Read Sony CMT-NE3 / HCD-NE3 Service Manual online
SERVICE MANUAL
COMPACT DISC DECK RECEIVER
US Model
Canadian Model
AEP Model
UK Model
E Model
Australian Model
HCD-NE3
Ver. 1.1 2005.07
9-877-693-02
Sony Corporation
2005G05-1
Personal Audio Group
© 2005.07
Published by Sony Engineering Corporation
SPECIFICATIONS
•
HCD-NE3 is the amplifier, CD player, tape deck
and tuner section in CMT-NE3.
and tuner section in CMT-NE3.
Model Name Using Similar Mechanism
NEW
CD Section
Base Unit Name
BU-K7BD80B
Optical Pick-up Name
KSM-213EDP/C2NP
TAPE Section
Model Name Using Similar Mechanism
NEW
Tape Transport Mechanism Type
CMAL5Z220A
CD player section
Laser
Semiconductor laser
(
(
λ
=780 nm)
Emission duration:
continuous
continuous
Frequency response
20 Hz – 20 kHz
Wavelength
780 – 790 nm
Tape deck section
Recording system
4-track 2-channel, stereo
Frequency response
50 – 13,000 Hz (
±
3 dB),
using Sony TYPE I
cassettes
cassettes
Tuner section
FM stereo, FM/AM superheterodyne tuner
FM tuner section
Tuning range
87.5 – 108.0 MHz
Antenna
FM lead antenna
Antenna terminals
75 ohms unbalanced
Intermediate frequency
10.7 MHz
AM tuner section
US, Canadian, Mexican and Argentina models:
US, Canadian and Mexican models:
530 – 1,710 kHz
(with the tuning interval
set at 10 kHz)
531 – 1,710 kHz
(with the tuning interval
set at 9 kHz)
(with the tuning interval
set at 10 kHz)
531 – 1,710 kHz
(with the tuning interval
set at 9 kHz)
AEP and UK models:
531 – 1,602 kHz
(with the tuning interval
set at 9 kHz)
(with the tuning interval
set at 9 kHz)
Other models:
530 – 1,710 kHz
(with the tuning interval
set at 10 kHz)
531 – 1,602 kHz
(with the tuning interval
set at 9 kHz)
(with the tuning interval
set at 10 kHz)
531 – 1,602 kHz
(with the tuning interval
set at 9 kHz)
Antenna
AM loop antenna, external
antenna terminal
antenna terminal
Intermediate frequency
450 kHz
AUDIO POWER SPECIFICATIONS
POWER OUTPUT AND TOTAL HARMONIC
DISTORTION:
(US model)
DISTORTION:
(US model)
With 6 ohm loads, both channels driven, from
120-10,000 Hz; rated 13 watts per channel
minimum RMS power, with no more than 10%
total harmonic distortion from 250 milliwatts to
rated output.
120-10,000 Hz; rated 13 watts per channel
minimum RMS power, with no more than 10%
total harmonic distortion from 250 milliwatts to
rated output.
Main unit
Amplifier section
North American model:
Continuous RMS power output (reference):
Continuous RMS power output (reference):
15 + 15 W
(6 ohms at 1 kHz, 10%
THD)
(6 ohms at 1 kHz, 10%
THD)
European model:
DIN power output (rated): 11 + 11 W (6 ohms at 1
DIN power output (rated): 11 + 11 W (6 ohms at 1
kHz, DIN)
Continuous RMS power output (reference):
15 + 15W (6 ohms at 1
kHz, 10% THD)
kHz, 10% THD)
Music power output (reference):
25 + 25 W
Other models:
The following measured at AC 230 V or AC 120 V, 50/
60 Hz
DIN power output (rated): 11 + 11 W
The following measured at AC 230 V or AC 120 V, 50/
60 Hz
DIN power output (rated): 11 + 11 W
(6 ohms at 1 kHz, DIN)
Continuous RMS power output (reference):
15 + 15 W
(6 ohms at 1 kHz, 10%
THD)
(6 ohms at 1 kHz, 10%
THD)
Inputs
MD (phono jacks):
MD (phono jacks):
Sensitivity 450 mV,
impedance 47 kilohms
impedance 47 kilohms
Outputs
PHONES:
PHONES:
Accepts headphones with
an impedance of 8 ohms or
more
an impedance of 8 ohms or
more
SPEAKER:
Accepts impedance of 6 to
16 ohms.
16 ohms.
General
Power requirements
120 V AC, 60 Hz
AEP and UK models:
230 V AC, 50/60 Hz
Australian model:
230 – 240 V AC, 50/60 Hz
Argentina and Korean models:
220 V AC, 60 Hz
Taiwanese model:
120 V AC, 50/60 Hz
Saudi Arabian model:
120 – 127/220 V AC, 50/
60 Hz
60 Hz
Other models:
110 – 120 V or 220 – 240 V
AC, 50/60 Hz
Adjustable with voltage
selector
AC, 50/60 Hz
Adjustable with voltage
selector
Power consumption
45 W
Dimensions (w/h/d)
Approx. 164
×
230.5
×
263
mm incl. projecting parts
and controls
and controls
Mass
Approx. 3.7 kg
Supplied accessories
Remote Commander (1)
R6 (size AA) batteries (2)
AM loop antenna (1)
FM lead antenna (1)
R6 (size AA) batteries (2)
AM loop antenna (1)
FM lead antenna (1)
Design and specifications are subject to change
without notice.
without notice.
HCD-NE3
2
Notes on chip component replacement
• Never reuse a disconnected chip component.
• Notice that the minus side of a tantalum capacitor may be dam-
• Notice that the minus side of a tantalum capacitor may be dam-
aged by heat.
Flexible Circuit Board Repairing
• Keep the temperature of the soldering iron around 270 ˚C dur-
ing 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.
CAUTION
Use of controls or adjustments or performance of procedures
other than those specified herein may result in hazardous ra-
diation exposure.
other than those specified herein may result in hazardous ra-
diation exposure.
The following caution label is located inside the unit.
SAFETY CHECK-OUT
After correcting the original service problem, perform the follow-
ing safety check before releasing the set to the customer:
Check the antenna terminals, metal trim, “metallized” knobs,
screws, and all other exposed metal parts for AC leakage.
Check leakage as described below.
ing safety check before releasing the set to the customer:
Check the antenna terminals, metal trim, “metallized” knobs,
screws, and all other exposed metal parts for AC leakage.
Check leakage as described below.
LEAKAGE TEST
The AC leakage from any exposed metal part to earth ground and
from all exposed metal parts to any exposed metal part having a
return to chassis, must not exceed 0.5 mA (500 microamperes.).
Leakage current can be measured by any one of three methods.
1. A commercial leakage tester, such as the Simpson 229 or RCA
from all exposed metal parts to any exposed metal part having a
return to chassis, must not exceed 0.5 mA (500 microamperes.).
Leakage current can be measured by any one of three methods.
1. A commercial leakage tester, such as the Simpson 229 or RCA
WT-540A. Follow the manufacturers’ instructions to use these
instruments.
instruments.
2. A battery-operated AC milliammeter. The Data Precision 245
digital multimeter is suitable for this job.
3. Measuring the voltage drop across a resistor by means of a
VOM or battery-operated AC voltmeter. The “limit” indica-
tion is 0.75 V, so analog meters must have an accurate low-
voltage scale. The Simpson 250 and Sanwa SH-63Trd are ex-
amples of a passive VOM that is suitable. Nearly all battery
operated digital multimeters that have a 2 V AC range are suit-
able. (See Fig. A)
tion is 0.75 V, so analog meters must have an accurate low-
voltage scale. The Simpson 250 and Sanwa SH-63Trd are ex-
amples of a passive VOM that is suitable. Nearly all battery
operated digital multimeters that have a 2 V AC range are suit-
able. (See Fig. A)
Fig. A.
Using an AC voltmeter to check AC leakage.
1.5 k
Ω
0.15
µ
F
AC
voltmeter
(0.75 V)
voltmeter
(0.75 V)
To Exposed Metal
Parts on Set
Parts on Set
Earth Ground
UNLEADED SOLDER
Boards requiring use of unleaded solder are printed with the lead-
free mark (LF) indicating the solder contains no lead.
(Caution: Some printed circuit boards may not come printed with
free mark (LF) indicating the solder contains no lead.
(Caution: Some printed circuit boards may not come printed with
the lead free mark due to their particular size)
: LEAD FREE MARK
Unleaded solder has the following characteristics.
• Unleaded solder melts at a temperature about 40 ˚C higher than
• Unleaded solder melts at a temperature about 40 ˚C higher than
ordinary solder.
Ordinary soldering irons can be used but the iron tip has to be
applied to the solder joint for a slightly longer time.
Soldering irons using a temperature regulator should be set to
about 350 ˚C.
Caution: The printed pattern (copper foil) may peel away if the
Ordinary soldering irons can be used but the iron tip has to be
applied to the solder joint for a slightly longer time.
Soldering irons using a temperature regulator should be set to
about 350 ˚C.
Caution: The printed pattern (copper foil) may peel away if the
heated tip is applied for too long, so be careful!
• Strong viscosity
Unleaded solder is more viscou-s (sticky, less prone to flow)
than ordinary solder so use caution not to let solder bridges oc-
cur such as on IC pins, etc.
than ordinary solder so use caution not to let solder bridges oc-
cur such as on IC pins, etc.
• Usable with ordinary solder
It is best to use only unleaded solder but unleaded solder may
also be added to ordinary solder.
also be added to ordinary solder.
CLASS 1 LASER PRODUCT
LUOKAN 1 LASER LAITE
KLASS 1 LASER APPARA
T
This appliance is classified
as a CLASS 1 LASER
product.
as a CLASS 1 LASER
product.
This label is located on the
rear exterior.
rear exterior.
ATTENTION AU COMPOSANT AYANT RAPPORT
À LA SÉCURITÉ!
LES COMPOSANTS IDENTIFIÉS PAR UNE MARQUE
0
SUR LES DIAGRAMMES SCHÉMATIQUES ET LA LISTE
DES PIÈCES SONT CRITIQUES POUR LA SÉCURITÉ
DE FONCTIONNEMENT. NE REMPLACER CES COM-
POSANTS QUE PAR DES PIÈCES SONY DONT LES
NUMÉROS SONT DONNÉS DANS CE MANUEL OU
DANS LES SUPPLÉMENTS PUBLIÉS PAR SONY.
DES PIÈCES SONT CRITIQUES POUR LA SÉCURITÉ
DE FONCTIONNEMENT. NE REMPLACER CES COM-
POSANTS QUE PAR DES PIÈCES SONY DONT LES
NUMÉROS SONT DONNÉS DANS CE MANUEL OU
DANS LES SUPPLÉMENTS PUBLIÉS PAR SONY.
SAFETY-RELATED COMPONENT WARNING!!
COMPONENTS IDENTIFIED BY MARK
0
OR DOTTED
LINE WITH MARK
0
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 PUB-
LISHED BY SONY.
OPERATION. REPLACE THESE COMPONENTS WITH
SONY PARTS WHOSE PART NUMBERS APPEAR AS
SHOWN IN THIS MANUAL OR IN SUPPLEMENTS PUB-
LISHED BY SONY.
HCD-NE3
3
TABLE OF CONTENTS
1.
SERVICING NOTES
................................................
4
2.
GENERAL
Location of Controls .......................................................
6
3.
DISASSEMBLY
3-1. Disassembly Flow ...........................................................
8
3-2. Rear Cabinet ....................................................................
8
3-3. Top Panel Assy ................................................................
9
3-4. Front Panel Assy .............................................................
9
3-5. Base Unit (BU-K7BD80B) ............................................. 10
3-6. Mechanical Deck ............................................................. 10
3-7. MAIN Board ................................................................... 11
3-8. AMP Board ..................................................................... 11
3-6. Mechanical Deck ............................................................. 10
3-7. MAIN Board ................................................................... 11
3-8. AMP Board ..................................................................... 11
4.
TEST MODE
.............................................................. 12
5.
ELECTRICAL CHECK
.......................................... 14
6.
DIAGRAMS
6-1. Block Diagram – CD SERVO Section – ....................... 15
6-2. Block Diagram – MAIN Section – ................................ 16
6-3. Note for Printed Wiring Boards
6-2. Block Diagram – MAIN Section – ................................ 16
6-3. Note for Printed Wiring Boards
and Schematic Diagrams ................................................ 17
6-4. Printed Wiring Board – BD Board – ............................. 18
6-5. Schematic Diagram – BD Board – ................................ 19
6-6. Printed Wiring Boards – MAIN Section – .................... 20
6-7. Schematic Diagram – MAIN Section – ......................... 21
6-8. Printed Wiring Boards – AMP Section – ....................... 22
6-9. Schematic Diagram – AMP Section – ........................... 23
6-10. Printed Wiring Boards – PANEL Section – .................. 24
6-11. Schematic Diagram – PANEL Section – ....................... 25
6-12. Printed Wiring Board – POWER Board – ..................... 26
6-13. Schematic Diagram – POWER Board – ........................ 27
6-5. Schematic Diagram – BD Board – ................................ 19
6-6. Printed Wiring Boards – MAIN Section – .................... 20
6-7. Schematic Diagram – MAIN Section – ......................... 21
6-8. Printed Wiring Boards – AMP Section – ....................... 22
6-9. Schematic Diagram – AMP Section – ........................... 23
6-10. Printed Wiring Boards – PANEL Section – .................. 24
6-11. Schematic Diagram – PANEL Section – ....................... 25
6-12. Printed Wiring Board – POWER Board – ..................... 26
6-13. Schematic Diagram – POWER Board – ........................ 27
7.
EXPLODED VIEWS
7-1. Panel Section ................................................................... 32
7-2. Front Panel Assy-1 .......................................................... 33
7-3. Front Panel Assy-2 .......................................................... 34
7-4. Top Panel Assy ................................................................ 35
7-2. Front Panel Assy-1 .......................................................... 33
7-3. Front Panel Assy-2 .......................................................... 34
7-4. Top Panel Assy ................................................................ 35
8.
ELECTRICAL PARTS LIST
............................... 36
4
HCD-NE3
SECTION 1
SERVICING NOTES
NOTES ON HANDLING THE OPTICAL PICK-UP
BLOCK OR BASE UNIT
BLOCK OR BASE UNIT
The laser diode in the optical pick-up block may suffer electro-
static break-down because of the potential difference generated
by the charged electrostatic load, etc. on clothing and the human
body.
During repair, pay attention to electrostatic break-down 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.
static break-down because of the potential difference generated
by the charged electrostatic load, etc. on clothing and the human
body.
During repair, pay attention to electrostatic break-down 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.
NOTES ON LASER DIODE EMISSION CHECK
The laser beam on this model is concentrated so as to be focused
on the disc reflective surface by the objective lens in the optical
pick-up block. Therefore, when checking the laser diode emis-
sion, observe from more than 30 cm away from the objective lens.
on the disc reflective surface by the objective lens in the optical
pick-up block. Therefore, when checking the laser diode emis-
sion, observe from more than 30 cm away from the objective lens.
• MODEL IDENTIFICATION
– Rear Cabinet –
– Rear Cabinet –
MODEL
Power Voltage Incdication
US, Canadian, Mexican and
AC: 120 V 60 Hz 45 W
models
AEP and UK models
AC: 230 V - 50/60 Hz 45 W
Australian model
AC: 230 – 240 - 50/60 Hz 45 W
Argentina and Korean models
AC: 220 V - 60 Hz 45 W
Taiwan model
AC: 120 V 50/60 Hz 45 W
Saudi Arabia model
AC: 120 – 127/220 V
50/60 Hz 45 W
Other models
AC: 110 – 120/220 – 240 V
50/60 Hz 45 W
Power Voltage Indication
NOTE ON LEADING THE WIRE (FLAT TYPE)
•
In order to separate wire (flat type) from no shield portion of TC wire, stick filament tapes, as shown in a figure.
wire (flat type)
filament tape
TC wire (no shield portion)
main board