EVBUM2818/D 100 W TYPE-C PD3.0 PPS Charger Solution Evaluation Board
Product Information
Product Name: 100 W TYPE-C PD3.0 / PPS Charger
Solution Evaluation Board
User Manual: www.onsemi.com
Model Number: EVBUM2818/D
Specifications:
– onsemi’s Device: NCP1623ASNT1G
– Application: Smart phone, PAD
– NCP1343AMDCDBD1R2G and NB adapter
– NCP4307FASNT1G supporting FUSB15101 PD3.0/PPS protocol
– FCMT250N65S3, FCMT199N60/FDMS86180, NTTFS4C02NTAG
– Input Voltage: 90 Vac to 264 Vac
– Output Power: 100 W
– Topology: VSFF PFC Flyback
– I/O Isolation: Isolated (3 kV)
– Output Voltage: 5 V, 9 V, 12 V, 15 V, 20 V
– Nominal Current: 5 V / 3 A, 9 V / 3 A, 12 V / 3 A, 15 V / 3 A, 20
V / 5 A
– Max Current: 5 V / 3 A, 9 V / 3 A, 12 V / 3 A, 15 V / 3 A, 20 V /
5 A
– PD Output Specification: 5 V / 3 A, 9 V / 3 A, 12 V / 3 A, 15 V /
3 A, 20 V / 5 A
– PPS Output Specification: 3 V – 21 V, 5 A
– Avg. Efficiency: 92.3% & 92.9% @ 20 V 3.25 A, 115 & 230
Vac
– Ripple: N/A (not specified in the text)
– Standby Power: N/A (not specified in the text)
– Power Density: N/A (not specified in the text)
– Protection: N/A (not specified in the text)
– PCBA Size: N/A (not specified in the text)
Product Usage Instructions
This evaluation board user’s manual provides instructions for
using the 100 W TYPE-C PD3.0 / PPS Charger Solution Evaluation
Board. The board is designed for smart phone, PAD, and NB adapter
applications that support PD3.0/PPS protocol and require isolation
from the AC mains, while emphasizing low cost, high efficiency, and
low standby power consumption.
To use the evaluation board, follow these steps:
- Ensure that the input voltage is within the range of 90 Vac to
264 Vac. - Connect the appropriate load device (smart phone, PAD, or NB
adapter) to the output of the evaluation board. - Set the desired output voltage by selecting one of the
available options: 5 V, 9 V, 12 V, 15 V, or 20 V. - For PD output specification, choose the desired current rating
based on the requirements of the connected device: 5 V / 3 A, 9 V /
3 A, 12 V / 3 A, 15 V / 3 A, or 20 V / 5 A. - For PPS output specification, set the desired voltage within
the range of 3 V to 21 V and ensure a current rating of 5 A. - Refer to the user’s manual for any additional information on
protection features, PCBA size, power density, ripple, standby
power, and average efficiency.
For more detailed information and technical specifications,
please refer to the user’s manual available at www.onsemi.com.
EVAL BOARD USER’S MANUAL www.onsemi.com
100 W TYPE-C PD3.0 / PPS Charger Solution Evaluation Board User’s Manual
EVBUM2818/D
SPECIFICATION
onsemi’s Device
Application
NCP1623ASNT1G
Smart phone, PAD
NCP1343AMDCDBD1R2G and NB adapter
NCP4307FASNT1G
supporting
FUSB15101
PD3.0/PPS protocol
FCMT250N65S3
FCMT199N60/FDMS86180
NTTFS4C02NTAG
Input Voltage 90 Vac to 264 Vac
Output Power 100 W
Topology VSFF PFC Flyback
I/O Isolation Isolated (3 kV)
Output Voltage Nominal Current
Max Current
PD Output Specification 5 V, 9 V, 12 V, 15 V, 20 V 5 V / 3 A, 9 V / 3 A, 12 V / 3 A, 15 V / 3 A, 20 V / 5 A 5 V / 3 A, 9 V / 3 A, 12 V / 3 A, 15 V / 3 A, 20 V / 5 A
PPS Output Specification 3 V – 21 V 5 A 5 A
Avg. Efficiency
Ripple
Standby Power
Power Density
Protection
PCBA Size
CIRCUIT DESCRIPTION This evaluation board user’s manual describes a 100 W,
Type C interface, universal AC input, constant voltage power supply intended for smart phone, PAD and NB adaptor supporting PD3.0/PPS protocol, where isolation from the AC mains is required, and low cost, high efficiency, and low standby power are essential.
The featured power supply is a simple QR flyback topology utilizing onsemi’s NCP1623 VSFF PFC controller with 2 stage level, NCP1343 Multi-mode HF PWM controller with transient peak excursion power, NCP4307 synchronous rectified controller, onsemi’s FCMT199N60/ FCMT250N65/FDMS86180/NTTFS4C02 MOSFET. This evaluation board user’s manual provides the complete circuit schematic details, PCB and BOM for 100 W Type C Interface PD3.0 Power adapter solution which supports PD output (5 V / 3 A, 9 V / 3 A, 12 V / 3 A, 15 V / 3 A, 20 V / 5 A).
This design combined with onsemi’s FUSB15101 PD3.0/PPS protocol controller to provide PD3.0 and PPS
92.3% & 92.9% @ 20 V 3.25 A, 115 & 230 Vac
<60 mV
<50 mW @ 5 V & 230 Vac (No cable plug in)
1.46 W/cm3
Adaptive UVP, OVP, OVP, SCP, OTP
60 mm x 60 mm x 19 mm
functions. This design also proposes a dual auxiliary power supply to supply PWM controller, the PWM controller is supplied by high voltage auxiliary voltage at low output voltage and supplied by low voltage auxiliary voltage at high output voltage.
NCP1623 is next generation of NCP1622 PFC controller and compatible with NCP1622, it provides two stage level output and greatly improves the efficiency at low line. NCP1343 has same die as NCP1342, blank IC can be trimmed for NCP1342 or NCP1343, so it should have same reliability as NCP1342. NCP1343 provides a PEM mode with CCM operation and allows to use smaller capacitance for bulk CAP and minimize transformer value for transformer, it will save more size and cost than NCP1342 in a PFC plus PWM applications.
This design also uses NCP4307 synchronous rectified controller which eliminated external Vcc circuit at low output, it is also configured on high side or low side.
© Semiconductor Components Industries, LLC, 2022
1
January, 2022 – Rev. 0
Publication Order Number: EVBUM2818/D
EVBUM2818/D
KEY FEATURES & PERFORMANCES
· AC input from 90 V to 264 V · VSFF CRM PFC with 2 stage output voltage, 250 V at LL
and 390 V at HL
· HF CCM/CRM PWM with 2x PEM supports more power
transition without PFC working and 68uF PFC capacitor
· High Frequency Operation up to avg. 190 kHz at 264 Vac
& full load and easy to be changed to GaN solution
· Quite skip and Flyback DCM operation with frequency
foldback at no load & light load
· Output voltage 3.3 V – 21 V · Max Output power: 100 W
· Support PD3.0, PPS, BC1.2 etc. · Ripple & Noise: <60 mV · AVG efficiency: 92% at 115 Vac & 230 Vac · Full load efficiency: 92.3% & 92.9% at 115 Vac &
230 Vac and 20 V 3.25 A
· Output precise OVP · Output OCP, SCP · Open loop protection · Small size with compact design · PCBA size: 60 mm x 60 mm x 19 mm
BOARD PHOTOS
Figure 1. Profile of 100 W TYPE-C PD Adapter Solution
Figure 2. PFC Side View 1 of Demoboard
Figure 3. PWM Side View 1 of Demoboard
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PFC: 2 stage output 390 V above 163 Vac 250 V under 146 Vac
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CIRCUIT SCHEMATIC (PFC)
Figure 4. Circuit Schematic (PFC) www.onsemi.com 3
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CIRCUIT SCHEMATIC (PWM & PROTOCOL)
Figure 5. Circuit Schematic (PWM & Protocol) www.onsemi.com 4
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PCB
Figure 6. (Top), Top View of PCB
Figure 7. (Bottom), Bottom View of PCB
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PFC INDUCTOR SPECIFICATION
Figure 8. PFC Inductor Specification www.onsemi.com 6
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TRANSFORMER SPECIFICATION
Figure 9. Transformer Specification www.onsemi.com 7
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STANDBY POWER AT 5 V OUTPUT (CABLE UNPLUG) @ 90 Vac TO 264 Vac INPUT
(Test condition: all efficiency is tested at board end)
Figure 10. COC V5 TIER2 SPECIFICATION AND AVERAGE/LIGHT LOAD EFFICIENCY
(Test condition: all efficiency is tested at board end)
Figure 11. Avg Efficiency vs. COC V5 Tier2
Figure 12. 10% Efficiency vs. COC V5 Tier2
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EFFICIENCY VS. OUTPUT LOAD CURVES
(Test condition: all efficiency is tested at board end)
Figure 13. PD_5V Output
Figure 14. PD_9V Output
Figure 15. PD_12V Output
Figure 16. PD_15V Output
Figure 17. PD_20V Output
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PFC VALLEY SWITCHING
Figure 18. 115 Vac & 20 V 5 A (CH1: Vin-rect, CH2: Vds-pfc, CH3: Vcs_pfc)
Figure 19. 230 Vac & 20 V 5 A (CH1: Vin-rect, CH2: Vds-pfc)
INPUT CURRENT AT LL AND HL
Figure 20. 90 Vac & 20 V 5 A (CH1: Vin-rect, CH3: Iin)
Figure 21. 64 Vac & 20 V 5 A (CH1: Vin-rect, CH3: Iin)
PFC OPERATION WAVEFORM AT LL AND HL
Figure 22. 90 Vac & 20 V 5 A
(CH1: Vin-rect, CH2: Vds-pfc, CH3: Vcs-pfc, CH4: Vcc-pfc)
Figure 23. 264 Vac & 20 V 5 A
(CH1: Vin-rect, CH2: Vds-pfc, CH3: Vcs-pfc, CH4: Vcc-pfc)
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PFC LL TO HL AND HL TO LL CHANGE
Figure 24. 115 Vac to 230 Vac at 20 V 5 A
(CH1: Vin-rect, CH2: Vds-pfc, CH3: Vcs-pfc, CH4: Vcc-pfc)
Figure 25. 230 Vac to 115 Vac at 20 V 5 A
(CH1: Vin-rect, CH2: Vds-pfc, CH3: Vcs-pfc, CH4: Vcc-pfc)
PD VOLTAGE CHANGE
Figure 26. 115 Vac, No Load (CH1: Vds, CH4: Vo)
Figure 27. 115 Vac, 3 A Load (CH1: Vds, CH4: Vo)
PRIMARY AND SEC. FET STRESS AT 264 Vac & 20 V 5 A
Figure 28. (CH1: Vds, CH4: Vds-sec)
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SYN. DRIVE DURING LOAD TRANSITION AT 264 V
Figure 29. 264 Vac & 15 V, 0 to 3 A (CH3: Vds-sec, CH4: Vsyn-drv)
Figure 30. 264 Vac & 15 V, 3 A to 0 (CH3: Vds-sec, CH4: Vsyn-drv)
OUTPUT RIPPLE @ 90 Vac INPUT
Figure 31. 5 V 3 A Output (CH4: Vo)
Figure 32. 9 V 3 A Output (CH4: Vo)
Figure 33. 15 V 3 A Output (CH4: Vo)
Figure 34. 20 V 5 A Output (CH4: Vo)
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RIPPLE AT 90 Vac & 20 V 2.5 A (BEFORE PFC OPERATION)
Figure 35. 20 V Output (CH4: Vo) PWM OPERATION FREQUENCY AT FULL LOAD
Figure 36. 90 Vac and 20 V 5 A (CH1: Vds, CH3: Vsyn-drv)
Figure 37. 264 Vac and 20 V 5 A (CH1: Vds, CH3: Vsyn-drv)
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NCP1343 TRANSITION LOAD FROM 0 – 5 A AT 90 Vac & 20 V
Figure 38. (CH1: Vds_pwm, CH: Vcs_pwm, CH3: Vcc_pfc, CH4: Vsyn_drv)
Figure 39. (CH1: Vds_pwm, CH: Vcs_pwm, CH3: Vcc_pfc, CH4: Vsyn_drv)
Figure 40.
Figure 41.
PRI. & SEC. Vds AND SYNCHRONOUS DRIVE WAVEFORM
Figure 42. 90 Vac (CH1: Vds_sec, CH2: Vdrv)
Figure 43. 115 Vac (CH1: Vds_sec, CH2: Vdrv)
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SHORT CIRCUIT PROTECTION AND Tovld, Tauto-recovery TIME
Figure 44. (CH1: Vds-pwm, CH3: Vsec-ds, CH4: Vo)
Figure 45. (CH1: Vds-pwm, CH3: Vsec-ds, CH4: Vo)
PRIMARY AND SEC. FET STRESS DURING SCP
Figure 46. SCP at 264 Vac Input, 20 V 3.25 A Output (CH1: Vds_pwm, CH2: Vcs_pwm, CH3: Vds_sec, CH4: Vsyn_drv)
Figure 47. Startup at 264 Vac Input, 5 V 3 A Output (CH1: Vds_pwm, CH2: Vcs_pwm, CH3: Vds_sec,
CH4: Vsyn_drv)
OVP & X2 DISCHARGE TEST
Figure 48. OVP (Open Loop) at 115 Vac Input, 20 V Output
(CH1:Vds_pwm, CH2:Vcs_pwm, CH4: Vo)
Figure 49. Plug Out AC at 264 Vac Input, 20 V & No Load
(CH1: Vac, CH3: Vccl)
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Table 1. Input 90 Vac
EVBUM2818/D
THERMAL IMAGE @ 20 V 3.25 A OUTPUT
PFC Side
PWM Side
115 Vac
230 Vac 264 Vac
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EMI Test at 230 Vac & Full Load
EVBUM2818/D
EMI
Figure 50. Line
Figure 51. Neutral
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EMI Test at 115 Vac & Full Load
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Figure 52. Line
Figure 53. Neutral
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BOM
Table 2. BOM
Item Qty Reference
1
1
Q9
2
1
C45
3
1
C44
4
1
C37
5
2
C1, C5
Type NMOSFET Ceramic Capacitor Ceramic Capacitor Ceramic Capacitor Film Capacitor
6
2
C9, C33 Ceramic Capacitor
7
1
C8
Ceramic Capacitor
8
3 C26, C31, Ceramic Capacitor
C47
9
1
C52
Ceramic Capacitor
10 1
C12
Ceramic Capacitor
11 4
C39,
Ceramic Capacitor
C49-50, C70
12 1
C27
Ceramic Capacitor
13 1
C35
Ceramic Capacitor
14 1
C36
Ceramic Capacitor
15 1
C24
Ceramic Capacitor
16 1
C25
X2 Capacitor
17 1
C34
Ceramic Capacitor
18 1
C41
Ceramic Capacitor
19 2 C38, C69 Ceramic Capacitor
20 1
C6
Ceramic Capacitor
21 1
C40
Ceramic Capacitor
22 4 C2, C4, C29, Ceramic Capacitor C43
23 1
C3
Ceramic Capacitor
24 1
C10
Ceramic Capacitor
Part Name BSS123LT1G
Std /885012206120 /885012206073 ECWFD2W684Q
/885012206077 /885012206083 C3216X7T2W104K
MFR SOT23
603 603 603 THT, 10 mm, 13 mm x 6 mm x 12 mm 603 603 1206
/885012106018
603
/885012006085
603
/885012206076
603
C2012X7R1E106K
805
/885012206085
603
/885012106018
603
/885012206079
603
/890324024002
THT, 12.5 mm, 15 mm x 7 mm x 12 mm
/885012006053
603
/885012206091
603
/885012206083
603
Std
603
/885012206092
603
C1608X5R1E475K080AC
603
C3216C0G2J471J CD45-B2GA471K-NKA
1206 Lead type
Value onsemi
std Wurth Wurth Panasonic
Wurth Wurth TDK
Wurth Wurth Wurth
TDK Wurth Wurth Wurth Wurth
Wurth Wurth Wurth
Std Wurth TDK
TDK TDK
25 1
C68
Ceramic Capacitor
std
26 1
C20
Ceramic Capacitor
C2012X7S2A105K
27 1
C42
Ceramic Capacitor
Std
28 2
D2, D4
Bridge rectifier
Z4GP40MH
29 1
D9
Rectifier
S3J
30 1
DNR
Varistor
820573011
31 1
D22
Switching diode
BAS21HT1G
32 1
D7
Switching diode
BAS21HT1G
33 2 D16, D24
Switching diode
BAT54HT1G
34 1
D20
Switching diode
NSD350HT1G
35 1
D5
General rectifier
36 2
D12-13
General rectifier
37 4 D8, D17-18, Switching diode D23
4007 4007 BAS21HT1G
38 1
FB2
39 1
FB1
Ferrite bead Ferrite bead
742792511 PZ3225D601-3R0TFONL
40 1
L1
Common filter
Custom
41 1
L2
42 1
F1
Common filter Fuse
Custom 20T-016H
603 805 603 Z4PAK SMC TH SOD323 SOD323 SOD323 SOD323 SOD123FL SOD123FL SOD323
1812 1210 TH type TH type Axial lead
Wurth TDK Wurth ZOWIE onsemi Wurth onsemi onsemi onsemi onsemi std std onsemi
Wurth Shunlord Customed Customed Hollyfuse
Package 0.2 A, 100 V
0.1 mF 0.1 mF, 100 V
0.22 mF 0.68 mF, 450 V
100 pF 102
104, 450 V
2.2 mF, 16 V 1 nF, 100 V 1 mF, 25 V
10 mF, 25 V 2.2 mF 2.2 mF 220 pF 224, X2
22 pF 22 nF 330 pF 36 pF 33nF 4.7 mF, 25 V
470 pF, 630 V 470 pF, Y1
nc nc nc 4 A, 1000 V 3 A, 600 V 10D471K 0.2 A, 250 V 0.2 A, 250 V 0.2 A, 30 V 0.2 A, 350 V 0.8 A, 600 V 0.8 A, 600 V 0.2 A, 250 V
120 W @ 100 M, 3 A 600 W @ 100 M, 3 A
30 mH 18 mH 3.15 A, 250 Vac
Description NMOSFET Capacitor, Ceramic, 50 V, 10% Capacitor, Ceramic, 100 V, 10% Capacitor, Ceramic, 25 V, 10% Film capacitor
Capacitor, Ceramic, 50 V, 10% Capacitor, Ceramic, 50 V, 10% Capacitor, Ceramic, SMD, 5%
Capacitor, Ceramic, 16 V, 10% Capacitor, Ceramic, SMD, 5% Capacitor, Ceramic, 25 V, 10%
Capacitor, Ceramic, 25 V, 10% Capacitor, Ceramic, 50 V, 10% Capacitor, Ceramic, 16 V, 10% Capacitor, Ceramic, 50 V, 10% X2 capacitor, Safety standard approved, 10% Capacitor, Ceramic, 50 V, 10% Capacitor, Ceramic, 50 V, 10% Capacitor, Ceramic, 50 V, 10% Capacitor, Ceramic, 50 V, 10% Capacitor, Ceramic, 50 V, 10% Capacitor, Ceramic, 25 V, 10%
Capacitor, Ceramic, Chip, 5% HV Ceramic Capacitor, safety standard approved, 10% Capacitor, Ceramic, 50 V, 10% Capacitor, Ceramic, 100 V, 10% Capacitor, Ceramic, 50 V, 10% Bridge Rectifier, 1000 V, 4 A General Rectifier Varistor, 10D471K Switching diode, SMD Switching diode, SMD Switching diode, SMD Switching diode, SMD General Rectifier, 0.8 A, 600 V General Rectifier, 0.8 A, 600 V Switching diode, SMD
120 W @ 100 MHz 600 W @ 100 MHz T type, 8*4*3 NiZn core CM Filter, T14*8*7 MnZn core Micro Fuse, 1.6 A/250 V
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EVBUM2818/D
Table 2. BOM (continued)
Item Qty Reference
Type
43 1
Q7
NPN Transistor
44 1
Q13
PNP Transistor
45 1
D3
Ultrafast Rectifier
46 1
U5
PFC controller
Part Name MMBT3904LT1G MMBT3906LT1G MURD550PFG NCP1623ASNT1G
47 1
U3
48 1 49 1
50 1 51 2
U1 NTC1
NTC2-3 U4, U11
Syn. rectified controller
PWM controller
NTC
NCP4307FASNT1G
NCP1343AMDCDBD1R2G SDNT1608X104J4250HTF
NTC Optical coupler
SDNT1608X104J4250HTF FODM1009
52 1
L3
Toroidal Line Choke
7447021
53 1
L6
SMD Inductor
54 1
R11
Resistor
55 2 R48, R57
Resistor
56 1
R61
Resistor
57 3 R13, R32, R49
Resistor
58 1
R21
Resistor
59 4 R23, R38, R46, R66
Resistor
60 3 R3, R34, R36
Resistor
61 1
R8
Resistor
62 1
R60
Resistor
63 1
R33
Resistor
64 1
R65
Resistor
65 3 R39, R52, R56
Resistor
66 1
R9
Resistor
67 2 R27, R53
Resistor
68 1
R43
Resistor
69 1
R63
Resistor
70 1
R16
Resistor
71 1
R20
Resistor
72 2 R26, R28
Resistor
73 1
R30
Resistor
74 2 R47, R54
Resistor
75 1
R28
Resistor
76 1
R22
Resistor
77 1 78 2 79 2
R29 R50-51
R4-5
Resistor Resistor Resistor
80 1 81 2
R40 R1-2
Resistor Resistor
82 2
R7, R58
Resistor
83 2 R31, R35
Resistor
84 1 85 2
R12 R41-42
Resistor Resistor
86 1
R45
Resistor
MCL1608S4R7MT Std Std Std Std
Std Std
Std Std Std Std Std Std
Std Std Std Std Std Std Std Std Std Std Std Std ERJ8BQFR24V ERJ8BQFR56V std Std Std Std Std Std Std
MFR SOT23 SOT23 DPAK TSOP6
TSOP6
SO9 603
603 LSOP4
TH type
603 603 603 603 603
603 603
603 603 603 603 805 603
603 603 603 603 603 603 603 603 603 603 603 603 1206 1206 1206 1206 1206 1206 1206 1206 1206
Value onsemi onsemi onsemi onsemi
onsemi
onsemi Shunloard
Shunlord onsemi
Wurth
Shunlord Std Std Std Std
Std Std
Std Std Std Std Std Std
Std Std Std Std Std Std Std Std Std Std Std Std Panasonic Panasonic Std Std Std Std Std Std Std
Package
5 A, 520 V
100 k
nc
100 mH
4.7 mH 0 W 0 W 1 W
100 kW
10 kW 10 W
1 kW 2.4 kW 200 W 200 kW 30 W 22 kW
2 kW 270 kW 30 kW 300 kW 36 kW 390 kW 4,7 W 5.1 kW
47 W 47 kW 510 W
nc 0,24 W 0,56 W 1.6 MW 120 W 2.4 MW 2.7 kW 22 W 2 MW 390 kW
Description General NPN Transistor, SMD General PNP Transistor, SMD Ultrafast Rectifier, 5 A, 520 V 2 stage Follower/Boost PFC controller Syn. Controller
2x PEM CCM/QR controller NTC, 0603, replaced by 100 kW resistor NTC, 0603, no connect optical coupler, standard SOP package Toroidal Line Choke, 15.8 x 8.5, 2.5 A
Resistor, Chip, 1/10 W, 1% Resistor, Chip, 1/10 W, 1% Resistor, Chip, 1/10 W, 1% Resistor, Chip, 1/10 W, 1%
Resistor, Chip, 1/10 W, 1% Resistor, Chip, 1/10 W, 1%
Resistor, Chip, 1/10 W, 1% Resistor, Chip, 1/10 W, 1% Resistor, Chip, 1/10 W, 1% Resistor, Chip, 1/10 W, 1% Resistor, Chip, 1/8 W, 1% Resistor, Chip, 1/10 W, 1%
Resistor, Chip, 1/10 W, 1% Resistor, Chip, 1/10 W, 1% Resistor, Chip, 1/10 W, 1% Resistor, Chip, 1/10 W, 1% Resistor, Chip, 1/10 W, 1% Resistor, Chip, 1/10 W, 1% Resistor, Chip, 1/10 W, 1% Resistor, Chip, 1/10 W, 1% Resistor, Chip, 1/10 W, 1% Resistor, Chip, 1/10 W, 1% Resistor, Chip, 1/10 W, 1% Resistor, Chip, 1/10 W, 1%, Resistor, Chip, 1/2 W, 1% Resistor, Chip, 1/2 W, 1% Resistor, Chip, 1/4 W, 1% Resistor, Chip, 1/4 W, 1% Resistor, Chip, 1/4 W, 1% Resistor, Chip, 1/4 W, 1% Resistor, Chip, 1/4 W, 1% Resistor, Chip, 1/4 W, 1% Resistor, Chip, 1/4 W, 1%
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Table 2. BOM (continued)
Item Qty Reference
Type
87 1
R25
Resistor
88 1
T2
Transformer
Part Name ERJ8BQFR005V
Customed
89 1
T1
PFC Inductor
Customed
90 1
C46
Electrolytic capacitor
91 3 C13-14, C48 Electrolytic solid capacitor
KF Series PS681M025F080P
92 1
C32
Electrolytic
KL680M450J300A00H
electrolytic capacitor
93 1
Q1
MOSFET
FDMS86180
94 1
Q3
MOSFET
FCMT250N65S3
95 1
Q2
MOSFET
FCMT199N60
96 1
Q8
MOSFET
NTTFS4C02NT1G
97 1
J1
USB Type C connector
CUS31738616001
98 1
U10
PD Controller
FUSB15101
99 1
ZD2
Zener
MM3Z13VT1G
100 1 101 4
ZD1 ESD1-4
Zener ESD
MM3Z18VT1G SD05T1G
MFR 1206 TH type
TH type
6.3 mm x 11 mm 8 mm x 14 mm
18 mm x 30 mm
SO8FL Power88 Power88
u8FL SMD
DFN4X4 SOD323 SOD323 SOD323
Value Panasonic
Custom
Custom
CapXon CapXon
CapXon
onsemi onsemi onsemi onsemi CSCONN
onsemi onsemi onsemi onsemi
Package 5 mW
see specification 200 mH
22 mF, 100 V 680 mF, 25 V 68 mF, 450 V
13 V 18 V 5 V
Description Resistor, Chip, 1/2 W, 1% RM8, Ferroxcube 3C95, 6 Pin Bobbin RM8, Ferroxcube 3C95 core, 6 Pin Bobbin size: 6.3 mm x 11 mm size: 8 mm x 14 mm
size: 18 mm x 30 mm
MOSFET, NChan, 100 V MOSFET, NChan, 650 V MOSFET, NChan, 600 V MOSFET, NChan, 3.4 mW Type C connector, SMT
PD protocol controller GENERIC ZENER-DIODE GENERIC ZENER-DIODE ESD protection device
REFERENCES
onsemi datasheet for NCP1623, NCP1343, NCP4307, FUSB15101, FCMT199N60, FCMT250N65, FDMS86180, NTTFS4C02 onsemi Design Notes DN05043
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Intelligent Power and Sensing Technologies | onsemi
