dji Assistant 2 For AeroScope ユーザーマニュアル

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2020.11
Aeroscope
AS-F1800
V2.0
User Manual
ユーザーマ
©
2018 DJI All Rights Reserved.
1
Contents
EN
JP
Compliance Notice
30
Disclaimer and Warning
2
Product Prole
2
Introduction 2
IntheBox 3
Overview 3
Indicators 4
Function Descriptions
6
BasicFunctions 6
Features 6
OperationandMaintenance 7
Installation
8
LightningProtection 8
Step-by-StepInstallationGuide 8
ImportingCertificates 11
PowerCableUsage 11
Specications
15
免責事項および警告
16
製品の特徴
16
はじめに
16
同梱物リスト
17
概要
17
インジケーター
18
機能の説明
20
基本機能
20
特徴
20
操作とメンテナンス
21
取り付け
22
落雷保護
22
ステップバイステップのインストールガイド
22
証明書のインポート
25
電源ケーブルの使用法
25
仕様
29
2
©
2018 DJI All Rights Reserved.
Disclaimer and Warning
AEROSCOPE
TM
is a comprehensive drone detection platform that rapidly identifies UAV
communication links, gathering information such as ight status, paths, and other information in
real-time (“Monitoring Data”). Monitoring Data stream helps users make an informed response
as soon as possible. Please note that Monitoring Data does not involve personal data of DJI
drone users. (Personal data is any information relating to an identied or identiable natural
person.) Unless pursuant to the requirement or request of any governmental or regulatory
agency or court or tribunal of competent jurisdiction to the extent such disclosure is required
by any valid laws, regulations, court orders or rules of relevant stock exchange, DJI will not
disclose any personal data that DJI collect through DJI Products and Services to third parties.
As an AeroScope’s end user, you represent and warrant that (a) you are the eligible user of
AeroScope. Examples of eligible users would be public safety organizations, law enforcement
agencies, government agencies, regulatory bodies, and owners or operators of airports, power
plants, and prisons; and (b) you will use AeroScope for monitoring public safety purpose only
(“Purpose”); and (c) you will comply with any applicable laws concerning the use of AeroScope
within the jurisdiction(s) of operation; and (d) you are solely responsible for the conducts of
anyone that use AeroScope through your account (“Authorized User”), which may include your
employees, consultants or contractors, or the employees, consultants or contractors of your
afliates, which are companies or entities that you own, that own you, or that have the same
owner or corporate parent as you.
You acknowledge and agree that (a) DJI do not help you comply with any laws, rules, or
regulations that may apply to your use of AeroScope, which is solely your responsibility; and
(b) DJI shall not be liable for the authenticity of you; and (c) DJI will not be liable for any loss
or damage you may cause; and (d) you will defend, indemnify, and hold harmless DJI, its
afliates, and its or their directors, ofcers, employees, agents, shareholders, successors and
assigns from and against all claims, losses, damages, penalties, liability, and cost, including
reasonable legal fees, of any kind or nature that are incurred in connection with or arising out
of a third-party claim relating to, or arising from your breach of Purpose.
PLEASE NOTE THAT IF YOU DO NOT DISPUTE THIS DISCLAIMER IN WRITING BEFORE
YOU USE AREOSCOPE, YOU ARE DEEMED TO HAVE ACCEPTED THE ENTIRE CONTENTS
OF THIS DISCLAIMER AND ARE SOLELY RESPONSIBLE FOR THE CONSEQUENCES OF
BREACH OF THIS DISCLAIMER.
Product Prole
Introduction
AeroScope detects UAVs flying within a particular surveillance area. Aeroscope receives
UAV broadcast information of various formats, and then sends the information to the data
processing platform via Ethernet or a 2G, 3G, or 4G wireless network card. The receiver and
antenna can be congured in a number of different ways. Also, Aeroscope has integrated
GPS, so users can see where the unit is on a map. And it
[1]
offers BIST (built-in self-
testing) functionality for regularly timed self-tests and remote self-tests, as well as accurate
environmental spectrum detection.
[1]
Aeroscope should be used with the DJI Background Management System (sold separately).
Aeroscope AS-F1800
©
2018 DJI All Rights Reserved.
3
1. Antenna Ports
[3]
Connected to the antennas with the
antenna cables.
2. Power Port
Connected to a 220V AC power outlet.
3. USB Port
Connected to a wireless network card.
4. Ethernet Port
Connected to a computer.
5. CAN Extension Port
Used for system debugging.
6. UART Extension Port
Used for system debugging.
7. Indicators
Six LEDs that indicate the status of each
module.
8. GND Connector
Connected to the metal bracket of the
mounting device.
In the Box
Aeroscope Processor ×1 Female Power Connector ×1
Dongle
[2]
×1 RJ45 Connector ×1
Power Cable ×1 RJ45 Waterproof Case ×1
Processor Mounting Bracket A ×2 Screw Set ×1
Screw M80 ×100 (4 pcs)
Screw Nut M80 (4 pcs)
Washer M80 (4 pcs)
Screw M60 ×18 (4 pcs)
Processor Mounting Bracket B ×2
Processor GND Cable ×1
Pin ×5
[2]
Only the waterproof dongle case is included in the North American version. The actual dongle must be
purchased separately.
Overview
1
1 1
234
5
8
6
7
ANT3ANT2
ANT0 ANT1
[3]
The antenna ports (ANT0, ANT1, ANT2, ANT3) may be used during spectrum analysis. Make sure to
select the right one.
Aeroscope AS-F1800
4
©
2018 DJI All Rights Reserved.
Indicators
LED1: Processor module status indicator
LED2: Network connection status indicator
LED3: UAV information capture indicator
LED4: Type 3 receiver status indicator
LED5: Type 2 receiver status indicator
LED6: Type 1 receiver status indicator
LED1: Processor module status indicator
It is used to indicate the processor’s working status.
Indicator Description
Green blinking Functioning normally or rmware updated successfully.
Yellow blinking Checking consistency when powered on or updating rmware.
Red blinking Firmware update failed.
Solid on/off Functioning abnormally.
Added two status when the rmware is updated to v03.00.00.23 or later.
Indicator Description
Yellow and red blinking alternatively Wireless dialing in progress.
Green and red blinking alternatively An abnormal SD card log was detected.
LED2: Network connection status indicator
It is used to indicate the connection status between the processor and server.
Indicator Description
Solid green Connected normally and communicating with the monitor.
Solid red Disconnected from the monitor.
Changed the solid green indicator and added ve status when the rmware is updated to
v03.00.00.23 or later.
Indicator Description
Solid green
Connected normally and communicating with the monitor via
Ethernet.
LED1
LED2
LED3
LED4
LED5
LED6
Aeroscope AS-F1800
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2018 DJI All Rights Reserved.
5
Green blinking
Connected normally and communicating with the monitor via a
Dongle.
Yellow and red blinking
alternatively
Unable to get the server time.
Yellow blinking
The Server time got but SSL connection cannot be established
with the server.
Green and red blinking
alternatively
SSL connection established but the sever heartbeat package
cannot be got.
Red blinking
Domain name resolution failed, including failure to connect
to the public network DNS server and unable to resolve the
domain name.
LED3: UAV information capture indicator
When the Aeroscope receives UAV information, it can indicate the number of UAVs in the
area.
[4]
Indicator Description
Green blinking
UAV detected, green LED blinking indicates UAV information
reception.
Off No UAV information received.
[4]
The UAV number is the reported number from the background. The same UAV serial number in a short
time is regarded as one.
LED4: Type 3 receiver status indicator
Indicator Description
Solid green Functioning normally.
Solid red Functioning abnormally.
LED5: Type 2 receiver status indicator
Indicator Description
Solid green Functioning normally.
Solid red Functioning abnormally.
LED6: Type 1 receiver status indicator
Indicator Description
Solid green Functioning normally.
Solid red Functioning abnormally.
6
©
2018 DJI All Rights Reserved.
Function Descriptions
Basic Functions
Functions Descriptions
UAV detection
Aeroscope detects UAVs ying within a given area and obtains
each aircraft’s broadcast GPS coordinates, ight altitude,
speed, orientation, model, serial number, and Home Point.
Then Aeroscope sends this information to the remote server for
processing and to the display in real-time.
Simple installation The processor and antennas can be easily installed onto the rod.
Support aircraft
PHANTOM
TM
3 series
PHANTOM
TM
4 series
INSPIRE
TM
series
MAVIC
TM
series
SPARK
TM
MG-1P/T16/T20
MATRICE
TM
series
GPS Aeroscope can detect its current position using its built-in GPS.
Remote OAM
A variety of OAM features are available when used with the
remote server, including rmware updating, resetting, status
inquiry, self-testing, parameter conguration, and more.
Environmental spectrum
detection
Aeroscope can scan for environmental interference and provide
a reference for installation.
Data security
Use certicate management and data encryption between the
equipment and remote server to ensure data reliability and
security.
Features
Features Descriptions
Long-range detection
In an interference-free environment, signal reception range
may be vary when different antennas are used. When using the
omnidirectional antenna (3dBi), signal reception range can reach:
Over 7 km for Mavic
Over 5 km for Phantom series
Over 3 km for Spark
The signal reception range is about twice as much as the
omnidirectional antenna when using the low-gain directional
antenna (8dBi) and about four times when using the high-gain
directional antenna (16dBi).
Easy installation Aeroscope can be installed and congured within half an hour.
Aeroscope AS-F1800
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2018 DJI All Rights Reserved.
7
Support for multiple
antennas
According to the environment and applications, users
can select appropriate antennas to meet their coverage
requirements.
Various data feedback
modes
Both Ethernet and 2G/3G/4G wireless networks are supported.
Easy OAM capabilities
You can update rmware, reset to factory defaults, check
system status, conduct self-testing, adjust settings, and more
with the remote server and local app.
Error management
The device will reset when a recoverable software error
appears, and it will send a failure warning when there is an
unrecoverable software error or hardware error.
Operation and Maintenance
Modes Descriptions
Online (Remote server)
Device management: All equipment status inquiries,
setting conguration, resetting, self-testing, and so on with
authorization.
Software management: Firmware updating and version
management with authorization.
Environment monitoring: Monitor electromagnetic interference
to support equipment deployment and maintenance.
Data record management: Review data history within a
particular length of time with authorization.
Local (Assistant) Similar to online mode. But it can be used on one device.
8
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2018 DJI All Rights Reserved.
Installation
Lightning Protection
The Aeroscope stationary unit system includes surge protection modules in the antenna
module, power module, and Ethernet port. Aeroscope does not include a lightning induction
system, and should be installed within the protected region of another lightning induction
system. The protected region is calculated using the rolling sphere method.
The rolling sphere method assumes that an imaginary sphere of radius h
r
exists above the
surface of a substation. The sphere rolls up and over (and is supported by) lightning masts,
shield wires, substation fences, and other grounded metallic objects that can provide
lightning shielding. A piece of equipment is said to be protected from a direct stroke if it
remains fully within the surface of the sphere.
For a simple scenario in which there is only one lightning rod standing on a at surface, the
maximum distance that the Aeroscope can be placed from the lightning rod and remain
within the protected region is calculated by the following equation:
R
x
=√(h(2h
r
-h))-√(h
x
(2h
r
-h
x
))
Where:
r
x
is the maximum distance the Aerescope can be placed from the lightning rod.
h
x
is the height of the protected object.
h is the height of the lightning rod.
h
r
is the rolling sphere radius. It depends on the lightning density and the protected matter and
is given in the following table in the Chinese standard.
Protection Level Rolling Sphere Radius (m)
Type 1 30
Type 2 45
Type 3 60
If Aeroscope is not under the protection of the nearest lightning rod, a designated lightning
induction system should be designed by a qualied professional.
Finally, be sure to note the following:
Ensure that rainwater cannot ow along the Antenna cable into the Aeroscope receiver.
If the pole is made of metal, the frame and the pole should be separated using insulation.
Indoor power outlets must have surge protection.
Indoor Ethernet outlets must have surge protection.
Step-by-Step Installation Guide
For permanent setups, the Aeroscope unit can be mounted anywhere that meets all installation
requirements, such as Lightning Protection, height restrictions, power connection, and network
connection. The most common installation scenario is to attach it to a pole on the rooftop.
The standard procedure for pole-mounted scenarios is as follows:
1. The pole should be rmly xed to the ground (or other solid surface such as a rooftop).
The diameter of the pole plus the insulation layer should be 120 mm to utilize the frames
supplied with the stationary unit and antennas.
Aeroscope AS-F1800
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9
2. Attach the stationary unit and the antennas to the pole. The processes for installing the
stationary unit, G8 antennas, and G16 antennas are illustrated in below gures respectively.
Attaching the stationary unit to the pole
Attaching the G8 antennas to the pole
3. Connect the antennas to the unit via the antenna cable.
a. If using G8 directional antennas, connect each antenna to one antenna port of the stationary
unit with an antenna cable. Note that two adjacent antennas should be connected to ports
at the top of the stationary unit, while the other two adjacent antennas should be connected
to ports at the bottom. This ensures diversity gains will be realized. Below gure shows the
connection conguration between the G8 antennas and the stationary unit.
Attaching the G16 antennas to the pole
Aeroscope AS-F1800
10
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b. If using G16 high-gain antennas, the 2.4GHz antenna should be connected to a 5.8GHz
antenna. Each 5.8GHz antenna has two antenna cable ports. The port marked “OUT” is
for connecting to the Aeroscope unit, and the port marked “IN” is for connecting to the
2.4GHz antenna. Below gure shows the connection conguration and close-up view of
a 2.4GHz antenna.
Connection conguration between
G8 antennas and the stationary unit
(a) The connections between the 2.4GHz antennas and the 5.8GHz antennas in G16
antennas installations. (b) The “IN” and “OUT” ports on a 5.8GHz G16 antenna.
(a) (b)
4. Often, the supplied power cable is too short for the connection between the stationary unit
and the nearest available power outlet. In such cases, a qualied electrical engineer must
extend the initial power cable to complete the connection.
5. After powering on, check the LED indicators with reference to the Indicators section.
6. Download DJI Assistant 2.
from https://www.dji.com/aeroscope/info#downloads
7. Install and run DJI Assistant 2 on a windowns computer (desktop or laptop).
8. Connect the computer and the Aeroscope unit to the same router, or connect them directly
via the Ethernet port.
9. After the Aeroscope stationary unit is found on the DJI Assistant 2 start page, set the
server IP and Port in Network Settings>Server Network Settings.
10. Set the network mode to Wireless if using a wireless dongle. Set to Wired if using an
Ethernet connection. Depending on network provider requirements, set the parameters
manually or set the mode to Auto.
Aeroscope AS-F1800
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11
11. Exit DJI Assistant 2.
12. Restart the stationary unit.
13. Connect the stationary unit to the internet.
a. It is recommended to always use Ethernet when possible, because the connection is
stable and free of interference.
b. If using a wireless connection, the dongle must be installed with an active SIM card.
You may need to congure some parameters such as APN in DJI Assistant 2.
14. Log into the Aeroscope web server https://Aeroscope.djiservice.org using your assigned
account. The account management system in Aeroscope manages the relations between
each account and each Aeroscope unit. Make sure the DJI admin has added your unit to
your account. Otherwise, you will not see your unit when you log in.
Importing Certicates
In most cases, when you receive your Aeroscope stationary unit the certicate should already
be imported. If the certificate doesn’t work or has expired, you will need to import a new
certicate manually.
To import a new certicate, follow this procedure:
1. Acquire the certicate les from DJI. A single certicate consists of two les.
2. Download DJI Assistant 2.
3. Install and run DJI Assistant 2 on a windows computer (desktop or laptop).
4. Connect the computer and the Aeroscope unit to the same router or connect them directly
via the Ethernet port.
5. After the stationary unit is found in Aeroscope, click it to enter the unit page. Under
Advanced Functions, select the certicate. Import the certicate by selecting both les.
Power Cable Usage
Introduction
The Aeroscope Power Cable is used to connect the Aeroscope stationary unit to a power
supply. You can connect it directly if it is long enough for your needs. Otherwise, you can
extend it using the procedures provided below. In addition, the power cable can also be
converted into a DC power cable if necessary.
In the Box
Various according to
different national standards
Power Cable × 1 Plug Pin × 5 Female plug bracket × 1
Aeroscope AS-F1800
12
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Modifying the Power Cable
You can use either of the rst two procedures below to extend the power cable if it is not long
enough for your needs. Additionally, you can use the third procedure to convert it into a DC
power cable if necessary.
Procedure 1: Extending the AC Power Cable (New Plug Bracket)
1. Loosen the nut that seals the cable in the waterproof module, and remove the screw on
the top of the module to open it.
2. Cut off the original female plug bracket. Remove the power cable and replace it with a
longer one provided by yourself.
3. Solder the provided plug pins onto the neutral and live wires of the new power cable
(crimping pliers can also be used), then plug the two pins into the female plug bracket
provided in the box.
4. Remove the screw on the ground wire connector of the female plug bracket, then insert
the ground wire of the power cable into the female plug bracket and retighten the screw.
5. Insert the female plug bracket into the waterproof module and tighten the screw. Tighten
the nut to ensure a good seal between the cable and waterproof module.
Live wire
Ground wire
Neutral wire
Live wire
Ground wire
Neutral wire
Live wire
Ground wire
Neutral wire
Live wire
Ground wire
Neutral wire
Live wire
Ground wire
Neutral wire
Live wire
Ground wire
Neutral wire
Aeroscope AS-F1800
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13
Procedure 2: Extending the AC Power Cable (Original Plug Bracket)
1. Loosen the nut that seals the cable in the waterproof module, and remove the screw on
the top of the module to open it.
2. Cut off the original female plug bracket. Remove the power cable and replace it with a
longer one provided by yourself.
3. Solder the original female plug bracket onto the new power cable.
4. Insert the female plug bracket into the waterproof module and tighten the screw. Tighten
the nut to ensure a good seal between the cable and waterproof module.
Procedure 3: Converting to a DC Power Cable
Follow the procedure shown in the gure below to convert the power cable to a DC power cable.
The modication procedure is the same as that of Procedure 1 for extending an AC power cable, but different
pins are required. Connect the cable wires to the DC negative and DC positive poles on the female plug
bracket to use the cable as a DC power cable.
DC negative pole
DC positive pole
Aeroscope AS-F1800
14
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After Modication
1. Make sure the screw and washer on the waterproof module are securely tightened to x
the female plug bracket in place.
2. After securing the female plug bracket in place, make sure to tighten the nut. The internal
rubber on the nut should form a tight seal to ensure that the cable and plug are waterproof.
1
2
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2018 DJI All Rights Reserved.
15
Specications
Safety and Standards
Model AS-F1800
Ingress Protection Rating IP65
Lightning Rating IEC61000-4-5 6KV
Electromagnetic
Compatibility
This equipment meets electromagnetic compatibility
requirements and also meets below criteria:
Europe:
EN 55032: 2015
EN 55024: 2010+A1:2015
EN 61000-3-2: 2014
EN 61000-3-3: 2013
United States:
47 CFR Part 15, Subpart B:2016
Electrical Specications
Power Consumption
[5]
Approx. 70W
Input 100-240 V~, 50/60 Hz, 2.5 A Max.
Working Environment
Operating Temperature
-30°C to +50°C (without solar radiation)
-30°C to +45°C (with solar radiation)
Relative Humidity 5% to 100%
Absolute Humidity 1 g/m
3
to 30 g/m
3
Atmospheric Pressure 70 kPa to 106 kPa
Physical Specications
Dimensions (HxWxD) 310 mm × 260 mm × 100 mm
Weight 6.8 kg
Support Aircraft
Phantom 3 series
Phantom 4 series
Inspire series
Mavic series
Spark
MG-1P/T16/T20
Matrice series
[5]
Test temperature is the room temperature of 25 ° C.
16
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2018 DJI All Rights Reserved.
免責事項および警告
AEROSCOPE
TM
は包括的なドローン検知プラットフォームで、
UAV
通信リンクを素早く特定
し、飛行状況/経路/「監視データ」などのその他の情報をリアルタイムで収集します。監
視データストリームにより、ユーザーが情報に基づくレスポンスを可能な限り迅速に行える
ようにサポートします。監視データには、
DJI
ドローンユーザーの個人データは含まれません。
(個人データとは、特定された、または特定可能な自然人に関する情報です。)有効な法律、
規制によって開示が要求される範囲で、政府機関、規制機関、管轄裁判所または裁判所の要
件または要求に従わない限り、裁判所の命令または関連する証券取引所の規則により、
DJI
は、
DJI
製品およびサービスを通じて収集したお客様情報を第三者に開示しません。
AeroScope
のエンドユーザーは、(
a
AeroScope
の適格ユーザーであることを表明および保
証します。適格ユーザーの例としては、公共安全機関、法執行機関、政府機関、規制機関、空港、
発電所、刑務所の所有者または運営者があります。
b
AeroScope
は、公共安全の目的「目
的」)のみを監視するために使用します。(
c
)お客様は、管轄業務内での
AeroScope
の使用
に関して適用される法律を遵守するものとします。
d
)アカウントを通じて
AeroScope
使用するすべての人(「許可されたユーザー」)の行為に対して単独で責任を負います。こ
れには、従業員、コンサルタント、請負業者、または所有している、所有されている、また
は同じ所有者や同じ親会社を持つ企業やエンティティの関連会社の従業員、コンサルタント、
請負業者が含まれる場合があります。
お客様は、(
a
AeroScope
の使用に適用されるいかなる法律、規則、または規制の遵守を理
解し、同意するものとします。これは、お客様が責任を負うものとします。
b
)お客様の信
憑性について、
DJI
は何ら責任を負いません。
c
)お客様が引き起こした可能性のある損失
または損害について、
DJI
は何ら責任を負いません。(
d
)お客様は、
DJI
、その関連会社、お
よびその取締役、役員、従業員、代理人、株主、後継者、すべての請求、損失、損害、罰則、
責任、および合理的な法的費用を含む、お客様の目的違反に関連する、またはお客様の目的
違反から生じる第三者の請求に関連して、またはそれらから生じるあらゆる種類または性質
の費用について、
DJI
を擁護し、補償し、また
DJI
に何らの損害も与えないことに同意します。
AREOSCOPE
を使用する前にこの免責事項に異議を唱えない限り、この免責事項の内容全体
を受け入れたものとみなされ、この免責事項に違反した場合に生じる結果に対して、単独で
責任を負うものとします。
製品の特徴
はじめに
AeroScope
は、特定の調査エリア内を飛行する
UAV
を検知します。
Aeroscope
は、様々な形
式の
UAV
ブロードキャスト情報を受信し、イーサネットや
2G
3G
4G
の無線ネットワーク
カード経由でその情報をデータ処理プラットフォームへ送信します。受信機とアンテナは
様々なバリエーションで構成することができます。また、
Aeroscope
には
GPS
が内蔵されて
いるため、マップで本機位置を確認できます。本機
[1]
には
BIST
(ビルトインセルフテスト)
機能が装備されており、タイマーによる定期的なセルフテストやリモートセルフテストに加
え、正確な環境スペクトル検知が可能です。
[1]
Aeroscope
は、
DJI Background Management System
(別売)と共にご使用ください。
Aeroscope AS-F1800
©
2018 DJI All Rights Reserved.
17
1.
アンテナポート
[3]
アンテナケーブルを使用してアンテナに
接続します。
2.
電源ポート
220V AC
電源コンセントに接続します。
3. USB
ポート
無線ネットワークカードに接続されまし
た。
4.
イーサネットポート
コンピューターに接続します。
5. CAN
拡張ポート
システムのデバッグに使用します。
6. UART
拡張ポート
システムのデバッグに使用します。
7.
インジケーター
各モジュールの状態を示す
6
個からなる
LED
です。
8. GND
コネクター
取り付けデバイスの金属ブラケットに接
続します。
同梱物リスト
Aeroscope
プロセッサー
×1
電源コネクター(メス)
×1
ドングル
[2]
×1 RJ45
コネクター
×1
電源ケーブル
×1 RJ45
防水ケース
×1
プロセッサー取り付けブラケット
A×2
ねじセット
×1
ねじ
M80×100
4
個)
ねじナット
M80
4
個)
ワッシャー
M80
4
個)
ねじ
M60×18
4
個)
プロセッサー取り付けブラケット
B×2
プロセッサー
GND
ケーブル
×1
ピン
×5
[2]
北米版には防水ドングルケースのみが含まれています。実際のドングルは別途購入する必要があります。
概要
1
1 1
234
5
8
6
7
ANT3ANT2
ANT0 ANT1
[3]
アンテナポート(
ANT0
ANT1
ANT2
ANT3
)は、スペクトル分析中に使用できます。必ず正しいポ
ートを選択してください。
Aeroscope AS-F1800
18
©
2018 DJI All Rights Reserved.
インジケーター
LED1
:プロセッサーモジュールのステータ
スインジケーター
LED2
:ネットワーク接続のステータスイン
ジケーター
LED3
UAV
情報取り込みインジケーター
LED4
:タイプ
3
受信機のステータスインジ
ケーター
LED5
:タイプ
2
受信機のステータスインジ
ケーター
LED6
:タイプ
1
受信機のステータスインジ
ケーター
LED1
:プロセッサーモジュールのステータスインジケーター
プロセッサーの動作状態を示すのに使用します。
インジケーター 説明
緑色点滅 正常に作動、またはファームウェアは正常に更新完了しました。
黄色点滅 電源を入れたときに整合性チェック中、またはファームウェア
の更新中です。
赤色点滅 ファームウェア更新に失敗しました。
点灯/消灯 機能異常が発生しました。
ファームウェアが
v03.00.00.23
以降に更新された際に
2
つの状態が追加されました。
インジケーター 説明
黄色と赤色が交互に点滅 無線ダイヤルが進行中です。
緑色と赤色が交互に点滅 異常な
SD
カードログが検出されました。
LED2
:ネットワーク接続のステータスインジケーター
プロセッサーとサーバー間の接続状態を示すのに使用します。
インジケーター 説明
緑色点灯 正常に接続されておりモニターと通信中です。
赤色点灯
モニターとの接続が切断されました。
ファームウェアが
v03.00.00.23
以降に更新された際に、緑色点灯のインジケーターを変更し、
5
つの状態を追加しました。
インジケーター 説明
緑色点灯
正常に接続されており、イーサーネット経由でモニターと通信
中です。
LED1
LED2
LED3
LED4
LED5
LED6
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