Transcription of Obsolete Product(s) - STMicroelectronics
1 July 2011 Doc ID 1459 Rev 21/2323 TDA2030A18 W hi-fi amplifier and 35 W driverFeatures Output power 18 W at VS = 16 V / 4 with distortion High output current Very low harmonic and crossover distortion Short-circuit protection Thermal shutdownDescriptionThe TDA2030A is a monolithic IC in a Pentawatt package intended for use as a low-frequency class-AB VS max = 44 V it is particularly suited for more reliable applications without regulated supply and for 35 W driver circuits using low-cost complementary TDA2030A provides high output current and has very low harmonic and crossover distortion. The device incorporates a short-circuit protection system comprising an arrangement for automatically limiting the dissipated power so as to keep the operating point of the output transistors within their safe operating range.
2 A conventional thermal shutdown system is also included. Figure applicationTable summaryOrder codePackageTDA2030 AVPentawatt (vertical)Pentawatt (vertical) Obsolete Product(s) - Obsolete Product(s) Device overviewTDA2030A2/23 Doc ID 1459 Rev 21 Device overviewFigure connections (top view)Figure circuitTable dataTable maximum ratingsSymbolParameterValueUnitRth (j-case)Thermal resistance junction-case C/WSymbolParameterValueUnitVsSupply voltage 22 VViInput voltageVsViDifferential input voltage 15 VIoPeak output current (internally limited) power dissipation at Tcase = 90 C20 WTstg, TjStorage and junction temperature 40 to + 150 C Obsolete Product(s) - Obsolete Product(s)
3 TDA2030 ADevice overviewDoc ID 1459 Rev 23/23 Table characteristics(Refer to the test circuit, VS = 16 V, Tamb = 25 C unless otherwise specified)SymbolParameterTest conditionMin. voltage 6 22 VIdQuiescent drain current5080mAIbInput bias currentVS = 22 AVosInput offset voltageVS = 22 V 2 20mVIosInput offset current 20 200nAPOO utput powerd = , Gv = 26 dBf = 40 to 15000 HzRL= 4 RL= 8 VS = 19 V;RL= 8 151013181216 WBWP ower bandwidthPo = 15 W; RL= 4 100kHzSRSlew rate8V/ secGvOpen loop voltage gainf = 1 kHz80dBGvClosed loop voltage gainf = 1 harmonic distortionPo = to 14 W; RL= 4 f = 40 to 15 000 Hz; f = 1 kHzPo = to 9 W, f = 40 to 15 000 HzRL= 8 order CCIF intermodulation distortionPO = 4W, f2 f1 = 1kHz, RL = 4 order CCIF intermodulation distortionf1 = 14 kHz, f2 = 15 kHz2f1 f2 = 13 noise voltageB = Curve A2 VB = 22Hz to 22kHz310 ViNInput noise currentB = Curve A50pAB = 22Hz to 22kHz80200pAS/NSignal-to-noise ratioRL = 4 , Rg = 10k , B = Curve APO = 15W106dBPO = 1W94dBRiInput resistance (pin 1)(open loop) f = 1 SVRS upply voltage rejectionRL = 4 , Rg = 22 k 54dBGv = 26 dB, f = 100 HzTjThermal shutdown junction temperature145 C Obsolete Product(s) - Obsolete Product(s) Device overviewTDA2030A4/23 Doc ID 1459 Rev 2 Figure supply amplifierFigure loop-frequency responseFigure power vs.
4 supply voltage Obsolete Product(s) - Obsolete Product(s) TDA2030 ADevice overviewDoc ID 1459 Rev 25/23 Figure harmonic distortion vs. output power (test using rise filters)Figure CCIF intermodulation distortion Figure signal frequency responseFigure 10. Maximum allowable power dissipation vs. ambient temp. Obsolete Product(s) - Obsolete Product(s) Device overviewTDA2030A6/23 Doc ID 1459 Rev 2 Figure 11. Output power vs. supply voltageFigure 12. Total harmonic distortion vs. output power Figure 13. Output power vs. input levelFigure 14. Power dissipation vs. output power Obsolete Product(s) - Obsolete Product(s) TDA2030 ADevice overviewDoc ID 1459 Rev 27/23 Figure 15.
5 single - supply high-power amplifier (TDA2030A + BD907/BD908)Figure 16. PC board and component layout for the single - supply high-power amplifier Obsolete Product(s) - Obsolete Product(s) Device overviewTDA2030A8/23 Doc ID 1459 Rev 2 Table performance of the single - supply high-power amplifierFigure 17. Typical amplifier with spilt power supplyFigure 18. PC board and component layout for the typical amplifier with split power supply SymbolParameterTest voltage3644 VIdQuiescent drain currentVs = 36 V50mAPoOutput powerd = , RL = 4 , f = 40 z to 15 HzVs = 39 VVs = 36 V3528 WWd = 10%, RL = 4 , f = 1 kHzVs = 39 VVs = 36 V4435 WWGvVoltage gainf = 1 rate8V/ sdTotal harmonic distortionf = = 20 W; f = 40 Hz to 15 sensitivityGv = 20 dB, f = 1 kHz, Po = 20 W, RL = 4 890mVS/NSignal-to-noise ratioRL = 4 , Rg = 10 k , B = Curve APo = 25 WPo = 4 W108100dBdB Obsolete Product(s) - Obsolete Product(s) TDA2030 ADevice overviewDoc ID 1459 Rev 29/23 Figure 19.
6 Bridge amplifier with split power supply (PO = 34 W, VS = 16 V)Figure 20. PC board and component layout for the bridge amplifier with split power supply Obsolete Product(s) - Obsolete Product(s) Multiway speaker systems and active boxesTDA2030A10/23 Doc ID 1459 Rev 22 Multiway speaker systems and active boxesMultiway loudspeaker systems provide the best possible acoustic performance since each loudspeaker is specially designed and optimized to handle a limited range of frequencies. Commonly, these loudspeaker systems divide the audio spectrum into two or three maintain a flat frequency response over the hi-fi audio range, the bands covered by each loudspeaker must overlap slightly. Imbalance between the loudspeakers produces unacceptable results, therefore it is important to ensure that each unit generates the correct amount of acoustic energy for its segment of the audio spectrum.
7 In this respect it is also important to know the energy distribution of the music spectrum to determine the cutoff frequencies of the crossover filters (see Figure 21). As an example, a 100 W three-way system with crossover frequencies of 400 Hz and 3 kHz would require 50 W for the woofer, 35 W for the midrange unit and 15 W for the 21. Power distribution vs. frequencyBoth active and passive filters can be used for crossovers, but today active filters cost significantly less than a good passive filter using air cored inductors and non-electrolytic capacitors. In addition, active filters do not suffer from the typical defects of passive filters: power less increased impedance seen by the loudspeaker (lower damping) difficulty of precise design due to variable loudspeaker , active crossovers can only be used if a power amplifier is provided for each drive unit.
8 This makes it particularly interesting and economically sound to use monolithic power some applications, complex filters are not really necessary and simple RC low-pass and high-pass networks (6 dB/octave) can be recommended. The results obtained are excellent because this is the best type of audio filter and the only one free from phase and transient distortion. Obsolete Product(s) - Obsolete Product(s) TDA2030 AMultiway speaker systems and active boxesDoc ID 1459 Rev 211/23 The rather poor out-of-band attenuation of single RC filters means that the loudspeaker must operate linearly well beyond the crossover frequency to avoid more effective solution, "Active Power Filter" by STMicroelectronics is shown in Figure 22.
9 Active Power FilterThe proposed circuit can realize combined power amplifiers and 12 dB/octave or 18 dB/octave high-pass or low-pass practice, at the input pins of the amplifier two equal and in-phase voltages are available, as required for the active filter impedance at the pin (-) is of the order of 100 , while that of the pin (+) is very high, which is also what was component values calculated for fc = 900 Hz using a Bessek 3rd order Sallen and Key structure are : Using this type of crossover filter, a complete 3-way 60 W active loudspeaker system is shown in Figure employs 2nd order Butterworth filters with the crossover frequencies equal to 300 Hz and 3 kHz. The midrange section consists of two filters, a high-pass circuit followed by a low-pass network.
10 With VS = 36 V the output power delivered to the woofer is 25 W at d = (30 W at d = ).The power delivered to the midrange and the tweeter can be optimized in the design phase taking in account the loudspeaker efficiency and impedance (RL = 4 to 8 ).It is quite common that midrange and tweeter speakers have an efficiency 3 dB higher than = C2 = C3R1R2R322 k k 33 k Obsolete Product(s) - Obsolete Product(s) Multiway speaker systems and active boxesTDA2030A12/23 Doc ID 1459 Rev 2 Figure 23. 3-way 60 W active loudspeaker system (VS = 36 V) Obsolete Product(s) - Obsolete Product(s) TDA2030 AMusical instruments amplifiersDoc ID 1459 Rev 213/233 Musical instruments amplifiersAnother important field of application for active systems is this area the use of several medium power amplifiers is more convenient than a single high-power amplifier, and it is also more realiable.