DIRECT DIGITIZER SKR 3000 Operation Manual 0197 EN 01
Contents Introduction. . . . . . . . . . . . . . . . . 5 Chapter 3 General Operations. . . . . . . . . . 43 Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6 Summary of usability specifications (for IEC/EN 60601-1-6, IEC/EN 62366). . . . . . . . 7 Disclaimer. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8 Trademark . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8 Name correspondence table . . . . . . . . . . . . . . . .
Contents Chapter 6 Maintenance. . . . . . . . . . . . . . . . 79 6.1 Maintenance and inspection items . . . . . . 80 6.1.1 6.1.2 6.1.3 6.1.4 Maintenance schedule. . . . . . . . . . . . . Cleaning. . . . . . . . . . . . . . . . . . . . . . . . Disinfection of the AeroDR Detector . . Consumables. . . . . . . . . . . . . . . . . . . . 80 80 81 81 Chapter 7 Specifications . . . . . . . . . . . . . . 83 7.1 Specifications . . . . . . . . . . . . . . . . . . . . . . 84 7.1.1 7.1.
Introduction 5
Introduction The digital radiography SKR 3000 (hereinafter 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. • Diagnostic X-ray image data of this device does not provide mammographic images.
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. • AeroDR Detector contacts the body surface of a patient.
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 Product name (Operation Manual name) Model name (nameplate name) AeroDR Interface Unit AeroDR B-1 AeroDR Interface Unit2 AeroDR Interface Unit2 AeroDR Generator Interface Unit AeroDR X-1 AeroDR Generator Interface Unit2 AeroDR Generator Interface Unit2 AeroDR Battery Charger2 AeroDR Battery Charger2 AeroDR Access Point AeroDR C-1 Term description The meanings of terms used in this operation manual are as follows: Terms Explanation AeroDR Detector Coll
Introduction Structure of pages Example of page structure 1.1 (1) Operation of AeroDR Detector 1.1.1 Exposure 1.1.2 (2) 1 Perform examination registration with the image processing controller. 2 Check that this device is ready to expose images, and then prepare for the exposure. 3 O When exposing in portrait Push the exposure switch of the X-ray device to perform the exposure.
Chapter 1 Safety Precautions & Warnings This chapter describes precautions and warnings to ensure safe use of this device.
1.1 Symbols relating to safety 1.1.1 Safety alert symbol Indicates the on position for the main power switch of this device. Indicates the position where the ground is attached. 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 a B-type Applied Parts medical device. Indicates that full caution is required when handling this device. 1.1.
1.2 Warning labels * 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. (There is a fee for this service.) 1.2.1 AeroDR Detector 1.2.2 AeroDR Generator Interface Unit2 13 Chapter 1 Various warning labels are attached to this device on the locations shown below. Do not remove these labels from this device.
1.2 Warning labels 1.2.
1.3 Safety precautions 1.3.2 Precautions for usage WARNING 1.3.1 Precautions before usage • The AeroDR 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. • Take note of the following when using this device: – Do not subject the AeroDR Detector to strong shocks or excessive loads by dropping it, etc. CAUTION • The operators (hospitals and clinics) hold responsibility for the usage and maintenance of this device.
1.3 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. – Use a wall outlet with the correct rating as a power source.
1.3 Safety precautions CAUTION CAUTION – If the AeroDR Detector is inserted into the AeroDR Battery Charger2, make sure that the AeroDR Battery Charger2 will not tip over due to any shock applied to the AeroDR Detector. – The AeroDR Detector is precision equipment, and therefore impact or vibration during radiography or image transfer may affect the image quality. Be careful when handling the AeroDR Detector during and just after radiography.
1.3 Safety precautions CAUTION • When the AeroDR Detector is used for exposure, pay attention to the following items. – Start exposure after confirming on the display of the image processing controller that the machine is ready for exposure. – Perform exposure under the X-ray imaging conditions that has been confirmed by us. – Use the specified grid to perform exposure. – Apply the specified operation methods to use the grid.
1.3 Safety precautions EMC Statement This device has been tested and found to comply with the limits for medical devices in IEC 60601-1-2: 2007. These limits are designed to provide reasonable protection against harmful interference in a typical medical installation. The device generates, uses and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to other devices in its vicinity.
1.3 Safety precautions Table 1 Guidelines and manufacture's declaration - electromagnetic emissions 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. Emissions test Compliance RF emissions Group 1 CISPR 11 RF emissions Electromagnetic environment - guidelines The device uses RF energy only for its internal function.
1.3 Safety precautions Table 3 Guidelines and manufacturer's declaration - electromagnetic immunity Immunity test IEC 60601 test level Compliance level Electromagnetic environment - guidelines Portable and mobile RF communications equipment should be used no closer to any part of this device, including cables, than the recommended separation distance calculated from the equation applicable to the frequency of the transmitter. Recommended separation distance d=[1.
1.3 Safety precautions Table 4 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.
1.3 Safety precautions CAUTION • This device is equipped with a communication function that operates via wireless LAN. Conformance is required with the relevant regulations defined by the countries in which this device is to be used. • Inappropriate usage may cause interference in radio communication. Also, if this device is modified, approval and warranty according to the radio law of the applicable government will be voided. • It may affect aeronautical systems, so do not use on-board airplanes.
1.3 Safety precautions Article 12 As for type-approval qualified low-power radiofrequency generator, no company, firm, or user may arbitrarily change the frequency, increase the power or alter the function or characteristics of the original design without prior permission. 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. Do not use near a plane or an airport.
1.3 Safety precautions 1.3.5 Precautions for installing, moving, and storing CAUTION WARNING • Take note of the following when moving this device not including the AeroDR Detector: – Do not subject to shocks or vibration . – Do not start moving until the power is turned off, and operation has stopped completely. – Do not move with the power cable or any other cable connected.
1.3 Safety precautions 1.3.7 Precautions on service life CAUTION – If you directly apply or spray disinfecting solution on the AeroDR Detector, the solution will enter the instrument through exterior gaps, causing a failure. Dampen a lint-free, soft cloth with disinfecting solution, and use after wringing it thoroughly. Do not apply disinfecting solution onto the wired connection connector and LED when cleaning.
Chapter 2 Product Overview This chapter describes the overview of this device.
2.1 Overview of this device This section describes the functions of this device as well as a system configuration and connection examples using this device. 2.1.1 Functions The SKR 3000 consists of AeroDR Detector (P-61), AeroDR Interface Unit, AeroDR Interface Unit2, AeroDR Generator Interface Unit, AeroDR Battery Charger2, AeroDR Access Point, etc.
2.1 Overview of this device 2.1.2 System configuration and connection examples The system configuration and connection examples are as follows. zz Basic configuration example Number Name Functions • There is 1 type of AeroDR Detectors: P-61. • AeroDR Detector is of B-type Applied Parts. AeroDR Interface Unit • Supplies power to the AeroDR Generator Interface Unit, AeroDR Generator Interface Unit2, and access point.
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2.2 Component names and functions 2.2.1 AeroDR Detector (P-61) The component names and functions of the AeroDR Detector (P-61) are as follows. (10) Error / Counter LED (1) Triangular mark (4) Antenna (2) Front board (9) LINK LED (8) Battery LED (3) Back board (6) Power switch Exposure side (4) Antenna (5) Wired connection connector (11) Panel mode switch (7) Panel selection switch Number Name Functions • Indicates the direction to place the AeroDR Detector in during exposure.
2.2 Component names and functions 2.2.2 AeroDR Interface Unit The component names and functions of the AeroDR Interface Unit are as follows. (5) Exhaust outlet (1) Top cover (4) Rear cover Chapter 2 (2) Side cover (3) Power switch (6) Front cover (9) Spacer (7) LEDs Number (8) Cable outlet 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.
2.2 Component names and functions 2.2.3 AeroDR Interface Unit2 The component names and functions of the AeroDR Interface Unit2 are as follows. (11) Hand switch (1) Exhaust outlet (3) Detector (2) Top cover Connection LEDs (6) Side cover (7) Spacer Number (5) Rear cover (1) Exhaust outlet (6) Side cover (4) Power switch (9) Generator Interface LEDs (10) Cable outlet (7) Spacer (8) Front cover Name Functions (1) Exhaust outlet Exhausts internal heat. (2) Top cover Protects the internal parts.
2.2 Component names and functions 2.2.4 AeroDR Generator Interface Unit The component names and functions of the AeroDR Generator Interface Unit are as follows. (4) Exhaust outlet (9) Hand switch (1) Top cover (3) Rear cover (2) Side cover Chapter 2 (8) Spacer (5) Front cover (6) LEDs Number (7) Cable outlet Name Functions (1) Top cover Protects the internal parts. (2) Side cover Protects the internal parts. (3) Rear cover Protects the internal parts.
2.2 Component names and functions 2.2.5 AeroDR Generator Interface Unit2 The component names and functions of the AeroDR Generator Interface Unit2 are as follows. (11) Hand switch (1) Base cover (3) Power cable connector socket (2) LEDs (5) LAN port (4) Base BOX (7) X-ray link cable outlet (8) Power cable connector (6) Power switch (10) Power plug (9) AC adapter Number (1) Name Base cover Functions Protects the internal parts. Displays the status of the AeroDR Generator Interface Unit2.
2.2 Component names and functions 2.2.6 AeroDR Battery Charger2 The component names and functions of the AeroDR Battery Charger2 are as follows.
2.2 Component names and functions 2.2.7 AeroDR Access Point The component names and functions of the AeroDR Access Point are as follows. (1) LEDs (3) Antenna port Cannot be used with this device (4) Antenna (2) 10/100BASE-T(X) RJ45 port Number Name Functions Displays the status of the AeroDR Access Point. Reference (1) LEDs (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.
2.2 Component names and functions 2.2.8 AeroDR I/F Cable / AeroDR I/F Cable2 The component name and function of the AeroDR I/F Cable and AeroDR I/F Cable2 are as follows. Chapter 2 (1) Spring connector Number (1) Name Spring connector 2.2.9 Functions Connects to the wired connection connector of the AeroDR Detector or AeroDR UF Cable. AeroDR UF Cable The component names and functions of the AeroDR UF Cable are as follows.
Chapter 3 General Operations This chapter describes general operation methods of this device.
3.1 Startup and shutdown zz When using AeroDR Interface Unit (Power is supplied from the AeroDR Interface Unit to the AeroDR Generator Interface Unit2 and access point.) Normally, this device is used with the power on. When not used for more than 1 day, operate the startup/shutdown as follows. Reference •• ••••••••••••••••••••••••••••• ••••••• 1 • Refer to the "Operation Manual" of the image processing controller regarding on/off for the image processing controller.
3.1 Startup and shutdown zz AeroDR Interface Unit2 3.1.2 Startup of this device • Turn the power switch of the AeroDR Interface Unit2 on, and confirm that the Detector Connection LED (green) and Generator Interface LED (green) light. The startup methods of this device are as follows. zz AeroDR Detector Detector Connection LED (green) Power switch Generator Interface LED (green) HINT •••••••••••••••••••••••••••••••••• • • • • • It takes time for the Generator Interface LED (green) to light.
3.1 Startup and shutdown zz AeroDR Generator Interface Unit2 zz AeroDR Access Point • When the power switch of the AeroDR Interface Unit is turned on, power is supplied to the AeroDR Generator Interface Unit2, and the LED (green) on the AeroDR Generator Interface Unit2 will flash. • When the power switch of the AeroDR Interface Unit or AeroDR Interface Unit2 is turned on, power is supplied to the AeroDR Access Point, and the LED (umber) on the AeroDR Access Point will light.
3.1 Startup and shutdown zz When the AeroDR Interface Unit is not used (Power is supplied from the AC adapter to the AeroDR Generator Interface Unit2 and access point.) 3.1.3 Shutdown sequence of this device The shutdown sequence of this device is as follows.
3.1 Startup and shutdown zz AeroDR Interface Unit2 3.1.4 Shutdown of this device • Turn the power switch of the AeroDR Interface Unit2 off, and confirm that the Detector Connection LED (green) and Generator Interface LED (green) are turned off. The shutdown methods of this device are as follows. Detector Connection LED (green) zz AeroDR Detector • Press the power switch of the AeroDR Detector for 5 seconds to turn it off, and confirm that the LED (white) is turned off.
3.1 Startup and shutdown zz AeroDR Generator Interface Unit2 zz AeroDR Access Point • When the power switch of the AeroDR Interface Unit is turned off, the power to the AeroDR Generator Interface Unit2 is shut down, and the LED (green) on the AeroDR Generator Interface Unit2 will go off. • When the power switch of the AeroDR Interface Unit or AeroDR Interface Unit2 is turned off, power supply to AeroDR Access Point is terminated. The LED (umber) on the AeroDR Access Point will turn off.
3.2 Operation of AeroDR Detector 4 3.2.1 Exposure • Exposure is performed from the X-ray device to produce X-ray images. • When the exposure is completed, images are stored in the AeroDR Detector and will then be converted to digital data and sent to the image processing controller sequentially. Exposure with this device is performed with the following procedure. zz Exposure under the basic connection example 1 Perform examination registration with the image processing controller.
3.2 Operation of AeroDR Detector HINT 3.2.2 AeroDR Detector orientation Change the orientation of the AeroDR 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. zz When exposing in portrait •••••••••••••••••••••••••••••••••• • • • • • The blue label also helps you identify the top-bottom orientation of the AeroDR Detector.
3.2 Operation of AeroDR Detector zz Wireless communications environment 3.2.3 Precautions for exposure • With a wireless environment, it is possible that errors such as no wireless connection, wireless communication terminates, and lengthened exposure cycle time might occur. During exposure give adequate attention to the following items. zz Exposure area HINT • The size lines of AeroDR Detector indicate the exposure size.
3.2 Operation of AeroDR Detector zz High-dose exposure HINT • When high-dose exposures are performed continuously, afterimages of the last exposure will occasionally be visible. The affect of afterimages in this device can be resolved by leaving longer intervals between exposures, so make the intervals between exposures longer than usual when performing high-dose exposure. • During high-dose exposure, continual use of a lead or other marker at the same position can cause burning in of the afterimage.
3.2 Operation of AeroDR Detector zz Waterproof performance of the P-61 – Emit the X-rays onto the entire AeroDR Detector. – Emit the X-rays by using a tube current of 140 mA or higher or a tube voltage of 90 kV or higher. • If there is a risk of the ingress of patient body fluids, chemicals, water, etc., make sure to put a cover with a vinyl sheet, etc. The ingress of patient body fluids, chemicals, water, etc. into the AeroDR Detector cannot be prevented.
3.3 Charging of AeroDR Detector 2 Charge the AeroDR Detector when the LED (blue) on the AeroDR Detector lights or flashes, or when the battery level gets low in the status display of the AeroDR Detector on the image processing controller. IMPORTANT •• ••••••••••••••••••••••••••••• ••••••• Slowly insert the AeroDR Detector with its exposure side pointed toward the operator until the buzzer sounds. When inserted, charging of the AeroDR Detector begins.
3.3 Charging of AeroDR Detector 4 Once charging of the AeroDR Detector is completed, all the LEDs (blue) on the AeroDR Battery Charger2 will turn on. 3.3.2 Charging with the wired cable Connecting the AeroDR UF Cable or AeroDR I/F Cable to the AeroDR Detector performs charging of the AeroDR Detector. IMPORTANT •• ••••••••••••••••••••••••••••• ••••••• • Handle the AeroDR Detector with extreme care when inserting it into the AeroDR Battery Charger2.
3.3 Charging of AeroDR Detector 3.3.3 Charging time guide To fully charge the AeroDR Detector requires the following charging time. zz P-61 Charging status Charging time of the AeroDR Detector when the power is off Via AeroDR Battery Charger2 30 minutes or less Via wired cable 30 minutes or less Chapter 3 IMPORTANT •• ••••••••••••••••••••••••••••• ••••••• • When the AeroDR Detector is on, the charging time will be slightly longer as it depends on the operation status.
3.4 Registration and selection of the AeroDR Detector 3 By registering the AeroDR Detector in the image processing controller using one of the following methods, the AeroDR Detector can be moved between exposure rooms. • Insert it into the AeroDR Battery Charger2 • Connect the AeroDR I/F Cable or AeroDR UF Cable to the wired connection connector Once the registration is completed, a buzzer will sound on the AeroDR Battery Charger2, and the LED (green) will change from slow flashing to lit.
3.4 Registration and selection of the AeroDR Detector 3.4.2 Registration with the wired cable 3.4.3 Selection of the AeroDR Detector To register the AeroDR Detector by connecting the AeroDR I/F Cable or AeroDR UF Cable to the wired connection connector, follow the procedures below. 1 2 An AeroDR Detector is selected as follows depending on the number registered on each image processing controller.
3.5 Calibration Perform calibration so that the AeroDR Detector can provide optimal images. Perform calibration every 3 months or when a message prompting you to do so is displayed in the image processing controller. IMPORTANT •• ••••••••••••••••••••••••••••• ••••••• • It is necessary to perform the gain calibration periodically to compensate for changes over time or changes in the exposure environment. • Fully charge the AeroDR Detector before the calibration.
Chapter 4 Status (LED) Display This chapter describes the LED display patterns and the status of the respective devices.
4.1 LED display of respective devices Status of the respective devices can be confirmed with LEDs. Check the status of the respective devices, referring to the "LED display pattern". LED display pattern Notation Display pattern Off Slow flashing Fast flashing On 4.1.
4.1 LED display of respective devices 4.1.
4.1 LED display of respective devices 4.1.
4.1 LED display of respective devices 4.1.
4.1 LED display of respective devices 4.1.
4.1 LED display of respective devices 4.1.
4.1 LED display of respective devices 4.1.7 AeroDR Access Point Cannot be used with this device Cannot be used with this device FAULT (red) PoE (umber) STATE (green/red) SIGNAL (green) CLIENT (green) BRIDGE (green) WLAN (umber) LED Lighting color Lighting pattern Status PoE Umber On Power is being supplied. FAULT Red Flashing Error is occurring. STATE Green/ Red Green/on Lights when operation preparation is completed. Red/on Error is occurring.
Chapter 5 Troubleshooting This chapter describes problems that may occur and error codes that may be displayed, and how to resolve each of them.
5.1 Support flow during trouble If the following problems occur with any of these devices, consult the respective references for countermeasures. Status Device Reference for countermeasures AeroDR Detector AeroDR Interface Unit2 Consult the "Operation Manual" of the image processing controller to take the countermeasures. Error code is displayed.
5.1 Support flow during trouble Status Device AeroDR Detector AeroDR Interface Unit Trouble has occurred in each device. (Trouble other than error code display and a lit error LED) It was dropped. It was subjected to impacts. Consult "5.2.1 AeroDR Detector" to take the countermeasures. Consult "5.2.2 AeroDR Interface Unit" to take the countermeasures. AeroDR Interface Unit2 Consult "5.2.3 AeroDR Interface Unit2" to take the countermeasures. AeroDR Battery Charger2 Consult "5.2.
5.2 Various problems and countermeasures If the following problems occur with any of these devices, consult the respective references for countermeasures. IMPORTANT •• • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • After performing countermeasures, if the problem does not go away, contact Konica Minolta technical representatives.
5.2 Various problems and countermeasures Status Error description Corrective actions Check that the Ethernet cable is properly connected to the access point. The AeroDR Detector and access point are being used under poor conditions. • Wireless does not connect • Wireless communication terminates • Cycle time is extended Check the installation location of AeroDR Detector and access point.
5.2 Various problems and countermeasures zz Corrective actions when the AeroDR Detector is dropped or subjected to impacts • Run a test using the drop/impact panel check tool of the image processing controller. The AeroDR Detector was dropped or subjected to impacts. FAIL Start testing with the drop/impact panel check tool of the image processing controller. PASS Contact Konica Minolta technical representatives. Use the AeroDR Detector as is.
5.2 Various problems and countermeasures zz AeroDR Detector test IMPORTANT •• • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • If untransferred images remain in the AeroDR Detector, acquire those images before starting the test. The untransferred images in the AeroDR Detector will be deleted when the test starts.
5.2 Various problems and countermeasures 5.2.3 AeroDR Interface Unit2 Status Error description Corrective actions Power LED (green) does not light. AC power not supplied. Make sure the power cable is connected correctly. Feeding1/2 LED (blue) does not light. Feeding1/2 LED (blue) does not light even when connecting the AeroDR Detector. Make sure that the AeroDR I/F Cable is connected correctly. Communications are down between devices, and power LED (green) is off. The power switch is not on.
5.2 Various problems and countermeasures 5.2.6 AeroDR Battery Charger2 Status Error description Corrective actions Status LED (green) does not light. AC power not supplied. Make sure that the power cable is connected correctly. The power switch is turned off. Turn on the power switch. Error LED (orange) is on. - Contact Konica Minolta technical representatives. AeroDR Detector was inserted the wrong way. Check the insertion orientation of the AeroDR Detector.
Chapter 6 Maintenance This chapter describes the items that require periodic maintenance.
6.1 Maintenance and inspection items This chapter describes the inspections and cleaning required in order to maintain the use of this device in an optimum condition. 6.1.2 Cleaning The cleaning methods of the respective devices are as follows. 6.1.1 Maintenance schedule IMPORTANT •••••••••••••••••••••••••••••••••• • • • • The maintenance and inspection items that the user should perform are as follows.
6.1 Maintenance and inspection items AeroDR UF Cable 6.1.3 Disinfection of the AeroDR Detector If bodily fluid or blood from a patient has contaminated the surface of the AeroDR Detector, disinfect with a soft lintfree cloth dampened with a small quantity of the following disinfectant and wrung well. • Ethanol for disinfection • Isopropanol for disinfection • Commercial chlorine bleach, or 0.
Chapter 7 Specifications This chapter describes the specifications of this device.
7.1 Specifications IMPORTANT •• • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • The following specifications described below are nominal values which may be different from actual values and may vary depending on environment and frequency of use. (These are not to provide any guarantees.
7.1 Specifications Description Item P-61: Battery charging time empty to full 30 minutes or less (When using the AeroDR Battery Charger2) 30 minutes or less (When using the dedicated wired cable) P-61: 100[um]: 215 images/6.0 hours Number of exposable images 200[um]: 285 images/8.0 hours Battery duration in standby status P-61: Approx.
7.1 Specifications 7.1.2 AeroDR Interface Unit Item Product name (model name) Amount of connectable AeroDR Detectors Power requirements Power consumption Description AeroDR Interface Unit (AeroDR B-1) 2 AC 100/110/115/120/200/220/230/240 V ± 10%, single phase 50/60 Hz With the AeroDR Detector connected : Approx. 160 VA (100-240 V) Without the AeroDR Detector connected: Approx. 33 VA (100-240 V) 460(W)×180(D)×285(H)mm External dimensions 285mm 460mm Weight 180mm 11.5kg 7.1.
7.1 Specifications 7.1.4 AeroDR Generator Interface Unit Item Product name (model name) Power supply Description AeroDR Generator Interface Unit (AeroDR X-1) Supplied from the AeroDR Interface Unit via the Ethernet cable. 460(W)×180(D)×285(H)mm External dimensions 285mm 460mm Weight 180mm 7.3kg 7.1.
7.1 Specifications 7.1.6 AeroDR Battery Charger2 Item Product name Battery charging system Power requirements Power consumption Description AeroDR Battery Charger2 Automatic charging AC 100/110/115/120/200/220/230/240 V ± 10%, single phase 50/60Hz Charging: 180VA(100-240V) Standby : 30VA(100-240V) 474.2(W)×200(D)×206.7(H)mm 206.7mm External dimensions 474.2mm 120mm 200mm Weight 6kg 7.1.7 AeroDR Access Point Item Product name (model name) Description AeroDR Access Point (AeroDR C-1) 53.
7.1 Specifications 7.1.8 AeroDR I/F Cable Item Product name Cable length Description AeroDR I/F Cable 10m/20m 42mm External dimensions 14mm 79mm 7.1.9 AeroDR I/F Cable2 Item Product name Cable length Description AeroDR I/F Cable2 10m/20m 42mm External dimensions 14mm 79mm 7.1.
7.1 Specifications 7.1.
7.1 Specifications 7.1.
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A8CEBD01EN01 2016-04-22 (MA)