Audio ICs 3V / 35mW dual power amplifier BA5204F The BA5204F is a dual-channel power amplifier designed for 3V stereo headphone tape players. There is almost no "pop" sound generated when the power is switched on and off, so this IC is ideal for headphone applications. Input coupling capacitors are not required, and only one filter capacitor is needed which helps reduce set size. In addition to operating off low voltage, the IC has low distortion, making it suitable for Hi-Fi applications. The circuit can operate down to 1.5V, and has excellent ripple rejection ratio, so it is not adversely influenced by the motor or tape transport systems. Applications 3V compact cassette headphone stereos players, micro cassette players, and FM stereo radios Features 1) Rated output of 35mW (RL = 32) off a 3V power supply. 2) Low "pop" noise when power is switched on and off. 3) Low quiescent current (13mA). 4) Excellent ripple rejection ratio (38dB). 5) Begins operating at 1.5V. 6) 7) 8) 9) 10) Low distortion (0.05% at PO = 5mW). Good voltage gain balance between channels. Good channel separation (60dB Typ.). Input coupling capacitors not required. Symmetrical pin assignments facilitates PCB design. Block diagram 373 Audio ICs BA5204F Internal circuit configuration Circuit description (refer to the Internal Circuit diagram) (1) Preamplifier Stage The preamplifier is comprised of the level-shift transistor Q101, a differential amplifier (Q102 and Q105), and the active load (Q103 and Q106). The input is a PNP transistor that does not require a coupling capacitor. (2) Pre-drive stage Q118 is the pre-drive transistor. Q122 and Q120 form the load. (3) Power stage Comprised of phase-inverting transistor Q120, and power transistors Q122 and Q123. (4) Idling current setting circuit The idling current is controlled so that the difference between the VBE of the power transistor Q122 and the VBE of the phase-inverting transistor Q120 is the same as the difference between the VF of the constant-voltage diode Q117 and the VBE of Q121. 374 (5) Negative-feedback circuit The closed-circuit gain with negative feedback is determined by R108, R102, and the value of the resistor connected to the NFB pin. Part of the gain setting resistance is on the chip (R102) to reduce variance between components. (6) "Pop" noise elimination circuit The IC has an internal timing circuit (with switch for operation) to reduce the "pop" noise that occurs when power is applied. Audio ICs BA5204F FAbsolute maximum ratings (Ta = 25_C) FElectrical characteristics (Ta = 25_C, VCC = 3V, f= 1kHz and RL = 32) FMeasurement circuit 375 Audio ICs BA5204F FApplication example FAttached components (Fig. 15) C1: filter capacitor The recommended value is 330F. If this is reduced too much, the ripple rejection ratio will drop. This capacitor also sets the muting time when power is applied. Reduce the value of this capacitor if you wish to shorten the startup time. On the other hand, if you wish to reduce the "pop" noise further, increase the value of this capacitor to lengthen the startup time. C2 and C3: bootstrap capacitors The recommended value is 47F. If the capacitance is too small, the IC will not be able to produce its rated power in the bass region and distortion will increase. C5 and C6: feedback circuit DC blocking capacitors These capacitors and RNF set the bass cutoff frequency. ch1 G G G G fLC1 = ch2 G G G G fLC2 = 376 1 2 S C5 S (RNF1R102) 1 2 S C6 S (RNF2R202) RNF1 and RNF2 determine the amount of feedback for the feedback circuit. These resistors determine the closedcircuit voltage gain (GVC). C7 and C8: depending on the PCB design, and output circuit wiring, feedback may be applied to the IC's internal circuits and cause high-frequency oscillation. These capacitors prevent this from happening. They also increase the amount of design freedom with regard to the output wiring and PCB artwork. Design the PCB so that the length of the wiring from ch1 and ch2 to capacitors and from the capacitors to GND is as short as possible. Mylar capacitors of about 0.01F are appropriate for this application, although active capacitors may also be used. The residual impedance and resonant frequency will differ depending on the type of capacitor and therefore have some influence on the effectiveness. C9 and C10: output coupling capacitors The recommended value is 220F. If the capacitance is too small, the IC will not be able to produce its rated power in the treble region and distortion will increase. Audio ICs BA5204F Electrical characteristics curves 377 Audio ICs 378 BA5204F Audio ICs BA5204F External dimensions (Units: mm) 379 Appendix Notes No technical content pages of this document may be reproduced in any form or transmitted by any means without prior permission of ROHM CO.,LTD. The contents described herein are subject to change without notice. The specifications for the product described in this document are for reference only. Upon actual use, therefore, please request that specifications to be separately delivered. Application circuit diagrams and circuit constants contained herein are shown as examples of standard use and operation. Please pay careful attention to the peripheral conditions when designing circuits and deciding upon circuit constants in the set. Any data, including, but not limited to application circuit diagrams information, described herein are intended only as illustrations of such devices and not as the specifications for such devices. ROHM CO.,LTD. disclaims any warranty that any use of such devices shall be free from infringement of any third party's intellectual property rights or other proprietary rights, and further, assumes no liability of whatsoever nature in the event of any such infringement, or arising from or connected with or related to the use of such devices. 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