EN 33
Contents Introduction ��������������������������������5 2.2.6 Detector Interface Unit ������������������������ 46 Introduction �����������������������������������������������������������6 2.2.7 Detector Interface Unit 2 �������������������� 47 2.2.8 Power Supply Unit ������������������������������ 48 2.2.9 AeroDR Generator Interface Unit ������� 49 2.2.10 AeroDR Generator Interface Unit2 ����� 50 2.2.11 Generator Interface Unit 3 ������������������ 51 2.2.
Contents Chapter 4 Status (LED) Display ������������87 Chapter 7 Specifications ��������������������119 Chapter 4 4.1 Chapter 7 LED display of respective devices �����������88 7.1 AeroDR Detector �������������������������������� 89 7.1.1 DR Detector �������������������������������������� 120 4.1.2 AeroDR 2 Detector ����������������������������� 90 7.1.2 AeroDR Interface Unit ���������������������� 124 4.1.3 AeroDR 3 Detector ����������������������������� 91 7.1.
Introduction 5
Introduction The digital radiography AeroDR SYSTEM, AeroDR SYSTEM 2 and SKR 3000 (hereinafter, both are referred to as this device) perform X-ray imaging of the human body using an X-ray planar detector that outputs a digital signal, which is then input into an image processing device, and the acquired image is then transmitted to a filing system, printer, and image display device as diagnostic image data. • This Device is not intended for use in mammography.
Introduction USA only Indications for Use This device is indicated for use in generating radiographic images of human anatomy. It is intended to a replace radiographic film/screen system in general-purpose diagnostic procedures. This device is not indicated for use in mammography, fluoroscopy, and angiography applications. CAUTION • Federal law restricts this device to sale by or on the order of a physician.
Introduction Summary of usability specifications (for IEC/EN 60601-1-6, IEC/EN 62366) (1) Medical purposes • Provision and reading of disease and injury diagnostic images. (2) Patient groups • No patient population exists who uses the device. • Patient population for the X-ray images read is not specified. (3) Parts of body or organizations to which the device is mounted or that interact with the device. • DR Detector contacts the body surfaces of a patient and an operator.
Introduction Disclaimer (1) This manual may not be reproduced in whole or in part without the permission of Konica Minolta, Inc. (2) The contents of this manual may be subject to change without prior notice. (3) Konica Minolta, Inc. is not responsible for any claims made for malfunction or damage caused by installation, relocation, modification, maintenance, and repair made by anyone except Konica Minolta and contractors designated by Konica Minolta. (4) Konica Minolta, Inc.
Introduction Name correspondence table Operation Manual name AeroDR Detector AeroDR 2 Detector DR Detector AeroDR 3 Detector Model name (nameplate name) AeroDR 1417HQ AeroDR P-11 AeroDR 1417S AeroDR P-12 AeroDR 1717HQ AeroDR P-21 AeroDR 1012HQ AeroDR P-31 AeroDR 2 1417HQ AeroDR P-51 AeroDR 2 1417S AeroDR P-52 AeroDR 3 1417HD P-61 AeroDR 3 1717HD P-71 AeroDR 3 1012HQ P-81 AeroDR 3 1417HD2 P-65 AeroDR 3 1717HD2 P-75 AeroDR 3 1417HL P-85 AeroDR 3 1417SL P-82 AeroDR Interface Uni
Introduction Term description Terms Explanation DR Detector Collective term indicating AeroDR 1417HQ, AeroDR 1417S, AeroDR 1717HQ, AeroDR 1012HQ, AeroDR 2 1417HQ, AeroDR 2 1417S, AeroDR 3 1417HD, AeroDR 3 1717HD, AeroDR 3 1012HQ, AeroDR 3 1417HD2, AeroDR 3 1717HD2, AeroDR 3 1417HL, and AeroDR 3 1417SL. AeroDR Detector Collective term indicating AeroDR 1417HQ, AeroDR 1417S, AeroDR 1717HQ, and AeroDR 1012HQ. AeroDR 2 Detector Collective term indicating AeroDR 2 1417HQ, and AeroDR 2 1417S.
Chapter 1 Safety Precautions & Warnings 13
1.1 1.1.1 Symbols relating to safety Safety alert symbol 1.1.3 Graphic symbols Description of graphic symbols Explanation This is a "safety alert symbol". This symbol alerts you to matters and/or operation potentially hazardous to yourself and other people. Read these messages and follow the instructions carefully. Indicates the on or standby position for the power switch of this device. 1.1.2 Indicates the on position for the main power switch of this device.
1.2 Warning labels 1 Various warning labels are attached to this device on the locations shown below. Do not remove these labels from this device. Warning labels are there to make sure that the user recognizes potential hazards when operating this device. IMPORTANT 2 • If a warning label is too dirty or damaged to read, contact Konica Minolta technical representatives to have a new warning label attached, and redisplay by parts replacement. (a fee is required.) 1.2.
Warning labels 1.2.2 AeroDR Generator Interface Unit2 1.2.3 AeroDR Battery Charger 1.2.
1.3 Safety precautions 1 Read all safety precautions thoroughly before using this device. Be sure to observe the safety precautions described in this section. 1.3.1 1.3.2 Precautions for usage WARNING Precautions before usage • The DR Detector is a precision instrument. If it is dropped or hit against any object, a failure may occur due to strong impact or excessive load.
Safety precautions WARNING CAUTION • If there is any smoke, odor, or abnormal sound, it may cause a fire if use is continued, so immediately turn the power switch off, unplug the power plug from the wall outlet, and contact Konica Minolta technical representatives. • Take note of the following to reduce the risk of fire, electric shock, or electrical leakage: — Use specified cables for the power cable, etc. and AC adapter. — Use a wall outlet with the correct rating as a power source.
Safety precautions — Exposing or immersing the DR Detector to patient body fluids, chemicals, water, etc. may allow such liquids to enter through exterior gaps and cause a failure. Make sure to cover the DR Detector with a vinyl sheet, etc. — Be careful of the ingress of patient body fluids, chemicals, water, etc., because the AeroDR Detector is not designed to be waterproof.
Safety precautions — When using the remote table for exposure, take caution to prevent shocks and vibrations during exposure and/or image transmission, because affect from shocks and vibrations may be large. — Never leave DR Detectors around heat generators such as electric carpet. — Do not damage or deform the DR Detector; doing so may have an effect on exposed images, or lead to injury. — Do not use a sharp object to operate the switch; doing so may damage the AeroDR 2 Detector and AeroDR 3 Detector.
Safety precautions • If you change the X-ray sensitivity to "Large" or "Med" in the AeroDR 3 Detector, make sure that all of the following conditions are met before performing exposure. If you perform exposure under other conditions, you may not be able to get an image. — Emit the X-rays onto the entire DR Detector. — Emit the X-rays by using a tube current of 140 mA or higher or a tube voltage of 90 kV or higher.
Safety precautions 1.3.3 (2) This device is suitable for use in medical institutions such as hospitals and clinics. However, this device is not suitable for use in environments with high degree of electromagnetic wave interference (such as near an electric operation device in use for output, or near a high frequency treatment device).
Safety precautions Table 1 (support for IEC 60601-1-2:2007 and IEC 60601-1-2:2014) Guidelines and manufacture's declaration - electromagnetic emissions 1 This device is intended for use in the electromagnetic environment specified below. The customer or the user of this device should assure that it is used in such an environment.
Safety precautions Table 3 (support for IEC 60601-1-2:2007) Guidelines and manufacturer's declaration - electromagnetic immunity This device is intended for use in the electromagnetic environment specified below. The customer or the user of this device should assure that it is used in such an environment.
Safety precautions Table 4 (support for IEC 60601-1-2:2007) Recommended separation distance between portable and mobile RF communications equipment and the device This device is intended for use in an electromagnetic environment in which radiated RF disturbances are controlled.
Safety precautions Test specifications for Enclosure port immunity to RF wireless communications equipment Test frequency (MHz) Modulation Immunity test level (V/m) 385 Pulse modulation 18 Hz 27 450 Frequency modulation ±5 kHz deviation 1 kHz sine 28 Pulse modulation 217 Hz 9 Pulse modulation 18 Hz 28 Pulse modulation 217 Hz 28 Pulse modulation 217 Hz 28 Pulse modulation 217 Hz 9 710 745 780 810 870 930 1720 1845 1970 2450 5240 5500 5785 26
Safety precautions 1.3.4 • High-power radars are allocated as primary users (i.e. priority users) of the 5250 MHz-5350 MHz and 5650 MHz-5850 MHz bands, and these radars could cause interference and/or damage to LE-LAN devices. • Compliance with FCC requirement 15.407(c): Data transmission is always initiated by software, which is 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.
Safety precautions Taiwan 3. When in use, do not cause harmful interference in other legal wireless communication services. If you find interference to be occurring, discontinue use immediately. After taking measures to eliminate interference, you may continue using the device. 4. If you use low power radio equipment, you must accept interference from various wireless services or radiation interference from industrial, scientific and medical application equipment. 5.
Safety precautions 1.3.5 — Do not install or store in a location where it may be adversely affected by atmospheric pressure, temperature, humidity, ventilation, sunlight, dust, salt-air, or air containing sulfur. — Do not install or store in a location where it is not stable, ventilation is insufficient, the difference in lightdark is great, electromagnetic waves are generated, or where subject to vibration or shock. — Do not install or store in a location where chemical agents are used or stored.
Safety precautions 1.3.6 Precautions regarding maintenance WARNING • Perform the maintenance and inspection periodically. In addition to the user periodical maintenance that needs to be performed, periodical maintenance by a service engineer is also required. • If there are stains such as body fluids, clean and disinfect. — Disinfecting solution is a chemical agent, so follow the precautions of the manufacturer.
Chapter 2 Product Overview 31
2.1 2.1.1 Overview of this device Functions The AeroDR SYSTEM consists of AeroDR Detector, AeroDR Interface Unit, AeroDR Interface Unit2, AeroDR Generator Interface Unit, AeroDR Battery Charger, AeroDR Battery Charger2, AeroDR Access Point, etc. With the DR Detector, diagnostic X-ray digital image data is generated by the irradiation signal and exposure from an X-ray device, and sent to the image processing controller.
Overview of this device 2.1.2 System configuration and connection examples Basic configuration example Number Name Functions DR Detector • There are 13 types of DR Detectors: AeroDR 1417HQ, AeroDR 1417S, AeroDR 1717HQ, AeroDR 1012HQ, AeroDR 2 1417HQ, AeroDR 2 1417S, AeroDR 3 1417HD, AeroDR 3 1717HD, AeroDR 3 1012HQ, AeroDR 3 1417HD2, AeroDR 3 1717HD2, AeroDR 3 1417HL, and AeroDR 3 1417SL. • DR Detector is of B-type Applied Parts.
Overview of this device Number Name Functions Registers the orientation when the DR Detector is used for exposure in the wall stand/table position. (16) AeroDR UF Cable (17) Image processing controller (18) AeroDR XG Cable Performs signal relay between the X-ray device and the AeroDR Interface Unit2, AeroDR Generator Interface Unit and AeroDR Generator Interface Unit2.
Overview of this device Basic connection example 2 Exposure room 1 Wired connection Wireless connection (1) DR Detector (1) DR Detector Wall stand Tube (16) AeroDR UF Cable (15) I/F Cable 2 X-ray device X-ray (13) AeroDR Access Point (18) AeroDR XG Cable (19) AeroDR Collimator Cable 4 (3) AeroDR (12) AeroDR Battery Charger2 Interface Unit2 Signal relay Power supply Hub (17) Image processing controller X-ray device operation panel Basic connection example 3 Exposure room Wireless connecti
Overview of this device Basic connection example 4 Exposure room Wireless connection (1) DR Detector Tube X-ray device X-ray (14) Access point (18) AeroDR XG Cable (10) Generator Interface Unit 3 GIU3 AC Adapter (4) Hub (12) AeroDR Battery Charger2 Signal relay Power supply Hub X-ray device operation panel (17) Image processing controller HINT • The Generator Interface Unit 3 can also be powered from the GIU3 AC Adapter.
Overview of this device S-SRM connection example 1 1 Exposure room Wired connection Wireless connection (1) DR Detector (1) DR Detector Wall stand Tube (16) AeroDR UF Cable (15) I/F Cable (13) AeroDR Access Point 2 X-ray device X-ray 3 4 (11) AeroDR (2) AeroDR Interface Unit Battery Charger Signal relay Power supply (20) AeroDR S-SRM Cable (21) S-SRM Hub (17) Image processing controller X-ray device operation panel (8) AeroDR Generator Interface Unit S-SRM connection example 2 6 Expos
Overview of this device S-SRM connection example 3 Exposure room Wired connection Wireless connection (1) DR Detector (1) DR Detector Wall stand Tube X-ray device X-ray (16) AeroDR UF Cable (15) I/F Cable (12) AeroDR Battery Charger2 (14) Access Point (2) AeroDR Interface Unit Signal relay Power supply Hub (20) AeroDR S-SRM Cable (21) S-SRM (9) AeroDR Generator Interface Unit2 (17) Image processing controller X-ray device operation panel HINT • The AeroDR Generator Interface Unit2 and acce
Overview of this device Aero Sync connection example 1 Exposure room 1 Wired connection Wireless connection (1) DR Detector (1) DR Detector Wall stand Tube (16) AeroDR UF Cable (15) I/F Cable 2 X-ray device X-ray 3 (13) AeroDR Access Point 4 (2) AeroDR Interface Unit (12) AeroDR Battery Charger2 Signal relay Power supply Hub (17) Image processing controller X-ray device operation panel Aero Sync connection example 2 Exposure room 5 6 Wireless connection (1) DR Detector Tube 7 X-ray dev
Overview of this device Serial exposure connection example Exposure room Wireless Wired connection connection Wireless Wired connection connection (1) DR Detector (1) DR Detector X-ray Tube X-ray device (14) Access point (15) I/F Cable Table (15) I/F Cable Wall stand (5) Detector Interface Unit 2 (5) Detector Interface Unit 2 (18) AeroDR XG Cable (12) AeroDR Battery Charger2 Hub (7) Power Supply Unit (10) Generator Interface Unit 3 Signal relay Power supply (17) Image processing controller
2.2 Component names and functions 2.2.1 1 AeroDR Detector (2) (3) (1) (4) 2 (5) 3 Exposure side 4 5 6 (4) (3) (5) (6) Number (7) (8) (6) (9) Name (6) Functions • Indicates the direction to place the DR Detector in during exposure. — When exposing in portrait, place the triangular mark upward. — When exposing in landscape, place the triangular mark to the left or right. — (Left and right are set during installation according to the exposure environment.
Component names and functions 2.2.2 AeroDR 2 Detector (2) (3) (1) (5) (4) Exposure side (3) (5) (4) (6) Number (7) (8) (6) (9) Name (6) Functions • Indicates the direction to place the DR Detector in during exposure. — When exposing in portrait, place the triangular mark upward. — When exposing in landscape, place the triangular mark to the left or right. — (Left and right are set during installation according to the exposure environment.
Component names and functions 2.2.3 1 AeroDR 3 Detector (1) (2) (3) (4) (5) (6) 2 Exposure side 3 4 5 (7) (8) (9) (10) (11) Number (12) (5) Name Functions (1) Power SW Used to turn the DR Detector on/off. (2) Selection SW Notifies the image processing controller that this DR Detector will be used for the exposure. (3) Front board Protects the internal parts. • Indicates the direction to place the DR Detector in during exposure.
Component names and functions 2.2.4 AeroDR Interface Unit (1) (6) Number (2) (7) (3) (4) (8) (5) (9) Name Functions (1) Top cover Protects the internal parts. (2) Side cover Protects the internal parts. (3) Power switch Turns the AeroDR Interface Unit on/off. (4) Rear cover Protects the internal parts. (5) Exhaust outlet Exhausts internal heat. (6) Front cover Protects the internal parts. (7) LEDs Indicate the status of the AeroDR Interface Unit.
Component names and functions 2.2.5 1 AeroDR Interface Unit2 (1) (2) (3) (4) (5) (1) (6) 2 3 4 (6) (7) Number (8) (9) (11) (10) Name (7) Functions (1) Exhaust outlet Exhausts internal heat. (2) Top cover Protects the internal parts. (3) Detector Connection LEDs Indicate the status of the AeroDR Interface Unit2. (4) Power switch Turns the AeroDR Interface Unit2 on/off. (5) Rear cover Protects the internal parts. (6) Side cover Protects the internal parts.
Component names and functions 2.2.6 Detector Interface Unit (1) (2) (3) (4) (5) (6) (7) (8) (9) (10) Number Name Functions (1) Base cover Protects the internal parts. (2) LED Indicates the status of the Detector Interface Unit. (3) Cable outlet Outlet for I/F Cable. (4) LAN port Connects to the Ethernet cable. (5) Unit fixed plate Used to attach this device to a wall stand or table, etc. (6) Power cable connector socket This is the socket of the Power cable connector.
Component names and functions 2.2.7 1 Detector Interface Unit 2 (1) (2) (3) (4) (5) 2 3 (6) Number (7) Name 4 Functions (1) Top plate Protects the internal parts. (2) LED Indicates the status of the Detector Interface Unit 2. (3) Cable outlet Outlet for I/F Cable. (4) Sync port (5) LAN port Connects to the Ethernet cable. (6) Unit fixed plate Used to attach this device to a wall stand or table, etc.
Component names and functions 2.2.8 Power Supply Unit (1) (2) (3) (4) Number (5) (6) Name Functions (1) Base cover Protects the internal parts. (2) Power switch Turns the Power Supply Unit on/off. (3) LAN port Connects to the Ethernet cable. (4) LED Indicates the status of the Power Supply Unit. (5) Inlet Connects to the power cable of Power Supply Unit. (6) Location for connecting the grounding Used to connect the grounding cable. Not usually used.
Component names and functions 2.2.9 1 AeroDR Generator Interface Unit (1) (2) (3) (4) 2 3 4 (5) Number (6) (7) (8) (9) Name 5 Functions (1) Top cover Protects the internal parts. (2) Side cover Protects the internal parts. (3) Rear cover Protects the internal parts. (4) Exhaust outlet Exhausts internal heat. (5) Front cover Protects the internal parts. (6) LEDs Indicate the status of the AeroDR Generator Interface Unit. (7) Cable outlet Outlet for various cables.
Component names and functions 2.2.10 AeroDR Generator Interface Unit2 (1) (2) (3) (4) (5) (6) (7) (8) (9) Number (10) (11) Name Functions (1) Base cover Protects the internal parts. (2) LEDs Indicate the status of the AeroDR Generator Interface Unit2. (3) Power cable connector socket This is the socket of the Power cable connector. (4) Base BOX Protects the internal parts. (5) LAN port Connects to the Ethernet cable.
Component names and functions 2.2.11 1 Generator Interface Unit 3 (1) (2) (3) (4) 2 3 (5) (6) (7) 4 5 (8) (9) Number Name Functions (1) Cover Protects the internal parts. (2) LAN port Connects to the Ethernet cable. (3) Base Protects the internal parts. (4) X-ray link cable outlet Outlet for various X-ray link cables. (5) LED Indicates the status of the Generator Interface Unit 3.
Component names and functions 2.2.12 AeroDR Battery Charger (1) (4) Number (7) (2) (8) (3) (9) Name (4) (5) (6) (10) Functions (1) Rear cover Protects the internal parts. (2) Slide cover Protects the internal parts, and prevents dust from getting inside the AeroDR Battery Charger. (3) Top cover Protects the internal parts. (4) Side cover Protects the internal parts.
Component names and functions 2.2.13 1 AeroDR Battery Charger2 (1) (2) 2 (11) (12) 3 4 5 (3) (4) (5) (6) Number (7) (8) (9) (10) (13) Name (14) Functions (1) Connector cover Protects the wired connection connector and prevents dust from entering inside it. (2) Wired connection connector Connects to the wired connection connector of the DR Detector. (3) Rear insert guide Protects the internal parts. (4) Rear cover Protects the internal parts.
Component names and functions 2.2.14 AeroDR Access Point (1) (3) Cannot be used with this device (4) (2) Number Name Functions (1) LEDs Indicate the status of the AeroDR Access Point. (2) 10/100BASE-T(X) RJ45 port Used for connection to the AeroDR Interface Unit or AeroDR Interface Unit2. (3) Antenna port Port to attach antenna. (4) Antenna Receives wireless signal.
Component names and functions 2.2.15 1 I/F Cable 2 3 (1) Number (1) 2.2.16 Name Spring connector Functions Connects to the wired connection connector of the DR Detector or AeroDR UF Cable. AeroDR UF Cable 4 5 6 (1) Number (2) Name Functions (1) Spring connector Connects to the wired connection connector of the DR Detector. (2) Wired connection connector Connects to the spring connector of the I/F Cable.
Chapter 3 General Operations 57
3.1 Startup and shutdown AeroDR 3 Detector Normally, this device is used with the power on. When not used for more than 1 day, operate the startup/shutdown as follows. HINT 1 Prepare the DR Detector. 2 Press and hold the power switch for 2 seconds to turn it on, and confirm that the Information LED (white) goes out gradually in the steps of lighting, flashing and slowly flashing and then the Battery LED (blue/orange) is on.
Startup and shutdown AeroDR Interface Unit2 1 Detector Interface Unit 2 Turn on the power switch, and confirm that the Detector Connection LED (green) and Generator Interface LED (green) are on. 1 IMPORTANT • For power supply through PoE, supply the power from the Power Supply Unit. 1 Detector Connection LED (green) Turn on the power switch of the Power Supply Unit, and confirm that the LED (green) is on.
Startup and shutdown AeroDR Generator Interface Unit 1 Generator Interface Unit 3 1 Turn on the power switch of the Power Source Device, and confirm that the LED (green) is flashing. Turn on the power switch of the Power Source Device, and confirm that the LED (blue) flashes.
Startup and shutdown AeroDR Access Point 1 3.1.2 Turn on the power switch of the Power Source Device, and confirm that the LED (umber) is on. Shutdown of this device AeroDR Detector, AeroDR 2 Detector IMPORTANT • Do not use a sharp object to operate the switch; doing so may damage the AeroDR 2 1417HQ and AeroDR 2 1417S. LED (umber) 1 Press and hold the power switch for 5 seconds to turn it off, and confirm that the LED (green) is turned off.
Startup and shutdown AeroDR Interface Unit 1 Detector Interface Unit 1 Turn off the power switch, and confirm that the LED (green) is off. LED (green) LED (green) Power switch HINT AeroDR Interface Unit2 1 Turn off the power switch of the Power Supply Unit, and confirm that the LED (green) is off. • When DR Detector is connected, the LED (blue) is off. • When using the DI Unit AC Adapter, disconnect the power cable from the wall outlet and confirm that the LED (green) is off.
Startup and shutdown Power Supply Unit 1 AeroDR Generator Interface Unit2 1 Turn off the power switch, and confirm that the LED (blue) is off. Power SW Turn off the power switch of the Power Source Device, and confirm that the LED (green) is off. 1 2 3 LED (green) LED (blue) HINT AeroDR Generator Interface Unit 1 • When using the AC adapter, turn the power switch of the AeroDR Generator Interface Unit2 off, and confirm that the LED (green) goes off.
Startup and shutdown AeroDR Battery Charger 1 Disconnect the power cable from the wall outlet, and confirm that the LED (green) is off. LED (green) AeroDR Battery Charger2 1 Turn off the power switch, and confirm that the LED (green) is off. LED (green) Power switch AeroDR Access Point 1 Turn off the power switch of the Power Source Device, and confirm that the LED (umber) is off.
3.2 3.2.1 Operation of DR Detector Exposure with basic connection or Aero Sync connection 1 2 Check that this device is ready to expose images, and then prepare for the exposure. 3 Push the S-SRM’s hand switch to the first stage. • The exposure preparation signal is sent to the X-ray device.
Operation of DR Detector 3.2.3 Exiting Aero Storage Mode Exposure using Aero Storage IMPORTANT • You can also exit Aero Storage mode by pressing and holding the mode LED for three seconds. IMPORTANT • The following DR Detector models can be used for Aero Storage exposure: AeroDR 3 Detector. Starting Aero Storage Mode 1 Insert DR Detector into the AeroDR Battery Charger and AeroDR Battery Charger2, or connect it to a wired cable.
Operation of DR Detector 3 4 5 Push the exposure switch of the X-ray device to perform the exposure. 1 Start the Aero Storage mode of the DR Detector. • After exposure, images are saved to DR Detector, and the information LED indicates the number of saved images. 2 Start Aero Indicator of the DR Detector to be accessed from a mobile device, and log in to Aero Indicator. 3 Check the connected DR Detector, and tap [OK].
Operation of DR Detector Aero Indicator screen display Exposure failure and division display functions of Aero Indicator IMPORTANT IMPORTANT • Aero Indicator can only be used in the Aero Storage mode of the DR Detector. • The information of exposure failure or division display function cannot be imported to the image processing controller. Record it on a piece of paper before importing the images.
Operation of DR Detector HINT 3.2.5 • Repeat the same procedure to delete the exposure failure indicator or the divider. 3.2.4 DR Detector orientation Change the orientation of the DR Detector according to the exposure body part. Expose with the triangular mark upward when exposing in portrait, and with the triangular mark to the side when exposing in landscape.
Operation of DR Detector HINT 3.2.6 • The blue label or blue lines also helps you identify the topbottom orientation of the DR Detector. • To carry out exposures in portrait orientation, turn the DR Detector so that its blue label or blue lines comes to the bottom position. Precautions for exposure Exposure area IMPORTANT • If the irradiation field is larger than DR Detector when you take an image, an artifact may occur due to the X-ray backscatter effect.
Operation of DR Detector Wired connection Grid • When performing exposure with a wired connection, fasten the wired cable horizontally to the wired connection connector of the DR Detector. If connected at an angle, transverse (noise) sometimes gets into acquired images after exposure. 1 IMPORTANT • For an AeroDR 1417S without the "1417S" identification, use a grid with a grid density of 34 lp/cm and an angle error of 0.5° or less. 2 3 4 Connect it such that there is no space.
Operation of DR Detector Exposure time for basic connection/ S-SRM connection Exposure time for Aero Sync mode of the AeroDR 1417HQ, AeroDR 1717HQ, AeroDR 1012HQ, AeroDR 2 Detector IMPORTANT IMPORTANT • You cannot select 4.0, 6.7 and 10.3 as the maximum exposure time for the following DR Detectors. DR Detector • If the conditions are not met, X-rays may not be detected or streaks may occur in the image.