Diodes AP3917B User Manual Download Page 2 | Manualshive

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Diodes AP3917B User Manual Download Page 2

Dual Output Off-Line Non-isolated Fly-back Power Solution

AP3917B 12V/20mA+3.8V20mA EV3 Board User

’s Guide

AP3917B EV3 Page 2 of 17 06-21-2019
Rev 1.0 www.diodes.com

Chapter1 Induction

1.1 General Description

AP3917B is an off-line universal AC Voltage input step-down regulator that provides accurate constant voltage (CV), outstanding
low standby power, light loading efficiency and dynamics performance. The chip supports non-isolated buck and buck-boost
topology, and also isolated and non-isolated flyback topology. The main applications are for cost-effective home appliance
power.

Working with a single winding inductor and integrating a 650V MOSFET when used in buck topology, the BOM cost is very low.

The AP3917B EV3 Evaluation Board contains two outputs specifications: 12V20mA and 3.8V20mA, with both non-isolations
flyback. The two outputs share a three-winding transformer. The feedback circuitry samples 3.

8V output. The user’s guide

provides good design example for dual output power applications in home appliance power.

1.2 AP3917B Key Features



Universal 85V to 264V V

AC

Input



Internal MOSFET 650V (Rds(on) 10

Ω max. @25

℃

)



Maximum output Current: 170mA typ.@5V output



Low Standby Power Consumption



High Light Loading Efficiency and average efficiency can meet DOE IV and CoC V5 Tier

2



Frequency Modulation to suppress EMI to meet EN55032 and FCC part 15 class B



Rich Protection including: OTP, OLP, OLD,SCP



Extremely low system component count.



Totally Lead-free & Fully RoHS Compliant (SO-7)



Halogen and Antimony Free. “Green” Device

1.3 Applications



Non-Isolated Home Appliances including: AC Fans, Rice Cooker, Air conditioner, Coffee Machines, Soy Milk Machines, ect.



Auxiliary Power to IoT Devices.

1.4 Board Picture

Fig.1-1, Top View

Fig. 1-2, Bottom View

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Summary of Contents for AP3917B

Page 1: ...er Instructions 5 3 3 3 Electrical Specifications 5 Chapter4 Evaluation Board Connections 5 4 1 PCB Layout 5 4 2 Circuit Description 6 4 2 1 Input EMI Filtering 6 4 2 2 Control IC 6 4 2 3 Flyback bloc...

Page 2: ...ons 12V20mA and 3 8V20mA with both non isolations flyback The two outputs share a three winding transformer The feedback circuitry samples 3 8V output The user s guide provides good design example for...

Page 3: ...ers Output voltage 1 11 1V 12 0V 12 9V Test at board terminal Output voltage 1 3 61V 3 8V 3 99V loading current 1 0 20mA mA loading current 2 4 20mA performance specifications Standby power 12mW 230V...

Page 4: ...acitor 6 7mm 1 Aishi 6 C4 10uF 16V X7R SMD 0805 1 Telesky 7 C5 22uF 16V electrolytic capacitor 5 10mm 1 Telesky 8 C6 470pF 500V X7R SMD 0805 1 Telesky 9 C7 470pF 50V X7R SMD 0805 1 Telesky 10 D1 S1MWF...

Page 5: ...ght tension Tape W 5mm 2 Full layer 3 4 0 17mm 2 UEW 10 5 One layer with tight tension Tape W 5mm 2 Full layer 1 3 0 17mm 1 UEW 23 One layer with tight tension Tape W 7mm 2 Full layer Note the transfo...

Page 6: ...nding and 12V output winding are in series so if the turn ratio of 12V winding to 3 8V winding approximate to 12 3 8 the output voltage can be fixed to 12V and 3 8V 4 2 4 Output Rectification During t...

Page 7: ...4 3 791 12 205 230V 50Hz 7 8 3 788 12 197 264V 50Hz 8 6 3 788 12 197 Fig 5 1 Standby Power versus Vin Curve 5 1 2 Efficiency The efficiency data was tested after 10min burning and it was tested at the...

Page 8: ...d Vin ranges from 85V to 264V Table 5 3 line and load regulation data Vin Vo1 output V Vo2 output V Vin Vo1 V Vo2 V 85V 60Hz 3 752 12 291 115V 60Hz 3 746 12 280 150V 60Hz 3 749 12 282 180V 50Hz 3 748...

Page 9: ...766 12 157 230V 50Hz 3 786 11 572 3 781 11 757 3 774 11 922 3 769 12 047 3 764 12 147 265V 50Hz 3 785 11 572 3 780 11 755 3 774 11 922 3 768 12 045 3 763 12 147 Fig 5 4 12V and 5V output voltage 3 8V...

Page 10: ...5 7 Start up time is 15 3ms full load 230V 50Hz Fig 5 8 Start up time is 14 6ms full load 265V 50Hz 5 2 2 Voltage Stress The voltage tested below was between the source and the drain pin of IC The te...

Page 11: ...full load Fig 5 12 Vo1 terminal Vak 129V Vo2 Vak 42V 264V 50Hz full load 5 2 3 Output Ripple Noise The ripple and noise was tested at PCB terminal using coaxial cable 1 1 The bandwidth was limited to...

Page 12: ...sponse output voltage was tested at the PCB terminal and the bandwidth was limited to 20MHz The loading is set 0mA as low load and 20mA as high load and last for 0 1s respectively The ramp is set at 4...

Page 13: ...V FL 85V 60Hz Fig 5 20 dynamic response 12V 0 20mA 3 8V FL 265V 50Hz 5 3 Protection SCP test The SCP test was measured under the condition of output cable terminal short circuit Table 5 9 the short ci...

Page 14: ...Fig 5 23 SCP 12V output short and 3 8V full load 85V 60Hz Fig 5 24 SCP 12V output short and 3 8V full load 265V 50Hz 5 4 Thermal Test The thermal test was under room temperature after burning 1 hour...

Page 15: ...3 Fig 5 28 Transformer 33 5 3 8V flyback diode 31 8 full load 264V 50Hz ambient temperature 25 4 5 5 System EMI Scan The power supply passed EN55022 Class B for 230V input and FCC part 15 for 110V inp...

Page 16: ...ion waveform 230V full load Fig 5 32 N line conduction data 230V full load 5 5 2 Conduction EMI test of 110V full load The test result can pass FCC part 15 limitation with more than 6dB margin Fig 5 3...

Page 17: ...overed by one or more United States international or foreign patents pending Product names and markings noted herein may also be covered by one or more United States international or foreign trademark...

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