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Audio ICs
High-output dual power amplifier
BA5415A / BA5416
The BA5415A and BA5416 are dual power amplifier ICs that operate off a 9V to 15V supply. When driving a 4 load off a 9V supply, the BA5415A does not require a heatsink. The BA5416 uses a lost-cost package. The basic characteristics (total harmonic distortion etc.) of the amplifiers are excellent, and both ICs include a standby switch function. FApplications Radio cassette players. FFeatures 1) High output. POUT = 5.4W (VCC = 12V, RL = 3 and THD = 10%) POUT = 2.5W (VCC = 9V, RL = 4 and THD = 10%) 2) Excellent audio quality. THD = 0.1% (f = 1kHz, PO = 0.5W) VNO = 0.3mVrms (Rg = 10k) RR = 60dB (fRR = 100Hz) 3) Wide operating power suppy voltage range. VCC = 5.0V to 18.0V (BA5416: 5.0V to 15.0V)
4) Switching noise ("pop" noise) generated when the power is switched on and off is small. 5) Ripple mixing when motor starts has been prevented. 6) Built-in thermal shutout. 7) Built-in standby switch. Output is not influenced by the standby pin voltage. 8) "On" mute time does not depend on VCC. 9) Soft clipping. 10) Heatsink not required (for BA5415A, with VCC = 9V and RL y 4).
FAbsolute maximum ratings (Ta = 25_C)
FRecommended operating conditions (Ta = 25_C)
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FBlock diagram
BA5415A / BA5416
FInternal circuit configuration
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BA5415A / BA5416
FElectrical characteristics (unless otherwise noted, Ta = 25_C, VCC = 12V, RL = 3, RF = 240, Rg = 600, and f = 1kHz)
FMeasurement circuit
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FApplication examples
BA5415A / BA5416
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FOperation notes (1) Input circuit The structure of the input circuit is shown in Fig. 4. The IC can be used without coupling capacitors, but a maximum of 0.5µA of bias current (IBIN) flows from the input pin, so if potentiometer sliding noise results from this, connect an input capacitor CIN as shown below. To prevent degradation of the IC characteristics, the input bias resistor is not built into the IC. Connect an input bias resistor (RIN) between the input and GND (the recommended value is about 33k).
BA5415A / BA5416
(3) Oscillation countermeasures We recommend that the capacitor (C1) connected between the B. S pin and the VCC pin for oscillation prevention be a metal-film component with good temperature and high-frequency characteristics. Ceramic capacitors have poor temperature characteristics, so if used, allow sufficient oscillation margin. It is also possible to connect a capacitor for oscillation prevention between the output and GND (C2). The oscillation margin depends on the PCB pattern and the mounting position of the capacitor. Design your PCB after referring to the application example PCB.
(2) Gain adjustment The gain is given by the following formula. RNF)RF GV = 20log RF It is possible to reduce the gain by increasing RF, but the amount of feedback will increase, and oscillation will be more likely to occur. We recommend that you set the gain to 30dB or higher.
(4) VCC and GND lines The Pre. GND and Pow. GND are joined at pin 12, so there is a chance of crosstalk or degraded distortion performance due to common ground impedance in the PCB pattern. In addition, the power supply capacitor connected between VCC and GND is influenced by the PCB pattern, and common VCC and GND impedance may degrade the ripple rejection and distortion. Design the PCB after referring to the application example PCB (the recommended value for the power supply capacitor is 1000µF of greater).
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FOperation notes (5) Standby switch The IC has a built-in standby switch (pin 6), so the IC can be powered on and off by a switch with low current capacity. The on voltage V1 can be in the range 3V to VCC, so the standby switch will not adversely influence circuit characteristics as with conventional methods. This also increases design freedom. At normal temperatures, the switch operates at a voltage of V1 = 3V or higher, but we recommend that you use it at 3.5V or higher to allow for low temperatures. A small "pop" noise may be generated when the power is switched off using the external switch. If this is the case, connect a capacitor of about C3 = 0.022µF in parallel with the switch.
BA5415A / BA5416
(7) Applied voltage As long as the output power transistor is operated within the ASO (safe operating range Fig. 9), the IC can be operated to its absolute maximum ratings (VCCMAX. = 24.0V). During normal operation, operate the IC within its recommended operating voltage range; exceeding this range will result in destruction of the IC. When the standby switch is off, the IC is guaranteed up to VCCMax. = 24.0V, but when the standby switch is on, set the power supply regulation characteristics (including the capacitance of the power supply capacitor connected between VCC and GND) so that VCC is 18.0V or less (15.0V or less for the BA5416). If the IC is inserted backwards, VCC and GND will be reversed and the IC will be destroyed instantly.
(6) Filter pin Pin 7 is for connection of a ripple filter. The ripple rejection can be increased somewhat by increasing the capacitance, but this also affects the starting time, so we recommend a value in the range 100µF to 220µF. The standard starting time is 0.8sec.
(8) Thermal shutdown If the load is shorted or there is insufficient heat dissipation, the thermal shutdown circuit will operate limit the output and prevent damage to the IC. This occurs when the temperature of the heatsink plate exceeds a temperature of about 175_C. (9) Other Provided the recommended circuit constants are used, the application circuit will function correctly. However, we recommend that you confirm the characteristics of the circuit in actual use. If you change the circuit constants, check both the static and transient characteristics of the circuit, and allow sufficient margin to accommodate variations in both ICs and external components.
(10) Standard values for the DC voltages on each pin (VCC = 12V, Ta = 25_C, measurement circuit: Fig. 1)
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FApplication board patterns
BA5415A / BA5416
FElectrical characteristics curves
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FElectrical characteristics curves
BA5415A / BA5416
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BA5415A / BA5416
FExternal dimensions (Units: mm)
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