MN2-2006 Rev.0
SSD-3500 Service Manual
Contents of SSD-3500 SERVICE MANUAL 1/2
Section 1 How to use this service manual
1.1
Service Manual
1-2
Contents of this Service Manual
1-3
Composition of this Service Manual
1-4
Contents of Each Section
page 1-1
.1-4
................
................
................
................
Section 2 PRECAUTIONS (read without fail)
page 2-1
2-1
Precautions Against Electrical Hazards to Serviceman
2-2
PrecautionsAgainst Mechanical Hazards to Serviceman
2-3
Precautions Against Germ Hazards to Serviceman
2-4
Precautions for Keeping Electrical Safety
2-5
Precautions for Keeping Mechanical Safety
2-6
Precautions for Keeping Chemicals Safety
2-7
Preparation to be Made at Service Center
2-8
Care to be TAen in the Field
2-9
Precaution for repairing the Monitor
PAGE
(4 pages)
1-1
1-1
1-2
1-2
.2-6
(6 pages)
.3-14
(14 pages)
2-10 Handling of S.M.D. PCBs
2-1 1 System Symbols
Section 3 BEFORE REPAIRING
page 3-1
........
3-1
Repair work on the description of Service Manual
3-2
Upgrade work on the description of Service Manual
........
3-3
Messages
........
Section 4 PRINCIPLE OF SYTSTEM OPERATION
4-1
4-2
4-3
4-4
4-5
.
page 4-1 4-76
................
................
System Configuration
................
System Block Diagram
Principle of System Operation ................
........
4-4-1 System Control
........
4-4-2 Transmission and Reception block
System Specification
........
4-4-3
Digital Imaging Unit
4-4-4
Physio.signal display unit PEU-3500 (Option) ........
4-4-5
PowersupplyunitPSU-S3500
Principle of PCB operation
................
................
3-1
3-6
3-12
(76 pages)
MN2-2006 Rev.0
SSD-3500 Service Manual
45-1
Front End
4-5-2
Trigger LT.F
4-5-3
4-5-4
Rx Beam Former
Tx Rx Control
4-5-5
DBP
4-5-6
CFP
4-5-7
SDP
4-5-8
CMB
4-5-9
WU
4-5-10 CPU (EU-9090)
4-5-11 Distributor
4-5-12 PSC
4-5-13 Physio.AMP
4-5-14 VOLJServo Control
Section 5 SCHEMATICS
Cable Connection
page 5-1
SSD-3500
Cables
Monitor -deo
Cable 610
Doppler Sound
Cable 6 11
Motherboard
EP4788
Power Supply Unit
PSU-s3500
Transformer unit (Primiuy unit)
EU-6029
AC Outlet Box (100-120V)
JB-269
AC Outlet Box ( 2 0 0 - 2 4 0
JB-270
PCB unit (Secondruy unit)
EP4800
Distributor
EP4786
Operation Panel
L-KEY-8l
Physio. signal Amp
.
EP4801
Physio.signal Volzme
CABLE413
PEU .UIM
CABLE 702
.5-64
Contents of SSD-3500 SERVICE MANUAL 2/2
Section 6 TROUBLE SHOOTING
6-2
6-3
6-4
................
Tools and Measuring Instruments Required ..............
................
Information
6-4-1 Automatic setting at powering on ................
................
6-4-2 Jumper (JP) settings
6-4-3
Installation of optional units
................
6-4-4
User-defined functions
645
Resetting the Backup data
................
................
646
Backup the preset data
................
6-4-7
How to reset the backup data
................
6-4-8
Location of units
................
6-4-10
6-4-1 1
................
How to handle start-up failwe andlor locking up ....
................
Minimum Start-up
Location of ROM
6-4-12 LED on the PCB
Check List Map
................
................
................
6-5-1
Flow chart of the Check List Map
6-5-2
Phenomenon Code Table
................
6-5-3
MAP
................
6-5-4
PCB Check Procedure
................
Section 7 ADJUSTMENT PROCEDURE
7-1
.6-98
Precautions
64-9
6-5
page 6-1
Attention
Section 8 PERFORMANCE CHECK
page 7-1
.7-2
................
page 8-1
.8-16
................
8-1
Introduction
8-2
Precautions
................
8-3
Making Entries in Repair Report
8-4
Performance check
................
................
MN2-2006 Rev.0
SSD-3500 Senice Manual
Section 9 DISASSEMBLING PROCEDURE
page 9-1
.9-82
................
................
SSD-3500 Installation Procedure
................
MOU-3500 Installation Procedure
PEU-3500 (Physio unit) Installation Procedure ................
................
EU-9084B Installation Procedure
SSD-3500 Disassembling Procedure
Section 10PARTS LIST
page 10-1
10-1 Contents of the Parts List
10-2 Application of the Parts List
10-3 Outline of the Parts List
................
................
................
10-4 How to read the Parts List
................
10-5 Attention
................
................
10-6 Parts List
Section 11 SERVICE INFORMATION
page 11-1
.11-12
11-6 Removing Primary Power Supply
................
................
................
................
................
................
SSD-3500 SERVICE MANUALAppendix
page Apndx-1 Apndx-2
11.1 Introduction
11-2 Maintenance Menu
11-3 SYSTEM PRESET
11-4 Flash Memory reloading
11-5 Ham Filter for Physio Unit
Appendix
.10-43
.
Appendix-1
Introduction
(2 pages)
Apndx-1
Appendix-:!
Manual Change Information
Apndx- 1
MNZ-2006 Rev.0
SECTlON I How to use this service manual
Service Manual
1.
This service manual has been prepared for persons in charge of repair at the field.
2.
This service manual is compiled according to the following basic principle. "For service,
pick out a faulty PCB and replace it with a new PCB."
3.
Make the best use of this service manual, making also reference to available technical
support information such as "Technical Bulletin".
Contents of this Service Manual
1.
The equipment is repaired by PCB replacement. Therefore this service manual does not
include the circuit diagrams of the PCB unit. For the function of each PCBs whose circuit
diagram is not included, refer to "SECTION 4 PRINCIPLE OF SYSTEM OPERATION".
In "SECTION 4", Specification of System, Principle of System, System Block Diagram,
PCB Block Diagram, the explanation of each PCB Block Diagram, and signal list are
described.
However, "Cable Connection Diagram", "Circuit Diagram of PCB equipped with the panel
switches which are easily exchangeable at the field" and "Circuit Diagram composed of
general circuit such as TV monitor and Power Supply unit"are described in "SECTION 5
SCHEMATICS".
2.
For changes and modifications of as well as additions to specifications, if any, prompt
information will be given to you by means of "APPENDM
IMPORTANT
Manual Change Information"
Always obsewe the manner specified for replacement, addition, or
deletion of "Manual Change" to prevent missing of necessary
information and keeping of erroneous information.
MN2-2006 Rev.0
SECTION 1 How to use this senice manual
1-3
Construction of This Service Manual
The stmcture of Service Manual is as follows:
1-4
- - 9,11
1. Service Instructions
SECTION
2. Principle of Operation
SECTION 4
3. Parts List
SECTION
4. Manual Change Information
APPENDIX
1 3,5
10
Contents of Each Section
SECTION 1
How to use this sewice manual
Describes the purpose of the Senice Manual.
SECTION 2
PRECAUTIONS
Describes general precautions and preparations for maintenance service. Be sure to follow
working procedures if mentioned.
SECTION 3
BEFORERi32LWM
Gives information peculiar to the equipment and care to be taken before starting repair work.
SECTION 4
PdillNCIPLE OF SYSTEM OPERAXlQN
Describes Specification of System, Principle of System, System Block Diagram, PCB Block
diagram, the explanation of each PCB Block Diagram, and Signal List. Gives the convenience of
grasping flow of major signals and mutual communication between units in the whole system.
SECTION 5 -..SCHEMATICS
Gives the cable connection diagram including all cables used, the circuit diagram of PCB
equipped with switches, and the circuit diagram of TV monitor and Power Supply unit.
MN2-2006 Rev.0
How
to
use
this
service manual
SECTION 1
SECTION 6
-HOOTING
Describes precautions on actual repair work and shows the necessary tools and measuring
instruments. Also, includes many hints on primary diagnosis and measures to be taken in the field.
SECTION 7
~JXLBTMENTP R O C E D W
Gives guides of adjustments of PCBs and units which some PCBs need when they are replaced.
Describes the procedure of checking for proper operation after repair and provides the forms of
check sheet.
SECTION 9
DISASSEMBLING PROCEDURE
Disassembling Procedure Illustrates the disassembly and assembly of main components. Be sure
to follow working procedures if specified.
SECTION 10 PARTS LIST
Lists the mechanical parts and electrical part which replacement possibility are considered .
SECTDN 11 SERVlCE INFORMATION
Provides available information about maintenance service.
kd'pENDx
SERVICE MANUAL Appendix
Manual change information, the revision list of this manual, is filed in this section.
MN2-2006 RR1.0
SECTION 1 How to use this service manual
MN2-2006 Rev.0
SECTION 2 PRECAUTIONS
2-1
Precautions Against Electxical Hazards to Serviceman
When disassembling the equipment after checking it for a trouble symptom, give care to the
following:
1)
Be sure to unplug the equipment before disassembly.
2)
Be sure to turn off the main switch on the equipment when removing electrical parts such as
PCBs, probe, and cable.
3)
Safety alert symbols
The indication
A used on this equipment and in this service manual have the following
meaning.
"Indicatesa potentially hazardous situation which, ifnot avoided, may result in minor or
moderate injwy. "
"A caution message is inserted here."
2-2
Precautions Against Mechanical Hazards to Serviceman
When disassembling the equipment, give care to the following to protect serviceman from
hazards :
1) Keep the working environment neat.
Wear working gloves to protect your hands from getting injured by burrs on the unit and
casing.
2-3
2)
Use only proper tools suited to work being made.
3)
Be sure to observe the specified disassembly procedure shown in SECTION 9.
4)
Take sufficient care not to damage component with undue load.
Precautions Against Germ Hazards to Serviceman
1) When it is necessary to touch the equipment, options andlor other peripheral devices at a
customer who uses intracorpored (transesophageal, transurethral, transvaginal, transrectal)
probes that need sterilization, take special care to protect your hands against germs,
irrespective of the usage of the equipment: whether it is used in the operation room or not.
2)
Service tools are subject to germ pollution in hospitals and, therefore, need periodical
sterilization.
3)
Be carelf not to directly touch anything assumable to have germ pollution. If necessary, ask
the customer for effective protection against germs.
MN2-2006Rev.0
SECTION 2 PRECAUTIONS
Precautions for Keeping Electrical Safety
1)
Be sure to ground the equipment securely.
2)
Perfectness in grounding, screw tightening, and cover installation is essential. Negligence of
it could cause a possibility of leakage current %omouter fitting which may lead to serious
damage to a patient being diagnosed.
Precautions for Keeping Mechanical Safety
Take care to the following to prevent the equipment &om being damaged or broken during
disassembly and reassembly work.
1) Be sure to observe the specified disassembly procedure.
2) Take care not to damage component parts by undue load.
3)
When reassembling the equipment, carefully check every part for loosening, distortion and
creak.
4)
Use only the specified screws and nuts. Using any other screws and/or nuts would affect not
only mechanical performance, but also electrical performance of the equipment.
Precautions for Keeping Chemicals Safety
Wbenever grease, oil or other chemicals is used for maintenance service, options andlor
peripheral devices, be sure to clean the equipment and/or devices after service work.
Preparation to be Made at Service Center
1) Wben a customer calls on the telephone, ask for the following information:
Name of equipment
Serial number of equipment
Name of hospital
0
Telephone number
Name of person in charge
Detail of trouble symptom as far as possible
State of comection to optional devices
2)
Go over the "Technical Bulletin" to see whether the complained trouble can be mended by
means of regular repairing method.
MN2-2006 Rev.0
SECTION 2 PRECAUTIONS
2-8
Care to be Taken in the Field
1)
Check for trouble symptoms.
2)
Check for connection to optional devices and other peripheral devices.
3)
Record the preset data to a floppy disk.
When record in a lump the internal data such as the preset data, patient data, image data and
others, record them to an MO disk.
After working, restore the equipment according to the above mentioned contents of memory
4)
if necessary.
5)
2-9
After completion of work, put back the peripheral devices to the original condition.
Precaution for Monitor repairing
1)
Subjecting the unit to strong shocks may result in damage to the CRT or malfunction,
therefore care must be taken when transporting or installing the unit.
*DANGER
High voltages are present inside the display chassis.
Only experienced
technicians should touch internal parts.
DANGER
The electric charge has remained in CRT after the power switch is turned off.
A
Because the high voltage is usually used for CRT. So make the electric
charge escape with a g r o g stick which is connecVd to the ground of the
chassis and through the resistance for high voltage (Approx. IMQ) before
removing the anode cap.
Some electric charge remains in CRT after escaping with a grounding stick.
Do not touch the metallic part of anode cap with bare hands, when detaching
the anode cap directly.
2)
CRT with the defleding yoke is already adjusted to the best condition. Do not touch the
deflecting yoke and the magnet of the neck part.
3)
Be sure to detach the metallic goods such as a wrist watch fTom your body before doing the
repair work.
To prevent the secondary damage and the electrical shock, the matters above should be taken
into carefut consideration.
MN2-2006 Rev.0
SECTION 2 PRECAUTIONS
2-10
Handling of S.M.D. PCBs
It is an Aloka's policy that neither repair nor modification of PCBs used for S.M.D. is made in
the field as a rule because of the following reasons:
~ U ~ V M X SPCB
] does not need repairing or modifying in the field as a rule.
m e n handling a PCB. do not touch the IC &ss
..
tt IS n e c w
IC soiled with worker's hands may cause corrosion. Additionally, foreign particles such as fine
solder dust could be the cause of short-circuited IC lead wires whose pitch is smaller than that of
,-----------------------------
the traditional ones.
f
I
I
I
0
CAUTION 0
devices to prevent ESD (Electro Static Discharge) damage.
I
A service person should preferably wear an ESD wrist strap correctly I
grounded when handling a PCB.
.............................
I
Do not give excessively large shocksto the PCB,
When replacing the ROM (Read Only Memory) on the PCB, attempting to force the ROM into
its socket would cause the PCB to he subjected to an undue force, and the following faults may :
1)
Damage to PCB intermediate-layer patterns,
2)
Peeling of chip devices (resistor, capacitor, diode, etc.)
3)
Damage to a junction between electrode and internal element of chip devices,
4)
Peeling of pattems (especially those for mounting the parts) together with chip devices since
those pattems are rather fragile compared with PCBs used before now, and
5)
,
When handling a PCB, avoid touching the IC and connector pins on the I
Damage to parts on the reverse side in the case of PCBs of both-side mounting type.
Also, a PCB mounted improperly or a warped PCB mounted as it is may cause the chip devices
to come off and the fine patterns to be cut.
Additionally, reuse of chip devices (including resistors, capacitors, diodes, etc.) is strictly
inhibited because of the following reason:
Since the chip devices are lacking in iead wires, such
as those found in the traditional component parts, beat given to the PCB will be directly
conducted to the inside of chip devices. As a result, a thermal stress will occur due to a
difference in thermal expansion coefficient between each chip device and PCB, giving rise of the
possibility of crack. inside of or on the surface of chip devices or the possibility of thermal
breaking (internal burning).
I
I
MN2-2006 Rw.0
SECTION 2 PRECAUTIONS
Be sure to observe the precautions mentioned above also to prevent the secondary accidents
MN2-2006Rev.0
SECTION 2 PRECAUTIONS
2-11
System Symbols
Symbols used by Aloka are described below, together with reference to IEC publication(s).
No.
1
2
3
6
7
9
Symbol
-
0
IEC
publication
417-5032
Alternating current
417-5019
Protective earth (ground)
When remove the grounding cable from the terminal which i
indicated with this symbol on this equipment, you mu5
reconnect it to proper terminal to avoid electrical shoc
hazard
417-50?7
Earth (ground)
1
-
When remove the grounding cable from the terminal which i
indicated with this symbol on this equipment, you mus
reconnect it to proper terminal to avoid electrical shoci
hazard.
4
417-5021
A
348
0
I
Description
Equipotentiality
Attention, consult ACCOMPANYING DOCUMENTS
417-5008
Off (power : disconnection from the mains)
417-5007
On (power : connection to the mains)
878-02-03
TYPE BF EQUIPMENT
878-03-01
Dangerous voltage
YN2-2006 Rev. 0
SECTION 3 BEFORE REPAIRING
3-1
Repair work on the description of Service Manual
The typical processes for the repair work are shown as the Row Chart on the next page. Do the
repair work according to this procedure. In the case of modification of the Technical Bulletin or
Upgrade Kit, see the next item 3-2.
Each procedures of flow chart are numbered to refer its detail shown from page 3-3.
Furthermore, the Flow Chart and its explanation show the time when each section of service
manual are required on repair work. This is a guide for the usage of service manual.
The senice manual is very important for the repair work, especially readjustment and
performance check after completion of repair work. This is to keep the safety and quality of
equipment. If you make them, you have to describe that the treatment has been done according to
the applied section of service manual, on the repair report or the like.
The circled numbers shown in the Flow Chart on next page, are corresponded to the procedure
number shown from page 3-3.
MN2-2006 Rev. 0
SECTION 3 BEFORE REPAIRING
/
Demandofrepair
\
Technical Bulletin
Section 4 6,11
-
Section 6,10
History
at customer side
@&
Confirmation
Section 2,6,9
Section 8
l Yes
Fill repair report
Approve by customer
Repair again?
Demand to repair the
defective part(s)
prohibition to use on
the equipment
I
I
MN2-2006 Rev. 0
SECTION 3 BEFORE REPAIRING
Procedure 1
Reception of repair and investigation
Accept the repair request &om the customer or distributor. At this time, the following points
have to be confirmed and checked,
Model namdnumber, and serial number
Name of customer, address, phone number, and name of person in charge
Configuration of the connection of peripheral devices
Software version or the like shown on the start up display (ifpossible)
Detail of phenomenon appeared on the function of equipment
Make an examination what circuit may be defective as the function of equipment based on the
above information. If you need to know about the basic operation and special information for the
maintenance, refer to the following sections, or ask to the TechnicalSupporf,
4 Section 4
PRINCIPLE OF SYSTEM OPERATION
4
Section 5
SCHEMATICS
4
Section 6
TROUBLESHOOTING
+
Section 1I
SERVICE INFORMATION
The reported phenomenon may be the original problem on the equipment. Because, refer to the
Technical Bulletin separately issued to check it whether defectiveness or not. If it has been
reported as the original problem, make a work according to the Technical Bulletin.
Procedure 2
Selection of required parts and order
If you find the doubtful circuit, order the necessary parts. Then check the delivery date and
decide the date to visit on the consultation with the customer.
For the selection and order of parts, refer to the following sections,
4
Section 6
t Section 10
TROUiLESHOOTING
PARTS LIST
For the electrical parts such as UNIT, check the history information on the HISTORY of this
equipment separately issued.
MN2-2006 Rev. 0
SECTION 3 BEFORE REPAIRJNG
Procedure 3
Preparation of visiting the customer
Check the required tools, measuring devices and parts to be replaced before the visiting the
customer. Then check the special information for the equipment reference with the following
section,
t Section 3
Procedure 4
BEFORE REPAIRING
Confirmation of phenomenon
Confirm the appeared phenomenon and condition to happen it with the customer. If you don't
know about the operation of equipment, refer to the Operation Manual attached to the equipment.
Procedure 5
Repair and readjustment
Repair the defective circuit with the brought parts. For the repair work, read the following
section carefully,
t Section 2
PRECAUTIONS
An4 examine the trouble reason depending on the situation with following section,
t Section 6
TROUBLESHOOTING
The electrical or mechanical readjustment may be requested depending on the replaced parts.
Because, refer to the following section &er completion of repair,
t Section 7
Procedure 6
ADJUSTMENT
Operation check
Check the system behavior to keep its condition as same as before in trouble, reference with the
following section. Be sure to do according to the description because check items are depending
on the portion to be treated.
4
Section 8
PERFORMANCE CHECK
UN2-2006 Rev. 0
SECTION 3 BEFORE REPAIRING
Procedure 7
Judgment of the operation quality
Ifthe result of "Procedure 6" is passed to the all standards, do the next "Procedure 8". On the
other side, if not, make a judgment of "Procedure 10".
Procedure 8
Confirm by customer, make repair report and approve
Reconfirm the solution of trouble phenomenon with the customer. Then make a repair report and
obtain approval of customer.
The repair report shows not only the treatment but also the method of readjustment and
operation check. If they have been done according to the service manual, the followings have to
be shown,
"Readjustedaccording to the Section 7 of service manual."
"Checked according to the Section 8 of service manual, andpmsed.
Procedure 9
"
Presentation of report and order to repair parts
Fill the repair report with necessary item, and present it according to the certain procedure.
Ifthe defective parts that trouble cause included is available to use again by repair, make an order
to do. If you cannot judge whether the part can be used again or not, ask to the Technical Support.
Procedure 10 Judgment of possibility to repair again
As the result of judgment on "Procedure 7", if the trouble is not solved, judge the possibility to
make the repair work again.
If available, return to "Procedure 5" and continue to work.
Ifunavailable, go to "Procedure 11".
Procedure 11 Indication of the prohibition to use
As the result of judgment on "Procedure 10", if yon judge that it is impossible to continue the
repair work at this time, indicate that the equipment is still out of order, and also show the
prohibition to use, on the equipment.
Procedure 12 Report to the customer
Report the reason why the trouble cannot be solved to the customer. Then consult about the plan
of next repair work.
And do the same way from "Procedure 2".
MN2-2006 Rev. 0
SECTION 3 BEFORE REPAIRING
3-2
Upgrade work on the description of Service Manual
The typical processes for the upgrade work are shown as the Flow Chart on the next page. Do
the upgrade work according to this procedure. In the case of repair work, see the previous item 31.
Each procedures of flow chart are numbered to refer its detail shown from page 3-8.
Furthermore, the Flow Chart and its explanation show the time when each section of service
manual are required on upgrade work. This is a guide for the usage of service manual.
The service manual is very important for the upgrade work, especially readjustment and
performance check after completion of upgrade work. This is to keep the safety and quality of
equipment.
The circled numbers shown in the Flow Chart on next page, are corresponded to the procedure
number shown from page 3-8.
MN2-2006 Rev. 0
SECTION 3 BEFORE REPAIRING
1
Demand to upgrade
(START)
rn
Tech.Bulletin
~ ~ ~ t ~ l l ~ Consultation
t i ~ ~ with
procedure
Technical Support
Selection and order of
requires partskits
I
Preparation
Section 3
..-. -.-.-.-.- .-
@1
-.*
Operatiin
I check
Work as normal?
1
*.
at your site
-.-.-.at customer side
Section 8
No
@
,,-----Dothe r2airwork,
r according to item 3-1
LI-----
@
I
1
1-------
Installation Procedure
Installation Procedure
Operation check
1
Section 8
0
upgrade
!
!
show c o 2 e n t s oilbe
prohibition to use on
the equipment
).
!
Completion
.
@(
Report to customer
-.-.-.-.- .-.-.- .
.
I
...
MN2-2006 Rev. 0
SECTION3 BEFORE REPAIIUNG
Procedure 1 Selection of required parts / kits and order
Accept the upgrade request from the customer, distributor or person in charge of sales. At this
time, the following points have to be confirmed and checked to decide the parts and kits,
Document name that announced the upgrade or kit requested
Model namelnumber, and serial number
Name of customer, address, phone number, and name of person in charge
0
Configuration of the connection of peripheral devices
Software version or the like shown on the start up display
Make an examination what parts or kits are required based on the above informalion. For the
selection, refer to the following document separately issued, or ask to the TechnicalSupport,
+
Technical Bulletin
To confirm the detail of upgrade, see the Installation Procedure attached with applied Technical
Bulletin.
Depending on the upgrade, hardware, or software, the other upgrade may be required. Check it
with the Technical Bulletin.
Then, confirm the delivery date of required parts or bts,and decide the date to visit on the
consultation with the customer.
Procedure 2
Preparation of visiting the customer
Check the required tools, measuring devices and parts or kits to be used before the visiting the
customer. Then check the special information for the equipment reference with the following
section and document.
4 Section
+
3
BEFORE REPAIRING
Technical Bulletin and/or Installation Procedure
MN2-2006 Rev. 0
SECTION 3 BEFORE REPAIRING
Procedure 3
Operation check before upgrade
On the basis of work, the upgrade to the defective equipment is prohibited. Because, before
upgrade work, check the behavior of equipment whether normal or not according to following
section and document,
+
Section 8
+
Operation Manual
Procedure 4
PERFORMANCE CHECK
Judgment of the operation quality
If the result of "Procedure 3" is passed to the all standards, do the next "Procedure 5". On the
other side, if not, go to "Procedure 10".
Procedure 5
Upgrade work
Do the upgrade work accordmg to the following document,
+
Procedure 6
Installation Procedure attached with kit or Technical Bulletin
Operation check after upgrade
Check the system behavior to keep its condition as same as before the upgrade, reference with
the following section. Be sure to do according to the description because check items are
depending on the portion to be treated.
+
+
Procedure 7
Section 8
PERFORMANCECHECK
Installation Procedure
Judgment of the operation quality
If the result of "Procedure 6" is passed to the all standards, do the next "Procedure 8". On the
other side, if not, make a judgment of "Procedure 11".
MN2-2006 Rev. 0
SECTION 3 BEFORE REPAIRING
Procedure 8
Confirmation by customer
Reconfirm any functions of equipment with the customer. Then, if need, introduce and explain
about the new functions and specificationadded by this upgrade.
Furthermore, if need, make a report to be approved by the customer. The report shows not only
the treatment but also the method of operation check If it bas been done according to the service
manual, the following has to be shown,
"Checked according to the Section 8 of service manual, andpassed.
Procedure 9
"
Return of unnecessary parts and report of completion
According to the Technical Bulletin, return the unnecessary replaced or unused parts as soon as
possible if suggested.
And, if the report of upgrade is suggested on the same document, report it with the information
required.
Procedure 10 Work for the abnormal behavior of equipment
On the result ofjudgment in "Procedure 4", if the equipment does not work normal, solve the
problem according to item 3-1 "Repair work on the description of service manual" shown in this
section.
When the problem is solved, return to "Procedure 5" of this item and continue to do the upgrade
work
Procedure 11 Judgment of possibility to recover
As the result ofjudgment on "Procedure 7",if the problem has been made by this upgrade, judge
the possibility to recover it.
If available, return to "Procedure 5" and continue to work.
Ifunavailable, go to "Procedure 12".
Procedure 12 Indication of the prohibition to use
As the result ofjudgment on "Procedure 1l", if you judge that it is impossible to recover at this
time, indicate that the equipment is the out of order, and also show the prohibition to use, on the
equipment.
Procedure 13 Report to the customer
Report to the customer that the upgrade has not been completed because of the problem on the
lN2-2006 Rev. 0
SECTION 3 BEFORE REPAIRWG
upgrade work. Then make a schedule to fix and complete it.
Procedure 14 Asking to the Technical Support
Report to the Technical Supporf about the happening of problem on the upgrade work, make an
examination to solve and order the additional parts. Before the asking, check the following
points,
8
Name of kit, or the issue number of Technical Bulletin showing the upgrade
8
Model namelnumber, and serial number
8
Confignration of the c o ~ e c t i o nof peripheral devices
Software version or the like shown on the start up display
8
Indication of equipment such as Upgrade or History Label
8
Detail of phenomenon appeared on the function of equipment
MN2-2006 Rev. 0
SECTION 3 BEFORE REPAERING
3-3
Messages
In this equipment, messages are displayed warning that the equipment is malfunctioning or
advising the correct operation method.
There are two types of message, differing according to their content.
Fig. Message Areas
1)
WARNING
This appears at the center of screen and an alarm tone is also emitted.
2)
Measurement assistance message
These refer to message used to assist you in measurement and error message. They are
displayed in the message area at the bottom of the screen while measurement is taking place
(While you are using the track-ball or rotary switch during measurement).
3)
Assistance message
When you use the keyboard to operate a function in a menu, assistance message appear in
the message area at the bottom of the screen.
4)
General messages
These are message related to panel and menu operations. They are displayed in the message
area at the bottom of the screen.
5)
Beep tone
This tone is emitted together with one of message 1 to 4. To mute this tone, select Warning
message in Display Control of PRESET.
6)
Application measurement assistance message
These refer to message used to assist you in application measurement and error message.
They are displayed in the message area at the bottom of the screen while measurement is
taking place (Wbile you are using the track-ball or rotary switch during measurement).
MN2-2006 Rev. 0
SECTION 3 BEFORE REPAIRING
7)
40.1
WARNING
Message
Cause
1 Backup memory will be reset Pressing both "CTRL" and "R"
to factory default.
simultaneouslyto clear the
Do you still wish to continue? PRESET data and stored data.
Treatment
Select "OK" or "Cancel"
after displaying the arrow
mark on the screen.
If you select "OK", all back
up data are cleared.
2 Hard disk Access error.
Hard disk requires being
In Preset control function, Data Press "OK" after displaying
cannot write into the Hard disk. the arrow mark on the
screen.
diagnosed.
3 Disk crashed.
4 Error: NOdisk, or disk
unformatted.
In Preset control function, Data Press "OK" after displaying
in the Floppy Disk (FD) cannot
the arrow mark on the
read out. (Disk crashed)
screen.
In Preset control function, the
Select "Retry" or "Cancel"
data storing was performed
after displaying the arrow
though FD was not inserted or
mark on the screen.
unformatted FD was inserted.
5 Error: Disk write protected.
In Preset control function, the
Select "Retry" or "Cancel"
data storing was performed
after displaying the arrow
though FD was protected from
mark on the screen.
the writing.
6 Error: Insufficient disk space. When the data are storing into
Please insert new disk.
Select "Continue" or
the FD in Preset control function, "Cancel" after displaying tht
the capacity is not enough to
arrow mark on the screen.
storing.
7 Error: Disk full. Please delete When the data are loading from Press "OK" after displaying
image.
the FD or MO in Preset control
the arrow mark on the
function, the capacity of Hard
screen.
disk is not enough to storing.
8 Hard disk Access error.
The data has been Initialized,
Press "OK" after displaying
Hard disk requires being
because of the data of Hard disk the arrow mark on the
diagnosed.
was damaged.
screen.
9 Store images to Removable The images were stored into the Wait until storing of data is
disk.
external media by STORE
completed.
switch.
10 Could not open DICOMDIR! When searching the DlCOM
Select "Retry" or "Cancel"
files from Image Browser, the
after displaying the arrow
/data could not be found.
/markon the screen.
MN2-2006 Rev. 0
SECTION3 BEFORE REPAIRtNG
Vo.
11 Can not open file ********
(File name).
After searching the files from
Select "Retry" or "Cancel"
Image Browser, the files cannot after displaying the arrow
open.
12 Disk crashed.
Treatment
Cause
Message
mark on the screen.
The removable disk is crashed. Press "OK" after displaying
the arrow mark on the
screen.
13 MO drive not accessible.
The device is not ready.
The removable disk cannot
Press "OK" after displaying
recognize.
the arrow mark on the
screen.
14 Invalid probe connected.
You connected a probe not
intended for use with the
Connect suitable probe
MN2-2006 Rw.0
SECTION 4 Principle of System Operation
4-1
System Specifications
Electronic Linear Scanning
Scanning System
Electronic Convex Scanning
Electronic Sector Scanning
SimultaneouslyAttached Probes
Electronic Probe
3 probes
Operating Modes:
B, M, D (PW Doppler),
Flow (VelocityNariance, Power Flow)
VOL (EU-9084B is required)
M, D Mode Display
Scroll / Moving Bar display
Sweep Speed
M: 7 speeds (1,1.5, 2, 3 , 4 , 6 , 8 SecRlane)
D: 7 speeds (1, 1.5,2, 3,4,6, 8 Secfflane)
2-24 cm (The range depends on probe)
Diagnostic Distance:
1 7
1
isplay modes
Volume
Electronic L i n e a r y Sector
Electronic Convex
,
BIM
B O m O
BCPFfmCPF)
BRW Doppler
B@)PWDoppler ,
OK
1
PW Doppler
OK
OK
1
!
:
BIVOL
OK: Possible
!
OK
1
OK
OK
j
OK
I
I
B -> VOL
OK
N.A.
1
N.A.
I
OK
N. A.
-.
i
OK
OK
OK
-
I
OK
N.A.: Jmpossible ............F: Flow ..............PF: Power Flow
N.A.
!
MN2-2006 Rev.0
SECTION 4 Principle of System Operation
Probe Frequency
Electronic Probes
Volume mode Probe
Probe nominal frequency is 2.5-7.5 MHz.
* Selection is possible by Image Freq.
3.5 MHz (the Option unit is required)
Transmission Frequency
2.14,2.5,3.0,3.75,5.0,6.0,7.5, lOMHz (The range depends on probe)
Transmission Method
Electronic Linear, Convex:
Electronic Sector:
Transmission Voltage
Single pulse transmission 1 Burst wave transmission
Single pulse transmission I Burst wave transmission
(Maximum number of burst wave is 15 waves)
Electronic probe: 100 V max.
Transmission Power Conk01
Transmission voltage is controlled by a rotary encoder.
Transmission Voltage Monitoring
The CPU monitors transmission voltage and it stops transmission when it detects
abnormal drive voltage and shutoff transmission power supply.
Focusing System
Electronic Linear, Convex:
4 points max. (selectable from 8 points) + Acoustic lens
Transmission:
Reception:
Continuously variable (For full range) + Acoustic lens
Electronic Sector:
4 points max. (selectable from 8 points) + Acoustic lens
Transmission:
Continuously variable (For full range) +Acoustic lens
Reception:
Reception signal Addition System
Electronic:
Digital addition
Reception Variable Band-pass Filter:
Corresponds to each probe frequency
Reception Multi-beam processing (electronic probe):
Bi-directional simultaneous reception is possible in both BIW and color imaging.
MX2-2006 Rev.0
SECTION 4 Principle of System Operation
Adjustment of image
-
B Gain
30 90dB (601256 dB step)
M Gain
i 30 dB from the B Gain setting
STC
8-level slide variable resistor
* Provided as digital information fmm the operation panel.
Contrast
16 steps (B, M independent)
AGC
16 steps (B, M independent)
'
Relief
Off + 3 steps
FTC
OdOff
ImageFreq. Select
B: 4 kinds
M: 4kinds
Scanning line density
Variable in accordance with the diagnostic distance, zoom and line
density settings.
Steered Beam
i15' max. (Steered beam probe only)
Spectral Doppler
Frequency Analysis System:
FFT system
Display:
Power spectrum
Frequencies:
PW Doppler
Analysis Rate (PRF Range):
The range varies depend on the probe frequency.
PW Doppler:
2.14, 2.5, 3, 3.75, 5,6, 7.5 MHz
Sampling Point:
1 point
Sampling Volume:
0.5 20 mm (0.5mrn step)
Filters:
Auto:
-
1
-
+/- 0.5kHz +!- 20kHz
- 12 steps
Manual:
PW Doppler: Approx. 50, 100, 200,400, 800, 1600 Hz
-
Doppler Gain:
0 60dB, 0.83dB step
Contrast :
16 levels, selectable
Doppler Image select
3 kinds
Audio Output:
Output to loud speaker and VCR
MN2-2006 Rev.0
SECTION 4 Principle of System Operation
Base Line Shift:
Possible on both real time and Frozen image
(It doesn't affect to the physiological signal.)
Spectrum Invert:
Possible on both real time and Frozen image
(The physiological signal also moves together.)
Interpolation processing for missing Doppler information (MSE function):
Yes
Doppler sound output in B Mode image display (T'W Sound On function):
Yes
Color Flow
Frequency Estimation System:
Auto-correlation method
Display:
Velocity
Variance
VelocityNariance
Power Flow
- 31.75dJ3,
0.25123 step
Flow Gain:
0
Frequencies:
2.14,2.5, 3,3.75,5, 7.5 MHz
Scope (Depth):
Max. 24 cm
Sampling rate:
Changes in accordance with the depth range.
Decimation:
Max. 8 times.
Average:
-7
B-Tissue mode: .....................3 - 7
B-Flow mode: .......................3
M-mode (Flow and Tissue): 2 0
Flow Filter:
6 types
Spatial Filter:
4 types
Rejection:
Motion Reject
4 types
Color Reject
16 steps
Color Enhance:
Implemented in color coding.
Color Image Select:
3 types
Multiple reflection echo elimination: Yes
Color image accumulation display:
Yes (Color capnue)
Color Coding:
30 types (F'ossible
10edit)
MX2-2006 Rev.0
SECTION 4 Principle of System Operation
Image Gradation:
BIW: 64 steps, Velocity: i 3 1 steps,
Variance: 16 steps, Power Flow: 32 steps
Scanning Lines:
Max. 5 12 lines
Cine Memory:
BiW:
512
X 65536 X
6-bit
Velocity/Power Flow: 512 X 65536 X 6-bit
Variance:
Display Memory:
Display Syncbronization Method:
512
X 65536 X 4-bit
1024 x 8-bit
BW.
512
Velocity/Power:
512 X 1024 x 8-bit
Variance:
512
X
X
1024x4-bit
TV frame sync.RJlirasonic frame sync. selectable
Ping-Pong System: ONIOF'F selectable
Image Processing:
Cine Memory Function:
Line Correlation
Off, Low, High
Frame Correlation
Off, Low, Mid, High
Frame Interpolation
On/Off
Post Process
5 types
View Gamma
5 types
Search; Max. 256 frames (With 256 scanning lines)
Scroll;
Max. 128 screens (512 Pixels per screen)
Storemeview;
Max. 999 frames
Image Display Functions
Bl* mode UpiDown Left-Right Display
B mode Image:
Zoom
Possible
Write Zoom Possible
Read Zoom Possible (During Freeze
Position Movement
Yes
Left-Righap-Down Inversion
Yes
90" Rotation Display
Yes
2B Image, BiWIColor Real Time Display
Yes
M mode Image:
Window Display
Yes
Echo Erase
Yes
Request Function (Post Freeze mode changing)
Yes
D mode Image BIW Reversal Display
Yes
Black and White, Color Display Priority Function
Yes
Color display of black and white image
Yes
X
2 only)
MN2-2006 Rev.0
SECTION 4 Principle of System Operation
Auto display:
date, time, Imaging frequency, Image direction mark, Diagnostic distance,
Gain, Contrast, Frame Rate, Transmission voltage (% display), Focus mark,
Velocity range, Heart rate, R-delay, BSNGWIPSA, Maximum Velocity,
Doppler angle correction value, Preset name ,VOL gamma, Opacity
Character Input:
Patient name, Patient age, Gender,
Hospital name, Patient number (ID),
Height, Weight, Body surface area, pregnancy week, Comments (Movable
using a trackball.), Annotation characters (Movable using a trackball.)
Graphic Display:
Range mark, Time mark, Velocity mark, Puncture guide line
Body mark, Cursor (mcludes Sample gate, M-window, Angle mark)
Flow area mark, Cine scale, Bi-plane mark, Multi-plane mark
Measuring Function
B mode Basic Measurements
DIST, Area (Trace, Ellipse, Circle), Volume 1, Volume 2 (Biplane, Single
plane), B Index
M mode Basic Measurements
M.VEL, M Length. M Time, Heart Rate, M Index
D mode Basic Measurements
D.VEL, ACCEL, Mean VEL, D.Time, Resistance Index, Pulsatility Index,
PlRT(VA), Heart Rate, Time, D. Cahper, D. Index, Stenosis Flow,
Regurgitation Flow, D Trace
B D mode Basic Measurements
Flow Volume, Stroke Volume
Obstetric Measurements
Gestational age measurement, Fetal weight measurement, Amniotic fluid
index measurement, Fetal Doppler measurement, Fetal heart function
measurement, Cervix measurement
GynecologicalMeasurements
Gynecological measurement, Follicle growth measurement, Bladder
measurement, GYN Dop measurement
Cardiac Function Measurements
Lee ventricular function measurement, M mode measurement, D mode
measiiement
Peripheral Vessel Measurements
Carotid measurement. Gpperlbwer extremity arterymein measurement.
Histogram measurement
Histogram (ROI: Square, Rectangle, Circle, Trace)
Report Functions: Obstetrics Report, Cardiac Report
TV Monitor:
15-inch Color Monitor won-interlace)
MN2-2006 Rev.0
SECTION 4 Principle of System Operation
Input-Output Signal:
R, G, B, Sync output for color TV monitor:
1 system
Composite output for BIW video printer:
1 system
1 system
Control signal print%usy):
R, G, B, Sync output for color video printer
l system
1 system
Control signal (PrintlBusy):
VTR Output
Color Composite:
1 system
YIC:
1 system
R, G, B, SYNC:
l system
Audio LIR:
1 system
VTR Input (Main unit select one of the input signals)
Color Composite:
l system
YIC:
1 system
Audio LdR:
1 system
For VTR Remote Control (for SVO-9500MDMDP)
External interface
RS-232C
Centronics
Power Supply Voltage:
100 Volt System
200 Volt System
1 system
1 system
1 system
AC 100-120 V i 10%
AC 200-240 V i 10%
Service Receptacle (AC outlet):
Printers, VTR and other:
3 systems (Total Max. 300 VA)
Power Consumption
1100 VA
Classification for the protection against surges:
Class 1 Device
Classification for the degree of protection against surges:
BF type
Environment
Room Temperature
Relative Humidity
Ak Pressure
10-4Oc
30-75%
700- IOhOhPa
Dimensions:
Weight
Approx. 100 kg
MN2-2006 Rev.0
SECTION 4 Principle of System Operation
Major Options
Photographic Equipment
B/W Video Printer
W-895MD (NTSC)
UP-895CE (PAL)
P91;P91WiP91E
Color Video Printer
UP-2 IMD P C )
W-21MD (CED)
CP900AiCP900UMiCP900E
Svo-95ooMD4mP4
VTR
Physiological Signal Display Unit
PEU-4000
Display Information: ECG
SensitivityiPosition:
Variable
Sweep Speed:
1, 1.5,2, 3,4,6, 8 (SeciFrame )
VOL mode unit
EU-9084
MO disk drive unit
MOU-3500
Foot switch
MP-2345B
MP-26 14B (3-channels)
Serial UO isolation unit
SKI-3500
MN2-2006 Rev.0
SECTION 4 Principle of System Operation
4-2
System Configuration
This ultrasound diagnostic machine (SSD.3500) consists of those units below.
Main body
PSC-137
USM-27'
Tx/Rx part
Digital Beam Former part
FlowDoppler part
DIU part
Main panel
L-KEY-8 1*
Viewing monitor
PC-1550 (Non-interlaced)
Power supply unit
PSU-S3500*
Optional devices
Physio-signal display unit
PEU-3500
VOL-mode unit
EU-9084B
MO disk drive unit
MOU-3500
3 channel foot switch
ME'-2614*
B/W video printer
P911?91W/P9lE
UP-895MD (NTSC)
UP-895CE (PAL)
Color video printer
UP-2 1MDWC)
UP-2 lMD(CE)
CP900A/CP900UM/CP900CE
VCR
SVO-9500MD4 (?TBC)
SVO-95OOMDP4 (PAL)
Serial VO isolation unit
SIU-3500
4-3 System Block Diagram
There are the lists of all PCB (Except Power supply unit and external peripherals) and the system
block diagram mentioned from the next page.
:SI)-&500PCB List
iD-3500
kin body
lain
.... panel
.
EP4787
EP4784
Rx Connector
DBP
.... -
Digital Beam
Former
EP483701
EP4810
Rx Beam Former
TxRx CTRL
%&dDopp1er
E1'4760
CFP
,EP4761
,SDP
EP4788
JUKI-760EA
Mother
Generic CPU
Mother Board
CPU
EU-9090
EP4829
EP4830
EP4889
Xgital Imaging EP4769
'art
-
The main amplifier (digital) for BiW images, output the US image data to DIU
unil.
.
-. -.-.....
.
.
. ---. -.Afl) and digital delay circuitry. It contains 16 processing channel per PCB.
IW (Transmission voltage) control, DBF control, Generating the timing signal
for GEU, Heart Kate Counter.
Quadrature detection (Spectral Doppler and Color), Color Flow Processor
elocity, Variance and Power flow
,Spectral Doppler analyzer, Interface with DIU for Spectral Doppler and Color,
Flow image.
+
CPU ITFl
CPU ITF2
LVDS ITF
CMB
-.
The main controller of SSD-3500. It eeneratcs eraohics and characters.
-
This is the connector PCB between Generic CPU and CPU ITF2.
-. - PC1 BUS bridge, 2.5"IJDD is mounted, Control of ATX power supply, Relaying
the si als of serial, arallel, Ethernet ke board and mouse.
Relavine
from Generic CPU. (LVDS form)
, " the VGA video sienal
"
!
Generating the parameters of correlation for Scan Converter, basic clock s i p a l
for DlU.
Line correlation, Frame correlation for BiW. Mass Memory for BiW (65536 US
line) and its control, Scan Converter and frame memory.
Frame correlation, Mass Memory (65536 US line), Scan Converter and framc
memory for color flow imaging.
(2/2)
Units
PCB Number
EP4768
Name
VPU
Description
Convert the BiW, Velocity, Variance image data to composite, YIC, analog
RGB video signal and output it.
Convert the comnosite and YiC video simal in~uttedfrom outside to dieital
RGB data for internal use. Generates gray and color scale bar.
Distribute the video and audio signal toperipherals. Audio Amplifier
15" color TV monitor (Non-interlaced)
-
EP4786
/DISTRIBUTOR
IPC-1550
Primary power EP4779
supply unit
Eli-6029
Secondary power EP4800
supply unit.
EP4468
Physio signal
EP4801
unit EU-5045
EU-9084
-
AC Power Control Unit Supplying AC power: ACl 00V system i AC200V system.
DC Regulator
PSC
Physio Amp
Outputs DC +3.3V, +5.1V, -ti-S.OV, +I-12V, IIVA (0 to -100V)
HVD (+40V), HVE (-150V)
A/D conversion of the ECG signal and the conversion of it to TV display.
Amplifier for ECG signal.
I
I
I
134469
VOL
VOL-mode processing and motor controller (For scanner).
MN2-2006 Rev.0
SECTION 4 Principle of Operation
MN2-2006 Rev.0
SECTION 4 Principle of Operation
BNY Prirte
ton)
@
MN2-2006 Rev.0
SECTION 4 Principle of System Operation
4-4
Principal of System Operation
4-4-1
Control of System
CPU
The CPU controls entire operation of this system that is a generic PC and it also controls HDD
and FDD.
The HDD contains:
The programs of this PC.
The programs for other peripheral processors.
m a t is transferred to the flashmemories of each PCB when the certain command is invoked)
The focus data of each probe that is for Tx and Rx circuitry.
The parameter data for scan converter unit that contains the data of each probe.
The PRESET data.
The CPU also transfers the data that is for specific probe to Tx/Rx andlor DIU units from the
HDD in accordance with a necessity while the system is running.
By utilizing the floppy disk drive, the system reads the up-grading data into HDD, makes a
backup of the preset data and maintenance backup.
Main Panel: L-KEY-81
Main Panel reads the information of operation that is made on switches, encoders and keyboard
into the system.. It communicates with the CCPU by means of serial (RS-232C) and PSI2 methods.
Peripheral MPU
There are micro processors other than the CPU mentioned above, on the CMB PCB and the Tx &
Rx Control PCB.
The program for those MF'U is also stored UI the flash memory on each CMB and Tx& Rx
Control PCB and it will he restored by the CPU when the system is up-graded.
Address !Data bus
In order to control the system, there are addressidata buses as below.
PC1 BUS:
It connects the CPU PCB and tbe DIU unit that is used exclusively for it. The
CPU transfers the data from HDD to DIU and TxRx units. (The CPU can access
to all registers that are on the Local bwWC bus/Front End bus via PC1 bus)
Local BUS:
This is the addressidata bus in the Digital Imaging unit.
USC BUS:
Ultrasound Control BUS. This is the addressldata bus in the Tx/Rx unit.
Front End Bus:
Tbis is the addressidata bus in the Front End part of the TxiRx unit.
MN2-2006 Rev.0
SECTlON 4 Principle of System Operation
There are bus bridges between PC1 BUS and LOCAL BUS, LOCAL BUS.and USC BUS. It is
open when the CPU accesses to USC bus andor Front End bus but closed for other time in order
to avoid the noise from control part leaking into the TxRx unit.
Probe data
Focus data for transmission:
The transmission focus data consists of amount of delays for each probe that is stored in the HDD
as special files and it is transferred to the flash ROM on the Trig. flT PCB. The system compares
the revision of data that is stored in the HDD and the flash ROM when it starts up and reload it to
the flash ROM if the system fmd a discrepancy between them (After up-grading, for example).
Thus, once the system transferred the data to the flash ROM, it nonnally uses the data from the
flash ROM and the data transfer from the HDD doesn't take place when yon change the setting on
the operation panel (Change the display mode and/or preset, for example).
Focus data for reception:
The source data of reception focus and the parameter data for each probe is stored on the KDD
** However, calculated focus data is not stored on the HDD
Normally, the system calculates the focus data from the source and then transfers it to the DBF
(Rx Beam former). The capacity of the memory on the DBF is not large enough to store complete
data of one probe, so the system transfers only the necessary data in accordance with the display
mode, magnification and focus points. The image responds immediately if the focus data is
already in the DBF when you operate the panel but if there isn't, the response will he delayed
about I
- 2 seconds.
When you connect a new probe at the first time, it would take maximum 5 seconds or so, for
calculating and transferring the focus data.
MN2-2006 Rev.0
SECTION 4 Principle of System Operation
2
0
LOCAL BUS
hlPU ADO-31
MN2-2006 Rev.0
SECTION 4 Principle of System Operation
4-4-2 Transmission and Reception block
TxRx paxt consists of
TxiRx module,
Digital Beam Fomer module, and
FlowDoppler module.
Tx Rx module :
This module transmits the ultrasound for electronic probes based on the control signals from Trig.
ITF and the transmission trigger signals (Delayed Triggers).
Front End PCB has two connectors for electronic probes @lectronic Linear / Convex / Phased
Array) and HVS (High Voltage Switch) circuitry for selecting the channel of crystals that are driven
simultaneously from the crystal array in the case of linear andlor convex probe. KVS circuitry is
controlled by Trig. ITF PCB.
The reception signal is amplified by PRE AMP and passed to Rx Beam Former via Channel
Reduction (C-R) circuitry and TGC amplifier. C-R is controlled by Trig. ITF PCB.
Digital Beam Former :
The reception signal (analog) passed from Variable Gain AMP is converted to digital signal. Then
the signal for each channel is delayed in accordance with the Rx focus data and added into an
ultrasound beam.
OThe delay is processed digitally as a readout from FIFO memory is delayed by processing
clock etc., that makes it possible to have accurate delays continuously. pynamic reception
focusing)
It also has the functionality that it adjusts the weighting of each reception signal
continuously that makes the Rx beam sharper.
OSinee it is digital signal, it can be processed in parallel by time sharing and then it realizes
higher frame rate.
OIt implements Rx Beam former PCB with 16 ch circuitry as the Delay &Adder.
OThis system does not have the trouble that shows brightness difference in every lcm depth
caused by one of the Rx focus boards (Delay and Adder circuit), like SSD-650, 1200, and
2000 etc.
MN2-2006 Rev.0
SECTION 4 Principle of System Operation
Rx Pixel Focusing
(Rx continuos dynamic focusing)
Depth
For B/W US image, delayed and added Rx data passes through Pre process circuit (It is the same
as Main Amp in conventional machine), where it selects the frequency that applies to the processing
in accordance with the depth, applies LOG compression, Detector, AGC, FTC and COXTRAST etc.
(There are two identical circuitry for BNV' parallel processing.)
Then BNV' data is transferred to DIU (Digital Imaging Unit) an US line by line via USD BUS
(Ultrasonic Line Data Bus).
The delayed and added Rx data is also transferred to Flow/Doppler module for the frequency
analysis of PW Doppler and the Color Flow calculation.
Tx & Rx part also has the following circuitry.
Tx Trigger generator for the electronic probes.
The generator of control signal for Rx signal, such as Pre STC and STC signal.
Timing/Control signal generator for Tx/Rx unit.
FlowiDoppler module :
FlowiDoppler module executes the frequency analysis for PW Doppler and Color Flow calculation.
For PW Doppler, the Rx signal from Rx Beam Former goes through Quadrature detector and FFT
frequency analysis and then transferred to DIU via USD Bus.
For Color Flow calculation, the Rx signal from Rx Beam Former is processed as the same manner
as PW Doppler that it goes through Quadrature detector and then the Rx (line) signals are stored into
Memory Block (Number of the lines depend on the Color Average setting). The data that is read out
from Memory block passes through tbe filter, which cuts out the wall motion and then the unit
extracts the velocity information that is processed by auto-correlating the data with the one from the
same depth of previous Rx line, and the intensity information of the Doppler that is processed by
auto-correlating the same signals, then it calculates the Velocity, Variance, and Power data from those
extracted information. The calculated data goes through the clutter rejection and the spatial filter
circuitry, then transferred to DIU via USD Bus (Wlich is assigned for color data).
MN2-2006 Rev.0
SECTION 4 Principle of System Operation
MNZ-2006 Re> 0
SECTION 4 Pnncpie of Systeni Operation
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MN2-2006 Rev.0
SECTION 4 Principle of System Operation
4-4-3 Digital Imaging Unit
Digital Imaging Unit consists of the following parts,
0
CPU part that controls entire ultrasound diagnostic equipment
0
Mass Memory part that stores Ultrasound information
0
Scan converter part that converts Ultrasound information into TV signal
0
Interface circuitry for the peripheral equipment
and have the following features.
0
CPU and Mass memory manager that equip with Flash Memory as a program ROM. It is
possible to erase and re-write while installed on the PCB.
0
Mass Memory part has the capacity of 65536 records (US lines) and it is variable.
0
Scan converter part that adopts 2 dimensional interpolation. (It can be used as VTR memory
due to the increased processing speed)
0
RGBHNTSCPAL CODEC by digital processing.
The following optional hoardhit is also installed in Digital Imaging Unit.
0
PSC board of Physio. signal display unit (PEU-3500) and VOL board of Volume mode unit
(EU-9084B).
USD Bus (Ultrasonic L'me Data Bus)
Tx/Rx unit transfers the Rx data to DIU line by line. The transfer takes place via exclusively
defined data bus named USD Bus. USD Bus is assigned for BiW and Color (VelocityiPower,
Variance) respectively Tx/Rx unit send Request signal to DIU after completing one Rx line, and
then transfers it to DIU via USD Bus after receiving the Acknowledge signal from DIU.
CWI
board
MN2-2006 Rev.0
SECTION 4 Principle of System Operation
Pre Process Part
BAN and Color (VelocityPower, Variance) data from T x k unit are received by Scan Converter
for B/W and Scan Converter for Color Flow (Both are on CMB board), then the following Pre
processes are executed.
Pre-process for Plane mode (B mode)
BAN data:
Line correlation and Frame correlation.
VelocityiPower data:
Frame correlation.
Pre-process for Line mode (M modePhysio signal, DOP mode)
BAN data:
Addition of Pbysio. signal, curtailment of the Lines and M Smooth.
VelocityNariance: Delay of M mode, curtailment of the Lines and M Smooth.
The details of each process are as follows.
Lme correlation:
The previous and next US limes are correlated at the same depth of pixel. It
makes the image laterally smooth and reduces noise.
Frame correlation: The previous and next US frames are correlated at the same position of
pixel. It makes the image smooth in the time direction and reduces noise.
Physio signals addition: In BAN Lime mode, the Header (The beginning 8 pixels of US line) is
used for the storage of physiological signals. Stored physiological signal is
read out in the same timing as US data and converted to TV signal.
Curtailment of lines:
Curtail the number of lines in accordance with the sweep speed.
Finally, the header is added to the US data and kansferred to the Mass Memory part.
Header:
In BAN Lme-mode and PEU-3500 installed, the beginning 8 pixels of data
is used for Physio signals.
Mass Memory part
Mass Memory has the capacity of 65536 records (lines) for BAN, Velocity, and Variance
respectively. And it is used for real-time display and S E A R C W V I E W function of Cine memory.
Further, there is the frame interpolation process (Frame Accelerator) for Velocity, which makes the
changing of flow information in motion smooth at real-time display.
Mass Memory for B N
Mass Memory for Color
MN2-2006 Rev.0
SECTION 4 Principle of System Operation
Scan Converter part
Data from Mass Memory is converted into the display format by means of 2 dimensional
interpolation and written into the display memory (Video Memory).
0
US data
(from Mass Memory)
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0
#2
Center of the
writing pixel.
The data used for
caiculation
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2 Dimensional Interpolation
Data from Video Memory is read out in TV scan direction and transferred to Post Process part
Post Process part (Video Process part)
The video signal passes through this part while the Gray scale bar, Color bar and the characters &
graphics are added, determining the display priority, BIW enhancement and coding the (Color)
VelocityNariance data to RGB and then outputted to Color TV monitor.
Further, there are EncoderiDecoder circuitry for VTR outpdhput. The connectors on
DISTRIBUTOR hoard outputs the video signal to external printer and inputloutput it for VTR.
CPU part
The CPU part controls entire Ultrasound diagnostic equipment.
This CPU controls DIU and connected to TxRx unit via USC BUS. It is also c o ~ e c t e dto
Operation Panel part by seria1 communication.
TIMJNG generator part
CMB board generates the timing for DIU and TV display timing. It also generates the Vector data for 2
dimensional interpolation.
MN2-2006 Rev.0
SECTION 4 Principle of System Operation
MN2-2006 Rev 0
SECIlON 4 Prulcrple of Syaem Operailon
EP4769 CMB
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BLOCK DIAGRAM 212
MPj2-2006 Rev.0
SECTION 4 Principle of System Operation
4-4-4 Physiological Signal Display unit PEU-3500 (Option)
Physio. Signal display unit consists of the following pans.
Amplifier part for physiological signal (Physio. Amp. board)
Convener part for video signal (PSC board)
Control knob part for physiological signal display.
ECG signal coming from the Physio. Amp part is processed by PSC board in DIU adjusting
the sensitivity and the display position.
Then the data is delayed in order to match the display timing with Doppler spectrum
when it is for Line mode and it is stored into Mass Memory as a header of the US data.
Physio. signal read out from Mass Memory is transferred to PSC board again and then
displayed by exchanging with Plane mode data.
This data is first stored in the memory and then the video generator circuitly for ECG
creates the overlay signal. After that, it is transferred to W U board.
PSC board also generates ECG sound and R-Sync mark.
ECG
IN
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DISTRLBLTOR
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Physio signal display unit
PEU-3500 Block diagram
MN2-2006 Rev.0
SECTIOK 4 Principle of System Operation
4-4-5 Power Supply unit PSU-S3500
Power Supply unit utilizes AC mains, which isolated by transformer as an energy source
and provides various kinds of voltage that are required by main unit. It also provides the
isolated power to the peripherals (JLecorders).
The transmission voltage for electric probes is controlled by the signal (6 bits voltage
setting data; HVA) that is sent from main unit.
m2-2006 Rev.0
SECTION 4 Principle of System Operation
4-4 Principle of Operation for PCB
Section 4
List of PCB Parts Number
1
No.
/
1
/ EP4775**
/
/ Front End
2
1 Trig. ITF
1 EP4776**
/
9
/ W U (Video Process)
! EP4768**
I
10
I CPU
/ Distributor
11
Configurations
I
13
Physio. AMP
14
VOL /Servo Control
-
Parts
Number (1)
1
Parts
Number (2)
1
!
!
I
1 EP4786**
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1
!
I
/ EP4801**
parts
Number (3)
-
!
I
MN2-2006 Rev.0
SECTION 4 Principle of System Operation
4-5-1 Front End
It consists of Probe Connector (x2) for Electronic Probe, Relay circuitry, and Probe Code
Interface.
1)
Probe Connector:
It is a connector to connect probe. Number of channels for TxRx is 32ch. However,
transmission channel for Phased array probe is 48ch.
2)
Relay circuitry:
It consists of 128 Relays and it switches PROBE 1 and PROBE2.
3)
Probe Code Interface:
It controls the relay circuitry and outputs the Probe Code to data bus.
4)
High Voltage Switch:
It consists of 16 HVS (8-Channel High Voltage Analog Switch) and it connects transducers
(maximum 128ch) to the T x k system (32ch) by switching them.
5)
Pre AMP 1:
There are 32 Pre AMP circuitry with variable gain functionality. The maximum gain of each
Pre AMP is +40dB.
6)
2-lines Adder (Channel Reduction):
The input signals from Pre &W1 are processed by phased-sum. As neighboring 2ch of
signals are added with considering the delays between them by Delay Line Module (L-DL-
7)
55)
Pre AMP 2:
It amplifies signals from 2-lines Adder then sends it to Rx Beam Former.
Maximum gain is +30dB.
P
I
PROBE CODE( 00:09)
I
PROBE CODE (10:19)
I
I
t
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112
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I
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4
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'MN2-2006 Rev.0
SECTION 4 Principle of System Gperation
MN2-2006 Rev.0
SECTION 4 Principle of System Operation
4-5-2 Trig. ITF
This PCB sets the Delay for each channel to create electronic focus for transmission and it
consists of the trigger block that generates transmission trigger signal at TTL level, 32ch of
transmitter circuitry (48ch for Phased Array probe), USC Bus Window that converts USC Bus to
GEU Bus and Signal Generator Block that generates Pre AMP gain control signal.
TX Cant
TX Cont latches the transmission conditions that is set from outside, generates the Delay
data and control signal for Gate Array.
Delay Data ROM
Based on the transmission condition that is set from outside, it outputs the delay data to
execute the transmission focus and Channel Reduction.
Gate Array
Gate Array generates the transmission trigger based on the delay data and the number of
transmission pulse for each channel that is outputted by Delay Data ROM.
Driver
Driver generates the transmission pulse based on the transmission trigger.
HV Monitor
HV Monitor does AIDconversion of the HV voltage and outputs it as the register data.
Signal Generator
Signal Generator generates the control signal that controls the gain of Pre AMP 1 & 2.
High Voltage Switch Control (INS Cont)
HVS Cont consists of the logic circuit and controls ENS.
Channel Reduction Control (C-R Cont)
C-R Cont consists of the logic circuit and controls the Delay Line module (L-DL-55) for
Channel Reduction.
USC Bus Widow
USC Bus Window is the interface between USC Bus and GEU Bus, and it converts UAD
(0: 15) of USC Bus into GEU Bus that divides address and data.
HVA
I
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Front End
a
...
T
Array
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'ULS (0:3)
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BUSYNC
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BTXLDI
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To
TXRX control
4
URDYI
PRESTRTI, STCI..D(O:23)
PRESTRTZ. STCZ D(0:23)
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TX Cont
HV Monitor
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C-R Cont
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+
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.
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4--
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GEUAD(2:7)
GEUDT(0:I 5)
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MN2-2006 Rev 0
SECTION 4 Pr~ncipieof System Operat~on
m-2-2006 Rev.0
SECTIOP 4 Principle of System Operation
MN2-2006 Rev.0
SECTION 4 Principle of System Operation
4-5-3 Rx Beam Former
RX Beam Former is Digital Beam Former with 16 channelshoard. By cascade connection of several
boards, it configures the Digital Beam Former that supports various numbers of channels. Also by
setting different delay to every transmission beam by timesharing, it can receive multi-directional
beams simultaneously.
This PCB consists of the 16 channel phased adder and the Controller that controls the adder. Echo
Data of each channel is added sequentially by the pipeline adder with daisy chain configuration and
sent to the next board.
Block 0-3, ch 0- 15:
A.A Filter:
A.A Filter is to clear the aliasing caused by the Ai?) sampling.
A/D:
AID is the 12 bit AD converter. Sampling clock varies depend on the center
frequency of transmission. (When the center frequency of transmission (B) is
2.1 - 3.75MHz, the sampling clock is 8fD and when it's 5.0 - 10 MHz, the
sampling clock is 4fD.)
Delay & Adder:
It is ASIC and its internal configuration is as shown below. By the digital delay
circuitry, it can vary the delay time for the reception focus continuously,
4
Digital Filter:
Digital Filter consists of the Low Pass Filter (Band-limit the data after oversampling at 8fU to drop the data rate to 4fU) and Band Pass Filter (Cut DC
component).
SFIFO (Short FIFO Memory):
SFIFO is FIFO memory that compensates the delay in the depth direction. By
delaying the readout, it can delay by n times of sample clock. It outputs 4
sequential data simultaneously to the interpolation circuitry by shift-register.
MN2-2006 Rev.0
SECTION 4 Principle of System Operation
Interpolation:
It uses sequential 4 proximate data from SFIFO memory to obtain the data that
matched with the delay. By this process, it is able to give h e r delay with the
resolution of 1132 of sample clock.
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Adderl :
Adderl adds the interpolated data to the next channel and sends it to LFIFO.
LFIFO (Long FIFO Memory):
LFIFO is a FIFO memory to compensate the larger delay between channels.
Gatn:
It is the time variable gain control for Reception Apodization. (Reception
Apodization makes the reception beam sharper so that it improves the lateral
resolution)
Adder2:
Adder2 adds the adjoining channels and sends it to Pipeline Adder.
Pipeline Adder:
Pipeline Adder adds the channel data sequentially by adding the adjoining
channel and sending out the processed data to the next channel.
Control Circuit:
Phased addition by DBF requires large amount of focus data. Focus data is divided into the
static focus data (Data that depends on probe and scan mode) and the dynamic focus data (Data
that has to be set beam by beam). Static focus data is set directly to the hardware register by the
host before releasing the freeze status. Dynamic focus data that required for next beam is
implemented by the DM.4 transfer (in accordance with Beam Timing signal) from Focus Data
memory to ASIC while the previous beam is still being received. It is done for each beam.
DMA BUS:
DMA BUS is the 16 hivbi-directional internal bus used for DMA aansfer when the focus data
is set at DBF.
Bus Interface:
It interfaces between DM4 BUS and MPU Bus OjSC Bus).
MN2-2006 Rev.0
SECTION 4 Principle of System Operation
Board ID:
Each PCB slot on the Motherboard has hoard numbers so that each DBF board is able to know
the channels to process.
DMA Controi:
Focus data given to each phased adder is transferred beam by beam from Focus Data Memory
by DMA. DMA controller controls this by commands from the host and timing signals.
Focus Data Memory:
Focus Data memory keeps the dynamic focus data that sets channel for each beam for up to 3
probes.
MN2-2006 Rev.0
SECTION 4 Principle of system Operation
MN2-2006 Rev.0
SECTION 4 Principle of System Operation
4-5-4 Tx Rx Control
Tx Rx Control consists of the interface between DBF module (It consists of Front End Interface,
Tx Trigger, Rx Focusing, Beam Processor, Doppler Processor, Flow Processor and the controllers
of those parts) and Host Processor, data acquisition timing generator, R-Delay controller, Heart
Rate counter and it also initializes FPGA for Rx Beam Former.
1)
Local Processor (Flash Memory, Dual Port RAM):
Local Processor is the 16 bit CPU (ADSP2186) by Analog Devices. It uses flash memory
(Program, FPGA data) and Dual Port RAM (Inside of the FPGA).
In normal operation, local processor and the host communicates via Dual Port RAM.
However, the host accesses to the local processor bus directory at upgrading, and writes the
program of local processor and FPGA confipuration data for Tx Rx Control and Rx Beam
Former into the local processor's flash memory.
2)
Control Bus Interface (Host Bus Buffer, USC Bus Buffer):
Control Bus lnterFace interfaces between UC Bus that is required for controlling DBF
module from DIU and Host Bus as well as between Host Bus and USC Bus.
3)
Timing Generator:
Timing Generator generates Doppler PRF and TxiRx T i i g that based on 120MHz clock.
It provides TxiRx Timing signal to each PCB in DBF module via UAT BUS (Ultrasound
TxiRx timing signal bus).
4)
R-Delay Generator:
R-Delay Generator outputs the delay signal at 501s step based on R wave signal from DIU.
5)
Heart Rate Counter:
Heart Rate Counter comts R wave signal (LJp to Ims) by the local timer to calculate the
average of the heart rate.
6)
TV sync:
TV sync is the signal to synchronize the ultrasound scan frame with the vertical sync signal
(VD) of TV display. The signal is sent from Digital Imaging Unit.
7)
Probe connect:
Probe connect detects the probe connection and generates interrupt signal to the host. It
doesn't affect to the process after interruption and doesn't read Probe Code.
8)
Watchdog timer 1:
Watchdog timer 1 monitors Local Processor, and it resets Local processor when detects a
ma1 function (i.e. when timer is not reset within certain time) and returns reset status to the
host.
Watchdog timer 2:
Watchdog timer 2 monitors Host Processor.
MN2-2006 Rev.0
SECTION 4 Principle of System Operation
10) PC Interface:
ISA bus can be linked to external PC. By means of the ISA bus, you can access inside of the
DBF module directory from a PC and implements an adjustment and/or a test for each board
in the module.
11) HVControl:
HV Control generates the control signal of transmission voltage.
12) FPGA Control:
FPGA Control outputs the signal for FPGA Dataset.
13) LED:
LED indicates the status of operation.
MN2-2006 Rev. 0
SECTIOS 4 Principle of System Operaion
MN2-2006 Rev.0
SECTION 4 Principle of System Operation
p l a n k page)
MN2-2006 Rev.0
SECTION 4 Principle of System Operation
4-5-5 DBP
DBP is the beam process for BW image. (Equivalent to Main kW in the conventional machine.)
It processes the reception signal from Beam Former digitally and outputs to Digital Imaging Unit.
1)
Digital Filter (Variable central frequency BPF):
The 16bit US signal phase added by Beam Former is band-limited at ML2011. Each
ML2011 has 64 kinds of BPF with a 9-tap FIR (20-tap for Harmonic Echo) that is divided
into 64 in the depth direction and assigned appropriately for use.
2)
Digital Signal Processing:
Digital Signal Processing consists of Log Compression, Demodulation, Relief, AGC,
CONTRAST, VIDEO AMP, and AA FILTER.
The signal processing functions are ETC, RELEF (4 steps), AGC (16 steps) and
CONTRAST (16 steps).
3)
Gain Control:
Gain is controlled by follows:
BW Gain:
It is controlled from the operation panel (It is set to this PCB digitally
via USC Bus as well as the other register data).
STCI:
It is controlled from the operation panel.
STC2:
It compensates the gain difference caused by scan angle.
FLOW:
During M-Flow, it compensates the BW gain that becomes too high
(too bright BW) due to the burst pulse transmission.
COR-GAW:
It compensates the signal level difference at the transmission dynamic
focusing.
4)
Digital Output:
Afier A A Filter, pixel skipping is done to match the specified number of samples at FIFO for
output data.
5)
Control:
It generates the control signal required for this PCB. Basic clock is 4fD for Single Process
Mode and 8R) for Parallel Process Mode.
MN2-2006 Rev. 0
SECTION 4 Principle of System Operation
MN2-2006 Rev.0
SECTION 4 Principle of System Operation
4-5-6 CFP
It has quadrature detector (Both for Spectral Doppler and Color Doppler) and obtains Velocity,
Variance and Power data by color calculation using the signal after this circuitry.
1)
Acquisition Unit:
Acquisition Unit does the quadrature detection (digitally) by acquiring RF digital data from
Rx Beam Former.
After that, it outputs data to the frequency analysis part of SDP PCB and the color
calculation part of CFP via (digital) Low Pass Filter.
2)
Memory Block:
Memoly Block consists of Memory Block 1 and 2 for two channels that are Channel A and
B (A-I, Q and B-1, Q). Line memory for each memory block has capacity that supports 8
directions (16 transmissionsldirection). (B color calculation is done by data that obtained by
several transmissions at the same position.) Multiple line data after quadrature detection is
saved in this memory block once, then the data with same direction and depth is read out
sequentially for color calculation.
3)
Wall Filter:
Wall Filter is a filter to eliminate Wall Motion. Characteristics of the filter varies depending
on the Flow Filter setting.
4)
Correlator for signal & clutter:
It acquires the flow velocity vector by taking antocorrelation between the data from the
same position at T times ago (T: data cycle) and the current data. It also acquires the
Doppler signal power by taking autocorrelation between the same data.
It calculates velocity component and power for Clutter signal. The results of these four
calculations are accumulated then outputted.
5)
Coordinate Transformer:
Coordinate Transformer acquires the mean velocity P E L ) by means of coordinate
conversion of Auto Correlator output. It also acquires the variance PAR) from C/R(T)/and
C R(0) and the Doppler signal power (PWP) from L: R(0).
6)
Threshoiding:
It estimates the Clutter signal and clears the Clutter data.
7)
Sequence & Det. Proc. Control
It controls the Color Calculation part based on the control signal and timing signal from
SDP.
SECTIOS 4
MN2-2006 Rev. 0
Principle of System Operation
MX2-2006 Rev.0
SECTEON 4 Principle of System Operation
4-5-7 SDP
SDP does the Doppler analysis for Specmun Doppler mode that of the signal after quadrature
detection from CFP board. It also receives Velocity, Variance, and Power data from CFP and resampling them after they go through spatial filter and then, send it to Digital Imaging Unit via
Color ULD Bus (Ultrasound Line Data Bus).
Time Domain Processor:
It processes Missing Signal Estimation and Wall motion Filter, as well as Doppler shift
frequency analysis by FFT calculation. Doppler Audio is also calculated here.
Frequency Domain Processor:
It equalizes the frequency direction and time direction, processes Log Compression, Gray
Scale Mapping, and interpolation of the number of points for frequency direction, and
outputs the data to FIFO Memory.
Output FIFO:
The result of Doppler calculation is stored temporary in this FIFO Memory and then
transferred to Digital Imaging Unit via ULD Bus (Ultrasonic Line Data Bus).
ULD Bus Interface:
ULD Bus is used commonly among B-mode, M-mode and Doppler. Once the data for one
line is written into FIFO memory, the interface circuit sends Request signal to Bus and
outputs the Doppler calculation result to ULD Bus on receiving Acknowledge signal.
Process Timing Generator:
It generates the signal (PROCESS-) that defines the basic interruption cycle (PRF) for Time
Domain Processor. It also generates the Switched Capacitor Filter clock (SCF CLOCK) for
Audio signal.
USC Bus Interface:
It receives the control command from the host via USC Bus.
Spatial Filter:
It uses spatial direction (two-dimensional) filter eliminating color noise and smoothing the
color data.
Resample:
it samples the data agam for TV display through DIU.
Timing Generator:
It generates the timing signal for color calculation and output it to CFP.
Interface
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MN2-2006 Rev.0
SECTION 4 Principle of System Operation
4-5-8
CMB
CMB consists of the Ultrasound Line Data Receiver (ULDR), Mass Memory and Scan Converter
for BW Mode (B, M & D Mode), ULDR (For both PlaidLine), Mass Memory and Scan Converter
(SC COL) for Color Mode and the circuitry that generate the basic clock inside Digital Imaging
Unit, including TV Timing signal and signal for specifying the screen display frame.
BW M o k
It performs preprocess for the data from Ultrasound Line Data Bus, such as correlation, and for the
Line Mode (MDoppler), it generates Sweep speed signal and implement re-sampling of US data
then, send it to Mass Memory. Mass Memory has large capcacity that can store 65536 BW line
data. Ultrasonic data stored in this memory is used for real time display and SEARCH function for
Cine memory.
The data from Mass Memory is transferred to Scan Converter. Ultrasound line data from Mass
Memory goes through two-dimensional interpolated as the same way as SSD-500015500, and
converted to the format of TV display.
I)
Line Correlation Circuitry for BAN data
There are two Line Memories and each has the capacity for one ultrasound line (5 12 pixel x
6bit) that is used for Line Correlation. Line correlation part takes 3 ultrasound lines (2 lines
from Line Memory and 1 line as the current ultrasound data) and apply FIR filter in lateral
direction to make the line correlation.
2)
Frame Correlation Circuitry for BAN data
In the case of Frame Correlation setting "Auto": It will give different visual effect when the
frame rate changes largely under the same setting of the frame correlation. It switches the
correlation table depend on the fiame rate in order to avoid giving this different impression
by change of the frame rate.
3)
Line Buffer Memory (for M & Doppler):
Line Buffer Memory has the capacity of 5 12 pixel x 6 bit for adjusting the time axis.
4)
Mass Memory Controller
It generates the clock signal for read/writeirefresh for Mass Memory.
5)
MassMemory
It is the memory that can store 65536 US lines (The length can be variable). It has the
capacity of 65536 record x 512 pixel x 6 bit, and it is managed by 32 record/cluster. STORE
image in Cine Memory is written into the harddisk.
6)
Vector RAM
Parameter for interpolation of ultrasound data is set to this Vector RAM. It has the capacity
of 128Kbyte that can store 2 frames of US data that contains 512 lines/US frame.
MN2-2006 Rev.0
SECTION 4 Principle of System Operation
Address Generator
It generates the address data for interpolation and Video RAM.
SEL
It switches the internal ultrasound data (6bit) and the external VTR data (RGB, 6hit). The
video signal from VTR is converted to digital RGB signal (each 6 bit) at VPU and written
-
into Video RAM with following assignment:
R (6 bit)
Use 6 hit (From 8 hit) for BW
G (6 bit) -+ Use 6 bit (From 8 hit) for Velocity
B (6 bit)
Use 2 hit for Velocity and 4 hit for Variance
2D Interpolation
It calculates for the 2D interpolation (It can interpolate up to 32 pixel in lateral direction). 6
bit data is converted to 8 hit, affer interpolation. (It doesn't interpolate for M and D image,
so that it remains 6 bit data affer interpolation circuit. Lower 2 bits are remain unused)
10) Video Memory (lM Byte)
It has the capacity of 4 plane of display memory (5 12 pixel x 512 pixel x 8 bit 1plane) with
following structure.
Left
Right
-Ping
T
O
'
---
-
...
.-............-....-...-...-....-.................................
Po*:
* I
p---..
'"---1t
uses 2 planes, 512 pixel x
________---,
1024 pixel, for
VTR playback.
11) Ultrasound data is written into this Video Memoly with the same format as TV display and
read synchronized with TV's synchronized signal. It has 4 planes and it is used for
combined mode (BM, BID, BiB) request mode after freezing the image as well as for PingPong display.
Also, the data from VTR at VTR playback is written into this Video Memory. At VTR
playback, the data goes through the Video Memory also at Real-time display, consequently,
it is reduces the blurring of the image.
Writing cycle of the Video Memory is at Sons, so that the data from VTR can be written
directly (Without a VTR ITF).
MN2-2006 Rev.0
SECTION 4 Principle of System Operation
12) VGA Display control
This block diverts inter-raced display ASIC to achieve the TV display control that can fdfill
the requirements of non-inter-raced display specification.
Read Zoom
The circuiky that execute Read Zoom (Zooming an frozen image).
SEL
It switches between normal image and zoomed image.
Color Plpse;
ULDR sends Color Data (Velocity, Variance) received from Ultrasound L i e Data Bus to Mass
Memory.
Mass Memory can store 65536 l i e s of Color L i e data (Velocity: 6-bit, Variance: .?-bit) from
ULDR.
In addition, it also has the frame correlation circuitry for color (Velocity). The Color Data
(Velocity, Variance) that stored in Mass Memory is used for Real-time display and SEARCH
function in Cine memory. It uses harddisk for STORE function and the data read from Mass
Memory is transferred to SC COL.
Scan Converter converts the Color line data (Velocity, Variance) from Mass Memory into the TV
format aBer the 2 0 interpolation.
1)
Frame Correlation Circuitry for Velocity data
It consists of Frame Correlation Table and SELECTOR.
It operates in the same way as BIW circuitry.
2)
M Flow Line Buffer Memory (for M Flow):
It is line buffer memory (Capacity of 512 pixel x @it) for adjusting time axis.
3)
Mass Memory Controller
It generates timing signal for memory control and sort the data in accordance with the
generated timing. It adds Beam number at readout (for velocity data only).
4)
Mass Memory
It is the memory to store velocity and variance data. It can store the data up to 65536 records.
5)
Frame Accelerator
It interpolates between £tames in order to show the frame rate increased for velocity data.
6)
Vector RAkl
Parameter for interpolation of the color data is set to Vector RAM. It has the capacity of
128Kbyte that can store 2 frames of US data that contains 512 lines/ZiS frame.
7)
Address Generator
It generates the address data for interpolation and Video RAM.
MN2-2006 Rev.0
SECTION 4 Principle of System Operation
Velocity Data
8)
SEL
It switches the internal Velocity data (bbit) and the external VTR data (Green 6bit + Blue
2bit).
9)
2D Interpolation
It calculates for the 2D interpolation.
10) Video RAM (1M Byte)
It has the capacity of 4 plane of display memory (512 pixel x 512 pixel x 8 bit /plane).
11) Velocity data (6bit) is written into Video RAM with the same format as TV display and read
synchronized with TV's synchronize signal.
12) VGA Display control
This block diverts inter-raced display ASIC to achieve the TV display conb.01 that can fulfill
the requirements of non-inter-raced display specification.
Read Zoom
The circuitry that execute Read Zoom (Zooming an frozen image).
SEL
It switches between normal image and zoomed image.
Variance Data
13) SEL
It switches the internal Variance data (4bit) and the external VTR data (Blue 4bit).
14) 2D Interpolation
It calculates for the 2D interpolation.
15) Video RAM (5 12K Byte)
It has the capacity of 4 plane of display memory (512 pixel x 512 pixel x 4 bit I plane).
Velocity data (4 bit) is written into Video RAM with the same format as TV display and read
synchronized with TV's synchronize signal.
16) VGA Display control
This block diverts inter-raced display ASIC to achieve the TV display control that can fulfill
the requirements of non-inter-raced display specification.
Read Zoom
The circuitry that execute Read Zoom (Zooming an frozen image).
SEL
It switches between normal image and zoomed image.
17) Clock Generator
It is a main clock generator for Digital Imaging Unit. It divides clock signal into 114 and
sends it to each PCB in DTU.
MN2-2006 Rev.0
SECTION 4 Principle of System Operation
18) W S C Vector
It generates vector data and transfers it to BW and Color Table
19) T i i g Table
It controls signals for TV Timing and specify the eame of screen display. It is divided into
Horizontal and Vertical data to generate display frame by rotating the address counter and
provide it to each block.
20) Local CPU (SH-4)
It is a main 24bit Digital Signal Processor, and operates at 40MHz.
It generates control signal for Mass Memory (BW and Color).
21) PCI-Local Bus bridge
It is the interface between Compact PC1 Bus and Local Bus.
MN2-2006 Rev.0
SECTION 4 Principle of System Operation
MN2-2006 Rev.0
SECTION 4 Principle of System Operation
4-5-9 VPU
W U outputs VGA signal (For non-interlaced monitor) and analog TV signal (Composite, YiC,
analog RGB) after adding the Overlay signal (Graphic etc.) to the image data from Scan
Converter including UDA (Ultrasound Data), VDA (Velocity Data), and SDA (Sigma=Variance
Data).
It also has the interface circuit for Video signal of VCM (Video Cine Memory).
It converts Composite and YIC signal from external input to digital RGB data (6bit x 3) and
outputs to Scan Conveiter.
1)
Overlay Mapping
It receives Graphic signal and Pbysio signal and outputs "OVCD code signal for Overlay.
2)
Scale Bar Generator
It generates Gray Scale Bar and Color Bar as well as Test Pattern (It can be displayed from
Maintenance Menu).
3)
Priority Encode
It decides displaylnon-display of BW data and VelocityNariance data depend on the setting
of priority from the operational panel (UCP: Ultrasound-Compare, VCP, SCP).
4)
US Palette RAM
It implements Codimg process of BW signal by 3 pieces of 256Khyte RAM. It changes the
appearance of BW image corresponding to Gamma and Post Process setting.
5)
Color Palette RAM
It implements Codmg process of Color signal by 3 pieces of 256Kbyte RAM. It converts the
Velocity and Variance data into RGB data corresponding to the setting of the Color Coding.
6)
Add & Clump
It adds BW data from US Palette RAh4 and Flow data (RGB data) from Color Palette RAM.
BW, R, G and B data are all 8 bit, therefore, RGB data (8 bit each) would exceeds "W
after addition. In that case, it clamps the data to "FF".
7)
VCM Data ENC,/DEC
It converts BW, Velocity and Variance data into Palette data for VCM. It also decodes
Palette data (BW or Variance, and Velocity) from VCM to convert it into BW, Velocity and
Variance data.
8)
VCMEF
It switches the output data for VCM between Palette data or RGB data (Both internal data or
playback data from VTR).
9)
Frame Rate & AfEned Conversion
It converts VGA signal to digital RGB signal with hTSClFAL TV timing format. It
converts the image resolution in order to maintain the aspect ratio.
m2-2006 Rev.0
SECTIOK 4 Principle of System Operation
10) ENC
This is a Digital Encoder that encodes digital RGB signal into Composite and YC
! signal.
11) DIA
It performs DiA conversion that converts digital RGB signal into analog RGB signal.
12) Buffer
It is a buffer for distributing the TV signal.
13) Video Decoder
It is a Digital Video Decoder that has Video Multiplex part that switches between
Composite and YIC signal as well as Digital Decoder part that converts Composite or YiC
signal into digital RGB signal (Xbit x 3).
44) Frame Rate & A&ed Conversion
It performs frame rate conversion on digital RGB signal that is from Digital Video Decoder.
It converts the image resolution into VGA display format.
CHRGRP-.+
GB
VCM
ITF
From CMB
BW
Conversion
For Graphic
ToIFrorn
VCM Data
---+ ENCIDEC
2
.
From CMB
VelIPwr
Frame Rate
5'
o
o
b VCM
BW
vell~wr
Var
Distributor
US
)
Palette RAM
(Enhance)
BW
--+
Composite
Gu
a
(0
Frame Rate
& Affined
Conversion
a
From CMB
Var
From Distributor
Composite )
+
To
Distributor
D/A x 3
Palette RAM
(Enhance)
FDecod
,+
From Distributor
s ( Y O -j
TO Monitor
VGA ) via
D/A x 3
To CMB
VTRData RGB
Frame Rate
&Affined
Conversion
)
)
TITLE 8 f $
External Sync
MODEL If$&
VPU
EP4768**
111
MK2-2006 Rev.0
SECTION 4 Principle of System Operation
MN2-2006 Rev.0
SECTION 4 Principle of System Operation
4-5-10 CPU
It is a general-purpose computer (general-purpose PC) that general-purpose OS is running on it,
and its configuration of circuiby is being changed continuously by part the same way as the
general-purpose computer.
Main functions are the controllig of harddisk and the commnnication with MGR PCB in the
Digital Imaging Unit.
It also reads program data from floppy disk drive and calculates the detailed data for focusing.
In addition, it has battery that keeps generating the clock on this PCB and that provides the
calendar function to the system.
1)
CPU
It is AMD K6 (Or similar) microprocessor.
2)
Clock Generator
It provides clock to data bus.
3)
CPU - PC1 bridge
It is the interface between PC1 bus and CPU bus. It controls cache memory and PC1 bus.
4)
MEMORY
This is an on-board memory for general-purpose computer. (64MB, DWUI)
5) IHDD Controller
Hard disk drive is connected here.
6)
VGA Controller
It is a controller for VGA display. It can display computer screen on CRT by means of
connecting a cable and a CRT to the CRT connector.
7)
PCI-ISA Bridge (Real T i e Clock)
System clock works based on this Real Time Clock. It is backed up by a battery on the
board.
8)
KEYBOARD 1 MOUSE
It can use the same keyboard and mouse as PC.
9)
Serial Controller
It controls communication with the operation panel.
10) FDD Controller
Floppy disk drive (1.44MB) is connected here.
11) Graphic Accelerator
It sends character and graphic data to VPU by LVDS @OW Voliage Differential Signaling).
Clock
Generator
MEMORY
----+ CPU
1
t
f
Controller
--+
4-+
f
PC1 Bus
Controller
Graphic
Accelerator
A
A
C
*
CPU -PC1
Bridge
rn
,
Ethernet
Controller
PCI-ISA
Bridge
. .
To VPU
Character
Graphic
To VGA
Monitor
(CN15)
....
RTC
Battery
Controller
1
ToIFrorn
L-KEY-81
(Operation Panel)
ToIFrom
KEyBOARD}
MOUSE
PSI2 (CN19)
0
$
+g s?
TITLE
C:
MODEL M&
68,
CPU
EU-9090*
111
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g
MN2-2006 Rev.0
SECTION 4 Principle of System Operation
4-5-1 1 Distributor
This is distribution circuitry for external 110 signal and Audio signal.
DAC
It performs DIA conversion on the serial data of Doppler sound (digital) from SDP to Left
and Right respectively.
LPF (Switched Capacitor Filter)
This is Low Pass Filter to cut the harmonic from the stair wave after DIA conversion. It uses
Switched Capacitor Filter (SCF) since it has to change the precipitous cutoff frequency in
accordance with DIA's quantization frequency.
LPF 1
This is Low Pass Filter (cutoff frequency: 18KHz) to prevent the switching noise from SCF.
LPF 2
When Doppler PRF is low (500Hz and I=),
the frequency of switching noise is also low
due to the low switching frequency of SCF, therefore, it uses LPF2 with lower cutoff
frequency than LPFl to prevent the noise.
Selector
It selects the output from LPF 1 or LPF 2.
Sel
This is Selector to switch the BEEP sound (ECG BEEP SOUND) that indicates the ECG R
wave from PSC, usediunused. When it is unused, it is set to OFF by ABSENT signal in
order to prevent unnecessary noise.
Adder
It mixes ECG BEEP SOUND and Doppler sound (Left and Right). Mixed sound is output to
Audio-out connector for VTR as well as for the loudspeaker of the machine.
Limit
This is the input limiter for Audio signal from VTR.
Selector
It switches the internal Doppler sound (Sound data from SDP) or the sound from external
input (VTR).
Buffer
It is a buffer for Audio signal that outputs the sound to external devices.
STEREO VOLUMERONE CONTROL
ft controls the volume of Audio signal.
12) MIXER
It converts the stereo signal to mono signal.
13) Audio Power Amp.
This is amplifier for the loudspeaker of the machine.
MN2-2006 Rev. 0
SECTIOS 4 Principle of System Operation
I
Selector
I
MX2-2006 Rev.0
SECTIOK 4 Principle of System Operation
4-5-12 PSC
(PCB for Physio signal display unit PEU-3500)
PSC's (Physio signal Scan Converter) main function is t h e m conversion ofphysio signal (3
channels: ECG, PCG and PULSE) and the conversion of physio signal into TV signal.
1 3 Reference o Reference oSSD-3500 uses ECG signal but not PCG or PULSE.
Therefore, SSD-3500 does not use the part related to PCG and PULSE.
Sample Rate Generator
It generates Sampling Rate that provides the base for Sweep Speed. It divides TV's
horizontal synchronized signal (TV H timing) into 1/17 and provides them to where it is
necessary.
ECG-LPF (100Hz, -12dB!oct)
It is a Nyquist filter that adapts the characteristic of ECG signal.
PCG-LPF (lKHz, -12dBioct)
It is a Nyquist filter that adapts the characteristic of PCG signal.
HPF L, HPF MI, HFF M2
It is a High Pass Filter for PCG It switches by Preset application. (HPF L: SOHz, 6dB/oct,
HPF MI: 50Hz, 12dB/oct, HPF M2: ISOHz, 24dBIoct)
Set, Filter PCG
It selects PCG filter depending on the register configuration (Filter PCG).
Emphasis
It is a High Pass Filter for emphasizing the higher component of the PCG signal.
PULSE-LPF (IOOHz, -12dB)
It is a Nyquist filter that adapts the characteristic of PULSE signal.
MPX
It selects the physio signal for
conversion.
ATT, SENS
It is Attenuator for Sensitivity adjustment of physio signal. The "SEHS" in the figure has
register for 3 channels (ECG, PCG and PLUSE).
10) AD Converter
It is ADClObit and uses upper 9bit.
11) Position, POS
It adds the value that corresponding to the display position, to the AD Converter output and
puts limit. The "POS" in the figure is the register that the value corresponding to the display
position is set.
MN2-2006 Rev.0
SECTION 4 Principle of System Operation
12) DEMUX
It separates the time-shared physio signal data into ECG PCG and PULSE. PCG signal has
higher frequency band compare to the Sweep speed so that it re-samples it to AMAX
value (P
MAX) and MIN value (P MIN).
13) Encode
It outputs physio signal data to BSC. Physio signal is packed to the Record Header in L i e
(M, Doppler) Mode. (Header 8-pixel of BW Record is reserved for physio signal.) The
record that packed with physio signal is stored to Mass Memory together with physio signal,
therefore, the time phase of the physio signal and M (Or Doppler) image is matched afier
being read out from Mass Memory.
14) VACount
It generates the Vertical address depending on the display frame timing (DISP V FFL4ME)
in the vertical direction. By using the current Vertical Address (NOW VA) and the previous
Vertical Address (Prev VA), it outputs smooth physio signals waveform even when it
displays with reduced amplitude (for B/M vertical display, etc).
15) MM In, Decode
In Line Mode, it extracts physio signal &om US DATA that is read fiom MM BW, and
separates it to ECG PCG (PMAX, PMIN), and PCLSE.
There is delay buffer that can delay physio signal up to approx. lsec to compensate the
delay in Doppler image.
16) S e l x 4
It selects physio signal in L i e Mode (*** on L) or physio signal in Plane Mode (*** on P).
17) Memory
It is Memory for physio signal to display it on the monitor. (When STORE a B image with
physio signal is displayed, the physio signal is saved on Memory Area of hard disk.)
18) -16, +16 (ECG -16, ECG +l6)
It generates the base signal base for ECG Sync mark. ECG sync mark is displayed with
amplitude of +I- 16 line (16 'IV line).
19) HA Generator
It generates Horizontal Address based on the display fhme timing @ISP H FRAME) that is
for reading physio signal fiom Memory in Horizontal direction. Cue to Scroll display, it
refers to the current Horizontal write address to generate the read Address.
20) Write Address Generator
It generates the Horizontal Address for writing the physio signal into the Memory.
(Vertical Address is corresponding to the amplitude of physio signal.)
MN2-2006 Rev.0
SECTION 4 Principle of System Operation
21) CMPx6
It displays physio signal on screen when output &om Memory and current Vertical Address
(and previous Vertical Address) have the same value. This is a comparator to compare these
values.
22) ECG Video Generator
It interpolates ECG signal.
23) ECG Marker Generator
It generates ECG sync mark.
24) PCG Video Generator (Unused for SSD-3500)
It draws a line between PCG MAX and MIN value.
25) PLS Video Generator (PWR OUT PLS), (Unused for SSD-3500)
It interpolates PULSE signal.
26) Heart Mark Generator
It displays the h e m mark (V) for 3TV fields when an R wave of ECG is corning. The LED
on the PCB also lights as it is displayed.
It also sends the signal of R wave detection to "Mass Memory Manager" and "Digital Beam
Former".
27) FM Sound Generator, LPF
It generates BEEP sound &om ECG R wave (By means of FM sound source). Generated
BEEP sound is sent to Audio PCB, and finally comes out from the loudspeaker.
NH tirnina
Rate Gen
ECG Sional
PCG Sianal
HPF M I
) ULDR OUT
PLS Signal
DlSP VFR4ME
MM In
4
I
Now VA
vA
1
Prev. VA
ECG Video
Gen.
b PWR OUT
ECG Marker
Gen.
WT
+ PWR
MARK
PCG Video
Gen.
OUT
+ PNR
PCG
PLS Video
Gen
b PWR OUT
PLS
ECG
Decode
ECG-8
i-4
- ECG+8
DlSP HFWME
R Wave
b HBMK
b MGR, DBF
RWAVE DETECT
b AUDIO
ECG BEEP
Heart Mark Gen.
- FM Sound Gen.
...............................................
:
o
Reference c
SSD-3500 use ECG signal only.
PCG and PULSE are not used.
TITLE !& %
Psc
MODEL WZ
EP4468**
1/1
MN2-2006 Rev.0
SECTION 4 Principle of System Operaion
4-5-13
Physio Amp
(PCB for Physio signal display unit PEU-3500)
This is physiological signal amplifier for SSD-3500. The circuitry of patient contact plug (Enclosed
by broken line in the block diagram) and the circuitry of device side are electrically isolated by
means of the isolation amplifier.
ECG Circuitry
Isolation Amp
It is the primary Amp for ECG signal. It isolates the circuitry of patient contact plug
and the circuitry of device side. The gain of the amplifier is approximately 20dB.
Drift Filter
It is a filter to stabilize the offset voltage of ECG signal.
Amp &Auto offset compensation
It is the Amp for ECG signal that amplifies the signal approximately 40dB. It also
controls the drifting of offset voltage of ECG signal.
HUM Filter
It is a filter to eliminate the ham noise from the mains.
HUM Filter Exch. SW
It is the switch for HUM Filter changing 50160Hz. This switch is installed on the
PCB of physio unit and it can be switched from outside.
Offset Adjust
It adjusts the Offset voltage of ECG signal. Offset voltage is +2.5V.
R-SIG Detector
It detects R wave of ECG signal.
MN2-2006 Rev. 0
SECTIOS 4 Principle of System Operation
MN2-2006 Rev.0
SECTION 4 Principle of System Operaion
4-5-14 VOL / Servo Control
Summary:
VOL/Servo Control creates VOL image and controls the motor for VOL-mode probe.
CPU Interface
It is connected to LOCAL BUS and has DO0 - D7C register on Local Address. It resides in
one FPGA (CPU ITF) together with Servo Control.
Servo Control
It is the motor driver with servo function. It monitors encoder pulse from the motor and
generates timing signal for TdRx and calculation.
It consists of a part of FPGA (CPU ITF) and dedicated controller.
Servo CPU
It is a micro-processor to control the servo-motor controller. It communicates with host
through the dual port memory.
Data Interface
It controls the data input operation in accordance with the signals sent from ULDR. In the
case of re-calculation of the data that readout from Mass Memory, this block generates those
signals that sent from ULDR in normal operation instead.
It resides in one FF'GA (CPU ITF) together with Mass Memory Interface.
Calc FPGA
It is a 3D mode processor. It calculates US data and CFM data (CFM data is unused), and
generates the 3D data. By changing the definition data of FPGA, it can change into 2 types of
calculation methods, VOL calculation and Rendering calculation. It also controls Frame
Register.
Frame Register
It saves 1 frame data at horizontal calculation. It operates read-modify-write that modifies the
data in the memory by calculating it with newly received data and restore it. It consists of
SRAM, and does not operate at vertical calculation.
Mid y Table
It is a y-Table that converts the calculation result from 16bit to Sbit. It consists of ROM.
Mass Memory Interface
It stores the calculation result of 1 line into FIFO. When the calculation data becomes
available for output, it sends the data transfer request to ULDR and outputs the calculation
result in response to the data output request. It resides in FPGA (MM ITF) together with a part
of Data Inrerface.
MN2-2006 Rev. 0
SECTIOS 4 Principle of System Operation
hfN2-2006 Rev.0
SECTIOK 4 Principle of System Operation
(Blank page)
MN2-2006 Rev.0
SECTION 5 Schematics
MN2-2006 Rev.0
SECTION 5 Schematics
MN2-2006 Rev.0
SECTION 5 Schematics
MN2-2006 Rev.0
SECTION 5 Schematics
MN2-2006 Rev.0
SECTION 5 Schematics
MN2-2006 Rev.0
SECTION 5 Schematics
MN2-2006 Rev.0
SECTION 5 Schematics
MN2-2006 Rev.0
SECTION 5 Schematics
GNU
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GNU
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GNU
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GND
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OND
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GNU
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MN2-2006 Rev.0
SECTION 5 Schematics
MN2-2006 Rev.0
SECTION 5 Schematics
Lfj
LABEL P27 l&%f
MN2-2006 Rev.0
SECTION 5 Schematics
MN2-2006 Rev.0
SECTION 5 Schematics
MN2-2006 Rev.0
SECTION 5 Schematics
MN2-2006 Rev.0
SECTION 5 Schematics
MN2-2006 Rev.0
SECTION 5 Schematics
MN2-2006 Rev.0
SECTION 5 Schematics
MN2-2006 Rev.0
SECTION 5 Schematics
Mother
1
EP4788UO
MN2-2006 Rev.0
SECTION 5 Schematics
MN2-2006 Rev.0
SECTION 5 Schematics
'
P
Main power
ONlOFF Relay
- Vokage
Input
7Isolation
low 2OoVac
Select
:.
.........AC!np_ut.
A
.....!
Power
Switch
I
I
-
I
-
?
I
Fuse
Block
transformer
50-60Hz
-
--
...............
'
I
I
I
4 Voltage
Output
1001 200vac
1
AClDC
converter
8
,
Select
'
I
I
'
t
'
/
'
'
8
8
:
'
JB-xxx
' ................
-
sandby power
Switch Position
@ Opto.
+5Vsb
with Non-isolated I Relay off
ers
+24Vfor Relay
-
PSw. Position
Detect
and
Remote Shut Down
Control
EP479900
AC Power control
,
+
I
;
SWllch Pos10on
Shut Dowo
to SYSTEM
+to Monitor
-
r----.----------------------------------------------------------------
from JB-xxx
13A
1 0 6 200vac
W
~ S A
-----)
4A
Lowvoltage Regulator
Delayed
Start-up
Timer
A A
2n
+5V
-5v
-12V
Filter
13A
2 2~
-
+33v
+5.lV
+12v
+12Vfan x 3
--.)Fan
HVE Regulator
HVD Regulator
in P.S.
--+
+12Vb
0007A
b -150V
0 007A
) +40V
+24V
Local
row(oio
-roov
.
)
HVA Regulator
within
Over Voltage
Protection
Local Power
SYSTEM
1
6 bitsvokage settmg
data. Cut off contioi~
* HVA Regulator
Control Logic
HVA
Referencevoltage
cut off
b
EP480000
AClDC converter
MN2-2006 Rev.0
SECTION 5 Schematics
MN2-2006 Rev.0
SECTION 5 Schematics
MN2-2006 Rev.0
SECTION 5 Schematics
MN2-2006 Rev.0
SECTION S Schematics
ri:a !!=.
E L
ieu.
?age
X-010082
M-T-313
0
M-T-31f
3 16
132/264 V/ 50 Hz a t 111/222 '1 tap of primary c i r c u i t .
I.
Others
8.1
~ r o x e c r i c nf o r unusual cemprrarure rlsrng
The ttermal curoff be i n s e r t e d in the primary t o p r o t e c t for unusual
temperature r i s i n g .
8.2
8.3
8.4
S t a t i - sheild.
Connectors.
Sheild
Terminals
Indicaricns
The l a b e l indicates model,
JL 1 0 1 5 AWGl8
Yellow
s e r i a l w i ~ i h s r . lot n u d e = and the traci-mrk
of
UL 1 0 1 5 P.W,W;16
Gray
2
AC l l l V
(100-120V)
UL 1 0 1 5 .?WG16
J L 1 0 1 5 AWG18
Orange
Purple
JL 1 0 1 5 AWGIB
Xed
UT, 1 0 1 5 PWG16
Slue
AC 1 1 1 V
1100-120V)
JL 1 0 1 5 AWG18
UL 1 0 1 5 .ziWS18
I
Green
Brown
JL 1 0 1 5 AWGl8
Black
;K 4 3 4 2 ' 1
KITi?GAWFF E L E C T R I C CO.,
LTD
I
MN2-2006 Rev.0
SECTION 5 Schematics
MN2-2006 Rev.0
SECTION 5 Schematics
MN2-2006 Rev.0
SECTION 5 Schematics
MN2-2006Rev.0
SECTION 5
Schematics
MN2-2006 Rev.0
SECTION 5 Schematics
MN2-2006 Rev.0
SECTION 5 Schematics
MN2-2M)6 Rev.0
SECTION 5 Schematics
MN2-2006 Rev.0
SECTION 5 Schematics
MN2-2006 Rev.0
SECTION 5 Schematics
MN2-2006 Rev.0
SECTION 5 Schematics
MN2-2006 Rev.0
SECTION 5 Schematics
MN2-2006 Rev.0
SECTION 5 Schematics
Insulok Tie T18R
I
MN2-2006 Rev.0
SECTION 5 Schematics
MN2-2006 Rev.0
SECTION 5 Schematics
MN2-2006 Rev.0
SECTION 5 Schematics
MN2-2006 Rev.0
SECTION 5 Schematics
MN2-2006 Rev.0
SECTION 5 Schematics
MN2-2006 Rev.0
SECTION 5 Schematics
MN2-2006 Rev.0
SECTION 5 Schematics
MN2-2006 Rev.0
SECTION 5 Schematics
MN2-2006 Rev.0
SECTION 5 Schematics
MN2-2006 Rev.0
SECTION 5 Schematics
MN2-2006 Rev.0
SECTION 5 Schematics
MN2-2006 Rev.0
SECTION S Schematics
(Blank page)
MN2-2006 Rev.0
SECTION 5 Schematics
MN2-2006 Rev.0
SECTION 5 Schematics
MN2-2006 Rev.0
SECTION 5 Schematics
MN2-2006 Rev.0
SECTION 5 Schematics
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SECTION 5 Schematics
MN2-2006 Rev.0
SECTION 5 Schematics
MN2-2006 Rev.0
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MN2-2006 Rev.0
SECTION 5 Schematics
MN2-2006 Rev.0
SECTION 5 Schematics
MN2-2006 Rev.0
SECTION 5 Schematics
(Blankpage)
SERVICE MANUAL
PRO SOUND
SSD - 3500
212
English Edition
Document Number
Document Revision
:
:
FILE
MN2-2006
0
2
MN2-2006 Rev.0
SSD-3500 Seroice Manual
Contents of SSD-3500 SERVICE MANUAL 1/2
Section 1 How to use this service manual
1-1
Service h4anual
1-2
Contents of this Service Manual
1-3
Composition of this Service Manual
1-4
Contents of Each Section
Section 2 PRECAUTIONS (read without fail)
page 1-1
.1-4
................
................
................
................
page 2-1
PAGE
(4 pages)
1-1
1-1
1-2
1-2
.2-6
(6 pages)
.3-14
(14 pages)
PrecautionsAgainst Electrical Hazards to Senriceman
PrecautionsAgainst Mechanical Hazards to Serviceman
Precautions Against Germ Hazards to Serviceman
Precautions for Keeping Electrical Safety
Precautions for Keeping Mechanical Safety
Precautions for Keeping Chemicals Safety
Preparation to be Made at Service Center
Care to be Taken in the Field
Precaution for repairing the Monitor
Handling of S.M.D. PCBs
System Symbols
Section 3 BEFORE REPAIRJNG
page 3-1
3-1
Repair work on the description of Service Manual
3-2
Upgrade work on the description of Service Manual
3-3
Messages
Section 4 PRINCIPLE OF SYTSTEM OPERATION
4-1
4-2
4-3
4-4
4-5
page 4-1
........
........
........
.4-76
................
................
System Configuration
................
System Block Diagram
PnhcipleofSystemOperation ................
........
4-4-1 System Control
........
4-4-2 Transmission and Reception block
........
4-4-3 Digital Imaging Unit
4-4-4 Physio. signal display unit PEU-3500 (Option) .......
4-4-5 Power supply unit PSU-S3500
.............. "
................
Principle of PCB operation
System Specification
3-1
3-6
3-12
(76 pages)
MN2-2006 Rev.0
SSD-3500 Service Manual
4-5-1
Front End
4-5-2
Trigger 1.T.F
Rx Beam Former
4 - 5 3 Tx Rx Control
4-5-3
4-5-5
DBP
4-5-6
CFP
4-5-7
SDP
4-5-8
CMB
4-5-9
wu
4-5-10 CPU (EU-9090)
4-5-1 1 Distributor
4-5-12 PSC
4-5-13 Physio .AMP
4-5-14 VOLIServo Control
Section 5 SCHEMATICS
page 5-1
.5-64
Cable Connection
Cables
Monitor Video
Cable 610
Doppler Sound
Cable 6 11
Motherboard
EP4788
Power Supply Unit
PSU-S3500
Transformer unit (Primary unit)
EU-6029
AC Outlet Box (100-120V)
JB-269
AC Outlet Box (200-240V)
JB-270
PCB unit (Secondary unit)
EP4800
Distributor
EP4786
Operation Panel
L-KEY4 1
Physio. signal Amp.
EP4801
Physio . signal Volume
CABLE413
PEU .ULtvl
CABLE 702
........
........
........
........
........
........
........
........
........
........
........
........
........
MljZ-2006 Rev.0
SSD-3500 Service Manual
Contents of SSD-3500 SERVICE MANUAL 212
Section 6 TROUBLE SHOOTING
6-1
6-2
6-3
6-4
6-5
.6-98
................
................
Precautions
Tools and Measuring Instruments Required ...............
................
Information
6-4-1 Automatic setting at powering on ................
................
6-4-2 Jumper (JP)settings
................
6-4-3 Installation of optional units
................
6-4-4 User-defined functions
................
6-4-5 Resetting the Backup data
................
6-4-6 Backup the preset data
................
6-4-7 How to reset the backup data
................
6-4-8 Location of units
................
6-4-9 Location of ROM
6-4-10 How to handle start-up failure andor locking up ....
................
6-4-11 Minimum Start-up
................
64-12 LED on the PCB
................
Check List Map
6-5-1 Flow chart of the Check List Map ................
................
6-5-2 Phenomenon Code Table
................
6-5-3 MAP
................
6-5-4 PCB Check Procedure
Introduction
Section 7 ADJUSTMENT PROCEDURE
7-1
page 6-1
Attention
Section 8 PERFORMANCE CHECK
8-1
Introduction
8-2
Precautions
8-3
Making Entries in Repair Report
8-4
Performance check
page 7-1
.7-2
...............
page8-1 -8-16
................
................
................
................
MN2-2006 Rev.0
SSD-3500 Service Manual
Section 9 DISASSEMBLING PROCEDURE
SSD-3500 Disassembling Procedure
SSD-3500 Installation Procedure
page 9-1
.9-82
................
................
................
PEU-3500 (Physio unit) Installation Procedure ................
................
EU-9084B Installation Procedure
MOU-3500 Installation Procedure
Section 10 PARTS LIST
page 10-1
10-1 Contents of the Pa& List
10-2 Application of the Parts List
10-3 Outline of the Parts List
10-4 How to read the Parts List
10-5 Attention
10-6 Parts List
Section 1I SERVICE INFORMATION
................
................
................
................
................
................
page 11-1
.11-12
11-6 Removing Primary Power Supply
................
................
................
................
................
................
SSD-3500 SERVICE MANUALAppendix
page Apndx-l- Apndx-2
11-1 Introduction
11-2 Maintenance Menu
11-3 SYSTEM PRESET
11-4 Flash Memory reloading
11-5 Ham Filter for Physio Unit
Appendix
.10-43
Appendix- 1
Introduction
Appendix-2
Manual Change Information
MN2-2006 Rev.0
SECTION 6 Trouble shooting
6-1
Introduction
This trouble shooting makes integral part of the Senice Manual. And it bas been prepared for
the persistent purpose of providing for repairing guidelmes.
What bas been described herein, moreover, is subject to the prerequisite for a repair to be made
by replacing a PCB.
6-2
Precautions
To prevent a new problem (secondary disaster) from taking place in the process of trouble
shooting as described herein, every engineer concerned should duly take the following
precautions:
Never remove any part &om the electric system, including PCB, probe, cable, etc., before
powering off the equipment.
Do not proceed to a disassembly of equipment without observing the established
disassembly procedure. Be careful enough for wrongly disassembling the equipment would
damage or break it down.
To make certain of a voltage andlor a signal waveform, it is necessary to thoroughly know
the specification and handling procedure relating to a measuring instrument employed.
To ground a measuring instrument probe or the like, it is naturally necessary to know where
a signal to determine is grounded. Before using the instrument, moreover, make certain for
which the grounding terminal is intended, analog, digital, alternating current, direct current,
high voltage or low voltage.
.------------------------------
'I
CAUTION
r
5)
I
Failure to ground properly might result in an incapability of observing an I
I
accurate voltage or waveform or in a probability of burning out the
I
I
-----.
. . . . . . . . .measuring
. . . . .instrument
. . . . or. .ulfmsound
. . . .diagnostic
. . . . .equipment
. . . . .or both.
I
-1
Do not fit a measuring instrument probe or the like to a measuring point before turning off
the ultrasound diagnostic equipment.
.---_---------t
i
I
I
CAUTION
To determine an especially high voltage, it might rupture a circuit in
the ultrasound diagnostic equipment. Besides, it might endanger an
engineer or engineers concerned.
I
I
I
I
------,--------1 ,-
MN2-2006 Rev.0
SECTION 6 Trouble shooting
6)
To replace or repair a PCB, make certain of its compatibility, etc, in accordance with the
"History of SSD-xxxx".
If a wrong ROM should be mounted on a PCB, employ the ROM originally employed in the
user's equipment or select an appropriate one in accordance with the History.
," . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
-I
I r CAUTION
If an incompatible PCB should be inserted into the equipment, there are
I
t
possibilities that the equipment may be burnt out. If such incompatible
I
PCB should remain inserted in the equipment after completion of a repair,
1
I
I
moreover, it should be l l l y noted that another problem might take place
I
I
7)
I
,
I
Without def~nitivelyknowing that failure has taken place, do not unnecessarily change any
controls andlor switches on a PCB from their original settings.
To determine whether or not a problem is the failure, see Section 8 "Performance Check."
If a readjustment is required, see Section 7"Adjustment Procedure."
--- - - - - - - - - - I
I
1
CAUTION
- I
A n unnecessary change of controls' or switches' settings might bring
- -- -- -- -
-- -- -- -- - -- -- - -
t
I
I
- -- -- -.
about
- -a-new problem, probably -making the equipment-mepairable.
-
8) Wbile you are shooting trouble in accordance with the present procedure, it may be
necessary to consult with Technical Support. In such a case, provide at least the following
information:
i) Equipment model number,
ii) Equipment serial number,
iii) History of equipment (repairs and/or modifications so far made), and
software version, and
iv) Specific problem situations (Send a photo or photos.)
MN2-2006 Rev.0
SECTION 6 Trouble shooting
-
Fig.6-l
Configuration of the Display
To give an explanation about the situations of a problem, it is necessary to clarify to whicb it relates
out of the elements composing the scene, while referring to the illustration given above. Related
component elements may be roughly classified as follows:
Ultrasound Image :
An ultrasound tomographic image; its contour varies with an
image mode, a probe, etc.
Memory Area :
A full size of memory required to display an ultrasound image.
Gray Scale:
An indicator of image gradients; its pattern varies with a setting of
enhancement, gamma or the like.
Character:
A component of the text relating to a hospital name,
ID,automatic
display, etc.
Graphic:
A component of scale marks, active marks, body marks, etc.
MN2-2006 Rev.0
SECTION 6 Trouble shooting
6-3
Tools and Measuring Instruments Required
The tools and measuring instruments, which are required for a repair on a standard basis, are as
follows:
1)
1) Oscilloscope
Sensitivity
2)
:
5mVIdiv.
Frequency band
DC-~OMHZ
Maximum input voltage :
400V or more
2) Multi-meter
Class
0.5 class
Mode
ACV, DCV, DCA, Ohm
3)
3) Extension Card
: EP442100BB
4)
Test Piece:
Made by RMI (Radiation Measurements, INC.)
RMI-412 or RMI-403GS
5)
5) Probe
Convex
6)
UST-9123
ECG (EKG) simulator
EKG-101 (Made by Fukxda electronics) or equal model
MN2-2006 Rev.0
SECTION 6 Trouble shooting
6-4
Information
The settings for all functions are performed by the CPU (Central Processing Unit).
There are functions available that can be set by the user .from an external source, and there are
also functions that allow only servicemen to make the settings.
This section explains the various settings and amendments to avoid damaging and
misunderstanding performance-related issued during repair work.
6-4-1 Automatic setting at powering on
The CPU will enter the initial setting mode when the power supply is switched on. The following
procedures will be visibly executed prior to ultrasound waves being transmitted and images
created and displayed.
----------------------------*---------------------------------------------
The blower fins will begin to rotate.
.1
The power lamp will be illuminated and the DISK LED will blink
The switches are illuminated in order.
1
[ALOKA Science &Humanity] ,will be displayed on the TV monitor.
1
[SSD-4000 System set-up in progress], will be displayed on the TV monitor
1
Characters and graphics will be displayed on the TV monitor.
1
The operation panel will be illuminated.
1
An ultrasound wave image will be displayed.
MN2-2006 Rev.0
SECTION 6 Trouble shooting
6-4-2 Jumper (JP) settings
JP switches (jumper connectors) for the initid equipment settings and JP switches that
correspond to a variety of uses are attached to the PCB. If the correct specifications are not made
with these switches, the equipment will not only malfunction, but there is a risk that it may lead
to new malfunctions. Reset these switches while referring to fig.6-5 if they are amended under
unavoidable conditions.
1
( ~ ~ 4 7 6 1 0SDP
0~~
J105:
It
is
common
to
P476100BC SDP
all
B:
Fig. 6-5
Short
MN2-2006 Rev.0
SECTION 6 Trouble shooting
6-4-3 Installation of optional units
In the case of connecting the optional units, some optional units require other PCB something
l i e an interface between the main body and optional unit, therefore, refer to the following table
about the construction of optional units in advance.
OPTIONAL UNIT
PEU-3500*
Physio signal display unit
EU-9084*
Volume mode unit
1
I
CONSTRUCTION
(Expecting constitution of except unit and
PCB)
PSC
EP4468**
Physio signal unit
EU-5045*
1
VOL
Table 6-1
EP4469**
6-4-4 User-defined functions
The functions that may be set up by the user are listed below. This data is backed up onto the
hard disk or the internal memory (CPU) with a battery.
Although the back-up data will not be erased under normal conditions,there is a chance that it
will be erased during repairs and upgrades. Save the back-up data prior to performing these tasks
and restore it when the work has been completed
Refer to the following pages for details of the methods for setting up the back-up functions. Refer
to the Operator's manuals provided with each item of equipment for further details.
MN2-2006 Rev.0
SECTION 6 Trouble shooting
6-4-4-1 Hospital name and dateitime settings
Select the PRESET LIST in PRESET, and select COMMON PRESET in the PRESET screen and
then enter the data with a N1 keyboard, and
Select mxit] to register the data.
6-4-4-2 Preset settings
1)
Press the [PRESET] switch.
2)
Select [SET UP OF PRESET] or [ C O W O N PRESET] from the PRESET screen.
3)
Select something from the Tree view and then register the contents of each set-up menu or
set the contents of C O W O N PRESET.
4)
Register the preset name in [PRESET NAME].
5)
Press PXIT]
6-4-4-3 Preset table constitution
The next page shows the Preset table constitution for reference.
MN2-2006 Rev.0
SECTION 6 Trouble shooting
Preset table constitution
Common
Preset
Common I
-
Common 2
-
DiCOM 2
-
Preset
Control
COPY
Move
I
DlCOM 1
DiCOM 3
u1----..---------.-i
Display 5
image 1
j
1
Caliper Mark Control
m
Unit Selection
Caiiwr Auto Off
UROLOGY
ppl~catlonMeasurement
Measurement Method & Display items
Caliper Mark Control
-1
I
Unit Selection
1
j
-4 Custom Switch 21
Option
J
I
-
Fbw
IP Select (Flow)
-
Power Fiow
IP Select (Power)
t
Menu Assignment
Transfer List Assianment
I
-
- - . Tissue Power
NiP Select (Power) I
I
MN2-2006 Rev.0
SECTION 6 Trouble shooting
6-4-6 Backup the preset data
On the SSD-3500, all the preset data including the measuring function (obstetrical table) can be
backed up and reinstalled.
There are the following two methods of backing up such data: saving the data from the preset
control available for the user and saving it from the maintenance menu for use by the service
personnel only.
The backup data is saved on the floppy disk &rough the floppy disk drive installed in the
equipment. Therefore, it is necessary to prepare a f o m t t e d floppy disk.
The capacity of backup data from the maintenance menu becomes big, because this function
saves all internal data in one lump package. Therefore, it is necessary to prepare a formatted MO
disk and MO disk drive. A floppy disk and an MO disk should be prepared by each of you when
necessary.
: o REFERENCE o The floppy disk is the 3.5-inch, 2HD and 1.44MBDOS-formatted disk The MO :
disk is 3.5-inch, DOS-formatted disk. The equipment itself has no formatting
:
.--------------------------------------.
I
I
I
CAUTION
When backup the preset data
When it is suspected that the backup data is damaged due to a failure, etc., or
I
I
I
I
I
unnecessary data is contained in the backup data, do not back up the preset data. I
I
If you reinstall such data by mistake, the failure may recur or a new failure may
I
I
be caused.
.--------------------------------------.
I
f
I
I
. - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
\
CAUTION
I
M
t
While the LED lamp of the floppy disk drive or MO disk drive is on, NEVER
g backup the preset data
I
I
push the eject button to remove the floppy disk or MO disk. The floppy/MO
I
disk drive and floppylMO disk may be damaged.
I--------------------------------------I
1)
About saving the data from the preset control (Copy of PresetiZibrary)
Necessary items only can also be backed up for each preset or each library. (Hospital names
cannot be backed up.)
For details of the operational procedures, refer to the operator's manual.
t
I
f
I
f
MN2-2006 Rev.0
SECTION 6 Trouble shooting
1. Select Preset
2. Select Preset Control
3. Insert a floppy disk, and select "To Floppy". Then select "Copy". The following
message will display on the TV monitor.
In progress. Please wait.
4. Copy the necessary preset items to the floppy disk.
2)
Saving the data from the maintenance menu (Copy Preset)
Refer 11-2-2, "Maintenance menu" in Section 11 for details. All the "backup data" is saved
collectively.
1. Press the Preset switch to display the preset select screen.
2. Press CTRL + S to turn on the maintenance mode.
3. Select "UP GRADE" ftom Tree View.
4. Select "Back-up Data Save" &om the maintenance menu.
5. The message 'Now saving" is displayed during backup.
MN2-2006 Rev.0
SECTION 6 Trouble shooting
6-4-7 How to reset the backup data
Resetting the backup data is done from the operation panel.
1)
Resetting the backup data from the operation panel
1.
Press the Preset switch to display the preset select screen.
2.
Press CTRL + R, then the message below will appear on the TV monitor.
3.
Press OK switch, then the machine automayically re-boot itself.
4.
After re-booting, the Initial Configuration window below will appear on the TV screen.
5.
C o n h the contents of Initial Configuration and select "EXIT", then the machine
automatically re-boot itself.
m2-2006 Rev.0
SECTION 6 Trouble shooting
6-4-8 Location of units
The figures below and the next pages summarke the units and PCB that belong to the chassis
and the PCB, which are inside of the units. Refer the Disassembling procedure and/or the Parts
list in this service manual for repairing or upgrading.
MN2-2006 Rev.0
SECTION 6 Trouble shooting
Ultrasound imaging unit (USM-27*)
The figure shown below describes the PCB in USM-27*.
MN2-2006 Rev.0
SECTION 6 Trouble shooting
Main panel (L-KEY-81*)
The figures shown below describes the location of PCB in the Main panel.
Panel assembly
i
STC PCB
ECG volume knob
/
(Option)
- Trackball
I
MN2-2006 Rev.0
SECTION 6 Trouble shooting
Power supply unit (PSU-S3500*)
The figures shown below describe the location of PCB in the Power supply unit.
Dower supptv d
l!xk.@B
AC Power Control
S e c o u d a ~power supplv ueit
EP4800**
I
Power supply unit
cover
MN2-2006 Rev.0
SECTION 6 Trouble shooting
Physio. signal display unit (PEU-3500*)
The figure shown below describes the location of PCB in Physio. signal unit.
* PSC PCB (Physio. signal memory) is installed in USM unit. Refer the 'Vltrasound imaging
unit OJSM-27*)".
MN2-2006 Rev.0
SECTION 6 Trouble shooting
6-4-9 Location of ROM
The figures shown below describes the location of ROM on each PCB. Refer these figures when
you need to replace them (Up-grading for example).
EP477500A* Front-End
A
ROM No.
L-ROM-1376A
EP477500B* Front-End
* ROM is not mounted on this PCB later revision than EP477500B*
The ROM is transferred to EP477600C*.
EP477600A* Tri JTF
LROM-1377
GROM-1378
GROM-1379
MN2-2006 Rev.0
SECTION 6 Trouble shooting
,
EP4837** Rx Beam Former
ROM No.
GROM-1276*
A
EP478400 DBP
ROM No.
GROM-1365
A
EP476000
CFP
, .
I
1
ROM No.
.
1
MN2-2006 Rev.0
SECTION 6 Trouble shooting
EP476100 SDP
ROM No.
GROM-1351
A
GROM-1352 (EP476100BC)
I,-ROM-1390 (EP47610OCD)
B
EP4810** Tx Rx Control
A
/
ROM No.
GROM-1380*
A
fx
"<&.S
J
>>> ~
-I
EP476900 CMB
A
ROM No.
GROM-1346*
H
MN~-2006RW.O
SECTION 6 Trouble shooting
(Blank Page)
MN2-2006 Rev.0
SECTION 6 Trouble shooting
6-4-10 How to handle start-up failure andlor locking up
Ifthe machine fails to start up or crashes even after it sta.rted, "Checklist Map" (Chapter 6-5)
would not be applicable. In that case, follow the instruction below for repair.
1)
Checking the power supply output
Fist of all, cbeck the output voltage of the power supply unit.
This system has a CPU that controls the entire system and three other CPU that are
controlling peripheral circuitry. Iftbe power supply unit didn't provide +3.3V, +5V andlor
+12V to these CPU or HDD, or somethmg wrong with the power supply unit, would cause a
trouble that affect entire system.
However, a trouble could ocnv even the power supply unit is OK because of possible
broken wire or the faulty power regulator/distributor circuitry at peripheral PCB.
CPU are mounted on the PCB below.
2)
EU-9090**
CPU
(USM-27)
EP4810**
Tx Rx Control
(USM-27)
liF
Interface
(L-KEY-81)
EP4769**
CMB
(USM-27)
Trouble caused by flash memory
The PCB listed below have flash memory and they would cause trouble, s h t up failure for
example, ifthe data that is stored in the flash memory corrupted.
- EP4761**
-
EP4810**
- EP4769**
3)
SDP
Tx Rx Control
CMB
Trouble caused by backed up data
back-up data is stored on the HDD and if it corrupted, it would cause trouble like start up
failure.
In that case, reset the back-up data refening the chapter 6-4-8, "How to reset the back-up
data" and then, cbeck the operation of the machine.
MN2-2006 Rev.0
SECTION 6 Trouble shooting
4)
Trouble related to data buses
It is quite difftcult to find a cause of trouble if the signal on data bus would have problem.
If the system didn't start up or crashed during an operation, refer the following description
to proceed the repair work. However, it is recommended that you should contact with the
Technical Support at earlier stage.
ses
PCB
PC1 BUS
LOCAL
BUS
USC BUS
Front End
BUS
(3
t)
C3
t)
t)
C3
t)
EP4468**
PSC
t)
EP4469**
VOL
t)
pP4769**
CMB
a: Bus works READIWRITEfor this PCB.
Bus works WRITE for this PCB.
t:
-+: Bus works READ for this PCB.
0
t)
MN2-2006 Rev.0
SECTION 6 Trouble shooting
6-4-11 Minimum start up
This chapter describes about "minimum start up" (Start up the machine with minimum
configuration of PCB)as it is necessary information for repairing this machine.
I)
Definition of Minimum start up
It is defined as the machine started with minimum configuration that it keeps stable after starting
up even without showing US image. Also, this definition covers the status that the machine
begins re-booting itselfwhen you press a switch on the operation panel, mode switch for example.
The flow chart below describes the definition of Minimum start up.
isplayed on the monitor.
oes it st& settin
......................................
( System
..
YES
Minimum start up
Check the operation.
NO
Normal operation
Stan up the machine with all PCB are
..........................
MN2-2006 Rev.0
SECTION 6 Trouble shooting
2)
Configurationthat is required for Minimum start up
The following is the list of PCB that are required for "Minimumstart up".
I-----------------------------------
I
I
CAUTION
(L-KEY-81*), TV monitor (PC-ISSO), HDD (Hard Disk Drive) and FDD (Floppy I
I
Disk Drive) are supposed to be connected properly and working.
I
I
I
I
I
I
I
I
Caution Power supply (PSU-S3500*), Motherboard (EP4788**), Operation panel I
CAUTION
Caution Be sure that the machine is turned off when you remove a PCB from it,
otherwise you would damage PCB and/or machine.
Distributor
CPU
CMB
VPU
TX RX Control
SDP
Rx Beam Former
Trig ITF
Front End
Machine starts up with these PCB above and a probe chased arrayilmearlConvex) connected.
I
I
MN2-2006 Rev.0
SECTION 6 Trouble shooting
0
Without probe
System starts up after the setting up message is displayed but no US image on the
monitor. Characters and graphics are displayed on the monitor and only EXT and
probe changing switch are active on the operation panel.
Response of machine that it's turned on without a certain PCB (Or unit) and the consequent
3)
phenomenon
t Main Panel L-KEY-XI*
following describes the symptom that happens when you disconnect all connectors.
Machine starts up but the switches and LED on the operation panel don't right and the
message below is displayed on the monitor.
Service Control Manager
At least one service or driver failed during system startup.
Use event viewer to examine the event log for details.
Shutdown procedure doesn't start even the power switch is turned off and the power
supply suddenly tuns off after 5 minutes,
4 CPU
EU-9090
The blue graphic bar is moving around on the monitor and the switches on the operation
panel repeating light on and off one after another.
Shutdown procedure doesn't start even the power switch is turned off and the power
supply suddenly tuns off after 5 minutes.
Machine starts up and shuts down normally even the connectors for MOD/FDD are
disconnected. However, machine gives an error message when it access to these media.
+
RX Connector
EP4787**
Machine works normal. However, US echo is not displayed but only white noise is shown
in the US area.
4
Rx Beam Former
EP4837**
The message below appears on the monitor after ALOKA logo is displayed.
hrdLibFMConfigFPGAFirror
FM Failure: SDP FPGA Error
Pressing RETURN key to clear all messages (Messages appear one after another) then the
machine starts up but no US image is displayed.
MN2-2006 Rev.0
SECTION 6 Trouble shooting
t Tx Rx Control
EP4810**
The message below appears on the monitor after ALOKA logo is displayed and the Flash
memory re-loading message is also displayed.
hrdLibSetChNumError
Probe Sel Rev is OxFFFF
Various error messages appear one after another upon pressing RETURN key but after
clearing all messages then, the machine starts up. However, no US image is displayed and
all panel switches are not active except EXT switch.
Machine shuts down normally when you turn off the Power switch.
t DBP
EP4784**
The message below appears on the monitor after ALOKA logo is displayed.
PrPrmemError
*********t**t*f*****************t**t.*
Several error messages appear one after another upon pressing RETUXN key but after
clearing all messages then the machine starts up but no US image is displayed.
t
CFP
EP4760**
The message below appears on the monitor after ALOKA logo is displayed.
I
HrdLibFMConfig FPGA Error
FM Time out: lnitiake CFP FPGA Error
I
Machine starts up when you press RETURN key to clear the message but Doppler and
flow image is not displayed.
4
SDP
EP4761*'
The Flash memory re-loading message is shown after ALOKA logo is displayed but the
message below appears on the monitor.
Invalid Manufacturer Code.......
Various error messages appear one after another upon pressing RETURN key but aRer
clearing all messages then, the machine starts up. However, it is impossible to operate the
machine.
MN2-2006 Rev.0
SECTION 6 Trouble shooting
Machime shuts down normally when you turn off the Power switch.
following display is shown on the monitor.
AUTO TEST
Machine starts up after the switches on the operation panel repeating light on and off one
after another.
Machine shuts down normally when you turn off the Power switch.
4
CMB
EP4769**
following display is shown on the monitor.
AUTO TEST
The switches on the operation panel repeating light on and off one after another
continuously and the machine never start up.
Shutdown procedure doesn't start even the power switch is turned off and the power
supply suddenly tuns off after 5 minutes.
MN2-2006 Rev.0
SECTION 6 Trouble shooting
6-4-12 LED on PCB
Some PCB have LED on them and those LED indicate the status of PCB. You could estimate the
defective one by means of checking those LED. There are two kinds of LED that indicates the
status of circuitry independently and the other one indicates the status that is changing depend on
the relation among several PCB. Thus the indication of failure doesn't necessarily mean that the
PCB, which has this LED is defective. Following describes the location and the indication of the
LED.
EU-9090 CPU
Each LED indicates the status of LAN connection.
LED1 (Red): Active or T x k
It flashes when the DATA is transferred.
LED2 (Red): Link 100
It lights when the link set to 1OOMhps.
In that case, LED03 doesn't light.
LED3 (Red): Link 10
It lights when the link set to 100Mhps.
In that case, LED03 doesn't light.
EP48lO** Tx Rx Control
LED 1 (G): It lights when canceling power reset signal.
_L
LED2 (G): It indicates the status that the configumtiou of IC24
and IC25 is done.
II
I
:
LED3 (G): It lights when the sequence of each mode is running
LED7 8
LED^ B
LED4 B
LED3 B
LED2 8
LED1 O
and turns off when it fkeeses.
LED4 (R): It lights when IC24, IC25, IC26 and IC28 are reset.
LED5 (R): Not defined.
LED6 (G): It lights when IC26 recognizes the finish of DBF
FPGA contiguration.
LED7 (G): Not defined
T
.V
When machine is starting, LED I, LED2 and LED6 light
before US image is displayed and after US image comes, LED3
also light.
MN2-2006 Rev.0
SECTION 6 Trouble shooting
EP4761** SDP
LED1 (Y) : It lights when DSP (TDP) causes trouble
and LED4 is turned off.
LED2 (Y) : It cycles on and off a t every ovenun error
caused on DSP (TDP).
LED3 CY) :It lights when MSE mode is active.
LED4 (Y) : It lights when DSP (TDP) is running.
LED5 (G) : It lights when DSP (FDP) is correctly
LEDlW
LED^
ii
LED6 (R) : It flashes when DSP (FDP) get internal
error and i t lights when DSP (FDP) get outer bus error.
u
LED6 8
LEDS Q
LED4 D
LED, 1
LEDZ 1
LED10
LED7 (R)
: It flashes when DSP (FDP) get
internal error.
LED8 (R)
interface of DSP (FDP) :get
It error.
lights when the color flow
LED9 (R) : It lights when the down loading of FPGA data fails.
LED10 (G) : I t cycles on and off a t every overrun error caused on DSP (FDP).
LED11 (G) : It lights when spectral Doppler stops output.
LED12 (G) : It lights when CW mode is on.
LED13 (G): It lights when DSP (FDP) is running.
EP4468** PSC
LED1 (G)
:It lights when R wave is inputted.
MN2-2006 Rev.0
SECTION 6 Trouble shooting
EP4769** CMB
LED 17 to 24:
They light depend on the status of firmware
register.
LED25 to 32:
They light depend on the status of software
register.
LED33 to 34:
They indicate the status of the processor.
OFF
OFF
ON
ON
1
1
1
I
OFF
ON
OFF
ON
I
1
I
/
Normal
Error
Error
Reset
MN2-2006 Rev.0
SECTION 6 Trouble shooting
6 Check List Map
This "Check List Map" provides you the information to estimate PCB or unit that would cause
the failure. It comprises the following information.
-
Phenomenon Code Table:
It classifies the well-known phenomenon of faiiures into codes
and assign them with the "MAP".
-
MAP:
This is the table that shows the relation of the "Code" from
"Phenomenon Code Table" and PCB or unit that is considered
to be a cause of the trouble.
-
Checking Procedure:
This procedure describes the way how to judge PCB and/or unit,
which is in the "MAP" is defective or not.
Flow chart of the Check List Map
The flow chart in the next page shows how to read the cross reference of the three parts in Check
List Map.
MN2-2006 Rev.0
SECTION 6 Trouble shooting
Flow chart for the usage of Check List Map
c
START
I
.c
I Confirm the phenomenon
I
Technical Support
Phenomenon Code
Table
I
Choose Check Code
correspond to the
Phenomenon Code from
MAP
Check PCBlunit
following the Checking
Procedure
Yes
AJ
w
Any other
Yes
suggested?
MN2-2006 Rev.0
SECTION 6 Trouble shooting
6-5-2 Phenomenon Code Table
The trouble symptoms covered by "Phenomenon Code Table" are roughly divided into the list
below and it creates the "phenomenon code" with two alphabet and it is followed by number@),
which represents the detailed classification of phenomena.
Code
US
Phenomena
Failure on the ultrasound image with any display mode
CG
Failure on the characters andor graphics display
Failure about the synchronizationtiming andlor viewing monitor
Failure on the general operation andlor function
I
I
TM
FU
Failure on the power supply, recording or panel switchestpotentiometers
PM
Failure on the physiological signal display
PH
Failure on the spectral Doppler
DP
Failure on the color flow Doppler or color image display
CD
The "phenomenon code" is referred for finding certain "Checking Procedure" of PCB/unit from
"MAP". From the next page, the "Phenomenon Code" tables that are categorized by the code
mentioned above are presented.
MN2-2006 Rev.0
SECTION 6 Trouble shooting
US
FaiIure on the nltrasound image
Phenomenon Code Appl.
1
3
*
(Ultrasound)
Phenomenon
Echo gap(~)is displayed with Mechanical sector probe.
Echo gap(s) is displayed with Phased array probe.
# The codes that marked with "*" is applicable to this machine.
MN2-2006 Rev.0
SECTION 6 Trouble shooting
# The codes that marked with "*" is applicable to this machine.
MN2-2006 Rev.0
SECTION 6 Trouble shooting
TM
Failure about the synchronization timing and/or viewing monitor
Phenomenon Code Appl.
I
Div.
Item
*
1
TM-1
4
1
I
2
TM-3
..1...
TM-4
2
1
I
Phenomenon
Entire information (Including US image, character and graphics) is not
-.--* No image is displayed on particular monitor (Or particular video output).
* Entire information (Including US image, character and graphics) that are
displayed on all monitor (Or any video output) lose synchronization.
.
* Image on particular monitor loses synchronization.
2
r,,"#-a
hd.3
(Timing & Monitor)
*
*
/
1
l~ntirescreen kemblesiflickers on any monitor (Any video output).
l~ntirescreen kemblesiflickers on particular monitor (Particular video output).
/Imageloses syncbronhtion or displays abnormally with VCM mode.
# The codes that marked with "*" is applicable to this machine.
I
MN2-2006 Rev.0
SECTION 6 Trouble shooting
Phenomenon
# The codes that marked with "*" is applicable to this machine.
MN2-2006 Rev.0
SECTION 6 Trouble shooting
enomenon
# The codes that marked with "*" is applicable to this machine.
MN2-2006 Rev.0
SECTION 6 Trouble shooting
#The codes that marked with "*" is applicable to this machine.
MN2-2006 Rev.0
SECTION 6 Trouble shooting
DP
Failure on the spectral Doppler
Phenomenon Code Appt.
Item
Div.
DP-1
I
1
1
4
/
....... Doppler image is not displayed on particular mode.
Doppler image is not displayed with particular probe.
* l ~ o ~ ~image
l e r is not displayed on one of each CW or PW mode.
Doppler image is displayed abnormally.
-.
-. 2
. . .
. . . . . .3
..
4
DP-3
DP-5
Phenomenon
- --.*-- -Dopplerimage isnot displayed.
DP-2
.........
(DoPpler)
*
on particular mode.
. . .Doppler image
. is displayed abnormally
......
* ......
Doppler image is displayed .abnormally
wirhparticularprobe.
...
. . .
-. . . . . .
*
.....
-
Doppler image is displayed abnormally on one of each CW or PW mode.
(side band noise etc.)
1 .................
* Mirror image
. . . is
. displayed in Doppler
. . image.
..Mirror image or noise (side band noise etc.) is displayed in Doppler image on
*
2
particular mode.
-,
Mirror image or noise (side band noise etc.) is displayed in Doppler image
3
with particular probe.
.
.
* Minor image or noise (side band noise etc.) is displayed in Doppler image on
4
one of each CW or PW mode.
Lack of sensitivity in Doppler image.
.....
Lack of sensitivity in Doppler image on particular mode.
....
3 . * Lack of sensitivity in Doppler image withparticular probe.
* Lack of sensitivity in Doppler image on one of each CW or PW mode.
4
* Doppler sound is too low or no sound.
1
# The codes that marked with "*" is applicable to this machine.
MN2-2006 Rev.0
SECTION 6 Trouble shooting
CD
I
Failure on the color flow Doppler or color image display
(Color Display)
Phenomenon Code Appl.
Item
Div.
CD-1
Phenomenon
1 - ..*....Flow image is not displayed in US area.
2 ..--* .Flow image is not displayed in US area on particular mode.
* Flow image is not displayed in US area with particular probe.
3
1 -- *.-..Flow noise is displayed in US area.
3
* Flow noise is displayed in US area on particular mode.
CD-2
. .. ... .
*
C
...
.
......-.... . .- ..
,Flow noise is displayed in US area with particular probe.
I
1
I
.
1
image is displayed abnormally in US area.
Flow image is displayed abnormally in US area on particular mode.
Flow
...--.
CD-4
CD-5
I
3
1
1
*
I *
I
*
Flow image is displayed abnormally in US area with particular probe.
/color image is displayed abnormally with VCR playback.
/color image on entire screen is not displayed or displayed abnormally.
# The codes that marked with "*" is applicable to this machine.
I
MN2-2006 Rev.0
SECTION 6 Trouble shooting
6-5-3 MAP
It suggests PCB/unit that w~ouldbe causing the failure against the typical symptom that is
represented by the phenomenon code. This "MAP" is classified by "Defect Code" and it gives the
"Check Code" to suspected P C B h i t in order to link it to the "Checking Procedure".
MN2-2006 Rev.0
SECTION 6 Trouble shooting
MN2-2006 Rev.0
SECTION 6 Trouble shooting
Failure on the ultrasound image (2)
m2-2006 Rev.0
SECTION 6 Trouble shooting
Failure on the characters and/or graphics di
Check List
Item
Defect Code CG-1
Check
ICode
(Character &
MN2-2006 Rev.0
SECTION 6 Trouble shooting
Failure about the synchronization timing and/or viewing monitor (Timing & Monitor)
r
I
I
I
I
I
MN2-2006 Rev.0
SECTION 6 Trouble shooting
(Function)
MN2-2006 Rev.0
SECTION 6 Trouble shooting
-
Failure on the power supply, recording or panel switcheslpotei iomete s
I
Check List
Item
Defect Code IPM-1 PM-2
Check
1 ,1 :2 , 3
! -AYYYY
,
,1 : 2
0 010
-.--
Operation
EP4837"
I PM-3
&Beam Former
j
!j ?1
,
C4
I
EP4810*'
TX
FU Control
EP4784*'
DBP
i
c5
EP476Oe'
CFP
EP4761*'
SDP
i
1
C
7
C8
I
EP4768'"
VPU
EU-9090
CPU
1
c9
! C10
I
EP4786"'
Distributor
EP4788"
Mother
EP4769'"
CMB
I
i
!
Cll
C12
C13
---
.
1
!
!
I
!
1
1 -- -iI
i
1 3 I5
j
t
PM-4
.
.
..
i-
O/O/O1
r
8
..1
1
Ii_-
(Power & Memory)
MN2-2006 Rev.0
SECTION 6 Trouble shooting
MN2-2006 Rev.0
SECTION 6 Trouble shooting
,Failure on the spectral Doppler
Check List
Itern
(Doppler)
Defect Code
DP-1
Check
ICode 1 . 2 3
/
Operation
Monitor
IPC-1550
L-KEY-81'
Main panel
EP4775'"
Front End
EP4776"
Trig ITF
EP4810"
Tx Rx Control
A1
O O O (
! B ~ 1I 1 1
! C 1
i C2
--
1 1 1
o II o : ~ o, ~ (
:
!
a
.
8
8
SECTION 6
Failure on the color flow Doppler or color imagc
Check List
Item
Defect Code
Check
code
j
Operation
A1
lntefference noise
CD-1
I
I
.
1
1-
Power supply (PSU-S3500')
1
0 0 C
,- -
i
e
h
i
ProbeISmnner
Monitor
IPC-1550
A5
L-KEY-81'
Main panel
B1
EP4775"
Front End
C1
8
EP4776"
Trig ITF
EP4787"
~x connector
EP4837"
Rx Beam Former
i
c2
oio/c
I
i
1 1
L - C ~
i ..I
i -9- --A,.
...&
L
~ ~ 4 8 1 0 ~TX
- ~x Control
EP4784**
DBP
EP4760"
CFP
EP4761**
SDP
-.
I
EP4768**
VPU
.. ... -
1
1
C9
/8
I
clo-2....~
! 1
Oi
t
&
..
i
EU-9090
CPU
EP4786"
Distributor
EP4788**
Mother
EP4769"
CMB
c x j
OI'oF
C13
PSC
----
PEU-3500
EP4468"
D2
Physio. AMP
EU-9084
EP4469"
BNV Printer
I
j
'??---!
Dl
PEU-3500
EP4801"
i
03
VOL
--
Color Printer
VCR
E3
+
-- . .....-
MN2-2006 Rev.0
Trouble shooting
UN2-2006 Rev. 0
SECTION 6 Troubleshooting
6-5-4 PCB Check Procedure
This PCB Check Procedure is categorized by each "CHECK CODE". Before using this procedure,
please find appropriate "CHECK CODE" that corresponds to the phenomenon you encountered
&om 'Failure List". It describes the way of checking for each "CHECK C O D in the "MAP".
Please note the checking that described here is based on the assumption that the machine is
malfunctioning due to the single failure.
How to use "PCB Check Procedure":
1)
Refer to the description of each CHECK CODE.
2)
Implement "Check Procedure" that corresponds to the failure on the machine.
3)
Carry out the procedure referring to the waveform chart or the Adjustment Method.
4)
Carry out the insmction or Check Procedure as guided in accordance with the indication of
"Failure" or 'Wot Failure"
[Example]
"~8":
Carry out "Check Procedure" guided in CHECK CODE "C8".
"6)-1":
Carry out "Check Procedure" guided in "6)-1" of the same CHECK CODE
as above.
"Replace P C B : The PCB you checked can he faulty. So replace it.
5)
Other possible causes
There might be another cause of the malfunction even if it is determined that the PCB or Unit
is faulty with this procedure. Therefore, it is better to check carefully whether other
phenomenon is observed or not.
MN2-2006 Rev. 0
SECTION 6 Troubleshooting
I A1
I
Handling of Device
It is impoaant to know how to handle the device and its functions.
Check if the trouble is caused by miss handfig or the nature of the machine by means of referring
"SECTION8 Performance Check". However, if it is difficult to judge, contact our Technical
Support
- - - - - - -absolutely
- - - -necessary,
- - - - otherwise
- - - -it-might
- - make
- - -the-W-b-l e-worse.
--------I
I
Refer to SECTION 3, "3-3 Message" in SSD-3500 Service Manual volume 112 for the messages
that displayed on the monitor.
MN2-2006 Rev. 0
SECTION 6 Troubleshooting
A2
Interference Noise
In the case of sudden appearance of noise and it is suspected that would be coming from outside of
the machine, try to change the setup location of the machine andlor change the line of the mains.
Refer to following points when you inspect the environment for the machine:
1)
Is there any equipment such as X-ray apparatus that would induce power fluctuation or noise
around the area?
2)
Is there any device such as computer nearby that would cause the noise?
3)
Is there any broadcasting facility such as radio station nearby?
4)
Is there any elevated cable that provides high voltage electricity nearby?
5)
Does it affect the noise level when you turn off the light or take the probe to the device?
6 ) Would the optional devices such as VTR and/or physio unit be causing the noise?
7) Does it improve if you replace the grounding wire with the thicker and shorter one? In this
case, you need to make sure that the grounding of the building is correctly set.
8)
Check the mains of the building whether the voltage is stable or has noise in it or not.
The countermeasure is different between the noise caused inside of the machine and it is from
outside. If you don't have sufficient knowledge about noise problem, contact Technical Support
after checking the following points:
1)
Does the noise occur in particular operation, mode or probe, during the normal use?
2)
Please check the voltage ofpower supply unit such as -I-3.3V, i5V, rt 12V and f15V and
ripple.
3)
Does the noise increaseldecrease when you hold the probe?
4)
Does the noise increaseidemeasewhen you change the direction of the probe?
5)
In which direction does the noise (Or line) move on the US image (Or on entire screen)? Is it
regular movement or irregular movement?
I
MM2-2006 Rev. 0
SECTION 6 Troubleshooting
I A3
Power Supply Unit PSU-S3500*
Output voltage of the power supply unit is described in the table below. However, each voltage is
measured under following conditions:
1)
A Probe is (electronic linear/convex/sector)connected.
2)
The machine has been turned on more than 30 minutes.
3)
AC input voltage is within +I- 10% of the specified input voltage.
4)
The AC OUTLET is measured with no-load.
Check Point
I
Connector No.
J804
AC OUTLET
I
Pin
I
/
GND
Output Voltage (Standard)
I
-
1
3
+40V
+36V +44V
2
3
+12.0V
+10.8V-+13.2V
4
3
HVA
Refer to HVA
5
3
-150V
-145.5V- -154.5V
Service
Same as AC Input
Outlet
Voltage
Within +I-3.0%
I1
MN2-2006 Rev. 0
SECTION 6 Troubleshooting
Transmission voltage for ultrasound is controlled by 6 bit TTL signal supplied &omthe machine a .
the table below:
HVA Specification
30
H
H
L
L
L
L
-23.8V
20
H
L
L
L
L
L
49.2V
00
L
L
L
L
L
L
-1oo.ov
-
PSU-S3500*-2 Connector Arrangement Diagram
J803 : VOLTAGE CHECK
1
9
+3.3V
+3.3V
+5.lV
+5.1V
+5.1V
+5.1V
+5.OV
-5.OV
+12.0V
GND
GND
GND
GND
GND
GND
GND
GND
-12.OV
10
18
J804 : VOLTAGE CHECK
1
+40V
+12.0V
GND
HVA
-150V
5
lN2-2006 Rev. 0
SECTION 6 Troubleshooting
A4
I
ProbeIScanner
This system can connect electric probe. Therefore, it is important to check if the probe causes the
failure or not first.
Electronic Probe
Check with other probeidevice:
Check the machine with another probe that is the same model of faulty one if it is available.
Also, if you have the same system available, check the probe that is causing the failure with
this machine whether the same trouble occurs or not.
Coin Check For electric Linear and Convex probe)
Set the machine in B Mode and put a thii metal pin such as lead wire of a resister on the
surface of the probe and move it slowly fiom one end to the other, and observe the ultrasound
image on TV monitor. If you find any of the description below during this procedure, the
probe would be faulty.
There is one echo gap.
If the probe is OK, there is a failure in between HVS (High Voltage Switch) circuitry, the
probe selector and probe. It also might be a contact failure on the probe connector.
.............................................
C1
There are several echo gaps at regular interval.
If the probe is OK, it is a failure related to the T x k signal.
.............................................
C1M32/C4/C5/C6
The same echo appears more than two at the same time.
It is a failure related to the signal lines that correspond to the probe transducers one-on-one, or
a failure in HVS circuit.
.............................................
c2/c4/c5
Echo is missing in certain area.
If the probe is OK, it is a failure in Beam Former, HVS Control Circuit, or somewhere
between the probe selector and the probe.
.............................................
C2/C4/C5/C7
Probe Code
"Probe Code" is assigned individuallyfor every probe to let the system recognize the type of probe.
"Probe Code" is also used to determine if it is connectable or not and to read the data unique to the
probe saved in the parameter memory. Probe Code is set depending on the pin arrangement in the
probe connector.
Ifthere is any pin bent or broken, it is not only failed to recognize Probe Code but it might be
MN2-2006 Rev. 0
SECTION 6 Troubleshooting
recognized as different Probe Code. As a consequence, the machine proceeds to setup the system
incorrectly and it makes the system in a dangerous situation. Make sure that there is no pin bent or
broken on the probe connector.
------------- -----.
.------------------
Caution 8 There is a risk of damaging the connector on the machine if you repeat
I
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connectingiremoving the probe with pin(s) bent or broken. There was a case that I
f
I
the damaged connector at a machine caused another probe damaged. Therefore,
t
I
t
1-
pay attention to the pins of probe connector in order to fmd a trouble in earlier
- - - - - - - - - - - - stage.
-----------------------I
There would be similar failure occurs if there is a problem in the communication channel of the
Probe Code.
.............................................
C1ICUC4IC5IC9ICI 5/01
The connector for electric Linear, Convex and PA sector
Probe
Model :UST-9123
G:
GND
Probe Code
SW 1: 5
SW2: 6
If the machine shows "Invalid Probe" message and doesn't
recognize the Probe Code correctly, it might also be a contact
failure of the probe connector.
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MN2-2006 Rev. 0
SECTION 6 Troubleshooting
Monitor
A5
IPC-1550
First of all, check the brightness and the contrast of the monitor if it's properly set or not. Then
A3.
. check
. . . . .the. .power
. . . .supply
. . . . .voltage
. . . . .referring
. . . . . .to.chapter
.
- -.......................
:
0
Info 0
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8
I
The setting of contrast and brightness affects the impression ofthe US image greatly.
You would solve complaints of "lack of sensitivity" or "had resolution" kinds, by j
means of re-adjusting these settings properly. Also, ifthese settings are too high, the
I
characters and the graphics display would seem flickering.
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f
C-----------------------------------------------------2
:
!
t
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1
Cautions for repairing TV monitor
It is not applicable to repair PC-1550 by means of replacing PCB but to replace the assembly. So
replace the assembly when you judged that a monitor is broken.
It would be a cause of damage on CRT or other trouble if you apply too much shock or vibration on
TV monitor. Be careful when you instalVdisassemble a monitor.
I
a
There are some parts that high voltage is applied inside. Do not touch it unless you
Caution
The high voltage is applied to CRT and there is electric charge remained even after
Caution
0
a
have some experience.
turning off the power. In order to avoid getting electric shock, discharge it sufficiently
by means of using a g ~ ~ u stick
n d that has a high resis,ce
of about I,
connected
to the frame ground at the other end, especially, when you need take off the Anode
Cap for example.
Do not touch the metal part with bare hand because there could the electric charge still
remain in some cases even after discharge.
1)
Make sure to take off the metallic objects such as a watch before you start working.
2)
Keep the above cautions to protect the safety of worker and prevent the secondary accident.
3)
Setup location should be somewhere airy as much as possible, and avoid blocking off the
ventilating hole or placing the device close to the object that generates beat.
4)
Do not place the machine that would expose direct sunshine or too bright place. It might cause
the temperature increase or bothering the view of the screen.
5)
Do not use the monitor close to the objects with emitting magnetic force l i e transformer,
motor, or power lines. They might cause mottled color or wohblmg screen.
I
MN2-2006 Rev. 0
SECTION 6 Troubleshooting
6 ) Handle with care during transportation and installation. Strong impact or vibration might
damage CRT or cause troubles.
7)
Make sure to turn off the power and then pulling out the power cable before replacing the fuse.
8)
Be careful not to repeat ON-OR: of Power Switch of the monitor unnecessarily. It might
cause "spot" or malfunctions of the monitor.
MN2-2006 Rev. 0
SECTION 6 Troubleshooting
[PC-1550 : Troubleshooting
(I) No image is displayed:
Is
the
No
electricity
Supply
correct
AC
power.
supplied correctly?
I Yes
All
connectors
NO
are
>
connected correctly?
Connect all connectors
correctly.
I
>
Is the CRT heater
lighting?
If
the
fuse
inside
No
Is the
signal
Replace the fuse.
No
cable
connected correctly?
Is
the
input
signal
>
Brightness adjusted too
low?
I
optimum
display.
OSD
for
screen
1
the
signal
correct
input
cable.
Supply
signal.
Is the Contrast and
Adjust
>
Connect
is
failure
inside the monitor.
blown?
Yes
Yes
There
There is failure inside
the monitor.
MN2-2006 Rev. 0
SECTION 6 Troubleshooting
(2) Not synchronized:
Is
the
input
signal
Supply
appropriate?
appropriate
input signal.
There is failure inside
the monitor.
Screen is too bright:
Is the setting of OSD
proper
for
Contrast
Yes
No
Is the input level
Check the video output
j
Correct?
of the machine.
I
and Brightness?
I
There is failure inside the
optimum image.
monitor.
(4) No raster:
Supply correct AC power.
supplied correctly?
Connect all connectors
connected correctly?
Is the CRT heater
lighting?
correctly.
No
If the fuse inside
blown?
Yes
There
is
failure
inside the monitor.
Replace the fuse.
No
There
is
failure
inside the monitor.
MN2-2006 Rev. 0
SECTION 6 Troubleshooting
(5)
Raster becomes one vertical line:
"
connected correctly?
Connect all connectors
correctly.
There is failure inside
the monitor.
(6) Raster becomes one horizontal line:
-No
All
connectors
are
Connect all connectors
correctly.
connected correctly?
I
h
There is failure inside
the monitor.
(7) Retrace line is visible:
All
connectors
No
are
correctly.
connected correctly?
I
\I/
There is failure inside
the monitor.
Connect all connectors
I
MN2-2006 Rev. 0
SECTION 6 Troubleshooting
Fuse Replacement Procedure (See SECTION 9 Disassembling)
1) Dismount the monitor from the machine.
2) Detach fixing brackets from the monitor (see Fig. 1).
3)
Take off the rear cover from the monitor (see Fig. 2).
4)
Take out the fuse fTom the fuse holder at the back of the unit (see Fig. 3).
Fig. 1: Detach fixing brackets
Fig. 2: Position of the screws for the cover
* Be careful not to pull the
grounding wire when you
take off the cover.
MN2-2006 Rev. 0
SECTION 6 Troubleshooting
Fig. 3: After taking off the rear cover:
MN2-2006 Rev. 0
SECTION 6 Troubleshooting
On-Screen Display and Functions
It describes the items shown in OSD (Qn Screen Display: Display Control Menu) on PC-1550 as follows.
Press Rotary Knob when you enteriexit Control Menu.
1. EXIT
EXIT switches off the OSD display.
2. BRIGHTNESS
BRIGHTNESS adjusts the brightness of Raster.
3. CONTRAST
CONTRAST adjusts the image contrast.
4. H PHASE
H PHASE adjusts the horizontal position of the image.
5. V POSITION
V POSITION adjusts the vertical position of the image.
6. H SIZE
H SIZE adjusts the horizontal sue of the image.
7. v SIZE
V SIZE adjusts the vertical sue of the image.
8. PINCUSHION
[OSD Menu Display]
PINCUSHION adjusts the barrel distortion and/or the pincushion distortion.
9. TRAPEZOID
TRAPEZOID adjusts the trapezoid distortion.
10. PARALLEL
PARALLEL adjusts the parallelogram distortion.
11. ROTATION
ROTATION adjusts the image inclination.
12. PIN BALANCE
PIN BALANCE adjusts the sideway balance of the barrel distortion and/or the pincushion distortion.
MN2-2006 Rev. 0
SECTION 6 Troubleshooting
13. COLOR
COLOR adjusts the color balance of the image. It can adjust R,G and B but for adjustment, adjust one or
two of RG, GG or BG and do not adjust all three at once.
If you need to reset the value after adjustment, select "9300" from COLOR Control Menu and press
Rotary Knob. It resets all values that have been adjusted previously so that you need to keep it recorded
if necessary.
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Caution
a
0
1
"a
iu
&has to be done once in order to protect the factom setting otherwise the factow
setting would be lost So do not forget to do it, (After that you don't need to select
"9300" every time you adjust the color balance)
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14. DEGAUSS
Use this when the color balance drifted by the magnetic effect. (Degauss)
It is activated when you select DEGAUSS and press Rotary Knob.
15. V MOIRE
V MOIRE remove the striped patter (moir.4) &om the screen.
16. OSD PHASE
OSD PHASE adjusts the horizontal position of OSD.
17. OSD CENTER
OSD CENTER adjusts the vertical position of OSD.
18. RECALL
Press RECALL to reset all the adjusted items to factory setting.
....................................................
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8
Caution 8
The items 13.15 - 17. and 19.4l not be reset bv RECAka-L
you reset the value ofe warned that all items except 13. 15-17. and l9 are
returned to the factory settings if you press RECALL
I
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You an not reset item by item. I f it's necessary, keep the record of each
getting before you press RBCALL.
....................................................
I
19. Language Selection
You can select the language for OSD.
There are 5 languages available for selection: English, French, Geman, Spanish, and Italian.
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MN2-2006 Rev. 0
SECTION 6 Troubleshooting
Adjustment Method
<Front of Monitor>
Rotary Knob
Power Switch
For example, CONTRAST adjustment method is explained below:
1.
Press Rotary knob on the front or turn it to the left (Or right), OSD (Menu) appears on the screen
to select each adjustment items.
2.
Turn Rotary Knob to the left or right, and select CONTRAST. (The color of the CONTRAST
changes to green.)
3.
Press Rotary Knob to show CONTRAST bar and value.
4.
Turn Rotary Knob to the left or right to increaseidecrease the value of CONTRAST to set it
appropriately.
5.
&r
6.
Turn Rotary Knob to the left to select EXIT, then press Rotary Knob to hide OSD.
the setting is completed, press Rotary Knob. (CONTRAST Bar and value will disappear.)
*After Step 4, OSD will disappear after about 10 seconds if you don't touch Rotary Knob.
The other items can be adjusted in the same way but be carefid with the following points when you adjust
each item.
If vou need to adjust the item!s) that cannot he & to the factow setliue by RECALL. lake the
you should do it r&xhg&$ record. The indicated value doesn't e h -a n w s vou turn Rotary
Knob 2 - 3 steps (The status ctLanges though the value remains the same). it is better to write down
bow manv s&g vou rewire to c
u the value when vou k e e w d . Bv doing this. vou will be
able to reset the value correctly.
MN2-2006 Rev.0
SECTION 6 Troubleshooting
I B1
Main panel
L-KEY-81*
Please refer to "SECTION 5 Cross Line Chart" for confirmation.
Firstly, please determine if all functions on the operation panel are failed, or only those functions
that correspond to switches and knobs on the operation panel are failed. Secondly, please check the
power source voltage referring to A3.
1)
Failure in All Panel Functions
1)-1 Ifthe system itself is normal:
Operation panel is connected by the serial communication between the system and RS232C, and the specification allows to operate the operation panel individually.
Therefore, if the system itself operates normally up to certain level except for the
functions directly controlled by this unit, it is unit failure. Please note that it can be a
failure in connecting cable, therefore, you need to check connection and cable itselfjust
in case.
1)-2 Ifthe system itself is also malfunctioning:
Failure must be in CPU of the system that receives the panel information.
.......................................... C17
2)
Failure in SwitchesffiobsLED
It is a failure in corresponding switchknobLED. Please replace the part accordingly. Please
note that if the malfunctioning occurs in following functions, you need to check related items
as well.
STC, GAIN, CONTRAST, AGC, ACOUSTIC POWER
I
MN2-2006 Rev.0
SECTION 6 Troubleshooting
I C1
Front End
EP4775**
Please refer to "SECTION 4 System Operation Principle" for confinnation.
Failure Caused bv This PCB:
One echo is missing, or echo is missing with equally-spaced interval.
Screen has the noise.
1)
Failure in Probe
1)-1 Any change in occurrence by attachmenVdetachmentof the probe?
yes
.....................................
Contact failure at connecting part.
1)-2 By referring A3, check the power unit output.
Normal
......................................
1)-3
1)-3
Does the same thing occurs to the other probe connectors?
yes ......................................... C2/C3/C4/C5/C6
No .......................................... 11-4
1)-4
Does it occur when one of the probe is used?
yes ......................................... A4
NO
2)
..........................................
Replace PCB
Echo is missing with equally-spaced interval:
If it is difficult to identify the specific failure as a result of checking each CHECK CODE
listed below, please replace this PCB.
.............................................
C2/C3/64/C5
MN2-2006 Rev.0
SECTION 6 Troubleshooting
C2
Trig ITF
1
EP4776**
Please refer to "SECTION 4 System Operation Principle" for confurnation.
Failure Caused bv This PCB;
Echo is missing with equally-spaced interval.
0
1)
Ultrasound image is not displayed. It only displays the noise. (No Transmission)
Failure in Probe
Any change in occurrence by attachment/detachmentof the probe?
yes ................................... Contact failure at connecting part.
No .................................... 1)-2
By referring A3, check the power unit output.
Normal
...................................... 1)-3
Abnormal .................................... A3
Does the same thing occurs to the other electronic probe connectors?
yes ......................................... CI/C3/i%/C5/C6
No .......................................... 1)-4
Does it occur when one of the probe is used?
yes ......................................... A4
No
2)
..........................................
Replace PCB
Echo is missing with equally-spaced interval:
If it is difficult to identify the specific failure as a result of checking each CHECK CODE
listed below, pIease replace this PCB.
.............................................
C1/C3!C4!C5/
MN2-2006 Rev.0
SECTION 6 Troubleshooting
I C3
Rx Connector
I
EP4787**
Please refer to "SECTION 4 System Operation Principle" for confirmation.
Fail= Caused by This PCB:
Missing echo.
Ultrasound image has low sensitivity.
Ultrasound image has noise.
1)
Echo is missing with equally-spaced interval:
If it is difficult to identify the specific failure as a result of checking each CHECK CODE
listed below, please replace this PCB.
.............................................
2)
C1/C2/C4/C5/C6/
Sensitivity Failure in Ultrasound Image
If it is difficult to identify the specific failure as a result of checking each CHECK CODE
listed below, please replace this PCB.
2)-1
Sensitivity is low in all BiW, PW, and COLOR.
.............................................
3)
A3/A4/Cl lC2/C4/C5/C6/C8
Ultrasound image has noise:
If it is difficult to identify the specific failure as a result of checking each CHECK CODE
listed below, please replace this PCB.
.............................................
A3/A4/CI/C2/C4/C5/C6/C8
MN2-2006 Rev.0
SECTION 6 Troubleshooting
[ C4
RX Beam Former
I
EP4837**
Please refer to "SECTION 4 System Operation Principle" for confirmation.
Failure Caused bv This PCB:
0
Echo is missing with equally-spaced interval.
Ultrasound image has low sensitivity.
1)
Echo is missing with equally-spaced interval:
If it is difficult to identify the specific failure as a result of checking each CHECK CODE
listed below, please replace this PCB.
.............................................
2)
CI/C21C3/C5
Ultrasound image has low sensitivity:
If it is difficult to identify the specific failure as a result of checking each CHECK CODE
listed below, please replace this PCB.
.............................................
A3lA4lCI /C2/C31C6/
MN2-2006 Rev.0
SECTION 6 Troubleshooting
C5
Tx Rx Control
EP4810**
Please refer to "SECTION 4 System Operation Principle" for confirmation.
Caused by This PC&
0
No transmission.
Ultrasound image is not displayed.
0
Failure in the ultrasound scan line address.
Abnormal transmission voltage.
0
It doesn't show Doppler or Color images.
0
Failure in the heart rate display.
This PCB has Flash Memory. Ifthere is a failure in this Flash Memory data, the system doesn't start
or doesn't operate normally.
This PCB has LED for operation check. Before you do following check, please refer 6-4-12 "LED
on P C B for normal operation check.
Ifthe check proves to be normal, and ifthe failure is found in the PCB, please replace the PBC.
1)
No transmission, or failure in transmission voltage.
If it is difficult to identify the specific failure as a result of checking each CHECK CODE
listed below, please replace this PCB.
.............................................
2)
ASIC1/C2/
Ultrasound image is not displayed:
If it is difficult to identify the specific failure as a result of checking each CHECK CODE
listed below, please replace this PCB.
.............................................
3)
A3/CliC21C31C4/C6/CS/C13
Failure in the ultrasound scan l i e address:
.............................................
Replace PCB
MN2-2006 Rev.0
SECTION 6 Troubleshooting
4)
It doesn't show Doppler or Color images
If it is difficult to identify the specific failure as a result of checking each CHECK CODE
listed below, please replace this PCB.
.............................................
5)
GIM35/C71C8/CI3
Failure in the heart rate display:
If it is difficult to identify the specific failure as a result of checking each CHECK CODE
listed below, please replace this PCB.
.............................................
D1ID2
MN2-2006 Rev.0
SECTION 6 Troubleshooting
1 ~ 6 DBP
EP4784**
Please refer to "SECTION 4 System Operation Principle" for confinnation.
Failure Caused bv This PCB:
Ultrasound image has low sensitivity. (B/W image only.)
Failure in the gradient of the ultrasound image.
Failure in AGC, CONTRAST, RELIEF, and FTC
Echo is missing or sensitivity becomes lower in the parallel reception mode.
1)
Ultrasound image has low sensitivity: (B/W image only)
Ifit is difficult to identify the specific failure as a result of checking each CHECK CODE
listed below, please replace this PCB.
.............................................
2)
Failure in the gradient of the ult~asoundimage:
3)
Failure in AGC, CONTRAST, RELIEF, and FTC:
C51C6
If it is difficult to identify the specific failure as a result of checking each CHECK CODE
listed below, please replace this PCB.
.............................................
01
MN2-2006 Rev.0
SECTION 6 Troubleshooting
I C7
CFP
1
EP4760**
Please refer to "SECTION 4 System Operation Principle" for confirmation.
Failw Caused by This PCB:
0
Abnormal color image, or it doesn't display color image.
0
Failure in the power flow image only
0
Failure in the PW Doppler image only.
1)
Abnormal color image, or it doesn't display color image:
If it is difficultto identirjr the specific failure as a result of checking each CHECK CODE
listed below, please replace this PCB.
.............................................
2)
3)
C81C91C13
Failure in the power flow image only:
.............................................
REPLACE PCB
Failure in the PW Doppler image only, or it doesn't display PW Doppler image:
If it is difficult to identify the specific fdure as a result of checking each CHECK CODE
listed below, please replace this PCB.
.............................................
A3/C4/C5/C8
MN2-2006 Rev.0
SECTIOX 6 Troubleshooting
C8
SDP
1
EP4761**
Please refer to "SECTION 4 System Operation Principle" for confmnation.
Failureused by This PCB;
0
It doesn't display the PW Doppler image and the color image.
0
It doesn't show the PW Doppler image only.
0
It doesn't show the color image only.
0
Failure in the Doppler image.
0
Failure in the color image.
There is failure in Doppler sound, or no Doppler sound.
This PCB has Flash Memory. Ifthere is a failure in this Flash Memory data, the system doesn't st&
or doesn't operate normally.
This PCB has LED for operation check. Before you do following check, please refer 64-12 "LED
on PCB" for normal operation check.
Iftbe check proves to be normal, and if the failure is found in the PCB, please replace the PCB.
1)
It doesn't display the PW Doppler image and the color image:
If it is difficult to identify the specific failure as a result of checking each CHECK CODE
listed below, please replace this PCB.
.............................................
2)
A3/C4/C5/C7
It doesn't show the PW Doppler image only:
If it is difficult to identify the specific failure as a result of checking each CHECK CODE
listed below, please replace this PCB.
.............................................
3)
A3/C4/C5/C7
It doesn't show the color image only:
If it is difficult to identify the specific failure as a result of checking each CHECK CODE
listed below, please replace this PCB.
.............................................
c9/c13/
MNZ-2006 Rev.0
SECTION 6 Troubleshooting
4)
Failure in the PW Doppler image:
If it is difficult to identify the specific failure as a result of checking each CHECK CODE
listed below, please replace this PCB.
.............................................
5)
C4/C5/C7/CI3
Failure in the color image:
If it is difficult to identify the specific failure as a result of checking each CHECK CODE
listed below, please replace this PCB.
.............................................
6)
GZM35/C7/CQ/CI3
There is failure in Doppler sound, or no Doppler sound:
If it is difficult to identify the specific failure as a result of checking each CHECK CODE
listed below, please replace this PCB.
.............................................
C8/C11
MN2-2006 Rev.0
SECTION 6 Troubleshooting
I C9
VPU
EP4768**
Please refer to "SECTION 4 System Operation Principle" for confirmation.
a It cannot synchronize with TV image.
Failure in the gradient of the ultrasound image.
a Doppler image is not displayed in NEGA.
a Red, green, or blue is not displayed on TV monitor or by a color printer.
a It doesn't output the composite of BW and color, or YIC video signal.
a Failure in the overlay display.
a It doesn't show VCR replay image even though it is switched to the EXT input.
a Any or all of the externally input RGB are not displayed.
It doesn't show the externally input YIC only, or failure in the externally input YIC.
a It doesn't show the externally input composite video signal only.
Failure in the brightness of the VCR replay image.
1)
It cannot synchronize with TV image:
Uit is difficult to identify the specific failure as a result of checking each CHECK CODE
listed below, please replace this PCB.
.............................................
C13
2) Failure in the gradient of the ultrasound image:
2)-1 Is POST PROCESS set correctly?
.........................................
No ..........................................
yes
2)-2
.........................................
No ..........................................
2)-3
REPLACE PCB
Does it show the VCR replay image correctly?
.............................................
3)
A1
Does it show the test pattern correctly?
yes
2)-3
2)-2
C13
Doppler image is not displayed in NEGA:
.............................................
REPLACE PCB
MN2-2006 Rev.0
SECTION 6 Troubleshooting
4)
Red, green, or blue is not displayed on TV monitor or by a color printer
If it is difficult to identify the specific failure as a result of checking each CHECK CODE
listed below, please replace this PCB.
.............................................
5)
A5/ClI/El/E2lE3
It doesn't output the composite of BW and color, or YIC video signal:
If it is difficult to identify the specific failure as a result of checking each CHECK CODE
listed below, please replace this PCB.
.............................................
6)
ClllEI/E2lE3
Failure in the overlay display:
Kit is difficult to identify the specific failure as a result of checking each CHECK CODE
listed below, please replace this PCB.
.............................................
7)
C10
It doesn't show VCR replay image even though it is switched to the EXT input:
If it is difficult to identify the specific failure as a result of checking each CHECK CODE
listed below, please replace this PCB.
.............................................
8)
AI/C? 1/Cl3/E3
Any or all of the externally input RGB are not displayed:
If it is difficult to identify the specific failure as a result of checking each CHECK CODE
listed below, please replace this PCB.
No
..........................................
9)
A5lC13
It doesn't show the externally input Y/C only, or failure in the externally input YIC:
If it is difficult to identify the specific failure as a result of checking each CHECK CODE
listed below, please replace this PCB.
.............................................
AllE3
10) It doesn't show the externally input composite video signal only:
If it is difficult to identify the specific failure as a result of checking each CHECK CODE
listed below, please replace this PCB.
.............................................
AllE3
MN2-2006 Rev.0
SECTION 6 Troubleshooting
11) Failure in the brightness of the VCR replay image:
If it is difficult to identify the specific failure as a result of checking each CHECK CODE
listed below, please replace this PCB.
.............................................
C13lE3
MN2-2006 Rev.0
SECTION 6 Troubleshooting
C10 CPU
EU-9090**
Please refer to "SECTION 4 System Operation Principle" for confirmation.
Failure Caused by This PCB:
System doesn't stsrt.
a System goes out of control.
1)
System doesn't start:
By referring to 6 4 1 0 , select PCB related to CPU Bus and Unit, then check the
corresponding CHECK CODE.
2)
System goes out of control:
By referring to 64-10, select PCB related to CPU Bus and Unit, then check the
corresponding CHECK CODE.
3)
Other failure:
By referring to "SECTION 6 Troubleshooting", "ROM Arrangement", "Switch
Configuration on P C B , and "Jumper (JP) Configuration", check the arrangement and
configurations.
1
MN2-2006 Rev.0
SECTION 6 Troubleshooting
C l I Distributor
1
EP4786**
Please refer to "SECTION 4 System Operation Principle" for c o ~ o n .
Failure Caused bv This PCB:
0
Failure related to the externally output signal.
Failure related to the externally input signal.
0
Failure in the printer control signal.
If you find failure in this board, please check the contact of all connectors and the soldering status.
1)
2)
3)
Failure related to the externally output signal:
.............................................
C9lC13
Failure related to the externally input signal:
.............................................
C91C13
Failure in the printer control signal:
.............................................
C l l/C13/EllE2
MN2-2006 Rev.0
SECTION 6 Troubleshooting
I C12
Mother
1
EP4788**
Please refer to "SECTION 5 Cross Line Chart" for confirmation.
If the failure is other than specified below, please refer to the signal table for the mother board in
"SECTION 5" to identify the failure location, or go back to Map to check "CHECK CODE" again.
1) Failure in the power supply
.............................................
2)
3)
A3
Failure in the probe scanner:
.............................................
A4/CIO/C13
Failure in Bus:
.............................................
CIO/C13
MN2-2006 Rev.0
SECTION 6 Troubleshooting
C13 CMB
EP4769**
Please refer to "SECTION 4 System Operation Principle" for c o ~ t i o n ~
Failure C a d hv This PCB:
a
It doesn't show the Plane Mode image.
a
It doesn't show the BIW image only in B Mode.
a
Failure in the line correlation. (BW. B Mode)
a
Failure in the kame correlation.
a
Failure in US address.
a
It doesn't show Line Mode.
a
Failure in the sweep speed.
a
Failure in the image display in Line Mode.
a
Failure in the physio signal display in Line Mode.
a
Failure in the overall ultrasound image.
a
Failure in the Cine Memory functions.
a
Failure in the ultrasound image format.
a
Failure in the lead zoom function.
a
Failure in the ultrasound image display function.
a
Failure in the video replay image.
It doesn't display color VEL or POWER only in B Mode.
a
It doesn't display color VAR only in B Mode.
a
It doesn't display color image only in M Mode.
a
Failure in the overall color image.
a
Failure in the video replay image.
System doesn't start.
a
It doesn't synchronize with TV monitor and the recording equipment.
This PCB has LED for operation check. Before you do following check, please refer 6-4-12 "LED
on P C B for normal operation check.
If the check proves to he normal, and if the failure is found in the PCB, please replace the PCB.
1) It doesn't show the Plane Mode image:
If it is difficult to identify the specific failure as a result of checking each CHECK CODE
listed below, please replace this PCB.
............................................. C51C6
I
MN2-2006 Rev.0
SECTION 6 Troubleshooting
2 ) It doesn't show the BNil image in B Mode only:
If it is difficult to identify the specific failure as a result of checking each CHECK CODE
listed below, please replace this PCB.
.............................................
C51C6
3) Failure in the line correlation: (BW: B Mode)
3)-1 Occurrence changes depending on the line correlation setup:
.............................................
REPLACE PCB
4) Failure in the h u e correlation
4)-1 Occurrence changes depending on the W e correlation setup:
.............................................
5)
REPLACE PCB
Failure in US address
If it is difficult to identify the specific failure as a result of checking each CHECK CODE
listed below, please replace this PCB.
.............................................
C5
6 ) It doesn't show Lime Mode
If it is difficult to identify the specific failure as a result of checking each CHECK CODE
listed below, please replace this PCB.
.............................................
C5
7 ) Failure in the sweep speed
If it is difficult to identify the specific failure as a result of checking each CHECK CODE
listed below, please replace this PCB.
8)
Failure in the image display in Line Mode
If it is difficult to identify the specific failure as a result of checking each CHECK CODE
listed below, please replace this PCB.
9) Fdure in the physio signal display in Line Mode
If it is difficult to identify the specific failure as a result of checking each CHECK CODE
listed below, please replace this PCB.
.............................................
Dl
10) Failure in the overall ultrasound image
If it is difficult to identify the specific failure as a result of checking each CHECK CODE
listed below, please replace this PCB.
.............................................
C5lC6
11) Failure in the Cine Memory functions:
Occurrence changes depending on the use of Cine Memory functions:
.............................................
REPLACE PCB
MN2-2006 Rev.0
SECTION 6 Troubleshooting
12) Failure in the ultrasound image format:
If it is difficult to identify the specific failure as a result of ck~eckingeach CHECK CODE
listed below, please replace this PCB.
.............................................
C9
13) Failure in the lead zoom function:
.............................................
REPLACE PCB
14) Failure in the ultrasound image display function:
Image display in 2B Mode is not correct.
Image display at the time of using the PineJPong function is not correct.
.............................................
REPLACE PCB
15) Failure in the video replay image:
If it is diacult to identify the specific failure as a result of checking each CHECK CODE
listed below, please replace this PCB.
.............................................
C9lCI1
16) It doesn't display color VEL or POWER only in B Mode:
If it is difficult to identify the specific failure as a result of checking each CHECK CODE
listed below, please replace this PCB.
.............................................
C5lC71C8
17) It doesn't display color VAR only in B Mode:
If it is difficult to identify the specific failure as a result of checking each CHECK CODE
listed below, please replace this PCB.
.............................................
C51C71C8
18) It doesn't display color image only in M Mode:
If it is difficult to identify the specific failure as a result of checking eacb CHECK CODE
listed below, please replace this PCB.
.............................................
C5lC71C8
19) Failure in the overall color image:
If it is difficult to identify the specific failure as a result of checking eacb CHECK CODE
listed below, please replace this PCB.
.............................................
C5lC71C8
20) System doesn't start:
Please check LED operation:
Abnomal .................................... REPLACE PCB
MN2-2006 Rev.0
SECTION 6 Troubleshooting
21) It doesn't synchronize with TV monitor and the recording equipment:
If it is difficult to identify the specific failure as a result of checking each CHECK CODE
listed below, please replace this PCB.
.............................................
A5IC9lEl lE21E3
MN2-2006 Rev.0
SECTION 6 Troubleshooting
ID1
PSC
EP4468**
Please refer to "SECTION 4 System Operation Principle" for confirmation.
Failure- C
Physio signal display is not correct, or it doesn't display physio signal.
It displays physio signal only in M Mode or B M0de.M.
ECG Sync. is not functioning, or it doesn't refresh the image.
It doesn't display the heart mark
It doesn't output the synchronized sound for R wave.
This PCB has LED for operation check. Before you do following check, please refer 6-4-12 "LED
on P C B for normal operation check.
If the check proves to be normal, and if the failure is found in the PCB, please replace the PCB.
1) Physio signal display is not correct, or it doesn't display physio signal:
If it is difficult to identify the specific failure as a result of checking each CHECK CODE
listed below, please replace this PCB.
.............................................
2)
A1
It displays physio signal only in M Mode or B Mode:
If it is difficult to identify the specific failure as a result of checking each CHECK CODE
listed below, please replace this PCB.
............................................. C91C13
3)
ECG Sync. is not functioning, or it doesn't refresh the image:
If it is difficult to identify the specific failure as a result of checking each CHECK CODE
listed below, please replace this PCB.
.............................................
4)
C5/C13/D2
It doesn't display the heart mark:
If it is difficult to identify the specific failure as a result of checking each CHECK CODE
listed below, please replace tbis PCB.
.............................................
5)
C5/CQ/D2
It doesn't output the synchronized sound for R wave:
If it is difficult to identifl the specific failure as a result of checking each CHECK CODE
listed below, please replace this PCB.
.............................................
Cll/D2
MN2-2006 Rev.0
SECTION 6 Troubleshooting
I D2
Physio Amp
I
EP4801**
Please refer to "SECTION 4 System Operation Principle" for continuation.
Failure in the physio signal may be caused by the failure in the physio signal cable and clip. Please
check the cables always before checking the wave pattern.
Failure Caused by This PCB:
Failure in any of the physio signal, or it doesn't display the physio signal.
ECG Sync. is not functioning, or it doesn't refresh the image.
1)
Failure in any of the physio signal, or it doesn't display the physio signal:
1)-1
Is HUM FETER configuration correct?
yes.......................... 1)-2
N~
.......................... Set the HUM FILTER to main's frequency.
1)-2 Ifit is difficult to identi@the specific failure as a result of checking each CHECK CODE
listed below, please replace this PCB.
..........................................
2)
Dl
ECG Sync. is not functioning, or it doesn't refresh the image:
If it is difficult to identie the specific failure as a result of checking each CHECK CODE
listed below, please replace this PCB.
.............................................
C5/C13/D1
MN2-2006 Rev.0
SECTION 6 Troublesbooting
D3
VOL
I
EP4469**
Please refer to "SECTION 4 System Operation Principle" for confirmation.
Failure Caused by This PCB:
Failure in the VOL image.
0
1)
Failure in the probe servo for VOL.
Failure in the VOL image
If it is difficult to identify the specific failure as a result of checking each CHECK CODE
listed below, please replace this PCB.
.............................................
2)
C9lC13
Failure in the probe servo for VOL
If it is difficult to identify the specific failure as a result of checking each CHECK CODE
listed below, please replace this PCB.
.............................................
A4lC 10
h4N2-2006 Rev.0
SECTION 6 TmubIeshooting
IE l
I
BNV Printer
Firstly, please check if the power source voltage supplied to the B/W printer is correct by referring
to A3.
Secondly, please identify the failure is in the Ultrasonic Diagnostic Equipment or in the BIW
printer by referring the following CHECK CODE.
.............................................
c9/c111c13
MN2-2W6 Rev.0
SECTION 6 Troubleshooting
1E2
I
Color Printer
Firstly, please check if the power source voltage supplied to the color printer is correct by referring
to A3.
Secondly, please identify the failure is in the Ultrasonic Diagnostic Equipment or in the color
printer by referring the following CHECK CODE.
.............................................
CSICI 1IC13
MN2-2006 Rev.0
SECTION 6 Troubleshooting
E3
I
VCR
Firstly, please check if the power source voltage supplied to VCR is correct by referring to A3.
Secondly, please identify the failure is in the Ultrasonic Diagnostic Equipment or in VCR by
referring the following CHECK CODE.
.............................................
C9/Cll/C13
MN2-2006 Rev.0
SECTION 6 Troubleshooting
MN2-2006 Rev.0
SECTION 7 ADJUSTMENT
7-1 Attention
SSD-3500 is fully digitized machine, so there is no part requires to be adjusted
at the field.
** There are some potentiometers on several PCB but they don't need to
be adjusted so that you should not touch them.
MN2-2006 Rev.0
SECTION 7 ADJUSTMENT
(Blank page)
MN2-2006 Rev.0
SECTION 8 Performance Check
8-1 Introduction
Performance Check describes the checking items to maintain safety and quality of the equipment
under the following circumstances.
When the equipment is repaired.
0
When the equipment is modified to iix defect.
0
When the equipment is upgraded in order to improve functions/specifications.
0
Periodical checkup.
8-2 Attention
When you implement Performance Check, make sure that all covers are attached and under the
following conditions, unless otherwise specified.
*Power Switch has been ON for more than 30 minutes.
If you implement Performance Check after repair, modification, or upgrade, make sure the
following points.
0
All PCBs detached are correctly connected again.
0
All connectors detached are correctly connected again.
0
Replaced ROM or other parts are installed at the correct place(s) on PCB, especially, do
not mix up power pin and GND pin.
0
Do not leave the removed ROM in the equipment after replacement.
0
Tools and probe for measurement device are not left in the equipment.
Optional units and grounding wires are correctly installed.
Screws are not left inside the equipment.
8-3 Repair Report
After Performance Check, fill in the repair report and hand it to the user. Also keep a copy of the
report for your reference.
MN2-2006 Rev.0
SECTION 8 P e r f o m c e Check
8-4 Performance Check
The Items to be implemented as Performance Check are different depending on the task Identify
necessary items (The items with
0
mark) from the table below, and cany out Performance Cbeck
corresponding to the selected item(s). The t e r n used in the table below are defined as follows.
Power supply unit:
Power supply uniunif Isolation Transformer and Power Switch.
Other units:
Units other than Power supply, Physio Signal, Doppler, Mechanical Probe,
and PCB.
Function
Task Requires Checking
Check Items
Image I Safety
Qdty
I
Including the replacement
O ~ P C in
B the unit.
Parts replacement, modification, or
upgrade inside of Power supply unit.
Replacement of entire Power supply
0
nnit
Iparts reulacement. modification. or
upgrad; inside of Physio signal kt.
Replacement of entire Physio signal
Note
I
-
I
-
I
-
lhcluding the replacement
&the A t .
IO~PCB
Including the replacement
Refer to following pages for the details of above check items.
Functionality Check ........................................ 8 - 4 1 from 8-3 page
Image Quality Check ....................................... 8 2 , from 8-10 page
Safety Cbeck ............................................... 8 - 4 3 &om 8-13 page
" Cbeck it in accordance with Electrical Safety Check Manual (MN2-0204).
If you find any item that doesn't fulfill the specified perfomance or specification, it should be
judged as a failure. In that case, carry out the repair work referring to SECTION 6
"Troubleshooting".
I
MN2-2006 Rev.0
SECTION 8 Performance Check
8-4-1 Functionality Check
Check the performance of each function corresponding to each panel switch by operating the
Operation Panel.
1)
Checking of Panel Switch
If PCB is replaced around Panel, or Panel Switch is replaced, you need to check Key Top
(Cap) as well. If Key Top is dislocated, Switch might not work correctly.
Panel LED: Check in accordance with "Panel Test?' fiom Maintenance Menu to see all
LEDs are turned on correctly.
KEY BOARD
Check input status of all characters on keyboard including SPACE, BS, SHIFT,
RETURN, CAPS, ESC, and TAB.
COMMENT
: Move cursor using Track Ball.
ID
: Patient's ID number.
NEW PATIENT
: Reset ID, COMMENT, measurement functions and image
FUNCTION
:Check all functions assigned to full keyboard.
MODE (Freeze OFF)
Image should be displayed correctly by selecting B, M, D, PW, BIB, BM, BID, FLOW,
and POWER FLOW.
DEPTH /RANGE (Freeze OFF)
Image display should be magnifiedireduced in B-MODE.
VEL RANGE
(Freeze OFF)
Velocity speed should increase/decrease in DOPPLER and FLOW-MODE.
SELECT (Freeze ONlOFF)
Screen should be switched in B/*-MODE.
REC
(Freeze ON or OFF)
Recording equipment or function assigned by PRESET should work correctly.
INVERT (Freeze ONIOFF)
B-MODE image should flip horizontally when INVERT is ON in B-MODE.
IMAGE ROTATION
(Freeze ONIOFF)
B-MODE image should rotate 90-degree if STEEWROTATE is ON in B-MODE.
MN2-2006 Rev.0
SECTION 8 Performance Check
2)
Image Adjustment Function
Please check following items with Freeze OFF:
B-GAIN (Freeze OFF)
By turning B-GAIN knob in B/M MODE, it should be able to adjust both GAINS.
GAIN display should change 30 - 90.
M-GAIN (Freeze OFF)
By turning M-GAIN knob, it should be able to compensate GAIN for M MODE image.
GAIN display should change 30 - 90.
D-GAIN (Freeze OFF)
By 6
g D-GAIN knob, it should be able to adjust GAIN for Doppler Mode image.
GAIN display should change 00 - 60.
F-GAIN (Freeze OFF)
By turning F-GAIN knob, it should be able to adjust GAIN for FLOW MODE image.
GAIN display should change 00 - 32.
STC
(Freeze OFF, Depth: 24cm)
It should be able to adjust GAIN corresponding to each depth of B and M MODE
images.
When STC volume is all set to CENTER, there shouldn't be significant fluctuation in
sensitivity.
CONTRAST
(Freeze OFF)
On B/M-MODE image, it should be able to adjust CONTRAST for B and M MODE
images by using CONTRAST Switch.
RELIEF (Freeze OFF: B and M MODE Menu)
On BAGMODE image, it should be able to adjust the outtine enhancement for B and
M MODE images by selecting RELIEF from Menu and operating Left and Right
Arrow ( + and -+ ) keys.
AGC
(Freeze OFF: B and M MODE Menu)
-
AGC adjustment for B and M MODE images should be done by selecting AGC from
Menu and operating Left and Right Arrow (
FTC
and + ) keys on BIM-MODE image.
(Freeze OFF: M MODE Menu)
By selecting FTC from Menu on BMMODE image, it should be able to adjust the
outline enhancement of the image.
SMOOTHING
(Freeze OFF)
By selecting SMOOTHING @) from Menu in BIM-MODE, it should be able to
change the smoothness of B image.
IP SELECT
(Freeze OFF)
By selecting IP SELECT Switch and operating Rotary Encoder in B and M MODE
respectively, it should be able to change the image quality to hardlsoft.
8-4
MN2-2006 Rev.0
SECTION 8 Performance Check
8
IMAGEFREQ
(Freeze OFF)
By operating MAGE FREQ Switch in each mode, it should he able to switch Ultrasonic
Frequency.
8
ACOUSTIC POWER (Freeze OFF)
By selecting ACOUSTIC POWER and operating Rotary Encoder in B MODE, it should
be ahle to change the image semitidy.
8
ANGLE
(Freeze OFF)
By pressing ANGLE Switch in D-MODE, it should display the angle compensation mark.
By turning Rotary Encoder, it should he ahle to change the speed range in D MODE.
8
FRAME CORRELATION
(Freeze OFF: B MODE Menu)
By selecting FRAME CORRELATION from Menu on B-MODE image, it should be able
to adjust the level of frame correlation by operating Leftand Right Arrow ( t and + )
keys.
8
LINEDENSITY
(Freeze OFF: B MODE Menu)
By selecting LINE DENSITY from Menu on B-MODE image, it should be able to change
FRAMERATE to 3 levels by operating Leftand R@t Arrow ( t-- and + ) keys.
8
SWEEPSPEED
(Freeze OFF)
By selecting SWEEP SPEED on M-MODE image and rotating Rotary Encoder, it should
be able to adjust Lathe Speed.
8
ECHOERASE
(Freeze OFF: M MODE Menu)
By seIecting ECHO ERASE from Menu on M-MODE image, it should be able to erase MMODE image from the bottom to the middle of the image by operating Left and Right
Arrow ( + and + ) keys.
8
Capture Mode
(Freeze OFF)
By setting Capture Mode to ON for Flow1 by using MENU SW, it should refresh FLOW
image with a certain interval.
8
FRAMERATE
(Smoothing (Flow): 0, SMOOTH: HGH)
By setting FRAME RATE ACCELERATOR for Flow2 to ON by using MENU SW on B
(FLOW) image, it should change the link between frames of Flow image.
MN2-2006 Rev.0
SECTION 8 Performance Check
RJNCTION
Following functions should work correctly:
PROBE
(Freeze OFF)
By pressing Switch 1 or 2, it should he able to select the corresponding probe that has
been connected.
PRESET
(Freeze ONIOFF)
It displays PRESET MENU and starts selected PRESET.
It should be able to register PRESET on Set Up Menu screen.
PRESET should he saved if it is registered, and it should he available even after
power cycle.
a PHYSIO
(OPTION: PEU-3500 connected)
It should display Physio Menu when Physio Signal Unit is connected.
MENU (Freeze ONIOFF)
It displays Active Mode Menu automatically when Encoder Switch is pressed.
3)
MEASUREMENT Function
Following measurement function should work correctly:
DISTANCE
(Ereeze ON)
DISTANCE measurement should work correctly.
4)
TRACKBALL FUNCTION
Following measurement functions should work correctly:
CURS0RiB.L.S.
(Freeze OFF)
Cursor selected in B/M MODE should be displayed.
When track ball is operated, cursor should follow it in real-time speed and displays MMODE to where cursor is.
FOCUS (Freeze OFF)
By selecting FOCUS Switch in B MODE, Focus Mark on monitor should follow the
track ball movement, and it should change the focus point of the ultrasonic image.
BODY MARK
By selecting BODY MARK Switch, it should display BODY MARK on screen and
selected BODY MARK should he displayed on monitor.
MN2-2006 Rev.0
SECTION 8 Performance Check
8
SCAN AREA
(Freeze OFF)
Scanning zone should be narrowed and frame rate should increase by selecting SCAN
AREA Switch in B-MODE ,and by rotating Rotary Encoder anti-clockwise.
Steering by track ball should be enabled in the maximum view.
8
ZOOM (Freeze OFF)
By selecting ZOOM Switch in B-MODE, and by turning Rotary Encoder, it should be
able to minifylmagnify the image. (CW: Magnify, CCW: Minify)
Position shifting (up/domileWright) should be enabled by track ball.
5)
CINE MEMORY Function
8
SEARCH(Freeze ON)
After freeze in B M MODE, search on M image by track ball or B image by Rotary
Encoder should be enabled.
STOREIREVIEW (Freeze ON)
After operating track ball or Rotary Encoder in SEARCH status in B/M MODE, and
after saving (STORE) the displayed image, it should display Bh4 image of the saved
image by pressing REVIEW.
6)
DOPPLER Function
By referring Handling Manual, please check if following functions would work correctly:
8
SAMPLEVOLUME
By operating SAMPLE V O L W Switch in B D MODE, it should be able to change
the size of SAMPLE VOLUME.
8
DOPFTLTER
By operating DOP FJLTER Switch in BID MODE, it should be able to change the area
fiom where noise disappears around the baseline.
8
7)
DOPPLERMBW
FLOWPOWER FLOW Function
By referring Handling Manual, please check if following functions would work correctly:
MN2-2006 Rev.0
SECTION 8 Performance Check
8)
PHYSIO SIGNAL
(OPTION: PEU-3500 connected)
Connect Physio Unit, and connect Body or Simulator to ECG Cable to start following
Performance Check:
MODE
(Freeze OFF)
ECG waveform and HEART RATE should be displayed when ECG DISPLY from
MFBU is ON.
It sbould show ECG waveform on M image without unnecessaiy noise.
By operating each SENSE, it sbould he able to change amplitude of the wavefonn, and
by operating POSITION, it should move the waveform from the top end to the bottom
end of M image.
R-WAVE BEEP
(Freeze OFF)
By setting R-WAVE BEEP from MENU to ON, it should make beep sound
synchronizing with the rising of ECG waveform (Rwave).
ECG SYNC
(Freeze OFF)
By setting BISYNC MODE from MENU to ON, it should show SYNC Mark as ECG
waveform rises (R wave) and B image on the right should be refreshed synchronizing
with SYNC.
9)
Imaging Device
Please check following performance after making sure that the imaging device is correctly
connected:
By pressing Rec Switch on Imaging Device configured by PRESET, Shutter should work
and the same image as the one displayed on the monitor should be saved.
There shouldn't be distortion, wobble, or missing image once the image is stored.
There shouldn't be any error in color shade or color shift for the image recorded by color
printer.
10) VCR (OPTION: SVO-9500MD4 connected)
Please check following performance after making sure that SVO-9500MD4 is correctly
connected:
External Input
External input image from VCR should be displayed on the monitor by using EXT
Switch. The image displayed on the monitor should be correct without causing out of
sync or other failure.
FREEZE
VCR replay image freeze should occur by pressing FREEZE Switch.
MN2-2006 Rev.0
SECTION 8 Performance Check
Audio
It should recordireplay Audio correctly.
Remote Control
It should be able to control RECPause of VCR on Panel.
11) FOOT SWITCH (OPTION: MP-2614%connected)
Functions assigned by PRESET should work correctly.
12) TISSUE HARMONIC IMAGING
If TISSUE HARMONIC IMAGING is ON after connecting UST-9123 or UST-5299, it
should display Tissue Harmonic image.
MN2-2006 Rev.0
SECTION 8 Performance Check
8-4-2 Image Quality Check
In order to check quality of the ultrasonic image, please implement following Performance Check
by using tools such as Test Piece.
1)
Image Quality
Overall Image Quality
Condition: B MODE, GAIN (optional), STC Center, CONTRAST 4
Correct image should be displayed for the abdominal check. Image should be without
irregularity, noise or unnecessary insertion.
Please check all probes in use.
COINCHECK
Check the focus switching @1
F8) works correctly:
Condition: B MODE, DEPTH/RANGE 17 cm
Switch FOCUS to F1 and F8, and check. Apply jelly lightly on the probe transducer
surface, and place tbin metal bar at perpendicular position in the direction of probe
length, then move the metal bar slowly on the probe surface. Do this once with only
FOCUS F1 ON, and once with only FOCUS F8 ON.
Check if there is any missing echo or it is displayed at more than 2 places.
Also check the variable opening works correctly.
Check it with all probe connectors.
MN2-2006 Rev.0
SECTION 8 Performance Check
Noise Level
Condition:
Preset
: Abdomen
(IMAGE 1 : FRAME SMOOTHING : OFF)
Probe
: UST-9 123
Mode
:B
DEPTH I RANGE
: 17 cm
GAIN
:MAX
STC
: All CENTER
IMAGEiFREQ
: 3.8M
CONTRAST
:1
DVA
:0%
FOCUS (B)
: AUTO (1P)
AGC (B)
LLNE DENSITY
:0
HORIZONTAL SMOOTHING
: OFF
FlL4ME CORRELATION (B)
:0
SMOOTHING (B)
:0
BEAM PROCESSING
: SINGLE
POST PROCESSING
: SLOPE2
POST PROCESSING LEVEL, LOW
:0
POST PROCESSING LEVEL, HIGH
:20
: HIGH
With above conditions, whole of the ultrasonic image should be maximum white.
MN2-2006 Rev.0
SECTION 8 Performance Check
2)
General Performance Check
General Sensitivity
Probe: UST-9123
Check follows using Test Phantom RMI-103 or equivalent in B MODE.
t
Reflection echo of the 7m thread should be visible.
t
Actual echo should be visible longer than 1lcm .
Resolution
MODE: B
Use Test Target ASU-32-KG1 by ALOKA or equivalent, and measure the
recognizable minimum distance under water by visible observation. Adjust the distance
to probe in order to get the maximum solution to achieve following precisians:
t
Lateral Resolution: 3 mm or less
4
Axial Resolution: 2 mm or less
Display Precision
Use Test Target ASU-32-KG1 or equivalent, and measure the echo with 6Omm interval
under water (40°C +I- S°C) by using Caliper distance measuring equipment to find the
difference in the display precision. It should be within +/- 5%.
MN2-2006 Rev.0
SECTION 8 Performance Check
8-4-3
Safety Check
Please refer to Electrical Safety Test Manual (MN2-0204) that is available separately
to implement Safety Check.
o Important o
Safety Check is to test the electrical safety of the equipment.
Test method and standard values would vary depending on
the protection level against the electric shock.
In case of SSD-3500, the protection level against the electric
shock is in the category of "Applied Part BF Type".
MN2-2006 Rev.0
SECTION 8 Performance Check
MN2-2006 Rev.0
SECTION 8 Performance Check
SSD-3500 Check Sheet
Contimation
Check Item
No.
8-4-1
1)
Function Check
Performance Check for Panel Panel LED
-....................... Switch
KEY BOARD
.......... ..........-.
MODE
.......................
DEPTHRANGE
.......................
VEL RANGE
....... -............ SELECT
........................
REC
........................
INVERT
.......................
IMAGE ROTATION
Image Adjustment Function
B-GAIN
......................
2)
".
M-GAIN
......................
D-GAIN
......................
F-GAIN
.......................
STC
.......................
CONTRAST
.......................
RELIEF
"
1
Detail
Note
2
-.
......
.
-
.......
-..
.....
"
.
-..
".
.-.
--
-
---.
---.
.....
..---......--
-- ... --
-.. -..........
-. ....- --... .-..
".- -"
... ..........-..--...-.. .....
.
.
.
.
.
. .-.-"..-.
....
... -....... --.
.---.-.
..
..
---
.......................
-- ........
--..-. -.-
......................
......................
.
.
...
---- --
.. ......--..---.-.
.......................
.......................
....................
.......
......................
--
.
.
--
............
-.....--.--....
-- -.....
....................
....
......................
3)
....................
FUNCTION
.....................
I. ....................
.............
...
............---
.....................
,,
--...-
-...-..--.
........................
4)
..5) ............
..
.......-...
.....................
FRAME RATE
PROBE
PRESET
PHYSIO
.
-.. .-.........---... --...-..........--.... -(OPTION)
1-______
MENU
,
...
.,.....
MESURMENT Function
TRACK BALL Function
DISTMCE
cuRs0R1B.L.s.
FOCUS
BODY MARK
..........................
.
.
MN2-2006 Rev.0
SECTION 8 Performance Check
SSD-3500 Check Sheet
3)
Insulating Resistance Check
Earth Leakage Current
4)
Enclosure Leakage Current (a)
5)
Enclosure Leakage Current @)
6)
Patient Leakage Current
2)
Normal
Single Fault Condition
Normal
Single Fault Condition
Normal
Single Fault Condition
Normal
Single Fault Condition
MNZ-2005 Rev.0
SECTION 9 Disassembling
I
I
SSD-3500 Disassembling Instruction
I 1. Parts Identification
1 2. lndividual Unit Layout
[
3. Dismounting Flow Chart
1
4. Removing of Covers
1 5. Removing of Operation Panel [L-KEY-81i]
and the internal part of the Operation Panel
(
6. Removing of Sewndaiy [EP480000**1 and Primary [EU-60297 Power Supply Unit
1
7. Removing of parts of Primary Power Supply Unit [EU-6029'1
1
1
1 8. Removing of USM unit IUSM-27'1 and the motherboard [EP478800R*]
9. Removing of PC Boards of USM unit and the Fans.
(Except for the PC Boards [EP477500**, EP478600**])
-.
. .
n
(g
ofPC Board [EP47750OW,EP478600"l
..
="ing
of Junction Box [JB-269'1-270'1
.
..
.
.
.
. .. .
. -
.
.
... - -
1 12. Removing of Floppy Disk Drive and MO Disk Drive [MOU-3500*]
1
1 13. Removing of Physiological Signal Unit [PEU-3500*] and the related part
1 14. Removing of Printer and the Printer Loading Base
1 15. Removing of the Foot Switch [EP473202**], the Loudspeaker and the Power Switch
-1 16. ~ernovin~i
of MO~~~O~IIPC-I~~O*]
and the Tilting base[MP-IP15.l
2
...
.
.
.
.
-
..
.
.
MN2-2005 Rev.0
SECTION 9 Disassembling
I
1.Parts Identification (Exterior part)
Monitor
.
I
m2-2005 Rev.0
SECTION 9 Disassembling
I
2.lndividual Unit Layout (Inside part)
I
hfN2-2005Rev.0
SECTION 9 Disassembling
I
3. Dismounting Flow Chart
1
The disassembling procedure is based on the Dismounting Flow Chart. Follow the chart when you
disassemble SSD-3500.
Numbers indicated in this chart correspond to the No, in each section.
MN2-2005 Rev.0
SECTION 9 Disassembling
4-1 Removhg of Right Side .Cover
Unfasten 2 screws, shift the right side cover
backward and remove it.
4-2 Removing of Leff Side Cover
Unfasten 2 screws, shiff the left side cove1
backward and remove it.
BNK3xlOFe,Ni, 2
MNZ-2005 Rev.0
SECTION 9 Disassembling
MN2-2005 Rev.0
SECTION 9 Disassembling
Loosen 2 screws, shift the protection plate
toward right and remove it.
Pay attention to the upperllower and
frontlback side of the plate otherwise you
cannot fix the covers.
-&&&& 4,$j
~.
., .,. .,.,
Remove the cable cover by pushing the hook.
cab,e
:cdvei
MN2-2005 Rev.0
SECTION 9 Disassembling
MN2-2005 Rev.0
SECTION 9 Disassembling
4-7 Removingafambr Am, Pdnd Base and Arm Covet
) Remove the cables from the monitor
arm. (Fixed with 2 clamps)
Bolt of the Upper Left
Monitor Arm
2) Unfasten 1 screw, and remove the ear@
cable from the panel base.
3) Unfasten 4 hexagonal cap screws and
remove the monitor arm from the panel
base.
'The monitor arm and the panel base may
fall off from the elevator arm when you
remove the bolts because those parts are
fixed together.
Be careful not to drop them when you
work for it. (It is better to remove the bolt
at the upper left comer in the end)
4) Remove the panel base from the
elevator arm.
5) Pull the arm cover up strongly from the
top cover and remove it. (it is tightly
fixed with the hook)
* Be sure to keep the length of each cable
from the top end of the elevator arm as
below.
Foot switch cable, signal and power
supply cable for the operation
panek21Omm
Signal and power supply cable for the
monitor: 850mm
MN2-2005 Rev.0
SECTION 9 Disassembling
Disconnect the cables from the
connector panel, then remove the foot
switch cable, too.
Connectors to be unplugged
[P50, P61, P820, P4121
Connector Plate
2) Remove all the cables, which go into
the elevator arm, from the clamps.
MN2-ZOOS Rev.0
SECTION 9 Disassembling
r
Elevator Arm
) Unfasten the hexagonal cap screw at the front
side of the machine and 2 hexagonal cap screws
at upper part of the arm fixture.
Loosen 1 hexagon cap screw at the bottom of the
arm fixture andpull the elevator arm up.
.) Pull the elevator arm until the ratchet emerged
from the elevator hole and then fix the screw,
which is loosened beforehand with tuming the arm
fixture upside down.
Unfasten the hexagonal cap screw from the
ratchet with holding it (in order to prevent it falls
down) and then remove the screw.
i) Remove the ratchet.
Do not drop the nut from the bottom of the ratchet.
;) Unfasten the screws tightened in 4) and remove
the elevator arm.
/
Arm Fixture
HB6x20 ZMC4.3
* Be sure to keep the length of each cable fron
the top end of the elevator arm as below.
Foot switch cable, signal and power supply
cable for the operation paneI:2lOmm
MN2-2005 Rev.0
SECTION 9 Disassembling
MN2-2005 Rev.0
SECTION 9 Disassembling
Jnfasten 8 hexagonal cap screws, and remove the
op cover. (4 screws around the elevator arm and
)ther 4 are underneath of the top cover)
MN2-2005 Rev.0
SECTION 9 Disassembling
5-1 Removing of Operation Pane$
) Push the middle of probe holder to unhook
it from the operation panel and remove it.
Operation Panel
v
0
!) Remove the printer(s).
(Refer section: 14-1, 14-2)
I)Unfasten 3 screws under the operation
panel.
Probe HoEder
/
I)Open the operation panel about 70Q,and
then disconnect all connectors from the
PC board.
) Connectors to be unplugged
[P400, P411, P4121
5) Lift the operation panel off.
Operation Panel
MN2-2005Rev.0
SECTION 9 Disassembling
1) Remove the knobs shown in the figure.
2) Unplug the connectors from the PC
board and the trackball.
* Disconnect the connector [P413] in the
case if the physiological signal unit is
installed.
0Connectors to be unplugged.
[P603, P3, P2, (P413)l
CNK3x6 Bs. 18
3) Unfasten 18 screws, and remove the
switch PC board.
MNZ-2005Rev.0
SECTION 9 Disassembling
5-23 Removing ofSTI= P C Board
1) Remove 8 STC knobs.
0
2) Unfasten 2 screws and 2 supports, and
remove the STC PC board.
1 STC Knob
5 4 Removing of Tradcball,
f
f
1) Unplug the connector from the
to be unplugged.
screws and remove the
@
\
B Tight 5 ~ 8 ~ 2
MN2-2005 Rev.0
SECTION 9 Disassembling
6. Removing of Secondary [EP480000"] and Primary [EU-60297 Power Supply Unit
6-1RemoVing &Cover of Secondary Power Supply Unitnit and the Fan
1) Unplug all connectors from the
secondary power supply unit.
0Connectors to be unplugged
[P831&2, PBIO]
2) Remove all cables from the cover of
secondary power supply unit.
(Fixed with 6 clamps)
'Remove the cable, which fixed witf
earth clamp too.
MN2-2005 Rev.0
SECTION 9 Disassembling
P851
3) Unfasten 1 screw and remove the
connector cover.
4) Unfasten 5 screws, pull the unit
cover carefully and unplug the
connector: [P851],and then remove
BNK3x8 Fe,Ni, 5
5) Unfasten 2 screws, and remove the far
from the cover of secondary power
supply unit.
MN2-2005 Rev8
SECTION 9 Disassembling
6-2 Remodngof PPC:Board EP4SOOOOT[S-ndary
Power Supply Unit)
1) Unplug the cables from the
motherboard [EP478800**]
0Connectors to be unplugged
[P150, P803, P804]
2) Unfasten 4 screws and 4 supports, and
remove the PC board [EP480000**].
A: supports (585.5-54)
0:
Screws (CNK3xSFe,Ni)
MN2-2005 Rev.0
SECTION 9 Disassembling
6-3Removingof Prjmary Power Sopply 'Unit fEt&6OB7
< Left side of the machine >
1) Unfasten 2 scxews at both sides of the
primary power supply unit [EU-6029'1 .
1
2) Unfasten 2 screws from the bottom cover
1
and remove the unit.
"The primary power supply unit falls when
the screw is removed and it would
damage floor and/or screws.
In order to avoid an accident, hold the
bottom of the unit when you unfasten 2
screws from the bottom cover.
of the machine >
\
Prima Power Supplv Unit
lEU-6r29*l
MN2-2005 Rev.0
SECTION 9 Disassembling
r
7. Removing of parts of Primary Power Supply Unit [EU-6029*]
7-1 Removing ol: PC %ardEP4799m?
1) Unplug the cable from the PC board
[EP479900**].
3 Connectors to be unplugged.
[P807]
2) Unfasten 4 screws and remove the
PC Board [EP479900**]
I
MN2-2005 Rev.0
SECTION 9 Disassembling
I Remove the
power cable clamp from the power
supply cable.
I Cut the power cable clamp at the edge of the hole
and remove it.
Removed power cable clamp can not be reused.
Push new power cable clamp into the hole strongly
o install it.
Power supply cable
MN2-2005 Rev.0
SECTION 9 Disassembling
Loosen 2 screws and remove the cover.
MN2-2005 Rev.0
SECTION 9 Disassembling
1
I
8. Removing of USM unit [USM-27*] and the motherboard [EP478800H]
then
Unit Cover
!) Unfasten 8 screws,
7
MN2-2005 Rev.0
SECTION 9 Disassembling
1) Disconnect the fan cable from the
secondary power supply unit.
OConnectors to be unplugged
[PSIO]
2) Disconnect 5 cables from the PC board.
0
OConnectors to be unplugged
[P812, P811, P70, CN7, CNIO]
3) Lift the unit cover upward and remove it.
MN2-2005 Rev.0
SECTION 9 Disassembling
Connector Panel
4) Unplug all connectors from the
connector panel.
Earth Clamp
/
MN2-2005Rev.0
SECTION 9 Disassembling
6) Unplug all connectors from the
motherboard.
0Connectors to be unplugged
[P804 P803, PI501
7) Unfasten 6 screws and remove the
USM unit.
BNK3x8 Fe,Ni, 3
MN2-2005Rev.0
SECTION 9 Disassembling
8-3 Removing of Mo%erboard
1) Remove all PC board from the USM unit,
Motherboard
(Refer section: 9-1,lo-?,lo-2)
2) Unfasten 24 screws and remove the
motherboard [EP478800**].
MN2-2005 Rev.0
SECTION 9 Disassembling
9. Removing of PC Boards of USM unit and the Fans.
(Except for the PC Boards [EP477500L, EP478600**])
9-1 Removing of PC Boards of USM Unit
/EP483701**,EP478700**and EU-90901
Remove the PC board.
\PC Board
/In the case of [EP477600**,~~483701*"/
knd ~~478700'*1
1) Unfasten 2 screws and remove the PC board
1
MN2-2005 Rev.0
SECTION 9 Disassembling
/inthe case of [ E U - ~ O ~ O ~
1) Disconnect 2 cables from the PC boarc
[EU-90901.
0Connectors to be unplugged
ICN7, CNIO]
/ CN7
\
CNlO
2) Remove the PC board [EU-90901.
-
MN2-2005 Rev.0
SECTION 9 Disassembling
9-2 Removingof Fans
/in the case of removing each fad
)
'
Unplug the connector of the fan, which is
going i o be removed.
) Unfasten the screws on the inner side of the
unit cover and remove the fan.
Following are the screws to be unfastened.
'Mew from the inside of the unit cover.
Leff (Marked with [7 ) ......3 screws
Center(Marked with A ... .2screws
Right (Marked w i t h 0 ) ......3 screws
.
/ln the case of removing all fans /
/(Includethe cabled
I ) Unplug the cable of the fan from the
secondary power supply unit.
)Connectors to be unplugged
[PSI 01
MN2-2005 Rev.0
SECTION 9 Disassembling
2) Remove the fan cables from the unit
cover. (Fixed with 1 damp)
Clamp
/
\
0
\ Fan Cable
3) Unfasten 8 screws and remove the fans.
/
Fan, 3
B Rght 5x10,
MN2-2005 Rev.0
SECTION 9 Disassembling
1
10. Removing of PC Board [EP47750OW, EP478600**]
1) Unfasten 2 screws and remove the PC
board [EP478700*7.
:) Unfasten 12 screws on the front side of the USM
unit.
Pay attention to the screws to unfasten because they
changed from certain SIN.
I) Remove the
USM unit.
PC board [EP477500**] from the
S3x8 Fe,Ni, 2
BNK3x8 Fe,Ni, 10
Machine of SlN:M00101 -MOO120
-Machine of S/N:M00121-
I
MN2-2005 Rev.0
SECTION 9 Disassembling
MN2-2005 Rev.0
SECTION 9 Disassembling
.) Unfasten 12 screws on the rear side of
the USM unit.
i) Remove
from the
MN2-2005 Rev.0
SECTION 9 Disassembling
1
11. Removing of Junction Box [JB-269'1-270'1
(
11-1 Rmovjng of Jun~tionBox
JB-269*/270*
1) Disconnect all cables from the JB-269'1-270".
>
Connectors to be unplugged
Remove the cables of recording device(s)
from the junction box if recording device(s)
Power Supply Cables for
P805
MN2-2005 Rev.0
SECTION 9 Disassembling
1
12. Removing of Floppy Disk Drive and MO Disk Drive [MOU-3500*]
12-1 Removing of Floppy Efisk Drkre
) Disconnect the cables from the floppy
Floppy Disk Drive
disk drive at the inside of the unit cover.
Floppy Disk Drive
Signal Cable
Unit Cover
\
/
2) Unfasten 4 screws and remove the floppy
disk drive.
I
MN2-2005 Rev.0
SECTION 9 Disassembling
1) Disconnect the cables from the MO disk
drive at the inside of the unit cover.
7
1
MO Disk Drive,
Unit Cover
+@
/
0
MO Disk Drive
MO Disk Drive
Signal Cable
\
MNZ-2005Rev.0
SECTION 9 Disassembling
1 13. Removing of Physiological Signal Unit [PEU-3500*] and the related part I
) Disconnect the cable of the physiological
signal unit from the PC board.
)Connectors to be unplugged
P701
%-.
I
Unit Cover
/
2) Unfasten 1 screw.(Marked with 0)
Physiological
Signal Unit
3) Loosen 1 screw at front side of the unit
\
cover. Draw the physiological signal
unit out with sliding the screw toward
front side. (Marked with 17)
4) Unfasten the loosened screw and
remove the physiological signal unit.
\ Unit Cover
MN2-2005 Rev.0
SECTION 9 Disassembling
.. -..
-
..
-
.
=
-
--
.-.-
.
13-2Removing of Potentiometer for Physiological Signal
1) Remove 2 knobs from the operation
panel (surface).
2) Disconnect the cables of potentiometer from
the PC board.
Operation Panel (Back)
l'-----
I
0Connectors to be unplugged
[P4131
3) Unfasten 2 screws and remove the
-
MNZ-2005 Rev.0
SECTION 9 Disassembling
)
14. Removing of Printer and the Printer Loading Base
/lnthe case of SSZ-309/
1) Unfasten 2 screws from the bottom of
the loading base. Shift the printer towarc
front of the machine.
2) Disconnect all the cables from the
printer at the window of loading base,
and remove the printer.
1) Unfasten 2 screws from the bottom of
the loading base. Shift the printer toward
Window of
front of the machine.
2) Disconnect all the cables from the
printer at the window of loading base,
and remove the printer.
I
MN2-2005Rev.0
SECTION 9 Disassembling
3) Loosen 2 screws, and unfasten other
2 screws, then slide the printer base
toward front of machine, and remove it.
MN2-2005 Rev.0
SECTION 9 Disassembling
14-2 R e m d n g af War Printer
) Unfasten 2 screws and remove the
connector cover from the printer base.
MN2-2005 Rev.0
SECTION 9 Disassembling
3) Unfasten 2 screws, and remove the colo
4) Loosen 2 screws, and unfasten other
2 screws, then slide the printer base
toward front of machine, and remove it.
BNK4xlOFe,Ni, 2
(UnfastenScrews)
MN2-2005 Rev.0
SECTION 9 Disassembling
1
15. Removing of the Foot Switch [EP473202"], the Loudspeaker and the Power Switch
) Disconnect the cable from the foot
PC board [EP473202**].
) Connectors to be unplugged
[P412]
?)Unfasten 1 screw and remove the
earth cable.
\ Earth Cable
3) Remove the fixture ring and remove the
PC board [EP473202**].
I
MN2-2005 Rev.0
SECTlON 9 Disassembling
15-2Removing ef Loudspeaker
Connector Panel
1) Unplug the connector from the
connector panel.
()Connectors to be unplugged
P27I
3) Loosen 2 screws, shift the potentiometer
upward and remove it.
II
MN2-2005 Rev.0
SECTION 9 Disassembling
5 ) Loosen 2 screws and remove the
potentiometer from the fixture.
/-@-
Only SIN MOO101
BT2x2,2
(Use hexagonal wrench
[M0.89])
MN2-2005 Rev.0
SECTION 9 Disassembling
MNZ-ZOO5Rev.0
SECTION 9 Disassembling
1 16. Removing of Monitor [IPC-1550wnd the Tilting base [MP-IP15*]
164 Removing of Monitor
1) Unfasten 2 screws and remove the power
cable protector.
0
Power Cable
2) Disconnect the power cable.
Power Cable Protector
Loosen 2 screws of the connector,
and disconnect the video signal cable.
Screws to loosen, 2
Video Signal Cable
/
1
MN2-2005 Rev.0
SECTION 9 Disassembling
MNZ-2005 Rev.0
SECTION 9 Disassembling
$6-2Removingof Manitor
Rear Cover
1) Unfasten 1 screw and remove the
earth cable from the fixture.
2) Unfasten 8 screws and remove the
fixture from the monitor.
B Tight 4x16,4
7
/
3) Unfasten 4 screws and remove t h ~
monitor rear cover.
* Be careful not to pull the earth cable
on the bottom side.
MNZ-2005 Rex0
SECTION 9 Disassembling
Unfasten 4 screws from the monitor
arm and remove the tilting base.
^
Be careful not to drop it on the machine
or floor.
MN2-2006 Rev.0
SECTION 9 Disassembling
MN2-2006 Rev.0
ECTION 9 Disassembling
SECTION 9 Disass~
MN2.2006 Rev.0
SECTION 9 Disassembling
MN2-2006 Rev.0
SECTION 9 Disassembling
MN2-2006 Rev.0
SECTION 9 Disassembling
(Blank page)
MN2-2006 Rev.0
SECTION 9 Disassemblimz
MN2-2006 Rev.0
SECTION 9 Disassembling
MN2-2006 Rev.0
SECTION 9 Disassemble
(Blank page)
Disassembl
MN2-2006 Rev.0
SECTION 9 Disassembling
SECTION 9 Disassembl
MN2-2006 Rev.0
SECTION 9 Disassembling
MN2-2006 Rev.0
SECTION 9 Disassembling
SECTION 9 Disae embling
MN2-2006 Rev.0
SECTION 9 Disassembling
-
',
MN2-2006 Rev.0
SECTION 9 Disassembling
MN2-2006 Rev.0
SECTION 9 Disassembling
I
MN2-2006 Rev.0
SECTION 9 Disassembling
MN2-2006 Rev.0
SECTION 9 Disassembling
MN2-2006 Rev.0
SECTION 10 Parts List
10-1 Index of Parts List
The spare parts in this list are classified by the section of the machine so that you need to find the section
that the spare parts, which you are looking for is belonging, &om the figure below. Then look into the
page that is represented by the INDEX number.
I
MONITOR
SEE INDEX 07
MAIN BODY
SEE INDEX 01
SEE INDEX 09
SEE INDEX 10
MN2-2006 Rev.0
SECTION 10 Parts List
10-2 Application of the Parts List
The Parts List is the list of spare parts that are for maintenance/service.
The part numbers are (PARTS No.) therefore, only valid for the purpose of maintenancehervice.
When you order a spare part that is in the list, contact with the person in charge at the technical
support.
You should not refer the description of this list unless it is the maintenanceiservicepurpose.
10-3 Outline o f the Parts List
It has the parts that are selected as necessary spare for rnaintenancdservice and describes them by
the illusuation and tbe list. The spare parts are selected based on the criteria below.
The exterior parts, such as covers and connector panel.
The parts mechanically moving and have possibility of breaking down.
Cable harness
Except the cables that are wired directly to other parts.
Potentiometer on the exterior and such p& that are considered to have higher defect rate.
General-purposeparts, like screws and cable clumps.
However, they are not described in the illustration.
Other parts than above that are considered as necessary for maintenanceiservice.
hCN2-2006 Rev.0
SECTION 10 Parts List
10-4
How to read the Parts List
The Parts List is classified into several sections (INDEX) and each section consists of the illustration
and the list.
]Index number linked to
I
Range of serial numbers to app
Model name of Index
Description of Index
6
MAINBODY
2
A120026
PSC-116#7
INTERMEDIATE DECK COVER
2
A120027
PSC-116#7B
INTERMEDIATE DECK COVER 6200031-
3
&00041
&CABLE-216
CABLE:J705-J607
]pa.
&=ription faeach itern
\ \
-6200030
OPTION
e
I,.? ...........................................
..........................................
I
..................................................... L . . j ~ a r number
t
for each itan1..........................................................................................................................
21
A120033
INDEX
PSC-1 16#8
PROBEHOLDER
It is the number of each section that is classified It also represents the section of a
machine that is described in the figure at the top page.
It shows the part number of the part or unit with this INDEX. If there is the same
unit made, they are distinguished by this part and the " S W part.
SIN
When the unit of this INDEX revised into another version, it is distinguished in the
UMlT md Sib! indicates the time of change.
MN2-2006 Rev.0
SECTION 10 Parts List
ITEM
This is the number that relates the illustration and the list.
CODE No
This is the code that correspond to each parts.
However, it is not used at the moment (Jan. 2003), for ordering a part.
PARTS No This is the part number.
SERIAL No It indicates the applicable serial number of the machine with the part.
xxxxx- indicates that the part is applicable to the S N and later, -xxxxx indicates that
the part is applicable to the S N and before. It represent that the part is applicable to
whole range if there is no indication.
SPEC
This is the note that describes special spec., difference of destinations etc..
10-5 Caution
0
Do not use this Parts List with the one that is older version.
There would be some discrepancies between this List and older one that the same part
would have different part number. Therefore, use latest Parts List.
Refer to the History of Improvement when you need to order an "UNIT''.
The Parts List doesn't describe the version of the "UNIT" (Or the "version" is not
appropriate) so that you need to refer to the History of Improvement when order an UNIT.
MN2-2006 Rev.0
SECTION 10 Parts List
10-6 Parts List
This is the Parts List from next page and it is described by each INDEX. For the classification of the
INDEX, refer the figure at page 10-1.
MN2-2006 Rev.0
SECTION 10 Parts list
101 /MAIN BODY
I USI-152
mi
MN2-2006 Rev.0
SECTION 10 Part6 hst
01 MAIN BODY
USI-152
FJN
MN2-2006 Rev.0
SECTION 10 Parts list
101 1 MAIN BODY
I USE-152
m
MNZ-2006 Rev.0
SECTION 10 Parts list
INDEX
01
MAIN BODY
UNIT
1 A110255 SAP-3500-01-01
COVER: FRONT
2 A120302 USE-152%
COVER: RIGHT SIDE
3 A110256 SAP-3500-01-02
COVER: LEFT SIDE
4 A120303 USI-152#4
CABLE COVER
5 A120304 USI-152%
PROBEHOLDER
6 A650007 DL5-260R
DUMMY CONNECTOR
7 A110257 SAP-3500-01-03
FOOT BASE
8 A110256 SAP-3500-01-04
TOP COVER
9 A110259 SAP-3500-01-05
PANEL BASE
10 A110260 PSC-137-1#4
MONITORARM
11 A100470 PSC-137-1#9
POWRE SWITCH FIXTURE
12 A611290 1552.3105
POWER SWITCH
13 A100471 PSC-137-1#10a
SPEAKER FIXTURE
14 A624012 C091P03D0010
SPEAKER
15 A100472 PSC-137-1#ll
VOLUME KNOB FIXTURE
16 A200873 SP-4119
VOLUME KNOB
17 A623087 RV16YN20RB103
VOLUME (POTENTIOMETER)
18 A100473 PSC-137-1#12
FOOT SWITCH FIXTURE
19 A802687 EP47320ZS*
FOOT SWITCH PCB
20 A120305 SAP-3500-01-06
ARM COVER
21 A110261 PSC-137-2#1
ELEVATOR ARM
22 A110262 PSC-137-2#3
ARM FIXTURE 1
23 A110263 SAP-3500-01-07
BNV PRINTER BASE
24 A110264 SAP-3500-01-08
COLOR PRINTER BASE
25 A110265 SAP-3500-01-09
26 A650008 DC125BPlNY529U
COLOR PRINTER
CONNECTOR COVER
CASTER WITH LOCK
27 A201558 DC125DBPlNV529U
CASTER: WITH SWIVEL LOCK
SIN
USI-I52
MNZ-zoo6Rev.0
SECTION 10 Parts list
INDEX
01
UNIT
MAIN BODY
.
.
28 A100474 SAP-3500-01-10
29 A100475 SAP-3500-01-11
30 A100476 USM-27#16
31 A100477 SAP-3500-01-12
32 A110266 L-ki-854
33 A140123 MPNG00025U
34 A110267 PSC-137-2#7
SIN
USI-152
COVER
PHYSIOLOGICAL SIGNAL UNIT
COVER
PROTECTION PLATE
BLIND COVER for VOL UNIT
CONNECTOR
CABLE HANDLE
BLIND CAP
ARM FIXTURE 2
MN2-2006 Rev.0
SECTiON 10 Parts list
102 1 OPERATION PANEL
I L-KEY-81
$ni
MN2-2006 Rev.0
SECTION 10 Parts list
1 02 1 OPERATION PANEL
I L-KEY-81
sm
MN2-2006 Rev.0
SECTION 10 Parts list
102 1 OPERATION PANEL
I L-KEY41
5,N
MNZ-2006 Rev.0
SECTION 10 Parts list
UNIT
INDEX
02
OPERATION PANEL
1 A201671 L-KEY-81
OPERATION PANEL
2 A110268 SAP-3500-02-01
MAIN PANEL CASE ASSY
3 A650009 L-TB-11
TRACKBALL
4 A120306 USI-152#ll
MENU KNOB
5 A510056 SP-4126
KNOB (L)
6 A510062 S P 4 3 1
KNOB
7 A650010 L-FULLKEY-2002
FULL KEYBOARD
8 A650011 S-N376-1017
LIGHT GUIDE
9 A100478 SAP-3500-02-02
BLIND PANEL
10 A510058 SP-4129
STC KNOB
11 A623073 EWAPFEX15B53
STC POTENTIOMETER
12 A611291 MA22001
PADDLE SWITCH
13 A618021 L-RE4
ENCODER
-
14 A618018 ECl6B24204
ENCODER
15 A611292 EC12E2424407
ENCODER (WITH SWITCH)
16 ~ 8 0 2 7 7 1SW-ASSY
SW-PCB
17 A802772 STC-ASSY
STC-PCB
18 A611293 SHM-425
SWITCH
19 A616051 BPKTO35L
SWITCH LED
20 A616052 BPKT036L
DOUBLE KEY SWITCH LED
21 A611294 KEY-A-L. PROBE1
KEY TOP: PROBE1
22 A611295 KEY-A-k PROBE2
KEY TOP: PROBE2
23 A611296 KEY-A-L: EXT
KEY TOP: EXT
24 A611297 K W - L :
NEW PATIENT
25 A611298 KEY-B-L: PRESET
KEY TOP: NEW PATIENT
KEY TOP: PRESET
26 A611299 KEY-A-L:
KEY TOP: FRAME RATE
FRAME RATE
27 A611300 KEY-A-L: I.P. SELECT KEY TOP: I.P. SELECT
SIN
L-KEY-El*
MN2-2006 Rev.0
SECTION 10 Parts list
INDEX
02
UNIT
OPERATION PANEL
28 A611301 KEY-A-L:
--
L-KEY-81*
KEY TOP: ACOUST POWER
ACOUSTIC POWER
29 A611302 KEY-A-L:
SWEEP SPEED
30 A611303 KEY-A-L: ANGLE
KEY TOP: SWEEP SPEED
KEY TOP ANGLE
31 A611304 KEY-A-L: SEARCH
KEY TOP: SEARCH
32 A611305 KEY-A-L: USER 1
KEY TOP: USER 1
3- 3 A611306 KEY-B-L:
CURSOR/B.L.S.
34 A611307 KEY-B-L: FOCUS
KEY TOP: CURSORf3.L.S.
~
SIN
KEY TOP: FOCUS
35 A611308 KEY-B-L:
KEY TOP: BODY MARK
BODY MARK
36 A611309 KEY-B-L: SCAN AREA KEY TOP: SCAN AREA
37 A611310 KEY-B-L: ZOOM
KEY TOP: ZOOM
38 A611311 KEY-B-L: (Blank)
KEY TOP: (Blank)
39 A611312 KEY-A-L: REVIEW
KEY TOP: REVIEW
40 A611313 KEY-A-L: USER 2
KEY TOP: USER 2
41 A611314 KEY-B-L: c
KEY TOP: +
42 A611315 KEY-A-L: STORE
KEY TOP: STORE
43 A611316 KEY-A-L: CLEAR
KEY TOP: CLEAR
44 A611317 KEY-B-L:
KEY TOP: MEASURE MENT
MEASUREMENT
45 A611318 KEY-A-L: PRINT2
KEY TOP: PRINT2
46 A611319 KEY-A-L: REPORT
KEY TOP: REPORT
47 A611320 KEY-B-L: SET
KEY TOP: SET
48 A611321 KEY-C-L: PRINT1
KEY TOP: PRINT1
49 A611322 KEY-C-L:
KEY TOP: MARK REF
MARK REF
5 0 A611323 KEY-B-L: CANCEL
KEY TOP: CANCEL
51 A611324 KEY-A-L:
4
KEYTOP:
4
52 A611325 KEY-A-L:
D
KEYTOP:
D
53 A611326 KEY-A-L: ACQUIRE
KEY TOP: ACQUIRE
54 A611327 KEY-A-L: INVERT
KEY TOP: INVERT
MN2-2006 Rev.0
SECTION 10 Parts list
INDEX
02
OPERATION PANEL
55 A611328 KEY-A-L:
STEERIROTAT
56 A611329 KEY-A-L: D.D.D.
UNIT
KEY TOP: STEEWROTAT
KEY TOP: D.D.D.
57 A611330 KEY-A-L: HARMONIC KEY TOP: HARMONIC ECHO
ECHO
58 A611331 KEY-B-L: B
KEY TOP: B
59 A611332 KEY-B-L: M
KEY TOP: M
60 A611333 KEY-B-L: D
KEY TOP: D
61 A611334 KEY-B-L:
POWER KEY TOP: POWER FLOW
FLOW
KEY TOP: B I B
62 A611335 KEY-B-L: B I B
63 A611336 KEY-B-L: B I M
KEY TOP: B I M
64 A611337 KEY-BL: B D
KEY TOP: B ( D
65 A611338 KEY-BL: FLOW
KEY TOP: FLOW
66 A611339 KEY-B-L: SELECT
KEY TOP: SELECT
67 A611340 KEY-A-L: (Blank)
KEY TOP: (Blank)
68 A611341 KEY-B-L: REC
KEY TOP: REC
69 A611342 KEY-C-L: FREEZE
KEY TOP: FREEZE
SIN
L-KEY-81'
MN2-2006Rev.0
SECTION 10 P&
03
list
1 POWER SUPPLY UNIT
PSU-S3500
SiN
MN2-2006 Rev.0
SECTION 10 Parts list
103
/ POWER SUPPLY UNIT
I PSU-S3500
SIN
MN2-2006 Rev.0
SECTION 10 Parts list
103
1 POWER SUPPLY UNIT
I PSU-S3500
SiN
MN2-2006 Rev.0
SECTION 10 Parts kt
INDEX
03
POWER SUPPLY UNlT
1 A201672 SAP-350043-01
UNIT
SIN
PSU-S3500
3 A100454 L-CN-3B
PRIMARY
POWER SUPPLY UNlT
COVER of VOLTAGE
CHANGEOVER SWITCH
GROUNDING TERMINAL
4 A802773 EP4799WN
AC POWER SWITCHER
5 A650012 NC-174-10N-EF4.8
AC INLET
6 A650013 ACCD86AS
CLAMP for POWER CABLE
7 A030100 CP-116
POWER SUPPLY CABLE
FOR 100-12OV
8 A030101 CP-117
POWER SUPPLY CABLE
FOR 200-230V
Q A802774 EP480000N
DC REGULATOR
-7
A110269 EU-6029#2
10 A110270 SAP-3500-0302
11 A100479 USl-152#7
COVER of SECONDARY
POWER SUPPLY UNlT
CONNECTOR COVER
12 A650014 FBAO8T12L
FAN
13 A621076 218.500
FUSE
14 A621051 326008
FUSE
MN2-2006 Rev.0
SECTION 10 Parts list
104
1 JUNCTION BOX
1 JB-2691270
SiN
MN2-2006 Rev.0
SECTION 10 Parts list
INDW
04
JUNCTION BOX
UNIT
SIN
JB-2691270
1 A201673 JB-269
AC OUTLET
FOR 100-120V
2
AC OUTLET
FOR 200-240V
A201674 JB-270
MNZ-2006 Rev.0
SECTION 10 Parts list
[ 05 1 USM-27 UNIT
I USM-27
S/N
MN2-2006Rev.0
SECTION 10 Parts list
105
1 USM-27 UNIT
I USM-27
SM
MN2-2006 Rev.0
SECTION 10 Parts list
INDEX
05
USM-27 UNlT
SIN
UNIT
1 A802775 EP478800L*
MOTHER BOARD
2 A897009 FD-235HFA591
FDD
2 A650015 JU-256A178P
FDD
3 A802776 EP477500**
Fmnt End
4 A802777 EP477600"
Trig ITF
5 A802778 EP483701N
TX BEAM FORMER (DBF)
6 A802779 EP478700"
RX CONNECT
7 A802780 EP478400*'
DBP
8 A802781 EP481000e*
TX RX CONTROL (DBF CNT)
9 A802692 EP476000"
CFP
10 A802693 EP476100M
SDP
11 A802696 EP476900**
CMB
12 A802694 EP476600"
VPU
13 A201675 EU-9090.'
CPU
14 A802782 EP478600'*
Distributor
15 A650016 FBAOSA12LlAZ
FAN
16 A621097 313.500(0.5A)
FUSE
USM-27
- MOO400
MOO401 -
EP476801" for
PAL system
MN2-2006 Rev.0
SEcnON 10 Parts list
MN2-2006 Rev.0
SECTION 10 Parts list
1
I
106 PHYSIOLOGICAL SIGNAL UNIT PEU-3500
SIN
MN2-2006 Rev.0
SECTION 10 Parts list
/
1
06 PHYSIOLOGICAL SIGNAL UNIT PEU-3500
SiN
I
MN2-2006 Rev.0
SECTION 10 Parts k t
INDEX
06
PHYSIO. SIGNAL UNlT
S/N
UNIT
1 A201676 SAP-3500-06-01
PHYSIOLOGICAL SIGNAL UNIT
2 A802783 EP480100"
PHYSIO SIGNAL AMP
3 A802784 CO-EU-5045-A
CBL710 :J710-ECG IN
4 A510062 SP-4131
POTENTIOMETER KNOB
5 A802785 CO-PEU-3500-B
6 A100480 EU-5045#4
CBL413:
J413-PHYSIO VOLUME
KNOB PLATE
7 A600291 EU-5045#3
Panel Label
8 A802333 EP44680D"
PSC
PEU-3500
Installedin USM-27
MN2-2006 Rev.0
SECTION 10 Parts list
m2-2006 Rev.0
SECTION 10 Parts list
1
0 7 MONITOR
I IPC-1550lMP-IP15 1
sm
MN2-2006 Rev.0
SECTION 10 Parts list
1
07 MONITOR
I IPC-1150IMP-IP15 I
SfN
MN2-2006 Rev.0
SECTION 10 Parts list
INDEX
07
MONITOR
UNIT
1 A201677 DWU-143
MONITOR UNIT
2
MONITOR REAR COVER
A120307 PE-0057
IPG155011VIP-IP15
3 A100481 K2636-11
POWER CABLE PROTECTOR
4 A621098 526610052
FUSE
5
TILT UNIT
A110271 MP-IP15
SIN
MN2-2006 Rev.0
SECTION 10 Parts list
MN2-2006Rev.0
SECTION 10 Parts fist
1
08 MO UNIT
MOU-3500
SN
MN2-2006 Rev.0
SECTION I0 Parts list
INDEX
08
MO UNlT
1 A201678 MOU-3500
MO DISK DRIVE UNIT
2 A650017 MCM3064AP
MO DISK DRIVE
SIN
UNIT
MOU-3500
Without gasket
MN2-2006 Rev.0
SECTION 10 Parts list
INDEX
09
2
UNIT
SIN
CABLES
~802787L-CABLE-700-24C5
CBL850: 5600-5831
3 A802788 CO-PSC-137-N-11CO CBL611: J27SPEAKER, AUDIO
VOLUME
4 A802789 CO-PEU-3500-A-02C5 CBL702: J70-J702
(OPTION)
5 A802790 CO-PSC-137-L-03C7 CBL880: 580-5880
6 A802791 CO-PSG137-H-15C0 CBL411: J61-J411
7 A802792 CO-PSC-137-G-21CO CBL820: J820-J400
8 ~802793L-CABLE-701-06C5
CBL810: J810-FAN
9 A802794 L-CABLE-702-03C7
CBL851: J851-FAN
10 A802795 CO-PSC-137-A-l l C5 CBL801:
J801-POWER SWITCH
11 A802796 CO-PSC-137-K-05CO CBL621: CN10-J621FDD (SIGNAL
CABLE)
12 ~802797CO-PSC-137-F52C8 CBL811: J811-J631FDD (POWER
CABLE)
13 A802798 CO-PSC-137J-11CO CBL412: J412-533
14 A802799 CO-PSC-137-M54CO CBL870: J150J870
15 ~802800CO-PSC-137-D-01C5 CBL833: J803-J833
16 A802801 CO-PSG137-E-02C5 CBL834: J804-J834
17 A802802 CO-PSU-S35W-B
CBL2: J831-J805
18 A802803 CO-PSU-S3500-A
CBL1: J802J806
19 ~802804CO-EU-6029-B
20 ~802805CO-EU-6029-A
CBL2: J807-CIRCUIT BREAKER,
LINE FILTER
CBL1: J800-LINE FILTER
21 A802806 L-CABLE-687-02C6
CBL687: CN6-J7
22 A802807 L-CABLE-691-02C2
CBL691: CN2,CN3-J11
23 A802808 L-CABLE-69352C2
CBL693: CN1-J6
24 A802809 L-CABLE-69M5C1
CBL695: CN11J l 3
25 A802810 L-CABLE-706-02C5
CBL706: CNi6-J12
26 ~ 8 0 2 8 1 1CO-MOU-3500-A04C5
CBL622: CN7-J622M0 (SIGNAL
CABLE)
(OPTION)
27 A802812 CO-MOU-3500-503CO
CBL812: J612-J632MO (POWER
CABLE)
(OPTION)
MN2-2006 Rev.0
SECTION 10 Parts list
MN2-2006 Rev.0
SECTION 10 Parts list
SCREWS ISMALL PARTS ILABELS
1 A399207 585.154
Hexagonal Support
2 A399208 ASB-318
Hexagonal Support
3 A399209 ASB-326
Hexagonal Support
4 A399102 S3 x 8.Fe,Ni
Flat Head Screws
5 A399103 S3 x 10,FeN
Flat Head Screws
6 A399210 S4 x lO,Fe,Ni
Flat Head Screws
7 ~ 3 9 9 2 1 1ANK3 x 12,Fe.Ni
Screws
8 ~ 3 9 9 1 8 7CNK3 x 8,FeN
Screws
9 ~ 3 9 9 1 7 6CNK4 x 6,Fe,Ni
Screws
10 A399131 CNK4 x 10-EC,Fe,Ni
Screws
11 A399212 B tight 3 x 8
Screws
12 A399213 B tight 5 x 8
Screws
13 ~ 3 9 9 2 1 4BNK3 x 5,FeN
Screws
14 ~ 3 9 9 1 3 3BNK3 x 6,Fe,Ni
Screws
15 ~ 3 9 9 1 8 6BNK3 x 8,FaN
Screws
16 A399092 BNK3 x lO,Fe.Ni
Screws
17 ~ 3 9 9 0 8 7BNK3 x l2,Fe,Ni
Screws
18 A399189 BNK4 x 10,Fe,Ni
Screws
19 ~ 3 0 3 4 1 6BNK4 x 16,Fa,Ni
Screws
2 0 ~ 3 0 3 5 2 0BNK5 x 20.Fe,Ni
Screws
21 ~ 3 4 7 4 1 6HB4 x 6
Hexagonal Cap Screws
22 ~ 3 4 7 5 1 6HB5 x 16
Hexagonal Cap Screws
23 A347520 HB6 x 20
Hexagonal Cap Screws
24 A399215 HE6 x 20-EC
Screws
25 ~ 3 9 9 2 1 6HB6 x25EC
Screws
26 A399217 HB8 x 20-EC
Screws
27 A399218 HBlO x 20-EC
Screws
MX2-2006 Rev.0
SECTION 10 Parts list
INDEX
I0
SCREWS ISMALL PARTS 1 LABELS
'UNIT
28 ~399219HBfOx3Q.fC
Screws
29 A399220 352 X4
Hexagonal Cap Screws
30 A399221 TH-11SUS-R
Hinge
31 ~6500181-70.300.00.07
Ratchet
32 ~ 3 9 9 2 2 2#4-40UNC x 3/16
Screws
wwlo
Wave Washers
34 A383560 WW60
Wave Washers
35 A383304 Sw4
Spring Lock Washers
36 A600276 P-3271
Label
37 ~ 6 0 0 2 8 9P-32-SSD4000-1
Customization Label
38 A600292 USI-152#13
Label
39 A600293 USI-152#10
Label
40 A600294 USI-152#15
Labet
41 A600213 P-4232UB-UL
Label
42 A600020 P-4246-UL
Label
43 A800650 P-3324
Label
44 A600295 P-1213
Label
45 A600296 P-3270
Label
46 A600286 P-32590
Label
47 A600276 P-3271
Label
48 A600201 P-4309
Label
49 A600297 P-3258C
Label
50 A600286 P-32590
Label
51 A600213 P4232UB-UL
Label
52 A600020 P-4246-UL
Label
53 A600286 P-3259D
Label
54 A600213 P-4232UB-UL
Label
33 A383510
SIN
MN2-2006 Rev.0
SECTION 10 Parts list
INDEX
10
SCREWS 1 SMALL PARTS 1 LABELS
55 A600020 P-4246-UL
Label
56 A600016 P-4231B-UL
Label
57 A600025 P-4239U-UL
Label
5 8 A600113 P-4229B-UL
Label
5 9 A600024 P-423BUL
Label
60 ~ 6 0 0 2 0 5 P-32-A.A.-UL
Label
61 A600023 P-‘4237-UL
Label
UNIT
S/N
Introduction
Senlcc Infonnat~onrs t l ~ citifonuatlo~~
that sen ice engmeer should h n o ~when he carrm out repamug
the equipment as w l l as some uscful inforn~atioi~
Maintenance
menu
Maintenance Menu is the function that supports service cngincer to cany out rcpair/maintcnancc work
as well as upgrading the software. This function is not open for the general users.
,---------------------------------,
a Caution
You need to tun1 off the power to disable the maintenance fui~ction.
I
Make sure to do q c l e (he power after using the mail~tei~ance
function.
I
i---------------------------------J
How t o start Maintenance Menu
1)
2)
.
Select Preset S\+itchto dis~lav
. Preset List
Press CTRL + S at the full heboard It displa? s Set-Up screen for MAINTENANCE
I
I
I
MN2-2006 Rev0
SIICI.ION 11 Service Inhrmation
Maintenance M e n u Function
1)-1 Back-up Data Saxe
Followmg d a t a can be stored on MO &ck ~na t once.
t All PRESET S e l t m g
t All F'atrents' D a t a
t All Tests' D a t a
+
Data Stored in t h e m a c h ~ n e
1)-2 Back-Up Data Restore
Rcstore the backed up data that
IS
stored m MO by Back-Up Data Save functton. mto the
machine.
1)-3 Version Up
The sonware can be upgraded by means of FD (Floppy Disk). The PRESET settings and
MaskedNnmasked setting for the PACKAGE SOFTWARE are maintained after upgradiny,
1)4
Package Software
The PACKAGE SOFTWARE can be maskcdiunmaskcd by means ofi~~staili~ig
the key FD.
However. )on cannot Inask all appllcabons
2) MAINTENANCE
2)- 1 SYSTEM1 Screen
This scrccn displays the status information of the niachine and thc conncctcd probe(s).
0 Information of machine
0
t
Soliware version.
t
Connected optional uvrit(s).
PROBECODE
t
Probe and the connector number that the probc is conneclcd.
t
Part tiumbcr of the probc.
t
Probe Codc
u
probe(s) but )on
It docsn't updatc the connection status automatically when y ~ replaced
can update it by Panel operation.
2)-2 SYSTEM2 Screen
It shou,s the lcwl of hardwarc of the rnachme
0 Panel Tcst
It checks tbc hghl of LED on die PmcI S u ~ t c h
0 Go to Sclf Chccker (It's not available for Vcr. L.*.*)
It checks the hardwarc (partially) if h r c is any fail~zreon it and thcn displays the result on the
screen.
MN2-2006 Rev 0
S I X I ION 1 I S e n x e InSomat~on
0 Information 1
It, displays the internal sctiting (dei)cnds on the display mode) of the machine.
0 Informat~on2
It d~spla)sthe data that is rclated to the acoust~cp o w x control
0
Test Pattcm
Gray Scale Display On It &spla)s gray scale on the screen for monltor adjustment
Color Scale Display On It dlsp1a:s color bar on ihc scrccn for monltor adjustment
MN2-2006 itev.0
SIIC'I'ION 11 Service Infomation
SYSTEM PRESET
SYSTEM PRESET is a functio~ito set up thc system configuration that is exclusively for a service
engineer. This function is not open for the gcneral users.
3-1
How to Start SYSTEM PRESET
1)
2)
3)
4)
Press PRESET Str-itch to display Presct List.
Select Set-up of Preset to display Prcsct Sctup scrccn.
Selcct Common Preset to display Conimon Preset screen
Press CTRL + 0 (alphabet 0 )at full keyboard to display the itern, "System" in the tree
1)
Focus ILlark
It sclccts the Focus Mark dlspla? On~OEfonthe TV screen
2)
ALOKA Logo
It selects ALOKA logo d~splaqOniOff on the TV screen
3)
Power Flow N Value
It selects tlre N-xalue dtsplaq On/Off tn Poncr Flon .Mode
4)
Display Probe
It switches the display format of automatic display for Probc Frequency on the TV screen
5)
B c m Proccssmg ( F l o )~
It sw~tehcsthe Beam Proccss Method rrlmn thc Color Flow Modc 1s O h ( S m g l d u l ! ~ )
MN2-2006 Rev0
SIXTION 1 1 Suvicc Information
How to reload Flash Memory Data
11-4
Purpose
1 1-4-1
Whcn following troublcs occur, rcload the data by means of Flash Memory reloading FD.
1. The ntachine doesn't start because of Flash Memory reload failed during upgrading.
2. Flash Memor?. data on the PCB that has been replaced by repair is not reloaded automatically at
startup. As a consequcncc, the machine cannot start normally.
Procedure
1 1-4-2
1.
2.
3.
Make surc that the machine is turned oE.
Insert Flash Memory reload FD to Floppy Disk Drive (FDD) of the machine and then turn the
power switch on.
It displays "ALOKAI logo on the nionitor and then changes to "Shut Down in Progress" screen,
then following menu is displayed. Select corresponding PCB or "ALL" then press "SET' key on
the operation panel.
Fig. 1
4
it starts Flash Menion. rcload auto~nattcallyand go back to the menu (Rg I) after complet~ngthe
reload
Y
To terminate this function, click "Exit" and scrccn change to "Shut Donn in Progress"; then cjccl
FD \\-it11confirming the FDD light is OK. tlren tun! the power switch off.
Tun1 the machm ou agaii, tlteii check it is startmg corrcctl~
MN1-2006 Rev.0
SECTION 11 Senice Information
H o w t o set Ham Filter for Physio Unit
Ham Fllter S\\~lcliTor PEU-3500 cannot be accessed from the surface Therefore. make sure ihe sm~tch
IS
set correctl) by rcfci-slng the mstallahon procedure at thc tlme of setup
1 1-6
Caution for removing Primary Power Supply unit
If you necd to remove the prituuv paver supply unit (Power Switcltcr) for repair/troublcshooti~~~~
he
careful with the connector numbers when 5-011reconnect the unit.
* Extra caution required for 5801 and 52 on PCB that are the same connectors.
So do not mix them up!
PC Board [EP479900**I
/
0
15
\PC Board [EP479900**1
Poser Suitchcr [EU-6029*I
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MN2-2006 Rev. 0
SSD-3500 SERVICE MANUAL Appendix
Appendix-1
Introduction
This appendix describes the revision of history of this senice manual as the Manual Change
Information.
Appendix-2
I
I
Manual Change Information
I
Rev.
Date
0
29-May.-'03
Revisions
Contents
1st. issue
i
I
I Pages
I
Note
UN2-2006 Rev. 0
SSD-3500SERVICE MANUAL Appendix