Model Name Using Similar MechanismD-E700/E705
CD Mechanism TypeCDM-2911DBB/2911EBA
Optical Pick-Up NameDAX-11D/11E
SPECIFICATIONS
Canadian Model
E Model
Australian Model
Chinese Model
D-E554
Tourist Model
D-E505
CD player section
System
Compact disc digital audio system
Laser diode properties
Material: GaAlAs
Wavelength: λ=780 nm
Emission duration: Continuous
Laser output: Less than 44.6 µW (This output
is the value measured at a distance of 200
mm from the objective lens surface on the
optical pick-up block with 7 mm aperture.)
Error correction
Sony Super Strategy Cross Interleave Reed
Solomon Code
D-A conversion
1-bit quartz time-axis control
Frequency response
20 – 20,000 Hz
307)
Output (at 4.5 V input level)
Headphones (stereo minijack)
15 mW + 15 mW at 16 ohms
Line output (stereo minijack)
Output level 0.7 V rms at 47 kilohms
Recommended load impedance over 10
kilohms
Optical digital output (optical output
connector)
Output level: –21 to –15 dBm
Wavelength: 630 – 690 nm at peak level
+1
dB (measured by EIAJ CP-
–2
General
Power requirements
For the area code of the model you purchased,
check the upper left side of the bar code on the
package.
• Two Sony NH-DM2AA rechargeable
batteries: 2.4 V DC
Two Sony NC-DMAA rechargeable
batteries: 2.4 V DC
• Two LR6 (size AA) batteries: 3 V DC
• AC power adaptor (DC IN 4.5 V jack):
Canadian model: 120 V, 60 Hz
E13 model: 220 – 230 V, 50/60 Hz
Australian model: 240 V, 50Hz
Tourist/E33 model: 100 – 220 V, 50/60 Hz
Hong Kong model: 220 V, 50/60 Hz
Chinese model: 220 V, 50 Hz
• Sony DCC-E245 car battery cord for use on
car battery: 4.5 V DC
Dimensions (w/h/d) (without projecting
parts and controls)
8.ELECTRICAL PARTS LIST ............................... 44
This appliance is classified as a CLASS 1 LASER product.
The CLASS 1 LASER PRODUCT MARKING is located on
the rear exterior.
CAUTION
Use of controls or adjustments or performance of procedures
other than those specified herein may result in hazardous radiation exposure.
Discrimination of MAIN board
– MAIN BOARD (Side A) –
1-671-585-11
or
1-671-585-12
Flexible Circuit Board Repairing
• Keep the temperature of the soldering iron around 270 ˚C during repairing.
• Do not touch the soldering iron on the same conductor of the
circuit board. (within 3 times)
• Be careful not to apply force on the conductor when soldering
or unsoldering.
Notes on chip component replacement
• Never reuse a disconnected chip component.
• Notice that the minus side of a tantalum capacitor may be damaged by heat.
SAFETY-RELATED COMPONENT WARNING!!
COMPONENTS IDENTIFIED BY MARK ! OR DOTTED
LINE WITH MARK ! ON THE SCHEMATIC DIAGRAMS
AND IN THE PARTS LIST ARE CRITICAL TO SAFE
OPERATION. REPLACE THESE COMPONENTS WITH
SONY PARTS WHOSE PART NUMBERS APPEAR AS
SHOWN IN THIS MANUAL OR IN SUPPLEMENTS PUBLISHED BY SONY.
– 2 –
MAIN Board1-671-585-111-671-585-12
CD Mechanism TypeCDM-2911DBB
Optical Pick-Up NameDAX-11D
ATTENTION AU COMPOSANT AYANT RAPPORT
À LA SÉCURITÉ!
LES COMPOSANTS IDENTIFIÉS P AR UNE MARQUE !
SUR LES DIAGRAMMES SCHÉMATIQUES ET LA LISTE
DES PIÈCES SONT CRITIQUES POUR LA SÉCURITÉ
DE FONCTIONNEMENT. NE REMPLACER CES COMPOSANTS QUE PAR DES PIÈCES SONY DONT LES
NUMÉROS SONT DONNÉS DANS CE MANUEL OU
DANS LES SUPPLÉMENTS PUBLIÉS PAR SONY.
CDM-2911DBB
or
CDM-2911EBA
DAX-11D
or
DAX-11E
SECTION 1
SERVICING NOTES
NOTES ON HANDLING THE OPTICAL PICK-UP
BLOCK OR BASE UNIT
The laser diode in the optical pick-up block may suffer electrostatic breakdown because of the potential difference generated by
the charged electrostatic load, etc. on clothing and the human body .
During repair, pay attention to electrostatic breakdown and also
use the procedure in the printed matter which is included in the
repair parts.
The flexible board is easily damaged and should be handled with
care.
Befor Replacing the Optical Pick-Up Block
Please be sure to check thoroughly the parameters as par the “Optical Pick-Up Block Checking Procedures” (Part No.: 9-960-027-
11) issued separately before replacing the optical pick-up block.
Note and specifications required to check are given below.
• FOK output: IC501 !™ pin
When checking FOK, remove the lead wire to disc motor.
• S curve P-to-P value: 0.6 to 1.8 Vp-p IC501 #¡ pin
When checking S curve P-to-P value, remove the lead wire to
disc motor.
• RF signal P-to-P value: 0.8 to 1.2 Vp-p
• Traverse signal P-to-P value: 1.2 Vp-p
• The repairing grating holder is impossible.
Precautions for Checking Emission of Laser Diode
Laser light of the equipment is focused by the object lens in the
optical pick-up so that the light focuses on the reflection surface
of the disc. Therefore, be sure to keep your eyes more then 30 cm
apart from the object lens when you check the emission of laser
diode.
Laser Diode Checking Methods
During normal operation of the equipment, emission of the laser
diode is prohibited unless the upper panel is closed while turning
ON the S801. (push switch type)
The following two checking methods for the laser diode are operable.
• Method (In the service mode or normal operation):
Emission of the laser diode is visually checked.
1. Open the upper lid.
2. Push the S801 as shown in Fig. 1.
3. Press the ^ key.
4. Check the object lens for confirming normal emission of the
laser diode. If not emitting, there is a trouble in the automatic
power control circuit or the optical pick-up.
During normal operation, the laser diode is turned ON about
2.5 seconds for focus searching.
S801
Fig. 1 Method to push the S801
– 3 –
SECTION 2
GENERAL
This section is extracted from
instruction manual.
– 4 –
– 5 –
– 6 –
SECTION 3
DISASSEMBLY
Note: Follow the disassembly procedure in the numerical order given.
CABINET (LOWER)
1
five screws
(2
×
8)
5
cabinet (lower)
4
two claws
4
two claws
2
Open the battery case lid.
INSTALLATION MAIN BOARD
On installation MAIN board adjust the
S301, 803, 804, and knob (H-R, A VLS).
S804
3
two claws
Note:Take care not to allow the rechargeable
battery detection plate to ride on the mold
of the bottom plate.
S301
S803
knob (AVLS)
knob (H-R)
– 7 –
SECTION 4
]
SERVICE MODE
Service Mode (Service program)
The equipment is provided with a service program built in the
microcomputer, like conventional models.
Service program operation methods are described in the following.
PLAY MODE
HOLD
c
Be sure to turn OFF
the HOLD switch
(If ON, all the LCD
indication and
LED are light up)
=
(FR)
The optical pick-up
is moved inwardly
+
The optical pick-up
is moved outwardly
(FF)
Tracking servo and sled
servo are turned ON
REPEAT/ENTER
Tracking gain-up mode
while pressing
^
(PLAY/PAUSE)
Focus is tuned ON to
effect draw-in mode
p
(STOP)
[All servos are turned OFF
4. By pressing the ^ key , focus is turned ON from focus searching while entering CLV-S. (draw-in mode)
Without disc, focus searching is repeated continuously.
5. By pressing the PLAY MODE key, tracking servo, sled servo
and CLV-A (servo in PLAY) are turned ON.
6. When step 4 and 5 are performed, playing begins. No muting
is ON in the service mode.
7. By pressing the p key, all servos (focus, tracking and sled)
are turned OFF . Ho we ver, the disc motor revolv es for a while
by inertia.
• Step 3 (Resetting of service mode)
1. Be sure to disconnect the external power supply and remove
the solder bridge at the TEST terminals connected before in
setting.
2. The set thus becomes available for normal operation.
– MAIN BOARD (Side A) –
Descriptions in [ ] indicate major operations in the service
mode. For more informatrion, see Step 2.
Fig. 1 Layout of each key
• Step 1 (Service mode setting methods)
1. Turn OFF the HOLD switch with external power supply disconnected. (power is not applied to the set)
2. Solder across the TEST terminals (TAP802). (pin %¢, IC801
(ESPSL/TEST) is grounded)
3. Connect an external power supply.
Thus, the set is switched to the service mode.
• Step 2 (Operation in the service mode)
1. Once the service mode is effected, the LCD displays 5 indications each of which is repeatedly displayed.
However, the following operations can be activated even if
LCD indication is effected.
2. By pressing the + or = key, the optical pick-up is movable inwardly or outwardly . Howev er, if this is acti vated, tracking servo and sled servo are turned OFF, so it can be turned
ON by pressing the PLAY MODE key if required.
3. By pressing the REPEAT/ENTER key, the tracking gain-up
mode becomes active.
TAP802
(TEST)
Fig. 2 Location of Test terminal
– 8 –
SECTION 5
ELECTRICAL ADJUSTMENTS
Precautions for Adjustment
1. Before beginning adjustment, set the equipment to service
mode.
After the completion of adjustment, be sure to reset the service mode.
For more information, see “Service Mode (service program) ”
on page 8.
2. Perform adjustments in the order given.
3. Use YEDS-18 disc (P art No.: 3-702-101-01) unless otherwise
indicated.
4. Power supply voltage requirement: DC2.5 V in battery terminal
VOLUME knob : Minimum
RESUME switch : OFF
ESP switch: OFF
AVLS switch: NORMAL
HOLD switch: OFF
Before Beginning Adjustment
Set the equipment to service mode (See page 8) and check the
following. If there is an error, repair the equipment.
• Checking of the sled motor
1. Open the upper panel.
2. Press the + and = keys and check that the optical pickup can move smoothly without sluggishness or abnormal noise
in innermost periphery n outermost periphery n innermost
periphery
+ : The optical pick-up moves outwardly.
= : The optical pick-up moves inwardly.
• Checking of focus searching
1. Open the upper panel.
2. Press the ^ key . (Focus searching operation is acti vated continuously)
3. Check the object lens of the optical pick-up for smooth up/
down motion without sluggishness or abnormal noise.
4. Press the p key.
Check that focus searching operation is deactivated. If not,
again press the p key slightly longer.
VCC Adjustment
Adjustment Procedure:
digital voltmeter
(DC range)
MAIN board
TP401 (VCC)
SUFFIX-11: See page 11
SUFFIX-12: See page 12
+
–
1. Set the equipment to service mode stop state. (See page 8)
2. Connect the digital voltmeter to TP401 (VCC) on the MAIN
board.
3. Adjust R V401 on the MAIN board so that the reading on digital voltmeter goes 2.77 V.
Specifications: 2.75 V to 2.8 V
4. After the completion of adjustment, reset service mode. (See
page 8)
Adjustment Location:MAIN Board (SUFFIX-11: See page 11,
SUFFIX-12: See page 12)
Focus bias Check
Condition:
• Hold the set in horizontal state.
Check Procedure:
oscilloscope
(AC range)
MAIN board
TP522 (RFO)
TP520 (VC)
SUFFIX-11: See page 11
SUFFIX-12: See page 12
2 k
Ω
+
–
1. Set the equipment to service mode stop state. (See page 8)
2. Connect the oscilloscope to the test point TP522 (RFO) on the
MAIN board.
3. Move the optical pick-up to the center by pressing the +
and = keys.
4. Put the disc. (YEDS-18)
5. Press the ^ key.
From focus searching, focus is turned ON while entering
CLV drawing-in mode. Tracking and sled are tur ned OFF.
6. Press the PLA Y MODE key . (Both tracking and sled are turned
ON)
7. Check the oscilloscope waveform is as shown below.
A good eye pattern means that the diamond shape (≈) in the
center of the waveform can be clearly distinguished.
RF Signal Reference Waveform (Eye Pattern)
VOLT/DIV : 200 mV (With the 10:1 probe in use)
TIME/DIV : 500 ns
RF level
0.8 to 1.2 Vp-p
To watch the eye pattern, set the oscilloscope to AC range and
increase the vertical sensitivity of the oscilloscope for easy watching.
8. Stop revolving of the disc motor by pressing the p key.
9. After the completion of adjustment, reset service mode. (See
page 8)
Checking Location: MAIN Board (SUFFIX-11: See page 11,
SUFFIX-12: See page 12)
Focus/Tracking Gain Adjustment
A servo analayzer is necessary in order to perform this adjustment
exactly .
However, this gain has a margin, so even if it is slightly off,
there is no problem. Therefore, do not perform this adjustment.
Focus/tracking gain determines the optical pick-up follow-up relative to mechanical noise and mechanical shock when the 2-axis
device operates. However, as these reciprocate, the adjustment is
at the point where both are satisfied.
• When gain is rased, the noise when 2-axis device operates increase.
• When gain is lowered, it is more susceptible to mechanical shock
and skipping occurs more easily.
This adjustment has to be performed upon replacing any of the
following parts.
• Optical pick-up
• RV503 (Focus gain VR)
• RV502 (Tracking gain VR)
Normally, be sure not to move RV503 (focus gain VR) and
RV502 (tracking gain VR).
Adjustment procedure:
– Focus Gain Adjustment –
This adjustment is not performed.
If focus gain VR RV503 is turned, set to mechanical center.
Adjustment Location:MAIN Board (SUFFIX-11: See page 11,
SUFFIX-12: See page 12)
– Tracking Gain Adjustment –
(perform at normal operation)
oscilloscope
(DC range)
MAIN board
TP (TE)
TP520 (VC)
SUFFIX-11: See page 11
SUFFIX-12: See page 12
10 k
Ω
0.0022 µF
+
–
1. Place the optical pick-up level, horizontally. (If the optical
pick-up is not level, the 2-axis device will be weighted and
adjustment cannot be done)
2. Connect the oscilloscope to TP (TE) and TP520 (VC) on the
MAIN board.
3. Set the disc (YEDS-18) and press the ^ key.
4. Turn RV502 slightly clockwise (tracking gain drops) and ob-
tain a waveform with a fundamental wav e (waveform has lar ge
waves) as in Figure 1.
5. Turn R V502 slowly counterclockwise (tracking gain rises) until
the fundamental wave disappears (no large waves) as in Figure 2.
6. Set RV502 to the position about 30˚ counterclockwise form
the position obtained in step 5. If R V502 contact point is more
than 90˚ counterclockwise from mechanical center, tracking
gain is too high. In this case, readjust from step 4.
7. Press + or = key and observe the 100 track jump wave-
form. Check that no traverse waveform appears for both +
or = directions. (See Figures 3 and 4)
It is acceptable if the traverse waveform appears only now
and then, but if it appears constantly , raise tracking gain slightly
and check step 7 again.
8. Check that there is not abnormal amount of operation noise
(white noise) from the 2-axis device. If there is, tracking gain
is too high, readjust starting with step 4.
The waveforms are those measured with the oscilloscope set as
shown below.
• VOLT/DIV: 500 mV
• TIME/DIV: 5 ms
• Waveform when tracking gain is lowered.
Fundamental wave appears. (large waves)
––– 0 V
Fig. 1
• W aveform when fundamental wa ve disappears. (no large wa ves)
––– 0 V
Fig. 2
• Waveform with no traverse waveform during 100 track jump.
(Brake application is smooth because of adjustment)
––– 0 V
100 track jump waveform
Fig. 3
• Waveform with traverse waveform during 100 track jump.
(Brake application is poor because of adjustment)
––– 0 V
100 track jump
waveform
traverse waveform
Fig. 4
Adjustment Location:MAIN Board (SUFFIX-11: See page 11,
SUFFIX-12: See page 12)
Adjustment and Checking Location:
– MAIN BOARD (Side A) – (SUFFIX-11)
TP522
(RFO)
RV503
Focus gain
Adjustment
TP520
(VC)
TP
(TE)
RV502
Tracking gain
Adjustment
TP401
(VCC)
RV401
(VCC)
– MAIN BOARD (Side A) – (SUFFIX-12)
TP522
(RFO)
RV503
Focus gain
Adjustment
TP520
(VC)
TP
(TE)
Tracking gain
Adjustment
TP401
(VCC)
RV401
(VCC)
RV502
– 9 –
– 10 –
– 11 –
– 12 –
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