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| Design Idea DI-19 LinkSwitch Low Cost 1.5 W CV/CC Charger or Adapter Application Charger/Adapter Device LNK501 Power Output 1.5 W Input Voltage 85-265 VAC Output Voltage 5.5 V (R) Topology Flyback Design Highlights * Replaces a linear transformer based supply at the same or lower cost but with much higher performance * <0.3 W consumption at zero load meets worldwide guidelines (EC's 0.3 W, USA's 1 W for example) * Extremely simple circuit - only 15 components for production-worthy design * Primary based CV/CC output - no secondary sense components required * 10% output voltage and 22% output current tolerances at peak power point * Fully protected for thermal, short circuit and open loop faults * >62% efficiency (>70% with R1 replaced by an inductor) * Meets CISPR22B/EN55022B EMI limits with low cost resistive input filter * Ultra-low leakage current design <5 A * EE13 core for low cost and small size LinkSwitch derives all feedback information from the primary. During output diode conduction, the output voltage transformed through the turns ratio is sampled and held by C4. The feedback voltage across C4 (VOR) is converted into feedback current by R2 and fed into the CONTROL pin. This feedback current regulates the output by PWM control during CV operation, and by reducing the internal current limit during CC operation. Below an output voltage of ~2 V, LinkSwitch enters auto-restart, limiting average output current to <50 mA. The nominal transition from CV to CC occurs at 5.5 V, 0.27 A. The output envelope characteristic and specification limits are shown in Figure 2. Together with D3, C4 and R2 are also part of the primary clamp, limiting the peak drain to source voltage due to leakage inductance. Resistor R3 filters the leading edge leakage inductance spike, reducing the error in the feedback voltage. The CONTROL pin capacitor C3 provides energy storage for supply start-up and sets auto-restart timing during fault conditions. Operation The AC input is rectified and filtered by D1, D2, C1 and C2. Conducted EMI filtering is provided both by a filter (C1, R1 and C2) and a differential filter (RF1 and C1). Together with a shield in the transformer (formed from part of the primary) the design meets conducted EMI limits with no Y-capacitor between primary and secondary. Resistor RF1 also functions as a fuse. Key Design Points * Select transformer turns ratio to give a VOR of 40 V to 60 V. Lower values reduce power capability; higher values increase no-load consumption. * R2 provides 2.3 mA into the CONTROL pin at the peak power point at 85 VAC. The value can be adjusted to center the output voltage. T1 1 C3 0.22 F C4 0.1 F 100 V FILM 104T 34 AWG 4 12T 2 x 30 AWG 3 EE13 D4 LP = 1.36 mH UF4002 1A 100V 5 15 T 30 AWG T.I.W. C5 220 F 16V RTN 5.5 V, 0.27 A R1 68 Flameproof LinkSwitch D C S U1 LNK501 RF1 10 Fusible 85-265 VAC D1 1N4007 R2 21 k C1, C2 2.2 F 400 V 6 D3 1N4937 R3 100 D2 1N4007 PI-3367-091602 Figure 1. LinkSwitch 1.5 W Charger Power Supply: 85 VAC to 265 VAC Input, 5.5 V, 0.27 A Output DI-19 www.powerint.com September 2002 DI-19 * To maintain the 22% CC tolerance the primary inductance tolerance should be tighter than 10%. * Minimize zero load consumption by reducing drain node capacitance: Use double coated/grade 2 wire for primary and do not vacuum impregnate. Avoid using an RC snubber across the output diode. * For resistive loads, increase C3 to 1 F (electrolytic) to allow adequate time for start-up at full load. * For battery loads, an output filter is typically not required but can be added for resistive loads to reduce switching ripple. * R1 can be replaced with an inductor for higher efficiency (~10% increase). * Adding a 1 mA to 2 mA pre-load reduces zero load voltage by ~1 V but increases power consumption by ~10 mW. * Diode D4 can be replaced with a Schottky for higher efficiency. * See AN-35 for more information. PI-3372-091502 TRANSFORMER PARAMETERS Core Bobbin TDK PC40 EE13, ALG= 101 nH/T2 EE13 Horizontal 8 pin Primary: 104T, 34 AWG Shield: 12T, 2 x 30 AWG Secondary: 15T, 30 AWG T.I.W. Flux Band: 1T, 6 mm Cu foil (T.I.W.: Triple Insulated Wire) Secondary (5-6), tape, Shield (3-4), tape, Primary (4-1), tape, Flux band (3-NC) Primary: 1.36 mH 10%, Leakage: 50 H (max.) 300 kHz (minimum) Winding Details Winding Order (pin numbers) Inductance Primary Resonant Frequency Table 1. Transformer Construction Information. No-Load Power Consumption (W) PI-3373-091402 10 VIN = 85 VAC VIN = 265 VAC 0.3 0.25 0.2 0.15 0.1 0.05 0 50 85 VAC: 180 mW 110 VAC: 190 mW 230 VAC: 264 mW 265 VAC: 270 mW Output Voltage (V) 8 6 4 2 0 0 0.09 0.18 0.27 0.36 100 150 200 250 300 Output Current (A) Figure 2. Load Regulation - CV/CC Characteristics with Limits. Input Voltage (VAC) Figure 3. No-load Input Power Consumption. For the latest updates, visit our Web site: www.powerint.com Power Integrations reserves the right to make changes to its products at any time to improve reliability or manufacturability. Power Integrations does not assume any liability arising from the use of any device or circuit described herein, nor does it convey any license under its patent rights or the rights of others. The products and applications illustrated herein may be covered by one or more U.S. and foreign patents or potentially by pending U.S. and foreign patent applications assigned to Power Integrations. A complete list of Power Integrations' patents may be found at www.powerint.com. The PI Logo, TOPSwitch, TinySwitch and EcoSmart are registered trademarks of Power Integrations, Inc. PI Expert is a trademark of Power Integrations, Inc. (c)Copyright 2002, Power Integrations, Inc. WORLD HEADQUARTERS AMERICAS Power Integrations, Inc. San Jose, CA 95138 USA Customer Service: Phone: +1 408-414-9665 Fax: +1 408-414-9765 e-mail: usasales@powerint.com CHINA Power Integrations International Holdings, Inc. China Phone: +86-755-8367-5143 Fax: +86-755-8377-9610 e-mail: chinasales@powerint.com A 9/02 EUROPE & AFRICA Power Integrations (Europe) Ltd. United Kingdom Phone: +44-1344-462-300 Fax: +44-1344-311-732 e-mail: eurosales@powerint.com KOREA Power Integrations International Holdings, Inc. Seoul, Korea Phone: +82-2-782-2840 Fax: +82-2-782-4427 e-mail: koreasales@powerint.com SINGAPORE Power Integrations, Singapore Republic of Singapore 308900 Phone: +65-6358-2160 Fax: +65-6358-2015 e-mail: singaporesales@powerint.com JAPAN Power Integrations, K.K. Keihin-Tatemono 1st Bldg. Japan Phone: +81-45-471-1021 Fax: +81-45-471-3717 e-mail: japansales@powerint.com APPLICATIONS HOTLINE World Wide +1-408-414-9660 TAIWAN Power Integrations International Holdings, Inc. Taipei, Taiwan Phone: +886-2-2727-1221 Fax: +886-2-2727-1223 e-mail: taiwansales@powerint.com INDIA (Technical Support) Innovatech Bangalore, India Phone: +91-80-226-6023 Fax: +91-80-228-9727 e-mail: indiasales@powerint.com APPLICATIONS FAX World Wide +1-408-414-9760 www.powerint.com |
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