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High-output dual power amplifierBA5415A / BA5416

The BA5415A and BA5416 are dual power amplifier ICs that operate off a 9V to 15V supply. When driving a 4 loadoff a 9V supply, the BA5415A does not require a heatsink. The BA5416 uses a lost-cost package. The basic characteris-tics (total harmonic distortion etc.) of the amplifiers are excellent, and both ICs include a standby switch function.

F ApplicationsRadio cassette players.

F Features1) High output.

P OUT = 5.4W (V CC = 12V, R L = 3 and THD = 10%)P OUT = 2.5W (V CC = 9V, R L = 4 and THD = 10%)

2) Excellent audio quality.THD = 0.1% (f = 1kHz, P O = 0.5W)VNO = 0.3mV rms (Rg = 10k )RR = 60dB (f RR = 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 thepower is switched on and off is small.

5) Ripple mixing when motor starts has been pre-

vented.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 V CC .9) Soft clipping.

10) Heatsink not required (for BA5415A, with V CC = 9Vand R L y 4).

F Absolute maximum ratings (Ta = 25 _C)

F Recommended operating conditions (Ta = 25 _C)

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F Block diagram

F Internal circuit configuration

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F Electrical characteristics (unless otherwise noted, Ta = 25 _C, V CC = 12V, R L = 3 , R F = 240 ,Rg = 600 , and f = 1kHz)

F Measurement circuit

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F Application examples

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F Operation notes(1) Input circuitThe structure of the input circuit is shown in Fig. 4. TheIC can be used without coupling capacitors, but a maxi-mum of 0.5 A of bias current (I BIN) flows from the inputpin, so if potentiometer sliding noise results from this,connect an input capacitor C IN as shown below.To prevent degradation of the IC characteristics, the inputbias resistor is not built into the IC. Connect an input biasresistor (R IN) between the input and GND (the recom-mended value is about 33k ).

(2) Gain adjustmentThe gain is given by the following formula.

It is possible to reduce the gain by increasing R F, but theamount of feedback will increase, and oscillation will bemore likely to occur. We recommend that you set the gainto 30dB or higher.

(3) Oscillation countermeasuresWe recommend that the capacitor (C1) connected be-tween the B. S pin and the V CC pin for oscillation preven-tion be a metal-film component with good temperatureand high-frequency characteristics.Ceramic capacitors have poor temperature characteris-tics, so if used, allow sufficient oscillation margin. It isalso possible to connect a capacitor for oscillation pre-vention between the output and GND (C2).The oscillation margin depends on the PCB pattern andthe mounting position of the capacitor. Design your PCBafter referring to the application example PCB.

(4) VCC and GND linesThe Pre. GND and Pow. GND are joined at pin 12, sothere is a chance of crosstalk or degraded distortion per-formance due to common ground impedance in the PCBpattern. In addition, the power supply capacitor con-nected between V CC and GND is influenced by the PCBpattern, and common V CC and GND impedance may de-grade the ripple rejection and distortion. Design the PCBafter referring to the application example PCB (the rec-ommended value for the power supply capacitor is1000 F of greater).

G V = 20logRNF ) RF

RF

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F Operation notes(5) Standby switchThe IC has a built-in standby switch (pin 6), so the IC canbe powered on and off by a switch with low current capac-ity. The on voltage V 1 can be in the range 3V to V CC , sothe standby switch will not adversely influence circuitcharacteristics as with conventional methods. This alsoincreases design freedom. At normal temperatures, theswitch operates at a voltage of V 1 = 3V or higher, but werecommend that you use it at 3.5V or higher to allow forlow temperatures.A small pop noise may be generated when the poweris switched off using the external switch. If this is thecase, connect a capacitor of about C 3 = 0.022 F in paral-lel with the switch.

(6) Filter pinPin 7 is for connection of a ripple filter. The ripple rejectioncan be increased somewhat by increasing the capaci-

tance, but this also affects the starting time, so we recom-mend a value in the range 100 F to 220 F. The standardstarting time is 0.8sec.

(7) Applied voltageAs long as the output power transistor is operated withinthe ASO (safe operating range Fig. 9), the IC can be op-erated to its absolute maximum ratings (V CC MAX. =24.0V). During normal operation, operate the IC within itsrecommended operating voltage range; exceeding thisrange will result in destruction of the IC. When the stand-by switch is off, the IC is guaranteed up to V CCMax. =24.0V, but when the standby switch is on, set the powersupply regulation characteristics (including the capaci-tance of the power supply capacitor connected betweenVCC and GND) so that V CC is 18.0V or less (15.0V or lessfor the BA5416). If the IC is inserted backwards, V CC andGND will be reversed and the IC will be destroyedinstantly.

(8) Thermal shutdown

If the load is shorted or there is insufficient heat dissipa-tion, the thermal shutdown circuit will operate limit theoutput and prevent damage to the IC. This occurs whenthe temperature of the heatsink plate exceeds a temper-ature of about 175 _C.(9) OtherProvided the recommended circuit constants are used,the application circuit will function correctly. However, werecommend that you confirm the characteristics of thecircuit in actual use.If you change the circuit constants, check both the staticand transient characteristics of the circuit, and allow suffi-cient margin to accommodate variations in both ICs andexternal components.

(10) Standard values for the DC voltages on each pin (V CC = 12V, Ta = 25 _C, measurement circuit: Fig. 1)

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F Application board patterns

F Electrical characteristics curves

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F Electrical characteristics curves

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F External dimensions (Units: mm)