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Widerstände:
R1,R9 = 10 k
R2 = 220 Ohm
R3 = 27 k
R4,R7 = 100 k
R5 = 3k9
R6 = 3k3
R8 = 39 k
R10 = 5k6
R11 = 220 k
R12,R13,R14 = 10k0
R15,R16 = 20k0
R17 = 47 k
R18 = 1k00
R19 = 30k9
R20,R21 = 820 Ohm
R22...R31,R34 = 100 Ohm
R32 = 1k2
R33 = 470 Ohm
R35 = 4Ohm 7
R36 = 2k7
P1 = 500 k Trimmpoti
P2 = 500 Ohm Trimmpoti
Kondensatoren:
C1,C2 = 22 µ/40 V stehend
C3,C14 = 470 µ/16 V stehend
C4 = 15 p
C5 = 56 n, Raster 5 mm
C6 = 2n7, Raster 5 mm
C7 = 4n7, Raster 5 mm
C8 = 8n2, Raster 5 mm
C9 = 10 n, Raster 5 mm
C10,C11 = 2µ2/63 V stehend
C12 = 100 n
C13 = 100 n, Raster 5 mm
C15 = 1000 µ/6V3 stehend
C16 = 470 µ/10 V stehend
C17 = 10 µ/63 V stehend
C18 = 470 µ/25 V stehend
Halbleiter:
D1...D10 = LED rot (keine Low-Current!)
D11 = 1N4148
D12 = BAT85
D13 = LED grün (Low-Current)
IC1 = TLC274
IC2 = TLC272
IC3,IC4 = LM3915
IC5...IC14 = S202S02 (Sharp)
IC15 = 7808
Außerdem:
JP1 = 2-polige Stiftleise + Jumper
JP2 = 3-polige Stiftleise + Jumper
K1...K11 = 2-poliger Schraubklemm-Verbinder, Raster 7,5 mm
K12 = Cinch-Buchse für Gehäuse-Montage
Tr1 = 9V/4VA8 z. B. Gerth 421.09
B1 = B80C1500 gerade (- ~ + ~)
F1...F10 = 0,5 A/F + Platinen-Sicherungshalter
MIC1 = MCE2000 (Monacor) oder Äquivalent
F11 = 32 mA/T + Platinen-Sicherungshalter
Platine EPS 020122-1
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