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| (R) TDA7386 4 x 40W QUAD BRIDGE CAR RADIO AMPLIFIER HIGH OUTPUT POWER CAPABILITY: 4 x 45W/4 MAX. 4 x 40W/4 EIAJ 4 x 28W/4 @ 14.4V, 1KHz, 10% 4 x 24W/4 @ 13.2V, 1KHz, 10% LOW DISTORTION LOW OUTPUT NOISE ST-BY FUNCTION MUTE FUNCTION AUTOMUTE AT MIN. SUPPLY VOLTAGE DETECTION LOW EXTERNAL COMPONENT COUNT: - INTERNALLY FIXED GAIN (26dB) - NO EXTERNAL COMPENSATION - NO BOOTSTRAP CAPACITORS PROTECTIONS: OUTPUT SHORT CIRCUIT TO GND, TO VS, ACROSS THE LOAD VERY INDUCTIVE LOADS OVERRATING CHIP TEMPERATURE WITH SOFT THERMAL LIMITER LOAD DUMP VOLTAGE FORTUITOUS OPEN GND BLOCK AND APPLICATION DIAGRAM Vcc1 FLEXIWATT25 ORDERING NUMBER: TDA7386 REVERSED BATTERY ESD DESCRIPTION The TDA7386 is a new technology class AB Audio Power Amplifier in Flexiwatt 25 package designed for high end car radio applications. Thanks to the fully complementary PNP/NPN output configuration the TDA7386 allows a rail to rail output voltage swing with no need of bootstrap capacitors. The extremely reduced components count allows very compact sets. Vcc2 470F 100nF ST-BY N.C. OUT1+ IN1 0.1F OUT1PW-GND OUT2+ IN2 0.1F OUT2PW-GND OUT3+ IN3 0.1F OUT3PW-GND OUT4+ IN4 0.1F AC-GND 0.47F SVR 47F D99AU1018 MUTE OUT4PW-GND TAB S-GND November 2001 1/9 TDA7386 ABSOLUTE MAXIMUM RATINGS Symbol VCC VCC (DC) VCC (pk) IO Operating Supply Voltage DC Supply Voltage Peak Supply Voltage (t = 50ms) Output Peak Current: Repetitive (Duty Cycle 10% at f = 10Hz) Non Repetitive (t = 100s) Power dissipation, (Tcase = 70C) Junction Temperature Storage Temperature Parameter Value 18 28 50 4.5 5.5 80 150 - 55 to 150 Unit V V V A A W C C Ptot Tj Tstg PIN CONNECTION (Top view) 1 25 V CC AC-GND P-GND3 V CC P-GND2 P-GND1 P-GND4 S-GND OUT3- OUT2- OUT1- OUT2+ OUT1+ OUT3+ THERMAL DATA Symbol Rth j-case Parameter Thermal Resistance Junction to Case Max. Value 1 Unit C/W 2/9 OUT4+ D94AU159A OUT4- ST-BY MUTE HSD SVR TAB IN1 IN2 IN4 IN3 TDA7386 ELECTRICAL CHARACTERISTICS (VS = 14.4V; f = 1KHz; Rg = 600; RL = 4; Tamb = 25C; Refer to the test and application diagram, unless otherwise specified.) Symbol Iq1 VOS dVOS Gv dGv Po Parameter Quiescent Current Output Offset Voltage During mute ON/OFF output offset voltage Voltage Gain Channel Gain Unbalance Output Power VS = 13.2V; THD = 10% VS = 13.2V; THD = 0.8% VS = 14,4V; THD = 10% VS = 13.7V VS = 14.4V Po = 4W "A" Weighted Bw = 20Hz to 20KHz f = 100Hz; Vr = 1Vrms PO = 0.5W f = 1KHz PO = 4W f = 10KHz PO = 4W VSt-By = 1.5V VSt-By = 1.5V to 3.5V (Amp: ON) (Amp: OFF) POref = 4W (Amp: Play) (Amp: Mute) (Amp: Mute) Att 80dB; POref = 4W (Amp: Play) Att < 0.1dB; PO = 0.5W VMUTE = 1.5V (Sourced Current) VMUTE = 3.5V (*) Saturated square wave output. Test Condition RL = Play Mode Min. Typ. 190 Max. 350 80 80 Unit mA mV mV dB dB W W W W W 25 22 16.5 26 37.5 43 26 24 18 28 40 45 0.04 50 70 27 1 Po EIAJ Po max. THD eNo SVR fch Ri CT ISB Ipin4 VSB out VSB in AM VM out VM in VAM in EIAJ Output Power (*) Max. Output Power (*) Distortion Output Noise Supply Voltage Rejection High Cut-Off Frequency Input Impedance Cross Talk St-By Current Consumption St-by pin Current St-By Out Threshold Voltage St-By in Threshold Voltage Mute Attenuation Mute Out Threshold Voltage Mute In Threshold Voltage VS Automute Threshold 0.15 70 100 % V V dB KHz K 50 80 70 60 75 200 100 70 60 - - 50 10 dB dB A A V V dB V 3.5 1.5 80 3.5 1.5 6.5 7.6 5 -5 11 8.5 20 20 90 V V V A A Ipin22 Muting Pin Current 3/9 TDA7386 Figure 1: Standard Test and Application Circuit C8 0.1F C7 2200F Vcc1-2 Vcc3-4 6 20 9 8 OUT1 R1 ST-BY 10K R2 MUTE 47K C1 IN1 0.1F IN2 C2 0.1F IN3 C3 0.1F IN4 C4 0.1F S-GND 14 13 16 C5 0.47F SVR C6 47F 10 15 12 11 C10 1F C9 1F 22 4 7 5 2 3 OUT2 17 18 19 OUT3 21 24 23 25 N.C. 1 TAB OUT4 D95AU335C 4/9 TDA7386 Figure 2: P.C.B. and component layout of the figure 1 (1:1 scale) COMPONENTS & TOP COPPER LAYER BOTTOM COPPER LAYER 5/9 TDA7386 Figure 4: Quiescent Output Voltage vs. Supply Voltage Figure 3: Quiescent Current vs. Supply Voltage Figure 5: Output Power vs. Supply Voltage Figure 6: Maximum Output Power vs. Supply Voltage Figure 7: Distortion vs. Output Power Figure 8: Distortion vs. Frequency 6/9 TDA7386 Figure 9: Supply Voltage Rejection vs. Frequency Figure 10: Crosstalk vs. Frequency Figure 11: Output Noise vs. Source Resistance Figure 12: Power Dissipation & Efficiency vs. Output Power APPLICATION HINTS (ref. to the circuit of fig. 1) SVR Besides its contribution to the ripple rejection, the SVR capacitor governs the turn ON/OFF time sequence and, consequently, plays an essential role in the pop optimization during ON/OFF transients.To conveniently serve both needs, ITS MINIMUM RECOMMENDED VALUE IS 10F. INPUT STAGE The TDA7386's inputs are ground-compatible and can stand very high input signals ( 8Vpk) without any performances degradation. If the standard value for the input capacitors (0.1F) is adopted, the low frequency cut-off will amount to 16 Hz. STAND-BY AND MUTING STAND-BY and MUTING facilities are both CMOS-COMPATIBLE. If unused, a straight connection to Vs of their respective pins would be admissible. Conventional/low-power transistors can be employed to drive muting and stand-by pins in absence of true CMOS ports or microprocessors. R-C cells have always to be used in order to smooth down the transitions for preventing any audible transient noises. Since a DC current of about 10 uA normally flows out of pin 22, the maximum allowable muting-series resistance (R2) is 70K, which is sufficiently high to permit a muting capacitor reasonably small (about 1F). If R2 is higher than recommended, the involved risk will be that the voltage at pin 22 may rise to above the 1.5 V threshold voltage and the device will consequently fail to turn OFF when the mute line is brought down. About the stand-by, the time constant to be assigned in order to obtain a virtually pop-free transition has to be slower than 2.5V/ms. 7/9 TDA7386 DIM. A B C D E F (1) G G1 H (2) H1 H2 H3 L (2) L1 L2 (2) L3 L4 L5 M M1 N O R R1 R2 R3 R4 V V1 V2 V3 MIN. 4.45 1.80 0.75 0.37 0.80 23.75 28.90 mm TYP. 4.50 1.90 1.40 0.90 0.39 1.00 24.00 29.23 17.00 12.80 0.80 22.47 18.97 15.70 7.85 5 3.5 4.00 4.00 2.20 2 1.70 0.5 0.3 1.25 0.50 MAX. 4.65 2.00 1.05 0.42 0.57 1.20 24.25 29.30 MIN. 0.175 0.070 0.029 0.014 0.031 0.935 1.138 inch TYP. 0.177 0.074 0.055 0.035 0.015 0.040 0.945 1.150 0.669 0.503 0.031 0.884 0.747 0.618 0.309 0.197 0.138 0.157 0.157 0.086 0.079 0.067 0.02 0.12 0.049 0.019 MAX. 0.183 0.079 0.041 0.016 0.022 0.047 0.955 1.153 OUTLINE AND MECHANICAL DATA 22.07 18.57 15.50 7.70 3.70 3.60 22.87 19.37 15.90 7.95 4.30 4.40 0.869 0.731 0.610 0.303 0.145 0.142 0.904 0.762 0.626 0.313 0.169 0.173 5 (Typ.) 3 (Typ.) 20 (Typ.) 45 (Typ.) Flexiwatt25 (1): dam-bar protusion not included (2): molding protusion included V3 H3 O H H1 H2 R3 R4 V1 A L4 L2 N R2 R L L1 L3 V1 V2 D R1 R1 E G V G1 F M B M1 R2 L5 R1 C V FLEX25ME 8/9 TDA7386 Information furnished is believed to be accurate and reliable. However, STMicroelectronics assumes no responsibility for the consequences of use of such information nor for any infringement of patents or other rights of third parties which may result from its use. No license is granted by implication or otherwise under any patent or patent rights of STMicroelectronics. Specification mentioned in this publication are subject to change without notice. This publication supersedes and replaces all information previously supplied. STMicroelectronics products are not authorized for use as critical components in life support devices or systems without express written approval of STMicroelectronics. The ST logo is a registered trademark of STMicroelectronics (c) 2001 STMicroelectronics - Printed in Italy - All Rights Reserved STMicroelectronics GROUP OF COMPANIES Australia - Brazil - Canada - China - Finland - France - Germany - Hong Kong - India - Israel - Italy - Japan - Malaysia - Malta - Morocco Singapore - Spain - Sweden - Switzerland - United Kingdom - United States. http://www.st.com 9/9 |
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