Diodes Incorporated - Analog and Discrete Power Solutions
USBCEE
User Guide for DIODES INCORPORATED models including: 18W-C, 18W-C A, 18W-C Two Ports, 18W-C, Two Ports, Ports
1.1 General Description The 18W 1C 1A Evaluation Board exemplifies a dual-port charger adaptor design - 18W USB-C PD 3.0 port, 18W QC3.0 USB-A port, It also supports port-A trickle charge mode. It is composed of four main parts. AP39303 offers the Quasi-Resonant (QR) Flyback PWM switching. APR347 is a secondary side Synchronous Rectification (SR) Controller. AP43971, an PD3.0/QC4 decoder ...
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DocumentDocument1. 18W Two ports 1C+1A PD3.0 and QC3.0 d Adapter EVB1 User Guide Table of Contents Chapter 1. Summary ..................................... 2 Chapter 5. Input & Output Characteristics 13 1.1 General Description .................................... 2 5.1 Input Standby Power .................................13 1.2 Key Features ............................................... 2 1.2.1 System Key Features .......................................... 2 1.2.2 AP39303 Key Features ....................................... 2 1.2.3 APR347 Key Features ......................................... 2 1.2.4 AP43971 Key Features ....................................... 2 1.3 Applications................................................ 2 1.4 Main Power Specifications (CV & CC Mode) . 2 1.5 Evaluation Board Picture ............................. 2 Chapter 2. Power Supply Specification ....... 3 5.2 Output Voltage Regulation Performance Curve ..................................................................13 5.3 Efficiency vs. AC Line Input Voltage ............15 5.4 Efficiency vs. Output Load ..........................17 5.5 Average Efficiency at Different Loading ......18 5.5.1 Port-C Average Efficiency ................................. 18 5.5.2 Port-A Average Efficiency ................................. 19 5.6 PD3.0 & PPS Compatible Mode Testing.......20 5.6.1 CC Mode current limitation function testing ... 20 2.1 Specification and Test Results ..................... 3 2.2 Compliance................................................. 3 Chapter 3. Schematic .................................... 4 3.1 Schematic ................................................... 4 3.2 Bill of Material ............................................ 5 3.3 Transformer SPEC ....................................... 7 3.4 Schematics Description ............................... 8 3.4.1 Fuse, EMI Filter and Rectifier ............................. 8 3.4.2 AP39303 Quasi-Resonant PWM Switcher.......... 8 3.4.3 APR347 Synchronous Rectification (SR) Controller ......................................................................... 8 3.4.4 AP43971 PD3.0 and QC2.0/3.0 Decoder............ 8 5.7 Key Performance Waveforms .....................21 5.7.1 EVB System Start-up Time................................21 5.7.2 VDS_U1 & Q2 MOSFET VDS Stress .................... 21 5.7.3 Output Ripple & Noise ..................................... 22 5.7.4 Output Voltage Transition Time ....................... 23 5.7.5 EMI (Conduction) Testing ................................. 24 5.7.6 Thermal Testing................................................26 Chapter 6. Revision Control ....................... 27 6.1 Revision table ............................................27 3.5 Dual Port Power/Current Sharing Control Flowchart ............................................................... 9 Chapter 4. Evaluation Board Connections 10 4.1 Quick Start Guide Before Connection..........10 4.2 Connection with E-Load..............................11 4.3 QC2.0/3.0 Emulator connection..................12 18W 1C+1A PD3.0 and QC3.0 Adapter EVB1 User Guide Rev 1.0 Page 1 of 28 08/23/2019 www.diodes.com 1. 18W Two ports 1C+1A PD3.0 and QC3.0 d Adapter EVB1 User Guide Chapter 1. Summary 1.1 General Description The 18W 1C+1A Evaluation Board exemplifies a dual-port charger adaptor design - 18W_USB-C PD 3.0 port, 18W_QC3.0 USB-A port, It also supports port-A trickle charge mode. It is composed of four main parts. AP39303 offers the QuasiResonant (QR) Flyback PWM switching. APR347 is a secondary side Synchronous Rectification (SR) Controller. AP43971, an PD3.0/QC4+ decoder, handshakes with the sink device through the CC1/CC2 of Port-C or the D+/D- of Port-A and feedbacks voltage and current regulation information to primary side controller-AP39303 for providing regulation function. AZV831, low-bias current and low voltage operational amplifier, determines if Port-A is in trickle charge mode (<100mA). 1.2 Key Features 1.2.1 System Key Features SSR Topology Implementation with an Opto-coupler for Accurate Step Voltage Controlling USB Type-A Port supports the 18W QC2.0/3.0 mode function USB Type-C Port supports the 18W PD3 function and PPS 3.3V -11V@20mV/step Meets DOE VI and COC Tier 2 Efficiency Requirements <75mW No-Load Standby Power Low overall system BOM cost 1.2.2 AP39303 Key Features Quasi-Resonant (QR) operation/ Peak current mode control/ High-Voltage startup/ Soft Start Built-in 120V high voltage VCC LDO to guarantee wide range output voltage application (3.3V~20V, PPS) Built-in 700V high performance Power MOSFET Low VCC operating current reduces stand-by power (<30mW) Adaptive burst mode operation with output voltage Adaptive output power limit with output voltage Non-Audible-Noise Quasi-Resonant control Frequency fold back for high average efficiency Secondary winding short protection with FOCP Frequency dithering for reducing EMI VCC maintain mode Useful Pin fault protection: SENSE Pin floating and FB/Opto-Coupler Open/Short Comprehensive system protection feature: Programmable External OTP / OLP / BNO / SOVP / SUVP 1.2.3 APR347 Key Features Synchronous Rectification Works with DCM/ QR Flyback Eliminate Resonant Ringing Interference Fewest External Components used 1.3 Applications 18W Dual Port (Port-A/QC3.0 and Port-C/PD3) Wall Charger Adaptor 1.4 Main Power Specifications (CV & CC Mode) Parameter Value Input Voltage Input standby power 90VAC to 264VAC < 75mW Only Port-C Fix PPS 18W PD3.0 PDO_5V/3A, 9V2A, 12V1.5A 20mV step voltage, 3.3V-5.9V/3A, 3.3V-11V/2A Only Port-A QC2.0 QC3.0 18W QC2.0 (5V3A, 9V2A, 12V1.5A), & QC3.0 Continuous mode 200mV, 3.6V12V Port-A + Port-C Port-A: DCP 5V/1.5A Port-C: 5V/2A Efficiency Comply with CoC version 5 tier-2 Total Output Power 18W / 22W at PPS Protections OCP, OVP, UVP, OLP, OTP Dimension 35mm x 48mm x 20mm 1.5 Evaluation Board Picture EVB Top View 1.2.4 AP43971 Key Features Compatible with QC4/QC4+ Protocol Support USB PD 3.0 Version 1.2 including PPS (Programmable Power Supply) Mode OTP (One-Time-Programmable) for main firmware MTP (Multi-Time-Programmable) for system configuration 18W 1C+1A PD3.0 and QC3.0 Adapter EVB1 User Guide Rev 1.0 Page 2 of 28 EVB Bottom View 08/23/2019 www.diodes.com 1. 18W Two ports 1C+1A PD3.0 and QC3.0 d Adapter EVB1 User Guide Chapter 2. Power Supply Specification 2.1 Specification and Test Results Parameter Input Voltage / Frequency Input Current Standby Power 5V/3A Average Efficiency 5V/0.3A Efficiency (10% Load) 9V/2A Average Efficiency 9V/0.2A Efficiency (10% Load) 12V/1.5A Average Efficiency 12V/0.15A Efficiency (10% Load) Output Voltage Regulation Tolerance 5V PPS 9V PPS Conducted EMI Radiated EMI Value 90VAC to 264VAC / 47Hz to 63Hz <0.5ARMS at 100VAC <75mW; load disconnected DoE VI Efficiency >81.39% CoC Version 5, Tier2 Efficiency >81.84% CoC Version 5, Tier2 Efficiency >72.48% DoE VI Efficiency >85.00% CoC Version 5, Tier2 Efficiency >85.45% CoC Version 5, Tier2 Efficiency >75.45% DoE VI Efficiency >85.00% CoC Version 5, Tier2 Efficiency >85.45% CoC Version 5, Tier2 Efficiency >75.45% +/- 5% 3.3V 5.9V +/- 5%, 0~3A +/-150mA 3.3V 11V +/- 5%, 0~2A +/-150mA >6dB Margin; according to EN55032 Class B >6dB Margin; according to EN55032 Class B Test Summary Test Condition PASS, 56.3mW@115VAC/60Hz 45.5mW@230VAC/60Hz PASS, 88.19%@115VAC/60Hz 87.56%@230VAC/50Hz PASS, 84.26%@115VAC/60Hz 81.39%@230VAC/50Hz PASS, 89.03%@115VAC/60Hz 88.27%@230VAC/50Hz PASS, 81.88%@115VAC/60Hz 80.71%@230VAC/50Hz PASS, 88.66%@115VAC/60Hz 88.06%@230VAC/50Hz PASS, 79.30%@115VAC/60Hz 78.35%@230VAC/50Hz PASS, PASS, PASS, 2.2 Compliance Parameter Output Connector Stress Dimensions W/D/H Value USB2.0 Type-A USB Type-C <90% 35 x 48 x 20 (mm) Summary 18W 1C+1A PD3.0 and QC3.0 Adapter EVB1 User Guide Rev 1.0 Page 3 of 28 08/23/2019 www.diodes.com 08/23/2019 www.diodes.co m 2 16 S 15 GND 14 SENSE 13 VCC_IN D4 4 12 DEM 11 VCC CTRL 10 FB 18W Two ports 1C+1A PD3.0 and QC3.0 Adapter EVB1 User Guide L1 T6*3*3 6Ts 1 2 4 3 F1 T2.0AL/250V 1 2 3 4 ACIN CN1 2 BD1 MSB12M 4 3 ~ -+ 1 ~ L2 DR6*8-300uH NP:75Ts / Ns:8Ts / NA:22Ts HV_IN_TR 1 10 ISENP C4 R2 470PF/1KV 200K/1206 + C1 + C2 R1 C3 15uF 15uF 10nF/1206 20K/1206 3 T1 EE16-10 R21 51R 9 C21 470PF/1KV + C20 680uF R3 51R U1 AP39303 HV 8 NC 6 D5 5 D3 3 D2 2 D1 1 D3 RS1MWF AUX+ 6 GND DRISR 6 3 VDET Q2 DMT10h009LSS U2 APR347 VCC 4 1 AREF VDD 5 C23 C24 R30 10mR/1206 VBUS_A U5 1 VIN VOUT 5 3 EN 2 ADJ/NC GND 4 C51 10uF/6.3V AP2210K-5.0TRG1 Q50 DMP3007SCG R55 51R/1206 R53 100K Q51 2N7002 GPIO1 R54 100K Page 4 of 28 9 AUX+ D5 RS1MWF R4 200K/1206 + C5 C6 10uF/50V 100nF/50V R5 12K RT2 NC C7 C8 10uF/50V 1nF CN51A 4 1 3 2 VBUS_ HOLE C62 100nF 1 R8 510R C22 4.7uF/10V 100nF 22nF 7 R22 30K GPIO2 Q52 2N7002 R56 100K C9 R7 R6 220PF 1R8 1R8 4 1 R33 C36 1K 47nF U6 EL1019 R34 NC 2 3 CN60 Type C Receptacle ISENP CY2 470pF VBUS_C ISENP 7 VCC/ISENN 3 MOS_D 5 NC 4 NC 2 VBUS 1 C30 4.7uF/16V CC1 16 6 GND U3 CC2 15 AP43971_TSSOP-20 ID 14 DP(+) 18 20 NC DN(-) 17 OTP/GPIO_TS 11 8 OCDRV GPIO1 10 GPIO2 9 CC1 CC2 GPIO1 GPIO2 R57 20R R58 20R V5V VBUS_A 4 VBUS_A TVS4 TVS3 NC NC DN 3 DDP 2 D+ 1 A_GND A_GND CN50 USB 2.0 A-Ty pe Dev ice C41 R48 10M 4.7nF R46 R45 60mR 60mR 18W 1C+1A PD3.0 and QC3.0 Adapter EVB1 User Guide Rev 1.0 13 IFB 12 VFB 19 V5V 1 . d Chapter 3. Schematic 3.1 Schematic To Power Board TVS2 TVS1 NC NC Type-C Board A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 GND TX1+ TX1VOUT CC1 D+ DSBU1 VOUT RX2RX2+ GND GND RX2+ RX2VOUT SBU1 DD+ CC2 VOUT TX1TX1+ GND B12 B11 B10 B9 B8 B7 B6 B5 B4 B3 B2 B1 V5V R42 10K D41 1N4148 C34 NC C35 4.7nF R32 NC C32 22nF C33 NC R31 1K C31 10uF/10V C40 100nF U4 AZV831 5 VCC R41 R47 1M 4.7M OUT 1 3 IN+ R43 1K GND IN- 4 2 R44 200R C39 100PF CN51 VBUS_C 1 4 CC2 2 3 CC1 To Ty peC Daughter Board 1. 18W Two ports 1C+1A PD3.0 and QC3.0 d Adapter EVB1 User Guide 3.2 Bill of Material Item Quantity Designator 1 1 U1 2 1 U2 3 1 U3 4 1 U4 5 1 U5 6 1 Q50 7 1 BD1 8 1 Q2 9 2 Q52,Q51 10 2 D3,D5 11 1 D41 12 1 U6 13 1 C8 14 1 C9 15 2 C22,C32 16 1 C23 17 3 C6,C24,C40 18 1 C30 19 2 C35,C41 20 1 C36 21 1 C39 22 1 C51 23 1 C31 24 1 C7 25 1 C3 26 2 C4,C21 27 2 C1,C2 28 1 C5 29 1 C20 30 1 CY2 31 1 R1 32 1 R2 33 1 R3 34 1 R4 35 1 R5 36 2 R7,R6 37 1 R8 38 1 R21 39 1 R22 40 1 R30 41 3 R31,R33,R43 42 1 R41 43 1 R47 44 1 R42 45 1 R44 46 2 R45,R46 47 1 R48 48 3 R53,R54,R56 49 1 R55 50 2 R58,R57 Description AP39303, QR PWM Switcher APR347, SR Controller AP43971_20L, Decoder AZV831, Comparator AP2210K-5.0TRG1 DMP3007SCG, 30V P-MosFET MSB12M, Bridge Rectifier Diode DMT10H009LSS, 100V N-MosFET 2N7002/SOT23 RS1MWF/SOD123 1N4148/SOD323 LTV1009TP-G (CTR-200/400) 1nF/50V/X7R/0603 220PF/50V/NPO/0603 22nF/50V/X7R/0603 4.7uF/50V/X7R/0603 100nF/50V/X7R/0603 4.7uF/16V/X7R/0603 4.7nF/50V/X7R/0603 47nF/50V/X7R/0603 100PF/50V/X7R/0603 2.2uF/50V/X5R/0603 10uF/10V 10uF/50V/1206 10nF/1KV/1206 470PF/1KV/1206 15uF/400V/10*16 10uF/50V/5*11 680uF/16V/8*12/Polymer CAP 470pF/Y1-CAP 20K/5%/1206 200K/5%/1206 51R/5%/0805 200K/1%/1206 12K/1%/0603 1R5/1%/1206 510R/1%/0603 51R/5%/1206 30K/1%/0603 10mR/1%/1206 (Low TCR) 1K/1%/0603 1M/1%/0603 4.7M/1%/0603 10K/1%/0603 200R/1%/0603 60mR/1%/1206 10M/1%/0603 100K/5%/0603 51R/5%/1206 20R/5%/0603 Manufacturer Part Number AP39303S16-13 APR347 AP43971_20L AZV831KTR-G1 AP2210K-5.0TRG1 DMP3007SCGQ-13 MSB12M-13 DMT10H009LSS-13 2N7002-13-F RS1MWF-7 1N4148WS-13-F LTV-1009TP1-G Manufacturer Diodes Diodes Diodes Diodes Diodes Diodes Diodes Diodes Diodes Diodes Diodes Lite-On SMB12A1FR010T SART 18W 1C+1A PD3.0 and QC3.0 Adapter EVB1 User Guide Rev 1.0 Page 5 of 28 08/23/2019 www.diodes.com 1. 18W Two ports 1C+1A PD3.0 and QC3.0 d Adapter EVB1 User Guide Item Quantity Designator Description 51 1 F1 T2.0AL/250V 52 1 T1 EE16-10 - 750uH_NP:NS:NA=75:8:22 53 1 L1 T6*3*3 6Ts 54 1 L2 DR6*8-300uH 55 1 CN50 USB 2.0 A-Type Device 56 2 TVS3,TVS4 NC 57 5 RT2,R32,C33,R34,C34 NC Manufacturer Part Number Manufacturer Type-C Connector Daughter Board Item 1 2 3 Quantity 1 1 2 Designator CN60 C62 TVS2,TVS1 Description Type C Connector 100nF/50V/0603 NC Note: Current sense resistor (R30) should use the Low TCR type resistor. Manufacturer Part Number UT13513-1180A-7H Manufacturer Foxconn 18W 1C+1A PD3.0 and QC3.0 Adapter EVB1 User Guide Rev 1.0 Page 6 of 28 08/23/2019 www.diodes.com 1. 18W Two ports 1C+1A PD3.0 and QC3.0 d Adapter EVB1 User Guide 3.3 Transformer SPEC Circuit Cross sectional view Primary 1 WD5 1 WD6 2 WD1 3 6 WD2 7 WD3 7 Secondary FL1 WD4 FL2 Start Teflon Tube Black Teflon Tube 3Ts OVER CORE 2Ts WD6 1T WD5 2Ts WD4 1T WD2+WD3 1T WWDD11 BOBBIN Definition WD1 WD2 WD3 WD4 WD5 WD6 Pin define (Start >> End) 3 >> 2 6 >> 7 7 >> Null FL1 >> FL2 1 >> Null 2 >> 1 Wire (Diameter) 2UEW-B 0.27mm x 1P 2UEW-B 0.15mm x 1P 2UEW-B 0.15mm x 1P Triple wire-B 0.70mm x 1P 2UEW-B 0.20mm x 1P 2UEW-B 0.27mm x 1P OVER CORE Turn (Ts) 52 22 22 8 15 23 Layers 2 1 1 1 1 Layers of Tape 1Ts 1Ts 2Ts 1Ts 2Ts 3Ts Item Primary Inductance Test Condition Pin 3-1,all other windings open, measured at 20kHz / 1V Rating 750uH+/- 5% 18W 1C+1A PD3.0 and QC3.0 Adapter EVB1 User Guide Rev 1.0 Page 7 of 28 08/23/2019 www.diodes.com 1. 18W Two ports 1C+1A PD3.0 and QC3.0 d Adapter EVB1 User Guide 3.4 Schematics Description 3.4.1 Fuse, EMI Filter and Rectifier The Fuse F1 protects against over-current conditions which occur when some main components failed. The L2 is a common mode choke for the common mode noise suppression. The BD1 is a rectifier which converts alternating current and voltage into direct current and voltage. The C2, L1, C3 are composed of the Pi filter for filtering the differential switching noise back to AC source. 3.4.2 AP39303 Quasi-Resonant PWM Switcher AP39303 is a highly integrated power switcher with a built-in Quasi-Resonant (QR) PWM controller and a 700V high performance Power MOSFET. With its high-voltage start-up circuitry, AP39303 provides an excellent green power solution. It also integrates a 120V VCC LDO circuitry and allows a wide voltage range of VCC_IN. This makes it a great choice in wide output voltage range application such as PD and QC. 3.4.3 APR347 Synchronous Rectification (SR) Controller As a high performance solution, APR347 is a secondary side SR controller to effectively reduce the secondary side rectifier power dissipation which works in DCM operation. 3.4.4 AP43971 PD3.0 and QC2.0/3.0 Decoder The following pins provide critical protocol decoding and regulation functions in AP43971: 1) CC1 & CC2 (Pin 11, 10): CC1 & CC2 (Configuration Channel 1 & 2) are defined by USB PD spec to provide the channel communication link between power source and sink devices. The CC1& CC2 connected to Port-C and to perform PD3.0 power profile function. 2) D+ & D- (Pin 13, 12): While defined under USB PD for data transfer only, D+ and D- are used in QC4+ to provide voltage information and backward compatibility with QC2.0 and QC3.0 devices. The D+ & D- connected to Port-A and to perform QC2.0/QC3.0 power profile function. 3) Constant Voltage (CV): The CV is implemented by sensing VCC (pin 3) via built-in resistor divider and compared with internal reference voltage. The output voltages can be adjusted by firmware programming. 4) Constant Current (CC): The CC is implemented by sensing the current sense resistor (R30, 10m, 1%, Low TCR) and compared with internal programmable reference voltage. The output current can be adjusted by firmware programming. 5) Loop Compensation: C32, R31 & C33 form the voltage loop compensation circuit, and C35, R32 & C34 form the current loop compensation circuit. 6) OCDRV (Pin 5): It is the key interface link from secondary decoder (AP43971) to primary regulation circuit (AP39303). It is connected to Opto-coupler U6 Pin 2 (Cathode) for feedback information based on all sensed CC1 & CC2, D+ & D- voltage status for getting desired VBUS voltage & current. 7) GPIO1: The pin is used to turn on the MOSFET_Q50 to bypass the LDO (U5), when Port-A output current is greater than 100mA. 8) GPIO2: The pin is used to turn on the MOSFET_Q52 to enable Port-A discharge function. 9) GPIO-TS: The pin connected to current sensing circuit output (U4_pin#1) to detection the Port-A output current. When Port-A output current greater than 100mA, the GPIO-TS is LOW, the Q50 turns on to bypass LDO_U5. The adapter exits 100mA trickle-charge mode and Port-A is capable of providing current greater than 100mA. 18W 1C+1A PD3.0 and QC3.0 Adapter EVB1 User Guide Rev 1.0 Page 8 of 28 08/23/2019 www.diodes.com 1. 18W Two ports 1C+1A PD3.0 and QC3.0 d Adapter EVB1 User Guide 3.5 Dual Port Power/Current Sharing Control Flowchart After AC power plugged in, the adapter starts up and enters into default "Port-A 5V State". In this state, the adapter can provide 5V output to Port-A with less than 1.5A capability, while Port-C is disabled. The adapter remains in this mode until either Port-A handshake through D+/D- for QC or Port-C handshake through CC1/CC2 for PD occurs. If Port-A for QC mode request passes, the adapter enters into "Port-A QC State" and provides up to 18W for QC2.0 or QC3.0 operation through Port-A. If Port-C for PD mode request passes, the adapter further checks if Port-A consumes more than 100mA of current. If so, the adapter enters into "Port-A-andC state" and provides only 5V to both Port-A with 1.5A and Port-C with 2.0A. Otherwise, the adapter enters in to "Port-C State" and provides up to 18W for PD3.0 operation through Port-C and 5V@100mA for trickle charge through Port-A. The adapter will follow the mode operation described in the flowchart for operation mode change. Detection of Port-A load is executed by sensing current drawn from Type A receptacle (A_GND pin). Once Port-A output current is greater than 100mA, AZV831 comparator pulls GPIO_TS pin LOW to notify the embedded MCU of AP43971_20L for proper operation mode change. Start Port-A 5V State Port-A In 5V DCP Mode, 1.5A Max Port-C: Disabled Port-C State Port-C Power Profile: 22W Max, 5V@3A, 9V@2A, 12V@1.5A, 5VPPS@3A, 9VPPS@2A Port-A In 5V Trickle Charge, 100mA Max Port-A current >100mA Yes (TS==0) No No Type-C Detached (CC1 CC2 Handshaking) Yes Type-A Attached Yes (D+ D- Handshaking) No Type-C Attached No (CC1 CC2 Handshaking) Yes No Port-A current >100mA (TS==0) Yes Port-A-and-C State Port-C Power Profile: 5V@2A Port-A Power Profile: 5V@1.5A Yes Port-A current <100mA (TS==1) No Type-C Detached No (CC1 CC2 Handshaking) Yes 18W 1C+1A PD3.0 and QC3.0 Adapter EVB1 User Guide Rev 1.0 Page 9 of 28 Port-A QC State Port-C: Disabled Port-A Power Profile: 18W Max; QC2: 5V@3A, 9V@2A, 12V@1.5A; QC3: Continuous Mode Yes Type-C Attached (CC1 CC2 Handshaking) No Type-A Detached No (D+ D- Handshaking) Yes 08/23/2019 www.diodes.com 1. 18W Two ports 1C+1A PD3.0 and QC3.0 d Adapter EVB1 User Guide Chapter 4. Evaluation Board Connections 4.1 Quick Start Guide Before Connection 1) Before starting the EVB test, the end user needs to prepare the following tool, software and manuals. For details, please contact Canyon Semiconductor local sales for further information. o USBCEE PD3.0 Test Kit: USBCEE Power Adapter Tester. https://www.usbcee.com/product-details/4 USBCEE PAT Tester GUI Display 2) Prepare a certified Type-C cable and a Standard-A to Micro-B Cable. 3) Connect the input AC L & N wires to AC power supply output "L and N "wires. 4) Ensure that the AC source is switched OFF or disconnected before the connection steps. 5) Use a type-C cable for the connection between EVB to Tester. 6) Apply E-load at the terminal "JP1" on tester which indicated in figure below. 7) A Standard-A to Micro-B cable to be connected to the Cypress test kit's Micro-B receptacle & PC Standard-A receptacle respectively. Type-C Input port to Test Kit Mini USB port to computer The Test Kit Input & Output and E-load Connections 18W 1C+1A PD3.0 and QC3.0 Adapter EVB1 User Guide Rev 1.0 Page 10 of 28 08/23/2019 www.diodes.com 1. d 4.2 Connection with E-Load 18W Two ports 1C+1A PD3.0 and QC3.0 Adapter EVB1 User Guide Diagram of Connections in the Sample Board AC Input 18W C+A EVB PD3.0 Emulator Test Kit (USBCEE) Type-C Cable Micro-B Cable Connector to PC To DC Load Wire Connection of Port-C of 18W EVB to Test Kit and PC Computer 18W 1C+1A PD3.0 and QC3.0 Adapter EVB1 User Guide Rev 1.0 Page 11 of 28 08/23/2019 www.diodes.com 1. 18W Two ports 1C+1A PD3.0 and QC3.0 d Adapter EVB1 User Guide 4.3 QC2.0/3.0 Emulator connection Or using the QC2.0/QC3.0 emulator test Kit to testing the QC2.0 & QC3.0 functions, see the connection the between testing sample board to DC load by mean of a USB-C to USB A converting cable. 18W C+A EVB AC INPUT QC2.0/3.0 Emulator Test Kit To DC Load Port-A Connected to QC2.0/3.0 Test Kit QC2.0/3.0 Emulator Test Kit 18W 1C+1A PD3.0 and QC3.0 Adapter EVB1 User Guide Rev 1.0 Page 12 of 28 08/23/2019 www.diodes.com 1. 18W Two ports 1C+1A PD3.0 and QC3.0 d Adapter EVB1 User Guide Chapter 5. Input & Output Characteristics 5.1 Input Standby Power VIN 90VAC/47Hz 115VAC/60Hz 230VAC/50Hz 264VAC/63Hz VOUT 5.14V 5.14V 5.14V 5.14V PIN 41.8mW 56.3mW 45.5mW 48.4mW 5.2 Output Voltage Regulation Performance Curve Port-C PDO 5V/3A Line Regulation (At the Board) VIN 90VAC/47Hz 115VAC/60Hz 230VAC/50Hz 264VAC/63Hz VOUT_100% 5.19V 5.19V 5.20V 5.20V VOUT_75% 5.18V 5.18V 5.18V 5.18V VOUT_50% 5.17V 5.17V 5.17V 5.17V VOUT_25% 5.14V 5.15V 5.15V 5.15V Port-A QC2.0-5V/3A Line Regulation (At the Board) VIN 90VAC/47Hz 115VAC/60Hz 230VAC/50Hz 264VAC/63Hz VOUT_100% 5.05V 5.05V 5.06V 5.06V VOUT_75% 5.07V 5.07V 5.06V 5.06V VOUT_50% 5.07V 5.07V 5.07V 5.08V VOUT_25% 5.08V 5.08V 5.08V 5.08V Output Voltage (V) Output Voltage (V) 5VPDO Line Regulation (At the Board) 5.3 5.2 5.1 5.0 4.9 90 100% Load 50% Load 75% Load 25% Load 120 150 180 210 240 270 INPUT Voltage (VAC) QC2.0-5V Line Regulation (At the Board) 5.3 5.2 5.1 5.0 4.9 90 100% Load 50% Load 75% Load 25% Load 120 150 180 210 240 270 INPUT Voltage (VAC) 18W 1C+1A PD3.0 and QC3.0 Adapter EVB1 User Guide Rev 1.0 Page 13 of 28 08/23/2019 www.diodes.com 1. 18W Two ports 1C+1A PD3.0 and QC3.0 d Adapter EVB1 User Guide Port-C PDO 9V/2A Line Regulation (At the Board) VIN 90VAC/47Hz 115VAC/60Hz 230VAC/50Hz 264VAC/63Hz VOUT_100% 9.07V 9.06V 9.06V 9.06V VOUT_75% 9.07V 9.06V 9.06V 9.07V VOUT_50% 9.07V 9.06V 9.07V 9.07V VOUT_25% 9.07V 9.07V 9.07V 9.07V Port-A QC2.0-9V/2A Line Regulation (At the Board) VIN 90VAC/47Hz 115VAC/60Hz 230VAC/50Hz 264VAC/63Hz VOUT_100% 8.93V 8.94V 8.94V 8.94V VOUT_75% 8.94V 8.94V 8.94V 8.94V VOUT_50% 8.95V 8.95V 8.95V 8.95V VOUT_25% 8.95V 8.95V 8.95V 8.95V Output Voltage (V) 9VPDO Line Regulation (At the Board) 9.2 9.1 9.0 8.9 8.8 90 100% Load 50% Load 75% Load 25% Load 120 150 180 210 240 270 INPUT Voltage (VAC) Output Voltage (V) QC2.0- 9V Line Regulation (At the Board) 9.2 9.1 9.0 8.9 8.8 90 100% Load 50% Load 75% Load 25% Load 120 150 180 210 240 270 INPUT Voltage (VAC) Port-C PDO 12V/1.5A Line Regulation (At the Board) VIN 90VAC/47Hz 115VAC/60Hz 230VAC/50Hz 264VAC/63Hz VOUT_100% 12.08V 12.08V 12.08V 12.08V VOUT_75% 12.07V 12.07V 12.07V 12.07V VOUT_50% 12.06V 12.06V 12.06V 12.06V VOUT_25% 12.05V 12.05V 12.05V 12.05V Port-A QC2.0-12V/1.5A Line Regulation (At the Board) VIN 90VAC/47Hz 115VAC/60Hz 230VAC/50Hz 264VAC/63Hz VOUT_100% 11.88V 11.88V 11.88V 11.88V VOUT_75% 11.88V 11.88V 11.88V 11.88V VOUT_50% 11.89V 11.88V 11.88V 11.88V VOUT_25% 11.89V 11.89V 11.89V 11.89V Output Voltage (V) 9VPDO Line Regulation (At the Board) 9.2 9.1 9.0 8.9 8.8 90 100% Load 50% Load 75% Load 25% Load 120 150 180 210 240 270 INPUT Voltage (VAC) Output Voltage (V) QC2.0- 9V Line Regulation (At the Board) 9.2 9.1 9.0 8.9 8.8 90 100% Load 50% Load 75% Load 25% Load 120 150 180 210 240 270 INPUT Voltage (VAC) 18W 1C+1A PD3.0 and QC3.0 Adapter EVB1 User Guide Rev 1.0 Page 14 of 28 08/23/2019 www.diodes.com 1. 18W Two ports 1C+1A PD3.0 and QC3.0 d Adapter EVB1 User Guide 5.3 Efficiency vs. AC Line Input Voltage Port-C Efficiency (At the Board) VIN 90VAC/60Hz 110VAC/60Hz 230VAC/50Hz 264VAC/50Hz VOUT 5.19V 5.14V 5.19V 5.14V 5.20V 5.14V 5.20V 5.15V IOUT PIN 3.00 18.24 W 0.30 1.79 W 3.00 17.90 W 0.30 1.83 W 3.00 17.72 W 0.30 1.89 W 3.00 17.80 W 0.30 1.93 W Efficiency 85.4% 86.3% 87.1% 84.3% 88.1% 81.4% 87.5% 79.7% Efficiency (%) PD_5V Efficiency (At the Board) 95 90 85 80 75 70 90 5V/3A 5V/0.3A 120 150 180 210 240 270 Input Voltage (VAC) Port-A QC2.0_5V Efficiency (At the Board) VIN 90VAC/60Hz 110VAC/60Hz 230VAC/50Hz 264VAC/50Hz VOUT 5.05V 5.09V 5.05V 5.09V 5.06V 5.09V 5.06V 5.09V IOUT PIN Efficiency 3.00 18.05 W 83.9% 0.30 1.77 W 86.2% 3.00 17.69 W 85.7% 0.30 1.79 W 85.0% 3.00 17.56 W 0.30 1.87 W 3.00 17.64 W 0.30 1.91 W 86.3% 81.5% 85.9% 79.7% Efficiency (%) QC_5V Efficiency (At the Board) 95 90 85 80 75 70 90 5V/3A 5V/0.3A 120 150 180 210 240 270 Input Voltage (VAC) VIN 90VAC/60Hz 110VAC/60Hz 230VAC/50Hz 264VAC/50Hz Port-C Efficiency (At the Board) VOUT 9.08V 9.04V 9.08V 9.04V 9.08V 9.04V 9.08V 9.04V IOUT PIN 2.00 20.73 W 0.20 2.15 W 2.00 20.34 W 0.20 2.22 W 2.00 20.33 W 0.20 2.26 W 2.00 20.44 W 0.20 2.29 W Efficiency 87.6% 84.3% 89.3% 81.9% 89.3% 80.7% 88.9% 79.3% Efficiency (%) PD_9V Efficiency (At the Board) 95 90 85 80 75 70 90 9V/2A 9V/0.2A 120 150 180 210 240 270 Input Voltage (VAC) VIN 90VAC/60Hz 110VAC/60Hz 230VAC/50Hz 264VAC/50Hz Port-A QC_9V Efficiency (At the Board) VOUT 8.93V 8.95V 8.94V 8.96V 8.94V 8.96V 8.94V 8.96V IOUT 2.00 0.20 2.00 0.20 2.00 0.20 2.00 0.20 PIN 20.41 W 2.11 W 20.11 W 2.17 W 20.08 W 2.21 W 20.19 W 2.25 W Efficiency 87.5% 84.4% 88.8% 82.5% 88.9% 80.7% 88.5% 79.3% Efficiency (%) QC_9V Efficiency (At the Board) 95 90 85 80 75 70 90 9V/2A 9V/0.2A 120 150 180 210 240 270 Input Voltage (VAC) Port-C Efficiency (At the Board) 18W 1C+1A PD3.0 and QC3.0 Adapter EVB1 User Guide Rev 1.0 Port-A QC_12V Efficiency (At the Board) Page 15 of 28 08/23/2019 www.diodes.com 1. 18W Two ports 1C+1A PD3.0 and QC3.0 d Adapter EVB1 User Guide Efficiency (%) Efficiency (%) VIN 90VAC/60Hz 110VAC/60Hz 230VAC/50Hz 264VAC/50Hz VOUT 12.08V 12.05V 12.08V 12.05V 12.08V 12.05V 12.08V 12.05V IOUT PIN Efficiency 1.50 20.48 W 88.5% 0.15 2.22 W 81.5% 1.50 20.20 W 89.7% 0.15 2.28 W 79.3% 1.50 20.21 W 0.15 2.31 W 1.50 20.30 W 0.15 2.34 W 89.6% 78.4% 89.2% 76.9% PD_12V Efficiency (At the Board) 95 90 85 80 75 70 90 12V1.5A 12V/0.15A 120 150 180 210 240 270 Input Voltage (VAC) VIN 90VAC/60Hz 110VAC/60Hz 230VAC/50Hz 264VAC/50Hz VOUT 11.88V 11.89V 11.88V 11.89V 11.88V 11.89V 11.88V 11.89V IOUT PIN Efficiency 1.50 20.17 W 88.3% 0.15 2.18 W 81.4% 1.50 19.95 W 89.3% 0.15 2.21 W 80.3% 1.50 19.95 W 0.15 2.27 W 1.50 20.06 W 0.15 2.31 W 89.3% 78.3% 88.8% 76.9% QC_12V Efficiency (At the Board) 95 90 85 80 75 70 90 12V1.5A 12V/0.15A 120 150 180 210 240 270 Input Voltage (VAC) 18W 1C+1A PD3.0 and QC3.0 Adapter EVB1 User Guide Rev 1.0 Page 16 of 28 08/23/2019 www.diodes.com 1. 18W Two ports 1C+1A PD3.0 and QC3.0 d Adapter EVB1 User Guide 5.4 Efficiency vs. Output Load PD 5V/3A Efficiency (At the Board) 95 90 Efficiency (%) 85 80 75 90VAC 115VAC 230VAC 264VAC 70 10 20 30 40 50 60 70 80 90 100 Load (%) Efficiency (%) PD 9V/2A Efficiency (At the Board) 95 90 85 80 75 90VAC 115VAC 230VAC 264VAC 70 10 20 30 40 50 60 70 80 90 100 Load (%) Efficiency (%) PD 12V/1.5A Efficiency (At the Board) 95 90 85 80 75 90VAC 115VAC 230VAC 264VAC 70 10 20 30 40 50 60 70 80 90 100 Load (%) Efficiency (%) Efficiency (%) Efficiency (%) QC 5V/3A Efficiency (At the Board) 95 90 85 80 75 90VAC 115VAC 230VAC 264VAC 70 10 20 30 40 50 60 70 80 90 100 Load (%) QC 9V/2A Efficiency (At the Board) 95 90 85 80 75 90VAC 115VAC 230VAC 264VAC 70 10 20 30 40 50 60 70 80 90 100 Load (%) QC 12V/1.5A Efficiency (At the Board) 95 90 85 80 75 90VAC 115VAC 230VAC 264VAC 70 10 20 30 40 50 60 70 80 90 100 Load (%) 18W 1C+1A PD3.0 and QC3.0 Adapter EVB1 User Guide Rev 1.0 Page 17 of 28 08/23/2019 www.diodes.com 1. 18W Two ports 1C+1A PD3.0 and QC3.0 d Adapter EVB1 User Guide 5.5 Average Efficiency at Different Loading 5.5.1 Port-C Average Efficiency Port-C PD3.0_PDO_5V / 3A Average Efficiency VIN 115VAC/60Hz 230VAC/50Hz IOUT 100.0% 75.0% 50.0% 25.0% 10.0% 100.0% 75.0% 50.0% 25.0% 10.0% 3.00A 2.25A 1.50A 0.75A 0.30A 3.00A 2.25A 1.50A 0.75A 0.30A VOUT 5.19V 5.18V 5.17V 5.15V 5.14V 5.20V 5.18V 5.17V 5.15V 5.14V PIN 17.90W 13.17W 8.74W 4.38W 1.83W 17.72W 13.24W 8.83W 4.47W 1.89W Port-C PD3.0_PDO_9V / 2A Average Efficiency VIN 115VAC/60Hz 230VAC/50Hz IOUT 100.0% 75.0% 50.0% 25.0% 10.0% 100.0% 75.0% 50.0% 25.0% 10.0% 2.00A 1.50A 1.00A 0.50A 0.20A 2.00A 1.50A 1.00A 0.50A 0.20A VOUT 9.08V 9.07V 9.06V 9.04V 9.04V 9.08V 9.07V 9.06V 9.05V 9.04V PIN 20.34W 15.23W 10.16W 5.13W 2.22W 20.33W 15.29W 10.27W 5.25W 2.26W Port-C PD3.0_PDO_12V / 1.5A Average Efficiency VIN 115VAC/60Hz 230VAC/50Hz IOUT 100.0% 75.0% 50.0% 25.0% 10.0% 100.0% 75.0% 50.0% 25.0% 10.0% 1.50A 1.13A 0.75A 0.38A 0.15A 1.50A 1.13A 0.75A 0.38A 0.15A VOUT 12.08V 12.07V 12.06V 12.05V 12.05V 12.08V 12.07V 12.06V 12.05V 12.05V PIN 20.20W 15.17W 10.17W 5.23W 2.28W 20.21W 15.24W 10.27W 5.30W 2.31W POUT 15.60W 11.66W 7.76W 3.87W 1.54W 15.61W 11.65W 7.75W 3.86W 1.54W Efficiency 87.1% 88.5% 88.8% 88.3% 84.3% 88.1% 88.0% 87.7% 86.4% 81.4% Average Efficiency CoC Tier 2 required 88.19% 87.56% 81.84% 72.48% 81.84% 72.48% POUT 18.16W 13.61W 9.07W 4.53W 1.82W 18.16W 13.61W 9.07W 4.54W 1.82W Efficiency 89.3% 89.4% 89.2% 88.2% 81.9% 89.3% 89.1% 88.3% 86.3% 80.7% Average Efficiency CoC Tier 2 required 89.03% 88.27% 81.84% 72.48% 81.84% 72.48% POUT 18.12W 13.58W 9.05W 4.53W 1.81W 18.12W 13.58W 9.04W 4.53W 1.81W Efficiency 89.7% 89.5% 89.0% 86.5% 79.3% 89.6% 89.1% 88.0% 85.4% 78.4% Average Efficiency CoC Tier 2 required 88.66% 88.06% 81.84% 72.48% 81.84% 72.48% 18W 1C+1A PD3.0 and QC3.0 Adapter EVB1 User Guide Rev 1.0 Page 18 of 28 08/23/2019 www.diodes.com 1. 18W Two ports 1C+1A PD3.0 and QC3.0 d Adapter EVB1 User Guide 5.5.2 Port-A Average Efficiency Port-A_QC2.0_5V / 3A Average Efficiency VIN 115VAC/60Hz 230VAC/50Hz IOUT 100.0% 75.0% 50.0% 25.0% 10.0% 100.0% 75.0% 50.0% 25.0% 10.0% 3.00A 2.25A 1.50A 0.75A 0.30A 3.00A 2.25A 1.50A 0.75A 0.30A VOUT 5.05V 5.07V 5.07V 5.08V 5.09V 5.06V 5.06V 5.07V 5.08V 5.09V Port-A_QC2.0_9V / 2A Average Efficiency VIN 115VAC/60Hz 230VAC/50Hz IOUT 100.0% 75.0% 50.0% 25.0% 10.0% 100.0% 75.0% 50.0% 25.0% 10.0% 2.00A 1.50A 1.00A 0.50A 0.20A 2.00A 1.50A 1.00A 0.50A 0.20A VOUT 8.94V 8.94V 8.95V 8.95V 8.96V 8.94V 8.94V 8.95V 8.95V 8.96V Port-A_QC2.0_12V / 1.5A Average Efficiency VIN 115VAC/60Hz 230VAC/50Hz IOUT 100.0% 75.0% 50.0% 25.0% 10.0% 100.0% 75.0% 50.0% 25.0% 10.0% 1.50A 1.12A 0.75A 0.37A 0.15A 1.50A 1.12A 0.75A 0.37A 0.15A VOUT 11.88V 11.88V 11.88V 11.89V 11.89V 11.88V 11.88V 11.88V 11.89V 11.89V PIN 17.69W 13.05W 8.65W 4.33W 1.79W 17.56W 13.14W 8.76W 4.43W 1.87W PIN 20.11W 15.05W 10.04W 5.11W 2.17W 20.08W 15.10W 10.14W 5.18W 2.21W PIN 19.95W 14.98W 10.04W 5.17W 2.21W 19.95W 15.03W 10.14W 5.22W 2.27W POUT 15.15W 11.39W 7.61W 3.81W 1.52W 15.16W 11.39W 7.61W 3.81W 1.52W Efficiency 85.7% 87.3% 88.0% 87.9% 85.0% 86.3% 86.7% 86.8% 86.0% 81.5% Average Efficiency CoC Tier 2 required 87.2% 86.48% 85.45% 72.48% 85.45% 72.48% POUT 17.86W 13.41W 8.94W 4.47W 1.79W 17.86W 13.41W 8.94W 4.47W 1.79W Efficiency 88.8% 89.1% 89.1% 87.5% 82.5% 88.9% 88.8% 88.2% 86.3% 80.7% Average Efficiency CoC Tier 2 required 88.62% 88.05% 85.45% 72.48% 85.45% 72.48% POUT 17.81W 13.36W 8.91W 4.46W 1.78W 17.81W 13.36W 8.91W 4.45W 1.78W Efficiency 89.3% 89.2% 88.7% 86.1% 80.3% 89.3% 88.9% 87.9% 85.3% 78.3% Average Efficiency CoC Tier 2 required 88.33% 87.83% 85.45% 72.48% 85.45% 72.48% 18W 1C+1A PD3.0 and QC3.0 Adapter EVB1 User Guide Rev 1.0 Page 19 of 28 08/23/2019 www.diodes.com 1. 18W Two ports 1C+1A PD3.0 and QC3.0 d Adapter EVB1 User Guide 5.6 PD3.0 & PPS Compatible Mode Testing 5.6.1 CC Mode current limitation function testing The test is by USBCEE Tester and with E-Load set at CR mode. To Port-C PPS Mode set 5V-1A & 5V-3A and then increase the current (by reducing R) to see the CC-CV curve VOUT (V) 5V PPS / 1A 7 6 5 4 3 2 0.0 0.2 0.4 0.6 0.8 1.0 1.2 Output Current (A) VOUT (V) 5V PPS / 3A 7 6 5 4 3 2 0.0 0.5 1.0 1.5 2.0 2.5 3.0 3.5 Output Current (A) VOUT (V) To Port-C PPS Mode set 9V-1A & 9V-2A and then increase the current (by reducing R) to see the CC-CV curve 9V PPS / 1A 12 10 8 6 4 2 0.0 0.2 0.4 0.6 0.8 1.0 1.2 Output Current (A) VOUT (V) 9V PPS / 2A 12 10 8 6 4 2 0.0 0.5 1.0 1.5 2.0 2.5 Output Current (A) 18W 1C+1A PD3.0 and QC3.0 Adapter EVB1 User Guide Rev 1.0 Page 20 of 28 08/23/2019 www.diodes.com 1. 18W Two ports 1C+1A PD3.0 and QC3.0 d Adapter EVB1 User Guide 5.7 Key Performance Waveforms 5.7.1 EVB System Start-up Time Input: 90VAC / 60Hz Start-up Time= 486.1ms 5.7.2 VDS_U1 & Q2 MOSFET VDS Stress Input: 264VAC / 60Hz Output: 12V / 1.5A Primary Side Switcher (VDS_U1) VDS: 598VMAX Input: 264VAC / 60Hz Output: 12V / 1.5A Secondary Side SR MOSFET (Q2) VDS: 69.2VMAX 18W 1C+1A PD3.0 and QC3.0 Adapter EVB1 User Guide Rev 1.0 Page 21 of 28 08/23/2019 www.diodes.com 1. d 5.7.3 Output Ripple & Noise 18W Two ports 1C+1A PD3.0 and QC3.0 Adapter EVB1 User Guide Input: 90VAC / 60Hz, Output: 5V / 3A Output Voltage Ripple Noise VP-P: 92mV Input: 264VAC / 60Hz, Output: 5V / 3A Output Voltage Ripple Noise VP-P: 70mV Input: 90VAC / 60Hz, Output: 9V / 2A Output Voltage Ripple Noise VP-P: 70mV Input: 264VAC / 60Hz, Output: 9V / 2A Output Voltage Ripple Noise VP-P: 78mV Input: 90VAC / 60Hz, Output: 12V / 1.5A Output Voltage Ripple Noise VP-P: 72mV Input: 264VAC / 60Hz, Output: 12V / 1.5A Output Voltage Ripple Noise VP-P: 74mV 18W 1C+1A PD3.0 and QC3.0 Adapter EVB1 User Guide Rev 1.0 Page 22 of 28 08/23/2019 www.diodes.com 1. 18W Two ports 1C+1A PD3.0 and QC3.0 d Adapter EVB1 User Guide 5.7.4 Output Voltage Transition Time Input: 115VAC / 60Hz, Output: 5V to 9V Transition Time: 52.82ms Input: 115VAC / 60Hz, Output: 9V to 5V Transition Time: 53.22ms Input: 115VAC / 60Hz, Output: 9V to 12V Transition Time: 40.82ms Input: 115VAC / 60Hz, Output: 12V to 9V Transition Time: 40.42ms Input: 115VAC / 60Hz, Output: 5V to 12V Transition Time: 90.82ms Input: 115VAC / 60Hz, Output: 12V to 5V Transition Time: 90.42ms 18W 1C+1A PD3.0 and QC3.0 Adapter EVB1 User Guide Rev 1.0 Page 23 of 28 08/23/2019 www.diodes.com 1. 18W Two ports 1C+1A PD3.0 and QC3.0 d Adapter EVB1 User Guide 5.7.5 EMI (Conduction) Testing dBµV 100 90 1 PK MAXH 80 2 AV MAXH 70 EN55022Q 60 EN55022A 50 40 110VAC/60Hz 12V/1.5A (L) Att 10 dB 1 MHz RBW MT 9 kHz 1 s Marker 1 [T1 ] 42.90 dBµV 458.000000000 kHz 10 MHz TDS 1 6DB 30 20 10 0 150 kHz 30 MHz EDIT PEAK LIST (Final Measurement Results) Trace1: EN55022Q Trace2: EN55022A Trace3: --- TRACE FREQUENCY LEVEL dBµV DELTA LIMIT dB 1 Quasi Peak 162 kHz 56.74 -8.61 2 Average 162 kHz 39.96 -15.39 1 Quasi Peak 258 kHz 49.78 -11.70 2 Average 258 kHz 37.52 -13.96 1 Quasi Peak 518 kHz 47.22 -8.77 2 Average 662 kHz 35.74 -10.25 2 Average 1.054 MHz 35.54 -10.45 1 Quasi Peak 1.158 MHz 45.80 -10.19 1 Quasi Peak 2.054 MHz 47.70 -8.29 2 Average 2.098 MHz 34.98 -11.01 2 Average 2.19 MHz 34.87 -11.12 1 Quasi Peak 3.602 MHz 47.51 -8.48 1 Quasi Peak 4.138 MHz 46.62 -9.37 2 Average 4.138 MHz 33.81 -12.18 1 Quasi Peak 6.75 MHz 42.24 -17.75 2 Average 9.722 MHz 35.71 -14.28 2 Average 14.898 MHz 31.75 -18.24 dBµV 100 90 1 PK MAXH 80 2 AV MAXH 70 EN55022Q 60 EN55022A 50 40 110VAC/60Hz 12V/1.5A (N) Att 10 dB 1 MHz RBW MT 9 kHz 1 s Marker 1 [T1 ] 43.13 dBµV 458.000000000 kHz 10 MHz TDS 1 6DB 30 20 10 0 150 kHz 30 MHz EDIT PEAK LIST (Final Measurement Results) Trace1: EN55022Q Trace2: EN55022A Trace3: --- TRACE FREQUENCY LEVEL dBµV DELTA LIMIT dB 1 Quasi Peak 190 kHz 49.82 -14.21 2 Average 190 kHz 37.87 -16.16 1 Quasi Peak 370 kHz 47.04 -11.45 2 Average 370 kHz 37.17 -11.32 2 Average 466 kHz 37.76 -8.82 1 Quasi Peak 594 kHz 51.92 -4.07 1 Quasi Peak 1.146 MHz 45.59 -10.40 2 Average 1.218 MHz 35.35 -10.64 2 Average 1.294 MHz 35.14 -10.85 1 Quasi Peak 1.666 MHz 45.48 -10.51 2 Average 3.478 MHz 33.92 -12.08 1 Quasi Peak 3.602 MHz 47.28 -8.71 1 Quasi Peak 3.626 MHz 47.27 -8.72 2 Average 3.91 MHz 32.45 -13.54 1 Quasi Peak 6.298 MHz 43.89 -16.10 2 Average 6.298 MHz 31.70 -18.29 2 Average 11.79 MHz 31.94 -18.05 18W 1C+1A PD3.0 and QC3.0 Adapter EVB1 User Guide Rev 1.0 Page 24 of 28 08/23/2019 www.diodes.com 1. 18W Two ports 1C+1A PD3.0 and QC3.0 d Adapter EVB1 User Guide dBµV 100 90 1 PK MAXH 80 2 AV MAXH 70 EN55022Q 60 EN55022A 50 40 220VAC/60Hz 12V/1.5A (L) Att 10 dB 1 MHz RBW MT 9 kHz 1 s Marker 1 [T1 ] 50.02 dBµV 458.000000000 kHz 10 MHz TDS 1 6DB 30 20 10 0 150 kHz 30 MHz EDIT PEAK LIST (Final Measurement Results) Trace1: EN55022Q Trace2: EN55022A Trace3: --- TRACE FREQUENCY LEVEL dBµV DELTA LIMIT dB 1 Quasi Peak 158 kHz 47.48 -18.07 2 Average 222 kHz 39.53 -13.20 1 Quasi Peak 386 kHz 46.89 -11.25 2 Average 386 kHz 38.95 -9.19 2 Average 574 kHz 39.92 -6.07 1 Quasi Peak 578 kHz 53.95 -2.04 2 Average 1.09 MHz 37.04 -8.95 1 Quasi Peak 1.234 MHz 49.45 -6.54 2 Average 1.658 MHz 38.49 -7.50 1 Quasi Peak 1.958 MHz 49.42 -6.57 2 Average 2.186 MHz 36.08 -9.91 1 Quasi Peak 3.534 MHz 50.59 -5.40 2 Average 3.626 MHz 34.85 -11.14 1 Quasi Peak 3.698 MHz 48.56 -7.43 1 Quasi Peak 9.094 MHz 47.03 -12.96 2 Average 9.314 MHz 36.37 -13.62 2 Average 10.61 MHz 34.75 -15.24 1 Quasi Peak 10.858 MHz 43.85 -16.14 dBµV 100 90 1 PK MAXH 80 2 AV MAXH 70 EN55022Q 60 EN55022A 50 40 220VAC/60Hz 12V/1.5A (N) Att 10 dB 1 MHz RBW MT 9 kHz 1 s Marker 1 [T1 ] 44.09 dBµV 458.000000000 kHz 10 MHz TDS 1 6DB 30 20 10 0 150 kHz 30 MHz EDIT PEAK LIST (Final Measurement Results) Trace1: EN55022Q Trace2: EN55022A Trace3: --- TRACE FREQUENCY LEVEL dBµV DELTA LIMIT dB 1 Quasi Peak 170 kHz 47.85 -17.10 1 Quasi Peak 382 kHz 46.76 -11.46 2 Average 382 kHz 37.51 -10.72 1 Quasi Peak 602 kHz 55.45 -0.54 2 Average 642 kHz 36.75 -9.24 2 Average 742 kHz 35.91 -10.08 1 Quasi Peak 1.142 MHz 48.46 -7.53 1 Quasi Peak 1.558 MHz 46.79 -9.20 2 Average 2.098 MHz 33.99 -12.00 1 Quasi Peak 3.218 MHz 46.86 -9.13 2 Average 3.302 MHz 33.21 -12.78 1 Quasi Peak 3.606 MHz 46.06 -9.94 2 Average 4.958 MHz 29.43 -16.56 2 Average 8.694 MHz 36.76 -13.24 1 Quasi Peak 9.13 MHz 46.10 -13.89 1 Quasi Peak 12.67 MHz 43.33 -16.66 2 Average 12.67 MHz 32.55 -17.44 18W 1C+1A PD3.0 and QC3.0 Adapter EVB1 User Guide Rev 1.0 Page 25 of 28 08/23/2019 www.diodes.com 1. 18W Two ports 1C+1A PD3.0 and QC3.0 d Adapter EVB1 User Guide 5.7.7 Thermal Testing Test Condition: VO=12V, IO=1.5A, Set up the EVB into the closed box (120mm*7.5mm*6mm) at room temperature +25 oC 90VAC 18W TOP Side 90VAC 18W Bottom Side Ambient Temperature -------- 33.0 oC T1 (Transformer) --------------- 81.4 oC L2 (DR6*8)) ----------------------- 65.7 oC C2 (15uF/400V) ------------------ 65.4 oC C20 (680uF/16V) -----------------56.5 oC 264VAC 18W TOP Side Ambient Temperature -------- 33.7 oC U1 (AP39303) -------------------- 93.9 oC BD1 (MSB12M) ------------------ 85.1 oC Q2 (DMT10H009LSS) --------- 68.7 oC U3 (AP43971) -------------------- 63.5 oC 264VAC 18W Bottom Side Ambient Temperature -------- 34.5 oC T1 (Transformer) --------------- 87.2 oC L2 (DR6*8)) ----------------------- 57.8 oC C2 (15uF/400V) ------------------ 62.1 oC C20 (680uF/16V) -----------------59.9 oC Ambient Temperature ------ 34.9 oC U1 (AP39303) ----------------- 100.1 oC BD1 (MSB12M) ----------------- 62.1 oC Q2 (DMT10H009LSS) --------- 73.5 oC U3 (AP43971) -------------------- 64.8 oC 18W 1C+1A PD3.0 and QC3.0 Adapter EVB1 User Guide Rev 1.0 Page 26 of 28 08/23/2019 www.diodes.com 1. 18W Two ports 1C+1A PD3.0 and QC3.0 d Adapter EVB1 User Guide Chapter 6. Revision Control 6.1 Revision table Revision Items Changed & added 1.0 Release The changing reason 18W 1C+1A PD3.0 and QC3.0 Adapter EVB1 User Guide Rev 1.0 Page 27 of 28 08/23/2019 www.diodes.com 1. 18W Two ports 1C+1A PD3.0 and QC3.0 d Adapter EVB1 User Guide IMPORTANT NOTICE DIODES INCORPORATED MAKES NO WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, WITH REGARDS TO THIS DOCUMENT, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE (AND THEIR EQUIVALENTS UNDER THE LAWS OF ANY JURISDICTION). Diodes Incorporated and its subsidiaries reserve the right to make modifications, enhancements, improvements, corrections or other changes without further notice to this document and any product described herein. Diodes Incorporated does not assume any liability arising out of the application or use of this document or any product described herein; neither does Diodes Incorporated convey any license under its patent or trademark rights, nor the rights of others. Any Customer or user of this document or products described herein in such applications shall assume all risks of such use and will agree to hold Diodes Incorporated and all the companies whose products are represented on Diodes Incorporated website, harmless against all damages. Diodes Incorporated does not warrant or accept any liability whatsoever in respect of any products purchased through unauthorized sales channel. 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LIFE SUPPORT Diodes Incorporated products are specifically not authorized for use as critical components in life support devices or systems without the express written approval of the Chief Executive Officer of Diodes Incorporated. As used herein: A. Life support devices or systems are devices or systems which: 1. are intended to implant into the body, or 2. support or sustain life and whose failure to perform when properly used in accordance with instructions for use provided in the labeling can be reasonably expected to result in significant injury to the user. B. A critical component is any component in a life support device or system whose failure to perform can be reasonably expected to cause the failure of the life support device or to affect its safety or effectiveness. Customers represent that they have all necessary expertise in the safety and regulatory ramifications of their life support devices or systems, and acknowledge and agree that they are solely responsible for all legal, regulatory and safety-related requirements concerning their products and any use of Diodes Incorporated products in such safety-critical, life support devices or systems, notwithstanding any devices- or systems-related information or support that may be provided by Diodes Incorporated. Further, Customers must fully indemnify Diodes Incorporated and its representatives against any damages arising out of the use of Diodes Incorporated products in such safety-critical, life support devices or systems. Copyright © 2017, Diodes Incorporated www.diodes.com 18W 1C+1A PD3.0 and QC3.0 Adapter EVB1 User Guide Rev 1.0 Page 28 of 28 08/23/2019 www.diodes.com