-
R1,R10
= 4k7
-
R2,R3,R14,R15,
R28,R29,R30 = 8k2
-
R4,R32
= 470 Ohm
-
R5,R19
= 2k2
-
R6
= 82k
-
R7,R11
= 47 Ohm
-
R8,R21,R25
= 18 Ohm
-
R9,R31
= 100 Ohm
-
R12,R16
= 1k instel (Bourns 3304W)
-
R22
= 300 Ohm R23,R24 = 75 Ohm
-
C1,C4 = 68p
-
C2,C3 = 10µ elko
-
C5,C14,C22,
-
C26,C33 = 33µ tantalio
-
C6 = 1n5
-
C7,C27,C28 = 1n
-
C8,C18,C29..C32,
-
C34,C35,C38,C39 =
100n ceramico
-
C9,C12 = 10p
-
C10,C16,C40,C41 = 1p
-
C11,C15,C17,C21,
-
C23,C24,C25,C36 =
47p
-
C143 = 5p trimmer (Stettner)
-
C37 = 1µ ceramico
|
-
D1,D2 = GF1B
-
D3,D4,D5 = BB811
-
T1 = BFR30
-
T2 = BFR92
-
U1 = LM7808CT
-
U2 = ICL7611DCBA
-
U3 = MC145151P2 (Motorola)
-
U4 = 78L05ACM
-
U5 = M67715 (Mitsubishi)
-
U6 = MSA-0886 (Avantek)
-
U7 = MB501L (flatpack,
Fujitsu)
-
L1,L4,L6 = 0,1µH
-
L2,L3 = 10µH
-
L5 = 10nH
-
X1 = 8 MHz-Quarzo
-
J1..J6 = tweepolige
header
______________________________
-
1 connettore N
Femmina-da pannello
-
1 jack (3,5mm)
-
1 contenitore
metallico 7,5 x
9,7 x 2,5 cm (SK04 75 mm)
| 