SparkLAN Communications WPEA121N 802.11n,Dual Band, WLAN PCI Express Half Mini Card User Manual
SparkLAN Communications, Inc. 802.11n,Dual Band, WLAN PCI Express Half Mini Card
Contents
- 1. user manual
- 2. User Manual
User Manual
Wireless Service Manual
Wireless Service Manual
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Revision History
Revision Date Descriptions
1.0 2012-06-08 Initial Release
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Contents
Safety and Regulatory ....................................................................................................... 6
Safety Notice ............................................................................................................................................. 6
Safety Information .................................................................................................................................... 7
Battery Pack and Battery Charger Safety Information ......................................................................... 9
General Hazards ...................................................................................................................................... 11
Owner’s Responsibility ........................................................................................................................... 11
Notes for Using the Equipment ............................................................................................................. 12
Regulatory ............................................................................................................................................... 15
Medical Equipment Classifications .................................................................................................... 15
Equipment Standards ........................................................................................................................ 15
Guidance and Manufacturer’s Declaration for EMC Directive .......................................................... 16
Label and Symbols ............................................................................................................................ 19
1. Overview .................................................................................................................... 22
1.1 Features ........................................................................................................................................ 22
1.2 Intended Use ................................................................................................................................ 22
1.3 Standard Configuration ............................................................................................................... 23
2. Product Description .................................................................................................. 24
2.1 Product Components .................................................................................................................. 24
2.2 Detector ........................................................................................................................................ 26
2.2.1 Detector Specifications ........................................................................................................... 26
2.2.2 Detector Components ............................................................................................................ 27
2.2.3 Detector Dimension ................................................................................................................ 28
2.3 System Control Unit .................................................................................................................... 29
2.3.1 System Control Unit Specifications ........................................................................................ 29
2.3.2 System Control Unit Components .......................................................................................... 30
2.3.3 SCU Dimension ...................................................................................................................... 32
2.3.4 Fuse ........................................................................................................................................ 33
2.4 Battery Charger and Battery Pack ............................................................................................. 34
2.4.1 Battery Charger Specifications ............................................................................................... 34
2.4.2 Battery Charger Components ................................................................................................. 34
2.4.3 Battery Charger Dimension .................................................................................................... 35
2.5 Battery Pack ................................................................................................................................. 36
2.5.1 Battery Pack Specifications .................................................................................................... 36
2.5.2 Battery Pack Dimension ......................................................................................................... 36
2.5.3 Charging Battery Pack ........................................................................................................... 37
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2.6 X-ray Generator Interface ........................................................................................................... 38
2.6.1 X-ray Exposure Mode ............................................................................................................. 38
2.6.2 Timing of Signals (DR Trigger Mode) ..................................................................................... 40
2.6.3 EXT_INF Port Pin Assignment ............................................................................................... 40
2.6.4 Input and Output Circuits ........................................................................................................ 43
3. Packaging and Contents ........................................................................................... 44
4. How to Install ............................................................................................................. 45
4.1 Hardware Installation .................................................................................................................. 45
4.1.1 FXRD-1417WA (B) ................................................................................................................. 45
4.2 Software Installation .................................................................................................................... 49
4.2.1 Intel Gigabit Controller Driver Installation and Setting ........................................................... 49
4.2.2 Gigabit Controller Setting on Windows XP ............................................................................. 53
4.2.3 Gigabit Controller Setting on Windows 7 ............................................................................... 59
4.2.4 VXvue Installation ................................................................................................................... 64
4.2.5 Allowing VXvue to communicate through Windows Firewall on Windows XP ....................... 72
4.2.6 Allowing VXvue to communicate through Windows Firewall on Windows 7 .......................... 75
5. Prerequisite for Operation ........................................................................................ 77
5.1 Preparing the SCU ....................................................................................................................... 77
5.2 Generator Configuration ............................................................................................................. 78
5.3 Detector Configuration ............................................................................................................... 79
5.3.1 Detector Setting ...................................................................................................................... 80
5.3.2 Configuring Devices ............................................................................................................... 82
5.4 Detector Calibration .................................................................................................................... 87
5.4.1 Configuring the Detector ........................................................................................................ 87
5.4.2 Offset Calibration .................................................................................................................... 91
5.4.3 Defect Correction ................................................................................................................... 93
5.4.4 Gain Pixel Correction ........................................................................................................... 100
5.4.5 Detector Preference ............................................................................................................. 101
5.5 Diagnosis Mode ......................................................................................................................... 102
6. Operation ................................................................................................................. 104
7. Maintenance ............................................................................................................. 105
7.1 Function Test ............................................................................................................................. 105
7.2 Maintenance Guidelines for Users and Test Forms ............................................................... 106
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8. Troubleshooting ...................................................................................................... 122
8.1 Failure Case ............................................................................................................................... 122
8.1.1 Repairing SCU...................................................................................................................... 122
8.1.2 Repairing Power Failure ....................................................................................................... 122
8.1.3 Configuration Failure ............................................................................................................ 122
8.1.4 Repairing Communication Failure ........................................................................................ 122
9. Warranty ................................................................................................................... 123
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Safety and Regulatory
Safety Notice
The following safety notices are used to emphasize certain safety instructions. Follow the safety instructions
in this manual along with warnings and cautions symbols. Ignoring such warnings or cautions while handling
the product may results in serious injury or accident. It is important for you to read and understand the
contents of this manual before attempting to use the product.
Symbols Descriptions
Indicates a potentially hazardous situation which will cause death, severe personal injury
or substantial property damage if the instructions are ignored.
Indicates a potentially hazardous situation which may cause minor personal
injury or
property damage if the instructions are ignored.
Provides additional information that is helpful to you. It may emphasize certain information
regarding special tools or items to check before operating the product.
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Safety Information
This product is designed and manufactured to ensure maximum safety of operation and to meet all the
safety requirements applicable to electronic medical equipment. However, anyone attempting to operate the
system must be fully aware of potential safety hazards. It should be operated and maintained in strict
compliance with the following safety precautions and operating instruments contained herein:
Caution: Federal law restricts this device to sale by or on the order of a physician or a
licensed practitioner.
Always be alert when operating this device. If a malfunction occurs, do not use this device
until qualified personnel correct the problems.
The product should be installed, maintained and serviced according to Vieworks
maintenance procedures and by Vieworks personnel or other qualified maintenance
personnel approved in writing by Vieworks. Operation and maintenance should be done in
strict compliance with the operation instructions contained in the manuals.
The system, in whole or in part, cannot be modified in any way without written approval
from Vieworks.
Before authorizing any person to operate the system, verify that the person has read and
fully understand the Service Manual. The owner should make certain that only properly
trained and fully qualified personnel are authorized to operate the equipment. An
authorized operators list should be maintained.
Prevent unauthorized personnel from access to the system.
It is important that this Service Manual be kept at hand, studied carefully and reviewed
periodically by the authorized operators.
The owner should ensure continuous power supply to the system, with voltage and
current according to the product specifications. If power failures are frequent, an
Uninterrupted Power Supply (UPS) should be installed to avoid loss of data.
If the product does not operate properly or if it fails to respond to the controls described in
this manual, the operator should immediately contact Vieworks field service
representative.
User must not contact a fuse holder or contacts of connector (ex: Inlet connector) with a
patient simultaneously during operating the equipment and not allow patient to touch the
fuse holder or contacts of connector.
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The images and calculations provided by this system are intended to be used as tools for
the competent user. They are explicitly not to be regarded as a sole incontrovertible basis
for clinical diagnosis. Users are encouraged to study the literature and reach their own
professional conclusions regarding the clinical utility of the system.
The user should be aware of the product specifications and of the system’s accuracy and
stability limitations. These limitations must be considered before making any decision
based on quantitative values, in case of doubt, please consult a Vieworks representative.
Do not install the equipment in a location with the conditions listed below. Otherwise, it
may result in failure or malfunction, fall or cause fire or injury.
Close to facilities where water is used.
Locations exposed to direct sunlight.
Close to air-conditioner or ventilation equipment.
Close to heat source such as a heater.
Prone to vibration.
Insecure place.
Dusty environment.
Saline or sulfurous environment.
High humidity.
Ambient temperature is higher than the operating temperature stated in this Service
Manual.
Occasionally, this product may have defect pixels caused by TFT characteristics. When
the defect pixels are found, perform the Defect detection. For details about how to correct
defect pixels, refer to 5.4.3 Defect Correction.
Do not inflict excessive shock and mechanical vibration. Otherwise, it may result in poor
image quality caused by noise.
Do not unscrew or loosen the screws on the detector surface since all the screws are
secured properly at the time of shipment. Otherwise, it may result in poor image quality or
damage to equipment.
This product may malfunction due to electromagnetic interference (EMI) caused by
telecommunication devices, transceivers, electronic devices, etc. To prevent the
electromagnetic wave from badly influencing the product, be sure to avoid placing it in
close proximity to the product. Or, change direction or position of the product or move into
the shielded place to reduce electromagnetic interference.
To reduce the risk of electric shock, do not remove cover. No user-serviceable part inside.
Refer servicing to qualified service personnel.
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Battery Pack and Battery Charger Safety Information
Before using the battery pack and battery charger dedicated to ViVIX-S Wireless, read all applicable
warnings and cautions.
Not following these instructions could result in electrical shock, fire, explosion or other conditions which may
cause death, injury or property damages.
Do not use the battery pack as a power source for equipment other than ViVIX-S Wireless
detectors. Be sure to use only the dedicated battery pack for the ViVIX-S Wireless
detector.
The battery charger is designed for the dedicated battery pack. Do not use the battery
charger other than the dedicated one. Otherwise, a battery explosion or a battery leak
may occur, resulting in fire or electrical shock.
Do not operate the battery charger using any type of power supply other than the one
indicated on the rating label.
Do not handle the product with wet hands.
Do not place heavy objects such as medical equipment on cables and cords, or do not
pull, bend, bundle, or step on them to prevent their sheath from being damaged.
Do not attempt to disassemble, alter, or apply heat to the product.
Avoid dropping or subjecting the product to severe impacts. To avoid the risk of injury, do
not touch the internal parts of the battery if it has been cracked or otherwise damaged.
Stop using the battery pack immediately if it emits smoke, a strange smell, or otherwise
behaves abnormally.
Do not let the battery pack and battery charger come into contact with water or other
liquids and do not allow them to get wet.
Do not clean with substances containing organic solvents such as alcohol, benzene,
thinner, or other chemicals. Otherwise, fire or electrical shock may result.
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Do not allow dirt or metal objects (such as hair pins, clips, staples or keys) to contact the
terminals. Otherwise, battery explosion or leakage of electrolyte may occur, resulting in
fire, injury or pollution of surrounding area. If the battery leaks and the electrolytes come
into contact with your eyes, mouth, skin or clothing, immediately wash it away with running
water and seek medical attention.
Do not leave, store, or place the product in a location near heat sources, or in a place
subject to direct sunlight, high temperature, high humidity, excessive dust, or mechanical
shock. Otherwise, battery leakage, overheating or damage to the product may occur,
resulting in electrical shock, burns, injury or fire.
Do not attempt to use a battery pack that has deteriorated. Using a battery pack that has
exceeded its life cycle may lead to overheating, fire or explosion.
The Lithium ion/polymer battery is recyclable.
Battery slowly discharges even if not in use. The battery pack may have expired if it
discharges immediately after being fully charged. You can purchase an optional battery
pack to replace an exhausted one.
The battery pack is a consumable item. If a fully charged battery is consumed quickly, use
a new and fully charged battery pack.
Be sure to charge the battery periodically (once a year) if it is not used for an extended
period of time. The battery pack cannot be charged if it has been over discharged.
Before discarding the battery pack, cover the terminals with adhesive tape or other
insulators. Contact with other metal materials may cause fire or explosion.
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General Hazards
Radiation Hazards
This system can be connected to x-ray generating equipment. Be certain to follow the safety instructions and
specifications for wearing proper lead apron when x-ray exposures are planned or possible.
All personnel should wear protective equipment including dosimeters during all phases of installation,
operation and maintenance of the system.
Electric Shock Hazards
To reduce the electric shock hazard, the system must be connected to an electrical ground. A three
conductor AC power cable is supplied with this system to provide the proper electrical grounding. The power
cable must be plugged into an UL-approved three-contact electrical outlet.
Do not disassemble or modify the product as it may result in fire or electric shock. There are no operator
serviceable parts or adjustments inside the systems. Only trained and qualified personnel should be
permitted access to the internal parts of the system.
Explosion Hazards
Do not operate the equipment in the presence of flammable or explosive liquids, vapors or gases. Do not
plug in or turn on the system where hazardous substances are detected.
If flammable substances are detected after the system has been turned on, do not attempt to turn off the
system or unplug it. Evacuate and ventilate the area before turning the system off.
Implosion Hazards
Do not hit or drop the equipment. The equipment may be damaged if it receives a strong jolt, which may
result in fire or electric shock if the equipment is used without it being repaired.
Owner’s Responsibility
The owner is responsible for ensuring that anyone using the system reads and understands the Service
Manual and other relevant literature, and fully understands them. Vieworks makes no representation,
however, that the act of reading this manual renders the reader qualified to operate, test and calibrate the
system.
Do not use the system if unsafe conditions are known to exist. In case of hardware failure
that could cause hazardous conditions (smoke, fire and etc), turn the power OFF and
unplug the power cords of all sub-systems.
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Notes for Using the Equipment
System Diagnostic
The VXSetup software runs a system diagnostic. Run VXSetup software after installing the system and at
least once a year. If an error occurs, report the detailed error information to Vieworks local dealer or
distributor.
The owner is responsible for ensuring that the system diagnostic is performed every year.
Do not try to use the system if the system diagnostic is failed.
Calibration
To ensure optimal performance of the system, it is important to verify that the system is calibrated.
The owner is responsible for ensuring that the system calibration is performed after the
system installation is completed or the system is repaired. Do not try to use the system if
system calibration is not performed.
Distances measurements
Distances measurements in millimeters are possible only after distance calibration has been performed using
a reference object (refer to VXvue User Manual).
The operator is responsible for performing distance calibration with a reference object and
verifying the results of the distance calibration before taking any distance measurements
on an image.
Left/Right Marker
The operator is responsible for the correct and clear marking on the left or right side of the image to eliminate
possible errors.
The software includes an option to mark the image with L (left) or R (right) indicator from acquisition phase
through printing and archiving. If the operator chose, for any reason, not to use L/R markers, he must use an
alternative way to eliminate any possible mistake.
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Image Backup
To avoid missing images which might result in patient being exposed to additional doses of radiation, it is
important to backup the images by filming or by using a CD or DVD option. This should be done as a routine
operation for every patient.
If the hard disk of your workstation is about to full, the operator should backup images and delete the images
to make room on the hard disk for new patient.
User Limitations
The VXvue software has the technician mode which could only be operated with the inputting PASSWORD.
The technician mode should be operated by the personnel who are qualified by Vieworks.
Cleaning the System
Use a dry cloth to clean surfaces of the system. Do not use detergents or organic solvents to clean the
system. Strong detergent, and organic cleaners may damage the finish and cause structural weakening. Do
not clean the system with turning the power on.
Disposal
Disposal of this product in an unlawful manner may have negative effects on health and on the environment.
When disposing of this product, therefore, be absolutely sure to follow the procedure which is in conformity
with the laws and regulations applicable in your area.
The expected life span of ViVIX-S Wireless system is about 3 years.
Overheating
Do not block the ventilation ports of the detector to prevent overheating of the detector. Overheating can
cause system malfunction and damages.
Electrical fire
This equipment is not suitable for use in the presence of a flammable anesthetic mixture with air or with
oxygen or nitrous oxide.
Conductive fluids that drain into the active circuit components of the system may cause short circuits
that can result in electrical fire. Therefore, do not place fluids or food on any part of the system.
To avoid electric shocks and burns caused by use of the wrong type of fire extinguisher, make sure that
the fire extinguisher at the site has been approved for use on electrical fires.
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Handling the Equipment
The Equipment must be handled with care to avoid personal injury damage to the internal image sensor.
Do not put pressure on the detector locally since it will cause permanent damage to
the internal image sensor.
Excessive weight on the equipment may damage the internal image sensor.
It is recommended to use the case, in case if a patient should be positioned to put
pressure on the detector while acquiring images.
Load Limit Specifications
Uniform Load 150 ㎏ over the whole area of the detector surface
Local Load 100 ㎏ on an area 40 ㎜ in diameter
Pediatric Application
Every request should be reviewed by the pediatric radiologist prior to beginning the examination to
insure correct study is being performed.
If the technologist notices an unusual request, they should contact the pediatric radiologist. An example
should be from pediatric clinic where they order a Full Cervical, Thoracic, and Lumbar Spine series. The
pediatric radiologist should contact ordering physician and decide which study is the best for this
pediatric patient.
The technologist should use the proper technique for the patient’s size to decrease the radiation dose
when the technologist acquires diagnostic images.
ALL Pediatric patients shall be shielded for their x-ray examinations, except for when the shield will
obscure the region of interest, as in a pelvic or SI joint xray for trauma or arthritis, or when it is physically
or clinically unreasonable to shield the patient. For routine Hip X-Rays, ALL male children shall have
their scrotum shielded using the small gonadal shield, females may not be shielded as this would
obscure the hips.
To minimize motion in infants and young children, swaddle the infant. Use distraction tools to improve
cooperation and projectors with child-friendly themes, music, toys with flashing lights or music, child-
friendly images on the ceiling or walls, singing, counting, and a parent reading and talking to the child
through the console all can help reduce anxiety and comfort the child.
A Scoliosis series will consist of a single frontal standing view of the spine. No lateral view or supine
view is needed, unless specifically asked for by the Orthopedist or Radiologist. If the female’s breasts
can be shielded without obscuring the spine, breast shields should be used.
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Regulatory
Medical Equipment Classifications
Type of protection against electrical shock Class Ⅰ equipment
Degree of protection against ingress of water IPXO
Mode of operation Continuous operation
Flammable anesthetics NOT suitable for use in the presence of a flammable
anesthetic mixture with air or with oxygen or nitrous oxide.
Equipment Standards
IEC/EN/UL 60601-1 Medical electrical equipment
CSA C22.2 No. 601.1 Part 1: General requirements for safety
IEC/EN 60601-1-2 Medical electrical equipment
Part 2: Electromagnetic compatibility–requirements and tests
IEEE 802.11a/b/g/n Wireless Communications
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Guidance and Manufacturer’s Declaration for EMC Directive
This device has been tested for EMI/EMC compliance, but interference can still occur in an
electromagnetically noisy location. Attempt to maintain a suitable distance between electrical devices to
prevent malfunction.
Electromagnetic Emissions
The Equipment Under Test (EUT) is intended for use in the electromagnetic environment specified below.
The customer or user of the EUT should assure that it is used in such an environment.
Immunity Test Compliance Electromagnetic Environment – Guidance
RF Emissions
CISPR 11
Group 1 The EUT uses RF energy only for its internal function. Therefore, its
RF emissions are very low and are not likely to cause any
interference in nearby electronic equipment.
RF Emissions
CISPR 11
Class A The EUT is suitable for use in all establishments other than
domestic and those directly connected to the public low-voltage
power supply network that supplies buildings used for domestic
purposes.
Harmonic emissions
IEC 61000-3-2
Class A
Voltage fluctuations/
Flicker emissions
IEC 61000-3-3
Complies
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Electromagnetic Immunity
The EUT is intended for use in the electromagnetic environment specified below.
The customer or user of the EUT should assure that it is used in such an environment.
Immunity Test
IEC 60601
Test Level
Compliance
Level
Electromagnetic Environment – Guidance
Electrostatic
discharge (ESD)
IEC 61000-4-2
±6 ㎸
contact
±8 ㎸ air
±6 ㎸
contact
±8 ㎸ air
Floors should be wood, concrete or ceramic tile. If
floors are covered with synthetic material, the relative
humidity should be at least 30%.
Electrical fast
transient/burst
IEC 61000-4-4
±2
㎸
for
power supply
lines
± 1 ㎸ for
input/output
lines
±2
㎸
for
power supply
lines
± 1 ㎸ for
input/output
lines
Mains power quality should be that of a typical
commercial or hospital environment.
Surge
IEC 61000-4-5
±1 ㎸
differential
mode
±2 ㎸
common
mode
±1 ㎸
differential
mode
±2 ㎸
common
mode
Mains power quality should be that of a typical
commercial or hospital environment.
Voltage dips, short
interruptions and
voltage variations
on power supply
input lines
IEC 61000-4-11
<5% Uт
(>95% dip in
Uт) for 0.5
cycle.
40% Uт
(60% dip in
Uт) for 5
cycles.
70% Uт
(30% dip in
Uт) for 25
cycles.
<5% Uт
(<95% dip in
Uт) for 5 sec.
<5% Uт
(>95% dip in
Uт) for 0.5
cycle.
40% Uт
(60% dip in
Uт ) for 5
cycles.
70% Uт
(30% dip in
Uт) for 25
cycles.
<5% Uт
(<95% dip in
Uт) for 5 sec.
Mains power quality should be that of a typical
commercial or hospital environment. If the user of the
EUT image intensifier requires continued operation
during power mains interruptions, it is recommended
that the EUT image intensifier be powered from an
uninterruptible power supply or a battery.
Power frequency
(50/60 ㎐)
magnetic field
IEC 61000-4-8
3 A/m 3 A/m Power frequency magnetic fields should be at levels
characteristic of a typical location in a typical
commercial or hospital environment.
NOTE: Uт is the a.c. mains voltage prior to application of the test level.
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Immunity Test
IEC 60601
Test Level
Compliance
Level
Electromagnetic Environment – Guidance
Conducted RF
IEC 61000-4-6
Radiated RF
IEC 61000-4-3
3 Vrms 150
㎑ to 80 ㎒
3 V/m 80 ㎒
to 2.5 ㎓
3 Vrms 150
㎑ to 80 ㎒
3 V/m 80 ㎒
to 2.5 ㎓
Portable and mobile RF communications equipment
should be used no closer to any part of the EUT,
including cables, than the recommended separation
distance calculated from the equation applicable to the
frequency of the transmitter.
Recommended separation distance
Where P is the maximum output power rating of the
transmitter in watts (W) according to the transmitter
manufacturer and d is the recommended separation
distance in meters (m).
Field strengths from fixed RF transmitters, as
determined by an electromagnetic site surveya, should
be less than the compliance level in each frequency
range.b
Interference may occur in the vicinity of equipment
marked with the following symbol:
NOTE 1: At 80 ㎒ and 800 ㎒, the higher frequency range applies.
NOTE 2: These guidelines may not apply in all situations. Electromagnetic propagation is affected by
absorption and reflection from structures, objects and people.
a Field strengths from fixed transmitters, such as base stations for radio (cellular/cordless) telephones and
land mobile radios, amateur radio, AM and FM radio broadcast and TV broadcast cannot be predicted
theoretically with accuracy. To assess the electromagnetic environment due to fixed RF transmitters, an
electromagnetic site survey should be considered. If the measured field strength in the location in which
the EUT is used exceeds the applicable RF compliance level above, the EUT should be observed to
verify normal operation. If abnormal performance is observed, additional measures may be necessary,
such as reorienting or relocating the EUT.
b Over the frequency range 150 ㎑ to 80 ㎒, field strengths should be less than [V1] V/m.
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Label and Symbols
Detectors
FXRD-1417WA FXRD-1417WB
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System Control Unit
Battery Charger
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Symbols
Symbol Description
Direct Current
Alternating Current
Protective Earth (Ground)
Equipotentiality
Power Off
Attention, consult accompanying documents
Power On
Medical Equipment
With Respect to electric shock, fire, and mechanical hazards only
In accordance with UL60601-1 and CAN/CSA C22.2 No. 601.1.
This mark shows compliance of the equipment with Directive 93/42/EEC.
Read and understand all instructions and warning labels in the product
documentation before using the equipment.
Keep manual for future reference.
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1. Overview
The ViVIX-S Wireless is advanced wireless flat panel X-ray imaging system designed for digital radiography.
The lightweight wireless digital radiography is designed to be compatible with conventional X-ray film
cassettes so that the users who are not familiar with Digital Radiography (DR) can easily understand and use
the ViVIX-S system. In addition, the wireless communication (IEEE 802.11a/b/g/n) feature improves the
operability and high-speed processing.
1.1 Features
Wireless LAN communication (IEEE 802.11a/b/g/n) feature
Supporting Conventional 35 × 43 X-ray film cassette
Compatible with not only new X-ray generators based on DR interface but also conventional X-ray
generators
Designed with simple wiring and lightweight for portable applications
Image digitization, image inversion, image processing, zooming, panning, window level adjustment,
contrast adjustment, and various features enable the operator to see diagnostic details that is difficult to
see by using conventional non-digital techniques.
Depending on the operating environment, the Ether Con Cable (optional) enables the device to be used
through expansion to a wired connection.
1.2 Intended Use
The ViVIX-S Digital X-ray detector is indicated for digital imaging solution designed for providing general
radiographic diagnosis of human anatomy. This device is intended to replace film or screen based
radiographic systems in all general purpose diagnostic procedures. This device is not intended for
mammography applications.
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1.3 Standard Configuration
Detector
System Control Unit
ViVIX-S Viewer
Gigabit Ethernet
Cables supplied with equipment
X-ray System
Generator
Vieworks
Generator Interface
Tether Interface
Battery Charger
Stand
Viework
s
Viewo
rks
Please
~
Figure 1.1 ViVIX-S Wireless System Configuration
Wireless communication is established between the ViVIX-S Wireless detector and System Control Unit. The
ViVIX-S system is compliant with IEEE 802.11a/b/g/n (2.4 ㎓ / 5 ㎓). The available frequency band may
vary depending on local radio laws and system requirements. Consult your local dealer for the frequency
available in your area.
Use of multiple WLAN devices within the same frequency band may interfere with each
wireless communication and cause a decline in transmission speed.
Do not cover or block the wireless module of the detector. Otherwise, the transmission
speed or operable distance may be reduced.
Recommended maximum operating distance of wireless communication between the
detector and System Control Unit is 8 meters.
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2. Product Description
ViVIX-S Wireless system consists of detector, system control unit (SCU), battery charger, battery pack,
software and its accessories.
2.1 Product Components
Detector
FXRD-1417WA (scintillator: CsI (TI))
FXRD-1417WB (scintillator: Gadox)
System Control Unit (SCU)
FXRS-03A
Battery Charger and Battery Pack
FXRC-01A
FXRB-01A
Software
Viewer: VXvue
Calibration and Diagnostic: VXSetup
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Accessories (Cables)
AC Power Cable (2M)
Generator Interface Cable (15M)
Direct LAN Cable 15M (1000BASE-T)
Tether Interface Cable (3M)
The use of accessories and cables other than those specified, with the exception of
ViVIX-S Wireless accessories and cables sold by Vieworks Co., LTD. as replacement
parts for internal components, may result in increased emissions or decreased immunity
of the equipment.
Accessory equipment connected to the analog and digital interfaces must be certified
according to the respective IEC standards. All combinations of equipment must be in
compliance with IEC 60601-1-1 system requirements. Any person who connects
additional equipment to the signal input or signal output ports configures a medical
system, and is therefore responsible for ensuring that the system complies with the
requirements of the system standard IEC 60601-1. If in doubt, consult Vieworks technical
support representative.
Workstation (Recommended but NOT included)
Operating System Microsoft Windows XP 32 bit SP3 (Professional Edition),
Windows 7 32 bit SP1 (Professional Edition or higher) or
Windows 7 64 bit SP1 (Professional Edition or higher)
CPU Intel Core i5 2600 or higher (or equivalent AMD chips)
Memory 2 GB or higher
Hard Disk 1 TB or higher
Ethernet (NIC) Intel® PRO 1000 Series (PT, CT, etc)
Min. Requirements: 1Gbps, Jumbo Frames - 9K, Receive Descriptors - 2K
Monitor 1280 × 800 or higher
CD-Rom CD or DVD R/W or blu-ray
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2.2 Detector
2.2.1 Detector Specifications
Item Description
Model FXRD-1417WA(B)
Purpose General radiography
Image Matrix Size 2560 × 3072 pixels
Pixel Pitch 140 ㎛
Effective Imaging Area 358 ㎜ × 430 ㎜
Grayscale 14 bit, 16,384 grayscale
Scintillator CsI (Cesium Iodide) or Gadox (Gadolinium Oxysulfide)
Image Acquire and Transfer Time Preview: 2 s, Image Processing: 6.5 s (2 s when using Tether Interface)
Spatial Resolution Min. 3.5 line pair/㎜
Rated Power Supply
Wireless
Wired
DC +24 V, Max. 0.5 A
Powered by the battery pack (4,000 ㎃h)
Powered by the SCU using tether interface
Power Consumption Max. 12 W
Wireless Communications IEEE 802.11a/b/g/n (2.4 ㎓ / 5 ㎓)
†Tether Interface (Optional) Gigabit Ethernet (1000BASE-T) via ‡PoE
Imaging Plate Carbon Fiber Plate
Cooling Air cooling
Dimensions (H × W × D) 384 ㎜ × 460 ㎜ × 15 ㎜
Weight 3.0 ㎏ (including battery pack)
Environmental Requirements
Operation Temperature: +10 ∼ +35℃
Humidity: 30 ∼ 85% (Non-Condensing)
Atmospheric pressure: 70 ∼ 106 ㎪
Altitude: Maximum 2000 meters
Storage and transportation Temperature: -15 ∼ +55℃
Humidity: 10 ∼ 90% (Non-Condensing)
Atmospheric pressure: 50 ∼ 106 ㎪
Altitude: Maximum 2000 meters
Table 2.1 Detector Specifications
†Tether Interface: Allows the detector to communicate with SCU via Ethernet cabling when wireless communications is
not available or higher speed data transfer is necessary.
‡PoE (Power over Ethernet): Delivers electrical power over LAN cabling to the networked device.
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2.2.2 Detector Components
2
1
A
B
C
D
3
4
Figure 2.1 Detector Components
No. Name Description
1 Status Indicators
Power button
A: Data LED, Indicates communication and transmission status. - Blue
B: Active LED, Indicates the detector is ready to work. - Orange
C: Power LED, Indicates power on/off status. - Green
D: Power button, Press to power on or off the detector.
2 Wireless Module Transmits data with wireless communications (IEEE 802.11a/b/g/n).
3 Tether Interface Allows the detector to communicate with SCU via PoE cabling (Gigabit Ethernet
1000BASE-T)
4 Battery Pack Supplies electrical power to the detector while communicating wirelessly.
Table 2.2 Detector Components Description
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2.2.3 Detector Dimension
Figure 2.2 Detector Dimension
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2.3 System Control Unit
2.3.1 System Control Unit Specifications
Item Description
Model FXRS-03A
Power Supply Input: AC100 to 240V, 50/60 ㎐, Max. 200VA
Output: DC +24V 3.3A, 80W
Cabling Ports Gigabit Ethernet Ports – 3EA
Power over Ethernet Ports – 2EA (Only for FXRD-1417)
Wireless Communications IEEE 802.11a/b/g/n (2.4 ㎓ / 5 ㎓)
Dimensions (W × H × D) 300 ㎜ × 235.8 ㎜ × 58 ㎜, Antenna Height – 105 ㎜
Weight 2.5 ㎏
Environmental Requirements
Operation Temperature: +10 ~ +35℃
Humidity: 30 ∼ 85% (Non-Condensing)
Atmospheric pressure: 70 ∼ 106 ㎪
Altitude: Maximum 2000 meters
Storage and transportation Temperature: -15 ~ +55℃
Humidity: 10 ∼ 90% (Non-Condensing)
Atmospheric pressure: 50 ∼ 106 ㎪
Altitude: Maximum 2000 meters
Table 2.3 System Control Unit Specifications
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2.3.2 System Control Unit Components
12
3
Figure 2.3 System Control Unit (Front)
No. Name Description
1 Power Switch Turns on or off the SCU.
2 Fan Expels heated air inside of the SCU.
3 Antenna Assists communications between the detector and SCU.
4 Status LED Indicates status of SCU operation and connection.
Blinking Green: Startup in progress
Blue: Connected to Wi-Fi network
Table 2.4 System Control Unit Components (Front)
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1234
5
6
7
Figure 2.4 System Control Unit (Back)
No. Name Description
1 EXT_INF Provides connection to the X-ray generator.
2 Port 1 Provides Gigabit Ethernet (1000BASE – T) communication
between the workstation and SCU.
Gigabit Ethernet (1000BASE – T) Port
Port 2, Port 3 Provides communication between FXRD-1717 and SCU when
configuring multiple detectors.
Gigabit Ethernet (1000BASE – T) Port
3 Status LED Indicates Port 4 and Port 5 status (Green: 1Gbps, Orange:
100Mbps)
4 Port 4, Port 5 Connection interface to communicate with the detector and to
supply electrical power to the detector (Only for FXRD-1417).
Power over Ethernet Port (1000BASE-T)
5 Power Supply Connection interface to supply power to a FXRD-1717 detector.
Max. DC +24V/24W (×2 ports)
6 P.E Provides connection to equipotential ground.
7 AC Input Connect the power cable to the power socket.
100 ~ 240V, 50/60 ㎐, T2AL250V Fuse (2 EA)
Table 2.5 System Control Unit Components (Back)
P.E (Potential Equalization) of SCU is used to keep equipotential between SCU and an
equipment to be used with ViVIX-S Wireless. To connect to P.E of equipment, use a
ground cable.
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2.3.3 SCU Dimension
Figure 2.5 SCU Dimension
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2.3.4 Fuse
Two fuses are installed inside of SCU to prevent electrical accidents due to an error such as overcurrent
occurred in the AC Input. Stop immediately using SCU when fuses break.
Item Description
Model Littlefuse® 218002 (2 EA)
Type Time Lag Cartridge Fuse
Amp Rating 2 A
Voltage Rating 250 V
Replacing Fuses
Turn off SCU and its peripheral equipment, and pull the plug out of the power socket
before replacing fuses.
When fuses break, resolve the cause of overcurrent first, and then replace the fuses
with extra fuses (optional items, one set of two) or equivalent rating fuses.
User must not contact a fuse holder with a patient simultaneously during operating
the equipment and not allow patient to touch the fuse holder.
1. Pull the fuse holder out from its receptacle under AC Input on the back panel of SCU.
2. Check the fuse(s) and replace it if necessary, using the fuse type and rating specified above.
3. Push the fuse holder back.
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2.4 Battery Charger and Battery Pack
2.4.1 Battery Charger Specifications
Item Description
Model FXRC-01A
Simultaneous Charging Battery Pack 3 EA
Charging Time 2 hours
Rated Power Supply DC +24V, 2.7 A Max.
Dimension (W × H × D) 192.0 ㎜ × 167.5 ㎜ × 223.4 ㎜
Weight 1.2 ㎏
Table 2.6 Battery Charger Specifications
2.4.2 Battery Charger Components
1
2
34
Figure 2.6 Battery Charger
No. Name Description
1 Battery Compartment Insert the battery pack to charge.
2 Charging Indicator Indicates the charging status.
(Orange: Charging, Green: Fully Charged)
3 Power Indicator Indicates the power on/off status.
4 DC Input Connect the DC adapter to supply electrical power to the battery
charger.
Table 2.7 Battery Charger Components
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2.4.3 Battery Charger Dimension
Figure 2.7 Battery Charger Dimension
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2.5 Battery Pack
2.5.1 Battery Pack Specifications
Item Description
Model FXRB-01A
Type Lithium Polymer
Rated Power Supply Output: DC +7.4V
Capacity 4000 ㎃h
Number of Cell 2S1P (2 Series 1 Parallel)
Dimension (W × H × D) 144.4 ㎜ × 143.4 ㎜ × 7.0 ㎜
Weight 220 g
Table 2.8 Battery Pack Specifications
Figure 2.8 Battery Pack
2.5.2 Battery Pack Dimension
Figure 2.9 Battery Pack Dimension
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2.5.3 Charging Battery Pack
The battery pack supplies power to the detector during wireless connection. Be sure to use only the
dedicated battery pack and fully charge it before use.
1 Connect the power cable (adapter not included) to the DC Input port of the battery charger and the
power cord to the power source to supply power. The power LED lights in green indicating the presence
of direct current (DC) power.
2 Insert the battery pack into the battery charger. Charging starts automatically. The charge LED lights
orange when the battery pack is being charged. After the battery pack is charged completely, the charge
LED lights in green.
3 Gently pull the charged battery pack to remove from the battery charger.
Securely plug the power cord into the power source. If contact failure occurs, or if dust or
metal objects come into contact with the exposed metal prongs of the plug, fire or
electrical shock may occur.
Be sure to stop charging the battery pack when the charge LED lights in green beyond the
specified charging time. Not doing so may result in battery pack overheating or smoking or
in explosion or fire.
You must use the power adaptor that is certified with IEC 60950 or IEC 60601-1.
Three batteries can be charged at the same time.
It takes approximately two hours to fully charge a battery pack. The required charging time
may vary depending on the temperature and remaining battery level.
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2.6 X-ray Generator Interface
2.6.1 X-ray Exposure Mode
Mode Description
DR Trigger Mode 1 The detector receives EXP_REQ signal that X-ray generator is prepared to
generate X-rays.
2 The detector prepares image acquiring and then responds EXP_OK signal to the
X-ray generator.
3 The X-ray generator confirms EXP_OK signal and generates X-rays, then the
detector performs image acquiring according to Image Acquisition Time and
transmits the image data.
EXP_REQ (Generator → Detector), EXP_OK (Detector → Generator)
AED Mode The detector detects actual amount of X-rays without any connection to the X-ray
generator, and then performs image acquiring according to Image Acquisition Time
and transmits the image data.
No signal used (No need to connect Generator Interface Cable.)
Table 2.9 Exposure Mode
2.6.1.1 DR Trigger Mode
Detector
X-ray System
Generator
Exposure Request
Exposure OK
Generator Interface Cable
Figure 2.10 DR Trigger Mode Configuration
DR Trigger is the most common and recommended exposure mode. User can achieve the best quality
images with DR Trigger Mode.
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2.6.1.2 AED Mode
Detector
X-ray System
Generator
Figure 2.11 AED Configuration
AED is available for acquiring images without any connection to X-ray generator. Generator interface
cable is not required.
Make sure to follow operating environmental requirements (Temp: +10℃ ~ +35℃).
If you use AED Mode out of operating environmental requirements, unwanted image
can be acquired without X-ray image acquiring.
Do not hit or drop the equipment. Unwanted images may be acquired in the AED
Mode if it receives strong jolt.
If you use a Grid under general imaging condition (Dose) or image a thick object in
the AED Mode, the efficiency of X-ray transformation may be reduced about 0% ~ 2%
compared to the DR Trigger Mode according to the thickness of the target.
If you image a thick object in the AED Mode with low X-ray tube voltage, an image
may not be acquired or horizontal line noise may occur.
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2.6.2 Timing of Signals (DR Trigger Mode)
AA’
B B’
EXP_OK
EXP_REQ
Image Acquisition Time
Figure 2.12 Timing of Exposure signal
Image Acquisition Time+
Exposure request signal A (EXP_REQ) should be applied first, then exposure respond signal B
(EXP_OK).
Image Acquisition Time can be set from 40 ㎳ to 4,000 ㎳ with 1 ㎳ increment when default value
is 500 ㎳.
2.6.3 EXT_INF Port Pin Assignment
5 1
15 11
20 16
30 26
Figure 2.13 EXT_INF port pin assignments
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No. Signal Name I/O Color Description
1 EXP_REQ+_A Input Red
Detector receives signal that X-ray generator is
prepared to generate X-rays.
Contact Type – On: Closed, Off: Open
For the 1st DR Interface of Generator
2 EXP_REQ-_A Input Black Return signal from EXP_REQ+_A.
3 EXP_REQ_TTL_A Input Orange
Detector receives signal that X-ray generator is
prepared to generate X-rays.
TTL (Voltage) Type – On: VCC, Off: GND
Current (5 ㎃ ~ 10 ㎃), Voltage (12 V ~ 24 V)
For the 1st DR Interface of Generator
4 EXP_REQ_GND_A Input Gray Return signal from EXP_REQ_TTL_A
5 EXP_OK_POWER_A Input Yellow
Power of TTL signal coming from X-ray generator
This is for the 1st DR Interface of Generator, but
it can be shared with the 2nd DR Interface.
6 EXP_OK+_A Output Green
Detector responds to X-ray generator about X-
ray generation.
The X-ray generator generates X-rays according
to this signal and then the detector performs X-
ray image acquiring.
For the 1st DR Interface of Generator
7 EXP_OK-_A Output Brown Return signal from EXP_OK+_A
8 EXP_OK+_B Output Blue Same as “EXP_OK+_A” for the 2nd DR Interface of
Generator.
9 EXP_OK-_B Output Pink Same as “EXP_OK-_A” for the 2nd DR Interface of
Generator.
10 Reserved - - Do not connect. Reserved for testing.
11 EXP_REQ+_B Input White Same as “EXP_REQ+_A” for the 2nd DR Interface of
Generator.
12 EXP_REQ-_B Input Purple Same as “EXP_REQ-_A” for the 2nd DR Interface of
Generator.
13 EXP_REQ_TTL_B Input White/Red Same as “EXP_REQ_TTL_A” for the 2nd DR
Interface of Generator.
14 EXP_REQ_GND_B Input White/Black Same as “EXP_REQ_GND_A” for the 2nd DR
Interface of Generator.
15 Reserved - - Do not connect. Reserved for testing.
Table 2.10 EXT_INF1 port pin description (1 ~ 15)
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No. Signal Name I/O Color Description
16 EXP_REQ+_C Input Red Same as “EXP_ REQ+_A” for the 3rd DR Interface of
Generator.
17 EXP_REQ-_C Input Black Same as “EXP_ REQ-_A” for the 3rd DR Interface of
Generator.
18 EXP_REQ_TTL_C Input Orange Same as “EXP_REQ_TTL_A” for the 3rd DR
Interface of Generator.
19 EXP_REQ_GND_C Input Gray Same as “EXP_REQ_GND_A” for the 3rd DR
Interface of Generator.
20 EXP_OK_POWER_C Input Yellow Same as “EXP_OK_POWER _A” for the 3rd DR
Interface of Generator.
21 EXP_OK+_C Output Green Same as “EXP_OK+_A” for the 3rd DR Interface of
Generator.
22 EXP_OK-_C Output Brown Same as “EXP_OK-_A” for the 3rd DR Interface of
Generator.
23 EXT_A+ Input -
Detector receives the 1st status signal that it is
equipped on/in the table or in the wall stand.
Contact Type – On: Closed, Off: Open
24 EXT_A- Input - Return signal from EXT_A+
25 EXT_B+ Input - Same as “EXT_A+” for the 2nd status signal
26 EXT_B- Input - Same as “EXT_A-” for the 2nd status signal
27 EXT_C+ Input - Same as “EXT_A+” for the 3rd status signal
28 EXT_C- Input - Same as “EXT_A-” for the 3rd status signal
29 EXT_D+ Input - Same as “EXT_A+” for the 4th status signal
30 EXT_D- Input - Same as “EXT_A-” for the 4th status signal
Table 2.11 EXT_INF2 port pin description (16 ~ 30)
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2.6.4 Input and Output Circuits
The following diagrams describe exposure request and exposure OK circuits.
Figure 2.14 Exposure Request Input Circuit
Figure 2.15 Exposure Respond Output Circuit
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3. Packaging and Contents
Detector (FXRD-1417WA/B) System Control Unit (FXRS-03A)
Battery Charger Battery Pack
Generator Interface Cable (15M) LAN Cable (Gigabit LAN, 15M)
AC Power Cable Tether Interface
Installation Software CD
Viewer: VXvue
Calibration SW: VXSetup
Calibration Data
Table 3.1 ViVIX-S Wireless Packaging
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4. How to Install
4.1 Hardware Installation
This section describes how to connect the flat panel imaging system (detector) whose model name is FXRD-
1417WA(B).
Installation of this equipment should be made by licensed and authorized personnel.
4.1.1 FXRD-1417WA (B)
1 Connect the one end of the generator interface cable to the EXT_INF port of SCU, and the other to the
port of the X-ray generator.
2 Connect the one end of the LAN cable to Port 1 of SCU, and the other to the LAN Card Connector of
workstation assigned for the Data Transfer.
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3 Make an antenna of SCU stand upright.
4 To transmit image data using Tether Interface, connect the one end of the Tether Interface cable to
Port 4 or Port 5 of SCU.
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5 Connect the power cable to the AC port of the SCU to supply power.
This equipment must only be connected to a supply mains with protective earth.
6 Turn on the power switch in front of the SCU.
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7 Attach a fully charged battery pack to the detector. To attach the battery pack, slide the battery pack into
the battery compartment of the detector. Make sure that the claws on the battery pack are aligned with
the groove on the battery compartment. Slide the battery lock lever until it clicks into place.
8 Press and hold the power button of the detector for 3 seconds to turn on the detector.
9 When you have finished using the detector, press and hold the power button for 3 seconds to turn off
the detector. Remove the battery pack if the detector will not be used for some time. To remove the
battery pack, slide the battery lock lever to release it, put your fingers on the battery compartment
groove that lifts up, and then pull out the battery pack.
When the detector is not be used for some time, remove the battery pack. Otherwise, over
discharge may occur, resulting in shortened battery life.
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4.2 Software Installation
4.2.1 Intel Gigabit Controller Driver Installation and Setting
Before installing Intel Gigabit Controller Driver, make sure your Ethernet Card is properly
installed on the workstation.
The recommended Ethernet Card is Intel® Gigabit CT or later. And also, Ethernet Card
supporting 1 Gbps or above is available.
Gigabit LAN card must support the following requirements.
[Jumbo Frames: 9014 Byte], [Receive Descriptors: 2048]
This is not a component of ViVIX-S but recommend component. So, you have to use
installation package designed for your Gigabit Controller.
1~8 steps may differ according to Gigabit Controller to use.
Following procedures are provided as an example to refer to.
1 Click PROXP.exe to start InstallShield Wizard, and then click the Run button.
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2 Click the Next button.
3 Accept the license agreement and click the Next button.
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4 Select the components to install and click the Next button.
5 Click the Install button.
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6 When the following message appears, click the Continue Anyway button.
7 Installation status bar appears in Installing Intel® Network Connections dialog box.
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8 Click the Finish button.
4.2.2 Gigabit Controller Setting on Windows XP
1 Click Start > Setting > Control Panel > Network Connections to open the Network Connections
dialog box, and then rename Local Area Connection with GigE.
It is not necessary to change name with GigE. It just distinguishes between that
connection and other connections.
2 Right-click the GigE and then click the Properties.
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3 Uncheck all checkboxes except Vieworks Image Filter Driver or GigaLinx Image Filter Driver and
Internet Protocol [TCP/IP].
4 Click the Internet Protocol [TCP/IP] and set the IP as shown below, and then click the Advanced
button.
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5 Click the OK button to close the dialog box.
6 Click Start > Setting > Control Panel > Network Connections to open the Network Connections
dialog box, and right-click GigE, and then click Properties to open the GigE Properties dialog box.
Click the Configure button to open the following dialog box, and then go to the Advanced tab.
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7 Set the Jumbo Frames to the maximum value.
8 Choose Performance Options in the list of Settings and click the Properties button on the right.
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9 Choose Flow Control in the list of Settings and Generate & Respond in the list of Value as shown
below.
10 Choose Interrupt Moderation Rate in the list of Settings and Extreme in the list of Value as shown
below.
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11 Choose Receive Descriptors and set to the maximum value.
12 Click the OK button.
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4.2.3 Gigabit Controller Setting on Windows 7
1 Click Start > Control Panel > Network and Internet > Network and Sharing Center > Change
Adapter Setting and then rename Local Area Connection with GigE.
It is not necessary to change name with GigE. It just distinguishes between that
connection and other connections.
2 Right-click the GigE and then click the Properties.
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3 Uncheck all checkboxes except Vieworks Image Filter Driver or GigaLinx Image Filter Driver and
Internet Protocol [TCP/IP].
4 Click the Internet Protocol [TCP/IP] and set the IP as shown below, and then click the Advanced
button.
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5 Click Start > Control Panel > Network and Internet > Network and Sharing Center > Change
Adapter Setting, right-click GigE, and then click Properties to open the GigE Properties dialog box.
Click the Configure button to open the following dialog box, and then go to the Advanced tab.
6 Set the Jumbo Packet to the maximum value.
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7 Choose Flow Control in the list of Property and select Rx & Tx Enabled in the list of Value as shown
below.
8 Choose Interrupt Moderation Rate in the list of Property and Extreme in the list of Value as shown
below.
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9 Choose Receive Buffers and set to the maximum value.
10 Click the OK button.
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4.2.4 VXvue Installation
User must follow instructions below to protect against cyber security threats such as virus
and worms.
Prior to installing and using VXvue, scan the computer system with anti-virus
software to make sure the system is virus free.
Install, setup and enable adequate anti-virus software.
The operating system should be updated frequently to protect VXvue against harmful
activities.
If you have a cyber security problem, contact the manufacturer on the phone or by e-
mail referring to the contact information in this manual.
1 Insert the CD/DVD into the CD Drive.
2 Run Setup.exe.
3 Click the Yes button when the following dialog appears. The dialog may not appear depending on your
Windows settings.
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4 The prerequisites for VXvue installation are displayed in the VXvue – InstallShield Wizard dialog, then
click the Install button. The installation may take several minutes depending on your system
environment.
The items listed under the Requirement may from the above figure depending on your
system environment.
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5 When the prerequisites for VXvue installation have been installed, click the Next button.
6 A driver for recognizing license hardware key will be installed on your system during setup process. If
the window installing the driver appears, do not close the window and wait for the installation to
complete.
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7 Choose the application type and click the Next button.
8 Choose the folder location where you want to save VXvue data. The default destination is D:\Database.
To change the folder location, click the Browse button to locate the folder.
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9 Click the Install button to begin VXvue installation.
10 The installation process will continue and a progress bar will be displayed in the Setup Status window.
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11 When the installation is complete, click the Finish button.
12 When Filter Driver installation dialog appears after installing VXvue, choose BroadLinx Universal Filter
Driver and click the Next button.
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13 Select the network interface card connected to SCU and click the Next button.
The above figure may vary depending on your system environment.
14 The progress of Filter Driver installation will be displayed.
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15 Click Install this driver software anyway when the following dialog appears.
16 After completing installation, click the Yes button to restart the computer.
17 Now the VXvue software and data are successfully installed in each directory as shown below.
Software: C:\program files\VXvue
Image and other data: D:\Database or user defined folder
Executable File
- VXvue.exe: Image Viewer
- VXSetup.exe: Calibration Software
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4.2.5 Allowing VXvue to communicate through Windows Firewall on
Windows XP
1 Click Start > Setting > Control Panel > Windows Firewall and then click the Exceptions tab.
2 Click the Add Program… button.
3 Click the Browse button and locate C:\Program files\VXvue\VXvue.
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4 Click the Open button.
5 Select the VXvue and then click the OK button.
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6 Check the VXvue to select and then click the OK button.
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4.2.6 Allowing VXvue to communicate through Windows Firewall on
Windows 7
1 Click Start > Control Panel > Windows Firewall.
2 Click Allow a program or feature through Windows Firewall.
3 Click the Change settings button if it is enabled and then click the Allow another program button.
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4 Click the Browse button and locate C:\Program files\VXvue\VXvue.exe.
5 Click the Open button.
6 Select the VXvue and then click the Add button.
Add VXSetup (located in C:\Program files\VXvue\VXSetup.exe) in the same manner as
described above.
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5. Prerequisite for Operation
5.1 Preparing the SCU
1 Turn on the System Control Unit (SCU).
2 Make sure the LED lamp (power and status) is lit green. It means SCU is ready to work normally.
3 Press and hold the power button of the detector for 3 seconds.
4 The detector Power LED is lit green and Active LED is lit orange simultaneously when the detector is
ready to operate.
5 Blinking green status LED indicates the startup process is in progress. Then status LED turns blue
indicating Wi-Fi network is connected.
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5.2 Generator Configuration
1 Run VXSetup.
2 Select a generator model from the dropdown list located beside Product in the Generator item. Input
proper values into Param1 and Param2 according to the generator model.
Generator Communication Settings Remarks
None No console
LISTEM Serial Param 1: Port
Param 2: ’true’ - Use AEC
‘false’ - No AEC
115200 bps / data 8 / stop 1 /
none / none
GXR UDP packet UDP 5001 Port
POSKOM Will be supported soon.
DK (Accuray) Serial Port COM 1
19200 bps / data 8 / stop 1 /
none / none
OCX Control
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Generator Communication Settings Remarks
CPI Serial Port COM 1
19200 bps / data 8 / stop 2 /
none / none
EMD Serial Port COM 3
19200 bps / data 8 / stop 1 /
none / none
Set WorkStation 2, 3
SEDECAL Shared memory Window title: ‘window title’ For Human in DRApp.ini
[SETTINGS]
DRAppName = window title
For Vet in AppName.ini
[CONFIG]
APPNAME= window title
5.3 Detector Configuration
In this phase, defect pixels are corrected and gained pixels are calibrated using installed x-ray generator and
x-ray tube. The detector needs to warm up at least 30 minutes before performing the calibration.
The calibration should be performed on the following cases.
Detector installation
X-ray generator replacement
X-ray tube replacement
Exposure section Value change
Gain Type change
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5.3.1 Detector Setting
1 Run VXSetup.
2 The connected detectors will be displayed under Detectors. If all the detectors are not displayed, click
the Refresh device list button to refresh the list.
Color used in indicating status
Green background: Connected normally and selected detectors
White background, black texts: Connected but not selected detectors
White background, gray texts: Recorded in the used history but not connected
detectors
3 To register connected detector to the system, double click the detector or select the detector and then
click the Select button activated on the bottom left.
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4 To deselect the registered detector, double click the detector or select the detector and then click the
Release button activated on the bottom left.
5 To sort the registered detectors, select the detector and then click the arrow button activated on the
bottom left.
6 To change the settings of connected detector or SCU, select the item and then click the right mouse
button.
SCU
- Configure: Changes the settings related to SCU described in chapter 5.3.2.1.
- Change IP: Changes the SCU IP.
- Remove Registry: Removes the data stored in the registry.
Detector
- Release: Deregisters the selected detector.
- Change IP: Changes the detector IP.
7 After completing configuration of detectors, click the Next button to synchronize the registered detectors
with SCU and proceed to next phase.
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5.3.2 Configuring Devices
1 The list of connected SCU and registered detectors will be displayed.
2 Click the Configuration button on the right side of SCU to display the SCU Configuration window
described in chapter 5.3.2.1.
3 Click the Configuration button on the right side of Detector to display the Detector Configuration
window described in chapter 5.3.2.2.
4 Click the Calibrate button on the right side of Detector to display the Calibration window described in
chapter 5.4.
5 After completing calibration of the detector, the Diagnose button will be activated. Click the button to
move to Diagnosis Mode described in chapter 5.5.
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5.3.2.1 Configuring SCU
The SCU Configuration window allows you to configure the following items.
System
Model No.: Model number of SCU
F/W: Version of firmware
Serial No.: Serial number of SCU
Boot loader: Version of Boot loader
Kernel: Version of Kernel
Network
IP Address: IP address of SCU
Net Mask: Netmask of SCU
Gateway: Gateway address of SCU
Trigger
Packet: Use SW Trigger.
Line: Use HW Trigger.
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AP
AP On/Off: Configures whether to run SCU as AP mode.
Frequency: Frequency channel of wireless network
Country: Country code of wireless network
Band: Wireless network bandwidth
Channel: Wireless network channel
SSID: Wireless network ID
Key: Wireless network key value
Security: Authentication protocol for wireless network
Gi: Guard Interval of wireless network
Test Mode
On/Off: Configures whether SCU transmits Trigger Packet within specified period.
Period: Configures the period of transmitting Trigger Packet in a second unit.
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5.3.2.2 Configuring Detector
The Detector Configuration window allows you to configure the following items.
System
Model No.: Name of device
FirmWare: Version of detector’s firmware
FPGA: Version of detector’s FPGA
Serial: Serial number of detector
BootLoader: Version of detector’s Boot loader
Kernel: Version of detector’s Kernel
Network
IP: Network IP address of detector
NetMask: Network Netmask of detector
Gateway: Network Gateway address of detector
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WNetwork
SSID: Wireless network ID of detector
Key: Wireless network key value of detector
Sleep Mode
On/Off: Configures whether the detector uses Sleep Mode.
Period: Configures the time of entering Sleep Mode.
AP
AP On/Off: Configures whether to run Detector as AP mode.
Frequency: Frequency channel of wireless network
Country: Country code of wireless network
Band: Wireless network bandwidth
Channel: Wireless network channel
SSID: Wireless network ID
Key: Wireless network key value
Security: Authentication protocol for wireless network
Gi: Guard Interval of wireless network
Test Pattern
Type: Type of detector’s test pattern image
Image TimeOut
Time Set timeout not to request transmission when acquired image is not transmitted
within specified time.
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5.4 Detector Calibration
5.4.1 Configuring the Detector
1 Select System Configuration in the left Step item.
2 The information for the selected detector will be displayed.
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5.4.1.1 Setting Exposure Mode
User can set the detector to three different exposure modes according to the connection type to the X-ray
generator. Select the desired mode on System configuration.
For detailed information on X-ray exposure mode, refer to 2.6.1 X-ray Exposure Mode.
5.4.1.2 Timing Setting
To acquire correct images, exact timing setting must be made according to the characteristics of the X-ray
generator.
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Exposure section
Exposure section indicates the period (unit: ㎳) that the detector converts X-rays to image signals. This
value needs to be set longer than the exposure time of X-ray generator to prevent X-rays loss while
converting X-rays to image signals. If you change the time settings, refresh the Post-offset data and generate
new GAIN data to acquire optimized images.
The recommended Exposure section value is 500 ㎳ (Standard).
Pre Exposure section
The Pre Exposure section is allowed to use when delay is occurred until the generator receives EXP-OK
signal from the detector and prepares X-ray generation. Pre Exposure section is set as 0 ㎳ normally,
however, it is recommend to set the actual delay time of generator’s X-ray generation with measurements to
achieve the best performance of the detector. The detector sends EXP_OK signal to the generator, then
transforms X-ray into image signal after the time set in the Pre Exposure section.
EXP OK Delay section
EXP OK Delay section is delay time from when the detector detects exposure request signal (EXP_REQ)
from the X-ray generator to when the detector sends exposure respond signal (EXP_OK) to the X-ray
generator. Some X-ray generators need some time to prepare detecting EXP_OK signal after sending
EXP_REQ signal. This value is determined according to the specifications of X-ray generator. The default
value is 1 ㎳.
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Debounce_DR
Debounce_DR is used to remove unwanted trigger signal occurred due to external noise when DR Trigger is
set as Exposure Mode. It is recommended to use the Debounce_DR setting value as default 3 ㎳. We
recommend setting the minimum exposure time of X-ray generator to more than 3 ㎳. If the value is set to
less than 3 ㎳, the detector may not acquire images.
Debounce_AED
Debounce_AED is used to prevent unwanted imaging occurred due to external noise when AED is set as
Exposure Mode. It is recommended to use the default values set by manufacturer. We recommend setting
the minimum exposure time of X-ray generator to more than the value set in the Debounce_AED. If the value
is set to less than the settings in the Debounce_AED, the detector may not acquire images.
If unwanted images are acquired without X-ray exposure while operating the equipment, set Debounce_AED
with 1 ㎳ increments. However, make sure not to exceed 5 ㎳ since an image degradation may appear in
the image if Debounce AED exceeds 5 ㎳.
5.4.1.3 Gain Type Setting
To acquire X-ray image with proper brightness, adjust the Gain Type setting. You can select the Gain Type to
adjust the sensitivity of the detector, then you can acquire X-ray images with desired brightness according to
the specifications of X-ray generator or the type of objects. The default gain type is 1.
The following table describes each Gain Type of the sensitivity ratio.
Gain Type 0 1 2 3
Gadox Detector Sensitivity ratio 0.86 1 1.2 1.5
CsI Detector Sensitivity ratio 0.62 1 1.14 1.33
The owner is responsible for ensuring that the Gain Pixel Correction is performed after
adjusting the Gain Type.
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5.4.2 Offset Calibration
5.4.2.1 Pre-offset Calibration
1 Select Dark acquisition–Normal and click the Load pre-offset button to apply pre-offset data which is
provided with the flat panel detector.
2 When you create new pre-offset data, input the number of images to be acquired to Stage in the Pre-
offset calibration item and then click the Run pre-offset calibration button.
3 Acquiring image process will be proceeded automatically, then the average value of acquired images
will be displayed in Current Value and the current status will be displayed in Stage.
4 After acquiring images, a window for saving created pre-offset data appears, then specify a directory to
save the data.
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5.4.2.2 Post-offset Calibration
1 Click the Get Post offset button to locally save the offset file that is backed up on the detector.
2 When you create new post-offset data, input the number of images to be acquired to Stage in the Post-
offset calibration and click the Run post-offset calibration button.
3 Acquiring image process will be proceeded automatically, then the average value of acquired images
will be displayed in Current Value and the current status will be displayed in Stage.
4 After acquiring images, a window for saving created post-offset data appears, then specify a directory to
save the data.
5 To save the previously created post-offset file to the detector, click the Upload post offset button and
then select the file to upload.
The offset data that is already uploaded to the detector will be used for acquiring images
with wireless detector instead of the data stored in the local.
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5.4.3 Defect Correction
5.4.3.1 Load defect map
1 Select Defect detection – Normal in the left Step item.
2 Click the Load defect map button to apply the defect data which is provided with the flat panel detector.
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5.4.3.2 Auto defect detection
1 To create new defect map, apply the Defect data which is provided with the flat panel detector and then
click the Auto defect detection button.
2 Acquire X-ray images and adjust the doses of radiation to match the Current value to the Target Value of
Flat30. When the Current value reaches within 10% of Target Value, keep the doses of radiation at that
point.
For Flat30 and Flat60 the recommended Target Values are respectively 250 and 500.
3 To save the collected image data, check the Save acquired data checkbox. Once the images of Flat30
and Flat 60 are acquired, it is allowed to save as a file.
4 Click the Get Flat30 button to acquire as many images as the number set at the top of the Stage. Or,
load the Flat30 image which is previously saved by clicking the Load Flat30 button.
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5 Acquire X-ray images and adjust the doses of radiation to match the Current Value to the Target Value
of Flat60. When the Current value reaches within 10% of Target Value, keep the doses of radiation at
that point.
6 Click the Get Flat60 button and acquire as many images as the number set at the top of the Stage. Or,
load the Flat60 image which is previously saved by clicking the Load Flat60 button.
7 Enter the detection range of Defect data into the Tolerance field based on the acquired images.
The recommended Tolerance value is 3%.
8 Click the Generate Defect Map button, create the new Defect Map Data file, and then save it.
No need to click the Load defect map button since the Defect Map file is automatically
created and loaded.
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5.4.3.3 Manual defect detection
1 To create the new defect map manually, click the Manual defect detection button after applying Defect
data provided accordingly.
To use the Manual defect detection feature, the previously acquired dark image is needed.
The dark image can be acquired in the Diagnosis Mode.
2 Select the original image file of the detector to find the defect data.
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Defect info marking
Apply: Apply Defect information of selected items from the list to image.
All: Apply all items from the list.
Selected: Apply the only selected items from the list.
Delete: Delete the selected items from the list.
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Operation / Zoom control
Get Bad Pixel: Automatically detect the defect pixel from the currently displayed image.
When you select the Get Bad Pixel feature, all items of the Defect info marking list are
automatically applied to the image.
1 Enter the value of threshold and offset to detect the defect pixel.
2 Click the Search button to search the automatically detected list.
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3 Select an item to add to the Defect list, and then click the Add button.
Add Pixel: Add one pixel unit of defect pixel.
Add V-Line: Add line type of defect pixels vertically.
Add H-Line: Add line type of defect pixels horizontally.
Delete Pixel: Delete one pixel unit of defect pixel.
Delete V-Line: Delete line type of defect pixels vertically.
Delete H-Line: Delete line type of defect pixels horizontally.
Zoom: Zoom in or out the image.
W/L: Adjust the window level of the image.
Pan: Move the image.
Show: Determine whether to display the selected defect pixel on the image.
ROI: Automatically adjust the window level based on the Min. and Max. value of the
selected area.
1:1: Display the image at one to one ratio.
Fit: Display the image to fit into the screen.
4 Once it is finished to display the defect pixels in the image, save the newly created defect map file and
complete the process by clicking the Save and close button. To cancel it, click the Close button.
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5.4.4 Gain Pixel Correction
Before performing Gain Pixel Correction, consider followings:
Recommended SID is 150 ㎝ (distance between X-ray tube and Detector).
Open the collimator of X-ray tube completely.
Align the center of the detector with the center of collimator.
Keep everything away from the detector surface.
1 Select Gain acquisition – Normal in the left Step item. Expose X-rays and adjust dose of X-rays so
that Current Value reaches TargetValue. Keep the quantity of X-rays when Current Value remains within
10% difference of TargetValue.
Recommended TargetValue is 2000.
2 Click the Get button and expose X-rays ten times.
3 Save the Gain data to the desired folder.
4 Once all the procedures are completed, the OK button will be activated. Click the OK button to close the
dialog box.
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5.4.5 Detector Preference
1 If you need to rotate the detector, select the value of Detector direction compensation.
2 To exclude the particular area of an image, select the desired area by clicking the Show Area button
after acquiring an image, or click the Select Area button after entering the size of image in the Effective
Area field.
3 To renew the automatic offset of the detector, check the Use offset refresh checkbox and set time
interval, temperature, the number of acquiring images.
Once the Use offset refresh checkbox is checked, the temperature of detector is
monitored at the time interval specified. If there is difference between the current
temperature and the specified one, images are acquired according to the number of
acquiring images which you have already set, and then the offset is renewed.
4 Click the Ruler button after acquiring an image, measure the length of it, and then enter the value.
5 Enter all the data you need, and then save the setting by clicking the Set button at the bottom.
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5.5 Diagnosis Mode
In Diagnosis Mode you can review the images acquired by using the trigger or clicking the Normal Grab
button. The number of images, pixel value and ROI value will be displayed on the right side of the Diagnose
window.
Click the Save Image button to save the acquired image.
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The Diagnose window provides the following function buttons to manipulate the acquired image.
Pan: Move an image.
Zoom: Press and hold the left mouse button and then drag to zoom in or out.
W/L: Press and hold the left mouse button and then move the mouse up, down, left or
down to adjust Window Level. Basically this function is also available by using the
right mouse button without clicking the W/L button.
Fit: Fit the panned image to the center.
Statistic: Press and hold the left mouse button and then drag to specify a region.
The coordinates of image, Min/Max value, mean deviation, standard deviation,
etc will be displayed in the Pickup ROI.
ROI: Press and hold the left mouse button and then drag to specify a region.
The Window Level will be adjusted automatically based on Min and Max value of
the region.
Zoom ×1 ~ ×16: Magnify the image ×1 to ×16.
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6. Operation
For the detailed operation, refer to the VXvue User Manual.
1 Register a patient.
2 Register Body parts.
3 Arrange the patient in the correct position to have detector aligned with the target body part.
4 Position the X-ray generator to adjust the exposure field.
5 Adjust kVp, mA, ms and mAs for best condition depending on body part and projection.
6 Press the exposure switch of the X-ray generator. You can check the images on the monitor after image
processing.
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7. Maintenance
7.1 Function Test
Item Period Description
Power consumption Daily Confirm that the power operation of detector is normal.
Temperature Daily Check the monitoring in order to minimize the characteristic
changes of Flat panel caused by external temperature changes.
Hard disk space Daily Check if the hard disk is enough to save images and allow the
consecutive shootings.
Worklist connection Daily Check the worklist connection to allow consecutive shootings.
PACS server connection Daily Check the PACS server connection to send images.
Printing Test Daily Check the printer connection and print images
Auto offset Daily Check that Flat panel’s offset changes caused by the increased
heat are automatically corrected.
Resolution Monthly Confirm the resolution of the detector.
Image Acquisition Time Monthly Confirm the acquisition of time required to get image designed
with optimal specifications.
Linearity Quarterly Evaluate the distinct characteristics of detector through the
amount of radiation coming into Flat Panel Detector, resolution
and contrast of images/projections, and the unification of noises
of projection.
DQE Quarterly Evaluate the distinct characteristics of detector through the
amount of radiation coming into Flat Panel Detector, resolution
and contrast of images/projections, and the unification of noises
of projection.
MTF Quarterly Evaluate the distinct characteristics of detector through the
amount of radiation coming into Flat Panel Detector, resolution
and contrast of images/projections, and the unification of noises
of projection.
Calibration Annually Compensates defect pixels and calibrates pixel gain using the
installed X-ray generator and X-ray tube.
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7.2 Maintenance Guidelines for Users and Test Forms
Maintenance
If you have any inquiries about trouble shooting or the product seems to have a problem, please contact
Vieworks. For optimal performance, we recommend that the working area be kept clean.
Federal law restricts this device to be dealt or operated by a physician or medical
assistant.
Contact Information
Address: Vieworks Co., Ltd
#107-108, 601-610 Suntechcity II
52, Sagimakgol-ro (307-2 Sangdaewon-dong),
Jungwon-gu, Seongnam-si, Gyeonggi-do
462-806 South Korea
Phone: +82-70-7011-6161
Fax: +82-31-737-4954
email: vieworks@vieworks.com
Cleaning
Use a dry cloth to clean surfaces of the system. Do not use detergents or organic solvents to clean the
system.
Do not use abrasive brush, scraper, or acid/alkaline cleaner when cleaning your product.
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Test Forms
Test ITEM (1)
Power Consumption
Frequency D: Daily ■ M: Monthly □
Q: Quarterly □ A: Annually □
Objective:
Confirm that the power operation of detector is normal.
Equipment:
Workstation, VXvue S/W
Power supply, Power Meter
Inspection Report Form,
Procedure:
Turn on the power of the system.
Run VXvue.
Read the data indicated by Power Meter.
Performance and Corrective Action:
Power Consumption of Max. 200VA is secured.
Light green colored LED should be turned on.
If the power consumption exceeds the tolerance limit, service assistance is necessary.
If the LED is not turned on, service assistance is necessary.
Record result on Inspection Report Form.
Result:
Frequency: D: □, M: □, Q: □, A: □ Date: 20**-**-** Operator:
Limit of Acceptability: Max. 200VA
Remarks:
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Test ITEM (2)
Temperature
Frequency D: Daily ■ M: Monthly □
Q: Quarterly □ A: Annually □
Objective:
Check the monitoring in order to minimize the characteristic changes of Flat panel caused by external
temperature changes.
Equipment:
Workstation, VXvue S/W
Power supply, Power Meter
Inspection Report Form
Procedure:
Turn on the power of the system.
Run VXvue.
Check the temperature.
Performance and Corrective Action:
Confirm that the detector and ambient temperature is lower or higher than the operating temperature stated
in this Service Manual. If the detector and ambient temperature deviates from the operating range, adjust
the detector and ambient temperature properly to prevent poor image quality. If the image quality is reduced
after adjusting the temperature, service assistance is necessary.
Record result on Inspection Report Form.
Result:
Frequency: D: □, M: □, Q: □, A: □ Date: 20**-**-** Operator:
Limit of Acceptability: +10 ~ +35℃
Remarks:
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Test ITEM (3)
Hard Disk free space
Frequency D: Daily ■ M: Monthly □
Q: Quarterly □ A: Annually □
Objective:
Confirm that new study can be performed and stored to hard disk drive of workstation.
Equipment:
Workstation, VXvue S/W
Power supply, Power Meter
Inspection Report Form
Procedure:
Turn on the power of the system.
Run VXvue.
Check hard disk free space indication is not red light.
Performance and Corrective Action:
If the hard disk free space indication is not red, new study can be performed.
If the hard disk free space indication is red, delete old study to make free hard disk space enough to
perform new study.
Record result on Inspection Report Form.
Result:
Frequency: D: □, M: □, Q: □, A: □ Date: 20**-**-** Operator:
Limit of Acceptability: N/A
Remarks:
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Test ITEM (4)
Work list connection
Frequency D: Daily ■ M: Monthly □
Q: Quarterly □ A: Annually □
Objective:
Confirm that VXvue is connected normally with Worklist and can register study by querying from Worklist
server.
Equipment:
Workstation, VXvue S/W, Work List Server
Power supply, Power Meter
Inspection Report Form
Procedure:
Turn on the power of the system.
Run VXvue.
Select Setting Mode.
Select DICOM tab.
Select MWL tab.
Select Worklist server.
Click the Echo button.
Performance and Corrective Action:
Check the connection status that is displayed in test result window.
If connection test failed, check Worklist server is operating and configuration of Worklist server connection
is correct.
If still Worklist connection fails, service assistance is necessary.
Record result on Inspection Report Form.
Result:
Frequency: D: □, M: □, Q: □, A: □ Date: 20**-**-** Operator:
Limit of Acceptability: N/A
Remarks:
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Test ITEM (5)
PACS Server connection
Frequency D: Daily ■ M: Monthly □
Q: Quarterly □ A: Annually □
Objective:
Confirm that VXvue is connected normally with PACS Server and can send performed study data to PACS
server.
Equipment:
Workstation, VXvue S/W, PACS Server
Power supply, Power Meter
Inspection Report Form
Procedure:
Turn on the power of the system.
Run VXvue.
Select Setting Mode.
Select DICOM tab.
Select Storage tab.
Select Storage Server.
Click the Echo button.
Performance and Corrective Action:
Check the connection status that is displayed in test result window.
If connection test failed, check PACS server is operating and configuration of PACS server connection is
correct.
If still PACS server connection fails, service assistance is necessary.
Record result on Inspection Report Form.
Result:
Frequency: D: □, M: □, Q: □, A: □ Date: 20**-**-** Operator:
Limit of Acceptability: N/A
Remarks:
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Test ITEM (6)
Printing Test
Frequency D: Daily ■ M: Monthly □
Q: Quarterly □ A: Annually □
Objective:
Confirm that VXvue is connected normally with Printer and can print images.
Equipment:
Workstation, VXvue S/W,
DICOM Printer or Paper Printer that is installed.
Power supply, Power Meter
Inspection Report Form
Procedure:
Turn on the power of the system.
Run VXvue.
Select Database Mode.
Search database and open study.
Click the Print button.
Select Print Mode.
Click the Print button to print image.
Performance and Corrective Action:
Confirm that the image is printed normally.
If printing failed, check the printer is operating and is configured correctly.
If still printing fail, service assistance is necessary.
Record result on Daily Report Form.
Result:
Frequency: D: □, M: □, Q: □, A: □ Date: 20**-**-** Operator:
Limit of Acceptability: N/A
Remarks:
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Test ITEM (7)
Auto offset
Frequency D: Daily ■ M: Monthly □
Q: Quarterly □ A: Annually □
Objective:
Check that Flat panel’s offset changes caused by the increased heat are automatically corrected.
Equipment:
Workstation, VXvue S/W
Power supply, Power Meter
Stop watch
Inspection Report Form
Procedure:
Turn on the power of the system.
Run VXSetup.
Set the period of offset or temperature change.
Run VXvue.
Performance and Corrective Action:
Check if Auto offset is set and performed when operating VXvue.
Check if Auto offset operates after the chosen time setting is over.
If offset is not set automatically and does not perform, ask for service assistance.
If the chosen time setting is exceeded, recheck the time setting.
If the image is not normal due to the dislocation of offset, send the image and ask for service assistance.
Record result on Inspection Report Form.
Result:
Frequency: D: □, M: □, Q: □, A: □ Date: 20**-**-** Operator:
Limit of Acceptability: N/A
Remarks:
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Test ITEM (8)
Resolution
Frequency D: Daily □ M: Monthly ■
Q: Quarterly □ A: Annually □
Objective:
Confirm the resolution of the detector.
Equipment:
Workstation, VXSetup S/W
Power supply, Power Meter
Resolution Chart (Nuclear Associate, model 07-523-2 or Line pair CHART 0.05mmPb CN37076)
X-ray GEN., X-ray Tube
Inspection Report Form
Procedure:
Turn on the power of the system.
Run VXSetup.
Open the Diagnose window.
Attach resolution chart (Line pair CHART 0.05 ㎜Pb CN37076, model 07-523-2) on the center of the
detector with diagonal direction.
Set X-ray generator to 50kVp, 2mAs and SID to 1m.
Expose X-rays.
Confirm that the resolution is over 3.5lp/㎜.
Performance and Corrective Action:
Confirm that the resolution is over 3.5lp/㎜.
If the resolution is under 3.5lp/㎜, then test again by adjusting mAs from 1mAs to 5mAs.
If still resolution is under 3.5lp/㎜, service assistance is necessary.
Record result on Inspection Report Form.
Result:
Frequency: D: □, M: □, Q: □, A: □ Date: 20**-**-** Operator:
Limit of Acceptability: 3. 5lp/㎜
Remarks:
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Test ITEM (9)
Image Acquisition Time
Frequency D: Daily □ M: Monthly ■
Q: Quarterly □ A: Annually □
Objective:
Confirm the acquisition of time required to get image designed with optimal specifications.
Equipment:
Workstation, VXvue S/W
Power supply, Power Meter
X-ray GEN., X-ray Tube
Stop watch
Inspection Report Form
Procedure:
Turn on the power of the system.
Run VXvue.
Select Exposure Mode.
Register patient.
Expose X-rays with the condition of 50kVp and 5 mAs.
Check flat Image is acquired and displayed on monitor.
Performance and Corrective Action:
Check if the image is acquired in 5 to 7 seconds (including the processing time).
If image acquisition failed, check the X-ray is exposed normally and the triggering with X-ray generator is
properly configured.
If still image acquisition fail, service assistance is necessary.
Record result on Inspection Report Form.
Result:
Frequency: D: □, M: □, Q: □, A: □ Date: 20**-**-** Operator:
Limit of Acceptability:5~7 sec
Remarks:
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Test ITEM (10)
Linearity
Frequency D: Daily □ M: Monthly □
Q: Quarterly ■ A: Annually □
Objective:
Evaluate the image quality according to the amount of radiation coming into Flat Panel Detector.
Equipment:
Workstation, VXvue S/W
Power supply, Power Meter
X-ray GEN., X-ray Tube
Inspection Report Form
Procedure:
No Target
Gain: 1
Performance and Corrective Action:
When SID is 150 ㎝, 1900-2200 Graylevel properties/qualities should be obtained under 70kVp and 2mAs.
When SID is 100 ㎝, 1900-2200 Graylevel properties/qualities should be obtained under 55kVp and 2mAs.
If properties/qualities are not obtained, reset the conditions and test again.
If properties/qualities are still not obtained after the second test, service assistance is necessary.
Record result on Inspection Report Form.
Result:
Frequency: D: □, M: □, Q: □, A: □ Date: 20**-**-** Operator:
Limit of Acceptability: SID: 150 ㎝, 70kVp, 2mAs ➔ 1900 ~ 2200 Graylevel
SID: 100 ㎝, 55kVp, 2mAs ➔ 1900 ~ 2200 Graylevel
Remark:
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Test ITEM (11)
DQE
Frequency D: Daily □ M: Monthly □
Q: Quarterly ■ A: Annually □
Objective:
Evaluate the distinct characteristics of detector through the amount of radiation coming into Flat Panel
Detector, resolution and contrast of images/projections, and the unification of noises of projection.
Equipment:
Workstation, VXvue S/W
Power supply, Power Meter
X-ray GEN., X-ray Tube
Inspection Report Form
Procedure:
IEC62220-1(RQA 5) in accordance with the conditions
Performance and Corrective Action:
In case of CSI type, properties/qualities should be obtained more than 45% at 1l/p ㎜.
In case of Gadox type, properties/qualities should be obtained more than 30% at 1l/p ㎜.
If properties/qualities are not obtained, reset the conditions and test again.
If properties/qualities are still not obtained after the second test, service assistance is necessary.
Record result on Inspection Report Form.
Result:
Frequency: D: □, M: □, Q: □, A: □ Date: 20**-**-** Operator:
Limit of Acceptability: CSI: 1l/p ㎜, more than 45%
Gadox: 1l/p ㎜, more than 30%
Remarks:
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Test ITEM (12)
MTF
Frequency D: Daily □ M: Monthly □
Q: Quarterly ■ A: Annually □
Objective:
Evaluate the distinct characteristics of detector through the amount of radiation coming into Flat Panel
Detector, resolution and contrast of images/projections, and the unification of noises of projection.
Equipment:
Workstation, VXvue S/W
D.Q.E Program (Matlab)
Power supply, Power Meter
X-ray GEN., X-ray Tube
Inspection Report Form
Procedure:
IEC62220-1(RQA 5) in accordance with the conditions
Performance and Corrective Action:
Properties/qualities should be obtained more than 50% at 1l/p ㎜.
If properties/qualities are not obtained, reset the conditions and test again.
If properties/qualities are still not obtained after the second test, service assistance is necessary.
Record result on Inspection Report Form.
Result:
Frequency: D: □, M: □, Q: □, A: □ Date: 20**-**-** Operator:
Limit of Acceptability: 1l/p ㎜, more than 50%
Remarks:
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Test ITEM (13)
Calibration
Frequency D: Daily □ M: Monthly □
Q: Quarterly □ A: Annually ■
Objective:
Compensates defect pixels and calibrates pixel gain using the installed x-ray generator and x-ray tube.
Equipment:
Workstation, VXSetup S/W
Power supply, Power Meter
X-ray GEN., X-ray Tube
Inspection Report Form
Procedure:
Turn on the power of the system.
Run VXSetup.
Operation of calibration: Enter 10 in the Stage of Preoffset and perform the calibration.
Operation of calibration: Enter 10 in the Stage of Postoffset and perform the calibration.
Operation of calibration: Perform Defect defection.
Operation of calibration: Perform Gain correction.
Performance and Corrective Action:
Featured artifacts are not found if calibration is performed normally.
If many artifacts are found, perform calibration again.
If many artifacts are still found, service assistance is necessary.
Record result on Inspection Report Form.
Result:
Frequency: D: □, M: □, Q: □, A: □ Date: 20**-**-** Operator:
Limit of Acceptability: N/A
Remarks:
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System Discrepancy Form
Installation Site Information:
Date: Published by:
System Information
X-ray Generator:
X-ray Tube:
X-ray grid Information:
Detector Model: FXRD-1417WA(B)
Serial Number of Detector:
Serial Number of Power Supply Unit:
Version of VXvue:
Version of VXSetup:
Comment:
System Discrepancy
Date of finding:
Operator:
How is it found:
Comment:
Contact Information
Address: Vieworks Co., Ltd
#107-108, 601-610 Suntechcity II,
52, Sagimakgol-ro (307-2 Sangdaewon-dong),
Jungwon-gu, Seongnam-si, Gyeonggi-do
462-806 South Korea
Phone: +82-70-7011-6161
Fax: +82-31-737-4954
email: vieworks@vieworks.com
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Modification Request Form
Date: Published by:
System Information
X-ray Generator:
X-ray Tube:
X-ray grid Information:
Detector Model: FXRD-1417WA(B)
Serial Number of Detector:
Serial Number of Power Supply Unit:
Version of VXvue:
Version of VXSetup:
Comment:
Modification Request
Software Name:
Request:
Comment:
Contact Information
Address: Vieworks Co., Ltd
#107-108, 601-610 Suntechcity II,
52, Sagimakgol-ro (307-2 Sangdaewon-dong),
Jungwon-gu, Seongnam-si, Gyeonggi-do
462-806 South Korea
Phone: +82-70-7011-6161
Fax: +82-31-737-4954
email: vieworks@vieworks.com
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8. Troubleshooting
Trouble shooting must be performed by technician who is trained by the Vieworks Co., Ltd
or an organization certified by Vieworks Co., Ltd.
If an unqualified person performs troubleshooting on the system resulting in damaging the
detector, software or hardware, then the Vieworks Co., Ltd or its representative is not
responsible for the detector repair regardless of remain warranty.
For more detailed information, refer to the 9. Warranty section.
8.1 Failure Case
Failure Case Solution
Failed to turn on the power of SCU. Refer to 8.1.1
Power LED isn’t lit up. Refer to 8.1.2
Status LED isn’t lit up with green. Refer to 8.1.3
Communication Test Failure Refer to 8.1.4
8.1.1 Repairing SCU
Check if AC power cable of System Control Unit is securely plugged. If it still does not work, replace the SCU.
8.1.2 Repairing Power Failure
Check if DC power cable is securely plugged and power switch is turned on. If it still does not work, replace
the detector.
8.1.3 Configuration Failure
Turn off the SCU and turn it on again. If it still does not work, replace the detector.
8.1.4 Repairing Communication Failure
Check if LAN cable is securely plugged. If it does not work, do the first step of the following and check again.
If it still does not work, do the next step.
Restart VXvue.
Turn off the SCU and turn it on again.
Replace the LAN cable.
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9. Warranty
Vieworks Co., Ltd warrants that this product will be free from defects in materials and workmanship for a
period of twelve (12) months from the date of delivery. If any such product proves defective during this
warranty period, Vieworks Co., Ltd at its option, either will repair the defective product without charge for
parts and labor, or will provide a replacement in exchange for the defective product. In order to obtain service
under this warranty, Customer must notify Vieworks Co., Ltd of the defect before the expiration of the
warranty period and make suitable arrangements for the performance of service. Customer shall be
responsible for packaging and shipping the defective product to the service center designated by Vieworks
Co., Ltd with shipping charges prepaid. Vieworks Co., Ltd shall pay for the return of the product to customer
if the shipment is to a location within the country in which the Vieworks Co., Ltd designated service center is
located. Customer shall be responsible for paying all shipping charges, duties, taxes, and any other charges
for products returned to any other locations.
This warranty shall not apply to any defect, failure, or damage caused by improper or inadequate
maintenance and care. Vieworks shall not be obligated to furnish service under this warranty to repair
damage resulting from attempts by personnel other than Vieworks Co., Ltd or its representatives to install,
repair, or service this product, to repair damage resulting from improper use or connection to incompatible
equipment or power source; or to service a product that has been modified or integrated with other products
when the effect of such modification or integration increases the time or difficulty of servicing the product.
THIS WARRANTY IS GIVEN BY VIEWORKS CO.,LTD WITH RESPECT TO THIS PRODUCT IN LIEU OF
ANY OTHER WARRANTIES, EXPRESS OR IMPLIED. VIEWORKS CO., LTD AND ITS VENDOR DISCLAIM
ANY IMPLIED WARRANTIES OF MERCHANTABLILITY OR FITNESS FOR A PARTICULAR PURPOSE.
VIEWORKS CO., LTD RESPONSIBILITY TO REPAIR OR REPLACE DEFECTIVE PRODUCTS IS THE
SOLE REMEDY PROVIDED TO THE CUSTOMER FOR BREACH OF THIS WARRANTY. VIEWORKS AND
ITS VENDORS WILL NOT BE LIABLE FOR ANY INDIRECT, SPECIAL, INCIDENTAL, OR
CONSEQUENTIAL DAMAGES IRRESPECTIVE OF WHETHER VIEWORKS CO., LTD OR THE VENDOR
HAS ADVANCE NOTICE OF THE POSSIBILITY OF SUCH DAMAGES.
There are no warranties which extend beyond the description mentioned in this document.
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Page 124 of 124 RA14-11A-022
Vieworks Co., Ltd.
#107-108, 601-610, Suntechcity 2,
52, Sagimakgol-ro (307-2, Sangdaewon-dong),
Jungwon-gu, Seongnam-si, Gyeonggi-do, 462-806, South Korea
Telephone: +82-70-7011-6161 FAX : +82-31-737-4954
Website: http:www.vieworks.com
European representative: DONGBANG ACUPRIME
1 Forrest Units, Hennock Road East, Marsh Barton, Exeter EX2 8RU, UK
Tel: +44(0)-1392-829500 Site: http://www.acuprime.com
FCC/IC Notice
*5.15- 5.25 GHz band is restricted to indoor operations only.
*Host device of the approved module shall be marked with the following item:
Contains Transmitter Module FCC ID: RYK-WPEA121N
Contains IC Number: 6158A-WPEA121NW
Compliance with FCC requirement 15.407(c)
Data transmission is always initiated by software, which is the passed down through the MAC,
through the digital and analog baseband, and finally to the RF chip. Several special packets are
initiated by the MAC. These are the only ways the digital baseband portion will turn on the RF
transmitter, which it then turns off at the end of the packet. Therefore, the transmitter will be on
only while one of the aforementioned packets is being transmitted. In other words, this device
automatically discontinues transmission in case of either absence of information to transmit or
operational failure.
This device complies with part 15 of the FCC Rules. Operation is subject to the following
two conditions: (1) This device may not cause harmful interference, and (2) this device
must accept any interference received, including interference that may cause undesired
operation.
Le présent appareil est conforme aux la partie 15 des règles de la FCC et CNR d'Industrie
Canada applicables aux appareils radio exempts de licence. L'exploitation est autorisée aux deux
conditions suivantes : (1) l'appareil ne doit pas produire de brouillage, et (2) l'utilisateur de
l'appareil doit accepter tout brouillage radioélectrique subi, même si le brouillage est susceptible
d'en compromettre le fonctionnement.
This device complies with Industry Canada licence-exempt RSS standard(s). Operation is
subject to the following two conditions: (1) this device may not cause interference, and (2)
this device must accept any interference, including interference that may cause undesired
operation of the device.
Le présent appareil est conforme aux CNR d'Industrie Canada applicables aux appareils radio
exempts de licence. L'exploitation est autorisée aux deux conditions suivantes : (1) l'appareil ne
doit pas produire de brouillage, et (2) l'utilisateur de l'appareil doit accepter tout brouillage
radioélectrique subi, même si le brouillage est susceptible d'en compromettre le fonctionnement.
Under Industry Canada regulations, this radio transmitter may only operate using an
antenna of a type and maximum (or lesser) gain approved for the transmitter by Industry
Canada. To reduce potential radio interference to other users, the antenna type and its gain
should be so chosen that the equivalent isotropically radiated power (e.i.r.p.) is not more
than that necessary for successful communication.
Conformément à la réglementation d'Industrie Canada, le présent émetteur radio peut fonctionner
avec une antenne d'un type et d'un gain maximal (ou inférieur) approuvé pour l'émetteur par
Industrie Canada. Dans le but de réduire les risques de brouillage radioélectrique à l'intention des
autres utilisateurs, il faut choisir le type d'antenne et son gain de sorte que la puissance isotrope
rayonnée équivalente (p.i.r.e.) ne dépasse pas l'intensité nécessaire à l'établissement d'une
communication satisfaisante.
This radio transmitter (identify the device by certification number, or model number if
Category II) has been approved by Industry Canada to operate with the antenna types
listed below with the maximum permissible gain and required antenna impedance for each
antenna type indicated. Antenna types not included in this list, having a gain greater than
the maximum gain indicated for that type, are strictly prohibited for use with this device.
Le présent émetteur radio (identifier le dispositif par son numéro de certification ou son numéro
de modèle s'il fait partie du matériel de catégorie I) a été approuvé par Industrie Canada pour
fonctionner avec les types d'antenne énumérés ci-dessous et ayant un gain admissible maximal et
l'impédance requise pour chaque type d'antenne. Les types d'antenne non inclus dans cette liste,
ou dont le gain est supérieur au gain maximal indiqué, sont strictement interdits pour
l'exploitation de l'émetteur.
FCC CAUTION
Changes or modifications not expressly approved by the party responsible for
compliance could void the user’s authority to operate the equipment.
This transmitter must not be co-located or operated in conjunction with any other antenna or
transmitter.
When installing it in a mobile equipment
This equipment complies with FCC/IC radiation exposure limits set forth for an uncontrolled
environment and meets the FCC radio frequency (RF) Exposure Guidelines and RSS-102 of the IC
radio frequency (RF) Exposure rules. This equipment has very low levels of RF energy that it
deemed to comply without maximum permissive exposure evaluation (MPE). But it is desirable that
it should be installed and operated keeping the radiator at least 20cm or more away from person’s
body in normal use position.
Cet équipement est conforme aux limites d’exposition aux rayonnements énoncées pour un
environnement non contrôlé et respecte les règles les radioélectriques (RF) de la FCC lignes
directrices d'exposition et d’exposition aux fréquences radioélectriques (RF) CNR-102 de l’IC. Cet
équipement émet une énergie RF très faible qui est considérée conforme sans évaluation de
l’exposition maximale autorisée. Cependant, il est souhaitable qu'il devrait être installé et utilisé en
gardant une distance de 20 cm ou plus entre le dispositif rayonnant et le corps en utilisation
normale.)
<LIST OF ACCEPTABLE ANTENNA(S), MODEL, GAIN, IMPEDANCE>
Model
ANT Model
TYPE
Gain[dBi]
IMPEDANCE
FXRD-1417WA/B
AEi-
2450/5500DP
PCB Antenna
4.66 dBi (2.4GHz)
2.19 dBi (5 GHz)
50 Ω
FXRS-03A
JK-450B
Dipole antenna
3.585 dBi (2.4GHz)
2.830 dBi (5 GHz)
50 Ω