Samsung Electronics 5-1
RF I-V Amp(1) and RF I-V Amp(2) are converted to voltage via
internal resistance of 58k½ from the current of PD1(A+C) and PD2(B+D):
This voltage is added to RF summing amplifier.
The signal (A+B+C+D) is applied to RFO (No. 66 terminal).
RF output voltage is calculated as follows :
VFE = (R2/R1) x (V2-V1) = 5.4(V2-V1)
This FOCUS ERROR voltage is sent to FOCUS SERVO .
VRF = -R3 x (iPD1 + iPD2)
VRF = -R3 x (V1/R1 + V2/R2)
VRF = -R3 x ( + )
VRF = - x (V1 + V2)
10K 10K
V 1 V 2
10K
R3
66
Photo Detector
B
CA
D
PD1
PD2
58K
RF I-V AMP(1)
58K
10K
R2
RF I-V AMP(2)
V2
R1
10K
RF SUMMING
V1 AMP
RFO
RF
66
R3
65
74
73
5-1-1 RF Amp (KA9220) : WIC01
5-1-2 FOCUS ERROR Amp(KA9220) : WIC01
59
R2
174K
C1 25P
FE
FOCUS
ERROR
AMP
164K
32K
C2 25P
-(A+C)
-(B+D)
R1
V1 32K
5-1-3 FOCUS SERVO SYSTEM (KA9220) : WIC01
When FS3 is ON, high frequency gain decreases (time constant set by pin17, pin19, and capacitor connected
to internal resistance).
The capacitor between pin 18 and GND sets the time constant to pass the low frequency operated in PLAY mode.
The maximum frequency of focus phase compensation is inversely proportional to the resistance connected to
pin 7. Focus search peak is about 1.1 Vp-p, and is inversely proportional to the resistance connected to pins 22,23
(if this resistance changes, the peak of track jump and sled kick change).
The inversion input of FZC comparator is set to 5.7% of the difference between Vcc and VC(pin69) {{5.7% x (Vcc-Vc)}.
Note : If the resistance connected to pin7 changes, the phase compensation peak of focus, tracking, sled servo changes.
At the same time, 'op-amp' dynamic range and offset voltage also change.
3.6K
20
21
47
48
60K
FZC
0.0022
20K
0.1UF
0.1UF
FDFCT
HFGD
EFR
FE2
470K
DFCT
FS4
20K 48K
58
60
62
46K
580K FS3
FSW
470K
130K
0.1UF
27
40K
6
PFSET
FS2
PHASE
COMPENSATION
92K
40K
10K
3
4.7UF
FSCH
FS1
50K
5.5U 11U
VREG
180K
ISET
FCE
120K
FOCUS
COIL
FSEO
FE1
61
5-1 CD
FOCUS ERROR Amp is the circuit which amplifies the difference
between RF I-V Amp(1) output (A+C) and RF I-V Amp(2)
output(B+D).
These two signals are supplied to (-) and (+) input terminals of
FOCUS ERROR Amp. The FOCUS ERROR signal resulting from this
difference voltage is applied to FE (Terminal No.57).
The FE output voltage of this low frequency component varies
according to {(A+C) - (B+D)}.
VFE is calculated as follows :
5. Special Circuit Descriptions
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