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circuit audio power amplifier circuit three channels of 25W mute stand-by circuit lm4782

Konusu 'Amplifikatör Devreleri' forumundadır ve guclusat tarafından 1 Aralık 2009 başlatılmıştır.

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    Katılım:
    14 Haziran 2009
    Mesajlar:
    9.754
    Ödül Puanları:
    48
    LM4782 is audio amplifier of three channels capable to supply 25W of potency for channel.

    LM4782 uses the system of protection of National Self Peak Instantaneous Temperature (˚Ke) (SPiKe[SUP]TM[/SUP]). Spike protects the exit of the lm4782 of on tension on load, short of the source for gnd, temperature protection and picks instantaneous of temperature. Each amplifier of the lm4782 has a mute circuit and internal stand-by, that can be controlled by logic it expresses. LM4782 can be configured to be used in bridge or in parallel way without complications, it exists several ways to use integrated him. To know more on spike it seeks for AN-898 in the site national.com .
    Description of the operation of the circuit of the amplifier with lm4782

    The circuit described here it is treated of the application suggested by the national semiconductors for an amplifier of potency of three channels with having integrated lm4782. To determine the heat-sink to be used it sees the datasheet of the lm4782.
    In the way stand-by the drain of current of the source VCC is less than 30µA for all amplifiers and chain drained of the source VEE is typically of 8mA.
    Bypassing Capacitors

    To eliminate possible oscillations or instability in low frequency high frequency either is used a capacitor electrolytic or of tantalum to absorb variations in low frequency and a ceramic capacitor to prevent feedback in discharges frequencies. those components are placed in the power lines.
    Filter high raisin

    The combination of it Laughs with ci it creates a filter high raisin. The frequency answer is determined by those two components. The point of -3dB can be found using the equation below:
    f[SUB]i[/SUB]=1/(2πR[SUB]i[/SUB]C[SUB]i[/SUB]) (Hz)
    If a capacitor of blockade dc be used, there is another filter it passes discharge servant with the combination of Cin and Rin. When great values of Rin are used it can happen oscillations in the exit.

    To determine the type of the heat-sink and other assembly configurations it sees the datasheet of the lm4782.
    Source for the circuit

    That proposed circuit requests a symmetrical source of +-25volts that is capable of 4 amperes of current, is necessary that is regulated. Just use a good transformer, rectificators and great capacitors of filter of at least 10000µF.
    Schematic of the circuit of the potent amplifier with lm4782

    [​IMG]
    Printed circuit board (couple face) side of the it welds suggested by the national for assembly of the potent amplifier of three channels

    [​IMG]
    Circuit printed (couple face) printed side of the components suggested by the national for assembly of the amplifier

    [​IMG]
    Assembly of the components of the amplifier in the printed

    [​IMG]
    silkscreen of the board of the amplifier

    [​IMG]
    It lists of material for assembly of the amplifier

    [TABLE]
    [TR]
    [TD]Name[/TD]
    [TD]value[/TD]
    [TD]tolerance[/TD]
    [TD]type /description[/TD]
    [/TR]
    [TR]
    [TD]RIN1,RIN2,RIN3[/TD]
    [TD]33kP6;[/TD]
    [TD]5%[/TD]
    [TD]1/4 watt[/TD]
    [/TR]
    [TR]
    [TD]RB1,RB2,RB3[/TD]
    [TD]1kP6;[/TD]
    [TD]1%[/TD]
    [TD]1/4 watt[/TD]
    [/TR]
    [TR]
    [TD]RF1,RF2,RF3[/TD]
    [TD]20kP6;[/TD]
    [TD]1%[/TD]
    [TD]1/4 watt[/TD]
    [/TR]
    [TR]
    [TD]Ri1,Ri2,Ri3[/TD]
    [TD]1kP6;[/TD]
    [TD]1%[/TD]
    [TD]1/4 watt[/TD]
    [/TR]
    [TR]
    [TD]RSN1,RSN2,RSN3[/TD]
    [TD]4.7P6;[/TD]
    [TD]5%[/TD]
    [TD]2 watt[/TD]
    [/TR]
    [TR]
    [TD]ID[/TD]
    [TD]2.7P6;[/TD]
    [TD]5%[/TD]
    [TD]1/4 watt[/TD]
    [/TR]
    [TR]
    [TD]RV[/TD]
    [TD]5.1kP6;[/TD]
    [TD]5%[/TD]
    [TD]1/4 watt[/TD]
    [/TR]
    [TR]
    [TD]CIN1,CIN2,CIN3[/TD]
    [TD]1µF[/TD]
    [TD]10%[/TD]
    [TD]Film metallic polyester[/TD]
    [/TR]
    [TR]
    [TD]CN1,CN2,CN3[/TD]
    [TD]15pF[/TD]
    [TD]20%[/TD]
    [TD]Ceramic[/TD]
    [/TR]
    [TR]
    [TD]Ci1,Ci2,Ci3[/TD]
    [TD]68µF[/TD]
    [TD]20%[/TD]
    [TD]Ceramic Radial / 35V[/TD]
    [/TR]
    [TR]
    [TD]CSN1,CSN2,CSN3[/TD]
    [TD]0.1µF[/TD]
    [TD]20%[/TD]
    [TD]Ceramic[/TD]
    [/TR]
    [TR]
    [TD]CV[/TD]
    [TD]0.1µF[/TD]
    [TD]20%[/TD]
    [TD]Ceramic[/TD]
    [/TR]
    [TR]
    [TD]CS1,CS2[/TD]
    [TD]0.1µF[/TD]
    [TD]20%[/TD]
    [TD]Ceramic[/TD]
    [/TR]
    [TR]
    [TD]CS3,CS4[/TD]
    [TD]10µF[/TD]
    [TD]20%[/TD]
    [TD]Radial Ceramic /50V[/TD]
    [/TR]
    [TR]
    [TD]CS5,CS6[/TD]
    [TD]2,200µF[/TD]
    [TD]20%[/TD]
    [TD]Ceramic Radial / 50V[/TD]
    [/TR]
    [TR]
    [TD]S1,S2[/TD]
    [TD][/TD]
    [TD][/TD]
    [TD]Key SPDT (on-on)[/TD]
    [/TR]
    [TR]
    [TD]J1,J2,J3[/TD]
    [TD][/TD]
    [TD][/TD]
    [TD]PCB Montage RCA[/TD]
    [/TR]
    [TR]
    [TD]Jack J5,J7,J9,J11[/TD]
    [TD][/TD]
    [TD][/TD]
    [TD]PCB Banana Jack – Black[/TD]
    [/TR]
    [TR]
    [TD]J4,J6,J8,J10,J12[/TD]
    [TD][/TD]
    [TD][/TD]
    [TD]PCB Banana Jack – Red[/TD]
    [/TR]
    [TR]
    [TD]VZD[/TD]
    [TD]5.1V[/TD]
    [TD][/TD]
    [TD]Zener Diode 1W[/TD]
    [/TR]
    [TR]
    [TD]U1[/TD]
    [TD]LM4782[/TD]
    [TD][/TD]
    [TD]TO-220[/TD]
    [/TR]
    [/TABLE]
     
    Son düzenleme: 15 Temmuz 2014
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