ADP2503-2.8-EVALZ Analog Devices Inc, ADP2503-2.8-EVALZ Datasheet
ADP2503-2.8-EVALZ
Specifications of ADP2503-2.8-EVALZ
Related parts for ADP2503-2.8-EVALZ
ADP2503-2.8-EVALZ Summary of contents
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... ADP2503/ADP2504, high efficiency, low quiescent current step-up/step-down, dc-to-dc converters. These converters provides accurate (±2%) regulation for load currents The ADP2503/ ADP2504 evalua- tion boards are available for all output voltages. Additional voltage options are available upon request from Sales at Analog Devices, Inc ...
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... Evaluation Board Diagram .............................................................. 1 Revision History ............................................................................... 2 Using the Evaluation Board ............................................................. 3 Setting Up the Evaluation Board ................................................ 3 Powering Up the Evaluation Board ............................................ 3 REVISION HISTORY 12/08—Rev Rev. A Added EVAL-ADP2503 ..................................................... Universal 6/08—Revision 0: Initial Version Measuring Evaluation Board Performance ...................................3 Typical Performance Characteristics ..............................................5 Evaluation Board Schematic and Artwork .....................................6 ...
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... VOUT terminal and the negative (−) terminal to the evaluation board GND terminal. POWERING UP THE EVALUATION BOARD Once the power source and load are connected to the ADP2503/ ADP2504 evaluation board, the board can be powered for opera- tion. Ensure that the power source voltage is >2.5 V and <5.5 V. ...
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... EVAL-ADP2503/ADP2504 Measuring Efficiency Measure the efficiency, η, by comparing the input power with the output power. × η = OUT OUT × Measure the input and output voltages as close as possible to the input and output capacitors to reduce the effect of IR drops. Measuring Inductor Current Measure the inductor current by removing one end of the inductor from its pad and connecting a current loop in series ...
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... 3.3V OUT A CH2 820mA = 3.3 V, PSM OUT 3.3V OUT A CH4 2.40V = 3.3 V, PWM OUT Rev Page EVAL-ADP2503/ADP2504 SW2 OUT 3 SW1 OUT 1 B CH1 20.0mV CH2 250mA Ω M 400ns W T 50.80 CH3 5.00V CH4 5.00V W W Figure 5. Boost Operation ...
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... JP1 C2 10µF VOUT VOUT 1 1 SW2 2 ADP2503/ PGND L1 3 ADP2504 1.5µH 6.3V SW1 C1 4 10µF PVIN 5 PGND TO AGND AT PADDLE PV IN PLACE CLOSE TO V Figure 8. ADP2503/ADP2504 Evaluation Board Schematic Rev Page TP1 AGND J5 U1 1MΩ VIN SYNC 1MΩ 0Ω ...
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... Figure 9. Top Layer, Recommended Layout Figure 10. Bottom Layer, Recommended Layout Rev Page EVAL-ADP2503/ADP2504 ...
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... L1 Inductor, 1.5 μH 2 R1, R2 Resistor, 1 MΩ Resistor, 0 Ω Buck Boost Regulator ORDERING GUIDE Model Description 1 ADP2503-2.8-EVALZ Evaluation Board for 2 ADP2503-3.3-EVALZ Evaluation Board for 3 ADP2503-3.5-EVALZ Evaluation Board for 3 ADP2503-4.2-EVALZ Evaluation Board for 4 ADP2503-4.5-EVALZ Evaluation Board for 4.5 V ADP2503-5.0-EVALZ 1 Evaluation Board for 5 ADP2504-2 ...