Philips DVDR 3510V - Urządzenie nie włącza się poprawnie.
Witam
Posiadam urządzenie jak w temacie. Problem polega na tym, że ono się nie włącza prawidłowo.. Jedyny efekt po podłączeniu do sieci to praca silnika ładowania kasety oraz obroty bębna wizyjnego. Wyświetlacz jest ciemny, wentylator nie pracuje, ponadto świecą się diody "dvd" oraz "vcr".
Zmierzyłem napięcia wychodzące z zasilacza, oto ich wyniki:
Duże złącze
1) 12V
2) 0V
3) 5,5V
4) 3,3V
5) 0V
6) 20V
Małe złącze
1)-25V
2)-5,2
3)0V
4)0V
5)0V
6)12V
Znalazłem także SM do tego urządzenia, lecz niestety jest tam tylko schemat PCB pod mechanizmem magnetowidu.
Na płycie niestety nie ma podanych napięć, jakie powinny być.
Do części DVD nie dochodzi zaś żadne napięcie.
EDIT:
Urządzenie udało się naprawić.
Przyczyną okazała się pęknięta płytka PCB w panelu przednim.
Po zlutowaniu ścieżek urządzenie ruszyło.
Temat zamykam.
Pozdrawiam
Karol
Download file - link to post
DVDR3510V/05/31/51/58
Service Package
The table below gives the summary of all the files in the service package.
Please refer to this document for the required information.
Chapter No.
Reference Document & Instructions
Chapter 1 Technical Specifications and
Connection Facilities
Chapter 2 Safety Information, General notes
& Lead-free Requirements
Chapter 3 Directions for Use / QUG
Chapter 4 Mechanical Instructions
Chapter 5 Firmware Upgrading, Restoration of
Software Stroke Version and Other
Useful Firmware Hints
Chapter 6 Block Diagram & Wiring Diagram
Direction for use is available at website:
www.p4c.philips.com
�Chapter 7 Electrical Circuits & Layout
Drawings, Wave form, Test Points
Drawing
Chapter 8 Exploded View and Service Parts List
Funai VCR Module (2422 549 01124)
(For Information only)
�1.
Technical Specifications and Connection Facilities
1.1.
PCB Locations
Analog Board
PSU
Digital Board
(Below the Drive)
Drive D 6.1 Closed
VHS Drive Module
Front Panel-AV Board
(Behind the Front Plate)
Front Panel-Front Board
(Behind the Front Plate)
1.2.
General
Mains voltage:
Mains frequency:
Power consumption:
Standby Power consumption:
1.3.
RF Tuner
1.3.1.
220-240 V
~50 Hz
32 W typical
& lt; 5W
RF Tuner (Analogue)
Test equipment: Fluke 54200 TV Signal generator
Test streams: PAL BG Philips Standard test pattern
1.3.1.1.
System
B/G, I, L/L’, D/K
1.3.1.2.
RF – Loop Through:
Frequency range:
Gain (ANT IN – ANT OUT) without amplifier:
Gain (ANT IN – ANT OUT) with amplifier:
43 MHz – 860 M Hz
-4 dB ± 2 dB
From 2 dB + 3 dB until 2 dB – 2 dB
�1.3.2.
Receiver
Output of Euro connector/Cinch to be used for measurements (direct output from front end)
Video Performance:
0 ± 4dB
0 ± 150 nsec
Frequency response (0 - 4.4 MHz):
Group delay (0 - 4.4 MHz):
Audio Performance (Analogue Mono):
Frequency response ( 0 – 4.4 MHz):
S/N Ratio unweighted (quasi peak, 22Hz – 22kHz):
S/N Ratio weighted (quasi peak, CCIR 468):
Harmonic distortion at 1kHz: FM± 25 kHz:
Harmonic distortion at 1kHz: AM: m = 54% (L/L’):
0 ± 3dB
≥ 40 dB
≥ 45 dB
≤ 1.5 %
≤2%
Audio Performance (NICAM Stereo/Dual)
Frequency response (40 Hz - 15 kHz):
(Relative to 1 kHz)
S/N Ratio unweighted (quasi peak, 22Hz – 22kHz):
S/N Ratio weighted (quasi peak, CCIR 468):
Harmonic distortion at 1kHz:
(Headroom: system I - 21.1dB all others - 16.5db)
Channel Separation:
1.3.3.
0 ± 3dB
≥ 65 dB
≥ 70 dB
≤ 0.5 %
≥ 45 dB
Tuning
Tuning Frequency Range:
Antenna Level for40dB S/N
(video unweighted) at 75Ω:
45.25 MHz – 857 MHz
& lt; 40 dBµV (High End)
≤ 60 dBµV (Low End)
Automatic Search Tuning
Scanning time auto search without RF Signal:
Stop level (vision carrier):
Maximum tuning error during operation (drift):
Maximum tuning error of a recalled program:
& lt; 2.5 min.
(Typical 3 minutes)
≥ 40 dBµV
± 100 kHz
± 62.5 kHz
Tuning Principles:
Automatic system recognition (B/G, I, L/L’, D/K)
Manual Selection in “Store” mode
Storage of frequencies at each random position number
1.4.
Analog Inputs/Outputs
1.4.1.
SCART 1 (Connected to TV)
Pin Signals:
1
Audio-out
2
Audio-out R
3
Audio-out L
4
Audio GND
5
Blue / Chroma GND
6
Audio- in L
7
Blue-out
8
Function switch
9
10
11
Green GND
P50 control not use
Green out
R 1.8V RMS
1.8V RMS
0.7Vpp ± 0.1V into 75 W
& lt; 2V = TV
& gt; 4.5V / & lt; 7V = asp. Ratio 16:9 DVD
& gt; 9.5V / & lt; 12V = asp. Ratio 4:3 DVD
0.7Vpp ± 0.1V into 75W (*)
�12
13
14
15
16
17
18
19
20
21
1.4.2.
NC
Red / Chroma GND
Fast switch GND
Red-out / Chroma-out
Fast switch
RGB / CVBS or Y out
Y/CVBS GND OUT
CVBS GND IN
CVBS-out
CVBS-in
Shield
& lt; 0.4V into 75W = CVBS
& gt; 1V / & lt; 3V into 75W = RGB
1Vpp ± 0.1V into 75W(*)
SCART 2 (Connected to AUX)
Pin Signals:
1
Audio-out
2
Audio-in R
3
Audio-out L
4
Audio GND
5
Blue / Chroma GND
6
Audio-in L
7
Blue-in
8
Function switch
9
Green GND
10
NC
11
Green-in
12
NC
13
Red / Chroma GND
14
Fast switch GND
15
Red-in/Chroma-in
16
Fast switch
RGB / CVBS or Y in
17
CVBS-OUT GND
18
Y/CVBS in GND
19
CVBS out sync
20
CVBS in / Y-in
21
Shield
1.4.3.
0.7Vpp ± 0.1V into 75W (*)
R 1.8V RMS
1.8V RMS
1Vpp ± 0.1V into 75Ω
Audio/Video Front Input Connectors
AUDIO – Cinch (L/R)
Input voltage:
2.2Vrms max
Input impedance:
& gt; 10kΩ
VIDEO - Cinch
Input voltage:
Input impedance:
1.4.4.
1Vpp ± 3dB
75Ω
AUDIO/VIDEO OUT Connectors
VIDEO (CVBS) – Cinch
Output Voltage:
1Vpp ± 3dB
Output impedance:
75Ω
S-VIDEO (Y/C) - Hosiden
According to IEC 933-5
Superimposed DC-level on pin 4 (load & gt; 100 kΩ)
& lt; 2.4V is detected as 4:3 aspect ratio
& gt; 3.5V is detected as 16:9 aspect ratio
Output Voltage Y:
1Vpp ± 3dB
Output Impedance Y:
75Ω
Output Voltage C:
300mVpp ± 3dB
�Output Impedance C:
75Ω
AUDIO – Cinch (L/R)
Output voltage:
1.4.5.
2Vrms max.
Output impedance:
& gt; 10kΩ
AUDIO OUT – Cinch (L/R)
Output voltage:
Output impedance:
1.4.6.
2Vrms max.
& gt; 10kΩ
COMPONENT VIDEO OUT – Cinch (Y/Pb/Pr)
According to EIO-770-I-A, EIA-770-2
1.5.
Digital Inputs/Outputs
1.5.1.
IEEE 1394 Digital Video Input (DV IN)
Implementation standard according:
IEEE Std 1394-1995
IEC61883 - Part1
IEC61883 - Part 2 SD-DVCR (02-01-1997)
Specification of consumer use digital VCR’s using 6.3mm magnetic tape – dec.1994
Mechanical connection according to Annex of IEC 61883-1
1.5.2.
USB
Compatibility:
Type of connector:
1.5.3.
USB 1.1
Series A Connector
DIGITAL AUDIO OUT COAXIAL – Cinch
LPCM:
MPEG 1, MPEG 2, AC3:
DTS:
1.6.
Video Performance
1.6.1.
according IEC 60958
according IEC 61937
according IEC 61937 + addendum
SNR
PAL
RGB
≥ 55 dB
CVBS
Y/C
Lumincance: ≥ 55 dB
Y: ≥ 57 dB
Chroma: ≥ 55 dB (AM)
≥ 52 dB (PM)
C: ≥ 57 dB (AM)
≥ 54 dB (PM)
NTSC
Y Pb Pr
≥ 55dB
CVBS
Y/C
Lumincance:≥ 55 dB
Y: ≥ 55 dB
Chroma: ≥ 54 dB (AM)
≥ 54dB (PM)
C: ≥ 54 dB (AM)
≥ 54 dB (PM)
�1.6.2.
Bandwidth
PAL
RGB
CVBS
Y/C
0.5-4 MHz:+1dB/-2dB
0.5-4 MHz:+1dB/-2dB
Y:4.8MHz-3dB
4.8 MHz:-3dB
4.8 MHz:-3dB
C:700 kHz
5.8 MHz:-6dB
5.8 MHz:-6dB
NTSC
YPbPr
CVBS
4.2 MHz:-3dB
4.2 MHz:-3dB
Y/C
Y:4.2 MHz -3 dB
5.8 MHz:-6dB
5.8 MHz:-6dB
C:≥ 700 kHz
With Pscan: 8.4MHz -3dB
1.7.
Audio Performance CDDA (PCM)
Cinch Output Rear
Output voltage 2 channel mode:
Channel unbalance (1kHz):
Crosstalk 1kHz:
Crosstalk 16Hz-20kHz:
Frequency response:
Frequency response with de-emphasis:
Signal to noise ratio (unweighted):
Signal to noise ratio (A-weighted):
Signal to noise ratio (unweighted):
Dynamic range 1kHz:
Distortion and noise 1kHz:
Distortion and noise 16Hz-20kHz:
Intermodulation distortion:
Intermodulation distortion:
Phase Difference between channels:
Phase non-linearity:
Level non-linearity (-60dB to –90dB):
Output polarity
Mute:
Outband attenuation:
1.7.1.
Scart Audio
Output voltage 2 channel mode:
Channel unbalance (1kHz):
Crosstalk 1kHz:
Crosstalk 16Hz-20kHz:
Frequency response 20Hz-20kHz:
Signal to noise ratio:
Dynamic range 1kHz:
Distortion and noise 1kHz:
Distortion and noise 16Hz-20kHz:
Intermodulation distortion:
Mute:
1.8.
2Vrms ± 1dB
≤ |0.22| dB (0.05V)
≥ |100| dB
≥ |90| dB
≤ |0.2| dB
≤ |0.5| dB
≤ - 95 dB
≤ - 100 dB
≤ - 115 dB
≥ |90| dB
≤ -85 dB
≤ -85dB
≤ 0.002 % (60 Hz and 7 kHz)
≤ 0.002 % (-94 dB) (19 kHz and 20 kHz)
1 sample
± 2°
≤ |1.0| dB
7FFF (H) positive pulse at output
8000 (H) negative pulse at output
≤ -95 dB (during spin-up, spin-down, pause and access)
≤ -40 dB above 30 kHz
1.6Vrms ± 2dB
& lt; 1dB
& gt; 85dB
& gt; 70dB
± 0.5dB max
& gt; 80dB
& gt; 75dB
& gt; 75dB
& gt; 50dB
& gt; 70dB
& gt; 80dB
Dimension and Weight
Set Dimension (w x h x d): 435 x 100 x 344 mm
Weight: 5.2 kg
�1.9.
Laser Output Power & Wavelength
1.9.1.
DVD
Output power during reading:
Output power during writing:
Wavelength:
1.9.2.
CD
Output power:
Wavelength:
1.10.
0.8mW
20mW
650nm
0.3mW
780nm
Playability
Video Playback
1
2
3
Disc playback media: CD, CD-R/-RW, DVD,
DVD-Video, DVD+R/+RW, DVD-R/-RW
SVCD, Video CD, DVD+R DL
Compression formats: MPEG2, MPEG1,
DivX 3/4/5/6
Video disc playback system: NTSC, PAL
Video tape playback system: PAL, SECAM,
ME-SECAM, NTSC
X
X
X
Audio Playback
1
2
3
Disc playback media: CD, CD-R/-RW,
MP3-CD, MP3-DVD, WMA
Compression formats: Dolby Digital, MP3,
MPEG2 Multichannel, PCM
MP3 bit rates:
32~256 kbps and VBR
X
X
X
Still Picture Playback
n
2
3
1.11.
Disc formats: DVD+R/+RW, DVD-R/-RW,
CD-R/RW
Picture Compression Format:
JPEG
Picture enhancement: Rotate, Zoom,
Slideshow with music playback
X
X
X
Supported Disc Types and Media Speed for Recording
Disc
Media
speeds
DVD+R
1x - 16x
DVD+RW
2.4x - 8x
DVD-R
1x - 16x
DVD-RW
2.4x - 6x
DVD+R DL
2.4x
�1.12.
VHS Drive Technical Specifications
1.12.1.
Servo
Drum Clock Phase Chaning Time:
WOW Flutter R/P (CCIR WTD):
Jitter:
1.12.2.
6.5 H
0.3%
0.07 µs
Video
Output Level(R/P EBU Full Color Bar) at 75Ω:
Resolution (R/P monochronous scope W/O burst:
Signal to Noise Ratio (Y-Band):
(C AM):
(C PM):
1.12.3.
1 Vpp
230 lines
43 dB
41 dB
38 dB
Normal Audio
Output Level(R/P Input 1KHz – 10dBv):
S/N :
Distortion ratio:
Frequency Response( at reference 1KHz,-20dBv)
At 200Hz:
At 6kHz:
1.12.4.
-5dBµv
40dB
1.5%
-3dB
-3dB
HiFi Audio
Output Level:
Dynamic range(R/P JIS A):
Frequency Response (at reference R/P Input 1KHz –20dBv)
At 20Hz:
Frequency Response (at reference R/P Input 1KHz –20dBv)
At 20KHz:
Distortion (at reference R/P Input 1KHz –10dBv):
-9dBv
80dB
0dB
0dB
0.5%
�2.
Safety Information, General Notes & Lead Free Requirements
2.1
Safety Instructions
2.2
Warnings
2.1.1
General Safety
2.2.1
General
Safety regulations require that during a repair:
•
Connect the unit to the mains via an isolation transformer.
•
Replace safety components, indicated by the symbol
,
only by components identical to the original ones. Any
other component substitution (other than original type)
may increase risk of fire or electrical shock hazard.
Safety regulations require that after a repair, you must return
the unit in its original condition. Pay, in particular, attention to
the following points:
• Route the wires/cables correctly, and fix them with the
mounted cable clamps.
• Check the insulation of the mains lead for external
damage.
• Check the electrical DC resistance between the mains
plug and the secondary side:
1. Unplug the mains cord, and connect a wire between
the two pins of the mains plug.
2. Set the mains switch to the ‘on’ position (keep the
mains cord unplugged!).
3. Measure the resistance value between the mains
plug and the front panel, controls, and chassis
bottom.
4. Repair or correct unit when the resistance
measurement is less than 1 MΩ.
5. Verify this, before you return the unit to the customer/
user (ref. UL-standard no. 1492).
6. Switch the unit ‘off’, and remove the wire between the
two pins of the mains plug.
2.1.2
Laser Safety
This unit employs a laser. Only qualified service personnel
may remove the cover, or attempt to service this device (due
to possible eye injury).
Laser Device Unit
Type
Wavelength
Output Power
Beam divergence
: Semiconductor laser
GaAlAs
: 650 nm (DVD)
: 780 nm (VCD/CD)
: 20 mW
(DVD+RW writing)
: 0.8 mW
(DVD reading)
: 0.3 mW
(VCD/CD reading)
: 60 degree
CLASS 1
LASER PRODUCT
Figure 2-1
Note: Use of controls or adjustments or performance of
procedure other than those specified herein, may result in
hazardous radiation exposure. Avoid direct exposure to beam.
to
•
•
•
2.2.2
All ICs and many other semiconductors are susceptible
electrostatic discharges (ESD, ). Careless handling
during repair can reduce life drastically. Make sure that,
during repair, you are at the same potential as the mass
of the set by a wristband with resistance. Keep
components and tools at this same potential.
Available ESD protection equipment:
– Complete kit ESD3 (small tablemat, wristband,
connection box, extension cable and earth cable)
4822 310 10671.
– Wristband tester 4822 344 13999.
Be careful during measurements in the live voltage
section. The primary side of the power supply, including
the heatsink, carries live mains voltage when you
connect the player to the mains (even when the
player is ‘off’!). It is possible to touch copper tracks and/
or components in this unshielded primary area, when
you service the player. Service personnel must take
precautions to prevent touching this area or components
in this area. A ‘lightning stroke’ and a stripe-marked
printing on the printed wiring board, indicate the primary
side of the power supply.
Never replace modules, or components, while the unit is
‘on’.
Laser
•
•
•
•
The use of optical instruments with this product, will
increase eye hazard.
Only qualified service personnel may remove the cover or
attempt to service this device, due to possible eye injury.
Repair handling should take place as much as possible
with a disc loaded inside the player.
Text below is placed inside the unit, on the laser cover
shield:
CAUTION VISIBLE AND INVISIBLE LASER RADIATION WHEN OPEN AVOID EXPOSURE TO BEAM
ADVARSEL SYNLIG OG USYNLIG LASERSTRÅLING VED ÅBNING UNDGÅ UDSÆTTELSE FOR STRÅLING
ADVARSEL SYNLIG OG USYNLIG LASERSTRÅLING NÅR DEKSEL ÅPNES UNNGÅ EKSPONERING FOR STRÅLEN
VARNING SYNLIG OCH OSYNLIG LASERSTRÅLNING NÄR DENNA DEL ÄR ÖPPNAD BETRAKTA EJ STRÅLEN
VARO! AVATTAESSA OLET ALTTIINA NÄKYVÄLLE JA NÄKYMÄTTÖMÄLLE LASER SÄTEILYLLE. ÄLÄ KATSO SÄTEESEEN
VORSICHT SICHTBARE UND UNSICHTBARE LASERSTRAHLUNG WENN ABDECKUNG GEÖFFNET NICHT DEM STRAHL AUSSETSEN
DANGER VISIBLE AND INVISIBLE LASER RADIATION WHEN OPEN AVOID DIRECT EXPOSURE TO BEAM
ATTENTION RAYONNEMENT LASER VISIBLE ET INVISIBLE EN CAS D’OUVERTURE EXPOSITION DANGEREUSE AU FAISCEAU
Figure 2-2
�2.3
Lead Free Requirement
Information about Lead-free produced sets
Philips CE is starting production of lead-free sets from
1.1.2005 onwards.
INDENTIFICATION:
Regardless of special logo (not always indicated)
One must treat all sets from 1 Jan 2005 onwards, according
next rules.
Example S/N:
• Special information for BGA-ICs:
- always use the 12nc-recognizable soldering temperature
profile of the specific BGA (for de-soldering always use the
lead-free temperature profile, in case of doubt)
- lead free BGA-ICs will be delivered in so-called ‘drypackaging’ (sealed pack including a silica gel pack) to
protect the IC against moisture. After opening, dependent
of MSL-level seen on indicator-label in the bag, the
BGA-IC possibly still has to be baked dry. (MSL=Moisture
Sensitivity Level). This will be communicated via AYSwebsite.
Do not re-use BGAs at all.
• For sets produced before 1.1.2005 (except products of
2004), containing leaded solder-alloy and components,
all needed spare-parts will be available till the end of the
service-period. For repair of such sets nothing changes.
• On our website www.atyourservice.ce.Philips.com you
find more information to:
BGA-de-/soldering (+ baking instructions)
Heating-profiles of BGAs and other ICs used in Philips-sets
You will find this and more technical information within the
“magazine”, chapter “workshop news”.
Bottom line of typeplate gives a 14-digit S/N. Digit 5 & 6 is the year, digit 7 & 8 is
the week number, so in this case 1991 wk 18
So from 0501 onwards = from 1 Jan 2005 onwards
Important note: In fact also products of year 2004 must be treated in this way as long as you
avoid mixing solder-alloys (leaded/ lead-free). So best to always use SAC305 and the higher
temperatures belong to this.
Due to lead-free technology some rules have to be respected by the
workshop during a repair:
• Use only lead-free solder alloy Philips SAC305 with order
code 0622 149 00106. If lead-free solder-pate is required,
please contact the manufacturer of your solder-equipment.
In general use of solder-paste within workshops should be
avoided because paste is not easy to store and to handle.
• Use only adequate solder tools applicable for lead-free
solder alloy. The solder tool must be able
o To reach at least a solder-temperature of 400°C,
o To stabilize the adjusted temperature at the solder-tip
o To exchange solder-tips for different applications.
• Adjust your solder tool so that a temperature around 360°C
– 380°C is reached and stabilized at the solder joint.
Heating-time of the solder-joint should not exceed ~ 4 sec.
Avoid temperatures above 400°C otherwise wear-out of
tips will rise drastically and flux-fluid will be destroyed. To
avoid wear-out of tips switch off un-used equipment, or
reduce heat.
• Mix of lead-free solder alloy / parts with leaded solder alloy
/ parts is possible but PHILIPS recommends strongly to
avoid mixed solder alloy types (leaded and lead-free).
If one cannot avoid or does not know whether product is
lead-free, clean carefully the solder-joint from old solder
alloy and re-solder with new solder alloy (SAC305).
• Use only original spare-parts listed in the Service-Manuals.
Not listed standard-material (commodities) has to be
purchased at external companies.
For additional questions please contact your local repair-helpdesk.
�3
DVDR3510V
DVD Recorder / VCR
Enjoy
Start playback
A From a disc
Start recording
A Record to DVD or VCR
A Press DVD on the remote control.
B Press OPEN/CLOSE Z, load a disc and close the disc
Quick Start Guide
A Press DVD to record to a recordable DVD.
OR, press VCR to record to a VHS tape.
B Load in a blank recordable DVD to the disc tray or a
tray.
VHS tape to the tape deck.
C Press PLAY/PAUSE u to start playback.
D To stop playback, press STOP x.
B
C Press SOURCE repeatedly to select the source to
record from (eg, TUNER, CAM1, DV, EXT1 or EXT2).
To record a TV programme, use P+/- on the
remote control to select a programme channel.
From a VHS tape
D Press REC MODE repeatedly to select a desired
A Press VCR on the remote control.
B Insert a pre-record VHS tape into the tape deck.
recording mode (refer to the Record Mode table).
E Press REC z to start recording.
Press REW m to rewind the tape if necessary to the
beginning of the recording.
1
2
3
Note To set the recording time, press REC z
repeatedly to extend the recording time in 30 minute
increments. The recording will stop automatically at
the designated end time.
C Press PLAY/PAUSE u to start playback.
D To stop playback, press STOP x.
To record from an external device, press PLAY
on the device to start playback.
F To stop the recording, press STOP x.
B
Connect
Set up
Enjoy
Dubbing (VCR î DVD)
A Press VCR to dub from VCR to DVD.
OR, press DVD to dub from DVD to VCR.
What’s in the box?
B Load in a blank recordable DVD to the disc tray or a
VCR
VHS tape to the tape deck.
DVD
C Press DIRECT DUBBING.
SOURCE
Dubbing to DVD
Remaining Time
Rec. Mode
PLAY/PAUSE
OK
01:54
SP
Cancel
OK
DVD Recorder / VCR
D Select the desired recording mode, then move to
Remote Control
and 2 batteries
in the menu and press OK on the remote
control to start dubbing.
OK
E To stop the dubbing, press STOP x.
REC MODE
User
Manual
Need help?
User Manual
See the user manual that came with your Philips recorder.
Online
Go to www.philips.com/support.
RF Coaxial Cable
2007 © Koninklijke Philips N.V.
All rights reserved.
12 NC 3139 245 26221
DVDR3510V_qsg_eng_26221.indd 1
2007-02-26 2:28:55 PM
�1
2
Connect
Set up
Basic Connection
A
Before Connecting
A Press STANDBY-ON on the recorder.
B Turn on the TV and other connected devices (e.g.
Select one of the following basic connections ( A or B ) according to the type of connecting devices you have.
D Setup and install TV channels.
Highlight
and press right .
Select { Channel Search } and press OK to start
automatic TV channel search.
Cable Box, Satellite Receiver).
If your TV is currently connected to a VCR, you have to unplug all the connections from your VCR and TV.
Your new Philips Recorder replaces the VCR for your recording needs.
C If your TV does not switch to the correct viewing
channel, press the Channel Down button (or AV,
SELECT, ° button) on the TV’s remote control
repeatedly until you see the blue DVD background
screen. This is the correct viewing channel for the
recorder.
Television ( rear)
Television ( rear)
Finding the viewing channel
Setup - Channel Setup
Channel Search
Search
Modify Channel Information
Edit
Sort Channels
Sort
SCART IN
From an offair antenna
wall socket or
cable box
Note This process may take several minutes. Once
complete, the total number of channels found and
stored appears on the TV.
SCART IN
E Set the date and time.
VIDEO
(CVBS)
EXT 2
AUX - I/O
Y
S-VIDEO
(Y/C)
PB
L
AUDIO
PR
R
TV
EXT 1
TO TV - I/O
AUDIO / VIDEO OUT
COMPONENT
AUDIO OUT VIDEO OUT
COAXIAL
Philips Recorder
(rear)
DIGITAL AUDIO OUT
B
3139 241 26501
MAINS
ANTENNA
VIDEO
(CVBS)
EXT 2
AUX - I/O
L
PB
AUDIO
R
TV
EXT 1
TO TV - I/O
AUDIO / VIDEO OUT
PR
COMPONENT
AUDIO OUT VIDEO OUT
Start basic setup
Use the recorder’s remote control and follow the onscreen instructions to complete the installation.
Y
S-VIDEO
(Y/C)
Highlight
and press right .
Select { Date (dd/mm/yy) } or { Time (hh:mm:ss) }
and press OK. Use the numeric keypad 0-9 to
input the date/time, then press OK to confirm.
MAINS
ANTENNA
COAXIAL
DIGITAL AUDIO OUT
A Press SETUP on the remote control.
Philips Recorder (rear)
Setup - Clock
Date (dd / mm / yy)
01/01/07
Time (hh : mm : ss)
0 0 :0 1 :0 8
Date - Time Setting
From an off-air
antenna wall socket
Setup - General
Auto
Date - Time Preset
Cable Box (rear)
P001/Ch003
Show DivX® Registration Code OK
Screen Saver
On
Country
Germany
Option B
Video Output Selection
SCART RGB
Use this connection if you are connecting the antenna
cable directly from the antenna wall socket or from a
Cable Box without a Scart output socket.
Use this connection if your current antenna cable is
connecting through a Cable Box with Scart output
socket.
Restore Factory Settings
A Unplug the antenna cable that is currently connected
A Keep the existing antenna connection from the Cable
Option A
to your TV and plug in the antenna cable to the
ANTENNA socket on this recorder.
B Connect the supplied RF coaxial cable from the
TV
socket on this recorder to the Antenna In
socket on the TV.
C Connect a scart cable (not supplied) from the EXT1
TO TV-I/O socket on this recorder to the Scart
input socket on your TV.
D Plug in the power cable from the recorder to an AC
box to your TV.
B Connect a scart cable (not supplied) from the EXT1
TO TV-I/O socket on this recorder to the Scart
input socket on your TV.
C Connect another scart cable from the EXT2 AUXI/O socket on this recorder to the Scart output
socket on the Cable Box.
D Plug in the power cable from the recorder to an AC
power outlet.
power outlet.
Note
See the accompanying user manual for other possible connections (e.g. Composite Video, Component Video, S-VIDEO).
DVDR3510V_qsg_eng_26221.indd 2
OK
Note The settings will be updated according to the
broadcast channel information of preset Programme
Number 1.
F Press SETUP to exit.
Note Use up
and down
keys to toggle
through the options. Select an item by pressing
right . To confirm a setting, press OK.
B Select the country of your residence.
Highlight
and press right .
Select { Country } and press OK to confirm
your selection.
C Select the recorder’s menu display language.
Highlight
and press right .
Select { On Screen Display Language } and press
right .
Select the desired language option and press OK to
confirm your selection.
2007-02-26 2:28:58 PM
�1.
Mechanical Instructions
Note: The position numbers given here refers to the Exploded view on chapter 8.
1.1.
Dismantling of the DVD Tray cover manually
1)
Insert a screwdriver into the slot provided at the bottom of the set and push in the direction as shown in
Figure1 to unlock before sliding the Tray cover 110 out.
Figure 1- unlock the tray loader
2)
Remove the Tray cover 110 as shown in Figure 2.
Figure 2 - remove the tray cover
1.2.
Dismantling of the Front Panel
1) Remove 8 screws to loosen Top cover 240.
2) Release the catches and detach the Front Panel. The Front Panel service position is shown in Figure 3.
Notes: Beware of the cable clamp 213 while detaching the Front Panel and put it back in position after repair.
�Beware of the Cable Clamp
Front Board
AV Board
Front Panel
Figure 3 - Front Panel Service Position
1.3.
Dismantling of the Basic Engine
1)
Remove 4 screws to detach the Basic Engine 1005 from its Holder 180 as shown in figure 4.
Figure 4 - Basic Engine mounting screws
2)
Flip the Basic Engine over to remove 4 screws from the PCB protection plate. Service Position of the Basic
Engine as shown in Figure 5.
Insulation Sheet
Remove the protection plate
Figure 5 - Basic Engine Service Position
�1.4.
Dismantling of the Digital Board
1)
In order to dismantle the Digital Board 1001, remove the Basic Engine assembly (180+1005) first. Remove
the outer 4 screws and detach the Holder 180 together with Basic Engine 1005 as in figure 6.
Figure 6 – Remove the outer 4 screws to detach the Holder
2)
Then remove 4 screws to loosen the Digital Board 1001 as shown in Figure 9.
Figure 9 – Digital Board mounting screws
3)
Service position for Digital Board is given in Figure 10. The Front Panel should be detached from the frame
162 so that the Digital Board could be flipped easily for service without interference.
Insulation Sheet
Basic Engine
Front Panel
VHS drive
Back Plate 230
Figure 10 – Digital Board Service Position
�Insulation Sheet
1.5.
Dismantling of the Analog Board
1)
2)
Remove 7 screws from the Rear Panel 230. Remove 3 more screws that attach the Analog Board to the
Frame 162 and detach the Analogue Board 1002.
Detach the Rear Panel 230 together with the Fan 208 from the Frame 162 by removing 2 screws.
Analogue Board Service Position is shown in Figure 13.
Insulation Sheet
Insulation Sheet
Figure 11 - Analogue Board Service Position (Rear Panel detached from the Frame)
1.6.
Dismantling of the PSU Board
1)
Remove 3 screws to loosen the PSU Board 1007 as shown in Figure 7.
Figure 7 - PSU remove mounting screws
2)
Service position for PSU Board is given in Figure 8.
Insulation Sheet
Figure 8 - PSU Board Service Position
�1.7.
Dismantling of the VHS Drive Module
1)
To detach the VHS Drive Module 1006, it is necessary to detach the Front Panel first. Then remove the
Top Bracket 190 by unscrewing 2 screws attached to the VHS Drive Module 1006 and 1 screw attached to
the Frame 162. It is also necessary to remove the PSU Shield 210 together with VCR Thermal Shield 182
by unscrewing 4 screws. The mounting screws are shown in figure 9, 10 and 11.
Figure 9 – Detach the Front Panel; unscrew the Top Bracket mounting screws
Figure 10 – Top Bracket mounting screw attached to the Frame
Figure 11 – PSU Shield mounting screws
2)
Then detach the VHS Drive Module 1006 by unscrewing 5 screws as shown in Figure 11.
�Figure 11 – VHS Module mounting screws
3)
While unscrewing the cross screws, great care must be taken with the screw located near the helical drum
at the VHS module to prevent accidental scratches to the drum shown in figure 12.
Figure 12 – Caution Area
4)
Make the VCR module upright and Insulation sheet must be inserted onto the drum to prevent damage by
contact to the Recorder frame shown in Figure 13.
�Insulation Sheet
Figure 13 – Insulation sheet for precaution
5)
Service Position for VHS Drive Module 1006 is given in figure 14.
Insulation Sheet
�1. Firmware Upgrading
1.1.
Preparation to upgrade firmware
•
•
•
Download the latest software release package.
Extract the files from ZIP archive (Do not rename the filename).
Start the CD Burning Software and create a new CD project (data disc) with the following settings:
•
File System:
Joliet
•
Format:
MODE 1
•
Recording Mode: SINGLE SESSION (TRACK-AT-ONCE), FINALIZE CD
Note: Long file name is necessary for the preparation of the upgrade disc.
•
Place the extracted file into the root directory of the new CD project.
•
Burn the data onto the CDRs or CD-RWs.
Notes: Burn ALL the extracted files (backend “. CUB” and Front End “. BIN”) onto a blank CD-R or CD-RW disc
for firmware upgrade
1.2.
Procedures to apply the System Software Upgrade and Loader Software Upgrade
•
•
•
•
•
•
Open the tray and load the Upgrade CDROM with Software upgrade file.
The tray will close and set will display: “SW UPGD”
With the dialog box titled “Disc Upgrade”, the OSD will display: “Software Upgrade Disc detected. Select
OK to start upgrading or CANCEL to exit”
Click on the & lt; OK & gt; button.
The set will display: “ UPGRADING SW”
With the dialog box titled “Disc Upgrade”, the OSD will display: First, “Starting Software Upgrade. Please
Wait “ and then “Upgrading Software. Please wait. Do not switch off the power.”
The whole process may take up to 5 minutes.
Note: Do not press any button or interrupt the mains supply during the upgrading process, otherwise the set
may become defective.
•
•
•
•
•
•
•
•
When the system software upgrade is completed the set will display: “SW DONE”.
With the dialog box titled “Disc Upgrade”, the OSD will display: “System Software has been successfully
upgraded. Press OK to continue with Loader Software upgrade.”
Press & lt; OK & gt;
The set will display: “DRV UPG”
With the dialog box titled “Loader Software Upgrade”, the OSD will display: “ Software Upgrade Disc
detected. Select OK to start upgrading or CANCEL to exit”
Click on the & lt; OK & gt; button.
The set will display: “ DRIVE UPGRADING”
With the dialog box titled “Loader Software Upgrade”, the OSD will display: “Upgrading Software. Please
wait. Do not switch off the power.”
The whole process may take up to 5 minutes.
Note: Do not press any buttons or interrupt the mains supply during the upgrading process, otherwise the set
may become defective.
•
•
•
1.3.
When the loader software upgrade is completed the tray will open automatically and the set will display:
“DRV OK”.
With the dialog box titled “Loader Software Upgrade”, the OSD will display: “Loader Upgrade process has
completed successfully. Press [OK] to reboot system”
Take out the upgrade disc, press & lt; OK & gt; and then the set goes to standby.
How to read out the firmware version to confirm set has been upgraded
•
•
•
•
Power up the set and close tray with no disc.
Press & lt; 0 & gt; & lt; 0 & gt; & lt; 0 & gt; & lt; 9 & gt; & lt; OK & gt; in succession, with ‘No Disc’ displayed on the OSD and VFD.
The backend software version can be read off from the start of message. Drive firmware version can be
read off from field: “Drive”.
The figure below shows the version info displayed by DVDR3510V/31 running V02_03 backend software
and drive firmware is 61.06.01.10.
Figure : Firmware Information shown by DVDR3510V/31
DVDR3510V_V02_03, Region: 2, Drive: 61.06.01.
10. Build: 4726 Jan 18 2007, 16:22:00 Stroke: 31
�2.
Restoration of Digital Borad Setting after repair
Restore the Dynamic Stroke Version
It is important to restore the Dynamic Stroke version of the set before returning the repaired set back to the
customer. Restoring this stroke version will ensure that the set is correctly set for the region.
Recorders are configured to a desired stroke version by entering a pre-defined RC key sequence.
The RC key sequence is made up of 2 parts: & lt; XXXX & gt; + & lt; YY & gt; , where & lt; XXXX & gt; refers to a platform and & lt; YY & gt;
refers to the stroke version. Follow the steps below to change dynamic stroke versions:
•
•
•
•
Close DVD tray with no disc.
Enter the following RC sequence:
•
& lt; 3 & gt; & lt; 5 & gt; & lt; 1 & gt; & lt; 0 & gt; & lt; 0 & gt; & lt; 5 & gt; & lt; OK & gt; for /05
•
& lt; 3 & gt; & lt; 5 & gt; & lt; 1 & gt; & lt; 0 & gt; & lt; 3 & gt; & lt; 1 & gt; & lt; OK & gt; for /31
•
& lt; 3 & gt; & lt; 5 & gt; & lt; 1 & gt; & lt; 0 & gt; & lt; 5 & gt; & lt; 1 & gt; & lt; OK & gt; for /51
•
& lt; 3 & gt; & lt; 5 & gt; & lt; 1 & gt; & lt; 0 & gt; & lt; 5 & gt; & lt; 8 & gt; & lt; OK & gt; for /58
When the RC command is accepted successfully, the message “Stroke Version Changed. Current stroke
version: & lt; YY & gt; ” is displayed on the OSD.
Confirm the stoke version change by checking the software version. (use the procedures in article 1.3 to
check software stroke version)
3.
Other Useful Firmware Hints
3.1.
VFD test
This feature is to light on all the VFD segments in the local display for a few seconds.
To test the VFD, follow the steps below:
•
Close DVD tray with no disc.
•
Enter code & lt; 0 & gt; & lt; 0 & gt; & lt; 0 & gt; & lt; 1 & gt; & lt; OK & gt; in succession.
•
When the command is accepted, all the LEDs and VFD segments on the local display will light up.
•
The VFD test will time out and revert back to the “No Disc” screen in 10 seconds.
�Set Block Diagram
VCR MODULE
Audio & Video In / Out
Power
Audio
Aux
Supply
Switch Matrix
Power
Supply
(Switches)
Video
SIF
DAC
ANA
SPI
BUS
CVBS
DMN8603
I2S
FRONT Panel
VIP
IR
I2S
VFD
Display
Driver
Video
DVD+RW
Front End
Digital PCB
1394
PHY
USB
Power
SW
Keys
Matrix
VFT Display
Front-end
PAL
Standby Key
DV
USB Audio/ Video
3
�1
Q
SV
2
VFD - DISPLAY
3
4
5
6
HUV-08SS65T
HLW14S-2C7 [1mm]
7
1
8
9
TPA0+
TPA0TPB0+
TPB0-
4
1103
CSS5004-7A01E
10
CVBS
1102
11
L
HLW6R-2C7 [1mm]
R
12
8008 [120] BD
8015 [120]
NAME
CHN
CINCH IN
HLW6S-2C7 [1mm]
2006-10-18
2
Xavier Mar
CHECK
13
14
SETNAME
DATE
15
SUPERS.
2006-09-24
16
HLW6S-2C7 [1mm]
SET WIRING
DVDR3510V EU
1
c
17
J
10
18
40
39
AINFR
GND_D
AINFL
GND_D
CVBS_FIN
GND_D
TCSM0601PD25F
TCS7927-24-401
G
CLASS_NO
132
19
1
2
3
4
5
6
18
1206
YC OUT
MRC-021V-10 PC
1207
IDE
HDD_ON
ODD_ON
FAN_CTRL
STBY
GND
AFT
FBIN
GND
8SC2
GND
NC
SDA_S
SCL_S
GND
HLW14S-2C7 [1mm]
1
2
3
4
5
6
7
8
9
10
11
12
13
14
17
1
POWER SUPPLY
8006 [180]
HLW26S-2C7 [1mm]
1
2
3
4
16
12VE
GND
GND
5VE
1104
CINCH OUT
2
[LC-4P]
J1
GND_D
D_UB
GND_D
D_YG
GND_D
D_VR
GND_D
D_Y
GND_D
D_C
GND_D
D_CVBS
GND_D
CVBS_TV
GND_D
CVBS_REAR
GND_D
A_VR
GND_D
A_UB
GND_D
A_YG
GND_D
NC
GND_D
VCR_VID_OUT
1304
CVBS
L
R
HLW26S-2C7 [1mm]
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
L
R
1205
Y
U
V
AUDIO IO
MSD-248V-01 GILT
15
COM
8011
[100] AD
GND
SIF
GND
AIN2R
GND
AIN2L
GND
AIN1R
GND
AIN1L
GND
D_WCLK
GND
D_BCLK
GND
D_DATA0
GND
D_PCMCLK
GND
SPDIF_OUT
GND
DMUTE
AOUT_RA
GND
AOUT_LA
GND
14
FRONT AV
GND
FR_CVBS
GND
FR_L
GND
FR-R
[B10B-PH-K]
HLW14S-2C7 [1mm]
1
2
3
4
5
6
7
8
9
10
11
12
13
14
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
ANALOG BOARD
(1002)
1537
HLW26S-2C7 [1mm]
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
1581
13
6
5
4
3
2
1
1631
DIGITAL BOARD
(1001)
HDD_ON
ODD_ON
FAN_ON
STANDBY
GND
AFT
SCART2_FB
GND
SCART2_SB
GND
INT0_HTS
COM_SDA
COM_SCL
GND
GND
SIF
GND
AIN2_R
GND
AIN2_L
GND
AIN1_R
GND
AIN1_L
GND
D_WCK
GND
D_BCK
GND
D_DAT
GND
D_MCK
GND
SPDIF_OUT
GND
DMUTE
AOUT_R
GND
AOUT_L
GND
VIDEO IO
8009 [180] AD
SERVICE
1131
1
2
3
4
3V3D_STBY
3V3D_STBY
3V3D_STBY
3V3D_STBY
GND
12VD_STBY
GND
GND
5VD_STBY
VGN_STBY
GND
1301
[B11B-PH-K]
12
GND
UART_TX
UART_RX
GND
[B4B-PH-K]
1106
1
2
3
4
5
6
7
8
9
10
11
HLW6S-2C7 [1mm]
TPBTPB+
GND
TPATPA+
GND
[B6B-PH-K]
1
2
3
4
5
6
1117
11
IEEE1394
1530
1
2
3
4
5
6
VCR_DA_IN
VCR_DA_OUT
GND
VCR_CLK
VCR_CSN
VCR_RESET
08FE-BT-VK-K [1.25mm]
1
2
3
4
5
6
8016 [180]
USB
VCR_S_CLK
D_GND
VCR_DA_IN
D_GND
VCR_DA_OUT
D_GND
VCR_C_SEL
VCR_RESET
10FE-BT-VK-K [1.25mm]
1107
HLW14S-2C7 [1mm]
USBC_5V
USBC_M1
USBC_P1
GND
HLW26S-2C7 [1mm]
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
1611
[B11B-PH-K]
GND
D_BPb
GND
D_GY
GND
D_RPr
GND
D_SY
GND
D_SC
GND
D_CVBS
GND
A_CVBS_TU
GND
A_CVBS_RE
GND
A_RPr/A_SC_RE
GND
A_BPb/A_SY_RE
GND
A_GY
GND
A_SC_RE
GND
A_SY_RE
1
2
3
4
5
6
7
8
10
AINFR
GND
AINFL
GND
CVBS_FIN
GND
FRONT AV (1004)
JPJ1127-01-0020
40
[B4B-PH-K]
ATAPI
GND
VGN_STBY
5VD_STBY
GND
GND
12VD_STBY
GND
3V3D_STBY
3V3D_STBY
3V3D_STBY
3V3D_STBY
1651
1
2
3
4
8003 [100] AD
1550
39
1116
FAN
1
2
3
4
5
6
5401_042_101_92
2
SIO_MOSI
SIO_MISO
GND
SIO_CLK
SIO_VCR_CS
SIO_VCR_INT
8013 [120]
YKC21-3416
1303
GND
CVBS_FIN
GND
AINFL
GND
AINFR
VCR MODULE (1006)
9
1101
FRONT (1003)
1561
1
2
3
4
5
6
1
4
O
8
1
CN252
1695
08FE-BT-VK-K [1.25mm]
TPB0TPB0+
GND
TPA0TPA0+
GND
PWR_KEY
12VSTBY
GND
VGNSTBY
GND
5VSTBY
GND
MISO
MOSI
GND
CLK
FR_CS
GND
IR_IN
C_SW_POW
D_GND
5V
D_GND
ALL12V
SIG_GND
+12V
+12V/20V
MOTOR_GND
+18V
14
13
12
11
10
9
8
7
6
5
4
3
2
1
8002 [100] AD
2mm
DIGITAL OUT
1104
1
2
3
4
5
6
AUD_IN_L
AUD_IN_R
S_GND
AUD_OUT_L
AUD_OUT_R
S_GND
VIDEO_IN
S_GND
VIDEO_OUT
S_GND
12V
GND
5V6
3V3
GND
21V
1
2
3
4
5
6
7
8
9
10
1913
1 2
1302
5VE
GND
GND
12VE
[B6P-VH]
FAN_P
FAN_N
8004 [100]
[B4B-EH-A]
A
1107
4
3
2
1
VGN
5N
GND
IPFAIL
GND
12V
MAINS
CORD
7
[S6B-PH-K]
N
FCOM
I
6
11
10
9
8
7
6
5
4
3
2
1
1106
10FE-BT-VK-K [1.25mm]
1
2
3
4
5
6
7
8
1
2
3
4
5
6
1102
1
2
3
4
5
6
1
2
3
4
5
6
[B6B-PH-K]
1101
CN505
E
+18V
MOTOR_GND
+12V/20V
+12V
SIG_GND
ALL12V
D_GND
5V
D_GND
C_SW_POW
[B10B-PH-K]
J1
8005 [100]
5
VCR_S_CLK
D_GND
VCR_DA_IN
D_GND
VCR_DA_OUT
D_GND
VCR_C_SEL
VCR_RESET
F
1109
1
2
3
4
5
6
7
8
9
10
PSU (1007)
1
2
3
4
5
6
7
8
9
10
D
VGN
5N
GND
IPFAIL
GND
12V
12V
GND
5V6
3V3
GND
21V
4
1106
1105 [S4B-PH-K]
1 USBC_5V
2 USBC_M1
3 USBC_P1
4
GND
CN253
C
3
1
2
3
4
5
6
7
8
9
10
11
12
13
14
H
AUD_IN_L
AUD_IN_R
S_GND
AUD_OUT_L
AUD_OUT_R
S_GND
VIDEO_IN
S_GND
VIDEO_OUT
S_GND
2
PWR_KEY
12VSTBY
GND
VGNSTBY
GND
5VSTBY
GND
MISO
MOSI
GND
CLK
FR_CS
GND
IR_OUT
P
1004
L
J3
K
10
9
8
7
6
5
4
3
2
1
[B6B-PH-K]
J2
1
2
3
4
5
6
[B6P-VH]
N 1
1002
B
L 3
All rights reserved. Reproduction in whole or in parts is
prohibited without the written consent of the copyright
owner.
1
19
20
1201
A
SCART1 & SCART 2
1151
B
TUNER
C
D
HLW6S-2C7 [1mm]
8007 [280] AD
8014 [220]
D6.1 CLOSED
(1005)
M
8017 [180] BD
1
A3
PHILIPS ELECTRONICS SINGAPORE PTE LTD
20
E
8001 [340]
F
8012 [100] AD
G
H
I
8010 [180] AD
J
K
L
HLW6S-2C7 [1mm]
VCR ONLY
M
N
O
DVDR3510V
1 2006-10-18
P
3139 249 4162
Q
�Layout: Analog (Top View)
�Layout: Analog (Bottom View)
�Test Points Overview for Analog Board
�Waveforms of Analog Board
178 VCR_CLK
F106 CVB_TV (tuner output)
F177 VCR_CSN
F180 VCR_DA_IN
F181 VCR_DA_OUT
F201 AOUT1R SCART
F203 AOUT1L SCART
F205 BOUT SCART
F207 GOUT SCART
F208 ROUT SCART
F211 YCVBSOUT1 SCART
F274 Y (S-VIDEO)
F275 C (S-VIDEO)
F277 CVBS_CINCH_OUT
F294 Pr
F295 Pb
F296 Component Y
F321 Aud L
F322 Aud R
F327 Digital Out
F334 VCR_VID_ IN only when F335 VCR_VID_OUT only
recording from tuner to VCR
when VCR (full bar) is
recorded to DVDRW
�Layout: Digital (Top View)
�Layout: Digital (Bottom View)
�Test Points Overview for Digital Board
�Waveforms of Digital Board
T101 SYSTEM CLKI
T102 SYSTEM CLKX
T401 Multi-std AV Decoder
XTALI
T402 Mutli-std AV Decoder
XTALO
T599 SPDIF_OUT
T613A_Pr
T601.602 A_OUT_R.A_OUT_L
T613B_R
T103 SYSTEM RTC CLKI
T104 SYSTEM RTC CLKX
T351 IEEE1394 XCVR XI
T352 IEEE1394 XCVR XO
T595 AOD_WCK
T596 AOD_BCK
T597 AOD_D(3)
T598 AOD_MCK
T611A_Pb
T611B_B
T612A_Component Y
T612B_G
T614_SY
T615_SC
T616_CVBS
�Layout: Front AV Board (Top View)
Layout: Front AV Board (Bottom View)
�Layout: Front Board (Top View)
Layout: Front Board (Bottom View)
�1
2
3
4
5
6
7
8
9
10
11
182
a
a
210
264
(2X)
240
210 (2X)
206
190
b
b
266
250 (2X)
1006
284
(4X)
282
c
(2X)
280
278
(4X)
(2X)
276
274
286
1
272
(4X)
212
270
1007
162
(3X)
1003
d
268
252
230
296
184
128
254
294
(3X)
132
208
124
1002
192
e
ALL RIGHTS ARE RESERVED. REPRODUCTION IN
WHOLE OR IN PART IS PROHIBITED WITHOUT THE
WRITTEN CONSENT OF THE COPYRIGHT OWNER.
112
262
(4X)
102
202
1005
f
126
258
(2X)
288
1
213
(6X)
166
188
(4X)
256
180
260
(4X)
1001
(2X)
ENVIRONMENTAL REQUIREMENT: NO BANNED
SUBSTANCES ACC. TO UAT-0480/100
CN: -----
290
Set Name:
(2X)
g
UN-D 1041
1004
DVDR3510V
TOLERANCES UNLESS OTHERWISE STATED
A
DIMENSIONS
ANGLE
. . Ra in um
0.2
A
0.5
ITEM
138
130
mm
0.8
PROJ
THIRD ANGLE
SCALE
142
1:1
ASSEMBLY NO.
-----------------
ORDER NO.
134
ENCASING
DVDR3510V/31
2XX000
110
....-..-..
120
QUANT.
1 2007-02-01
CLASS NO.
h
QUANT.
PATTERN NO.
-----------------
UNIT
ROUGHNESS
140
196
MATERIAL
GENERAL
TREATMENT
137
2006-10-12
1 2007-01-12
3139 249 4152
....-..-..
NAME
SV
1
2
3
4
5
6
7
YEO ST
SUPERS
CHECK
DATE
xxxx xxx xxxx
2006-10-12
1
C
10
110 - 1
KONINKLIJKE PHILIPS ELECTRONICS N.V. 2006
A2
�SERVICE PARTS LIST
DVDR3510V/05/31/51/58
0110
0182
0206
0208
0212
0230
0240
0342
0342
0345
0345
0486
0196
0901
0901
1003
1004
8007
8008
8015
8016
8017
0920
1001
1002
1005
1006
1007
8001
8002
8003
8004
8006
8009
8010
8011
8012
8013
8014
313924416241
313924320502
313911426671
282203100039
313924320931
313924126501
313924124441
242254901516
242254901517
242207098236
242207098231
242207600885
313924126482
314302766612
314302766592
313924851981
313924851991
313924101191
313924101941
313911027871
313911027741
313924103101
314302764722
313924852001
313924851971
313924800401
242254901124
313924712872
310415702191
313911102651
313911034841
310330891051
310360100472
313924102471
313924103611
313924103691
313924103431
313911028181
313924102162
$
$
$
$
COVER TRAY DVDR3510V
SHIELD THERMAL VCR DVDR3430V
BUSH 450H259010
FAN 12VDC 0.8W 3100RPM
B
INSULATOR SHEET DVDR3510V
PLATE BACK DVDR3510V
COVER TOP DVDR3430V
REMOTE CONTR DVDR3510V EU V+ B
REMOTE CONTR DVDR3510V EU SV B
MAINSCORD UK 5A 1M8 VH BK B
MAINSCORD IEC 2A5 1M8 VH BK B
CBLE IEC-M 1M47 IEC-F BK B
SHIELD EMC AV DVDR3510V
FRONT ASSY DVDR3510V/05
FRONT ASSY DVDR3510V/31
PCBAS FRONT DVDR3510V
PCBAS FRONT AV DVDR3510V
FFC FOIL 06P/280/06P AD 1MMP
FFC FOIL 14P/120/14P BD 1MMP
CBLE PH 06P/120/06P PH 26ST BK
CBLE PH 04P/120/04P PH 26ST BK
FFC FOIL 06P/120/06P BD 1MMP
FRAME ASSY DVDR3430V
PCBAS DVDR3510V DIGITAL EU
PCBAS ANA DVDR3510V EU
DRIVE D6.1 CLOSED
VHS DRIVE MODULE HK100ED B
PSU 06V85 AC8100 LF PIE
CBLE PH 10P/340/10P PH 26ST BK
FFC FOIL 10P/100/10P AD
FFC FOIL 08P/100/08P AD
CWAS 06PH/06PH 100 6P BK 265
CBLE HR 4P/180/4P LC UL
FFC FOIL 06P/180/06P AD 1MMP
FFC FOIL 14P/120/14P AD 1MMP
FFC FOIL 26P/100 AD 1MMP FOLD
FFC FOIL 26P/120/26P AD 1MMP
CBLE PH 11P/120/11P PH 26ST BK
CBLE IDE 40P/220/40P IDE UL SP
/05
/31/51/58
/05
/31/51/58
/05
/31/51/58
�Manual Procedure to remove the tape from the loader
Immediate action must be done to remove the Video Cassette on the set manually as described below :
Note : Item number refers to the Deck Parts List in VCR Module
(12NC:2422 549 01124) unless otherwise stated
1.
Turn the B525 (LDG Belt MK11 ) in the direction
indicated by the arrow below in figure 1:
B525
Figure 1:Turning B525 by hand
2.
Upon hearing the click sound , the Clip[B587] holding the VCR will be released as shown in figure 2.
Figure 2:Clip 587 released
3.The tape will be slackened as shown in figure 3.
�Figure 3:Tape slackened
4.The video casette slowly reversed and raised to loading position in figure 4 .
Figure 4 :Video Casette Slowly reversed
5. Fold the slack of the video by hand to minimize damage by the front dust cover of Videocasette.The front
cover upon approaching the B354 & B355 position will be closed and comes out of the Door Flap(112 of
exploded view of DVDR3430V)
�Figure 5:The dust cover slowy cover the tape due to spring action
of the dust cover
6.Remove the cassette as you normally does from the front loading position
.
�HK100ED
VCR Module
2422 549 01124
Service
Service
Service
Service Manual
Contents
Chapter
Sec. 1: Schematic Diagrams and CBA's
Exploded Views
Mechanical and Electrical Parts Lists
Sec. 2: Standard Maintenance
Mechanism Alignment Procedures
Disassembly / Assembly of Mechanism
Deck Exploded Views
Deck Parts List
c Copyright 2006 Philips Consumer Electronics B.V. Eindhoven, The Netherlands.
All rights reserved. No part of this publication may be reproduced, stored in a retrieval
system or transmitted, in any form or by any means, electronic, mechanical, photocopying,
or otherwise without the prior permission of Philips.
Published by FU-KC 0623 Service AV Systems
Version 1.0
Printed in Netherlands
Subjection to modification
EN 3139 785 32220
�MAIN SECTION
VCR Module
Sec. 1: Main Section
I Schematic Diagrams and CBA’s
I Exploded Views
I Mechanical and Electrical Parts List
TABLE OF CONTENTS
STANDARD NOTES FOR SERVICING . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-1-1
SIGNAL NAME ABBREVIATIONS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-2-1
ELECTRICAL ADJUSTMENT INSTRUCTIONS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-3-1
BLOCK DIAGRAMS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-4-1
SCHEMATIC DIAGRAMS / CBA’S AND TEST POINTS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-5-1
WAVEFORMS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-6-1
WIRING DIAGRAM . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-7-1
IC PIN FUNCTION DESCRIPTIONS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-8-1
LEAD IDENTIFICATIONS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-9-1
ELECTRICAL PARTS LIST . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-10-1
EXPLODED VIEWS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-11-1
MECHANICAL PARTS LIST . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-12-1
�STANDARD NOTES FOR SERVICING
Circuit Board Indications
Pb (Lead) Free Solder
1. The output pin of the 3 pin Regulator ICs is
indicated as shown.
When soldering, be sure to use the Pb free solder.
Top View
Out
Bottom View
In
Input
Information about lead-free soldering
Philips CE is producing lead-free sets from 1.1.2005
onwards.
IDENTIFICATION
2. For other ICs, pin 1 and every fifth pin are
indicated as shown.
5
Pin 1
Regardless of special logo (not always
indicated)
One must treat all sets from 1 Jan 2005
onwards, according to the next rule:
Serial Number gives a 9-digit. Digit 2 & 3 shows the
WEEK, and digit 4 shows the YEAR.
So from 015 onwards=from 1 Jan 2005 onwards
10
3. The 1st pin of every male connector is indicated as
shown.
Pin 1
Important note: In fact also products of year 2004
must be treated in this way as long as you avoid
mixing solder-alloys (leaded/ lead-free). So best to
always use SAC305 and the higher temperatures
belong to this.
Due to lead-free technology some rules have to be
respected by the workshop during a repair:
• Use only lead-free solder alloy Philips SAC305 with
order code 0622 149 00106. If lead-free solderpaste is required, please contact the manufacturer
of your solder-equipment. In general use of solderpaste within workshops should be avoided because
paste is not easy to store and to handle.
• Use only adequate solder tools applicable for leadfree solder alloy. The solder tool must be able
• To reach at least a solder-temperature of 400°C,
• To stabilize the adjusted temperature at the soldertip
• To exchange solder-tips for different applications.
• Adjust your solder tool so that a temperature around
360°C - 380°C is reached and stabilized at the
solder joint. Heating-time of the solder-joint should
not exceed ~ 4 sec. Avoid temperatures above
400°C otherwise wear-out of tips will rise drastically
and flux-fluid will be destroyed. To avoid wear-out of
tips switch off un-used equipment, or reduce heat.
• Mix of lead-free solder alloy / parts with leaded
solder alloy / parts is possible but PHILIPS
recommends strongly to avoid mixed solder alloy
types (leaded and lead-free).
If one cannot avoid or does not know whether
product is lead-free, clean carefully the solder-joint
from old solder alloy and re-solder with new solder
alloy (SAC305).
• Use only original spare-parts listed in the ServiceManuals. Not listed standard-material (commodities)
has to be purchased at external companies.
1-1-1
HK100_SN
�• Special information for BGA-ICs:
- always use the 12nc-recognizable soldering
temperature profile of the specific BGA (for desoldering always use the lead-free temperature
profile, in case of doubt)
- lead free BGA-ICs will be delivered in so-called
'dry-packaging' (sealed pack including a silica gel
pack) to protect the IC against moisture. After
opening, dependent of MSL-level seen on indicatorlabel in the bag, the BGA-IC possibly still has to be
baked dry. (MSL=Moisture Sensitivity Level). This
will be communicated via AYS-website.
Do not re-use BGAs at all.
• For sets produced before 1.1.2005 (except products
of 2004), containing leaded solder-alloy and
components, all needed spare-parts will be available
till the end of the service-period. For repair of such
sets nothing changes.
• On our website
www.atyourservice.ce.Philips.com you find more
information to:
• BGA-de-/soldering (+ baking instructions)
• Heating-profiles of BGAs and other ICs used in
Philips-sets
You will find this and more technical information within
the “magazine”, chapter “workshop news”.
For additional questions please contact your local
repair-helpdesk.
How to Remove / Install Flat Pack-IC
1. Removal
With Hot-Air Flat Pack-IC Desoldering Machine:
1. Prepare the hot-air flat pack-IC desoldering
machine, then apply hot air to the Flat Pack-IC
(about 5 to 6 seconds). (Fig. S-1-1)
Fig. S-1-1
2. Remove the flat pack-IC with tweezers while
applying the hot air.
3. Bottom of the flat pack-IC is fixed with glue to the
CBA; when removing entire flat pack-IC, first apply
soldering iron to center of the flat pack-IC and heat
up. Then remove (glue will be melted). (Fig. S-1-6)
4. Release the flat pack-IC from the CBA using
tweezers. (Fig. S-1-6)
CAUTION:
1. The Flat Pack-IC shape may differ by models. Use
an appropriate hot-air flat pack-IC desoldering
machine, whose shape matches that of the Flat
Pack-IC.
2. Do not supply hot air to the chip parts around the
flat pack-IC for over 6 seconds because damage
to the chip parts may occur. Put masking tape
around the flat pack-IC to protect other parts from
damage. (Fig. S-1-2)
1-1-2
HK100_SN
�With Iron Wire:
3. The flat pack-IC on the CBA is affixed with glue, so
be careful not to break or damage the foil of each
pin or the solder lands under the IC when
removing it.
CBA
Masking
Tape
Tweezers
1. Using desoldering braid, remove the solder from
all pins of the flat pack-IC. When you use solder
flux which is applied to all pins of the flat pack-IC,
you can remove it easily. (Fig. S-1-3)
2. Affix the wire to a workbench or solid mounting
point, as shown in Fig. S-1-5.
Hot-air
Flat Pack-IC
Desoldering
Machine
3. While heating the pins using a fine tip soldering
iron or hot air blower, pull up the wire as the solder
melts so as to lift the IC leads from the CBA
contact pads as shown in Fig. S-1-5.
4. Bottom of the flat pack-IC is fixed with glue to the
CBA; when removing entire flat pack-IC, first apply
soldering iron to center of the flat pack-IC and heat
up. Then remove (glue will be melted). (Fig. S-1-6)
Flat Pack-IC
5. Release the flat pack-IC from the CBA using
tweezers. (Fig. S-1-6)
Note: When using a soldering iron, care must be
taken to ensure that the flat pack-IC is not
being held by glue. When the flat pack-IC is
removed from the CBA, handle it gently
because it may be damaged if force is applied.
Fig. S-1-2
With Soldering Iron:
1. Using desoldering braid, remove the solder from
all pins of the flat pack-IC. When you use solder
flux which is applied to all pins of the flat pack-IC,
you can remove it easily. (Fig. S-1-3)
Flat Pack-IC
Hot Air Blower
Desoldering Braid
or
Iron Wire
Soldering Iron
Soldering Iron
Fig. S-1-3
To Solid
Mounting Point
Fig. S-1-5
2. Lift each lead of the flat pack-IC upward one by
one, using a sharp pin or wire to which solder will
not adhere (iron wire). When heating the pins, use
a fine tip soldering iron or a hot air desoldering
machine. (Fig. S-1-4)
CBA
Sharp
Pin
Fine Tip
Soldering Iron
Fine Tip
Soldering Iron
Flat Pack-IC
Tweezers
Fig. S-1-4
Fig. S-1-6
3. Bottom of the flat pack-IC is fixed with glue to the
CBA; when removing entire flat pack-IC, first apply
soldering iron to center of the flat pack-IC and heat
up. Then remove (glue will be melted). (Fig. S-1-6)
4. Release the flat pack-IC from the CBA using
tweezers. (Fig. S-1-6)
1-1-3
HK100_SN
�2. Installation
1. Using desoldering braid, remove the solder from
the foil of each pin of the flat pack-IC on the CBA
so you can install a replacement flat pack-IC more
easily.
2. The “●” mark on the flat pack-IC indicates pin 1.
(See Fig. S-1-7.) Be sure this mark matches the 1
on the PCB when positioning for installation. Then
presolder the four corners of the flat pack-IC. (See
Fig. S-1-8.)
3. Solder all pins of the flat pack-IC. Be sure that
none of the pins have solder bridges.
Instructions for Handling Semiconductors
Electrostatic breakdown of the semi-conductors may
occur due to a potential difference caused by
electrostatic charge during unpacking or repair work.
1. Ground for Human Body
Be sure to wear a grounding band (1 MΩ) that is
properly grounded to remove any static electricity that
may be charged on the body.
2. Ground for Workbench
Be sure to place a conductive sheet or copper plate
with proper grounding (1 MΩ) on the workbench or
other surface, where the semi-conductors are to be
placed. Because the static electricity charge on
clothing will not escape through the body grounding
band, be careful to avoid contacting semi-conductors
with your clothing.
Example :
& lt; Incorrect & gt;
Pin 1 of the Flat Pack-IC
is indicated by a " " mark.
Fig. S-1-7
Presolder
CBA
Flat Pack-IC
& lt; Correct & gt;
Grounding Band
CBA
Fig. S-1-8
1MΩ
CBA
1MΩ
Conductive Sheet or
Copper Plate
1-1-4
HK100_SN
�SIGNAL NAME ABBREVIATIONS
Signal Name
Signal Name
Function
Function
D-PFG
Drum Motor Pulse Generator
D-REC-H
Delayed Record Signal
D-V-SYNC
Dummy V-sync Output
END-S
Tape End Position Detect Signal
FE-H
Full Erase Head
FE-H-GND
Ground for Full Erase Head
FSC-IN
[4.43MHz]
4.43MHz Clock Input
GND
Ground
H-A-COMP
Head Amp Comparator Signal
H-A-SW
Video Head Amp Switching
Pulse
AMPVcc
Hi-Fi-AUDIO(L)
Hi-Fi Audio L Head
AMPVREF IN
V-Ref for CTL AMP
Hi-Fi-AUDIO(R)
Hi-Fi Audio R Head
AMPVREF OUT
V-Ref for CTL AMP
Hi-Fi-COM
Hi-Fi Audio Head Common
AUDIO-MUTE-H
Audio Mute Control Signal
(Mute=“H”)
Hi-Fi-H-SW
Hi-Fi Audio Head Switching
Pulse
AUDIO-PB/REC
Normal Audio Play Back/Record
Signal
HLF
LPF Connected Terminal (Slicer)
IIC-BUS SCL
I2C BUS Control Clock
IIC-BUS SDA
I2C BUS Control Data
KEY-1
Key Scan Input Signal 1
KEY-2
Key Scan Input Signal 2
LD-SW
Deck Mode Position Detector
Signal
LM-FWD/REV
Loading Motor Control Signal
N-A-PB
Normal Audio Playback
N-A-REC
Normal Audio Recording
OSCin
Clock Input for letter size
OSCout
Clock Output for letter size
4.43MHz
4.43MHz clock
A-COM
Audio Head Common
A-MODE
Hi-Fi Tape Detection Signal
AE-H
Audio Erase Head
AE-H/FE-H
Audio Erase Head
AL+12V
Always +12V with AC Plug
Connected
AL+20V/+12V
Always +20V/+12V with AC Plug
Connected
AL+5V
Always +5V with AC Plug
Connected
AMPC
CTL AMP Connected Terminal
AMPVcc
AUDIO(L)-IN
L-ch Audio Input
AUDIO(L)-OUT
L-ch Audio Output
AUDIO(R)-IN
R-ch Audio Input
AUDIO(R)-OUT
R-ch Audio Output
AVcc
A/D Converter Power Input/
Standard Voltage Input
C
C Terminal
C
CTL AMP Capacitor
C-CONT
Capstan Motor Control Signal
C-F/R
Capstan Motor FWD/REV
Control Signal (FWD=”L”/
REV=”H”)
OSD-V-IN
OSD Video Signal Input
C-FG
Capstan Motor Rotation
Detection Pulse
OSD-V-OUT
OSD Video Signal Output
C-POW-SW
Capstan Power Switching Pulse
OSDVcc
OSDVcc
C-ROTA
Color Phase Rotary Changeover
SIgnal
OSDVss
OSD Ground
P-ON+5V
+5V at Power-On Signal
C-SYNC
Composite Synchronized Pulse
P-ON+9V
+9V at Power-On Signal
CLKSEL
Clock Select
P-ON-L
Power On Signal at Low
CTL
To Monitor for CTL AMP Output
PB-H-OUT
Playback control/Signal (PB=“H”)
CTL (+)
Playback/Record Control Signal
(+)
PG-DELAY
Video Head Switching Pulse
Signal Adjusted Voltage
CTL (-)
Playback/Record Control Signal
(-)
POW-SAF
P-ON Power Detection Input
Signal
D-CONT
Drum Motor Control Signal
1-2-1
HK100SNA
�Signal Name
Function
REC-SAF-SW
Recording Safety SW Detect
(With Record tab=“L”/With out
Record tab=“H”)
REMOTE
Remote Control Sensor
RESET
System Reset Signal (Reset=“L”)
RF-SW
Video Head Switching Pulse
S-CLOCK
Serial clock
S-CS
Chip Select Signal
S-DATA-IN
Serial Data Input
S-DATA-OUT
Serial Data Output
S-REEL
Supply Reel Rotation Signal
SECAM-C-IN
SECAM CHROMA Signal from
PAL/SECAM DETECTOR
SECAM-FMOUT
PB video Signal to PAL/SECAM
DETECTOR
SECAM-H
SECAM Mode at High
ST-S
Tape Start Position Detector
Signal
T-REEL
Take Up Reel Rotation Signal
TRICK-H
Trick Play Control Signal
(Trick=“H”)
V-ENV
Video Envelope Comparator
Signal
Vcc
Vcc
VG+18V
Always +18V with AC Plug
Connected
VIDEO
Video Signal
VIDEO(L)-1/2
Video L Head 1/2
VIDEO(R)-1/2
Video R Head 1/2
VIDEO-COM
Video Head Common
VIDEO-IN
Video Signal Input
VIDEO-OUT
Video Signal Output
Vss
Vss(GND)
X-IN
Main Clock Input
X-OUT
Main Clock Input
1-2-2
HK100SNA
�ELECTRICAL ADJUSTMENT INSTRUCTIONS
Head Switching Position Adjustment
General Note: " CBA " is an abbreviation for
" Circuit Board Assembly. "
NOTE:
1.Electrical adjustments are required after replacing
circuit components and certain mechanical parts.
It is important to do these adjustments only after
all repairs and replacements have been completed. Also, do not attempt these adjustments
unless the proper equipment is available.
2.To perform these alignment / confirmation procedures, make sure that the tracking control is set in
the center position: Press either " PR -5? " or " PR + "
button on the remote control unit first, then the " B "
button (Front Panel only).
Purpose:
To determine the Head Switching position during
playback.
Symptom of Misadjustment:
May cause Head Switching noise or vertical jitter
in the picture.
Test point
Adj.Point
J909(V-OUT)
VR501
TP504(RF-SW) (Switching Point)
GND
(MAIN CBA)
Mode
Input
PLAY
(SP)
-----
Tape
Measurement
Equipment
Spec.
9965 000 14514
Oscilloscope
6.5H±1H
(416µs±64µs)
Test Equipment Required
1.Oscilloscope: Dual-trace with 10:1 probe,
V-Range: 0.001~50V/Div.,
F-Range: DC~AC-20MHz
2.Alignment Tape (9965 000 14514)
Connections of Measurement Equipment
Oscilloscope
Main CBA
J909
GND
TP504
CH1
CH2
Trig. (+)
Figure 1
EXT. Syncronize Trigger Point
CH1
1.0H
CH2
6.5H+/-1H (416µs+/-64µs)
0.5H
V-Sync
Switching Pulse
Reference Notes:
Playback the Alignment tape and adjust VR501 so that
the V-sync front edge of the CH1 video output waveform is at the 6.5H±1H (416µs±64µs) delayed position
from the rising edge of the CH2 head switching pulse
waveform.
1-3-1
HK100EA
�1-4-1
DRUM
MOTOR
LOADING
MOTOR
M
PG
SENSOR
CYLINDER ASSEMBLY
SENSOR CBA
END-S
Q503
SENSOR CBA
ST-S
Q504
CONTROL
HEAD
ACE HEAD ASSEMBLY
(DECK ASSEMBLY)
M
5
6
SW507
LD-SW
AL+5V
M
CAPSTAN
MOTOR
MOTOR
DRIVE
CIRCUIT
CAPSTAN MOTOR
TP502
END-S
CN504
CTL(+)
CTL(-)
MAIN CBA
T-REEL
Q506
1
2
3
4
5
6
7
8
9
10
11
12
AL+5V
VR501
SW-POINT
AL+5V
CN502
AL+20V/+12V
P-ON+5V
C-FG
C-F/R
C-CONT
GND
LM-FWD/REV
D-CONT
D-PFG
GND
AL+12V
VG+18V
S-REEL
PS502
D555
S-LED
NOTE FOR WIRE CONNECTORS:
1. PREFIX SYMBOL " CN " MEANS CONNECTOR.
(CAN DISCONNECT AND RECONNECT.)
2. PREFIX SYMBOL " CL " MEANS WIRE-SOLDER
HOLES OF THE PCB.
(WIRE IS SOLDERED DIRECTLY.)
TP503
CTL
“ = SMD
AL+12V
VG+18V
AL+20V/+12V
P-ON+5V
SW506
REC-SAFETY
AL+5V
“
ST-S
END-S
T-REEL
S-REEL
67
66
65
64
P-ON-L 75
C-POW-SW 60
RESET 34
S-CLOCK
S-DATA-IN
S-DATA-OUT
S-CS
LM81 FWD/REV
77 D-CONT
90 D-PFG
87 C-FG
78 C-F/R
76 C-CONT
D-V-SYNC
H-A-SW
H-A-COMP
V-ENV
C-SYNC
TRICK-H
SECAM-H
IIC-BUS SDA
IIC-BUS SCL
D-REC-H
RF-SW
C-ROTA
72
71
33
18
15
13
16
17
6
58
62
61
Hi-Fi-H-SW 19
A-MODE 32
31 REC-SAF-SW
AUDIO-MUTE-H 83
2 PG-DELAY
97 CTL
10
4
80
79
9 LD-SW
95 CTL(+)
94 CTL(-)
KEY- 2 8
KEY- 1 7
REMOTE 14
IC501
(SERVO/SYSTEM CONTROL)
P-ON+5V
VG+18V
AL+20V/+12V
AL+12V
P-ON+9V
AL+5V
RESET
Q515
TP505 SENS-INH
Q153
WF10
WF9
CN252
1
3
4
6
8
10
CN505
1
3
5
7
8
IC502 (MEMORY)
WF8
D-V-SYNC
H-A-SW
H-A-COMP
V-ENV
C-SYNC
TRICK-H
SECAM-H
IIC-BUS SDA
IIC-BUS SCL
D-REC-H
RF-SW
C-ROTA
AUDIO-MUTE-H
IIC-BUS SDA
IIC-BUS SCL
Hi-Fi-H-SW
A-MODE
IIC-BUS SDA
IIC-BUS SCL
AUDIO-MUTE-H
5 SDA
6 SCL
Q151
Q152
+9V REG.
AL+5V
WF11
TO VIDEO
BLOCK DIAGRAM
TO Hi-Fi AUDIO
BLOCK DIAGRAM
TO AUDIO
BLOCK DIAGRAM
VG+18V
AL+20V/+12V
AL+12V
AL+12V
AL+5V
C-POW-SW
S-CLOCK
S-DATA-IN
S-DATA-OUT
S-CS
RESET
CN653
1 KEY-1
2 REMOTE
TEST POINT INFORMATION
:INDICATES A TEST POINT WITH A JUMPER WIRE ACROSS A HOLE IN THE PCB.
:USED TO INDICATE A TEST POINT WITH A COMPONENT LEAD ON FOIL SIDE.
:USED TO INDICATE A TEST POINT WITH NO TEST PIN.
:USED TO INDICATE A TEST POINT WITH A TEST PIN.
BLOCK DIAGRAMS
Servo / System Control Block Diagram
HK100BLS
�CN253
VIDEO-OUT 9
VIDEO-IN
7
WF6
WF7
Q301
BUFFER
WF3
J909
OSD-V-OUT
52
“
“ = SMD
50
1-4-2
AGC
59
AGC
R
FBC
68 69
P
1/2
Y/C
MIX
SERIAL
DECORDER
CHARA.
INS.
65
29
X301
4.43MHz
28
VXO
25
CHROMINANCE
SIGNAL
PROCESS
CCD 1H DELAY
R
Y. DELAY
43
C
Y
R
WF2
79
21
+
TP301
C-PB
PR
78
P
P
TO SERVO/SYSTEM
CONTROL BLOCK
DIAGRAM
LUMINANCE
SIGNAL
PROCESS
46
IIC-BUS SCL
IIC-BUS SDA
44
96
95
94
93
EP
HEAD
AMP
70
62
71
83
84
67
D-REC-H 80
90
89
88
87
SP
HEAD
AMP
RF-SW/C-ROTA
D-V-SYNC
H-A-SW
H-A-COMP
V-ENV
C-SYNC
PB-H OUT
REC
FM
AGC
EP
SP
REC-VIDEO SIGNAL
TEST POINT INFORMATION
:INDICATES A TEST POINT WITH A JUMPER WIRE ACROSS A HOLE IN THE PCB.
:USED TO INDICATE A TEST POINT WITH A COMPONENT LEAD ON FOIL SIDE.
:USED TO INDICATE A TEST POINT WITH NO TEST PIN.
:USED TO INDICATE A TEST POINT WITH A TEST PIN.
BYPASS
58
IC301
VIDEO SIGNAL PROCESS
/HEAD AMP
OSD
50
CHARACTER
COLOR 55
MIX
-IN
IC501 (OSD)
NOTE FOR WIRE CONNECTORS:
1. PREFIX SYMBOL " CN " MEANS CONNECTOR.
(CAN DISCONNECT AND RECONNECT.)
2. PREFIX SYMBOL " CL " MEANS WIRE-SOLDER
HOLES OF THE PCB.
(WIRE IS SOLDERED DIRECTLY.)
28
1
29
17
14
18
2
16
PAL/SECAM
DETECTOR
VIDEO (R)-2
HEAD
VIDEO (L)-2
HEAD
VIDEO (L)-1
HEAD
VIDEO (R)-1
HEAD
CYLINDER ASSEMBLY
TO SERVO/SYSTEM
CONTROL BLOCK
DIAGRAM
1
2
3
4
5
6
MODE: SP/REC
(DECK ASSEMBLY)
DVD VIDEO SIGNAL
IC370 (PAL/SECAM DECTECTOR)
D-REC-H
RF-SW
C-ROTA
D-V-SYNC
H-A-SW
H-A-COMP
V-ENV
C-SYNC
TRICK-H
SECAM-H
WF1
TP504
RF-SW
CN251
VIDEO(R)-1
VIDEO-COM
VIDEO(L)-1
VIDEO(L)-2
VIDEO-COM
VIDEO(R)-2
MAIN CBA
PB-VIDEO SIGNAL
Video Block Diagram
HK100BLV
�1-4-3
N-A-PB
N-A-REC
FULL
ERASE
HEAD
AUDIO
ERASE
HEAD
AUDIO
HEAD
FE HEAD
ACE HEAD ASSEMBLY
(DECK ASSEMBLY)
TO Hi-Fi AUDIO
BLOCK DIGRAM
“
CN501
2 FE-H
1 FE-H-GND
4
3
1
2
CN504
AUDIO-PB/REC
A-COM
AE-H
AE-H/FE-H
“ = SMD
1
2
SP/LP-ON
EQ
AMP
AUTO
BIAS
PB-ON
P-ON+5V
SWITCHING
Q405 D-REC-OFF
Q406
Q401
(PB=ON)
Q403
BIAS
OSC
Q404
P-ON+5V
5
6
MAIN CBA
7
3
8
IC301
(AUDIO SIGNAL PROCESS)
NOTE FOR WIRE CONNECTORS:
1. PREFIX SYMBOL " CN " MEANS CONNECTOR.
(CAN DISCONNECT AND RECONNECT.)
2. PREFIX SYMBOL " CL " MEANS WIRE-SOLDER
HOLES OF THE PCB.
(WIRE IS SOLDERED DIRECTLY.)
100
9
INV
REC
AMP
P
R
AUDIO HD-SW
CONTROL
16
ATT
15
ALC
ALC
DET
68 69
71
AUDIO-MUTE-H
IIC-BUS SDA
IIC-BUS SCL
11
12
Mode : SP/REC
TO SERVO/SYSTEM
CONTROL BLOCK
DIAGRAM
REC-AUDIO SIGNAL
MUTE
SERIAL
DECODER
REC-ON
LINE
AMP
PB-AUDIO SIGNAL
Audio Block Diagram
HK100BLA
�“ = SMD
1-4-4
WF4
TO AUDIO BLOCK
CN253
AUDIO(R)-IN 2
AUDIO(L)-IN 1
“
N-A-REC
N-A-PB
78
80
6
52
+
15
ALC
14
48
47
ALC
IC451 (Hi-Fi AUDIO SIGNAL PROCESS)
NOTE FOR WIRE CONNECTORS:
1. PREFIX SYMBOL " CN " MEANS CONNECTOR.
(CAN DISCONNECT AND RECONNECT.)
2. PREFIX SYMBOL " CL " MEANS WIRE-SOLDER
HOLES OF THE PCB.
(WIRE IS SOLDERED DIRECTLY.)
L-CH
PNR
R-CH
PNR
MAIN CBA
P
R
R
P
LIM
LIM
SW
NOISE
SW
NOISE
OUTPUT
SELECT
DEV
DO
DET
VCO
LPF
MIX
LPF
VCO
COMP
DEV
COMP
L-CH
BPF
HOLD
PULSE
NOISE
DET
R-CH
BPF
LIM
V/I
34 33
ENV
DET
L
R
37
38
77
75
76
74
73
24
26
27
39
21
MUTE 53
LOGIC
MUTE-ON
MUTE-ON
PB-AUDIO SIGNAL
FROM/TO
SERVO/SYSTEM
CONTROL BLOCK
Hi-Fi
AUDIO
(L) HEAD
Hi-Fi
AUDIO
(R) HEAD
CYLINDER
ASSEMBLY
(DECK ASSEMBLY)
Hi-Fi-H-SW
A-MODE
AUDIO-MUTE-H
IIC-BUS SDA
IIC-BUS SCL
WF5
CN251
Hi-Fi-AUDIO(R) 7
Hi-Fi-COM 8
Hi-Fi-AUDIO(L) 9
Q451
Mode : SP/REC
CN253
5 AUDIO(R)-OUT
4 AUDIO(L)-OUT
REC-AUDIO SIGNAL
Hi-Fi Audio Block Diagram
HK100BLH
�SCHEMATIC DIAGRAMS / CBA'S AND TEST POINTS
Standard Notes
Notes:
WARNING
1. Do not use the part number shown on these drawings for ordering. The correct part number is
shown in the parts list, and may be slightly different
or amended since these drawings were prepared.
Many electrical and mechanical parts in this chassis
have special characteristics. These characteristics
often pass unnoticed and the protection afforded by
them cannot necessarily be obtained by using
replacement components rated for higher voltage,
wattage, etc. Replacement parts that have these special safety characteristics are identified in this manual
and its supplements; electrical components having
such features are identified by the mark " ! " in the
schematic diagram and the parts list. Before replacing
any of these components, read the parts list in this
manual carefully. The use of substitute replacement
parts that do not have the same safety characteristics
as specified in the parts list may create shock, fire, or
other hazards.
2. To maintain original function and reliability of
repaired units, use only original replacement parts
which are listed with their part numbers in the parts
list section of the service manual.
3. How to read converged lines.
1-D3
3
Distinction Area
Line Number
(1 to 3 digits)
Capacity
change rate
Standard
temperature
Temperature
range
(B)
±10%
20°C
-25~+85°C
(F)
±30 - 80%
±15%
±22.5%
20°C
–25~+85°C
20°C
–25~+85°C
20°C
–25~+85°C
(SR)
(Y)
1-B1
AREA B1
2
1-D3
1
A
B
C
D
Examples:
1. " 1-D3 " means that line number " 1 " goes to the line number
" 1 " of the area " D3 " .
2. " 1-B1 " means that line number " 1 " goes to the line number
" 1 " of the area " B1 " .
Capacitor Temperature Markings
Mark
AREA D3
4. All resistance values are indicated in ohms
(K=103, M=106).
5. Resistor wattages are 1/4W or 1/6W unless otherwise specified.
Capacitors and transistors are represented by the following symbols.
6. All capacitance values are indicated in µF
(P=10-6 µF).
7. All voltages are DC voltages unless otherwise
specified.
8. Voltage indications for PLAY and REC modes on
the schematics are as shown below.
& lt; PCB Symbols & gt;
(Top View) (Bottom View)
+
Electrolytic Capacitor
Unit: Volts
1
2
5.0
The same voltage for
both PLAY & REC modes
(Bottom View)
Transistor or Digital Transistor
E
C
B
3
5.0
(2.5)
PLAY mode
REC mode
Indicates that the voltage
is not consistent here.
& lt; Schematic Diagram Symbols & gt;
(Top View)
(Top View)
Digital Transistor
NPN Transistor
ECB
(Top View)
PNP Transistor
ECB
(Top View)
PNP Digital
Transistor
NPN Digital Transistor
ECB
ECB
1-5-1
SC_08
�Main 1/4 Schematic Diagram Parts Location Guide
Ref No.
Position
CAPACITORS
C502
A-4
C505
E-1
C506
B-1
C508
C-1
C509
A-2
C510
A-2
C511
B-3
C512
A-2
C514
A-2
C515
B-3
C516
B-2
C517
B-2
C518
B-3
C519
B-2
C521
B-2
C522
B-1
C524
B-4
C527
C-1
C531
E-4
C533
E-4
C534
D-4
C535
D-4
C536
D-4
C538
D-4
C539
E-3
E-3
C540
C541
E-3
C542
E-2
C545
E-3
C546
E-3
C547
E-3
C548
E-2
C549
E-2
C550
E-2
C553
E-2
C555
E-4
C557
A-2
C559
C-4
C560
C-4
C561
C-4
Ref No.
Position
CAPACITORS
C562
C-4
CONNECTORS
CN501
A-2
CN502
F-4
CN504
A-3
CN505
F-2
CN653
A-1
DIODES
D510
D-4
D555
E-3
ICS
IC501
C-3
IC502
B-4
COILS
L501
E-3
L502
D-4
L503
E-3
TRANSISTORS
Q506
E-1
Q515
E-2
RESISTORS
E-1
R509
R511
A-1
R512
E-1
R513
E-1
R514
A-1
R516
A-1
R517
E-3
R519
A-1
A-1
R523
R525
A-3
R526
A-3
R528
B-1
R530
C-4
R531
C-4
R532
C-4
R533
C-4
R536
B-2
R537
B-2
R538
B-4
1-5-2
Ref No.
Position
RESISTORS
R539
C-4
R540
C-4
R541
B-1
R542
B-1
R543
B-1
R545
C-1
R546
C-1
E-3
R559
R560
D-4
R567
E-4
R568
E-4
R569
E-4
R570
D-1
R572
D-4
R574
E-3
R577
E-3
R578
E-3
R582
E-2
R583
E-2
R585
E-2
R586
E-2
F-3
R588
R595
B-3
R596
B-3
R597
B-3
R598
C-1
SWITCHES
SW506
D-1
SW507
A-1
VARIABLE RESISTOR
VR501
B-1
CRYSTAL OSCILLATOR
X501
E-2
MISCELLANEOUS
PS502
E-1
TEST POINTS
TP502
A-4
TP503
A-2
TP504
C-1
TP505
C-1
�Main 1/4 & Sensor Schematic Diagram
“
“ = SMD
1-5-3
HK100SCM1
�Main 2/4 Schematic Diagram
“
“ = SMD
1-5-4
HK100SCM2
�Main 2/4 Schematic Diagram Parts Location Guide
Ref No.
Position
CAPACITORS
C151
K-1
C152
K-1
C251
H-3
C252
H-3
C253
H-3
C254
H-3
C301
J-1
C302
J-2
C303
J-1
C305
J-1
C306
J-2
C307
J-1
C308
J-1
C311
K-3
C312
K-3
C313
K-3
C314
K-3
C315
K-2
C316
K-3
C317
K-3
C318
K-2
C321
L-3
C322
K-3
C324
K-3
C325
K-2
C328
K-3
C329
K-2
C330
L-4
C331
K-4
C333
I-4
C334
I-4
C335
I-4
C336
I-4
C337
I-4
C339
I-4
C340
I-4
C341
I-4
C342
I-4
C343
J-4
Ref No.
Position
CAPACITORS
C344
J-4
C345
J-4
C348
K-4
C349
J-4
C350
H-4
C402
G-2
C403
G-2
C404
H-2
C405
H-2
C407
I-1
C408
I-2
C409
I-1
C410
I-1
C411
I-1
C412
I-2
C413
I-2
C414
I-1
C415
I-1
C416
I-1
C417
I-2
C418
I-1
C419
J-1
C420
J-2
C421
J-1
C422
L-4
C423
L-4
C426
L-3
C427
L-3
CONNECTORS
CN251
G-3
CN252
L-2
CN253
L-4
DIODES
D151
K-1
D301
Q-4
IC
IC301
Q-2
COILS
L151
L-1
1-5-5
Ref No.
Position
COILS
L251
H-3
L302
I-4
L401
G-2
L402
H-1
TRANSISTORS
Q151
K-2
Q152
K-1
Q153
K-1
Q301
K-4
Q302
H-3
Q401
G-1
Q403
H-1
Q404
G-2
Q405
H-1
Q406
H-1
RESISTORS
R151
K-1
R152
K-1
R153
K-2
R251
H-3
R252
H-3
R301
J-1
R303
J-1
R305
K-2
R308
K-2
R309
J-4
R310
K-3
R312
K-2
R314
K-2
R316
G-4
R317
J-4
R318
K-4
R319
H-3
R320
H-3
R321
K-4
R322
H-4
R325
I-4
R326
I-4
R327
I-4
Ref No.
Position
RESISTORS
R328
I-4
I-4
R330
H-4
R331
H-4
R332
I-4
R333
I-4
R334
J-4
R336
J-4
R337
R401
G-2
R402
G-2
H-1
R404
R405
H-2
H-2
R406
H-2
R407
H-2
R408
R409
H-2
R410
H-2
R411
I-2
R412
I-1
R413
I-2
R414
I-1
R415
I-1
R416
I-1
R417
I-1
R418
I-1
R419
I-1
R420
I-1
R421
J-1
CRYSTAL OSCILLATOR
X301
J-2
TEST POINT
TP301
G-3
�Main 3/4 Schematic Diagram Parts Location Guide
Ref No.
Position
CAPACITORS
C452
O-2
C453
O-2
C454
O-2
C455
O-2
C456
O-2
C457
O-2
C458
P-2
C461
Q-2
C462
P-2
C463
P-2
C464
P-2
C465
P-3
C466
P-3
C467
P-3
C468
P-3
C469
P-4
C470
P-4
C471
O-4
C472
O-4
C473
O-4
C474
O-4
Ref No.
Position
CAPACITORS
C475
O-4
C476
O-4
C478
N-3
C479
N-3
C482
N-3
C483
N-3
C484
N-2
C485
N-2
C486
N-2
C487
N-1
C489
N-1
IC
IC451
N-2
COILS
L451
P-3
L452
Q-2
TRANSISTOR
Q451
Q-2
RESISTORS
R453
N-1
R454
N-1
1-5-6
Ref No.
Position
RESISTORS
R462
Q-2
R463
P-2
R464
P-3
R466
O-4
R467
N-4
R470
N-4
M-3
R479
M-3
R480
M-2
R481
M-2
R482
M-2
R483
R484
M-2
�Main 3/4 Schematic Diagram
“
“ = SMD
1-5-7
HK100SCM3
�Main 4/4 Schematic Diagram
“
“ = SMD
MAIN 4/4 Schematic Diagram
Parts Location Guide
Ref No.
Position
CAPACITORS
C370
S-2
C371
S-2
C372
S-2
C373
S-2
C374
T-1
C375
T-1
C376
T-1
C377
T-2
C378
T-2
C379
S-2
C381
T-2
C382
S-2
C383
S-2
C384
R-2
DIODE
D370
R-1
IC
IC370
R-2
COIL
L370
T-2
RESISTORS
S-2
R370
S-2
R371
R372
R-2
1-5-8
HK100SCM4
�Main CBA Top View
Sensor CBA Top View
BHF300F01012A
BHF300F01012B
WF4 ~ WF7
CN253
WF8 ~ WF11
CN505
WF2
TP301
C-PB
WF3
J909
OSD-V-OUT
TP503
CTL
TP502
END-S
WF1
TP504
RF-SW
VR501
SW-POINT
TP505
S-INH
1-5-9
BHK100F01012A
�Main CBA Bottom View
1-5-10
BHK100F01012A
�Main CBA Parts Location Guide
Ref No.
Position
CAPACITORS
C151
A-2
C152
A-2
C251
B-3
C252
B-3
C253
B-3
C254
B-3
C301
D-3
C302
C-3
C303
C-3
C305
C-3
C306
D-3
C307
D-3
C308
D-3
C311
C-2
C312
C-2
C313
C-2
C314
D-2
C315
D-3
C316
D-3
C317
D-2
C318
D-3
C321
E-4
C322
D-2
C324
C-2
C325
D-3
C328
C-3
C329
D-2
C330
F-4
C331
E-4
C333
B-3
C334
B-2
C335
B-2
C336
B-3
C337
B-3
C339
B-3
C340
B-2
C341
B-3
C342
D-2
C343
B-2
C344
C-3
C345
C-2
C348
C-2
Ref No.
Position
CAPACITORS
C349
C-2
C350
C-3
C370
D-3
C371
E-3
C372
E-3
C373
E-3
C374
D-3
C375
D-3
C376
D-3
C377
E-3
C378
E-3
C379
E-3
C381
E-3
C382
E-3
C383
E-3
C384
E-3
C402
C-3
C403
C-4
C404
C-4
C405
D-3
C407
C-3
C408
C-3
C409
C-3
C410
C-3
C411
C-3
C412
C-3
C413
C-3
C414
C-3
C415
C-3
C416
D-3
C417
C-3
C418
D-3
C419
D-3
C420
B-3
C421
C-3
C422
E-4
C423
E-4
C426
E-4
C427
E-4
C452
B-3
C453
B-3
C454
B-3
Ref No.
Position
CAPACITORS
C455
B-3
C456
B-3
C457
B-3
C458
B-3
C461
B-3
C462
B-3
C463
B-3
C464
B-3
C465
B-3
C466
B-3
C467
B-3
C468
B-2
C469
B-2
C470
B-2
C471
B-2
C472
B-2
C473
B-2
C474
B-2
C475
B-3
C476
B-2
C478
B-2
C479
B-2
C482
B-2
C483
B-3
C484
B-3
C485
B-3
C486
B-3
C487
B-2
C489
B-2
C502
A-3
C505
D-2
C506
B-1
C508
B-1
C509
D-1
C510
D-1
C511
D-1
C512
D-1
C514
D-1
C515
D-1
C516
D-1
C517
D-1
C518
D-1
Ref No.
Position
CAPACITORS
C519
D-1
C521
D-1
C522
D-1
C524
E-1
C527
C-1
C531
D-1
C533
E-1
C534
B-1
C535
D-2
C536
D-2
C538
D-2
C539
C-2
C540
C-2
C541
C-1
C542
C-1
C545
C-2
C546
C-1
C547
C-2
C548
C-1
C549
B-1
C550
B-1
C553
B-1
C555
E-2
C557
D-1
C559
F-4
C560
F-4
C561
F-4
C562
F-4
CONNECTORS
CN251
B-3
CN252
A-2
CN253
E-4
CN501
B-3
CN502
E-2
CN504
D-3
CN505
F-4
CN653
A-4
DIODES
D151
A-2
D301
B-3
D370
E-3
D510
D-1
Ref No.
Position
DIODES
D555
C-2
ICS
IC301
C-3
IC370
D-3
IC451
B-3
IC501
D-1
IC502
D-2
COILS
L151
A-2
L251
B-3
L302
B-3
L370
E-3
L401
D-4
L402
C-3
L451
B-3
L452
B-2
L501
B-1
L502
B-1
L503
B-2
TRANSISTORS
Q151
A-2
Q152
A-2
Q153
A-2
Q301
F-4
Q302
C-3
Q401
D-3
Q403
C-3
Q404
C-4
Q405
D-4
Q406
B-3
Q451
B-3
Q506
C-2
Q515
B-1
RESISTORS
R151
A-2
R152
A-2
R153
A-2
R251
B-3
R252
B-3
R301
D-3
R303
D-3
R305
D-2
1-5-11
Ref No.
Position
RESISTORS
R308
D-3
R309
B-2
R310
D-2
R312
D-3
R314
D-2
R316
D-3
R317
F-4
R318
F-4
R319
D-3
R320
B-3
R321
E-4
R322
B-3
R325
B-3
R326
B-3
R327
B-3
R328
B-3
R330
B-3
R331
B-2
R332
B-2
R333
C-1
R334
B-1
R336
B-2
R337
B-2
R370
E-3
R371
E-3
R372
E-3
R401
D-3
R402
C-3
R404
C-3
R405
C-3
R406
D-4
R407
B-3
R408
C-3
R409
C-3
R410
C-3
R411
C-3
R412
C-3
R413
C-3
R414
C-3
R415
C-3
R416
C-3
R417
D-3
Ref No.
Position
RESISTORS
R418
C-3
R419
D-3
R420
D-3
R421
D-3
R453
B-3
R454
B-3
R462
B-3
R463
B-3
R464
B-3
R466
B-2
R467
B-2
R470
B-2
R479
B-3
R480
B-3
R481
B-3
R482
A-3
R483
B-3
R484
B-3
R509
B-2
R511
F-2
R512
B-1
R513
E-1
R514
F-2
R516
F-2
R517
C-2
R519
F-2
R523
E-2
R525
E-1
R526
C-1
R528
E-1
R530
D-2
R531
D-2
R532
D-1
R533
D-1
R536
D-1
R537
D-1
R538
D-1
R539
D-2
R540
D-2
R541
F-2
R542
D-1
R543
D-1
Ref No.
Position
RESISTORS
R545
C-1
R546
C-1
B-2
R559
R560
D-2
R567
D-2
R568
D-2
R569
E-1
R570
B-1
R572
D-2
R574
C-1
R577
C-1
R578
C-2
R582
B-1
R583
B-1
R585
B-1
R586
B-1
R588
B-2
R595
D-1
R596
D-1
R597
D-1
R598
C-1
SWITCHES
SW506
B-1
SW507
E-2
VARIABLE RESISTORS
VR501
F-2
CRYSTAL OSCILLATORS
X301
D-3
X501
B-1
MISCELLANEOUS
PS502
B-2
TEST POINTS
TP301
F-4
TP502
A-3
TP503
F-3
TP504
A-3
TP505
F-2
�WAVEFORMS
NOTE: Input
VCR: COLOR BAR SIGNAL (WITH 1KHz AUDIO SIGNAL)
(WF1~WF11)
WF2 UPPER
TP301
WF1 LOWER
TP504
C-PB
RF-SW
WF4
10mV x 10
0.5V x 10
5ms
WF3 UPPER
AUDIO( L,R )-IN
TP504
1V
0.5ms
Pin 1 of CN505
S-CLK
1V
1ms
J909
WF1 LOWER
WF8
Pin 1, 2 of CN253
V-OUT
RF-SW
WF3
WF5
0.1V x 10
0.5V x 10
50µs
AUDIO( L,R )-OUT 1V
WF6
J909
V-OUT E-E
10µs
50mV x 10
CN252
Pin No.
1
2
3
4
5
6
7
8
9
10
Voltage
18.1
0
12.7
12.1
0
12.0
0
5.3
0
0
WF No.
0.2V
20µs
CN253
Pin No.
1
2
3
4
5
6
7
8
9
10
0.2V
Voltage
WF No.
WF4
WF4
0
WF5
WF5
0
WF6
0
1V
1ms
Pin 5 of CN505
S-DATA-OUT
WF11
20µs
Pin 3 of CN505
S-DATA-IN
WF10
Pin 9 of CN253
VIDEO-OUT
MAIN
CBA
2.5ms
Pin 7 of CN253
VIDEO-IN
WF7
WF9
Pin 4, 5 of CN253
1V
1ms
Pin 7 of CN505
S-CS
CN505
Pin No.
1
2
3
4
5
6
7
8
1V
Voltage
20ms
WF No.
WF8
0
WF9
0
WF10
0
WF11
4.8
WF7
0
1-6-1
U31MWF
�FULL
ERASE HEAD
1-7-1
Hi-Fi AUDIO
(L) HEAD
Hi-Fi AUDIO
(R) HEAD
VIDEO
(R)2
HEAD
VIDEO
(L)2
HEAD
VIDEO
(L)1
HEAD
VIDEO
(R)1
HEAD
DRUM
MOTOR
M
PG
SENSOR
CYLINDER ASSEMBLY
FE HEAD
CONTROL HEAD
AUDIO HEAD
AUDIO
ERASE HEAD
ACE HEAD ASSEMBLY
(DECK ASSEMBLY)
NOTE FOR WIRE CONNECTORS:
1. PREFIX SYMBOL " CN " MEANS CONNECTOR.
(CAN DISCONNECT AND RECONNECT.)
2. PREFIX SYMBOL " CL " MEANS WIRE-SOLDER
HOLES OF THE PCB.
(WIRE IS SOLDERED DIRECTLY.)
LOADING
MOTOR
M
CAPSTAN
MOTOR
MOTOR
DRIVE
CIRCUIT
M
CAPSTAN
MOTOR
SENSOR CBA
SENSOR CBA
CN504
AE-H
AE-H/FE-H
A-COM
AUDIO-PB/REC
CTL(+)
CTL(-)
1
2
3
4
5
6
7
8
9
1
2
3
4
5
6
7
8
9
10
11
12
CN251
VIDEO(R)-1
VIDEO-COM
VIDEO(L)-1
VIDEO(L)-2
VIDEO-COM
VIDEO(R)-2
Hi-Fi-AUDIO(R)
Hi-Fi-COM
Hi-Fi-AUDIO(L)
CN502
AL+20V/+12V
P-ON+5V
C-FG
C-F/R
C-CONT
GND
LM-FWD/REV
D-CONT
D-PFG
GND
AL+12V
VG+18V
CN501
1 FE-H-GND
2 FE-H
1
2
3
4
5
6
MAIN CBA
CN505
S-CLOCK
GND
S-DATA-IN
GND
S-DATA-OUT
GND
S-CS
RESET
CN253
AUDIO(L)-IN
AUDIO(R)-IN
GND
AUDIO(L)-OUT
AUDIO(R)-OUT
GND
VIDEO-IN
GND
VIDEO-OUT
GND
CN252
VG+18V
GND
AL+20V/+12V
AL+12V
GND
AL+12V
GND
AL+5V
GND
C-POW-SW
1
2
3
4
5
6
7
8
1
2
3
4
5
6
7
8
9
10
1
2
3
4
5
6
7
8
9
10
CN653
KEY-1 1
REMOTE 2
WIRING DIAGRAM
HK100WI
�IC PIN FUNCTION DESCRIPTIONS
Pin IN/
No. OUT
IC501( SERVO / SYSTEM CONTROL IC )
1
Function
Not Used
IN
PGDELAY
Video Head Switching
Pulse Signal Adjusted
Voltage
3
IN
P-ON Power
POW-SAF Detection Input Signal
4
IN
END-S
Tape End Position
Detect Signal
5
-
NU
Not Used
V-ENV
Video Envelope
Comparator Signal
KEY-1
Key Scan Input Signal
1
NU
Not Used
-
-
NU
Not Used
-
-
NU
Not Used
-
-
NU
Not Used
-
30
-
NU
Not Used
-
Recording Safety SW
Detect (With Record
tab= " L " /With out
Record tab= " H " )
H
Hi-Fi Tape Detection
Signal
L
A/D
A/D
-
29
6
7
IN
IN
-
26
28
Active
Level
NU
2
-
Signal
Name
Active
Level
Function
27
“H” ≥ 4.5V, “L” ≤ 1.0V
Pin IN/
No. OUT
Signal
Name
A/D
31
A/D
-
IN
32
A/D
RECSAF-SW
IN
A-MODE
33 OUT D-REC-H Delayed Record
Signal
A/D
H
34
IN
KEY-2
9
IN
LD-SW
Deck Mode Position
Detector Signal
ST-S
Tape Start Position
Detector Signal
IN
Xcin
Sub Clock (GND)
-
-
NU
Not Used
-
37
-
Vcc
Vcc
-
IN
Xin
Main Clock Input
-
39 OUT Xout
A/D
L
36
A/D
System Reset Signal
(Reset=”L”)
38
8
RESET
35
Key Scan Input Signal
2
IN
Main Clock Input
-
10
IN
11
-
NU
Not Used
-
40
-
Vss
Vss(GND)
-
12
-
NU
Not Used
-
41
-
NU
Not Used
-
42
-
NU
Not Used
-
43
IN
CLKSEL
Clock Select (VCC
Pull UP)
-
44
IN
OSCin
Clock Input for letter
size
-
45 OUT OSCout
Clock Output for letter
size
-
46
-
NU
Not Used
-
47
-
LP
LP
-
48
IN
49
-
50
IN
51
-
13 OUT D-VSYNC
14
IN
Dummy V-sync
Output
REMOCON Remote Control
-IN
Sensor
15 OUT C-ROTA
Color Phase Rotary
Changeover SIgnal
H/Hi-z
L
H/L
Video Head Amp
Switching Pulse
H/L
Head Amp
Comparator Signal
H/L
18 OUT RF-SW
Video Head Switching
Pulse
H/L
19 OUT Hi-Fi-HSW
Hi-Fi Audio Head
Switching Pulse
H/L
20
-
NU
Not Used
-
21
-
NU
Not Used
-
22
-
NU
Not Used
-
23
-
NU
Not Used
-
24
-
NU
Not Used
-
16 OUT H-A-SW
17
IN
H-ACOMP
FSC-IN
4.43MHz Clock Input
[4.43MHz]
-
OSDVss
-
OSDVss
-
NU
Not Used
Not Used
-
OSD Video Signal
Output
-
53
1-8-1
NU
52 OUT OSD-VOUT
-
-
-
OSDVcc
OSDVcc
-
54
25
OSD-V-IN OSD Video Signal
Input
-
HLF
LPF Connected
Terminal (Slicer)
-
HK100PIN
�Pin IN/
No. OUT
Signal
Name
Function
Active
Level
55
-
VHOLD
COLOR-IN
-
56
-
NU
Not Used
-
57
-
NU
Not Used
-
58
IN
C-SYNC
Composite
Synchronized Pulse
59
-
NU
Not Used
Pin IN/
No. OUT
C-POW60 OUT SW
Active
Level
Function
A-MUTE- Audio Mute Control
83 OUT H
Signal
84
-
NU
Not Used
-
85
-
NU
Not Used
-
86
-
NU
Not Used
-
87
IN
C-FG
Capstan Motor
Rotation Detection
Pulse
88
-
NU
Not Used (GND)
-
89
PULSE
H
-
NU
Not Used
-
D-PFG
Drum Motor Pulse
Generator
H/L
PULSE
SECAM Video Signal
Input
H
62 OUT TRICK-H
Special playback =
“H” in SECAM Mode
H
90
IN
63
-
NU
Not Used
-
91
-
AMPVRE
V-Ref for CTL AMP
F OUT
-
64
IN
S-CS
DVD (MCU) SIO
Interface CS
L
92
-
AMPVRE V-Ref for CTL AMP
Fin
-
-
P80/C
-
61
IN
SECAMH
Capstan Power
Switching Signal
Signal
Name
PULSE
65 OUT
S-DATAOUT
DVD (MCU) SIO
Interface Clock Out
H/L
93
66
S-DATAIN
DVD (MCU) SIO
Interface Data In
H/L
94
IN/
CTL (-)
OUT
Playback/Record
Control Signal (-)
H/L
67 OUT S-CLOCK DVD (MCU) SIO
Interface Clock
H/L
95
IN/
CTL (+)
OUT
Playback/Record
Control Signal (+)
H/L
96
-
AMPC
CTL AMP Connected
Terminal
97
-
CTLAMP
out
To Monitor for CTL
AMP Output
98
-
AMPVcc
AMPVcc
-
99
-
AVcc
A/D Converter Power
Input/ Standard
Voltage Input
-
100
-
NU
Not Used
-
IN
68
-
NU
Not Used
-
69
-
NU
Not Used
-
70
-
NU
Not Used
-
IIC-BUS
SCL
I2C BUS Control
Clock
P80/C Terminal
71 OUT
H/L
IN/ IIC-BUS
72
OUT SDA
I2
73
-
NU
Not Used
-
74
-
NU
Not Used
-
75 OUT P-ON-L
Power On Signal at
Low
L
76 OUT C-CONT
Capstan Motor
Control Signal
PWM
77 OUT D-CONT
Drum Motor Control
Signal
Capstan Motor FWD/
REV Control Signal
(FWD=”L”/REV=”H”)
H/L
79
IN
S-REEL
Supply Reel Rotation PULSE
Signal
80
IN
T-REEL
Take Up Reel
Rotation Signal
PULSE
PWM
78 OUT C-F/R
-
C BUS Control Data
LM-FWD/ Loading Motor Control
81 OUT REV
Signal
82
-
NU
Not Used
H/L
Notes:
Abbreviation for Active Level:
PWM -----Pulse Wide Modulation
A/D--------Analog - Digital Converter
PULSE
H/L/
Hi-z
-
1-8-2
HK100PIN
�LEAD IDENTIFICATIONS
2SA1015-GR(TE2 F T)
KRA103M-AT/P
KRC103M-AT/P
KTA-1266-GR-AT/P
KTC3199-(BL,GR,Y)-AT/P
2SC1815-(BL,GR,Y)(TE2 F T)
2SC2120-Y(TE2 F T)
2SC3266-Y(TPE2 F)
KTC3203-Y-AT/P
KTC3205-Y-AT/P
KTC3198-(GR,Y)-AT/P
LA70100M-TRM-E
16
1
E C B
30
15
E C B
MID-32A22F
PT204-6B-12
BR24L02F-WE2
CAT24WC02WI-TE13
RN1511(TE85R.F)
C1
8
4
C2
C
5
1
KRC103S-RTK/P
KTC3875S-Y-RTK/P
B1 E B2
B
E
C
E
LA71750EM-MPB-E
M3776AMCH-AD1GP
M3776AMCH-AF1GP
LA72648M-MPB-E
60
41
80
61
81
21
50
100
40
80
31
1
1
51
30
20
Note:
A: Anode
K: Cathode
E: Emitter
C: Collector
B: Base
R: Reference
S: Source
G: Gate
D: Drain
1-9-1
HK100LE
�PRODUCT SAFETY NOTE: Products marked with a
! have special characteristics important to safety.
Before replacing any of these components, read
carefully the product safety notice in this service
manual. Don't degrade the safety of the product through
improper servicing.
NOTES:
Parts that are not assigned part numbers (---------) are
not available.
Tolerance of Capacitors and Resistors are noted with
the following symbols.
ELECTRICAL PARTS LIST
Pos.No. !
C305
C306
C306
C307
C307
C.....±0.25%
D.....±0.5%
F
.....±1%
C308
G.....±2%
J......±5%
K.....±10%
C308
M.....±20%
N.....±30%
Z.....+80/-20%
C311
Pos.No. !
2B7
2B8
2B46
PS502
TP301
TP502
TP503
TP504
TP505
VR501
X301
X301
X301
X501
X501
CAPACITORS
C151
C151
C152
C152
C251
C251
C252
C252
C253
C254
C254
C301
C301
C302
C302
C303
C305
20060508
12 NC
Description
MCV CBA
Consists of the following:
MAIN CBA
SENSOR CBA
MAIN CBA
SHIELD ASSEMBLY H9500ED
BUSH LED(F) H3700UD
ROHM HOLDER H7770JD
PHOTO INTERRUPTER RPI-302C70
PCB JUMPER D0.6-P14.0
PCB JUMPER D0.6-P10.0
PCB JUMPER D0.6-P6.0
PCB JUMPER D0.6-P8.0
PCB JUMPER D0.6-P7.5
CARBON P
.O.T. VZ067TL1 B104 PB(F)
XTAL 4.433619MHZ
QUARTZ CRYSTAL 4.433619MHZ
XTAL 1K*044334EE
QUARTS CRYSTAL 12.000000MHZ
XTAL 12MHZ 12.000MHZ
ELECTROLYTIC CAP 47UF/16V M H7
.
ALUMINUM ELECTROLYTIC CAP
47UF/16V H7
ELECTROLYTIC CAP 10UF/16V M H7
.
ELECTROLYTIC CAP 10UF/16V M H7
.
ELECTROLYTIC CAP 10UF/16V M H7
.
ALUMINUM ELECTROLYTIC CAP
10UF/16V H7
CHIP CERAMIC CAP
.(1608) F Z 0.1UF/
50V
CHIP CERAMIC CAP
.(1608) F Z 0.1UF/
25V
CHIP CERAMIC CAP
.(1608) B K
1000PF/50V
ELECTROLYTIC CAP 1UF/50V M H7
.
ALUMINUM ELECTROLYTIC CAP 1UF/
50V H7
CHIP CERAMIC CAP
.(1608) B K
0.022UF/50V
CHIP CERAMIC CAP
.(1608) B K
0.022UF/25V
ELECTROLYTIC CAP 1UF/50V M H7
.
ALUMINUM ELECTROLYTIC CAP 1UF/
50V H7
CHIP CERAMIC CAP F Z 0.22UF/16V
.
ELECTROLYTIC CAP 1UF/50V M H7
.
VCR Module
C311
ELECTRICAL PARTS LIST
1
1
1
C312
C312
C313
C313
C314
C315
C315
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
C316
1
C324
1
C325
C328
1
1
1
C316
C317
C317
C318
C318
C321
C322
C322
C328
C329
1
C329
1
1
C330
C330
C331
C331
1
C333
1
1
1
1
1
1
1
1
VCR Module
ELECTRICAL PARTS LIST
C333
C334
C334
C335
C335
C336
1-10-1
12 NC
Description
ALUMINUM ELECTROLYTIC CAP 1UF/
50V H7
CHIP CERAMIC CAP
.(1608) B K
0.047UF/50V
CHIP CERAMIC CAP
.(1608) B K
0.047UF/25V
CHIP CERAMIC CAP
.(1608) B K
0.022UF/50V
CHIP CERAMIC CAP
.(1608) B K
0.022UF/25V
CHIP CERAMIC CAP
.(1608) F Z 0.1UF/
50V
CHIP CERAMIC CAP
.(1608) F Z 0.1UF/
25V
CHIP CERAMIC CAP
.(1608) F Z 0.1UF/
50V
CHIP CERAMIC CAP
.(1608) F Z 0.1UF/
25V
ELECTROLYTIC CAP 10UF/16V M H7
.
ALUMINUM ELECTROLYTIC CAP
10UF/16V H7
ELECTROLYTIC CAP 1UF/50V M H7
.
ELECTROLYTIC CAP 1UF/50V M H7
.
CHIP CERAMIC CAP
.(1608) B K 0.01UF/
50V
CHIP CERAMIC CAP
.(1608) B K
0.047UF/50V
CHIP CERAMIC CAP
.(1608) B K
0.047UF/25V
ELECTROLYTIC CAP 1UF/50V M H7
.
ALUMINUM ELECTROLYTIC CAP 1UF/
50V H7
CHIP CERAMIC CAP
.(1608) F Z 0.1UF/
50V
CHIP CERAMIC CAP
.(1608) F Z 0.1UF/
25V
CHIP CERAMIC CAP
.(1608) B K
0.022UF/50V
CHIP CERAMIC CAP
.(1608) B K
0.022UF/25V
ELECTROLYTIC CAP 47UF/6.3V M NP
.
H7
CHIP CERAMIC CAP
.(1608) F Z 0.1UF/
50V
CHIP CERAMIC CAP
.(1608) F Z 0.1UF/
25V
CHIP CERAMIC CAP
.(1608) B K 0.01UF/
50V
CHIP CERAMIC CAP B K 8200PF/50V
.
ELECTROLYTIC CAP 47UF/6.3V M H7
.
ALUMINUM ELECTROLYTIC CAP
47UF/6.3V H7
CHIP CERAMIC CAP
.(1608) F Z 0.1UF/
50V
CHIP CERAMIC CAP
.(1608) F Z 0.1UF/
25V
ELECTROLYTIC CAP 100UF/16V M
.
ELECTROLYTIC CAP 100UF/16V M
.
ELECTROLYTIC CAP 470UF/6.3V M
.
ELECTROLYTIC CAP 470UF/6.3V M
.
CHIP CERAMIC CAP
.(1608) F Z 0.1UF/
50V
CHIP CERAMIC CAP
.(1608) F Z 0.1UF/
25V
ELECTROLYTIC CAP 1UF/50V M H7
.
ALUMINUM ELECTROLYTIC CAP 1UF/
50V H7
ELECTROLYTIC CAP 100UF/6.3V H7
.
ALUMINUM ELECTROLYTIC CAP
100UF/6.3V H7
CHIP CERAMIC CAP CH J 220PF/50V
.
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
HK100EL
�C337
C337
C339
C340
C340
C341
C342
C342
C343
C343
C344
C345
C345
C348
C349
C349
C350
C370
C371
C371
C372
C372
C373
C373
C374
C374
C375
C376
C376
C377
C378
C379
C379
C381
C381
C382
C383
C384
C384
C402
C402
C403
C404
C404
C405
C405
C407
20060508
12 NC
Description
CHIP CERAMIC CAP
.(1608) F Z 0.1UF/
50V
CHIP CERAMIC CAP
.(1608) F Z 0.1UF/
25V
CHIP CERAMIC CAP CH J 120PF/50V
.
ELECTROLYTIC CAP 1UF/50V M H7
.
ALUMINUM ELECTROLYTIC CAP 1UF/
50V H7
CHIP CERAMIC CAP
.(1608) CH D 10PF/
50V
CHIP CERAMIC CAP
.(1608) CH J
1000PF/50V
CHIP CERAMIC CAP CH J 1000PF/25V
.
ELECTROLYTIC CAP 10UF/16V M H7
.
ALUMINUM ELECTROLYTIC CAP
10UF/16V H7
ELECTROLYTIC CAP 4.7UF/25V M NP
.
H7
ELECTROLYTIC CAP 0.47UF/50V M H7
.
ALUMINUM ELECTROLYTIC CAP
0.47UF/50V H7
CERAMIC CAP
.(AX) F Z 0.1UF/50V
ELECTROLYTIC CAP 0.47UF/50V M H7
.
ALUMINUM ELECTROLYTIC CAP
0.47UF/50V H7
CERAMIC CAP
.(AX) F Z 0.1UF/50V
CERAMIC CAP
.(AX) Y M 0.01UF/16V
CHIP CERAMIC CAP
.(1608) B K
0.022UF/50V
CHIP CERAMIC CAP
.(1608) B K
0.022UF/25V
CHIP CERAMIC CAP
.(1608) F Z 0.1UF/
50V
CHIP CERAMIC CAP
.(1608) F Z 0.1UF/
25V
CHIP CERAMIC CAP
.(1608) F Z 0.1UF/
50V
CHIP CERAMIC CAP
.(1608) F Z 0.1UF/
25V
CHIP CERAMIC CAP
.(1608) F Z 0.1UF/
50V
CHIP CERAMIC CAP
.(1608) F Z 0.1UF/
25V
CHIP CERAMIC CAP
.(1608) B K 0.01UF/
50V
CHIP CERAMIC CAP
.(1608) B K
0.022UF/50V
CHIP CERAMIC CAP
.(1608) B K
0.022UF/25V
CHIP CERAMIC CAP
.(1608) B K 0.01UF/
50V
CHIP CERAMIC CAP
.(1608) B K 0.01UF/
50V
ELECTROLYTIC CAP 0.47UF/50V M H7
.
ALUMINUM ELECTROLYTIC CAP
0.47UF/50V H7
CHIP CERAMIC CAP
.(1608) F Z 0.1UF/
50V
CHIP CERAMIC CAP
.(1608) F Z 0.1UF/
25V
CHIP CERAMIC CAP B K 2200PF/50V
.
CHIP CERAMIC CAP B K 2200PF/50V
.
ELECTROLYTIC CAP 2.2UF/50V M H7
.
ALUMINUM ELECTROLYTIC CAP
2.2UF/50V H7
FILM CAP 0.018UF/50V J
.(P)
FILM CAP 0.018UF/50V J
.(P)
CERAMIC CAP B K 470PF/100V
.
ELECTROLYTIC CAP 220UF/6.3V M H7
.
ELECTROLYTIC CAP 220UF/6.3V M H7
.
ELECTROLYTIC CAP 47UF/6.3V M H7
.
ALUMINUM ELECTROLYTIC CAP
47UF/6.3V H7
CHIP CERAMIC CAP B K 820PF/50V
.
1
ELECTRICAL PARTS LIST
Pos.No. !
C408
C409
1
C410
1
1
C410
1
C411
1
C412
C412
1
1
1
C413
C413
1
C414
1
1
C415
C415
1
1
1
C416
C417
1
C417
1
1
C418
1
C418
C419
1
C420
1
C421
1
C421
1
C422
1
C423
1
C426
1
C427
1
C452
C452
1
C453
1
C453
1
C454
1
C454
1
VCR Module
Pos.No. !
VCR Module
ELECTRICAL PARTS LIST
C455
1
C455
1
C456
1
C456
1
1
1
C457
1
C458
1
1
1
1
1
1
C461
1
C464
1
C465
C457
C462
C463
C463
1-10-2
12 NC
Description
CHIP CERAMIC CAP B K 1800PF/50V
.
CHIP CERAMIC CAP
.(1608) CH J 33PF/
50V
ELECTROLYTIC CAP 10UF/16V M H7
.
ALUMINUM ELECTROLYTIC CAP
10UF/16V H7
CHIP CERAMIC CAP
.(1608) B K 0.01UF/
50V
ELECTROLYTIC CAP 33UF/6.3V M H7
.
ALUMINUM ELECTROLYTIC CAP
33UF/6.3V H7
CHIP CERAMIC CAP
.(1608) F Z 0.1UF/
50V
CHIP CERAMIC CAP
.(1608) F Z 0.1UF/
25V
CHIP CERAMIC CAP
.(1608) B K 0.01UF/
50V
ELECTROLYTIC CAP 4.7UF/25V M H7
.
ALUMINUM ELECTROLYTIC CAP
4.7UF/25V H7
CHIP CERAMIC CAP
.(1608) B K
4700PF/50V
ELECTROLYTIC CAP 22UF/6.3V M H7
.
ALUMINUM ELECTROLYTIC CAP
22UF/6.3V H7
CHIP CERAMIC CAP
.(1608) F Z 0.1UF/
50V
CHIP CERAMIC CAP
.(1608) F Z 0.1UF/
25V
CHIP CERAMIC CAP CH J 220PF/50V
.
CHIP CERAMIC CAP
.(1608) B K 0.01UF/
50V
ELECTROLYTIC CAP 47UF/6.3V M H7
.
ALUMINUM ELECTROLYTIC CAP
47UF/6.3V H7
ELECTROLYTIC CAP 47UF/6.3V M NP
.
H7
ELECTROLYTIC CAP 47UF/6.3V M NP
.
H7
CHIP CERAMIC CAP
.(1608) CH J
470PF/50V
CHIP CERAMIC CAP
.(1608) CH J
470PF/50V
ELECTROLYTIC CAP 10UF/16V M H7
.
ALUMINUM ELECTROLYTIC CAP
10UF/16V H7
ELECTROLYTIC CAP 22UF/10V M H7
.
ALUMINUM ELECTROLYTIC CAP
22UF/10V H7
CHIP CERAMIC CAP
.(1608) F Z 0.1UF/
50V
CHIP CERAMIC CAP
.(1608) F Z 0.1UF/
25V
CHIP CERAMIC CAP
.(1608) F Z 0.1UF/
50V
CHIP CERAMIC CAP
.(1608) F Z 0.1UF/
25V
ELECTROLYTIC CAP 10UF/16V M H7
.
ALUMINUM ELECTROLYTIC CAP
10UF/16V H7
ELECTROLYTIC CAP 4.7UF/25V M H7
.
ALUMINUM ELECTROLYTIC CAP
4.7UF/25V H7
CHIP CERAMIC CAP
.(1608) B K 0.01UF/
50V
CHIP CERAMIC CAP
.(1608) B K 0.01UF/
50V
CHIP CERAMIC CAP
.(1608) B K
4700PF/50V
ELECTROLYTIC CAP 22UF/10V M H7
.
ALUMINUM ELECTROLYTIC CAP
22UF/10V H7
CHIP CERAMIC CAP
.(1608) B K 0.01UF/
50V
ELECTROLYTIC CAP 10UF/16V M H7
.
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
HK100EL
�C465
C466
C466
C467
C467
C468
C468
C469
C469
C470
C471
C472
C472
C473
C473
C474
C474
C475
C475
C476
C476
C478
C478
C479
C479
C482
C482
C483
C483
C484
C484
C485
C485
C486
C486
C487
C487
C489
C502
C502
C505
C506
C506
C508
20060508
12 NC
Description
ALUMINUM ELECTROLYTIC CAP
10UF/16V H7
CHIP CERAMIC CAP
.(1608) F Z 0.1UF/
50V
CHIP CERAMIC CAP
.(1608) F Z 0.1UF/
25V
CHIP CERAMIC CAP
.(1608) F Z 0.1UF/
50V
CHIP CERAMIC CAP
.(1608) F Z 0.1UF/
25V
ELECTROLYTIC CAP 220UF/6.3V M H7
.
ALUMINUM ELECTROLYTIC CAP
220UF/6.3V H7
ELECTROLYTIC CAP 22UF/10V M H7
.
ALUMINUM ELECTROLYTIC CAP
22UF/10V H7
CHIP CERAMIC CAP
.(1608) B K
4700PF/50V
CHIP CERAMIC CAP
.(1608) B K 0.01UF/
50V
ELECTROLYTIC CAP 4.7UF/25V M H7
.
ALUMINUM ELECTROLYTIC CAP
4.7UF/25V H7
ELECTROLYTIC CAP 10UF/16V M H7
.
ALUMINUM ELECTROLYTIC CAP
10UF/16V H7
CHIP CERAMIC CAP
.(1608) F Z 0.1UF/
50V
CHIP CERAMIC CAP
.(1608) F Z 0.1UF/
25V
CHIP CERAMIC CAP
.(1608) F Z 0.1UF/
50V
CHIP CERAMIC CAP
.(1608) F Z 0.1UF/
25V
ELECTROLYTIC CAP 22UF/6.3V M H7
.
ALUMINUM ELECTROLYTIC CAP
22UF/6.3V H7
CHIP CERAMIC CAP
.(1608) F Z 0.1UF/
50V
CHIP CERAMIC CAP
.(1608) F Z 0.1UF/
25V
ELECTROLYTIC CAP 10UF/16V M H7
.
ALUMINUM ELECTROLYTIC CAP
10UF/16V H7
CHIP CERAMIC CAP
.(1608) F Z 0.1UF/
50V
CHIP CERAMIC CAP
.(1608) F Z 0.1UF/
25V
ELECTROLYTIC CAP 4.7UF/25V M H7
.
ALUMINUM ELECTROLYTIC CAP
4.7UF/25V H7
ELECTROLYTIC CAP 4.7UF/25V M H7
.
ALUMINUM ELECTROLYTIC CAP
4.7UF/25V H7
ELECTROLYTIC CAP 10UF/16V M H7
.
ALUMINUM ELECTROLYTIC CAP
10UF/16V H7
CHIP CERAMIC CAP
.(1608) F Z 0.1UF/
50V
CHIP CERAMIC CAP
.(1608) F Z 0.1UF/
25V
ELECTROLYTIC CAP 47UF/16V M H7
.
ALUMINUM ELECTROLYTIC CAP
47UF/16V H7
CHIP CERAMIC CAP B K 2200PF/50V
.
CHIP CERAMIC CAP
.(1608) B K
0.022UF/50V
CHIP CERAMIC CAP
.(1608) B K
0.022UF/25V
CHIP CERAMIC CAP
.(1608) B K 0.01UF/
50V
ELECTROLYTIC CAP 220UF/6.3V M
.
ELECTROLYTIC CAP 220UF/6.3V M
.
CERAMIC CAP
.(AX) F Z 0.1UF/50V
Pos.No. !
1
C509
1
C510
1
C511
1
C512
1
C512
1
C514
1
C515
1
1
ELECTRICAL PARTS LIST
C515
C516
1
C516
1
C517
C518
1
1
C518
1
C519
C521
1
C521
1
C522
1
C524
1
C527
1
C531
1
C533
1
C533
1
C534
1
C534
1
C535
1
C535
1
C536
C538
1
C539
1
1
1
1
C540
C541
C542
C545
1
1
1
1
C546
C547
C548
1
C548
1
C549
1
C549
1
C550
1
C550
C553
1
1
1
1
VCR Module
Pos.No. !
VCR Module
ELECTRICAL PARTS LIST
C553
C555
1-10-3
12 NC
Description
CHIP CERAMIC CAP
.(1608) B K
1000PF/50V
CHIP CERAMIC CAP
.(1608) B K
4700PF/50V
CHIP CERAMIC CAP
.(1608) CH J
100PF/50V
CHIP CERAMIC CAP
.(1608) F Z 0.1UF/
50V
CHIP CERAMIC CAP
.(1608) F Z 0.1UF/
25V
CHIP CERAMIC CAP CH J 330PF/50V
.
CHIP CERAMIC CAP
.(1608) F Z 0.1UF/
50V
CHIP CERAMIC CAP
.(1608) F Z 0.1UF/
25V
ELECTROLYTIC CAP 22UF/6.3V M H7
.
ALUMINUM ELECTROLYTIC CAP
22UF/6.3V H7
CERAMIC CAP
.(AX) F Z 0.022UF/25V
ELECTROLYTIC CAP 22UF/6.3V M H7
.
ALUMINUM ELECTROLYTIC CAP
22UF/6.3V H7
CHIP CERAMIC CAP CH J 560PF/50V
.
ELECTROLYTIC CAP 22UF/6.3V M H7
.
ALUMINUM ELECTROLYTIC CAP
22UF/6.3V H7
CHIP CERAMIC CAP
.(1608) B K 0.01UF/
50V
CHIP CERAMIC CAP
.(1608) B K 0.01UF/
50V
CERAMIC CAP
.(AX) B K 100PF/50V
CHIP CERAMIC CAP
.(1608) B K
4700PF/50V
CHIP CERAMIC CAP
.(1608) B K
0.047UF/50V
CHIP CERAMIC CAP
.(1608) B K
0.047UF/25V
ELECTROLYTIC CAP 47UF/6.3V M H7
.
ALUMINUM ELECTROLYTIC CAP
47UF/6.3V H7
CHIP CERAMIC CAP
.(1608) F Z 0.1UF/
50V
CHIP CERAMIC CAP
.(1608) F Z 0.1UF/
25V
CHIP CERAMIC CAP CH J 560PF/50V
.
CHIP CERAMIC CAP CH J 180PF/50V
.
CHIP CERAMIC CAP
.(1608) B K 0.01UF/
50V
CHIP CERAMIC CAP
.(1608) B K
4700PF/50V
CHIP CERAMIC CAP CH J 18PF/50V
.
CHIP CERAMIC CAP CH J 18PF/50V
.
CHIP CERAMIC CAP
.(1608) CH J 22PF/
50V
CHIP CERAMIC CAP
.(1608) CH J 22PF/
50V
CHIP CERAMIC CAP
.(1608) B K 0.01UF/
50V
CHIP CERAMIC CAP
.(1608) F Z 0.1UF/
50V
CHIP CERAMIC CAP
.(1608) F Z 0.1UF/
25V
ELECTROLYTIC CAP 1UF/50V M H7
.
ALUMINUM ELECTROLYTIC CAP 1UF/
50V H7
ELECTROLYTIC CAP 100UF/6.3V H7
.
ALUMINUM ELECTROLYTIC CAP
100UF/6.3V H7
ELECTROLYTIC CAP 22UF/10V M H7
.
ALUMINUM ELECTROLYTIC CAP
22UF/10V H7
CHIP CERAMIC CAP
.(1608) F Z 0.1UF/
50V
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
HK100EL
�12 NC
C555
C557
C559
C560
C561
C562
Description
CHIP CERAMIC CAP
.(1608) F Z 0.1UF/
25V
CHIP CERAMIC CAP
.(1608) CH J
100PF/50V
CHIP CERAMIC CAP
.(1608) CH J
470PF/50V
CHIP CERAMIC CAP
.(1608) CH J
470PF/50V
CHIP CERAMIC CAP
.(1608) CH J
470PF/50V
CHIP CERAMIC CAP
.(1608) CH J
470PF/50V
Pos.No. !
1
Q405
1
Q406
1
1
1
1
CONNECTORS
CN252
CN253
CN505
CN653
DIODES
D151
D151
D301
D301
D370
D370
D510
D510
D555
D555
D555
ICS
IC301
IC370
IC451
IC501
IC502
IC502
COILS
L151
L251
L302
L370
L401
L402
L451
L452
L501
L502
L503
TRANSISTORS
Q151
Q151
Q152
Q153
Q153
Q301
Q301
Q302
Q302
Q302
Q302
Q401
Q403
Q403
Q404
Q404
20060508
PH CONNECTOR (WHITE) TOP 10P
B10B-PH-K-S(LF)
FE CONNECTOR TOP 10P 10FE-BTVK-N
FE CONNECTOR TOP 8P 08FE-BT-VKN
PH CONNECTOR (WHITE) TOP 2P
B2B-PH-K-S(LF)
1
1
1
1
ZENER DIODE DZ-10BSBT265
ZENER DIODE MTZJT-7710B
SWITCHING DIODE 1N4148M
SWITCHING DIODE 1SS133(T-77)
SWITCHING DIODE 1N4148M
SWITCHING DIODE 1SS133(T-77)
SWITCHING DIODE 1N4148M
SWITCHING DIODE 1SS133(T-77)
LED MIE-534A2
LED SIR-563ST3F P
LED SIR-563ST3F Q
1
1
1
1
1
1
1
1
1
1
1
IC Y/C/A LA71750EM-MPB-E
IC SECAM LA70100M-TRM-E
IC HIFI LA72648M-MPB-E
SYSCONIC M3776AMCH-AD1GP
IC BR24L02F-WE2
IC CAT24WC02WI-TE13
1
1
1
1
1
1
INDUCTOR 100UH-J-5FT
INDUCTOR 5.6UH-K-26T
INDUCTOR(100UH K) LAP02TA101K
PCB JUMPER D0.6-P5.0
PCB JUMPER D0.6-P5.0
INDUCTOR 47UH-K-5FT
INDUCTOR 47UH-K-5FT
INDUCTOR 27UH-K-5FT
INDUCTOR(100UH K) LAP02TA101K
PCB JUMPER D0.6-P5.0
INDUCTOR 1.8UH-K-26T
1
1
1
1
1
1
1
1
1
1
1
TRANSISTOR KTC3198-Y-AT/P
TRANSISTOR KTC3198-GR-AT/P
NPN TRANSISTOR KRC103M-AT/P
TRANSISTOR KTC3205-Y-AT/P
TRANSISTOR 2SC3266-Y(TPE2 F)
TRANSISTOR KTA-1266-GR-AT/P
TRANSISTOR 2SA1015-GR(TE2 F T)
TRANSISTOR KTC3199-Y-AT/P
TRANSISTOR KTC3199-GR-AT/P
TRANSISTOR 2SC1815-Y(TE2 F T)
TRANSISTOR 2SC1815-GR(TE2 F T)
CHIP TRANSISTOR RN1511(TE85R.F)
TRANSISTOR KTC3203-Y-AT/P
TRANSISTOR 2SC2120-Y(TE2 F T)
TRANSISTOR KTA-1266-GR-AT/P
TRANSISTOR 2SA1015-GR(TE2 F T)
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
VCR Module
Pos.No. !
VCR Module
ELECTRICAL PARTS LIST
ELECTRICAL PARTS LIST
Q451
Q506
Q506
Q515
Q515
RESISTORS
R151
R152
R152
R153
R251
R251
R252
R252
R301
R301
R303
R303
R305
R305
R308
R308
R309
R309
R310
R312
R312
R314
R314
R316
R316
R317
R317
R318
R319
R319
R320
R320
R321
R321
R322
R322
R325
R325
R326
R326
R327
R327
R328
R328
R330
R330
R331
R331
R332
R332
R333
R333
R334
R334
R336
R336
R337
R337
R370
1-10-4
12 NC
Description
RES. BUILT-IN TRANSISTOR
KRA103M-AT/P
CHIP TRANSISTOR KTC3875S-Y-RTK/
P
TRANSISTOR KRC103S-RTK/P
PHOTO TRANSISTOR PT204-6B-12
PHOTO TRANSISTOR MID-32A22F
TRANSISTOR KTC3199-BL-AT/P
TRANSISTOR 2SC1815-BL(TE2 F T)
1
1
1
1
1
CARBON RES. 1/4W J 10K OHM
CHIP RES. 1/10W J 1K OHM
RES CHIP 1608 1/10W J 1.0K OHM
CARBON RES. 1/4W J 150 OHM
CHIP RES. 1/10W J 39K OHM
RES CHIP 1608 1/10W J 39K OHM
CHIP RES. 1/10W J 2.2K OHM
RES CHIP 1608 1/10W J 2.2K OHM
CHIP RES. 1/10W J 1.2K OHM
RES CHIP 1608 1/10W J 1.2K OHM
CHIP RES. 1/10W J 8.2K OHM
RES CHIP 1608 1/10W J 8.2K OHM
CHIP RES. 1/10W J 10K OHM
RES CHIP 1608 1/10W J 10K OHM
CHIP RES. 1/10W J 3.9K OHM
RES CHIP 1608 1/10W J 3.9K OHM
CARBON RES. 1/6W J 100 OHM
CARBON RES. 1/4W J 100 OHM
PCB JUMPER D0.6-P5.0
CHIP RES. 1/10W J 5.6K OHM
RES CHIP 1608 1/10W J 5.6K OHM
CHIP RES. 1/10W J 3.9K OHM
RES CHIP 1608 1/10W J 3.9K OHM
CHIP RES. 1/10W J 1.8K OHM
RES CHIP 1608 1/10W J 1.8K OHM
CHIP RES. 1/10W J 220 OHM
RES CHIP 1608 1/10W J 220 OHM
CARBON RES. 1/4W J 680 OHM
CHIP RES. 1/10W J 1K OHM
RES CHIP 1608 1/10W J 1.0K OHM
CHIP RES. 1/10W J 47K OHM
RES CHIP 1608 1/10W J 47K OHM
CARBON RES. 1/6W J 82 OHM
CARBON RES. 1/4W J 82 OHM
CHIP RES. 1/10W J 10K OHM
RES CHIP 1608 1/10W J 10K OHM
CHIP RES. 1/10W J 1.2K OHM
RES CHIP 1608 1/10W J 1.2K OHM
CHIP RES. 1/10W J 4.7K OHM
RES CHIP 1608 1/10W J 4.7K OHM
CHIP RES. 1/10W J 6.8K OHM
RES CHIP 1608 1/10W J 6.8K OHM
CHIP RES. 1/10W J 1K OHM
RES CHIP 1608 1/10W J 1.0K OHM
CHIP RES. 1/10W J 2.2K OHM
RES CHIP 1608 1/10W J 2.2K OHM
CHIP RES. 1/10W J 18K OHM
RES CHIP 1608 1/10W J 18K OHM
CHIP RES. 1/10W J 10K OHM
RES CHIP 1608 1/10W J 10K OHM
CHIP RES. 1/10W J 18K OHM
RES CHIP 1608 1/10W J 18K OHM
CHIP RES. 1/10W J 10K OHM
RES CHIP 1608 1/10W J 10K OHM
CHIP RES. 1/10W J 4.7K OHM
RES CHIP 1608 1/10W J 4.7K OHM
CHIP RES. 1/10W J 6.8K OHM
RES CHIP 1608 1/10W J 6.8K OHM
CHIP RES. 1/10W J 2.7K OHM
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
HK100EL
�VCR Module
Pos.No. !
R370
R371
R371
R372
R372
R401
R401
R402
R402
R404
R404
R405
R405
R406
R406
R407
R407
R408
R408
R409
R409
R410
R410
R411
R411
R412
R412
R413
R413
R414
R414
R415
R415
R416
R416
R417
R417
R418
R418
R419
R419
R420
R420
R421
R421
R453
R453
R454
R454
R462
R462
R463
R463
R464
R464
R466
R466
R467
R467
R470
R470
R479
R479
R480
R480
R481
R481
R482
20060508
12 NC
Pos.No. !
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
R482
R483
R483
R484
R484
R509
R509
R511
R511
R512
R512
R513
R513
R514
R514
R516
R516
R517
R519
R519
R523
R523
R525
R525
R526
R526
R528
R528
R530
R530
R531
R531
R532
R532
R533
R533
R536
R536
R537
R537
R538
R538
R539
R539
R540
R540
R541
R541
R542
R542
R543
R543
R545
R545
R546
R546
R559
R560
R560
R567
R567
R568
R568
R569
R569
R570
R570
R572
Description
VCR Module
Description
RES CHIP 1608 1/10W J 2.7K OHM
CARBON RES. 1/6W J 5.6K OHM
CARBON RES. 1/4W J 5.6K OHM
CHIP RES. 1/10W J 3.9K OHM
RES CHIP 1608 1/10W J 3.9K OHM
CARBON RES. 1/6W J 820 OHM
CARBON RES. 1/4W J 820 OHM
CARBON RES. 1/6W J 100 OHM
CARBON RES. 1/4W J 100 OHM
CHIP RES.(1608) 1/10W 0 OHM
RES CHIP 1608 1/10W J 0 OHM
CHIP RES. 1/10W J 47K OHM
RES CHIP 1608 1/10W J 47K OHM
CHIP RES. 1/10W J 22K OHM
RES CHIP 1608 1/10W J 22K OHM
CHIP RES. 1/10W J 5.6K OHM
RES CHIP 1608 1/10W J 5.6K OHM
CHIP RES. 1/10W J 12K OHM
RES CHIP 1608 1/10W J 12K OHM
CHIP RES. 1/10W J 5.6K OHM
RES CHIP 1608 1/10W J 5.6K OHM
CHIP RES. 1/10W J 1K OHM
RES CHIP 1608 1/10W J 1.0K OHM
CHIP RES. 1/10W J 27K OHM
RES CHIP 1608 1/10W J 27K OHM
CHIP RES. 1/10W J 120 OHM
RES CHIP 1608 1/10W J 120 OHM
CHIP RES. 1/10W J 330K OHM
RES CHIP 1608 1/10W J 330K OHM
CHIP RES. 1/10W J 12K OHM
RES CHIP 1608 1/10W J 12K OHM
CHIP RES. 1/10W J 1.8K OHM
RES CHIP 1608 1/10W J 1.8K OHM
CHIP RES. 1/10W J 1.2K OHM
RES CHIP 1608 1/10W J 1.2K OHM
CHIP RES. 1/10W J 2.2K OHM
RES CHIP 1608 1/10W J 2.2K OHM
CHIP RES. 1/10W J 12K OHM
RES CHIP 1608 1/10W J 12K OHM
CHIP RES. 1/10W J 10K OHM
RES CHIP 1608 1/10W J 10K OHM
CHIP RES. 1/10W J 5.6K OHM
RES CHIP 1608 1/10W J 5.6K OHM
CHIP RES. 1/10W J 4.7K OHM
RES CHIP 1608 1/10W J 4.7K OHM
CHIP RES. 1/10W J 5.6K OHM
RES CHIP 1608 1/10W J 5.6K OHM
CHIP RES. 1/10W J 39K OHM
RES CHIP 1608 1/10W J 39K OHM
CHIP RES. 1/10W J 10K OHM
RES CHIP 1608 1/10W J 10K OHM
CHIP RES. 1/10W J 470 OHM
RES CHIP 1608 1/10W J 470 OHM
CHIP RES. 1/10W J 3.3K OHM
RES CHIP 1608 1/10W J 3.3K OHM
CHIP RES. 1/10W J 8.2K OHM
RES CHIP 1608 1/10W J 8.2K OHM
CHIP RES. 1/10W J 5.6K OHM
RES CHIP 1608 1/10W J 5.6K OHM
CHIP RES. 1/10W J 39K OHM
RES CHIP 1608 1/10W J 39K OHM
CHIP RES. 1/10W J 33 OHM
RES CHIP 1608 1/10W J 33 OHM
CHIP RES. 1/10W J 100 OHM
RES CHIP 1608 1/10W J 100 OHM
CHIP RES. 1/10W J 33 OHM
RES CHIP 1608 1/10W J 33 OHM
CARBON RES. 1/6W J 100 OHM
ELECTRICAL PARTS LIST
CARBON RES. 1/4W J 100 OHM
CHIP RES. 1/10W J 22K OHM
RES CHIP 1608 1/10W J 22K OHM
CHIP RES. 1/10W J 6.8K OHM
RES CHIP 1608 1/10W J 6.8K OHM
CHIP RES. 1/10W J 180 OHM
RES CHIP 1608 1/10W J 180 OHM
CARBON RES. 1/6W G 3.6K OHM
CARBON RES. 1/4W G 3.6K OHM
CHIP RES. 1/10W J 68K OHM
RES CHIP 1608 1/10W J 68K OHM
CHIP RES. 1/10W J 33K OHM
RES CHIP 1608 1/10W J 33K OHM
CARBON RES. 1/6W G 10K OHM
CARBON RES. 1/4W G 10K OHM
CARBON RES. 1/6W G 470 OHM
CARBON RES. 1/4W G 470 OHM
CARBON RES. 1/4W J 270 OHM
CARBON RES. 1/6W G 22K OHM
CARBON RES. 1/4W G 22K OHM
CARBON RES. 1/6W G 1.5K OHM
CARBON RES. 1/4W G 1.5K OHM
CARBON RES. 1/6W J 390K OHM
CARBON RES. 1/4W J 390K OHM
CHIP RES. 1/10W J 390K OHM
RES CHIP 1608 1/10W J 390K OHM
CARBON RES. 1/6W G 4.7K OHM
CARBON RES. 1/4W G 4.7K OHM
CHIP RES. 1/10W J 100 OHM
RES CHIP 1608 1/10W J 100 OHM
CHIP RES. 1/10W J 100 OHM
RES CHIP 1608 1/10W J 100 OHM
CHIP RES. 1/10W J 100 OHM
RES CHIP 1608 1/10W J 100 OHM
CHIP RES. 1/10W J 100 OHM
RES CHIP 1608 1/10W J 100 OHM
CHIP RES. 1/10W J 1.8K OHM
RES CHIP 1608 1/10W J 1.8K OHM
CHIP RES. 1/10W J 680 OHM
RES CHIP 1608 1/10W J 680 OHM
CHIP RES. 1/10W J 1.5K OHM
RES CHIP 1608 1/10W J 1.5K OHM
CHIP RES. 1/10W J 10K OHM
RES CHIP 1608 1/10W J 10K OHM
CHIP RES. 1/10W J 10K OHM
RES CHIP 1608 1/10W J 10K OHM
CHIP RES. 1/10W J 18K OHM
RES CHIP 1608 1/10W J 18K OHM
CHIP RES. 1/10W J 1K OHM
RES CHIP 1608 1/10W J 1.0K OHM
CARBON RES. 1/6W J 1K OHM
CARBON RES. 1/4W J 1K OHM
CHIP RES. 1/10W J 10K OHM
RES CHIP 1608 1/10W J 10K OHM
CARBON RES. 1/6W J 1K OHM
CARBON RES. 1/4W J 1K OHM
CARBON RES. 1/4W J 10K OHM
CHIP RES. 1/10W J 10K OHM
RES CHIP 1608 1/10W J 10K OHM
CHIP RES. 1/10W J 39K OHM
RES CHIP 1608 1/10W J 39K OHM
CHIP RES. 1/10W J 220K OHM
RES CHIP 1608 1/10W J 220K OHM
CHIP RES. 1/10W J 10K OHM
RES CHIP 1608 1/10W J 10K OHM
CARBON RES. 1/6W J 4.7K OHM
CARBON RES. 1/4W J 4.7K OHM
CHIP RES. 1/10W J 1K OHM
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
ELECTRICAL PARTS LIST
1-10-5
12 NC
HK100EL
�Description
VCR Module
RES CHIP 1608 1/10W J 1.0K OHM
CHIP RES. 1/10W J 1K OHM
RES CHIP 1608 1/10W J 1.0K OHM
CHIP RES. 1/10W J 1.5K OHM
RES CHIP 1608 1/10W J 1.5K OHM
CHIP RES. 1/10W J 1K OHM
RES CHIP 1608 1/10W J 1.0K OHM
CHIP RES. 1/10W J 100K OHM
RES CHIP 1608 1/10W J 100K OHM
CHIP RES. 1/10W J 1K OHM
RES CHIP 1608 1/10W J 1.0K OHM
CHIP RES. 1/10W J 1.2K OHM
RES CHIP 1608 1/10W J 1.2K OHM
CHIP RES. 1/10W J 1.5K OHM
RES CHIP 1608 1/10W J 1.5K OHM
CHIP RES. 1/10W J 470 OHM
RES CHIP 1608 1/10W J 470 OHM
CHIP RES. 1/10W J 10K OHM
RES CHIP 1608 1/10W J 10K OHM
CHIP RES. 1/10W J 10K OHM
RES CHIP 1608 1/10W J 10K OHM
CHIP RES. 1/10W J 10K OHM
RES CHIP 1608 1/10W J 10K OHM
CHIP RES. 1/10W J 100K OHM
RES CHIP 1608 1/10W J 100K OHM
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
LEAF SWITCH MXS01830MVP0
ROTARY MODE SWITCH SSS-53MD
SENSOR CBA
1
1
PHOTO TRANSISTOR PT204-6B-12
PHOTO TRANSISTOR MID-32A22F
PHOTO TRANSISTOR PT204-6B-12
PHOTO TRANSISTOR MID-32A22F
1
1
1
1
ELECTRICAL PARTS LIST
Pos.No. !
12 NC
R572
R574
R574
R577
R577
R578
R578
R582
R582
R583
R583
R585
R585
R586
R586
R588
R588
R595
R595
R596
R596
R597
R597
R598
R598
SWITCHES
SW506
SW507
TRANSISTORS
Q503
Q503
Q504
Q504
20060508
1-10-6
HK100EL
�EXPLODED VIEWS
2L021
See Electrical Parts List
for parts with this mark.
2L021
2L021
2L021
Some Ref. Numbers are
not in sequence.
2L021
1B1
SENSOR CBA
2B7
2B8
MAIN CBA
2B46
SENSOR CBA
2L031
2L099
A14
2B1
1-11-1
HK100CEX
�MECHANICAL PARTS LIST
MECHANICAL PARTS LIST
Pos.No. !
1B1
2B1
2L021
2L031
2L099
S1
S2
S3
S4
S5
S6
S7
S8
S9
S10
20060508
12 NC
Description
VCR Module
PRODUCT SAFETY NOTE: Products marked with a
! have special characteristics important to safety.
Before replacing any of these components, read
carefully the product safety notice in this service
manual. Don't degrade the safety of the product through
improper servicing.
MECHANICAL PARTS LIST
DECK ASSEMBLY CZD014/VM25E0 1
DECK PEDESTAL HK100ED
1
SCREW P-TIGHT M3*10 WASHER- 1
HEAD+
SCREW S-TIGHT M3X6 BIND
1
HEAD+
SCREW P-TIGHT M3X8 BIND
1
HEAD+
PACKING
DECK CASE (A) HK100ED
DECK CASE (B) HK100ED
DECK PARTITION (A) HK100ED
DECK PARTITION (B) HK100ED
DECK PAD HK100ED
PALLET HK100ED
DECK CASE COVER HK100ED
WOODEN PLATE HK100ED
POLYETHYLENE PACK HK100ED
DECK SPASAR HK100ED
1
1
1
1
1
1
1
1
1
1
1-12-1
HK100CA
�DECK MECHANISM SECTION
VCR Module
Sec. 2: Deck Mechanism Section
I Standard Maintenance
I Mechanism Alignment Procedures
I Disassembly / Assembly of Mechanism
I Deck Exploded Views
I Deck Parts List
TABLE OF CONTENTS
STANDARD MAINTENANCE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
SERVICE FIXTURE AND TOOLS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
MECHANICAL ALIGNMENT PROCEDURES . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
DISASSEMBLY / ASSEMBLY PROCEDURES OF DECK MECHANISM . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
ALIGNMENT PROCEDURES OF MECHANISM . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
DECK EXPLODED VIEWS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
DECK PARTS LIST . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
2-1-1
2-2-1
2-3-1
2-4-1
2-5-1
2-6-1
2-7-1
�STANDARD MAINTENANCE
Service Schedule of Components
This maintenance chart shows you the standard of replacement and cleaning time for each part.
Because those may replace depending on environment and purpose for use, use the chart for reference.
h: Hours
Deck
Ref.No.
Part Name
: Cleaning
I: Replace
Periodic Service Schedule
1,000 h
2,000 h
3,000 h
4,000 h
B2
Cylinder Assembly
B3
Loading Motor Assembly
B8
Pulley Assembly
I
I
B587
Tension Lever Assembly
I
I
B31
ACE Head Assembly
I
B573, B574
Reel S, Reel T
I
B37
Capstan Motor
I
I
B52
Cap Belt
I
I
B73
FE Head
B86
F Brake Assembly (HI)
I
I
B133
Idler Assembly (HI)
I
I
B410
Pinch Arm Assembly
I
I
B414
M Brake (SP) Assembly (HI)
I
I
B416
M Brake (TU) Assembly (HI)
I
I
B525
LDG Belt
I
I
I
I
I
I
Notes:
1.Clean all parts for the tape transport (Upper Drum with Video Head / Pinch Roller / ACE Head / FE Head)
using 90% ethyl alcohol.
2.After cleaning the parts, do all DECK ADJUSTMENTS.
3.For the reference numbers listed above, refer to Deck Exploded Views.
2-1-1
HK100MEN
�Cleaning
Cleaning of ACE Head
Cleaning of Video Head
Clean the head with a cotton swab.
Clean the head with a head cleaning stick or chamois
cloth.
Procedure
1.Remove the top cabinet.
2.Put on a glove (thin type) to avoid touching the
upper and lower drum with your bare hand.
3.Put a few drops of 90% ethyl alcohol on the head
cleaning stick or on the chamois cloth and, by
slightly pressing it against the head tip, turn the
upper drum to the right and to the left.
Procedure
1.Remove the top cabinet.
2.Dip the cotton swab in 90% ethyl alcohol and clean
the ACE Head. Be careful not to damage the
upper drum and other tape running parts.
Notes:
1.Avoid cleaning the ACE Head vertically.
2.Wait for the cleaned part to dry thoroughly before
operating the unit or damage may occur.
Notes:
1.The video head surface is made of very hard
material, but since it is very thin, avoid cleaning it
vertically.
2.Wait for the cleaned part to dry thoroughly before
operating the unit.
3.Do not reuse a stained head cleaning stick or a
stained chamois cloth.
ACE Head
Do Not touch
with your bare
hand!
Upper
Cylinder
Do Not !
Video Head
Cleaning Stick
2-1-2
HK100MEN
�SERVICE FIXTURE AND TOOLS
J-1-1, J-1-2
J-2
J-3
J-4
J-5
Ref. No. Name
Part No.
Adjustment
J-1-1
Alignment Tape
9965 000 14514
Head Adjustment of ACE Head
J-1-2
Alignment Tape
9965 000 14515
Azimuth and X Value Adjustment of ACE Head /
Adjustment of Envelope Waveform
J-2
Guide Roller Adj. Screwdriver Available
Locally
Guide Roller
J-3
Mirror
Available
Locally
Tape Transportation Check
J-4
Azimuth Adj. Screwdriver +
Available
Locally
ACE Head Height
J-5
Flat Screwdriver -
Available
Locally
X Value
2-2-1
HK100FIX
�4-4 MECHANICAL ALIGNMENT PROCEDURES
Explanation of alignment for the tape to correctly run
starts on the next page. Refer to the information below
on this page if a tape gets stuck, for example, in the
mechanism due to some electrical trouble of the unit.
4-4-1 Service Information
A. Method for Manual Tape Loading/Unloading
To load a cassette tape manually:
1. Disconnect the AC plug.
2. Remove the Top Case and Front Assembly.
B. Method to place the Cassette Holder in the
tape-loaded position without a cassette tape
1. Disconnect the AC Plug.
2. Remove the Top Case and Front Assembly.
3. Turn the LDG Belt in the appropriate direction
shown in Fig. M1. (The Cam Gear in Fig. M2
rotates.) Release the locking tabs shown in Fig. M1
and continue turning the LDG Belt until the Cassette Holder comes to the tape-loaded position.
Allow a minute or two to complete this task.
3. Insert a cassette tape. Though the tape will not be
automatically loaded, make sure that the cassette
tape is all the way in at the inlet of the Cassette
Holder. To confirm this, lightly push the cassette
tape further in and see if the tape comes back out,
by a spring motion, just as much as you have
pushed in.
Top View
Moving guide T preparation
(Eject Position)
Moving guide S preparation
(Eject Position)
LOAD
UNLOAD
/EJECT
Side View
4. Turn the LDG Belt in the appropriate direction
shown in Fig. M1 for a minute or two to complete
this task.
To unload a cassette tape manually:
1. Disconnect the AC plug.
LDG Belt
2. Remove the Top Case and Front Assembly.
3. Make sure that the Moving guide preparations are
in the Eject Position.
4. Turn the LDG Belt in the appropriate direction
shown in Fig. M1 until the Moving guide preparations come to the Eject Position. Stop turning when
the preparations begin clicking or can not be
moved further. However, the tape will be left wound
around the cylinder.
Push the tape
to load it.
Push the locking tab gently to unlock
when loading without a cassette.
5. Turn the LDG Belt in the appropriate direction continuously, and the cassette tape will be ejected.
Allow a minute or two to complete this task.
Fig. M1
Bottom View
LDG Belt (B)
UNLOAD
/EJECT
Cam Gear
Fig. M2
2-3-1
HK100MA_PC
�4-4-2. Tape Interchangeability Alignment
Note:
To do these alignment procedures, make sure that the
Tracking Control Circuit is set to the preset position
every time a tape is loaded or unloaded. (Refer to
page 4-7, procedure 1-C, step 2.)
Equipment required:
Dual Trace Oscilloscope
VHS Alignment Tape (9965 000 14515)
Guide Roller Adj. Screwdriver
Flat Screwdriver (Purchase Locally)
Note: Before starting this Mechanical Alignment, do all
Electrical Adjustment procedures.
Flowchart of Alignment for tape traveling
Loading (Use a blank tape.)
Not good
Adjust the height of the Guide Rollers
(Supply side and take-up side).
(Use a blank tape.) (Page 4-6)
1-A
Check to see that the tape is not creasing
and that there is no slack on the supply
and take-up side Guide Rollers.
(Use a blank tape.)
1-A
Adjust the X Value for maximum envelope.
(Page 4-6) (Use Alignment Tape.)
1-B
Adjust the envelope. (Page 4-7)
Check the envelope.
1-C
Not good
1-C
OK
Adjust the Audio Section.
(Azimuth Alignment) (Page 4-8)
1-D
Check the audio output.
Do the final tape-traveling test to see that
the tape runs normally in play mode without creasing or slacking.
1-A
1-D
Completion
Not good
OK
Check the following:
1. X Value (Page 4-6)
2. Envelope (Page 4-7)
Not good
Adjust the X value and envelope. 1-B, 1-C
1-B, 1-C
OK
2-3-2
HK100MA_PC
�1-A. Preliminary/Final Checking and
Alignment of Tape Path
4. If creasing or snaking is apparent, adjust the Tilt
Adj. Screw of the ACE Head. (Fig. M6)
Purpose:
To make sure that the tape path is well stabilized.
Azimuth Adj. Screw
Symptom of Misalignment:
If the tape path is unstable, the tape will be damaged.
ACE Head
Note: Do not use an Alignment Tape for this procedure. If the unit is not correctly aligned, the tape may
be damaged.
Flat
Screwdriver
1. Playback a blank cassette tape and check to see
that the tape runs without creasing at Guide Rollers
[2] and [3], and at points A and B on the lead surface. (Refer to Fig. M3 and M4.)
2. If creasing is apparent, align the height of the guide
rollers by turning the top of Guide Rollers [2] and
[3] with a Guide Roller Adj. Screwdriver. (Refer to
Fig. M3 and M5.)
Guide Roller [2]
Guide Roller [3]
ACE Head
B
A
Take-up Guide Post [4]
Fig. M3
Tilt Adj. Screw
Fig. M6
1-B. X Value Alignment
Purpose:
To obtain maximum PB FM envelope signal at the preset position of the Tracking Control Circuit, align the
Horizontal Position of the ACE Head.
Symptom of Misalignment:
If the Horizontal Position of the ACE Head is not properly aligned, maximum PB FM envelope cannot be
obtained at the preset position of the Tracking Control
Circuit.
1. Connect the oscilloscope to TP301 (C-PB) and
TP503 (CTL) on the Main CBA. Use TP504 (RFSW) as a trigger.
2. Playback the Gray Scale of the Alignment Tape
(9965 000 14515) and confirm that the PB FM signal is present.
3. Set the Tracking Control Circuit to the preset position by pressing “CH UP” button and then “VCRPLAY” button on the unit. (Refer to note on bottom
of page 4-7.)
4. Use the Flat Screwdriver so that the PB FM signal
at TP301 (C-PB) is maximum. (Fig. M6)
Lead Surface of Cylinder
Correct
Guide Roller
Tape
Fig. M4
Incorrect
Tape
Tape
Take-up Guide
Post [4]
Fig. M5
3. Check to see that the tape runs without creasing at
Take-up Guide Post [4] or without snaking between
Guide Roller [3] and ACE Head. (Fig. M3 and M5)
2-3-3
HK100MA_PC
�5. When Guide Rollers [2] and [3] (Refer to Fig. M3)
are aligned properly, there is no envelope drop
either at the beginning or end of track as shown in
Fig. M10.
5. To shift the CTL waveform, press “CH UP” or “CH
DOWN” button on the remote control unit. Then
make sure that the maximum output position of PB
FM envelope signal becomes within ±2ms from
preset position.
Dropping envelope level at the beginning of track.
Good
FM envelope signal
2ms
Center Position
Fig. M8
FM envelope output signal
is adjusted at maximum.
CTL signal
Dropping envelope level at the end of track.
No Good
FM envelope output signal is low.
Fig. M7
Fig. M9
6. Set the Tracking Control Circuit to the preset position by pressing “CH UP” button and then “VCRPLAY” button on the unit.
Envelope is adjusted properly. (No envelope drop)
1-C. Checking/Adjustment of Envelope
Waveform
Purpose:
To achieve a satisfactory picture, adjust the Guide
Rollers so that the PB FM envelope becomes as flat
as possible.
Symptom of Misalignment:
If the envelope output is poor, noise will appear in the
picture. The tracking will then lose precision and the
playback picture will be distorted by any slight variation of the Tracking Control Circuit.
1. Connect the oscilloscope to TP301 (C-PB) on the
Main CBA. Use TP504 (RF-SW) as a trigger.
2. Playback the Gray Scale on the Alignment Tape
(9965 000 14515). Set the Tracking Control Circuit
to the preset position by pressing “CH UP” button
and then “VCR-PLAY” button on the unit. Adjust the
height of Guide Rollers [2] and [3] (Fig. M3, page 46) watching the oscilloscope display so that the
envelope becomes as flat as possible. To do this
adjustment, turn the top of the Guide Roller with
the Guide Roller Adj. Screwdriver.
Fig. M10
Note: Upon completion of the adjustment of Guide
Rollers [2] and [3] (Refer to Fig. M3), check the X
Value by pushing the “CH UP” or “CH DOWN” buttons
on the unit alternately, to check the symmetry of the
envelope. Check the number of pushes to ensure preset position. The number of pushes of the “CH UP”
button on the unit to achieve 1/2 level of envelope
should match the number of pushes of the “CH
DOWN” button on the unit from center. If required,
redo the “X Value Alignment.”
3. If the envelope is as shown in Fig. M8, adjust the
height of Guide Roller [2] (Refer to Fig. M3) so that
the waveform looks like the one shown in Fig. M10.
4. If the envelope is as shown in Fig. M9, adjust the
height of Guide Roller [3] (Refer to Fig. M3) so that
the waveform looks like the one shown in Fig. M10.
2-3-4
HK100MA_PC
�1-D. Azimuth Alignment of Audio/Control/ Erase Head
Correct
Purpose:
To correct the Azimuth alignment so that the Audio/
Control/Erase Head meets tape tracks properly.
Incorrect
REV
Post [5]
Tape
Symptom of Misalignment:
If the position of the Audio/Control/Erase Head is not
properly aligned, the Audio S/N Ratio or Frequency
Response will be poor.
Tape
1. Connect the oscilloscope to the audio output jack
on the rear side of the deck.
2. Playback the alignment tape (9965 000 14515) and
confirm that the audio signal output level is 8kHz.
3. Adjust Azimuth Adj. Screw so that the output level
on the AC Voltmeter or the waveform on the oscilloscope is at maximum. (Fig. M6)
Note: Upon completion of the adjustment of Azimuth
Adj. Screw, check the X Value by pushing the “CH UP”
or “CH DOWN” buttons on the unit alternately, to
check the symmetry of the envelope. Check the number of pushes to ensure preset position. The number
of pushes of the “CH UP” button on the unit to achieve
1/2 level of envelope should match the number of
pushes of the “CH DOWN” button on the unit from
center. If required, redo the “X Value Alignment.”
Take-up Guide
Post [4]
Fig. M12
Alignment
Screw
Tape Guide
Assembly
1-E. Checking and Alignment of Tape
Path during reversing
Fig. M13
Purpose: To make sure that the tape path is well
stabilized during reversing.
Symptom of Misalignment: If the tape path is
unstable during reversing, the tape will be damaged.
Note: Do not use an Alignment Tape for this
procedure. If the unit is not correctly aligned, the tape
may be damaged.
1. Insert a blank cassette tape into the tray and set
the unit to REV. Then confirm if the tape has been
curled up or bent at the Take-up Guide Post[4] or
REV Post[5]. (Refer to Fig. M11 and M12.)
2. When the tape has been curled up or bent, turn
the alignment screw to adjust the height of REV
Post. (Refer to Fig. M11 and M13.)
REV Post [5]
Take-up Guide Post [4]
Fig. M11
2-3-5
HK100MA_PC
�DISASSEMBLY/ASSEMBLY PROCEDURES
OF DECK MECHANISM
Before following the procedures described below, be sure to remove the deck assembly from the cabinet. (Refer
to CABINET DISASSEMBLY INSTRUCTIONS.)
All the following procedures, including those for adjustment and replacement of parts, should be done in Eject
mode; see the positions of [44] and [45] in Fig. DM1H on page 2-4-3. When reassembling, follow the steps in
reverse order.
STEP START/LOC.
ING
No.
No.
PART
Fig. No.
REMOVAL
REMOVE/*UNHOOK/
UNLOCK/RELEASE/
UNPLUG/DESOLDER
[1]
[1]
Guide Holder A
T
DM3H
[2]
[1]
Cassette Holder
Assembly
T
[2]
Slider (SP)
T
DM5H
(S-1A), *(L-1)
[4]
[2]
Slider (TU)
T
DM5H
*(L-2)
[5]
[4]
Lock Lever
T
DM5H
*(L-3), *(P-1)
[6]
[2]
Cassette Plate
T
DM5H
[7]
[7]
Cylinder Assembly
T
DM1H, DM6H
Desolder, 3(S-2)
[8]
[8]
Loading Motor
Assembly
T
DM1H, DM7H
Desolder, LDG Belt,
2(S-3)
[9]
[9]
ACE Head Assembly
T
DM1H, DM7H
(S-4)
[10]
[2]
Tape Guide Arm
Assembly
T
DM1H, DM8H-1
*(P-2)
[11]
[10]
C Door Opener
T
DM1H, DM8H-1
(S-4A), *(L-4)
[12]
[11]
Pinch Arm (B)
T
DM1H, DM8H-1,
DM8H-2
*(P-3)
[13]
[12]
Pinch Arm (A)
Assembly
T
DM1H, DM8H-1,
DM8H-2
[14]
[14]
FE Head
T
DM1H, DM9H
(S-5)
[15]
[15]
Prism
T
DM1H, DM9H
(S-6)
[16]
[2]
Slider Shaft
T
DM10H
*(L-5)
[17]
[16]
C Drive Lever (SP)
T
DM10H
[18]
[16]
C Drive Lever (TU)
T
DM10H
(S-7), *(P-4)
[19]
Capstan Motor
Clutch Assembly (HI)
Center Gear
F Brake Assembly (HI)
Worm Holder
Pulley Assembly (HI)
Mode Gear (LM)
B
B
B
B
B
B
B
[26]
[20],[25]
Mode Lever (HI)
B
Cam Gear (A) (HI)
B
TR Gear C
TR Gear Spring
TR Gear A/B
FF Arm (HI)
Idler Assembly (HI)
BT Arm
B
B
B
B
B
B
DM2H, DM11H
DM2H, DM12H
DM12H
DM2H, DM12H
DM2H, DM13H-1
DM2H, DM13H-1
DM2H, DM13H-1
DM2H, DM13H-1,
DM13H-2
DM2H, DM13H-1,
DM13H-2
DM2H, DM13H-1
DM13H-1
DM13H-1
DM1H, DM14H
DM1H, DM14H
DM2H, DM14H
3(S-8), Cap Belt
(C-1)
[25]
[19]
[20]
[20]
[22]
[22]
[22]
[25]
ADJUSTMENT
CONDITION
DM4H
[3]
INSTALLATION
[20]
[21]
[22]
[23]
[24]
[27]
[28]
[29]
[30]
[31]
[32]
[33]
[22],[23],
[26]
[26]
[28]
[29]
[31]
[26]
[26]
2(S-1)
2-4-1
*(L-6)
(S-9), *(L-7), *(L-8)
(C-2)
(C-3)
(C-4)
(+)Refer to Alignment
Sec.Page 2-5-1
(C-5)
*(L-9)
*(P-5)
HK100DA
�STEP START/LOC.
ING
No.
No.
PART
Loading Arm (SP)
Assembly
Loading Arm (TU)
Assembly
Fig. No.
B
DM2H, DM14H
M Brake (TU)
Assembly (HI)
T
M Brake (SP)
Assembly (HI)
T
DM1H, DM15H
[37]
Tension Lever
Assembly
T
ADJUSTMENT
CONDITION
DM1H, DM15H
[2],[26]
INSTALLATION
(+)Refer to Alignment
Sec.Page 2-5-1
(+)Refer to Alignment
Sec.Page 2-5-1
DM2H, DM14H
B
REMOVAL
REMOVE/*UNHOOK/
UNLOCK/RELEASE/
UNPLUG/DESOLDER
DM1H, DM15H
[34]
[26]
[35]
[34]
[36]
[16],[26]
[37]
[38]
[39]
[40]
[41]
[38]
T Lever Holder
M Gear (HI)
[40]
[15],[40] Sensor Gear (HI)
T
T
T
DM15H
DM1H, DM15H
DM1H, DM15H
[42]
[36],[40] Reel T
T
DM1H, DM15H
Reel S
T
*(P-6)
DM1H, DM15H
[43]
[38]
[44]
[34],[38]
Moving Guide S
Preparation
T
DM1H, DM16H
[45]
[35]
Moving Guide T
Preparation
T
DM1H, DM16H
[46]
[19]
TG Post Assembly
T
DM1H, DM16H
[47]
[27]
Rack Assembly
R
DM17H
[48]
[47]
F Door Opener
R
DM17H
[49]
[49]
Cleaner Assembly
T
DM1H, DM6H
[50]
↓
(1)
[49]
↓
(2)
CL Post
T DM6H
↓
↓
(5)
(4)
*(L-10)
(C-6)
(C-7)
↓
(3)
(S-11), Slide Plate
*(L-11)
(+)Refer to Alignment
Sec.Page 2-5-1
*(L-12)
↓
(6)
↓
(7)
(1): Follow steps in sequence. When reassembling, follow the steps in reverse order.
These numbers are also used as identification (location) No. of parts in the figures.
(2): Indicates the part to start disassembling with in order to disassemble the part in column (1).
(3): Name of the part
(4): Location of the part: T=Top B=Bottom R=Right L=Left
(5): Figure Number
(6): Identification of parts to be removed, unhooked, unlocked, released, unplugged, unclamped, or desoldered.
P=Spring, W=Washer, C=Cut Washer, S=Screw, *=Unhook, Unlock, Release, Unplug, or Desolder
e.g., 2(L-2) = two Locking Tabs (L-2).
(7): Adjustment Information for Installation
(+):Refer to Deck Exploded Views for lubrication.
.
2-4-2
HK100DA
�Top View
[44]
[7]
[45]
[9]
[49]
[46]
[8]
[14]
[13]
[11]
[15]
[38]
[10]
[12]
[37]
[36]
[43]
[32]
[41] [31] [40]
[42]
Fig. DM1H
Bottom View
[19]
[35]
[34]
[25]
[23]
[24]
[26]
[27]
[22]
[28]
[20]
[33]
Fig. DM2H
2-4-3
HK100DA
�A
[3]
(S-1)
[4]
(S-1)
[1]
(L-1)
(L-3)
[5]
B
(L-2)
(S-1A)
[6]
(P-1)
Installation of [3] and [6]
First, insert [6] diagonally in [3] as shown below. Then,
install [6] in [3] while pushing (L-1) in the direction of
the arrow. After installing [6] in [3], confirm that pin A
of [3] enters hole A of [6] properly.
Fig. DM3H
[3]
Pin D
Pin C
1
[2]
View for A
A
[6]
2
Hole A
Pin A
Installation of [4] and [6]
1 Slide
2 Pull up
Pin A
(L-1)
Install [6] in [4] while pulling (L-2) in the direction of
the arrow. After installing [6] in [4], confirm that pin B
of [4] enters hole B of [6] properly.
[4]
Pin B
Slot A
View for B
Hole B
Pin B
[6]
(L-2)
Fig. DM5H
Slots B
Slot A
First, while pushing the locking tab as
shown in the right, slide and pull up the right
side on [2] to release Pin A and Pin B from
the slots A.
Then, remove Pin C and Pin D on [2] from
the slots B as shown.
Locking tab
View for A
Fig. DM4H
2-4-4
HK100DA
�[11]
(L-4)
(S-4A)
[7]
[49]
(P-3)
[13]
[50]
Removal of [11]
1) Remove screw (S-4A).
2) Unhook spring (P-2).
3) Release (L-4) while
holding [12] with a
finger.
4) Loosen a finger
holding [12] and
remove [11].
(L-12)
[12]
[10]
(P-2)
A
(S-2)
Pin of [12]
A
Pin of [10]
Groove of [27]
When reassembling [10] and
[12], confirm that pin of [10]
and pin of [12] are in the
[27] groove of [27] as shown.
Lead with
Red Stripe
Desolder
from bottom
View for A
Fig. DM8H-1
Fig. DM6H
View for A
(S-4)
[9]
[8]
A
Desolder
[8]
from bottom
(S-3)
Lead with White Stripe
LDG
Belt
View for A
Fig. DM7H
2-4-5
HK100DA
�Installation of [13] and [12]
[14]
(S-5)
(S-6)
[13]
Hook spring (P-3) up to [12]
and [13], then install them to
the specified position so that
[12] will be floated slightly
while holding [12] and [13].
(Refer to Fig. A.)
[15]
(P-3)
[12]
Fig. A
Pin of [12]
Install pin of [12] in groove of [27].
(Refer to Fig. B.)
[27]
Fig. DM9H
[17]
Groove of [27]
(L-5)
Fig. B (Top view)
Press both [12] and [13] till the
groove of chassis pin appears,
and adjust [13] to the notch of
chassis. Then turn [13] a little
in the direction of the arrow
while pressing [12].
(Refer to Fig. C.)
Notch of
chassis
[13]
[16]
[18]
turn
(P-4)
[12]
Groove of
pin of chassis
Fig. C
Install [11] and [10] while holding [12].
(Refer to Fig. DM8H-1.)
Fig. DM8H-2
(S-7)
Fig. DM10H
2-4-6
HK100DA
�[22]
(S-8)
turn
(C-1)
[20]
(L-6)
[21]
A
[19]
Cap Belt
Pin on [22]
Installation position of Cap Belt
[20]
Cap Belt
[27]
Position of pin on [22]
Fig. DM12H
[19]
View for A
Fig. DM11H
2-4-7
HK100DA
�[26]
Installation of [26]
(C-3)
Position of Mode Lever when installed
Pin of [33]
(S-9)
Pin of [37]
Pin of [36]
(L-8)
[23]
(L-7)
[24]
Bottom View
(C-5)
(C-4)
[28]
[29]
[26]
(C-2)
[27]
[25]
[30]
Align [26] and [27] as shown.
First groove on [27]
[27]
First tooth on [47]
[27]
When reassembling [27],
meet the first groove on
[27] to the first tooth on
[47] as shown.
Top View
[31]
Fig. DM13H-2
Fig. DM13H-1
(P-5)
[33]
Refer to the Alignment
Section, Page 2-5-1.
[35]
[32]
(L-9)
[34]
Fig. DM14H
2-4-8
HK100DA
�[38]
[36]
[43]
(P-6)
turn
[39]
(L-10)
turn
turn
[42]
[48]
[47]
Slide
[37]
Fig. DM17H
(C-7)
[41]
(C-6)
[40]
Fig. DM15H
[44]
[45]
[46]
(L-11)
Slide Plate
(S-11)
Fig. DM16H
2-4-9
HK100DA
�ALIGNMENT PROCEDURES OF MECHANISM
The following procedures describe how to align the
individual gears and levers that make up the tape
loading/unloading mechanism. Since information
about the state of the mechanism is provided to the
System Control Circuit only through the Mode Switch,
it is essential that the correct relationship between
individual gears and levers be maintained.
All alignments are to be performed with the mechanism in Eject mode, in the sequence given. Each
procedure assumes that all previous procedures have
been completed.
IMPORTANT:
If any one of these alignments is not performed properly, even if off by only one tooth, the unit will unload or
stop and it may result in damage to the mechanical or
electrical parts.
Alignment 1
Loading Arm (SP) and (TU) Assembly
Install Loading Arm (SP) and (TU) Assembly so that
their triangle marks point to each other as shown in
Fig. AL2.
Alignment 2
Mode Gear
Keeping the two triangles pointing at each other, install
the Loading Arm (SP) Assembly so that the last tooth
of the gear meets the most inside teeth of the Mode
Gear. See Fig. AL2.
Triangle Marks
Loading Arm
(SP) Assembly
Alignment points in Eject Position
Last Tooth
Top View
Alignment 2
Loading Arm
(TU) Assembly
Most inside teeth
of Mode Gear
Alignment 1
Alignment 3
Mode Gear
Fig. AL2
Alignment 3
Cam Gear (A) (HI), Rack Assembly
Bottom View
Install the Rack Assembly so that the first tooth on the
gear of the Rack Assembly meets the first groove on
the Cam Gear (A) (HI) as shown in Fig. AL3.
Alignment 1
Alignment 2
Top View
Cam Gear (A)(HI)
Alignment 3
First tooth
Fig. AL1
First groove
Gear on Rack Assembly
on the Cam Gear (A)(HI)
Fig. AL3
2-5-1
U29PHSAPM
�DECK EXPLODED VIEWS
Deck Mechanism View 1
Mark
Description
Floil G-684G or Multemp MH-D (Blue grease)
SLIDUS OIL #150
B2
B35
L1467 B494
B553
L1191
B73
B9
B10
B411
B567
L1053
B410
B74
L1051
Chassis Assembly
Top View (Lubricating Point)
B5
L1322
B501
L1450
L1450
B12
B121
B126
B11
B571
L1466
B8
B492
B37
B86
Chassis Assembly
Bottom View (Lubricating Point)
Some Ref. Numbers are not in sequence.
2-6-1
H9924DEX
�Deck Mechanism View 2
Mark
B587
B487
B521
B591
B416
Description
Floil G-684G or Multemp MH-D
(Blue grease)
SLIDUS OIL #150
SANKOUL FG84M (Yellow grease)
B590
B508
B499
B522
B573
B574
B585
L1406
B148
B3
B592
B558
B518
B564
B557
B31
B414
B572
B565
L1151
B525
B417
B568
B578
B133
B579
B551
B582
B580
A
B491
B583
B579
B513
B488
B581
Bottom Side
(Grease point)
B559
View
for A
B507
B516
B52
Bottom Side (Grease point)
Some Ref. Numbers are not in sequence.
2-6-2
H9924DEX
�Deck Mechanism View 3
Mark
L1321
B347
Description
Floil G-684G or Multemp MH-D (Blue grease)
SLIDUS OIL #150
L1321
B355
B354
B483
L1341
B425
B482
B562
B300
B563
B313
B529
B360
B359
B361
B555
B303
Some Ref. Numbers are not in sequence.
B514
2-6-3
H9924DEX
�Pos.No.
!
B2
B2
B3
B5
B8
B9
B10
B11
B12
B31
B35
B37
B52
B73
B73
B73
B74
B86
B121
B126
B133
B148
B300
B303
B313
B347
B354
B355
B359
B360
B361
B410
B411
B414
B414
B416
B417
B425
B482
B483
B487
B488
B491
B492
B494
B499
B501
B501
B507
B508
B513
B514
B516
B518
B521
B522
B525
B529
B551
20060508
12 NC
Description
CYLINDER ASSEMBLY MK12.5 PAL 6HD
CYLINDER ASSEMBLY MK12.5 PAL
6HD(V)
LOADING MOTOR ASSEMBLY MK14
SLIDE PLATE MK12.5
PULLEY ASSEMBLY(HI) MK12
MOVING GUIDE S P MK12.5
.P
MOVING GUIDE T P MK12.5
.P
LOADING ARM(TU) ASSEMBLY MK12
LOADING ARM(SP) ASSEMBLY MK12
AC HEAD ASSEMBLY MK12.5
TAPE GUIDE ARM ASSEMBLY MK12.5
CAPSTAN MOTOR HI 288/VCZC1301
CAP BELT MK10
FE HEAD(MK12) HVFHP0047A
FE HEAD(MK12) VTR-1X2ERS11-155
HEAD FE VTR-1X2ERS11-167
PRISM MK10
F BRAKE ASSEMBLY(HI) MK12
WORM MK12
PULLEY MK12
IDLER ASSEMBLY(HI) MK12
TG CAP MK6
C DRIVE LEVER(TU) MK12
F DOOR OPENER MK12
C DRIVE SPRING MK12
GUIDE HOLDER A MK10
SLIDER(TU) MK12
SLIDER(SP) MK12
CLEANER LEVER MK10
CLEANER ROLLER MK9
CL POST MK10
PINCH ARM(A) ASSEMBLY(5) MK12
PINCH SPRING MK12
M BRAKE(SP) ASSEMBLY(HI) MK12
M BRAKE SP ASSEMBLY HI MK14
M BRAKE(TU) ASSEMBLY(HI) MK12
TENSION SPG(3002645) MK12.5
LOCK LEVER SPRING MK10
CASSETTE PLATE
LOCK LEVER MK12
BAND BRAKE(SP) MK12.5
MODE LEVER(HI) MK12.5
CAM GEAR(A)(HI) MK12
MODE GEAR(LM) MK12
C DOOR OPENER MK12
T LEVER HOLDER MK12
WORM HOLDER MK12
WORM HOLDER(R) MK12
REEL WASHER MK9 5*2.1*0.5
S BRAKE SPRING(HI) MK12
P
.S.W F 6*2.55*0.5
SCREW RACK MK14
REEL WASHER MK9 5*2.1*0.5
P
.S.W CUT 1.6X4.0X0.5T
REV BRAKE SPG(HI) MK12
TG POST ASSEMBLY MK10
LDG BELT MK11
CLEANER ASSEMBLY MK10
FF ARM(HI) MK12
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
VCR Module
DECK PARTS LIST
VCR Module
DECK PARTS LIST
DECK PARTS LIST
Pos.No.
B553
B555
B557
B558
B558
B559
B562
B563
B564
B565
B567
B568
B571
B572
B573
B574
B578
B579
B580
B581
B582
B583
B585
B587
B590
B591
B592
L1051
L1053
L1151
L1191
L1321
L1322
L1341
L1406
L1450
L1466
L1467
2-7-1
!
12 NC
Description
REV SPRING MK11
RACK ASSEMBLY MK14
MOTOR PULLEY U5
LOADING MOTOR RF-500TB-12560
LOADING MOTOR M31E-1 R-14 7441
CLUTCH ASSEMBLY(HI) MK12
C DRIVE LEVER(SP) MK12
SLIDER SHAFT MK12
M GEAR(HI) MK12
SENSOR GEAR(HI) MK12
PINCHI ARM(B) ASSEMBLY MK12.5
BT ARM MK12
P
.S.W CUT 1.6X4.0X0.5T
P
.S.W CUT 1.6X4.0X0.5T
REEL S MK11
REEL T MK10
TR GEAR A MK10
TR GEAR B MK12
TR GEAR C MK12
CENTER GEAR MK11
TR GEAR SPRING MK10
CAM WASHER MK12
PSW(317505) MK11
TENSION LEVER ASSEMBLY MK12
BRAKE ARM(TU) MK12
BAND BRAKE(TU) MK12
TG POST MK10
SCREW B-TIGHT M2.6X6 PAN HEAD+
SCREW S-TIGHT M2.6X8 WASHER
HEAD+
SCREW SEMS M2.6X4 PAN HEAD+
SCREW S-TIGHT M2.6X8 WASHER
HEAD+
SCREW S-TIGHT M3X6 BIND HEAD+
SCREW B-TIGHT M2.3X4 BIND HEAD+
SCREW P-TIGHT M2X6 PAN HEAD+
AC HEAD SCREW MK14
SCREW SEMS M2.6X5 PAN HEAD+
SCREW S-TIGHT M2.6X6 BIND HEAD+
SCREW M2.6X5 WASHER HEAD+
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
HK100DPL
�
