55W DUAL BRIDGE AMPLIFIER WIDE SUPPLY VOLTAGE RANGE (6V V) MINIMUM EXTERNAL COMPONENTS NO SWR CAPACITOR NO BOOTSTRAP NO BOUCHEROT CELLS INTERNALLY FIXED GAIN STANDBY & MUTE FUNCTIONS SHORT CIRCUIT PROTECTION THERMAL OVERLOAD PROTECTION TECHNOLOGY BI0II Multiwatt 5 DESCRIPTION The TDA797 is a dual bridge amplifier specially designed for TV and Portable Radio applications. ORDERING NUMBER: TDA797 BLOCK AND APPLICATION DIAGRAM V CC IN 0.µF 3 3 OUT 70µF 0nF STBY 7 IN 0.µF SGND 9 Vref 5 OUT OUT MUTE 6 PWGND OUT D9AU75B May 997 /9
ABSOLUTE MAXIMUM RATINGS Symbol Parameter Value Unit V S Supply Voltage 0 V IO Output Peak Current (internally limited) A P tot Total Power Dissipation (T case =70 C) 33 W T op Operating Temperature 0 to 70 C T stg,t j Storage and Junction Temperature 0 to 50 C THERMAL DATA Symbol Description Value Unit R th jcase Thermal Resistance Junction to case Typ.. Max. C/W PIN CONNECTION (Top view) 5 3 9 7 6 5 3 OUT OUT VCC IN N.C. N.C. SGND PWGND STBY MUTE N.C. IN V CC OUT OUT D95AU6 ELECTRICAL CHARACTERISTICS (V CC = 6.5V, R L =Ω, f = khz, T amb =5 C unless otherwise specified.) Symbol Parameter Test Condition Min. Typ. Max. Unit V CC Supply Range 6.5 V I q Total Quiescent Current R L = 50 65 ma VOS Output Offset Voltage 0 mv P O Output Power THD = % 3 5 W THD Total Harmonic Distortion P O = W 0. 0.3 % P O = 0.W to 5W f = 0Hz to 5kHz % SVR Supply Voltage Rejection f = 0Hz V R = 0.5V 0 56 db CT Crosstalk 6 60 db A MUTE Mute Attenuation 60 0 db T W Thermal Threshold 50 C G V Closed Loop Voltage Gain 3 3 33 db Gv Voltage Gain Matching 0.5 db R i Input Resistance 5 30 KΩ /9
ELECTRICAL CHARACTERISTICS (Continued) Symbol Parameter Test Condition Min. Typ. Max. Unit VTMUTE Mute Threshold VO = 30dB.3.9. V VT STBY Stby Threshold 0..3. V I STBY STBY current V6 = GND 0 µa e N Total Output Noise Voltage A curve f = 0Hz to 0kHz 50 0 500 µv µv APPLICATION SUGGESTION STANDBY AND MUTE FUNCTIONS (A) Microprocessor Application In order to avoid annoying PopNoise during TurnOn/Off transients, it is necessary to guarantee the right Stby and mute signals sequence. It is quite simple to obtain this function using a microprocessor (Fig. and ). At first Stby signal (from mp) goes high and the voltage across the Stby terminal (Pin 7) starts to increase exponentially. The external RC network is intended to turnon slowly the biasing circuits of Figure : Microprocessor Application the amplifier, this to avoid POP and CLICK on the outputs. When this voltage reaches the Stby threshold level, the amplifier is switchedon and the external capacitors in series to the input terminals (C3, C5) start to charge. It s necessary to mantain the mute signal low until the capacitors are fully charged, this to avoid that the device goes in play mode causing a loud Pop Noise on the speakers. A delay of 000ms between Stby and mute signals is suitable for a proper operation. V CC IN C 0.µF 3 3 C5 70µF OUT C6 0nF STBY R K 7 C µf µp SGND 9 IN C3 0.µF Vref 5 OUT OUT MUTE R K 6 C µf PWGND OUT D95AU5A 3/9
Figure : Microprocessor Driving Signals. V S (V) V IN (mv) V STBY pin 7..3 0. V MUTE pin 6..9.3 I q (ma) V OUT (V) OFF STBY MUTE PLAY MUTE STBY OFF D96AU59 (B) Low Cost Application In low cost applications where the mp is not present, the suggested circuit is shown in fig.3. The Stby and mute terminals are tied together and they are connected to the supply line via an external voltage divider. The device is switchedon/off from the supply line and the external capacitor C is intended to delay the Stby and mute threshold exceeding, avoiding Popping problems. /9
Figure 3: Standalone Lowcost Application. VCC IN R 7K IN C3 0.µF STBY 7 3 3 OUT C 70µF C 0nF R 7K C µf SGND 9 IN C5 0.µF Vref 5 OUT OUT MUTE 6 PWGND OUT D95AU60 Figure 3b: PCB and Component Layout of the Application Circuit (Fig. ). 5/9
Figure : Distortion vs Output Power Figure 5: Distortion vs Output Power THD(%) THD(%) Vcc = 6.5V Rl = ohm Vcc = V Rl = ohm f = 5KHz f=5khz 0. f=5khz 0. f=5khz f=khz f=khz 0.0 0. 0 Pout (W) 0.0 0. Pout (W) Figure 6: Distortion vs Frequency Figure 7: Frequency Respone THD(%) Level(dBr) 5.0000.0000 Vcc = 6.5V Rl = ohm 3.0000.0000 Vcc = 6.5V Rl = ohm Pout = W.0000 0.0 0. Pout = 0mW.000.000 Pout = 5W 3.000.000 0.0 0 k k 0k frequency (Hz) 5.000 0 k k 0k frequency(hz) Figure : Output Power vs Supply Voltage Po(W) 0.000.000 6.000.000.000.000.0000 6.0000.0000.0000 0.0 Rl = ohm f = KHz d = % 6.000 7.000.000 9.000.00.00.00 3.00.00 5.00 6.00 7.00.00 Vs(V) d=% Figure 9: Total Power Dissipation & Efficiency vs Output Power Ptot(W) µ(%) 6 0 75 70 65 P tot µ 60 55 50 5 0 Vcc =6.5V 35 6 Rl = ohm (both channels) f=khz 30 5 0 5 5 0 0 0 3 5 6 7 9 3 5 6 XPout(W) 6/9
Figure : Mute Attenuation vs. V pin.6 Figure : StandBy Attenuation vs Vpin.7 Attenuation (db) 0 0 30 0 50 60 70 0 90 0.5.5 3 3.5.5 5 Vpin.6(V) Attenuation (db) 0 0 30 0 50 60 70 0 90 0 0 0 0. 0. 0.6 0....6... Vpin.7 (V) Figure : Quiscent Current vs. Supply Voltage Iq (ma) 70 65 60 55 50 5 0 35 30 6 7 9 3 5 6 7 Vsupply(V) 7/9
MULTIWATT5 PACKAGE MECHANICAL DATA DIM. mm inch MIN. TYP. MAX. MIN. TYP. MAX. A 5 0.97 B.65 0. C.6 0.063 D 0.039 E 0.9 0.55 0.09 0.0 F 0.66 0.75 0.06 0.030 G.0.7.5 0.00 0.050 0.060 G 7.53 7.7.03 0.690 0.700 0.7 H 9.6 0.77 H 0. 0.795 L.9..5 0.6 0.7 0.6 L.7..5 0.5 0.70 0.6 L 7.65. 0.695 0.73 L3 7.5 7.5 7.75 0.679 0.69 0.699 L.3.7.9 0.06 0. 0.9 L7.65.9 0. 0. M.5.55.5 0.67 0.79 0.9 M.63 5.0 5.53 0. 0.00 0. S.9.6 0.075 0. S.9.6 0.075 0. Dia 3.65 3.5 0. 0.5 /9
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