Transistors smd

Q1 = Q4 = Q5 = Q6 = Q7 = Q8 = Q9 = Q11 = Q12 = Q13 = Q14 -> J3 -> NPN

Q2 = Q10 = Q15 -> 2T1 -> PNP

Q3 = J6 -> NPN

Résistances smd

R4 = R5 = 101 = 100 ohms

R60 = R61 = 511 = 510 ohms

R47 = R51 = R77 = R81 = 102 = 1 k

R2 = 152 = 1,5 k

R63 = R76 = 2k

R1 =  R34 =  302 = 3k

R11 = R12 = 332 = 3,3 k

R7 = 392 = 3,9 k

R27 = R32 = R41 = 502 = 5 k

R78 = 512 = 5,1 k

R6 = R8 = R13 = R21 = R25 = R53 = R73 = 103 = 10 k

R54 = 123 = 12 k

R9 = R10 = R14 =  R15 =  R16 =  R17 =  R18 =  R19 =  R30 =  R33 = R42 =  R43 =  R68 =203 = 20 k

R44 =433 = 43 k

R28 = R35 = R37 = R46 = R48 = R62 =473 = 47 k

R57 =  R75 = 823 =  82 k

R20 = R23 = R24 =  R29 = R31 = R40 = R49 = R52 =  R55 = R56 =  R58 =  R59 =  104 = 100 k

R64 = R65 = R66 = R67 = R69 =  R70 =  R72 =   R74 = 104 = 100 k

R79 = 124 = 120 k

R22 = R80 = 204 = 200 k

R71 = 364 = 360 k

R26 = R39 = 474 = 470 k 

R3 = R36 = R38 = R45 =105 = 1 M

Les capacités électrolytiques

C24 = 10 uF de 25 V

C29 = C32 = C33 = 100 uF de 16 V

C30 = 220 uF de 16V

C31 = 470 uF de 16V

Les capacités non-électrolytiques

C1 = 2,2 nF

C2 = 220 nF

C3 = 6,8 nF

C4 = 1,2 nF

C5 = 330 pF

C6 = 162 nF

C7 = 100 nF

C8 = 1 nF

C9 =  100 nF

C10 = 100 nF

C11 = 820 nF

C13 = 10 nF

 C14 = 820 nF

C15 = 430 nF

C17 = 100 nF

C19 =  10 nF

C20 = 820 nF

C21 = 430 nF

C22 = 22 nF

C23 = 100 nF

C25 = 6,2 nF

C26 = 22 nF

C34 = 168 nF

C35 = 168 uF