5,08
123
D21N4148WS
R20222R
C12470pF - 1KV
R2562K
D14BAV21W-V
12
R1213K6
D10STTH3R02Q
12
R2013K
Q1
STF2
4N60
M2
2
1
3
R208180K
R217200K
C108100N
+~
~ _
D1GBU8J
2 4
3 1
D9STTH3R02Q
12
D18BAV99
C201uF
C9100uF-450V
R12447R
R117270R
C4470N-X2
R20918K
C1447nF 1KV
R1201K2
R1111K0
C1051uF
D81N4148WS
R25R6
R11
9
300R
C110220pF
Q101BC847C
1
32
C1151N5
C64N7 500V
R11210K
R8100K
C32N2-Y1
C27100N
R1071K0
C22N2-Y1
D103MMSZ39T12 1
R21512K
D7S1M R7
22R
R24
2R2
JPX101
D51N4148WS
C710uF
C15470N
JP2N.M.
123456789
L21975.0004
11 3
9 5
C203100N
C2647N-500V
JP201MALE HEADER 7P 90°1234567
D4
STTH5L06
12
HS1
HEA
T-SI
NK
RV1300Vac
R505K6
R11868R
R2011K0
D104
MM
SZ13
T1
21
R32110K
C25N.M.
J3MOLEX2P
12
R27N.M.
L310uH
R30N.M.
R1053K9
Q201BC857C
1
23
C16470N
R171R0
2512
F1FUSE T4A
R1154K7
D101STPS140Z
12
C109330N
R310R15
R1063K9
C202470N
R44100K
C10310N
C1470N-X2
R263K9
R204100R
D1021N4148
C201100N
U101STCMB1
CF7
RFMIN9
STBY10
ISEN_HB12
COMP4
VCC15
LVG16
GND13
NC217
OUT18
HVG19
VBOOT20
HV1
ZCD6
TON5
NC12
GD_PFC14
ISEN_PFC11
FB3
CSS8
C206N.M.
R11325K
Q3STF13N60M22
1
3
R12100K
C10610uF
D1051N4148
U202LM258AD
OUT11
OP2+5
OP2-6
GND4
OP1+3
OP1-2
OUT27
VCC8
R40N.M.
C1021N0
C113470pF
U3SFH617A-2
12
43
R29N.M.
R10456K
R46330K
R181R0
2512
R1156R
J2MKDS 1/2-5.0
1
2
C1122u2
R28N.M.
R52N.M.
C1041N2
C205100N
C22N.M.
C234.7uF
R211N.M.
R3339K
R14100K
R231R0
VAC
HVG
OUT
CC_LOOP
CV_LOOP
EVL150W-HVSLElectrical diagram
DB3398 - Rev 3 page 2/14
2 Bill of material
Table 1. EVL150W-HVSL Evaluation board: bill of material (Rev. 2.3)
Ref. Value Case Description Supplier
C1 470 nF - X29.0 x 18.0
p. 15 mmX2 - FILM CAP - B32922C3474K Epcos
C2 2.2 nF - Y1 p. 10 mm Y1 SAFETY CAP. DE1E3KX222M Murata
C3 2.2 nF - Y1 p. 10 mm Y1 SAFETY CAP. DE1E3KX222M Murata
C4 470 nF - X29.0 × 18.0
p. 15 mmX2 - FILM CAP - B32922C3474K Epcos
C5470 nF
630 V
8.5 x 26.5
p. 22.5 mm630 V - FILM CAP - B32673Z6474K Epcos
C6 4.7 nF 5.0 x 13.0 p. 10 mm 450 Vac - FILM CAP - B32651A7472K Epcos
C7 10 μF 2220 CERCAP - 50 V - X7R - 20 % TDK
C8 10 μF 2220 CERCAP - 50 V - X7R - 20 % TDK
C9100 μF
450 V
diam.
18 x 35.5 mmAluminium ELCAP - CY series - 105 °C Nichicon
C10 2.2 nF - Y1 p. 10 mm Y1 SAFETY CAP. DE1E3KX222M Murata
C11 2.2 nF - Y1 p. 10 mm Y1 SAFETY CAP. DE1E3KX222M Murata
C12 470 pF - 1 KV 1206 1 KV CERCAP - X7R - 10 % Murata
C13 220 pF 1206 630 V CERCAP -GRM31A7U2J220JW31 Murata
C14 47 nF - 1 KV7.0 x 18.0
p. 15 mm1 KV - FILM CAP - B32652A0473K Epcos
C15 470 nF6.0 x 13
p. 10 mmMKT FILM CAP - B32521C3474M -250 V - 20 % Epcos
C16 470 nF6.0 x 13
p. 10 mmMKT FILM CAP - B32521C3474M -250 V - 20 % Epcos
C17 470 nF6.0 x 13
p. 10 mmMKT FILM CAP - B32521C3474M -250 V - 20 % Epcos
C18 470 nF6.0 x 13
p. 10 mmMKT FILM CAP - B32521C3474M -250 V - 20 % Epcos
C19 N.M. 1210 CERCAP - 50 V - X7R - 20 % TDK
C20 1 μF 1206 CERCAP - 50 V - X7R - 20 % TDK
C21 2.2 nF 0805 50 V CERCAP - C0G - 10 % AVX
C22 N.M. 0805 Not mounted
C23 4.7 μF8.5 x 7.2
p. 5 mmMKS2 FILM CAP - MKS2C044701M00 - 63 V - 5 % Wima
C24 4.7 μF8.5 x 7.2
p. 5 mmMKS2 FILM CAP - MKS2C044701M00 - 63 V - 5 % Wima
C25 N.M. 0805 Not mounted
C26 47 nF - 500 V 1206 CERCAP - 500 V - X7R - 10 % Kemet
EVL150W-HVSLBill of material
DB3398 - Rev 3 page 3/14
Ref. Value Case Description Supplier
C27 100 nF 0805 CERCAP - 50 V - X7R - 10 % Kemet
C101 100 nF 1206 50 V CERCAP - general purpose - X7R- 10 % TDK
C102 1.0 nF 1206 2 KV CERCAP - X7R - 10 % Epcos
C103 10 nF 0805 50 V CERCAP - general purpose - X7R - 10 % TDK
C104 1.2 nF 0805 50 V CERCAP - general purpose - X7R - 10 % Epcos
C105 1 μF 1206 50 V CERCAP - general purpose - X7R - 10 % TDK
C106 10 μF 1206 CERCAP - 25 V - X7R - 20 % TDK
C107 10 μF 2220 CERCAP - 50 V - X7R - 20 % TDK
C108 100 nF 0805 CERCAP - 50 V - X7R - 10 % TDK
C109 330 nF 0805 50 V CERCAP - general purpose - X7R- 10 % TDK
C110 220 pF 0805 50 V CERCAP - general purpose - COG- 5 % Epcos
C111 4.7 μF 1206 16 V CERCAP - general purpose - X7R- 10 % TDK
C112 2.2 μF 1206 16 V CERCAP - general purpose - X7R- 10 % TDK
C113 470 pF 0805 50 V CERCAP - general purpose - COG- 5 % Epcos
C114 22 pF 0805 50 V CERCAP - general purpose - COG- 5 % Epcos
C115 1.5 nF 0805 50 V CERCAP - general purpose - COG- 5 % Epcos
C201 100 nF 0805 CERCAP - 50 V - X7R - 10 % Kemet
C202 470 nF 0805 CERCAP - 25 V - C0G - 10 % AVX
C203 100 nF 0805 CERCAP - 50 V - X7R - 10 % Kemet
C204 100 nF 0805 CERCAP - 50 V - X7R - 10 % Kemet
C205 100 nF 0805 CERCAP - 50 V - X7R - 10 % Kemet
C206 N.M. 0805 Not mounted
D1 GBU8J STYLE GBU Single phase bridge rectifier Vishay
D2 1N4148WS SOD-323 High speed signal diode Vishay
D3 1N4005 DO-41 General purpose rectifier Vishay
D4 STTH5L06 DO-201 Ultrafast high voltage rectifier STMicroelectronics
D5 1N4148WS SOD-323 High speed signal diode Vishay
D6 S1M DO214AC General purpose rectifier, SMT Fairchild
D7 S1M DO214AC General purpose rectifier, SMT Fairchild
D8 1N4148WS SOD-323 High speed signal diode Vishay
D9 STTH3R02Q DO-15 Ultra fast rectifier STMicroelectronics
D10 STTH3R02Q DO-15 Ultra fast rectifier STMicroelectronics
D11 STTH3R02Q DO-15 Ultra fast rectifier STMicroelectronics
D12 STTH3R02Q DO-15 Ultra fast rectifier STMicroelectronics
D13 STPS1H100A SMA Power SCHOTTKY diode STMicroelectronics
D14 BAV21W-V SOD-123 Small signal diode high voltage Vishay
D18 BAV99 SOT-23 Dual small signal diode Vishay
D101 STPS140Z SOD-123 Power SCHOTTKY diode STMicroelectronics
D102 1N4148 DO-35 Fast switching diode Vishay
D103 MMSZ39T1 SOD-123 39 V Zener diode ON Semi
EVL150W-HVSLBill of material
DB3398 - Rev 3 page 4/14
Ref. Value Case Description Supplier
D104 MMSZ13T1 SOD-123 13 V Zener diode ON Semi
D105 1N4148 DO-35 Fast switching diode Vishay
F1 FUSE T4A8.5 x 4 mm
p. 5.08 mmFUSE 4 A - TIME LAG - 3921400 Littlefuse
HS1 HEATSINK DWG Heatsink for D1, Q1, Q2, Q3
J1 MKDS 1,5/3-5,08 DWGPCB TERM. BLOCK, SCREW CONN.,
PITCH 5 mm - 3 W.Phoenix Contact
J2 MKDS 1/2-5.0 DWGPCB TERM. BLOCK, SCREW CONN.,
PITCH 5 mm - 2 W.Phoenix Contact
J3 MOLEX2P HEADER 2.54 Male header 2.54 mm - 2P Molex
JP1A Female header20 DWG Female header p. 2.54 mm PRECI-DIP
JP1B Female header20 DWG Female header p. 2.54 mm PRECI-DIP
JP2 Female header 9 DWG Female header p. 2.54 mm PRECI-DIP
JP101A Male header 20P90° DWG Male header p. 2.54 mm 90°
JP101B Male header 20P90° DWG Male header p. 2.54 mm 90°
JP201 Male header 7P90° DWG Male header p. 2.54 mm 90°
JPX101 WIRE JUMPER SHORTED JUMPER
JPX102 1N4148 DO-35 Fast switching diode Vishay
JPX103 WIRE JUMPER SHORTED JUMPER
L1 2019.0002 DWG Input EMI filter Magnetica
L2 1975.0004 DWG PFC inductor - 0.31 mH - PQ26/25 Magnetica
L3 10 μHdiam 8.8 mm
p. 5 mmDrum coil RFB0807-100 Coilcraft
Q1 STF24N60M2 TO-220FP N-Channel Power MOSFET STMicroelectronics
Q2 STF13N60M2 TO-220FP N-Channel Power MOSFET STMicroelectronics
Q3 STF13N60M2 TO-220FP N-Channel Power MOSFET STMicroelectronics
Q4 BSS169 SOT-23 N-CH depletion MOSFET Infineon
Q101 BC847C SOT-23 Small signal NPN BJT Vishay
Q102 BC847C SOT-23 Small signal NPN BJT Vishay
Q201 BC857C SOT-23 Small signal PNP BJT Vishay
R1 NTC 2.5 Ω - S237 DWG NTC resistor P/N B57237S0259M000 Epcos
R2 5.6 Ω 0805SMD standard film RES - 1/8 W - 5 %
250 ppm/°CVishay
R3 5.6 Ω 0805SMD standard film RES - 1/8 W - 5 %
250 ppm/°C Vishay
R4-JPX1 0.18 Ω PTHRSMF1TB - METAL FILM RES - 1 W
2 % - 200 ppm/°C Akanehom
EVL150W-HVSLBill of material
DB3398 - Rev 3 page 5/14
Ref. Value Case Description Supplier
R5 0.0 Ω 0805SMD standard film RES - 1/8 W - 5 %
200 ppm/°CVishay
R6 3.3 Ω 0805SMD standard film RES - 1/8 W - 5 %
250 ppm/°CVishay
R7 22 Ω 0805SMD standard film RES - 1/8 W - 5 %
250 ppm/°CVishay
R8 100 KΩ 0805SMD standard film RES - 1/8 W - 5 %
250 ppm/°CVishay
R9 N.M. PTH Not mounted
R10-JPX2 SHORTED PTH Wire jumper
R11 56 Ω 0805SMD standard film RES - 1/8 W - 5 %
250 ppm/°CVishay
R12 100 KΩ 0805SMD standard film RES - 1/8 W - 5 %
250 ppm/°CVishay
R13 56 Ω 0805SMD standard film RES - 1/8 W - 5 %
250 ppm/°CVishay
R14 100 KΩ 0805SMD standard film RES - 1/8 W - 5 %
250 ppm/°CVishay
R15 100 Ω 1206SMD standard film RES - 1/4 W - 1 %
100 ppm/°CVishay
R16 N.M. 0805 Not mounted
R17 1.0 Ω 2512 SMD current sense resistor - 1 W - 1 % Panasonic
R18 1.0 Ω 2512 SMD current sense resistor - 1 W - 1 % Panasonic
R19 7.5 KΩ 0805SMD standard film RES - 1/8 W - 5 %
200 ppm/°CVishay
R20 13 KΩ 0805SMD standard film RES - 1/8 W - 1 %
100 ppm/°CVishay
R21 10 Ω 0805SMD standard film RES - 1/8 W - 5 %
200 ppm/°CVishay
R22 1.5 KΩ 0805SMD standard film RES - 1/8 W - 1 %
100 ppm/°CVishay
R23 1.0 Ω 1206SMD standard film RES - 1/4 W - 1 %
100 ppm/°CVishay
R24 2.2 Ω 0805SMD standard film RES - 1/8 W - 5 %
250 ppm/°CVishay
R25 62 KΩ 0805SMD standard film RES - 1/8 W - 5 %
200 ppm/°CVishay
R26 3.9 KΩ 0805SMD standard film RES - 1/8 W - 5 %
250 ppm/°CVishay
R27 N.M. 0805 Not mounted
R28 N.M. 0805 Not mounted
R29 N.M. 1206 Not mounted
EVL150W-HVSLBill of material
DB3398 - Rev 3 page 6/14
Ref. Value Case Description Supplier
R30 N.M. 1206 Not mounted
R31 0.15 Ω PTHRSMF1TB - metal film RES - 1 W - 2 %
200 ppm/°C
R32 110 KΩ 0805SMD standard film RES - 1/8 W - 5 %
250 ppm/°CVishay
R33 39 KΩ 0805SMD standard film RES - 1/8 W - 5 %
250 ppm/°CVishay
R39 4.7 KΩ 0805SMD standard film RES - 1/8 W - 5 %
250 ppm/°CVishay
R40 N.M. 0805 Not mounted
R42 2.7 KΩ 0805SMD standard film RES - 1/8 W - 5 %
250 ppm/°CVishay
R44 100 KΩ 0805SMD standard film RES - 1/8 W - 1 %
100 ppm/°CVishay
R45 100 KΩ 0805SMD standard film RES - 1/8 W - 1 %
100 ppm/°CVishay
R46 330 KΩ 0805SMD standard film RES - 1/8 W - 5 %
250 ppm/°CVishay
R50 5.6 KΩ 0805SMD standard film RES - 1/8 W - 1 %
100 ppm/°CVishay
R51 2.2 KΩ 0805SMD standard film RES - 1/8 W - 1 %
100 ppm/°CVishay
R52 N.M. 0805 Not mounted
R101 2.2 MΩ 1206SMD standard film RES - 1/4 W - 1 %
100 ppm/°CVishay
R102 2.2 MΩ 1206SMD standard film RES - 1/4 W - 1 %
100 ppm/°CVishay
R103 2.2 MΩ 1206SMD standard film RES - 1/4 W - 1 %
100 ppm/°CVishay
R104 56 KΩ 1/4 WPTH standard film res. - 1/4 W - 5%
250 ppm/°CVishay
R105 3.9 KΩ 1206SMD standard film RES - 1/4 W - 5 %
200 ppm/°CVishay
R106 3.9 KΩ 1206SMD standard film RES - 1/4 W - 5 %
200 ppm/°CVishay
R107 1.0 KΩ 0805SMD standard film RES - 1/8 W - 5 %
200 ppm/°CVishay
R108 160 KΩ 0805SMD standard film RES - 1/8 W - 1 %
100 ppm/°C Vishay
R109 56 KΩ 0805SMD standard film RES - 1/8 W - 1 %
100 ppm/°CVishay
EVL150W-HVSLBill of material
DB3398 - Rev 3 page 7/14
Ref. Value Case Description Supplier
R110 N.M. 0805 Not mounted
R111 1.0 KΩ 0805SMD standard film RES - 1/8 W - 5 %
200 ppm/°CVishay
R112 10 KΩ 0805SMD standard film RES - 1/8 W - 5 %
200 ppm/°CVishay
R113 25 KΩ 0805SMD standard film RES - 1/8 W - 1 %
100 ppm/°CVishay
R114 10 Ω 1206SMD standard film RES - 1/4 W - 5 %
250 ppm/°CVishay
R115 4.7 KΩ 0805SMD standard film RES - 1/8 W - 5 %
200 ppm/°CVishay
R116 3.0 KΩ 0805SMD standard film RES - 1/8 W - 1 %
100 ppm/°CVishay
R117 270 Ω 0805SMD standard film RES - 1/8 W - 5 %
250 ppm/°CVishay
R118 68 Ω 0805SMD standard film RES - 1/8 W - 1 %
100 ppm/°CVishay
R119 300 Ω 0805SMD standard film RES - 1/8 W - 5 %
250 ppm/°CVishay
R120 1.2 KΩ 0805SMD standard film RES - 1/8 W - 1 %
100 ppm/°CVishay
R121 3.6 KΩ 0805SMD standard film RES - 1/8 W - 1 %
100 ppm/°CVishay
R122 56 KΩ 0805SMD standard film RES - 1/8 W - 1 %
100 ppm/°CVishay
R123 N.M. 0805 Not mounted
R124 47 Ω 0805SMD standard film RES - 1/8 W - 5 %
250 ppm/°CVishay
R201 1.0 KΩ 0805SMD standard film RES - 1/8 W - 1 %
100 ppm/°CVishay
R202 22 Ω 0805SMD standard film RES - 1/8 W - 5 %
250 ppm/°CVishay
R203 10 KΩ 0805SMD standard film RES - 1/8 W - 1 %
100 ppm/°CVishay
R204 100 Ω 0805SMD standard film RES - 1/8 W - 5 %
250 ppm/°CVishay
R205 27 KΩ 0805SMD standard film RES - 1/8 W - 5 %
250 ppm/°CVishay
R206 N.M 0805 Not mounted
R207 27 KΩ 0805SMD standard film RES - 1/8 W - 1 %
100 ppm/°C Vishay
EVL150W-HVSLBill of material
DB3398 - Rev 3 page 8/14
Ref. Value Case Description Supplier
R208 180 KΩ 0805SMD standard film RES - 1/8 W - 1 %
100 ppm/°C Vishay
R209 18 KΩ 0805SMD standard film RES - 1/8 W - 1 %
100 ppm/°C Vishay
R210 20 KΩ 0805SMD standard film RES - 1/8 W - 1 %
100 ppm/°CVishay
R211 N.M 0805 Not mounted
R212 620 KΩ 0805SMD standard film RES - 1/8 W - 1 %
100 ppm/°CVishay
R213 0.0 Ω 0805SMD standard film RES - 1/8 W - 5 %
200 ppm/°CVishay
R214 0.0 Ω 0805SMD standard film RES - 1/8 W - 5 %
200 ppm/°CVishay
R215 12 KΩ 0805SMD standard film RES - 1/8 W - 1 %
100 ppm/°CVishay
R216 12 KΩ 0805SMD standard film RES - 1/8 W - 1 %
100 ppm/°CVishay
R217 200 KΩ 0805SMD standard film RES - 1/8 W - 1 %
100 ppm/°CVishay
R218 1.0 KΩ 0805SMD standard film RES - 1/8 W - 1 %
100 ppm/°CVishay
R325 180 KΩ 1206SMD standard film RES - 1/8 W - 5 %
250 ppm/°CVishay
RV1 300 Vacdiam. 15 x 5
p. 7.5 mm300V METAL OXIDE VARISTOR -B72214S0301K101 Epcos
T1 1860.0152 DWG Resonant transformer Magnetica
U1 TLVH431AIL3T SOT23-3L 1.24 V programmable shunt voltage reference STMicroelectronics
U2 SFH617A-2 DIP-4 - 10.16 mm Optocoupler Vishay
U3 SFH617A-2 DIP-4 - 10.16 mm Optocoupler Vishay
U6 TLVH431AIL3T SOT23-3L 1.24 V programmable shunt voltage reference STMicroelectronics
U101 STCMB1 SO20W TM PFC & LLC resonant Combo controller STMicroelectronics
U201 LM258AD SO-8 Low power dual OP AMP STMicroelectronics
U202 LM258AD SO-8 Low power dual OP AMP STMicroelectronics
Z1 PCB REV. 2.0 STCMB1 power board
Z101 PCB REV. 1.0 STCMB1 daughterboard
Z201 PCB REV. 1.0 CC control board
EVL150W-HVSLBill of material
DB3398 - Rev 3 page 9/14
Revision history
Table 2. Document revision history
Date Version Changes
04-Oct-2017 1 Initial release.
29-Mar-2019 2 Features and description update.
26-Feb-2020 3 Updated THD value in Section feature and description
EVL150W-HVSL
DB3398 - Rev 3 page 10/14
Contents
1 Electrical diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .2
2 Bill of material . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .3
Revision history . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .10
Contents . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .11
List of tables . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .12
List of figures. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .13
EVL150W-HVSLContents
DB3398 - Rev 3 page 11/14
List of tablesTable 1. EVL150W-HVSL Evaluation board: bill of material (Rev. 2.3) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3Table 2. Document revision history . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10
EVL150W-HVSLList of tables
DB3398 - Rev 3 page 12/14
List of figuresFigure 1. Electrical diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2
EVL150W-HVSLList of figures
DB3398 - Rev 3 page 13/14
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EVL150W-HVSL
DB3398 - Rev 3 page 14/14
