726 602 G1
726 602 G1
726 602 G1
Technical Manual
726-602-G1 – Revision B
April 2004
Introduction
Document #726-602-G1 2
Introduction
Revision History
Document #726-602-G1 3
Introduction
Document #726-602-G1 4
Introduction
Table of Contents
Introductory Pages: Revision History
List of Changed Pages
Manual Conventions
Trademarks
Introduction
Safety Summary
Power Requirements
Appendix A - Symbols
Appendix B- Abbreviations
Appendix C – Compatibility List
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Introduction
Manual Conventions
NOTE: Notations are made for information which requires specific consideration,
but for which there is no risk of damaging the system.
Trademarks
DICOM by Merge.
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Introduction
Introduction
This manual is intended for use by Service Engineers who have received training from Shimadzu to
aid in the installation, configuration, preventive maintenance and component replacement for the
DIS-200 system.
Included in this manual are descriptions of the Service Applications and instructions on configuring
system parameters, calibrating the system, running diagnostic testing, performing preventative
maintenance procedures and replacing component parts. Refer to the Shimadzu Installation
manual for procedures on the physical installation of hardware specific to the DIS-200 system.
If assistance is required, it is necessary to provide the system serial number and software version.
The serial number is indicated on:
• The Status Screen
• The Identification tag on the rear of the computer.
To access the status screen, the FKey function bar must be displayed on the screen. To display this
bar, click on the “FKey On/Off” button in the lower left portion of the reference screen.
The FKey function bar will be displayed at the bottom of the screen
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Introduction
Click or touch the button and the status dialog screen will be displayed.
To access software version number and serial number, click on the tab.
The following screen will be displayed. Note serial number and software version information. This
data will be updated according to the version being shipped and the serial number is assigned when
your system is manufactured.
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Introduction
Safety Summary
• This manual is for the express use of QUALIFIED SERVICE PERSONNEL ONLY!
• The DIS-200 has been designed and tested to meet FDA, Radiological Health regulations.
To ensure personnel and patient safety, all procedures, warnings and precautions must be
strictly observed during all phases of operation and service of this instrument.
• Failure to comply with these safety statements could result in injury and/or death to service
personnel, operator, or patient. Shimadzu assumes no liability for failure to comply.
Do not access the operating software without prior service training in the
maintenance of the DIS-200 product line. To do so may corrupt files and
cause improper functioning of the DIS-200.
Do not attempt to alter any system hardware unless the procedure is
WARNING: given in the Preventive/Corrective sections of this manual, or supplied
with a part provided by Shimadzu. Doing so could disrupt the
functioning of the system and result in loss of images.
Do not bypass the safeties provided by the X-ray generator during the
WARNING: installation or servicing of the system hardware or software. Doing so
could expose personnel to unnecessary radiation.
The power source used for the system must meet the Power Supply
WARNING: requirements as defined. Use of the DIS-200 system outside of these
limitations will void the Product Warranty.
The PC cabinet should not be positioned within the patient vicinity (must
WARNING be outside 6 foot radius of x-ray table).
CAUTION: There are no operator-serviceable parts within the DIS-
WARNING 200. Operators should not attempt to remove any panels or replace any
parts. Refer all servicing to qualified personnel trained in the
maintenance of the system.
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Introduction
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Section 1 - Service Applications Overview
Table of Contents
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Section 1 - Service Applications Overview
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Section 1 - Service Applications Overview
To open the Service Application from the clinical application using the keyboard:
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Section 1 - Service Applications Overview
The Service Application GUI (Graphic User Interface) is arranged in three sections. The top
section contains buttons that activate specific Service Functions. The middle section displays a
series of Interface Signals. The bottom section contains buttons that activate specific Image
Enhancement features.
• Input
• Analog
• Relay
• Edge Enhancement
• Integration
• H Invert
• V Invert
• Default
• Version Info
• Exit
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Section 1 - Service Applications Overview
Lighter color
represents an
activated button.
Click on button to activate specific service function. When a button is activated, it will appear
lighter on the screen than the other buttons.
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Section 1 - Service Applications Overview
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Section 1 - Service Applications Overview
2. Service Functions
Use this screen to make default settings for the system as well as calibrate and test. Note that
IQA is not available at this time.
Click on Fluoro to test the Fluoro function of the digital imaging system.
When Fluoro is selected, testing can be done on components without
actually radiating.
The Fluoro button will be white when Fluoro is activated.
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Section 1 - Service Applications Overview
Click on Spot to acquire Spot images. The Spot button will be white
when Spot is activated.
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Section 1 - Service Applications Overview
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Section 1 - Service Applications Overview
To make changes, press the “edit” button, position cursor over the appropriate data point and
left click. An X will appear. Holding down the left-click button, use the X cursor to move the
graph to the desired setting. New setting will be reflected in the XY boxes appearing under the
graph.
• Double left click on the curve to add data points to the curve.
• Single right click on an existing data point on the curve to delete it.
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Section 1 - Service Applications Overview
Use buttons on the right of screen to either reset, save settings and/or Exit LUT
XY7
XY6
XY5
XY3
XY4
XY2
Correspond to
adjusted settings
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Section 1 - Service Applications Overview
Click to Run
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Click to RUN
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Section 1 - Service Applications Overview
Setting IP Address
NOTE: This information should be used only by the network administrator for the
purpose of setting IP address as required.
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Section 1 - Service Applications Overview
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Section 1 - Service Applications Overview
Current settings are displayed in the Interface Signals block in the middle of the Service
Application screen. There are three separate screens – Input, Analog and Relay. For
instructions as to how to change, refer to Section 3 – System Parameters (Generator
Lines)
Input
Single click within the Input signal screen to access the Interface
Signal – Input Lines interactive menu.
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Section 1 - Service Applications Overview
Analog
Relay
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Section 1 - Service Applications Overview
The third block of the Service Application screen contains several buttons that activate
and/or control important image enhancement features including Brightness/Contrast,
Zoom, Edge Enhancement, Integration, Horizontal and Vertical Invert and Default.
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Section 1 - Service Applications Overview
Button Description
Pointer
Brightness/Contrast
Integration
Click to set level of integration. Each level will be indicated by the number
(replaces OFF) displayed on the altered button. Continue to click until
required level is achieved.
-Integration is OFF
Edge Enhancement
Click to set level of edge enhancement. Each level will be indicated by the
number (replaces OFF) displayed on the altered button. Continue to click
until required level is achieved.
Buttons will appear as follows:
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Section 1 - Service Applications Overview
Invert
V Invert
Default
Use this button to return to default image enhancement setting.
Version Information
Click to display software versions and other pertinent information.
Exit
Click to exit Service Applications function. Service Application screen will
be replaced by Main Image screen.
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Section 1 - Service Applications Overview
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Section 2 - Connect and Test the GIM
Table of Contents
1. INTRODUCTION ...................................................................................................... 3
1. Introduction
All interface signals used to connect the digital imaging system are input or output from the
remote Generator Interface Module (GIM).
The Two State Inputs, Relay Outputs, Open Collector Drives, and Analog ABS signals
are used in the “Standard” DIS-200 generator interface scheme.
The circuit illustrated in Figure 1 depicts an opto-isolator that senses inputs from the X-
ray Generator The Input Circuits are located on the GIM board. Signals such as Fluoro
On, Prep, and Request are input signals. Since the Opto-isolator contains bi-directional
(AC) diodes, current may flow either way through the input circuit. Voltages from 5 to 32
VDC may be applied across the Input + and Input -. The + and - designators are for
identification purposes only.
WARNING: Relay contact switching capacity must not exceed 1A, 30 VDC.
The circuit in Figure 3 depicts the circuit used to drive the clock signal generated on the
GIM board to the host X-ray system. The polarity and pulse width of the generated is
configurable in the system CONFIG screens. The output is an open collector with an
operating range between 5 and 32 VDC.
An optional ABS drive signal is available from the GIM module. The drive signal outputs
can be configured for a variety of output ranges to meet different x-ray system
manufacturers input requirements.
The Standard selections are:
0V - 12V 0V-6V
+/- 12V Differential +/- 6V Differential
+/- 3V Differential Custom
Once all components are in place and cable connections between components have been
made, the Generator Interface Module and the x-ray generator can be connected. Make sure
all components are powered down prior to beginning this step.
WARNING! Unplug the main power cords from the wall plug, PC- Isolation
Transformer, Power Conditioner (if present), and UPS (if present).
NOTE: Interconnection diagrams and GIM input definition tables follow the cable section
Identifying Cable
More than one cable may be provided with the system depending on the number of input
signals to be used. The cables are identical when shipped and must be marked
individually to differentiate between each port. Up to eight input ports and four output
ports are available so making this distinction before cables are routed is critical.
The ABS signal, Drive Signals, and Analog input and output signals us un-terminated
multi-conductor cables. Connection of these cables to the GIM is on terminal blocks
Connections for ABS Drive Connections for PFluoro Drive Connections for Cine Drive
• P20-1 ABS+ • P18-1 PFluoro Drive • P18-4 Cine Drive
• P20-2 ABS Comm. • P18-2 PFluoro Power • P18-5 Cine Power
• P20-3 ABS- • P18-3 PFluoro Ref. • P18-6 Cine Ref.
1. Using GIM Signal Definitions, make the determination as to which signals will be
used.
2. Label both ends of the input cable with appropriate name to differentiate.
3. Individual leads are labeled to correspond with Input Signal definitions to be
used. Determine which, if any, leads will not be used and secure back using
electrical tape.
Repeat this procedure for any other optional cables to be used with the system (Camera,
etc.)
1. Identify ports to be used for output signal. Refer to GIM Output definitions.
2. Label both ends of each cable with proper port number
3. Determine which relay wires will be used and secure unused leads using
electrical tape. Leads are individually labeled during manufacturing.
Use the charts that follow to identify cable and lead by color.
NOTE: Not all connections listed in Table 3 are needed for any configuration
The two state input signals are divided among 8 RJ-45 input connectors. Each cable
contains connection pairs for 4 input signals per cable. The cable used is standard Category
5 (CAT5). The output relay signals are divided among 4 RJ-11 input connectors. Each
cable contains connection pairs for 3 relay signals per cable. The cable used is standard
Category 5 (CAT5).
The Generator Interface Module (GIM) accepts input signals from the host x-ray system that are
either +\- 32 VDC filtered or unfiltered.
• When connecting the GIM to a host x-ray system that utilizes filtered DC control signals
(Ripple < 10% of the signal voltage), the internal AC filter on the GIM should be disabled.
• When connecting the GIM to a host x-ray system that utilizes unfiltered DC control
signals (Ripple > 10% of the signal voltage), the internal AC filter on the GIM should be
enabled.
Figure 7 – DC Signals
The input signal AC filter is Enabled / Disabled by the position of jumper P12 on the GIM board
P12 1-2 removed = AC filters disabled. P12 1-2 inserted = AC filters enabled.
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Section 2 - Connect and Test the GIM
P12
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Section 2 - Connect and Test the GIM
Connecting the AC jumper to pins #1 & 2 of P12 allows AC rectified signals to be used as inputs
to the GIM. Refer to Tables 1 - 10 and Figure 8.
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Section 2 – Connect and Test the GIM
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Section 2 – Connect and Test the GIM
2.4 GIM Dry Contact Definitions
Please see GIM Board Connector Layout Diagram (726-120-G1) and Dry Contact Cable
Diagram (726-087-G1) for clarification.
Doc. #726-106-G1 2- 14
Section 2 – Connect and Test the GIM
The signal timing requirements are different for both pulsed and continuous fluoro operation
Pulsed Fluoro Select Indicates that the x-ray generator is configured to pulse at less
than 30 Hz. This line is OFF for 30 Hz pulsed fluoro and
continuous fluoro.
Fluoro (Rad) Pulse On Output from the generator to the digital system, that carries on
it a pulse train that represents the frequency that the generator
is pulsing at (i.e. 7.5 Hz, 3.75 Hz, 15 Hz, etc.). The pulse width
must be between .5mS and 30 msec for the digital system to
guarantee that the pulse will be read correctly.
Pulsed Fluoro V Drive Sources from the GIM and sends a signal at a 30Hz rate from
the digital system to the X-ray generator.
Fluoro (Rad) Pulse On This is an output from the generator to the digital system, and
carries on it a pulse train representing the frequency at which the
generator is pulsing. (i.e. 3.75 Hz, 7.5 Hz, 15 Hz, etc.). The pulse
width must be between .5 mS and 16 mS long for the digital
system to guarantee that the pulse will be read correctly. This
line must be ON when continuous fluoro is ON (Not pulsing).
Pulsed Fluoro V Drive Sources from the GIM and sends a signal at a 30Hz rate
from the digital system to the X-ray generator.
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Section 2 – Connect and Test the GIM
Additional Pulse Fluoro • The ‘Fluoro (Rad) Pulse On’ pulse which arises from
Notes the generator must become active at the start of the
pulse of radiation and remain active for at least .5 mS
(method 1 or method 2) but not greater than 30 msec
(method 1) or 16 msec (method 2).
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Section 2 – Connect and Test the GIM
Once cable is routed, match up individual leads to proper input signal definitions. Leads
are individually labeled to match line numbers on chart (example: Input Signal Fluoro
Rad ON – P1, port 1 – Input + find input + and minus leads – leads are the same color
and tagged with input +/-)
Make appropriate connections to generator. The signals between the x-ray generator through
the generator interface module (GIM) to the DIS-200 are defined as follows. Unless otherwise
noted, all signals are inputs to the system.
Fluoro Signals
Signal Name Definition Description
Fluoro On Fluoro Radiation On This signal is active when fluoro radiation is ON. It
(Required) causes the imaging system to display the live fluoro
image on the image monitor in "Fluoro" and "Map" modes
when fluoro radiation is ON. When inactive, the DIS-200
will maintain the last full frame of fluoro on the
image monitor. This signal is overridden when the
Prepare for Photospot signal is active.
FOV Mag 1 Image Intensifier When this signal is active, the generator is in image
Mode 1 intensifier magnification mode 1. This signal is inactive
during normal image intensifier magnification.
(Optional)
FOV Mag 2 Image Intensifier When this signal is active, the generator is in image
Mode 2 intensifier magnification mode 2. This signal is inactive
during normal image intensifier magnification.
(Optional)
FOV Mag 3 Image Intensifier When this signal is active, the generator is in image
Mode 3 intensifier magnification mode 3. This signal is inactive
during normal image intensifier magnification.
(Optional)
Store Image Fluoro Store
This signal causes the DIS-200 to store the currently
displayed fluoro image to the system hard disk. This
(Optional) signal
Pulsed Fluoro
PFluoro Select When this signal is active, the DIS-200 system will
Select acquire a pulsed fluoro sequence of images at the
selected rate
(Dual Line Pulse –
Optional)
(Required for
Pulsed Fluoro V This signal line is used as a clock signal for firing the x-
Pulsed Fluoro) ray generator during pulsed fluoro mode. This signal is
Drive (Output)
an output from the DIS-200 generator interface module
(GIM). The frequency of the signal is a constant 30 Hz
at all pulse rates.
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Section 2 – Connect and Test the GIM
Radiographic Signals
Signal Name Definition Description
Prep Rad Exp Prepare for This signal is active when the operator is preparing for
Radiographic Radiographic Exposure. It signals when the generator is
Exposure (PREP) switching from “Fluoro” to “Radiographic” mode. This
signal is used for spot acquisition.
(Required for Spot
and Cine)
Req Rad Exp Request for This signal is active when the operator has requested a
Photospot Radiographic exposure and is ready to expose. This
Exposure signal is used for Spot acquisition.
(REQ)
Rad Exp On RAD Expose ON This signal indicates to the DIS-200 that the generator is
producing radiographic radiation for photospot imaging
(Optional for Spot only. This signal is considered optional; however, the
– See Note) signal line must be installed when the PHOTOSPOT
IN/OUT relay open condition does not terminate an
exposure. Additionally, this line must be installed for
Tomography procedures. Also see the NOTE.
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Section 2 – Connect and Test the GIM
(Optional for This signal indicates that the high dose Fluoro mode is
High Dose Fluoro) activated.
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Section 2 – Connect and Test the GIM
Relay Outputs
This signal line is created from two lines, one on each side of the relay contact
Photospot In/Out in the DIS-200. A relay closure allows the generator to make an exposure.
(Required for Spot) The (PREP), (REQ), and (RAD RDY if used) signals must be present in order
for the relay to close. Also referred to as EXPOSURE CONTROL/EXPOSURE
COMMAND. Photo-spot Expose In & Out prevent photo-spot exposure until
the DIS-200 closes the relay.
The relay is closed within 60mS after the request line is ON, and will remain
closed for 200mS with the exception of the following:
15FPS 33mS
10FPS 67mS
7 FPS 100mS
6 FPS 133 mS
5 FPS 167 mS
The exposure should be completed within the time when the relay is closed
unless the RAD EXPOSE ON line is connected. The RAD EXPOSE ON line
will allow for longer exposure times and automatically reduce the frame rate as
required.
Injector Sync In & This relay closure is used to synchronize an Acquisition run with a contrast
Out injection
Table Step In & Out This relay closure is used to allow the x-ray table to step to the next position.
Subtraction In & Out This relay closure is used to signal the generator that a subtracted run has
been enabled.
Injector Sync In & This relay closure is used to synchronize an Acquisition run with a contrast
Out injection
This signal line is used as a clock signal for firing the x-ray generator during
Pulsed Fluoro V pulsed fluoro mode. This signal is an output from the DIS-200 generator
Drive interface module (GIM). The frequency of the signal is a constant 30 Hz at all
pulse rates.
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Section 2 – Connect and Test the GIM
To Install A Function
→ Continuous Pulsed Radiographic Tomography DSA Cine Digital
Connect All Fluoroscopy Fluoroscopy Photospot Photospot Stepping
Required Signals
(X = Required)
Fluoro On X X
Pulsed Fluoro Select Optional
Fluoro Pulsed On X
Rad Pulse On X
Prepare for Photospot X X X X X
Request for Photospot X X X X X
Spot Select X X X X
Radiation Ready Optional Optional Optional Optional Optional
Single / Rapid Optional Optional Optional Optional
Photospot In/Out X X X X
Rad Expose On Optional** X Optional** Optional**
Cine Select 1 Optional *
Cine Select 2 Optional *
II Mode 1, 2, or 3 Optional Optional Optional Optional Optional Optional Optional
H Reverse Optional Optional Optional Optional Optional Optional Optional
V Reverse Optional Optional Optional Optional Optional Optional Optional
Fluoro Store Optional Optional Optional Optional Optional Optional
Injector Sync In &Out Optional Optional
Exposet Enable In &
Out
Cine Enable In & Out Optional
Table Ready X
Request to Step Optional
Table Step In & Out X
Station Bit 1, 2, 3, Optional
** Must be installed if PHOTOSPOT IN/OUT relay open does not terminate exposure.
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Section 2 – Connect and Test the GIM
Once all connections are made within the generator, corresponding connections
can be made within the GIM. Refer to GIM internal diagram for locations of points of
connection. Refer to the photograph and diagram that follow.
Connect AC
jumper to pins
1&2 of P12 (in
circle) to allow
AC rectified
signals as
inputs to the
GIM
Connect the signal wires and reference wires of the Generator I/O cable IPN #726-086-
G1 to the generator.
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Section 2 – Connect and Test the GIM
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Section 2 – Connect and Test the GIM
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Section 2 – Connect and Test the GIM
The Ethernet Crossover Cable (735-371-G1) connects the system PC to the GIM. This
cable has an RJ45 connector on each end and the standard length is 100’.
Connect this cable to the PC using the IAPDB port on the back of the PC.
IAPDB Board
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Section 2 – Connect and Test the GIM
P15
Connection
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Section 2 – Connect and Test the GIM
Each of the Two State Input signals (Fluoro On, Prep, etc.) has a companion LED status
indicator on the GIM board showing the current status (ON or OFF) of each input signal
from the generator.
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Section 2 – Connect and Test the GIM
The Service Screen also has real time status displays that show the current state of
each generator input signal being reported to it by the GIM. This Screen is also useful
for identifying which cables and input signals are associated with each function.
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Section 2 – Connect and Test the GIM
It is critical that each generator signal pulse matches the active high or active low of the
line as it is installed. Signal pulse verification will indicate if the active pulse of any signal
line is incorrect. This process is accessed through Service Applications.
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Section 2 – Connect and Test the GIM
1. Position the cursor over the generator signal portion of the screen, and click
the left button.
2. The screen will show an enlarged display of the signal lines.
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Section 2 – Connect and Test the GIM
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Section 2 – Connect and Test the GIM
If the line status changes as indicated in the tables that follow, the lines are working
properly. If this is not the case, re-check the lines for correct connection and placement.
Then check any optional functions installed to see if they function correctly.
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Section 2 – Connect and Test the GIM
Mag 1 II Mode 1= ON
II Mode 2= OFF
II Mode 3= OFF
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Section 2 – Connect and Test the GIM
Pulsed Fluoro (if installed) Active Signal lines
1. Select Pulsed Fluoro mode on PFluoro Sel
Generator.
2. Set the rate to 30 frames/sec.
3. Make a pulsed fluoro exposure. P Fluoro On
Select the Minimize button to close the enlarged view of the signal lines.
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Section 3 - System Parameters
Table of Contents
1. INTRODUCTION ...................................................................................................... 3
1. Introduction
The DIS-200 Configuration consists of a series of screens, each screen offering tabs for
access to menus specific to the parameters of the individual screen. Refer to the chart
below as a guideline. Screen specific instructions will follow.
2.1.2 Interfaces
Use Interfaces to set system parameters necessary for running system calibration and
other functions.
Not used. Only the Small Format Camera is available for this system.
Detector Type
Not used. Only the Direct-Couple Iris is available for this system.
Iris Type
Left click box to activate Continuous Fluoro. To turn off this feature, click
Continuous Fluoro in box over the arrow.
Use System Options to check which options are enabled for system use or to change
settings with the addition of optional equipment.
Document #726-602-G1 3 - 10
Section 3 - System Parameters
Not used
Reference Image
Display
Use Slider to set which frame within a sequence will be displayed as the
Thumbnail Frame thumbnail.
NOTE: Before the new number can take precedence, the system must
be shut down and restarted.
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Section 3 - System Parameters
Opacification Delay
Use slider to set appropriate Opacification delay setting.
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Section 3 - System Parameters
Use Image Processing to turn on/off H-Reverse and V-Reverse settings for image
processing. Use down arrow to turn Horizontal and Vertical Reverse on or off.
Not available
at this time.
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Section 3 - System Parameters
Use Monitor LUTs to set specifications for in-room Primary and Reference Monitors.
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Section 3 - System Parameters
2.1.6 DICOM
Use DICOM tab to set specifications for DICOM functions. All fields can be altered
manually by positioning the cursor over them and typing in the information.
Document #726-602-G1 3 - 15
Section 3 - System Parameters
2.2 APRs
The APR screen allows access to a series of screens from which specific settings can be
made for Fluoro, Spot, Roadmap, Printing and Archive Transfer. Changes made within
these screens will become the default settings for new APRs created within the clinical
application. While the edge level can be adjusted within the clinical application, this is the
only place where the Brightness and Contrast levels for acquisition can be changed.
2.2.1 Fluoro
Use Fluoro to set default system settings or to change settings as required.
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Section 3 - System Parameters
Use down arrow to select the desired level of Edge Enhancement: None,
Edge Level 1, 2, 3, or 4.
This setting can be overridden by using the APR settings within the
clinical application.
Contrast
Use Slider to select default contrast level.
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Section 3 - System Parameters
2.2.2 Spot
This setting can be overridden by using the APR settings within the
clinical application.
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Section 3 - System Parameters
Use slider control to select the default Spot Contrast value. This will
Contrast
only be used if AIO for the Fluoro image type is OFF.
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Section 3 - System Parameters
2.2.3 Roadmap
This setting can be overridden by using the APR settings within the
clinical application.
Brightness
Use slider control to select the default Brightness value.
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Section 3 - System Parameters
2.2.4 Printing
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Section 3 - System Parameters
Printer Configuration
Click on down arrow ( ) to select default printer from a list on
drop-down menu.
9 on 1
12 on 1
Batch Print Processing Settings
Click on down arrow ( ) to select default batch print
processing settings from a list on drop-down menu.
Batch Print Polarity Select the default polarity to be used for the Print File and Print
Sequence operations. Click on down arrow ( ) for drop-down
menu.
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Section 3 - System Parameters
Auto Send
Click on down arrow ( ) for drop-down menu.
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Section 3 - System Parameters
Batch Settings
As Acquired
Batch Device Edge Level Select the level of edge enhancement to be used for the Print File
and Print Sequence operations. Click on down arrow ( ) for
drop-down menu.
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Section 3 - System Parameters
Generator settings are made initially when the generator is connected to the system.
Use the Configuration function to check settings or to change them if necessary. Refer
to Section 2 – Generator Interface for more information.
Document #726-602-G1 3 - 25
Section 3 - System Parameters
Signal Definitions: The signals between the x-ray generator and Imaging system are defined
as follows:
Signal Description
Fluoro On This signal is active when fluoro radiation is ON. It causes the system to
display the live fluoro image on the image monitor in “Fluoro” mode. When
inactive, the system will maintain the last full frame of fluoro on the image
monitor. This signal is overridden when the Prepare for photospot signal is
active.
P Fluoro ON (Pulsed Fluoro ON) This signal indicates to the system that the generator
is currently generating an x-ray pulse. It is used to synchronize the
acquisition of images with the x-ray exposure.
Prep Rad Exp This signal is active when the operator is preparing for Radiographic
Exposure. It signals when the generator is switching from “Fluoro” to
“Radiographic” mode. This signal is used for both cine and spot
acquisition.
Req Rad Exp This signal is active when the operator has requested a Radiographic
exposure and is used for both cine and spot acquisition.
Rad Exp On This signal indicates to the system that the generator is producing
radiographic radiation for photospot imaging. It is considered an optional
signal. However, the signal line must be installed when the Spot in/Out
relay open condition does not terminate an exposure. Additionally, this
line must be installed for Tomography procedures.
NOTE: Failure to install the RAD EXPOSE ON line will limit the usable
radiographic exposure time to 200 milliseconds.
Document #726-602-G1 3 - 26
Section 3 - System Parameters
Document #726-602-G1 3 - 27
Section 3 - System Parameters
Fluoro V- Drive
Click on down arrow to enable or disable function
Document #726-602-G1 3 - 28
Section 3 - System Parameters
Pulse Width
Click on down arrow to select pulse width from list on drop-down menu.
Polarity
Click on down arrow to select polarity level from list of drop-down menu.
Phase Delay
Document #726-602-G1 3 - 29
Section 3 - System Parameters
Spot Expose
Click on down arrow enable or disable function
Injector Sync
Click on down arrow enable or disable function
Document #726-602-G1 3 - 30
Section 3 - System Parameters
Document #726-602-G1 3 - 31
Section 3 - System Parameters
2.4.1 DICOMNetwork
1. Position cursor over device name in left column and left click.
2. The Archive Device Configuration screen will be displayed.
Document #726-602-G1 3 - 32
Section 3 - System Parameters
1. Left click the Add device button in the lower left of the
screen.
2. The “Select Device to Add” dialog box will be displayed
Document #726-602-G1 3 - 33
Section 3 - System Parameters
2.4.2 DICOMMedia
1. Position cursor over device name in left column and left click.
2. The Archive Device Configuration screen will be displayed.
Document #726-602-G1 3 - 34
Section 3 - System Parameters
Document #726-602-G1 3 - 35
Section 3 - System Parameters
7. Click SAVE to complete setup process or Exit to abort the setup and exit the
system. You will be asked to confirm changes.
Document #726-602-G1 3 - 36
Section 3 - System Parameters
1. Position cursor over device name in left column and left click.
2. The Printer Device Configuration screen will be displayed.
3. View selections or make changes using the available options.
Document #726-602-G1 3 - 37
Section 3 - System Parameters
Use arrow to access drop down box to select to high, low or medium priority.
Use arrow to access drop down box to select either portrait or landscape film
orientation.
Document #726-602-G1 3 - 38
Section 3 - System Parameters
Use arrow to access drop down box to select film size from those available.
Use arrow to access drop down box to select specific border density
Use arrow to access drop down box to select empty film density
Use arrow to access drop down box to select to either to apply trim or not
(Yes/No)
Document #726-602-G1 3 - 39
Section 3 - System Parameters
Use arrow to access drop down box to select to either normal or inverted as
polarity setting
When Selections are complete, click either Save to retain information or exit to leave the
configuration screen without saving information.
Document #726-602-G1 3 - 40
Section 3 - System Parameters
Document #726-602-G1 3 - 41
Section 3 - System Parameters
Document #726-602-G1 3 - 42
Document #726-602-G1 3 - 43
Section 3 - System Parameters
The Query / Retrieve Menus will allow configuration of DICOM Query and Retrieve
Service Class Providers.
Document #726-602-G1 3 - 44
Section 3 - System Parameters
The Worklist Devices Menus will allow configuration of DICOM Worklist information
Service Class Providers.
Document #726-602-G1 3 - 45
Section 3 - System Parameters
Other than the patient name, which is preset, all fields can be changed by using the drop-down menu.
Document #726-602-G1 3 - 46
Section 3 - System Parameters
Other than the date and time, which are preset, all fields can be changed by using the drop-down
menu.
Document #726-602-G1 3 - 47
Section 3 - System Parameters
Other than the Series Number and Date, which are preset, all fields can be changed by
using the drop-down menu.
Document #726-602-G1 3 - 48
Section 3 - System Parameters
2.9 Backup
Select file name and type and then click save. The files will be saved in the Backup folder (or other
location as specified).
Document #726-602-G1 3 - 49
Section 3 - System Parameters
2.10 Restore
This function allows the restoration of a previous configuration that was saved using
Backup function.
Click to access restore configuration. A confirmation screen will
be displayed
Select file name and type and then click Open. The selected file will be restored.
Repeat as necessary for each Config. File to be restored (SysConfig.xml and UserConfig.xml)
Document #726-602-G1 3 - 50
Section 4 - Calibration
Table of Contents
1. INTRODUCTION.................................................................................................................. 3
1. Introduction
The DIS-200 system has been designed to calibrate either automatically or manually. Each
step is discussed in this section. The only difference between Auto Cal and Manual is that
when the system is in Auto Cal, it runs through the functions step by step. When calibrating
manually, you can select a specific function rather than going through them all. For the purpose
of this manual, the actual functionality of these screens will be discussed and can be applied to
either operation.
NOTE: If any failures are detected, an error message window will be displayed. The Power
Down procedure should be followed in order to shut down the software. The cable
connections should then be rechecked -- especially the hard drive interconnecting
cables inside the PC cabinet. After these steps are taken, repeat the power up
sequence. If system continues to report errors do not continue with this procedure,
instead contact Shimadzu immediately.
To open the Service Application from the clinical application using the keyboard:
Once the Calibration menu opens, select either or . When System Manual
is selected, the buttons in the column under Measuring Fields are activated allowing selection of
function.
NOTE: The safety lock on the C-Arm Control Panel (the lock symbol) must be on when
running Auto-Calibration.
2. System Calibration
• The auto calibration will take you through each step of a full camera calibration sequence
in the correct order. Online instructions explaining how to perform each of the steps are
displayed in the instruction window during each step.
• Use up and down arrow keys and slider bar to scan complete set of instructions within
this window. Within each step are written instructions describing the procedure. System
defaults to Measuring Fields: Image Screen.
• Click on the button at the bottom on the screen to run the step.
• After the step has been completed successfully, a screen will pop up indicating that the
step was successful. Click OK to proceed.
Image
This function sets the window used for Auto Black sample window in the video frame to
the appropriate size (Auto Black – 95%).
1. Click RUN. Fluoro/Pulsed Fluoro runs first. The setting should read 95%. When
Fluoro/Pulsed Fluoro is finished, a window will be displayed with calibration
status for the step.
2. Select OK and then click Next to proceed to the next step of the procedure.
3. Click Run. The process will repeat for Spot. Again, the level should be at 95%.
4. A screen will pop up indicating that the step was successful. Click OK to
proceed.
5. Click OK and then click Next to Proceed to the next step (AGC/ABS).
Level indicated
here – should be
95%
AGC / IBS
This function sets the sample window in the video frame to the appropriate size for
Fluoro AGC/IBS and for Spot mode Iris calibration. The process cycles through all five
active camera mode, starting with Fluoro/Pulsed Fluoro (IBS-Off). The resulting size is
indicated under the slider control (only active during manual calibration). As each level
is calibrated successfully, a screen will pop up indicating that the step was successful.
Click OK to proceed and then Run to move to the next mode.
Indicates which
Camera Mode is
being calibrated
Control Level
Acquire LUTs
For each type of image supported on the system, the default Lookup table is selected
and loaded.
When the window opens, select RUN. The LUT for Fluoro/Pulsed Fluoro will be
selected and loaded. Once the procedure is complete, a status window will be
displayed. A screen will pop up indicating that the step was successful. Select OK and
then click NEXT to proceed to Spot. Repeat the procedure for Spot. When the process
is complete and the LUTs are set according to the following chart, select NEXT to
proceed to the next window in the video level sequence (Video Gain).
Fluoro Gamma 2
Spot Linear WC
Document #726-602-G1 4 - 10
Section 4 - Calibration
(Video) Gain
For each type of image supported on the system, the default Video Gain Value is
selected and loaded. This runs once each for Fluoro, Pulsed Fluoro and Spot.
When the window opens, select RUN. The default Video Gain Value is selected and
loaded. Once the procedure is complete, a status window will be displayed. Select OK
and then click NEXT to proceed to Pulsed Fluoro. Repeat the procedure for Pulsed
fluoro and then for spot. When the process is complete and the video gain values are
set according to the following chart, select NEXT to proceed to the next window in the
video level sequence (Auto Black).
Value
indicated
here.
Manual Only
- +/-
Brightness of
AGC
Average
Document #726-602-G1 4 - 11
Section 4 - Calibration
Auto Black
For each type of image supported on the system, the default Video Auto-Black goal and
the pedestal are calibrated. This process must be done in the dark. This runs once each
for Fluoro/Pulsed Fluoro and Spot. As each mode is calibrated, a window will be
displayed with calibration status for the step. Select YES and then click Next to proceed
to the next step of the procedure. The goal is for the Measuring Field Level to be zero
(0).
When the window opens, select RUN. The default Fluoro/Pulsed Fluoro Auto Black
Level is set and loaded. Once the procedure is complete, a status window will be
displayed. Select OK and then click NEXT to proceed to Spot. Repeat the procedure for
spot. When the process is complete and the video gain values are set according to the
following chart, select NEXT to proceed to the next window in the Auto Calibration
Sequence (Overlay/Circle Mask).
Fluoro Auto-Black ON
Spot Fixed Black
Document #726-602-G1 4 - 12
Section 4 - Calibration
2.3 Overlay
Circle Mask
This function sets the black software mask so that it surrounds the phosphor output
window image displayed on the monitor. The circle mask has a range in size from 900
to 1070 pixels in diameter.
NOTE: When running this step, the collimators and octagonal shutters must be
fully open. IBS must also be ON (or manually adjust fluoro kV/mA for
viewable image).
Follow the instructions in the dialog and then click Run. When the step is finished, a
window will be displayed with calibration status for the step. Select OK and then click
Next to proceed to the next step of the procedure. This setting will always be 1070.
Document #726-602-G1 4 - 13
Section 4 - Calibration
The size of the image displayed depends on the relationship in sizes of the Output phosphor
window, collimating lens focal length, camera lens focal length and CCD sensor size. An auto
cal setting of minimum or maximum likely indicates too small or too large of an image projected
on the CCD sensor.
Monitor
Phosphor
Document #726-602-G1 4 - 14
Section 4 - Calibration
Circle
1.1 Outline
Monitor
1.2
1.3
Phosphor
1.4
1.5
1.6
1.7
1.8
CCD Sensor
1.9
1.10
Document #726-602-G1 4 - 15
Section 4 - Calibration
Circle
Monitor Outline
Phosphor
CCD Sensor
Document #726-602-G1 4 - 16
Section 4 - Calibration
Fluoro
The first window will ask that you measure and adjust the x-ray dose for the normal dose
setting for continuous fluoro. Follow the instruction and then click OK.
200
Document #726-602-G1 4 - 17
Section 4 - Calibration
The next screen will ask that you activate radiation using continuous fluoro.
Click Run to complete the procedure. After you calibrate one rate a dialog box will be
displayed asking “Same for all Rates?” Select Yes.
Document #726-602-G1 4 - 18
Section 4 - Calibration
Pulsed Fluoro
Follow on-screen instructions. After you calibrate one rate a dialog box will be displayed
asking “Same for all Rates?” Select Yes.
Document #726-602-G1 4 - 19
Section 4 - Calibration
2.5 ABS
Instructions for performing the functions are shown in the box under the tabs. Use up
and down arrows to scroll down for all numbered steps. ABS only works in continuous
fluoro/normal dose (must be set on the generator).
ABS Level
This step will calibrate the correct level of Automatic Brightness Stabilization. Click OK to
enable ABS control on the Generator and then press Run. When the step is finished, a
window will be displayed with the calibration status for the step. Select OK and then
click Next to proceed to the next step of the procedure.
Document #726-602-G1 4 - 20
Section 4 - Calibration
ABS Response
1. Ensure that all optical covers and access ports to the camera and Image
Intensifier are in place and that no stray room light is visible to the camera.
2. Do NOT activate radiation during this calibration step.
3. Press Run to calibrate ABS Gain Response for the selected Camera Mode.
4. Repeat for each available camera mode.
5. When this step is finished, a window will be displayed with the calibration status
for the step. Select OK.
6. Press Next and the system will advance to the Iris/Spot Calibration
Document #726-602-G1 4 - 21
Section 4 - Calibration
1000
Document #726-602-G1 4 - 22
Section 4 - Calibration
The collimators can only be calibrated from the “System Manual” mode. Click on the
Generator button and the “Collimators” screen will be enabled.
Note the combinations of procedures available. Calibrate for both Normal and MAG1
FOVs and select the appropriate opening or rotation from the list to the right. Use the
sliders to make adjustments.
Document #726-602-G1 4 - 23
Section 4 - Calibration
To begin, drag the dialog box over to the reference monitor, and then select either
Normal or MAG1. This will send a message to the C-Arm as to what is being calibrated.
Document #726-602-G1 4 - 24
Section 4 - Calibration
4. Monitor Alignment
NOTES: The Image Monitors require five minutes to warm up after being powered on and
after synchronizing with the DIS-200. Do not make any Image Monitor
measurements during the first five minutes.
Document #726-602-G1 4 - 25
Section 4 - Calibration
1. From the Service Application Menu, select the Test Pattern button.
Document #726-602-G1 4 - 26
Section 4 - Calibration
3. Make sure the Window/Level settings are set to 512/512 (lower right corner).
4. Use the Brightness and Contrast controls to set them both to maximum values,
then slowly lower the brightness until the black of the circle mask (area
surrounding the image portion of the screen) is just slightly brighter than the very
edge of the CRT screen.
• The black bar on the bottom of the image (the one with the small white
bar in it) has the same visual darkness as the black mask surrounding the
image.
• The 95% inner black box is visible in the 100% black box (located lower
at the lower left center of the image).
• The 95% inner white box is visible in the 100% white box (located at the
lower right center of the image).
6. Select the INVERT button from the feature menu portion of the main Image
Monitor screen. When the image is inverted, the white bar should be on the right
side of the image and the black bar on the left (not on the Reference Image
Monitor).
7. Repeat steps 4, 5, & 6 for all optional Image Monitors connected to the DIS-
200.system.
Document #726-602-G1 4 - 27
Section 4 - Calibration
Document #726-602-G1 4 - 28
Section 5 - Diagnostics
Table of Contents
Document #726-602-G1 5 -1
Section 5 - Diagnostics
Document #726-602-G1 5 -2
Section 5 - Diagnostics
1. System Diagnostics
The IAPDB and GIM components have system self-diagnostics that can be run to test their
functions. Access these tests through the Diagnostic Screen on the Service Application GUI.
Document #726-602-G1 5 -3
Section 5 - Diagnostics
The Diagnostic Screen offers graphical representation of the circuit boards. All tests are
executed from this screen. Test results are also displayed from this screen with both text and
graphical representation.
Document #726-602-G1 5 -4
Section 5 - Diagnostics
Run self-diagnostic tests to test the functions of the IAPDB and GIM components. Click
on the GIM or IAPDB icon to run the tests.
Document #726-602-G1 5 -5
Section 5 - Diagnostics
NOTES: Follow the manufacturer’s instructions to calibrate the hardcopy device before the
system is connected, and after it has been installed and calibrated. For most
laser systems, there is no need for a laser keypad for the system channel.
Document #726-602-G1 5 -6
Section 5 - Diagnostics
Document #726-602-G1 5 -7
Section 5 - Diagnostics
To verify Media Export is functioning, first insert a blank compact disk in the CD-
Recorder unit (not the CD-ROM drive).
Document #726-602-G1 5 -8
Section 5 - Diagnostics
Document #726-602-G1 5 -9
Section 5 - Diagnostics
8. Select either Send Patient File or Send Study File button to process the transfer.
Click to send Patient file to selected Click to send study to selected media
media destination device destination device.
To access Worklist:
1. From the main menu, click on the “Patient List” button to display the
Patient List screen.
2. Click on the button on the Patient List dialog to display
the Worklist Selection screen.
Worklist offers several means by which to search for specific patients. The patient file
can then either be opened for acquisition from the Worklist or imported to the Patient
List to be opened later. Searches can be performed either manually or automatically
using the Auto Query function
Manual Search
To access Query/Retrieve
1. From the main menu, click on the “Patient List” button to display the
Patient List screen.
2. Click on the button on the Patient List screen to
display the WorkList selection dialog
The system sends a “move” request to the remote AE that “owns” the patient. As the
system processes the query, current status is displayed in the Status mini-window. This
window will indicate when the process is complete, as well as if there are any problems
running the query. Status can also be monitored from the main image screen.
Once the query is complete, a patient/study/sequence can be selected for processing.
1. Highlight patient to select for file retrieval and click the import button
2. The new patient will appear on the Patient List.
3. Check progress of transfer in status column of patient list screen.
Table of Contents
OVERVIEW................................................................................................................... 3
SYSTEM CALIBRATION.............................................................................................. 9
MECHANICAL MAINTENANCE................................................................................. 16
Document#726-602-G1 6- 1
Section 6 - Preventive Maintenance
Document#726-602-G1 6- 2
Section 6 - Preventive Maintenance
Overview
NOTE: Only qualified service personnel, who have received training directly from
Shimadzu should perform these preventive maintenance procedures.
The following section provides the schedule and instructions for performing field service as part
of the Preventive Maintenance program for the DIS-200 system. These preventive maintenance
procedures should be performed semiannually.
Even after the Product Warranty runs out, Shimadzu recommends that the same preventive
maintenance procedures as outlined below be performed semiannually.
CAUTION: These procedures must be performed at the six-month mark, from the
date of installation, to keep the Product Warranty valid!
The first step of the Preventive Maintenance procedure is to instruct the key operators of
the DIS-200 regarding the following items:
1. Allow the monitors to warm up for five minutes after power up. This allows for
optimum image quality on the monitors.
2. DO NOT load any non- Shimadzu supplied software or hardware onto the
system.
3. Review the Safety Summary at the front of this manual.
4. Use only approved media for archiving or copying files.
Also, ask the key operators if there are any changes to the hospital equipment such as:
New laser printer added or planned? If so, check that the printer is on the list of
approved devices. Refer to the compatibility list
(Appendix C) at the end of this manual.
New network device added or planned? If so, follow the procedure to add a DICOM
address. If the system does not already have a
DICOM Network option installed, that will need
to be ordered from Shimadzu.
Is the modem currently installed? If not, To install, see the instructions in the
can it be at this time? Component Installation Procedure section of
this manual (item 4.6 – Modem Replacement).
Document#726-602-G1 6- 3
Section 6 - Preventive Maintenance
PC Cabinet Access
To access some of the components it is necessary to remove the outside covers of the
electronics cabinet. Follow these instructions to remove the panels. Reverse the instructions to
replace the cabinet panels.
All external cable connections are made through the rear panel of the cabinet. It is not
necessary to remove the rear panel for any hardware replacement procedure. For some
replacement procedures, it is necessary to disconnect cables from the rear panel of the cabinet.
WARNING: Always be sure to power down the Shimadzu system, the UPS, and
disconnect the main power cord from the wall outlet before
performing any service on the system.
CD Drive
Floppy Drive
Power Switch
Power LED
Hard Drive
Document#726-602-G1 6- 4
Section 6 - Preventive Maintenance
Left 1. Remove two screws from back lip of When replacing the side panel on
panel the cabinet frame, first engage the
2 Pull panel back slightly, using indented bottom channel, tip the panel into
handle just until clips are disengaged. place and then fit into integrated
3. Lean panel slightly to the right and lift clips. Slide the panel back into
up from bottom track place
4. Remove panel and set aside.
Document#726-602-G1 6- 5
Section 6 - Preventive Maintenance
Power Connection
LVDS Interface Board Kit
Cable Connections
(see enlargement of
label below)
Advanced Graphics
Processor (AGP)
Modem Board
IAPDB Board
Document#726-602-G1 6- 6
Section 6 - Preventive Maintenance
JP1 CDR/
CD-RW
PC POWER SUPPLY
(033-004)
LVDS INTERFACE
BOARD KIT
(726-458-G2)
Flopppy Drive
CPU
(098-651)
DIMM 1 (098-611) - FOR UPGRADE TO 512MB
DIMM 0 (098-611)
DIMM 2
POWER CONNECTOR
SECONDARY IDE
(CDR/CD-RW)
(HARD DRIVE)
PRIMARY IDE
FLOPPY DRIVE
HARD
DRIVE
Modem
IAPDB Board
Document#726-602-G1 6- 7
Section 6 - Preventive Maintenance
To open the Service Application from the clinical application using the keyboard, press the <alt>
key and the F8 key. Enter user name and password when prompted. Only authorized
personnel will be able to log in to the service application.
Document#726-602-G1 6- 8
Section 6 - Preventive Maintenance
The first step of the Preventive Maintenance procedure is to check the alignment and calibration
of all Image Monitors connected to the system using the procedure described in step #6 of this
manual - Monitor Brightness/Contrast Adjustment & Calibration
System Calibration
The second step of the Preventive Maintenance procedure is to perform the System Calibration
if the image quality on the monitors or on printed images looks unacceptable. Use the
procedure described in Section 4 of this manual – System Calibration.
This test allows Real-Time System Calibration display on the Image Monitor. System Calibration
is an automated procedure.
NOTE: If the camera is re-calibrated, the new settings should be saved to the system
and to a floppy disk. See the instructions in BACK-UP/RESTORE
SOFTWARE SETTINGS.
The third step of the Preventive Maintenance procedure is to re-calibrate the laser hard copy
device using the device manufacturer's manual.
The fourth step of the Preventive Maintenance procedure is to save the software feature
parameters and System Calibration settings to floppy disks. This provides a quick and easy
means of restoring the system parameters if one of the main components in the PC needs to be
replaced.
NOTE: There are separate procedures for saving the system and camera settings.
Document#726-602-G1 6- 9
Section 6 - Preventive Maintenance
Insert a blank, high-density double sided, floppy disk into the floppy drive (A).
From Service Applications – Configurations:
Backup
button
Document#726-602-G1 6 - 10
Section 6 - Preventive Maintenance
3. Select file name and type and then click save. The files will be saved in the
Backup folder (or other location as specified).
Document#726-602-G1 6 - 11
Section 6 - Preventive Maintenance
Backup
button
2. A new window will appear. Enter a new File Name in the File Name: box. Use
the current date as the file name.
Document#726-602-G1 6 - 12
Section 6 - Preventive Maintenance
Document#726-602-G1 6 - 13
Section 6 - Preventive Maintenance
1. Ensure that the latest camera parameters disk is in the floppy disk drive (disks
should be labeled with date backup was performed).
4. A new window appears. Select the floppy disk drive (A) source file.
Document#726-602-G1 6 - 14
Section 6 - Preventive Maintenance
5. A Registry Editor message window will appear saying the restoration update was
successful. Select the OK button.
6. Once all the system parameters have been restored, select the SAVE button.
7. Select the System Shutdown mode.
6. Reboot the system.
7. Keep the disk with technical documentation.
Document#726-602-G1 6 - 15
Section 6 - Preventive Maintenance
Mechanical Maintenance
The fifth step of the Preventive Maintenance procedure is to check the overall functionality and
appearance of each major component in the system.
Document#726-602-G1 6 - 16
Section 7 - Component Installation Procedures
Table of Contents
1. OVERVIEW..................................................................................................... 3
Document#726-602-G1 7- 1
Section 7 - Component Installation Procedures
Document#726-602-G1 7- 2
Section 7 - Component Installation Procedures
1. Overview
This section is designed to provide instructions for maintaining the system software and
replacing defective parts. In most cases, it is not necessary to repair components in the field.
The DIS-200 is designed for easy exchange of field replaceable units (FRUs) such as disk
drives and computer boards.
These instructions can also be used to add options to the system after it is installed.
WARNING! The following assumptions are made for all the instructions in this
section of the manual.
If any of these conditions have not been met, do not begin the
procedure. Contact Field Service for instructions.
NOTE: The system warranty is dependent on all the conditions listed above being met.
Document#726-602-G1 7- 3
Section 7 - Component Installation Procedures
Document#726-602-G1 7- 4
Section 7 - Component Installation Procedures
2. PC Cabinet Access
In order to replace some of the system components, it is necessary to remove the outside
covers of the electronics cabinet. Follow these instructions to remove the panels. Reverse
the instructions to replace the cabinet panels.
All external cable connections are made through the rear panel of the cabinet. It is not
necessary to remove the rear panel for any hardware replacement procedure. For some
replacement procedures, it is necessary to disconnect cables from the rear panel of the
cabinet.
WARNING: Always be sure to power down the system, the UPS, and disconnect
the main power cord from the wall outlet before performing any
service on the system.
CD Drive
Power LED
Hard Drives
Document#726-602-G1 7- 5
Section 7 - Component Installation Procedures
Left 1. Remove two screws from back lip of When replacing the side panel on
panel the cabinet frame, first engage the
2 Pull panel back slightly, using bottom channel, tip the panel into
indented handle just until clips are place and then fit into integrated
disengaged. clips. Slide the panel back into place
3. Lean panel slightly to the right and lift
up from bottom track
4. Remove panel and set aside.
Document#726-602-G1 7- 6
Section 7 - Component Installation Procedures
JP1 CDR/
CD-RW
PC POWER SUPPLY
(033-004)
LVDS INTERFACE
BOARD KIT
(726-458-G2)
Flopppy Drive
CPU
(098-651)
DIMM 1 (098-611) - FOR UPGRADE TO 512MB
DIMM 0 (098-611)
DIMM 2
POWER CONNECTOR
SECONDARY IDE
(CDR/CD-RW)
(HARD DRIVE)
PRIMARY IDE
FLOPPY DRIVE
HARD
DRIVE
Modem
IAPDB Board
Document#726-602-G1 7- 7
Section 7 - Component Installation Procedures
Power Connection
LVDS Interface Board Kit
Cable Connections
(see enlargement of
label below)
Advanced Graphics
Processor
(AGP)
Modem Board
IAPDB Board
Document#726-602-G1 7- 8
Section 7 - Component Installation Procedures
3. System Preparation
Peripheral components can be replaced without removing any panels from the PC.
However, it is recommended that the computer be shut down prior to disconnecting
existing components or connecting the replacement.
Prior to shutting down the PC, it is necessary to exit the application. To do this:
1. Close patient file that may be open by clicking arrow in Standard Control
box. The Warning dialog box will be displayed:
2. Exit application by pressing F-8 or displaying the function keys and pressing “Exit”.
3. A warning will appear asking for confirmation.
Document#726-602-G1 7- 9
Section 7 - Component Installation Procedures
The DIS-200 will safely and automatically save any new image data to the Hard Drive
and close the software program.
Document#726-602-G1 7- 10
Section 7 - Component Installation Procedures
Procedures for replacing these components are outlined in this section. Refer to Part 2 – PC
Cabinet Access and Part 3 – System Preparation prior to beginning any replacement procedure.
WARNING! The following assumptions are made for all the instructions in this
section of the manual.
CAUTION: If the Shut Down function does not result in the PC being powered OFF,
contact the Network Administrator for assistance. System errors may
occur if PC is simply turned off at the power button without proper shut
down procedures having been followed
NOTE: The keyboard may be connected to extension cable, in which case the
connection is at the end of the extension cable, near the keyboard.
2. Plug Keyboard cable into connector on the rear of the PC (see Figure below for
location of connection)
Document#726-602-G1 7- 11
Section 7 - Component Installation Procedures
7. A blank document will be displayed. To test that all letters on the keyboard work,
type the following sentence in upper and lower case letters:
THE QUICK BROWN FOX JUMPS OVER THE LAZY DOG
8. If any of these functions fail to work, the keyboard is defective.
1. Click button on the Windows Desk Top or press the Windows key on the
keyboard (lower left side of keyboard).
Document#726-602-G1 7- 12
Section 7 - Component Installation Procedures
2. Click Settings
Document#726-602-G1 7- 13
Section 7 - Component Installation Procedures
7. Click on “Language”
tab
Document#726-602-G1 7- 14
Section 7 - Component Installation Procedures
8. Click on Add
Document#726-602-G1 7- 15
Section 7 - Component Installation Procedures
1. Turn OFF the x-ray system and the DIS-200 system, and any other peripheral
devices.
2. Unplug the main power cord.
3. Unplug the Keyboard connector from the rear of the PC.
4. Attach the Y-Keyboard adapter to the rear of the PC using the Keyboard outlet.
5. Use extension cables where necessary (see figure below). A maximum of two
100 ft. extensions can be used with the Y-Keyboard adapter (one for each
Keyboard).
6. Attach one Keyboard cable to the Y-Keyboard adapter, and the other Keyboard
cable to the other outlet on the Y-Keyboard adapter.
7. Reconnect the main power cable to the wall outlet.
8. Turn ON the x-ray system.
9. Turn ON the UPS, Power Conditioner and any other peripheral devices.
10. Turn ON the system.
11. After power up, select any Acquire mode.
12. At the Patient Database window, select the NEW button to start a new patient
file.
13. Verify both keyboards can be used to enter patient data.
14. When complete, select the CANCEL button at the Patient Data window.
Circular DIN
Connector
KEYBOARD 2 ND KEYBOARD
Document#726-602-G1 7- 16
Section 7 - Component Installation Procedures
WARNING! Proper ESD procedures must be followed when replacing any electrostatic
sensitive component in the system. A ground strap may be connected to
any point on the cabinet chassis.
1. Unplug existing mouse and discard. Also, the mouse connection may be a USB
type (flat connector instead of round).
NOTE: The mouse may be connected to extension cable, in which case the connection is at
the end of the extension cable, near the mouse
2. Plug mouse into connection on the rear of the PC Cabinet. Refer to Figure 10
for location of mouse connection).
USB mouse
connection
Standard mouse
connection
Document#726-602-G1 7- 17
Section 7 - Component Installation Procedures
“Jack in
the Box”
for testing
8. With the left mouse button, double-click the “Jack in the Box” icon
9. The “Jack in the Box” will pop out if the button works.
10. If “Jack in the Box” does not pop out, the mouse is defective.
11. Repeat steps for the right mouse button.
Document#726-602-G1 7- 18
Section 7 - Component Installation Procedures
WARNING! A wrist strap must be worn while executing this procedure in order to
prevent damage to the drive and other components inside the chassis.
NOTE: The cables should already be labeled from the installation process. If they are
not labeled on the GIM, please label the connection before disconnecting them.
Also, there may be other connections then those listed above. The cables
should also be connected to the strain relief near the cable port. These
connections to the strain relief will have to be removed and then reinstalled on
the new unit.
Document#726-602-G1 7- 19
Section 7 - Component Installation Procedures
21. While the system is rebooting, hold down the <shift> key. This will cause the
system to prompt you for a login account.
22. Logon as “serviceapp” using the password “orion”.
23. The system will boot up to the Service Application.
24. Select “Config” from the main menu of the Service Application
25. Select the Generator Lines tab
26. Select the Digital Outputs tab.
27. If Pulse Fluoro Ref is “disabled”, set to enabled (remember the original setting)
28. Change the Polarity setting from “Active High” to “Active Low”,
then change it back to “Active High”.
29. In the same screen, set Phase Delay to “0” (that’s the number zero without the
quotes).
30. If Pulse Fluoro Ref was changed to “enabled” (in three steps previous), return the
setting back to “disabled”. Otherwise, leave as “enabled”.
31. Select “Save” button and select “Yes” to the “Are you sure?” question.
32. Exit the Config window
33. Exit the Service Application
34. The Clinical Application will appear. Exit the Clinical Application. The C-arm and
PC will shutdown automatically.
35. Turn on the system.
36. The system will auto-login as “operator” and starts the clinical application.
37. Acquire a new patient and perform all functions and test acquiring a patient study
and verify all features.
Document#726-602-G1 7- 20
Section 7 - Component Installation Procedures
• CD Device
• Floppy Drive
• Hard Drive
• Modem
• CPU
• Motherboard
• PC Power Supply
• DVI Matrox Board
• Video Interface Board
• LVDS Board
• Hardcopy Board
• IAPDB
In order to replace these components, it is necessary to remove the side panel of the PC. Refer
to Part 2 – PC Cabinet Access and Part 3 – System Preparation prior to beginning any
replacement procedure.
NOTE: Follow Installation instructions provided with the replacement part either by
Shimadzu or the manufacturer of the part.
Mounting Clips
Document#726-602-G1 7- 21
Section 7 - Component Installation Procedures
1. Select “Data”
Document#726-602-G1 7- 22
Section 7 - Component Installation Procedures
3. Use the menu to choose a file and drag it down to the lower right selection box.
4. Insert a blank CD and click the Create CD button on the top menu bar.
5. Click OK at the next window.
6. When write is complete remove the CD and insert it into another PC and verify
the CD can be read.
7. Close Easy CD Creator and open Golden Hawk software by clicking the Icon on
the desktop.
8. Open a test file.
9. Write additional Data to the CD.
10. Review the CD on another PC to verify the write was created successfully.
11. If the CD can be reviewed testing is complete.
Record Method:
Finalize Session Don’t Finalize CD Track-at-once
Document#726-602-G1 7- 23
Section 7 - Component Installation Procedures
This procedure provides instructions on how to remove and attach the new floppy drive
in a DIS-200 system in the field.
EQUIPMENT/MATERIALS:
• Floppy drive
• Installation instructions
WARNING! A wrist strap must be worn while executing this procedure in order to
prevent damage to the drive and other components inside the chassis.
1. Turn OFF the entire system and unplug the System main power cord.
Document#726-602-G1 7- 24
Section 7 - Component Installation Procedures
Rear Chassis
Screws
1. Remove the two screws from the rear of the chassis. (See Above)
2. Disconnect the internal power cable between the power supply and the drive unit
being replaced (cut cable ties where necessary).
3. Disconnect the interface cable from the back of the drive.
Document#726-602-G1 7- 25
Section 7 - Component Installation Procedures
4. Remove the front cover by pressing the tabs and pulling the cover away from the
chassis.
Floppy Drive
5. Press in the tabs and remove the floppy drive. Remove the rails from the side of
the floppy drive and install them on the new floppy drive
6. Reconnect the interface cable and power cable to the new drive.
7. Reconnect the main power cable and power on the peripherals and PC.
8. Power the System ON.
9. Insert a blank floppy in the new drive.
10. Press Windows key on keyboard for START menu.
11. From the START button, select Programs and Windows 2000 Explorer.
12. To verify that the floppy drive works: Copy a file from the C: drive to the floppy
disk. Verify that the file appears on the A: drive.
13. Close the EXPLORER Window.
14. Select System Shutdown mode and confirm.
15. Turn OFF the PC and any peripheral devices.
16. Reattach the PC side panel and fasten it with the screws from the earlier step.
Document#726-602-G1 7- 26
Section 7 - Component Installation Procedures
17. Reattach the front panel to the PC tower by inserting the tabs on the right side of
the panel into the mounting holes on the PC, then tilt in the left side until the tabs
catch in the PC.
18. Turn ON the system, and ensure the system powers up properly.
4. Remove the two screws from the rear of the chassis and remove the side panel.
(See Above)
Document#726-602-G1 7- 27
Section 7 - Component Installation Procedures
5.
5. Remove the power connector and IDE Cable from the defective drive.
6. Remove the screw that holds the hard drive bay in place.
7. Remove the screws that hold the hard drive in the bay on both sides (four
screws).
8. Remove the defective hard drive from the metal bay.
9. Install the new Hard Drive into the metal bay and secure it with the screws.
10. Install the drive and bay back into the chassis.
11. Connect the power and IDE cable onto the new drive.
12. Remove the Ethernet cable from the computer.
13. Power on the system and verify it boots to the windows desktop.
14. Logon as serviceapp user.
NOTE: At this point, contact the system administrator to supply the network
information (IP address, Subnet, DNS, etc.). The machine name is the
serial number of the system as a default from the factory.
24. Insert the config floppy into the floppy drive (This is the floppy that should have
been made after initial setup of the system which includes SysConfig.xml,
UserConfig.xml and Calsettings.cal.).
25. Open the Service Application.
26. Click Config.
27. Click restore.
Document#726-602-G1 7- 28
Section 7 - Component Installation Procedures
WARNING! Proper ESD procedures must be follow when replacing any electrostatic
sensitive component in the system. A ground strap may be connected to
any point on the cabinet chassis.
1. Turn OFF the entire system and unplug the system main power cord.
Rear Chassis
Screws
Document#726-602-G1 7- 29
Section 7 - Component Installation Procedures
2. Remove the two screws from the rear of the chassis (see above).
3. Remove the modem cable attached to the board.
4. Remove the modem from inside the Chassis (Slot #1).
Modem in Slot #2
5. Insert the replacement board into the same slot the defective one came out of.
6. Turn ON the system and monitors, and ensure it powers up properly.
7. Exit any applications
10. Now contact Customer Care and request that they dial into the system to check
the connection.
11. Once Shimadzu confirms the connection, the installation is complete.
12. Perform normal shutdown.
13. Reattached the PC side panel and fasten it with the screws from the earlier step.
14. Power system back up.
Document#726-602-G1 7- 30
Section 7 - Component Installation Procedures
EQUIPMENT/MATERIALS
The following material should be provided with this replacement kit:
• Motherboard
• CPU
Definitions:
1. Turn OFF the entire system and unplug the system main power cord.
Document#726-602-G1 7- 31
Section 7 - Component Installation Procedures
Rear Chassis
Screws
2. Remove the two screws from the rear of the chassis. (See Above)
3. Remove the side panel by sliding the two tabs, sliding the panel forward, and
lifting from the chassis.
4. Remove all external cables from the outside of the Chassis.
5. Pull tower out and lay on side.
Power Connector
Mounting
hardware S-DRAM memory
Modules
IDE and Floppy
Connections
Fan power
Additional Com 2
Hardware boards
Reset/Power
switch
Document#726-602-G1 7- 32
Section 7 - Component Installation Procedures
Power Connector
Mounting
hardware S-DRAM memory
Modules
IDE and Floppy
Connections
Fan power
Additional Com 2
Hardware boards
Reset/Power
switch
Intel D815EEAU2
Power Connector
DDR S-DRAM
memory Modules
Power
Cable Power, Reset,
LED header
See below
Intel D845GEBV2
7. Disconnect all internal cables to the Motherboard. (Take note of their position)
6. Remove the standoffs securing the long board.
7. Remove all hardware boards. (Take note of their position)
8. Remove the mounting screws that hold the motherboard in place. (Scattered
around the outside edge and in the middle)
9. D845 motherboard only: Unplug the power cable to the CPU fan.
10. Remove the S-DRAM DIMM from the old motherboard and install in the new
motherboard.
11. Insert the Motherboard.
12. Mount the Motherboard using the hardware removed from the defective one.
13. Install all the additional hardware boards.
14. Reconnect all power connections and cables.
NOTE: The D845GEBV2 motherboard connections are slightly different than the
D815EEAU2
Document#726-602-G1 7- 33
Section 7 - Component Installation Procedures
2 4 6 8
1 3 5 7 9
15. Install the Keyboard & Mouse and all other exterior connections.
16. Power up system and press [F2] to enter C-MOS and verify the C-MOS settings.
Main:
BIOS Version Cannot Change
Advanced:
Extended Configuration [Not Used]
PCI Configuration
Boot Configuration
Peripheral Configuration
IDE Configuration
Diskette Configuration
Event Log Configuration
Video Configuration
PCI Configuration:
PCI Slot1 IRQ Priority [Auto]
Document#726-602-G1 7- 34
Section 7 - Component Installation Procedures
Boot Configuration:
Plug & Play O/S [Yes]
Reset Config Data [No]
Numlock [On]
Peripheral Configuration:
IDE Configuration:
Diskette Configuration:
Video Configuration:
Security:
Supervisor Password Is [Not Installed]
User Password Is [Not Installed]
Set Supervisor Password
Set User Password
Power:
APM
Power Management [Enabled]
Inactivity Timer [20 Minutes]
Hard Drive [Enabled]
ACPI
ACPI Suspend State [S1 State]
Video Repost [Disable]
Wake on LAN from S5 [Stay Off]
Boot:
Quiet Boot [Enabled]
Intel ® Rapid BIOS Boot [Disabled]
Scan User Flash Area [Disabled]
Boot Device Priority
1st Boot Device [Removable Dev.]
2nd Boot Device [Hard Drive]
3rd Boot Device [ATAPI CD-ROM]
4th Boot Device [Intel ® Boot Agent
Ve]
Hard Disk Drive
1st Hard Disk Drive [ID of installed Hard
Document#726-602-G1 7- 36
Section 7 - Component Installation Procedures
Drive]
Removable Devices
1st Removable Device [1st Floppy drive]
ATAPI CD-ROM Drives
1st ATAPI CDROM [ID of installed CD
Drive]
Document#726-602-G1 7- 38
Section 7 - Component Installation Procedures
WARNING! Proper ESD procedures must be follow when replacing any electrostatic
sensitive component in the system. A ground strap may be connected to
any point on the cabinet chassis.
1. Turn OFF the entire system and unplug the system main power cord.
Rear Chassis
Screws
2. Remove the two screws from the rear of the chassis. (See Above)
Document#726-602-G1 7- 39
Section 7 - Component Installation Procedures
Mounting Screws
3. Remove the four (4) screws that hold the power supply in place and remove the
power connections from the motherboard and other devices.
4. Remove the old power supply. Be careful not to hit the CPU processor.
5. Mount the New Power supply with the four (4) screws.
6. Insert the new power supply connections into the motherboard.
7. Plug the main power cord back into the system.
8. Turn ON the UPS and Power Conditioner (if installed).
9. Turn ON the system and monitors, and ensure it powers up properly.
10. From the Windows 2000 screen, press the “Start” button and the “Shut Down” to
shut the system down.
11. Turn OFF the PC, Isolation Transformer, UPS and all peripherals.
12. Replace the cabinet Side panel to the PC.
13. Power on the system.
This procedure provides instructions on how to remove and install a new graphics board
in a DIS-200 digital system in the field.
EQUIPMENT/MATERIALS:
• Graphics board
• Installation instructions
WARNING! A wrist strap must be worn while executing this procedure in order to
prevent damage to the drive and other components inside the
chassis.
Document#726-602-G1 7- 40
Section 7 - Component Installation Procedures
Rear Chassis
Screws
5. Remove the left side panel (as looking from the front of the PC tower) by pulling
the panel slightly toward the back, using the indent in the panel.
6. Lean the panel slightly outward and lift up from the bottom track.
Document#726-602-G1 7- 41
Section 7 - Component Installation Procedures
10. Pull the board out of the PC and slide in the replacement board.
11. Secure the board with the screw removed earlier.
12. Connect the reference monitor SVGA cable (if the option is installed) to the
graphics board.
13. Connect the graphics cable to the board.
14. Power on the system.
15. Follow standard Windows and digital system startup procedure.
16. If the system starts up properly and gets to the main menu of the clinical
application, then the graphics board was properly installed. If the reference
image option is installed in the system, then select a patient for review and send
an image to the reference monitor. If the reference monitor displays the image,
then this function is operational.
Document#726-602-G1 7- 42
Section 7 - Component Installation Procedures
18. Insert the bottom edge of the side panel into the edge on the bottom of the PC
tower.
20. Push the panel toward the front of the PC tower until the front edge of the panel
locks into the front of the tower.
21. Screw in the two screws in the rear of the PC to hold the side panel.
22. Power the system back on and verify that the application is started.
This procedure provides instructions on how to remove and install a new video interface
board in the DIS-200.
EQUIPMENT/MATERIALS:
The following material is provided with the replacement kit:
WARNING! A wrist strap must be worn while executing this procedure in order to
prevent damage to the drive and other components inside the chassis.
Document#726-602-G1 7- 43
Section 7 - Component Installation Procedures
Rear Chassis
Screws
5. Remove the left side panel (as looking from the front of the PC tower) by pulling
the panel slightly toward the back, using the indent in the panel.
6. Lean the panel slightly outward and lift up from the bottom track.
Document#726-602-G1 7- 44
Section 7 - Component Installation Procedures
7. Disconnect the external Video cables from the board. This can include two BNC
connections, a SVGA connection and an S Video connection (for optional scan
converter). Please mark which cable came from which connector.
8. Disconnect the jumper cable from the IAPDB (an internal cable).
9. Using a Philips screwdriver, remove the one screw used to secure the video
interface board in the PC.
10. Pull the board out of the PC and slide in the replacement board.
11. Secure the board with the screw removed earlier.
12. Connect the internal jumper cable from the IAPDB.
13. Connect the external cable(s) to the board.
14. Power on the system.
15. Follow standard Windows and digital system startup procedure.
16. If the system starts up properly and gets to the main menu of the clinical
application, then the video interface board was properly installed. Verify that the
monitor(s) that are connected to the BNC or SVGA connection display the same
video. If the scan converter option is installed in the system, then select a patient
for review and verify that the image on the primary monitor is also available on
the scan converter output. Perform functionality test on the system.
17. Perform normal shutdown.
Document#726-602-G1 7- 45
Section 7 - Component Installation Procedures
19. Insert the bottom edge of the side panel into the edge on the bottom of the PC
tower.
20. Tilt the side into the tower cabinet.
21. Push the panel toward the front of the PC tower until the front edge of the panel
locks into the front of the tower.
22. Screw in the two screws in the rear of the PC to hold the side panel.
23. Power the system back on and verify that the application is started.
This procedure provides instructions on how to remove and install a new video interface
board in a DIS-200..
EQUIPMENT/MATERIALS:
WARNING! A wrist strap must be worn while executing this procedure in order to
prevent damage to the drive and other components inside the chassis.
Document#726-602-G1 7- 46
Section 7 - Component Installation Procedures
Remove these
screws to take
off side panel
6. Remove the left side panel (as looking from the front of the PC tower) by pulling
the panel slightly toward the back, using the indent in the panel.
7. Lean the panel slightly outward and lift up from the bottom track.
Document#726-602-G1 7- 47
Section 7 - Component Installation Procedures
Retaining screws
Document#726-602-G1 7- 48
Section 7 - Component Installation Procedures
21. Insert the bottom edge of the side panel into the edge on the bottom of the PC
tower.
22. Tilt the side into the tower cabinet.
23. Push the panel toward the front of the PC tower until the front edge of the panel
locks into the front of the tower.
24. Screw in the two screws in the rear of the PC to hold the side panel.
25. Power the system back on and verify that the application is started.
This procedure provides instructions on how to remove and install a hardcopy (digital
host control) interface board in a DIS-200..
EQUIPMENT/MATERIALS:
DEFINITIONS
Digital Host The digital host control board interfaces to laser printers using a protocol
Control board develop by 3M, called 3M 831. This board is a small board with a 37-pin
(DHC) connector on the external side of the board and an internal connection for
a serial communications cable.
WARNING! A wrist strap must be worn while executing this procedure in order to
prevent damage to the drive and other components inside the chassis.
Document#726-602-G1 7- 49
Section 7 - Component Installation Procedures
Rear Chassis
Screws
6. Remove the left side panel (as looking from the front of the PC tower) by pulling
the panel slightly toward the back, using the indent in the panel.
7. Lean the panel slightly outward and lift up from the bottom track.
Document#726-602-G1 7- 50
Section 7 - Component Installation Procedures
8. Disconnect the external hardcopy cable (37 pin) from the board.
9. Disconnect the serial ribbon cable (for serial communications) from the board.
10. Using a Philips head screwdriver, remove the one retaining screw from the
mounting bracket on the PC.
11. Pull the board out of the PC and slide in the replacement board.
12. Secure the board with the screw removed earlier.
13. Reconnect the serial ribbon cable to the board.
14. Reconnect the external hardcopy cable to the board.
15. Power on the system.
16. Perform normal boot up.
17. When the system has powered up to the application, exit and start the service
application. Select the “Diag” function and execute the diagnostics for the
hardcopy board. If the tests pass, the board has been installed properly.
18. Perform full function test on the system.
19. Perform normal shutdown.
Document#726-602-G1 7- 51
Section 7 - Component Installation Procedures
20. Insert the bottom edge of the side panel into the edge on the bottom of the PC
tower.
22. Push the panel toward the front of the PC tower until the front edge of the panel
locks into the front of the tower.
23. Screw in the two screws in the rear of the PC to hold the side panel.
Power the system back on and verify that the application is started.
Document#726-602-G1 7- 52
Section 7 - Component Installation Procedures
This procedure provides instructions on how to remove and install an IAPDB in a DIS-
200 system in the field.
EQUIPMENT/MATERIALS:
• IAPDB
• Installation instructions
DEFINITIONS
IAPDB Image Acquisition, Processing and Display Board – the main board in the
system, responsible for interfacing to the camera, GIM unit, performing the
image processing and driving the video display in the system.
WARNING! A wrist strap must be worn while executing this procedure in order to
prevent damage to the drive and other components inside the chassis.
Document#726-602-G1 7- 53
Section 7 - Component Installation Procedures
Screws to be
removed to
remove side
cover
6. Remove the left side panel (as looking from the front of the PC tower) by pulling
the panel slightly toward the back, using the indent in the panel.
7. Lean the panel slightly outward and lift up from the bottom track.
Document#726-602-G1 7- 54
Section 7 - Component Installation Procedures
Standoffs
8. Disconnect the external DVI cable (short cable to graphics board) from the board.
9. Disconnect the GIM cable (network style connector) from the board.
10. Disconnect the internal video ribbon cable.
Document#726-602-G1 7- 55
Section 7 - Component Installation Procedures
34. Insert the bottom edge of the side panel into the edge on the bottom of the PC
tower.
36. Push the panel toward the front of the PC tower until the front edge of the panel
locks into the front of the tower.
37. Screw in the two screws in the rear of the PC to hold the side panel.
38. Power the system back on and verify that the application is started.
39. Run System Diagnostic Testing. Refer to Section 5 – System Testing for details
on this procedure.
Document#726-602-G1 7- 56
Section 7 - Component Installation Procedures
Rear Chassis
Screws
Figure 1
4. Remove the two screws from the rear of the chassis. (See Figure 1)
5. Remove the side cover.
Document#726-602-G1 7- 57
Section 7 - Component Installation Procedures
PC Bracket
mounting screw
IAPDB Board
Figure 2
6. Remove the PC bracket mounting screw from the IAPDB board. (See Figure 2)
Top Standoff
Figure 3
7. Remove the top Standoff screw from the board. (See Figure 3)
8. Remove the cables connected to the IAPDB board.
9. Cut the Tie wrap in the chassis that supports the board to the board brace. (Not
shown in Figure 3)
10. Remove the IAPDB board from the PC motherboard.
Document#726-602-G1 7- 58
Section 7 - Component Installation Procedures
Figure 4
11. Remove the existing memory module from the IAPDB board by pulling the white
ejection tabs away from the module. (The module will unseat itself from the
connector. See Figure 4)
12. Insert the new or replacement module into the connector and lock the white tabs.
13. Insert the IAPDB board back into the chassis slot that it was removed from.
14. Fasten the PC bracket with the screw that was removed from the earlier step.
15. Reattached the PC side panel and fasten it with the screws from the earlier step.
16. Turn ON the system and monitors, and verify the system boots to the main
menu.
17. Perform full functionality testing on the system
Document#726-602-G1 7- 59
Section 7 - Component Installation Procedures
Document#726-602-G1 7- 60
Section 7 - Component Installation Procedures
Motherboard
Hard Drive Replacement Kit, LRG D845 726-223-G2 w/ Instructions
Motherboard
Hard Drive Replacement Kit, STD D845 726-223-G1 w/ Instructions
Motherboard
Hard Drive Replacement Kit, LRG D845 726-223-G2 w/ Instructions
Motherboard
IAPDB Board Replacement Kit 726-159-G5 w/ Instructions
Iris Assembly Replacement Kit, SF 726-548-G2 w/ Instructions
Isolation Transformer – 100V 735-272-G3
Isolation Transformer – 115V 735-272-G1
Isolation Transformer – 230V 735-272-G2
Keyboard Replacement – LT Gray 098-632
Keyboard Replacement - Black 098-699
LVDS Interface Board Replacement Kit 726-160-G1 w/ Instructions
Manual, Technical 726-602-G1
Manual, User 726-600-G1
Document#726-602-G1 7- 61
Appendices
Appendix A Symbols
Appendix B Abbreviations and Definitions
Appendix C Compatibility List
Appendix D Pulsed Fluoro Configuration
A Amps
ABS Automatic Brightness Stabilization
AC Alternating Current
American College of Radiology – National Electronics
ACR-NEMA
Manufacturers Association
AGC Automatic Gain Control
Auto Image Optimization – A technique used to automatically
AIO select the optimum W/L and Display Lookup Table before the
image is displayed.
ATA66 66 Mbyte/Sec IDE Interface
BGHC Background Hardcopy.
Bit Smallest quantity of computer data represented by either 0 or 1
Byte 8-bit quantity
C Celsius
CD-RW Compact Disk-Rewritable
cm Centimeters
Room separate from the In-Room where the patient can be
Control Room
monitored during the procedure.
CPU Central Processing Unit.
DAC Digital to Analog Converter
DICOM Digital Imaging Communications in Medicine.
DHC Digital Host Control Interface Board
DRAM Dynamic RAM
Digital Subtraction Angiography (also known as Vascular
DSA
Procedure)
DSP Digital Signal Processor
E Expose
F Fahrenheit
FDA Food and Drug Administration
FIFO First In First Out
FOV Field Of View
FPGA Field Programmable Gate Array
fps Frames per second
FRU Field Replaceable Unit
FWD Forward
Gx Gain – Refers to Image Intensifier gain
hPa Hecto Pascal (unit of pressure measurement)
HDD Hard Disk Drive
Doc. #726-602-G1 Appendix 5
Hz Hertz
IAPDB Image Acquisition Processing and Display Board
The room that contains the x-ray source, detector and the table
In-Room
that holds the patient undergoing the procedure
kV Kilovoltage
L Level (Brightness)
LCD Liquid Crystal Display
LED Light Emitting Diode
LIH Last Image Hold
LUT Lookup Table.
LVO Live Video Override (also referred to as Fluoro Override)
Mbytes 10242 or 1,048,576 bytes
MC Motion Correction
mA Milliamps
MID Multi Image Display
mm Millimeter
mR Milli-rad
OTS Off The Shelf
Opacification *An act or the process of becoming or rendering opaque
PACE Post-acquisition Automatic Copy and Enhancement.
PC Personal Computer.
PCI Peripheral Component Interconnect.
Embedded Processor with a PCI interface used on the IAPB
PCI Processor
board for real time acquisition and image processing control.
A button that carries out an action. The button's appearance
changes when it is pressed, and reverts back to its previous
Push Button
appearance when released. A Push Button typically has a label
which describes its action (same as Command Button).
QA Quantitative Analysis
QID Quad Image Display
RTD Real-Time Disk.
R/F Radiography / Fluorography
RAID Redundant Array of Inexpensive Disks
RAM Random Access Memory
RAMDAC Random Access Memory Digital to Analog Converter
ROI Region of Interest
SCSI Small Computer Systems Interconnect.
SDRAM Synchronize Dynamic Random Access Memory
SID Single Image Display
SIMM Single Inline Memory Module
S/N Serial Number
SRAM Static RAM
SVGA Super Video Graphics Adapter.
SW Software.
Doc. #726-602-G1 Appendix 6
UL Underwriters Laboratory
uR Micro-Rad
V Volts
VCR Video Cassette Recorder
VGA Video Graphic Adapter.
VxD Windows Virtual Device Driver
W Window
*Merriam Webster Medical Dictionary
Table of Contents
Overview .................................................................................................................................. 11
DICOM PACS Network Compatibility .................................................................................... 11
DICOM compatible PACS networks Compatibility (Ethernet........................................... 11
DICOM Print Class Compatibility........................................................................................... 11
Hardcopy Compatibility.......................................................................................................... 12
Approved Generator Compatibility ....................................................................................... 13
Approved Cine Generators ................................................................................................. 13
Approved Pulsed Fluoro Generators................................................................................. 13
Approved Digital Stepping Generators/Tables ................................................................. 13
Name
Status
Agfa IMPAX
Approved
Comview
Approved
Imation/CEMAX/ICON
Approved
Kodak CX/DX V2.1.7 Approved (this is an SCP class only review station)
Hardcopy Compatibility: DIS-200 Direct Digital Host Control to Digital Laser Imagers
Kodak Ektascan 100 Approved Digital Interface with RS485 Cable, P831 Autofilming,
w KEIM and 4 memory boards
Kodak XLP Laser Approved Digital Interface with RS485 Cable, P831 Autofilming,
and 4 memory boards
Kodak Ektascan 1120 Approved Digital Interface with RS485 Cable, P831 Autofilming,
and 20 MB board
Kodak Ektascan 2180 Approved Digital Interface with RS485 Cable, P831 Autofilming,
and 3 memory boards
Konica DryPro 722 Approved Uses PrintLink ID as frontend
Konica LI-10A Approved Digital Interface with RS485 Cable
Polaroid Helios Approved Digital host control, P831 selected
Shimadzu
UD150-B10 Shimadzu P.F. generator modification
Manufacturer
Model Status
Radiation Pulse On - (FL PULSE ON [for pulsed fluoro systems only] or RAD PULSE ON [for
systems that support Cine]). The radiation pulse on indicates to the DIS-200 system that the
generator is currently generating an x-ray exposure (Cine or Pulsed Fluoro). This pulse must be
active for a minimum of 10 milliseconds and a maximum of 30 milliseconds. See the following
figures for examples of its behavior during the different pulsed fluoro settings.
Pulsed Fluoro Select - (PFLUORO SEL) The pulsed fluoro select signal indicates to the DIS-
200 system that pulse fluoro radiation at less than 30 frames per second is selected. This
signal must be active anytime pulsed fluoro radiation at less than 30 frames per second is active
and the generator is using the first method of interfacing pulsed fluoro. See the following figures
for examples of its behavior during the different pulsed fluoro settings.
PF Select Inactive
VSYNC
PF Select Inactive
VSYNC
PF Select Active
RAD_ON
10 - 30 ms
VSYNC
PF Select Active
RAD_ON
10 - 30 ms
7.5 Frame per Second Pulsed Fluoro Using Pulsed Fluoro Select
RAD_ON Active
30 Frame per Second Continuous Fluoro Not Using Pulsed Fluoro Select
VSYNC
RAD_ON
10 - 16 ms
30 Frame per Second Pulsed Fluoro Not Using Pulsed Fluoro Select
VSYNC
RAD_ON
10 - 16 ms
15 Frame per Second Pulsed Fluoro Not Using Pulsed Fluoro Select
VSYNC
RAD_ON
10 - 16 ms
7.5 Frame per Second Pulsed Fluoro Not Using Pulsed Fluoro Select