Datenblatt-Suchmaschine für elektronische Bauteile |
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TL1015AF160QG Datenblatt(PDF) 4 Page - Texas Instruments |
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TL1015AF160QG Datenblatt(HTML) 4 Page - Texas Instruments |
4 / 12 page PVDD BOOST I (PVD D VB AT) C = 1.5 V PVD D ´ - ´ D ´ ´ f PVDD BOOST I (PV DD V BAT) C = V PV DD ´ - D ´ ´ f Operation www.ti.com ΔI L is inversely proportional to L. Minimize ΔIL as much as is necessary for a specific application. Increase the inductance to reduce the ripple current. Note that making the inductance too large prevents the boost converter from responding to fast load changes properly. Typical inductor values for the TPA2025D1 are 2.2 μH to 4.7 μH. Select an inductor with a small dc resistance, DCR. DCR reduces the output power due to the voltage drop across the inductor. 2.2.3 Changing the Boost Capacitor The value of the boost capacitor is determined by the minimum value of working capacitance required for stability and the maximum voltage ripple allowed on PVOUT in the application. The minimum value of working capacitance is 4.7 μF. Do not use any component with a working capacitance less than 4.7 μF. Working capacitance is defined as the rated capacitance reduced by the DC Bias factor, temperature, and aging parameters of the capacitor being used. It may be necessary to request these parameters from the capacitor manufacturer. For best performance, only consider ceramic capacitors with X5R or X7R dielectric. For X5R or X7R ceramic capacitors, Equation 3 shows the relationships among the boost capacitance, C, to load current, load voltage, ripple voltage, input voltage, and switching frequency (I PVOUT, PVOUT, ΔV, VDD, f boost respectively). Insert the maximum allowed ripple voltage into Equation 3 to solve for C. A factor of about 1.5 is included to account for capacitance loss due to dc voltage and temperature. (3) For aluminum or tantalum capacitors, Equation 4 shows the relationships among the boost capacitance, C, to load current, load voltage, ripple voltage, input voltage, and switching frequency (I PVOUT, PVOUT, ΔV, VDD, f boost respectively). Insert the maximum allowed ripple voltage into Equation 4 to solve for C. Solve this equation assuming ESR is zero. (4) Capacitance of aluminum and tantalum capacitors is normally insensitive to applied voltage, so no factor of 1.5 is included in Equation 4. However, the ESR in aluminum and tantalum capacitors can be significant. Choose an aluminum or tantalum capacitor with an ESR around 30 m Ω. For best performance with tantalum capacitors, use at least a 10-V rating. Note that tantalum capacitors must generally be used at voltages of half their ratings or less. 2.3 Power Up 1. Verify that the correct connections are as described in Section 2.1. 2. Verify that the voltage setting of the power supply is between 2.5 V and 5.2 V, and turn on the power supply. Proper operation of the EVM begins. 3. Adjust the audio signal source as needed. 4 TPA2025D1 Audio Power Amplifier Evaluation Module SLOU310 – September 2011 Submit Documentation Feedback Copyright © 2011, Texas Instruments Incorporated |
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