iW1818-EVAL Evaluation Board for 10W Single-Output Switch-Mode Power Supply 1 Description The iW1818-EVAL evaluation board implements a 10W power supply based on Dialog Semiconductors iW1818 AccuSwitch digital off-line power supply controller IC. The evaluation board supplies a 5V, 2A regulated output voltage using a primary-side controlled quasi-resonant flyback converter that meets the U.S. Department of Energys most recent level VI efficiency standard and the EUs Code of Conduct, Version 5, Tier 2 standard for both active mode and no-load standby power consumption. The iW1818 controller integrates an 800V power BJT transistor to lower the power supply BOM cost and uses Dialogs advanced PrimAccurate digital control technology to eliminate the need for external secondary-side feedback components, further reducing component count and cost, while improving reliability. It operates in quasi-resonant mode to improve efficiency and help meet EMI standards. This quasi-resonant operation and Dialogs EZ-EMI technology enable excellent EMI performance with minimal external filtering. Proprietary control technology allows high efficiency across a broad range of loads, which enables the iW1818 to meet stringent international standards for power supply efficiency . 2 Features EZ-EMI technology: excellent EMI performance with Wide input voltage range: 90V to 264V AC AC a minimum of EMI filtering components Output voltage: 5V Quasi-resonant operation Output current: 2A Low component count and small PCB footprint Total output power: 10W max. iW1818 IC protections: Integrated 800V BJT x Output short-circuit, over-current, over-voltage Active mode efficiency > 80% x Input voltage protection: brown-out, brown-in, Supports high capacitance loads up to 6,000 mF unplug Low no-load power: < 50mW (at 230 V ) AC x Over-temperature protection - internal sensor 3 Applications Power Supplies for: x White Goods x Home Appliances x Industrial Control x Network Devices 18-May-2016 Evaluation Board Summary Rev. 1.0 www.dialog-semiconductor.com 1 of 6 2016 Dialog SemiconductoriW1818-EVAL Evaluation Board for 10W Single-Output Switch-Mode Power Supply WARNING Disclaimer for High Voltage (Mains Powered) Evaluation Boards Warning This evaluation board is powered by AC mains voltage. When powered, this evaluation board generates non-insulated high voltages which may produce electrical shock, burn, and/or fire hazards, resulting in risk of property damage, personal injury, and/or death. When the evaluation board is powered, never touch the board or its electrical circuits since they may be operating at high voltages that can cause an electrical shock hazard. TO BE USED FOR EVALUATION PURPOSES ONLY This board is intended for evaluation purposes only and not intended for commercial use in an end product. Any other use is strictly prohibited by Dialog Semiconductor. WORK AREA AND PERSONAL SAFETY This board should be used in a test area/laboratory specifically designed and designated for working with, and evaluating high-voltage electrical devices. Only trained and qualified professional personnel with experience, knowledge and training in the use of high-voltage electrical circuits should use this evaluation board. Trained personnel must use required personal protective equipment and required laboratory equipment when working with the evaluation board. The professional personnel operating this evaluation board and the test area/laboratory in which it is operated must be qualified according to the local regulations, guidelines and labor laws applicable to working with non-isolated mains voltages and high voltage circuits. An isolated housing is highly recommended when using this evaluation board. Use this evaluation board at your own risk. NOT AGENCY APPROVED This evaluation board has not been agency tested or approved for safety, technical performance, and/or regulatory requirements, such as electromagnetic interference or other technical regulatory or safety requirements. 18-May-2016 Evaluation Board Summary Rev. 1.0 www.dialog-semiconductor.com 2 of 6 2016 Dialog Semiconductor