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LA4815VH Datasheet(PDF) 8 Page - Sanyo Semicon Device |
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LA4815VH Datasheet(HTML) 8 Page - Sanyo Semicon Device |
8 / 15 page LA4815VH No.A1374-8/15 5. Popping noise reduction during power-off The power supply line can be directly controlled ON and OFF without using the mute function. However, when using a high supply voltage, the shock noise and aftersound during power-off tends to worsen. One method of coping with this is to connect a capacitor between Pin 2 (VCC) and Pin 3 (MUTE) so that the auto mute function operates during power-off. Recommended value = 1 µF Figure 9 6. Input coupling capacitor (Cin) Cin is an input coupling capacitor, and is used for DC cutting. However, this capacitor is also used to improve the ripple rejection ratio, which changes according to the capacitance value (recommended value = 1 µF). In addition, this capacitor also affects the transient response characteristics during power-on and when mute is canceled, so the constant should be set in consideration of these characteristics. Design reference value = approximately 0.33 to 3.3 µF • Ripple rejection ratio : Increasing the capacitance value increases the rate, and reducing the value reduces the rate. • Rise response speed : Increasing the capacitance value reduces the speed, and reducing the value increases the speed. • Popping noise : Increasing the capacitance value reduces the noise, and reducing the value increases the noise. 7. Output coupling capacitor (Cout) Cout is an output coupling capacitor used for DC cutting. However, this capacitor, Cout, in combination with load impedance RL forms a high-pass filter and attenuates the low frequency signals. Take into account the cutoff frequency when determining the capacitance value. In addition, normally a chemical capacitor is used for this capacitor, but the capacitance value of chemical capacitors decreases at low temperatures, so the value should be set in accordance with this characteristic. The cutoff frequency is expressed by the following formula. fc = 1/(2 π × RL × Cout) 8. Output phase compensation capacitor (Cosc) The Cosc capacitor is used to prevent output oscillation. Use a ceramic capacitor (recommended value = 0.1 µF) with good high frequency characteristics, and locate this capacitor as close to the IC as possible. 9. Power supply capacitor (CVCC) The CVCC capacitor is used to suppress the ripple component of the power supply line. Normally a chemical capacitor (recommended value = 10 µF) is used for this capacitor. However, chemical capacitors have poor high frequency characteristics, so when using a CPU, DSP or other IC that generates digital noise in the set, it is recommended that a power supply bypass capacitor (ceramic capacitor, recommended value = approximately 0.1 µF) be added to reject high-frequency components. Locate this bypass capacitor as close to the IC as possible. 10. NC pin treatment Since the NC pins (pins 5 to 10) are connected to nothing internally, they may be left open. To increase the heat dissipation efficiency, however, it is recommended that the NC pins should be connected to the GND line. + + Cmt 1 µF CVCC LA4815VH VCC MUTE 2 3 |
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