AVSS PRS-M300 Parachute Recovery System Installation Guide
- June 1, 2024
- AVSS
Table of Contents
PRS-M300 Parachute Recovery System
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Specifications
- Product: PRS-M300 for DJI M300 RTK
- Version: 2.4
Product Information
The PRS-M300 is a parachute recovery system designed
specifically for use with the DJI M300 RTK drone. It is an
essential safety feature that can detect critical failures during
flight and autonomously deploy the parachute to ensure a safe
landing.
Key Features
-
Autonomous Triggering System (ATS) for parachute
deployment -
Flight Termination System (FTS) for disabling propulsion
-
Manual Triggering Device for pilot-initiated deployment
-
Minimum Deployable Altitude for safe deployment
-
Replaceable Parachute PodTM for easy maintenance
Product Usage Instructions
1. Pre-flight Check
Before each flight, ensure that the PRS-M300 is properly
installed and connected to the DJI M300 RTK according to the user
manual.
2. Operating the System
During flight, the PRS-M300 continuously monitors the status of
the DJI M300 RTK. In case of a critical failure, the system will
automatically deploy the parachute to ensure a safe landing.
3. Manual Deployment
If needed, the pilot can manually trigger the parachute
deployment by pressing the triggering button on the Manual
Triggering Device.
4. Maintenance
Regularly check the status of the PRS-M300, including battery
levels and overall functionality. Follow maintenance instructions
provided in the user manual.
FAQ
Q: How often should the parachute be packed?
A: The parachute packing interval has been extended from 12
months to 18 months. It is recommended to follow this interval to
ensure proper functionality.
Q: Can the PRS-M300 be used with other drone models?
A: The PRS-M300 is specifically designed for use with the DJI
M300 RTK and may not be compatible with other drone models. It is
recommended to use it as intended for optimal safety.
“`
PRS-M300 for DJI M300 RTK
Version 2.4
© 2023 AVSS ALL RIGHTS RESERVED
1
PRS-M300 USER MANUAL FOR DJI M300 RTK
Using this Manual
1. Revision Notes
Revision #
Date
Revision Description
1.0
November 1st, 2020 – Initial Internal Release
– ASTM Revision
1.1
February 26th, 2021
–
Updated FTS through OSDK Updated Specifications
– Updated Attachment Bracket
– Product Description
– LiPo Battery Information
1.2
April 20th, 2021
– ATS MDA – Arming the Manual Triggering Device
– Terminology
– Initial ASTM Performance Data
1.3
May 6th, 2021 – Final ASTM Performance Data
1.4
May 14th, 2021 – Revised Flight Termination System Firmware Configuration
1.5
May 22nd, 2021
– Updated Operational Limitations – Revised Integration Steps
1.6
August 23rd, 2021
–
Revised Limitations’ Language to Notify Users Not to Switch Between Position Mode and Automated Flight Modes Mid Flight
1.7
October 24th, 2021 – IMU Calibration Instructions
2.0
April 14th, 2022
– Revised Firmware Update Method for V3 Release – Added Status Indication for Sensor Error
2.1
May 17th, 2022 – Updated Battery Specifications
2.2
November 7th, 2022
–
Updated ATS Automatic Disarm Description New FTS ground test Feature
2.3
November 24th, 2022 – Revised the OSDK/PSDK configuration for DJI Assistant 2
2.4
December 16th, 2023 –
Extended the parachute packing interval from 12 months to 18 months
2. Legends
Warning
Important
Tips
FOR THE MOST RECENT VERSION OF THE USER MANUAL, PLEASE GO TO: https://www.avss.co/products/prs-for-dji-m300-rtk/
© 2023 AVSS ALL RIGHTS RESERVED
2
PRS-M300 USER MANUAL FOR DJI M300 RTK
Using this Manual
2 1. Revision
Notes __ 2 2. Legends
__ 2 Disclaimer
____ 5 Terms,
Acronyms, & Abbreviations 6
Safety Instructions
____ 7
Limitations___
8 1. Operational & Environmental Conditions
_ 8 PRS-M300 Overview
__ 9 1. First Time
Setup 9 2. General
Use ____ 9 Features,
Specifications, Testing, & Compatibility _
10 1. Features __
10 2. Specifications
__ 11 3. Payloads
__ 12 Warranty
_____ 13 What’s
in the Box:____ 14 1.
Parts Included _ 14
System Overview ____
15 1. Parachute Recovery System __
15 2. Attachment Bracket _
16 3. Flight Termination System Through OSDK
__ 17 4. Manual Triggering Device
____ 18 Installation
_____ 19 1.
Electronic Module __ 19 2.
Parachute PodTM ____ 20 3.
Attachment Bracket _ 21 4.
Flight Termination System Firmware Configuration ____
26 Battery & Charging
_ 34 1. Battery
Safety__ 34 2. Battery
Charging _ 34 3.
Changing Electronic Module Battery ____ 35
Firmware & SD Card __
36
© 2023 AVSS ALL RIGHTS RESERVED
3
PRS-M300 USER MANUAL FOR DJI M300 RTK
1. MicroSD Card __ 36
2. Firmware Updates __ 37
Status Indications
____ 39 1. PRS-M300
Indications _____ 39 2. Manual
Triggering Device Status Indication __ 40 3.
Manual Triggering Device Synchronization _
40 Operating Procedures
__ 41 1. Hangar
Checklist 41 2.
Installation Checklist ____ 41
3. Pre-Flight Checklist _
41 4. In-Flight
Checklist___ 42 5. Landing
Checklist _ 42 6. Post-
Flight Checklist (No Deployment) __ 42 7.
Deployment Checklist _ 42 8.
Post-Flight Checklist (With Deployment)_
42 Maintenance & Care
__ 43 1. Post-Flight
(Monthly) ____ 43 2.
Transportation _____ 43 3.
Storage __ 43 4.
Extended Storage Considerations __ 43
Frequently Asked Questions
____ 44 Parachute PodTM
Deployment Procedures 45 Customer
Support____ 46
Appendix A: DJI M300 RTK & Payload References
_ 47 Appendix B: IMU Calibration
Instructions ___ 48 Appendix C: New
Features & Information 54 1. Pre-
Flight FTS Check____ 54 2.
Ground Risk Buffer Calculator _____ 55
© 2023 AVSS ALL RIGHTS RESERVED
4
PRS-M300 USER MANUAL FOR DJI M300 RTK
Disclaimer
· You must read the ENTIRE user manual to become familiar with the features of
this product before operation. Failure to operate the product as instructed by
the user manual may result in damage to the product or personal property and
can cause serious injury. Failure to operate the product as instructed may
also void your warranty.
· This is product has been designed for and should only be used by qualified
professionals only.1 · This product is designed to increase the safety of both
people and property on the ground during
DJI M300 RTK operations while potentially helping DJI M300 RTK operators meet
compliance requirements. However, this product is not a replacement for safe
operating practices and should serve only as a last resort in the event of an
emergency. · Before use, you shall refer to the DJI M300 RTK manufacturers’
documentation to determine if this product complies with specific operating
requirements and warranty conditions of the DJI M300 RTK. Failure to comply
with the operating requirements of this product and/or DJI M300 RTK
manufacturer product may result in damage to the DJI M300 RTK, damage to
nearby property, harm to bystanders, and/or cause serious injury. · Always use
proper judgment when attempting to mitigate risks and/or danger in
emergencies. Do not make or attempt any alterations or adjustments to this
product or its use as it could result in serious injury, or damage to the
product or other property and it will void the warranty. · AVSS Aerial
Vehicle Safety Solutions Inc. (AVSS) assumes no liability and/or ownership of
any failure event that may occur while the system is attached to a DJI M300
RTK. The use of AVSS products is at the risk of the user. · Do not store the
PRS-M300 and/or any of the associated parts and accessories in any extreme
cold, hot or humid environments.
o Less than 3 months: -20° to +45° C o More than 3 months: +22° to +28° C ·
This document and the information contained herein are proprietary and
commercially confidential to AVSS. It is prohibited to use, disclose,
reproduce, distribute, or use this user manual other than persons for which
purchased the product.
THIS USER MANUAL MAY BE UPDATED AT ANY POINT AND WITHOUT NOTIFICATION. BEFORE
USE, READ, IN ITS ENTIRETY, THE MOST RECENT VERSION OF THIS USER MANUAL TO
UNDERSTAND ALL PROCEDURES, RISKS, AND RESTRICTIONS ASSOCIATED WITH THIS
PRODUCT BEFORE OPERATING.
1 Professional qualifications are determined by the jurisdiction/country in which the commercial DJI M300 RTK is operating.
© 2023 AVSS ALL RIGHTS RESERVED
5
PRS-M300 USER MANUAL FOR DJI M300 RTK
Terms, Acronyms, & Abbreviations
Terms & Definitions
AGL
Above Ground Level.
Autonomous Triggering System that is independent of any flight critical system of
ATS
the DJI M300 RTK that will detect and initiate parachute deployment upon
detection of a critical failure of the DJI M300 RTK during flight.
Authorized Dealer An AVSS approved distribution partner who sells the PRS-M300.
Drone
When referring to a DJI M300 RTK, other relevant terms include Aircraft, RPAS, sUAS, UAS, and UAV.
End-User
The owner of the PRS-M300 who had purchased the system from an AVSS Authorized Dealer.
FTS
Flight Termination System is a device that will disable the propulsion system of the DJI M300 RTK.
IP Rating
Ingress Protection Rating.
LiPo
Lithium-Polymer (Chemistry of battery).
Manual Triggering Device
The manual triggering device, initiated by pressing the triggering button, initiates the deployment of the parachute recovery system at the discretion of the pilot in command.
Minimum Deployable Altitude
The
lowest
altitude
at
which
the
PRS-M300
is
rated
to
deploy
successfully.
Parachute PodTM
This refers to the replaceable Parachute PodTM that contains the parachute of the AVSS PRS-M300.
Position Mode
The PRS-M300 shall be used only in P-mode (Positioning): P-mode works best when the GPS signal is strong. The DJI M300 RTK utilizes GPS and Forward and Downward Vision Systems to locate itself, automatically stabilize, and navigate between obstacles. Complete details can be found at www.DJI.com.
PRS
Parachute Recovery System.
“shall” versus “should” versus “may”, v–use of the word “shall” implies that a
Shall
procedure or statement is mandatory and shall be followed to comply with this specification, “should” implies recommended, and “may” implies optional at the
discretion of the supplier, manufacturer, or operator.
© 2023 AVSS ALL RIGHTS RESERVED
6
PRS-M300 USER MANUAL FOR DJI M300 RTK
Safety Instructions
Eye Protection
As with any system designed to launch a mass at high velocity, precautions shall be taken to prevent potential injury.
Never point the While the PRS-M300 includes features to prevent unintentional deployments,
Parachute PodTM users shall be aware that the Parachute PodTM is launched vertically. It is
towards anyone or recommended that the operator maintains a clear area of at least 5 meters after
anything
the system has been powered.
Disarming Manual Always disarm the Manual Trigger Device before approaching the DJI M300 RTK Trigger Device after a landing or in the event of an aborted takeoff.
Ensure PRS-M300 is Do not pick up the PRS-M300 when it is armed because the
sensors may DISARMED before interpret the movements as an in-flight failure.
Wait five to ten seconds for the
moving it Autonomous Trigger System to disarm.
Error Status
The system should not be used unless it is indicated that no errors are present. The system will not arm itself nor deploy in a failure scenario unless it has initialized successfully.
Low Battery
The PRS-M300 requires enough battery power to operate. Although the PRSM300 can draw power from the DJI M300 RTK as a backup if the battery becomes low during a flight, this feature is not to be used as a substitute for charging the battery prior to flight.
Parachute PodTM Repacking
Only parachutes packed by AVSS are compliant. The Parachute PodTM shall be repacked or replaced every 18 months only by AVSS. You will no longer be compliant and will void the warranty if you attempt to repack the Parachute PodTM.
Always follow DJI’s maximum specified takeoff weight when adding payloads to
Payload Configurationthe DJI M300 RTK (See Compatibility & Payloads sub-
section for a list of
compatible payload configurations).
The Autonomous Triggering System is designed to automatically detect
abnormal flight behaviors. Flying in a controlled manner and avoiding erratic
Position Mode and Flight Mode Changes
maneuvers ensures that the between pilot commands and mid-flight as the DJI M300 RTK
PRS-M300 can more accurately distinguish loss of control. Do not change the flight mode can have a hard/abrupt braking maneuver that
can exceed the maximum “30°-degree pitch angle (P-mode, Forward Vision
System enabled: 25°)”2.
Rules and RegulationsPgoilovetsrnsmhaelnl tfoblolodwiestihnethruelier sopaenrdatrineggurleagtiioonnss. put in place by civil aviation or
The PRS-M300 utilizes Li-Po batteries. Li-Po batteries are volatile and can
cause Li-Po Battery Warningfires. The user must take the necessary precautions
when charging the PRS-
M300.
2 https://www.dji.com/ca/matrice-300/specs
© 2023 AVSS ALL RIGHTS RESERVED
7
PRS-M300 USER MANUAL FOR DJI M300 RTK
Limitations
1. Operational & Environmental Conditions
– DJI M300 RTK Flight Mode = Position Mode – DJI M300 RTK Maximum Tilt Angle =
30° Degrees – Maximum Take Off Weight = 9.20 kg (20.28 lbs) – Minimum
Deployable Altitude at 7.70 kg = 44.6 m (146.33 ft) – Minimum Deployable
Altitude at 9.20 kg = 50.8 m (166.67 ft) – Autonomous Triggering System Arming
Height = 43 m (141.08 ft) – Manual Triggering Device Range = <2 km (<1.24 mi)
– Temperature Range = -20°C to +45°C (-4°F to 113°F) – Maximum Wind Resistance
= 15 m/s (49.21 fps)
ONLY FLY THE PRS-M300 IN POSITION MODE.
DO NOT CHANGE / SWITCH FLIGHT MODES FROM POSITION MODE TO AUTOMATED FLIGHT
MODES OR AUTOMATED FLIGHT MODES TO POSITION MODES MID FLIGHT AS THE DJI M300
RTK MAY MAKE AN ABRUPT STOP OR MANEUVER AND EXCEED THE “30°-DEGREE PITCH ANGLE
(P-MODE, FORWARD VISION SYSTEM ENABLED: 25°)”.
IF YOU UPDATE THE FIRMWARE ON THE DJI M300 RTK, ALL EXISTING PRSM300 OSDK
SETTINGS WILL BE REMOVED. THEREFORE, AFTER COMPLETING A FIRMWARE UPDATE, YOU
MUST PERFORM THE FIRST TIME & AFTER FIRMWARE UPDATES PROCEDURES (SEE “FIRST
TIME USE & AFTER FIRMWARE CONFIGURATION” SECTION)
IF THE PARACHUTE IS DEPLOYED IN HIGH WINDS, THE PARACHUTE CAN DRIFT. THE PILOT
MUST CONSIDER DRIFT ZONES AND THE CONSEQUENCES IN THEIR RISK ASSESSMENT.
LEAVING THE PRS-M300 ON FOR A PROLONGED PERIOD BEFORE TAKING OFF CAN CAUSE IT
TO ARM IF ENVIRONMENTAL CONDITIONS ARE CHANGING (E.G., BAROMETER DRIFT).
IF THE PRS-M300 IS INVOLVED IN A MAJOR CRASH, DO NOT REUSE THE PRSM300 WITHOUT
CONTACTING AVSS’S CUSTOMER SUPPORT AND SPEAKING WITH A REPRESENTATIVE BEFORE
THE NEXT FLIGHT.
© 2023 AVSS ALL RIGHTS RESERVED
8
PRS-M300 USER MANUAL FOR DJI M300 RTK
PRS-M300 Overview
The PRS-M300 is composed of five (5) main components: 1. The Electronics
Module, which houses the battery, sensors, radio, and controller. These
electronics
also control the autonomous triggering system that will deploy the parachute.
2. The swappable Parachute PodTM, which contains a compressed spring and a
folded parachute. 3. The Flight Termination System Module, a cable adapter and
module that enables the Electronics
Module to communicate with the DJI M300 RTK’s OSDK for motor shutoff. 4. The
Bracket, which attaches the PRS-M300 to the DJI M300 RTK and allows for easy
removal. 5. The Manual Triggering Device, which allows the user to manually
initiate a parachute deployment
when desired by pressing on the red triggering button.
1. First Time Setup
When the user receives the product, the Electronics module comes mounted to
the top plate of the bracket with a Parachute PodTM already attached. For a
first-time installation, the user must remove the landing gear brackets on the
DJI M300 RTK, place an aluminum spacer block in between and remount the
landing gear bracket with the longer bolts that are provided by AVSS. This
spacer block can stay permanently attached to the aircraft and ensures that
the DJI M300 RTK can still fit in the official DJI M300 RTK supplied hard
case. The user must then enable the OSDK on the DJI M300 RTK to allow the FTS
to work, which is done using DJI Assistant software.
2. General Use
To use the PRS-M300 for a flight, the DJI M300 RTK can be unpacked from its
case and set up according to DJI’s user manual. Once the aircraft is in its
flight configuration, the AVSS bracket can be mounted to the DJI M300 RTK. The
bracket side plates connect and lock into the spacer blocks. The bracket top
plate which already has the electronics module and Parachute PodTM attached
can then be mounted and locked in place using a combination of a sliding
motion and quarter turn fasteners. The provided FTS Module can then be plugged
into the OSDK port on the DJI M300 RTK and connects to the electronics module
using the provided cable that features locking connectors. The PRS-M300 is now
fully installed. The PRS-M300 will turn on automatically when the DJI M300 RTK
is turned on. The manual triggering device is turned on by the user to ensure
that it is communicating with the PRS-M300. The manual triggering device has a
secondary arm button that must be held down for two (2) seconds to arm the
manual triggering device before the parachute can be manually deployed. Any
error with the PRS-M300 will be communicated to the user via the manual
triggering device in the form of verbal warnings and a status LED. During the
flight, the PRS-M300 Autonomous Triggering System will arm itself only once it
has reached the minimum deployable barometric altitude. Afterward, if the DJI
M300 RTK experiences a failure, using a combination of accelerometer, gyro,
and barometer data, the Autonomous Triggering System detects the failure,
forces the motors to shutoff, and deploys the parachute without the need for
pilot input. If the DJI M300 RTK experiences a flyaway, loss of communication,
or other undesirable behavior, the pilot can manually trigger the parachute
deployment to safely recover the aircraft.
© 2023 AVSS ALL RIGHTS RESERVED
9
PRS-M300 USER MANUAL FOR DJI M300 RTK
Features, Specifications, Testing, & Compatibility
The PRS-M300 has been designed to easily integrate with DJI Matrice 300 RTK
DJI M300 RTK. The attachment bracket secures the PRS-M300 without interfering
with onboard sensors and can be easily removed for transport. The system
includes an electronic module to power the Parachute PodTM and flight
termination system. The flight termination system is initiated when either the
pilot instigates a deployment through the manual triggering device or when the
Autonomous triggering system, using the onboard sensors located in the
electronic module, determine that the DJI M300 RTK has breached the safe
flying parameters. Once the flight termination system is initiated and stops
the motors from spinning, the Parachute PodTM is deployed and will result in
the DJI M300 RTK descending under a fully inflated parachute.
1. Features
Attachment Bracket
The custom mounting bracket allows the PRS-M300 to be easily installed with minimal effort.
Independent Power Source
The PRS-M300 is equipped with an independent power source that allows the system to deploy if the DJI M300 RTK loses power.
Spring-Based Ejection
A high-energy spring is used to eject the parachute. This non-pyrotechnic system is safe for travel on commercial airlines.
Autonomous Trigger System
The Autonomous Triggering System (ATS) automatically detects failures and triggers the parachute release.
Manual Triggering The manual triggering device can initiate deployment of the parachute
Device
recovery system at the discretion of the remote pilot in command.
Flight Termination System
Plug-and-play system that cuts power to the motors in the event of a failure and to ensure that the parachute does not become entangled in the DJI M300 RTK’s propellers.
Audible Buzzer
An audible buzzer on the DJI M300 RTK will attempt to notify bystanders that the PRS-M300 has deployed and the DJI M300 RTK is descending.
Low Descent Rate
The parachute is designed to greatly reduce the descent velocity of the DJI M300 RTK in the event of a failure.
Flight Data Logging
Flight data logging to a dedicated microSD Card that is integrated in the PRSM300.
Parachute PodsTM Easily replaceable Parachute PodTM.
© 2023 AVSS ALL RIGHTS RESERVED
10
PRS-M300 USER MANUAL FOR DJI M300 RTK
2. Specifications
OVERVIEW3 Total Weight Average Descent Rate (7.70 kg) Average Descent Rate
(9.20 kg) Average Impact Energy (7.70 kg) Average Impact Energy (9.20 kg)
Minimum Deployable Altitude (7.70 kg) Minimum Deployable Altitude (9.20 kg)
Parachute Reuse Method Deployment Technology Deployment Trigger PARACHUTE
RECOVERY SYSTEM Main System Weight Deployment Release Time Time to Inflation
Battery Life Operating Temperature PARACHUTE PODTM Parachute Size
Risers/Attachment Location FLIGHT TERMINATION SYSTEM FTS Method Integration
Process ATTACHMENT BRACKET Attachment Bracket Weight Material Attachment
Location MANUAL TRIGGERING DEVICE (REMOTE) Range Frequency
922 grams (2.03 lbs) 3.24 m/s (10.62 fps) 3.54 m/s (11.61 fps) 40.30 Joules
(29.80 ft-lb) 57.60 Joules (42.50 ft-lb) 44.60 meters (146.33 ft) 50.80 meters
(166.67 ft) Prepacked Pods Spring Manual and/or Autonomous
650 grams (1.43 lbs) 20 ms 0.57s to 1.30s 6 hours -20°C to +45°C (-4°F to
113°F)*
5.5m² Internal
OSDK OSDK Port
272 grams (0.60 lbs) Carbon Fibre Top Mounted
<2 km (<1.24 mi) 915MHz (North America) / 868MHz (Europe)
*Recommended ambient temperature for operation only. See Battery & Charging and Maintenance and Care sections for more information.
3 Subject to change without warning based on supply chain material availability, payload selection, ongoing testing results, and environmental conditions.
© 2023 AVSS ALL RIGHTS RESERVED
11
PRS-M300 USER MANUAL FOR DJI M300 RTK
3. Payloads
AVSS’s PRS-M300 typically works with the various DJI M300 RTK payload options
that are provided by DJI and that have been developed to integrate through the
DJI OSDK Port. As of 2020-10-01, the following payload combinations, if using
the user manual data located on DJI’s and payload partners’ website4, are
within the 9.0kg Maximum Take-Off Weight criteria. Be aware, due to the
potential unannounced changes by the supporting DJI M300 RTK and payload
manufacturers, these charts are subject to change without any notification.
The user is solely responsible
for verifying the weight inaccuracies and calculating the weight of additional
items attached to the DJI M300 RTK.
Single Payload Configuration Chart
Drone
Battery
DJI M300 RTK
TB60
Available Weight (MaxTOW 9kg)
H20 0.686 7.908
1.092
Single Payload (KG)
H20T 0.833
8.055
Z30 0.556
7.778
0.945
1.222
XT S 0.387 7.609
1.391
XT2 0.629 7.851
1.149
U10 Methane 0.534 7.756
1.244
Z15 .500 7.722
1.278
Dual Payload Configuration Chart
Drone
Battery
DJI M300 RTK
TB60
Available Weight (MaxTOW 9kg)
H20T + Z30 1.389
8.611
0.389
Dual Payload (KG)
H20T + XT S 1.220 8.442
0.558
H20T + XT2 1.462
8.684
0.316
H20T + U10 Methane
1.367
8.589
0.411
H20T + Z15 1.333
8.555
0.445
4 Please refer to Appendix A: Drone & Payload References for the complete list of references.
© 2023 AVSS ALL RIGHTS RESERVED
12
PRS-M300 USER MANUAL FOR DJI M300 RTK
Warranty
·
AVSS warrants that the PRS-M300 and its accessories are free from defects and fit for the
operational purpose intended.
·
The warranty period for the PRS-M300 is, the earliest of, twelve (12) months after purchase,
or after three Parachute PodTM deployments, which starts on the date listed as per the user’s
invoice from an Authorized Dealer.
·
This warranty requires the PRS-M300 to be shipped to AVSS’s location for analysis and may
either be fixed, replaced and/or deemed voided of warranty at the sole discretion of AVSS.
·
If the customer believes the PRS-M300 did not properly function or deployed the Parachute
PodTM in a non-failure event (False-Positive), the customer must send AVSS the following files: PRS-M300 Data
DJI M300 RTK DAT data
DJI M300 RTK Text File
·
If the PRS-M300 is deemed void, the cost of analysis and shipping shall be the responsibility
of the end-user. Nothing herein contained shall be construed to exclude or limit any warranty,
express or implied by law.
·
AVSS hereby declares that the warranty shall be deemed void if the PRS-M300 is not used for
the intended operational uses and/or if alterations, tampering, or any actions deemed
comprising by AVSS, directly or indirectly, of the PRS-M300 This includes, but not limited to,
non-standard use, the use of potentially disabling anti-operations technology, and/or
unintended damage by the end-user.
·
The manual triggering device for the parachute is warrantied against any manufacturing
defect.
·
The product warranty does not cover water damage.
·
If the product is used or handled in any way otherwise described within this user manual, the
warranty shall be void.
·
The PRS-M300 purpose is to assist in decreasing the ground impact energy caused by the DJI
M300 RTK mid-flight failure. The end-user cannot in any circumstances from AVSS pursue any
compensation or allowance if their DJI M300 RTK is damaged.
·
It is the responsibility of the purchaser to contact AVSS to obtain additional or updated copies
of the user manual.
© 2023 AVSS ALL RIGHTS RESERVED
13
PRS-M300 USER MANUAL FOR DJI M300 RTK
What’s in the Box:
1. Parts Included
A
B
E C
F D
G
H
A. Parachute PodTM
B. FTS Connector
C. Electronic Module
D. Top Plate
E. Side Brackets (2)
F. Bracket Leg Connectors (2)
I
J
K
L
G. FTS OSDK Module
H. HR30 FTS Cable
I. Manual Trigger Device with Battery
J. Allen Keys
K. USB-C to USB-A Cable
L. M6 Bolt and Washer (2)
© 2023 AVSS ALL RIGHTS RESERVED
14
PRS-M300 USER MANUAL FOR DJI M300 RTK
System Overview
1. Parachute Recovery System
A
F
I
B
D G
J
C
E
H
K
A. Parachute PodTM
B. Electronic Module C. MicroSD Dust Cap for the
USB/microSD Card Slot D. Status LED
E. Power Button
F. Firing Pin Receptacles G. Orientation Key H. Battery Door I. Electrical Contacts J. Continuity LED K. HR30 FTS Connector
© 2023 AVSS ALL RIGHTS RESERVED
15
PRS-M300 USER MANUAL FOR DJI M300 RTK
2. Attachment Bracket
A
B
C
E
D
A. Top Plate B. Quarter Turns (2) C. Side Plates (2) D. Landing Gear Screws
(8) E. Bracket Leg Connectors
© 2023 AVSS ALL RIGHTS RESERVED
16
PRS-M300 USER MANUAL FOR DJI M300 RTK
3. Flight Termination System Through OSDK
A
D
C B
A. FTS OSDK Module
B. HR30 FTS Cable Female Connector C. USB-C Connector to DJI M300 RTK
OSDK Port
E
D. HR30 FTS Cable to Electronic Module Connector
E. HR30 FTS Cable to FTS Connector
© 2023 AVSS ALL RIGHTS RESERVED
17
PRS-M300 USER MANUAL FOR DJI M300 RTK
4. Manual Triggering Device
A
B
C
D
F E
A. Triggering Button B. Antenna C. Lanyard Attachment D. Belt Clip E. Arm
Button
H G
I
F. Status LED G. Power Button H. Sync Button I. USB-C Charging Port
© 2023 AVSS ALL RIGHTS RESERVED
18
PRS-M300 USER MANUAL FOR DJI M300 RTK
Installation
ENSURE BOTH THE PRS-M300 AND DJI M300 RTK ARE OFF DURING INSTALLATION UNLESS
REQUIRED FOR COMPLETING THE STEP.
1. Electronic Module
Turning on the PRS-M300
Step 1
Turn on To turn on PRS-M300, press on the System ON/OFF switch.
Step 1
Press and Hold Sync
Button
Synchronization on PRS-M300
To synchronize the PRS-M300, ensure the PRS-M300 is OFF. Next, pull the tab on
the microSD dust cap cover to open it. Then, press and hold the small blue
synchronization button in the top corner.
Step 2
Turn On PRS
While holding the button, turn ON the PRS. The Main status LED should turn white after a moment.
Step 3
Turn On Remote
Turn on the manual remote while holding the sync button that is located next to the power button. The LED on the remote will turn white.
Step 4
Syncing
Once both the PRS and remote are on and in the sync mode (white LED), they
will pair. The remote will indicate that the pair is connected and the status
LED on both the PRS and the remote will green. The PRS
and remote are now bound. They can now be turned off.
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PRS-M300 USER MANUAL FOR DJI M300 RTK
2. Parachute PodTM
· ONLY REMOVE THE PARACHUTE POD IF THE PARACHUTE HAS BEEN DEPLOYED.
· ENSURE THAT THE PRS-M300 IS OFF BEFORE REPLACING THE POD.
Attaching and changing the Parachute PodTM
Remove
Step 1
Parachute PodTM
from PRS-
Using the supplied hex key, unscrew the M6 bolt until the pod can be removed. Do not reuse the bolt and washer when attaching a new Parachute PodTM.
M300
Step 2
Align New Parachute
PodTM
Remove the new Parachute PodTM from its shrink wrap packaging. Align the
Parachute PodTM above the
electronics module such that the electrical contacts
will mate properly (as shown).
Press
Step 3
Parachute PodTM Against
Press the Parachute PodTM against the electronics module. The two shall mesh so that they do not slide against each other.
Module
Step 4
Slide Washer onto M6
Bolt
Take a new M6 bolt and slide on a new washer. The washer is slightly cone shaped. Ensure that the narrow end is towards the head of the bolt.
Step 5
Tighten Bolt
Using the M5 hex key, tighten the bolt.
Step 6
Power On
Place the PRS-M300 on a flat surface and turn on.
Step 7
Check Continuity
Check that the continuity light on the side of the PRSM300 is lit. This indicates that the electrical contacts are properly connected to the pod.
Step 8
Power Off
Power off the module. The new Parachute PodTM is now successfully installed.
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PRS-M300 USER MANUAL FOR DJI M300 RTK
3. Attachment Bracket
First Time Use
Bracket Leg Connectors for the DJI M300 RTK
Step 1 Step 2
Attachment Bracket Leg Connectors
Screw in Landing Leg Connectors
Unscrew and remove the M300 landing gear. Then, align the landing gear spacers to the bottom of the side brackets. Ensure the flat side of the spacers are attached to the side brackets and that the hollow middle is directed towards the M300 landing gear attachment point. Align the side brackets to the landing leg connectors and attach the landing gear to the outside of the side brackets. Then, screw in the provided landing gear bolts so that, in the following order, the screw is attached to the M300 landing gear, side brackets, spacers, and M300.
THE BRACKET SYSTEM SHALL BE FIRMLY ATTACHED. WHEN THE PARACHUTE DEPLOYS, THE PARACHUTE WILL TRANSFER THE ENTIRE WEIGHT OF THE DJI M300 RTK TO THE ATTACHMENT BRACKET.
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PRS-M300 USER MANUAL FOR DJI M300 RTK
Ongoing Use
Installing the Attachment Bracket Before Use
Step 1
Spacers Prepared
After completing the first time install steps, the DJI M300 RTK and PRS-M300 are ready to be attached for flight.
Step 2
Rear Side Plate
Alignment
Standing behind the drone, take the rear side plate as shown and ensure that the foam is on the inside, orientated towards the DJI M300 RTK.
Step 3
Rear Side Plate
Insertion
Align the heel of the bracket with the slot in the spacer block.
Step 4
Rear Side Seat the heel into the slot to form a Plates hinge.
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PRS-M300 USER MANUAL FOR DJI M300 RTK
Step 5
Rear Side Plates
Rotate the plate towards the back of the DJI M300 RTK until the hook latches into the block. A click should be felt/heard.
Step 6
Front Side Plates
Take the front side plate and ensure the quarter turn twist tab is facing away from the drone as shown.
Step 7
Front Side Plates
Align the tab at the bottom of the bracket with the slot located at the front of the spacer block.
Step 8
Front Side Plates
Slide the tab into the slot. A click should be felt/heard when it is fully seated.
Step 9
Front Sides The Side Plates are not installed. Plates Repeat steps 1-9 for the other side.
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PRS-M300 USER MANUAL FOR DJI M300 RTK
Step 10
Top Plate
Ensure that both side brackets are fully inserted. The flat surface on which the top plate will rest should be flat.
Step 11
Top Plate
Bend the front side plates outwards as shown.
Step 12
Top Plate
Align the slots in the top plate with the side plate tabs.
Step 13
Top Plate
Ensuring that the front side plates are still pushed out, lower the top plate onto the side plates.
Step 14
Top Plate
The side plate tabs should pass through the slots in the top plate.
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PRS-M300 USER MANUAL FOR DJI M300 RTK
Step 15
Top Plate
Push the top plate towards the back of the drone such that it locks with the hooks on the side plates.
Step 16
Top Plate
Push the front side plate inwards so that it rests against the top plate. Both side plates should be aligned.
Step 17
Top Plate
Once the side plate is pushed in towards the top plate, push the quarter turn in and rotate clockwise to lock.
Step 18
Top Plate
The quarter turn tab should be horizontal once it is locked.
Step 19
Top Plate
Pull outwards on the front side plate to ensure that the quarter turn is secured.
Step 20
Top Plate
The bracket is now installed and ready for flight.
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PRS-M300 USER MANUAL FOR DJI M300 RTK
4. Flight Termination System Firmware Configuration Ongoing Use
Connecting PRS-M300 FTS OSDK Module.
Open the DJI Step 1 M300 RTK OSDK Open OSDK port.
Port
Orient the PRS- Align the PRS-M300 FTS OSDK
Step 2 M300 FTS OSDK Module so the HR30 Connector is
Module
pointing up.
Step 3
Align the PRSM300 FTS OSDK
Module
Align the PRS-M300 FTS OSDK Modules USB-C to the DJI M300 RTK OSDK port and is facing the correction orientation with the HR 30 connector closer to the front of the DJI M300 RTK.
Step 4
Connect the PRS-M300 FTS OSDK Module
Gently, but firmly, connect the PRSM300 FTS OSDK with the DJI M300 RTK OSDK port.
Step 5
Plug in the PRSM300 FTS OSDK Module to the DJI M300 RTK
Ensure the PRS-M300 FTS OSDK module is securely plugged in.
Step 6
Connect HR30 FTS Cable to Electronic Module and FTS OSDK Module
Use the HR30 FTS cable to connect the FTS interface on the left side of the PRS-M300 (the side with no cap) and the FTS OSDK Module.
· VERIFY THAT THE OSDK APP HAS BEEN ACTIVATED. · VERIFY THAT ALL HARDWARE CONNECTIONS ARE SECURED.
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PRS-M300 USER MANUAL FOR DJI M300 RTK
First Time Use & After Firmware Updates The PRS-M300 uses the DJI M300 RTK
Onboard SDK (OSDK) to instigate flight termination. The flight termination
system shuts off the DJI M300 RTK motors prior to the deployment of the
Parachute PodTM. This installation section provides the steps to correctly
configure and activate the DJI M300 RTK OSDK App using DJI Assistant 2
(Enterprise). These steps must be completed prior to first time use, and after
updating the firmware on the DJI M300 RTK.
Step 1
Before Starting
Configure the OSDK in DJI Assistant 2
To complete this configuration using DJI Assistant 2 (Enterprise), an internet
connection is required. Download and install DJI Assistant 2 (Enterprise) if
it is not already installed.
The PRS will need to be installed on the DJI M300 RTK. Please keep the
hardware connection described on page 26. You will also need the manual remote
to verify the status.
Step 2
Plug in USBC Cable
Plug in the USB-C cable to the Assistant Port located on the right side of the drone. Connect the other end of the cable to your computer.
Step 3
Launch DJI Assistant 2
Launch DJI Assistant 2 (Enterprise).
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PRS-M300 USER MANUAL FOR DJI M300 RTK
Step 4
Log in to DJI Assistant 2
Log in to your DJI Account. If you do not have an account, you will need to create one.
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PRS-M300 USER MANUAL FOR DJI M300 RTK
Step 5
Configure Settings
Open the settings tab in the top right of the window. Configure the data authorization settings to allow for data authorization of the Onboard SDK APP ID. Turn on the authorizations as shown.
Step 6
Turn on DJI M300 RTK and PRS
Turn on your DJI M300 RTK. Verify that the PRS is on. It should power on automatically when the DJI M300 RTK is turned on. If it does not turn on automatically, ensure that the FTS Module and FTS Cable are connected properly. The LED on the PRS will blink purple and blue when the FTS is plugged in but not yet configured.
Step 7
Turn on Remote
Turn on the manual trigger remote. This will allow you to verify the status of the FTS.
Step 8
Connect to Drone
Once the drone is on, the DJI Assistant 2 app will recognize that the Matrice 300 RTK is available. Click on the icon to connect to the drone.
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PRS-M300 USER MANUAL FOR DJI M300 RTK
Step 9
Configure DJI M300 RTK OSDK
Select the “Onboard SDK” tab from the left side menu. In this new window, complete the following: · Select “Enable API Control” via checkbox on the top left.
Note: If this is not the first time completing these steps on this drone and you are simply re-configuring the FTS as a result of a firmware update to the DJI M300 RTK, the LED on the PRS may turn green at this stage. In this case, the setup is complete. If this is the first time configuring the FTS on this drone, OR the LED does not turn green, proceed to the next step.
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PRS-M300 USER MANUAL FOR DJI M300 RTK
Step 10
Turn Off PRS and Drone
Turn off the PRS. Once complete, turn off the DJI M300 RTK.
Step 11
Close DJI Assistant 2
Once the PRS and DJI M300 RTK are off, close DJI Assistant.
Step 12
Launch DJI Assistant 2
Re-launch DJI Assistant 2.
Step 13
Turn on Drone and
PRS
Turn on the DJI M300 RTK. Verify that the PRS is on. The PRS should turn on automatically.
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PRS-M300 USER MANUAL FOR DJI M300 RTK
Step 14
Reconnect to Drone in DJI Assistant 2
Once again, the DJI Assistant 2 app will recognize that the DJI M300 RTK is available. Click on the icon to connect to the drone.
Return to the Onboard SDK tab using the left side menu. Verify that the
Step 15
Verify Settings
correct settings were saved. · The “Enable API Control” checkbox on the top left should be checked.
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PRS-M300 USER MANUAL FOR DJI M300 RTK
Step Cycle PRS Turn the PRS OFF. Wait a moment and then turn the PRS back ON. After a
16
Power moment, the LED will blink purple and blue.
Step 17
Cycle PRS Power Again
Turn the PRS OFF. Wait a moment and then turn the PRS back ON. Now the LED on the PRS should turn green once it has finished initializing. Once the LED is green, the FTS has been properly configured and is ready to use.
The LED will turn yellow if the manual trigger remote is not connected.
Once the LED on the PRS is green, the setup process is complete. Turn off
Step
Process the PRS, drone and manual remote in that order. The USB-C can now be
18
Complete unplugged from DJI assistant. Don’t forget to reinstall the small silicon
cover to protect the Assistant Port during flight.
· MAKE SURE ALL CONNECTORS ARE PROPERLY ATTACHED TO THE FLIGHT TERMINATION
SYSTEM AND PRS-M300.
· DO NOT LEAVE METAL TERMINALS EXPOSED TO OPEN AIR WHEN NOT IN USE.
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PRS-M300 USER MANUAL FOR DJI M300 RTK
Battery & Charging
1. Battery Safety
· The PRS-M300 EM is equipped with an independent 1S LiPO battery to supply
power. · The PRS-M300 EM and manual triggering device (manual remote) shall be
charged before
use and only by an AVSS supplied or approved USB-C Cable. · The batteries
nominal voltage is 3.7 · Failure to comply may result in damage to the
battery, the PRS-M300, severe overheating,
and/or fire. · If left in unsuitable environments, the system and/or
components may be damaged, the
warranty will shall be void, and the items may not properly function. · During
charging, keep watch on the charging process and react to any potential
problems
that may occur. · Never leave unprotected charging batteries unattended. · The
EM battery should be replaced within two (2) years of purchase.
DO NOT TAKE OFF WHEN THE BATTERY INDICATOR IS RED.
RISK OF EXPLOSION IF THE BATTERY IS REPLACED BY AN INCORRECT TYPE.
2. Battery Charging
Charging
· Only charge the device when it is powered off. · Insert the supplied cable
to the USB-C port on the device. Only use a power source that
follows USB standard for charging. · Maximum ambient temperature for charging
the EM is 40°C (104°F). · Maximum ambient temperature for charging the Manual
Triggering Device (REMOTE) is
35°C (95°F).
Battery Indications
· The battery charge status on both devices (manual triggering device and electronics module) can be checked by pressing the synchronization (“Sync”) button after the startup sequence is finished. The battery colors are the following:
LED Color
(red)
(yellow)
(green)
(white)
Battery %
0-25
25-50
50-75
75-100
THE PRS-M300 EM HAS A BUILT-IN CHARGING CIRCUIT FOR MAINTAINING ADEQUATE BATTERY CHARGE USING POWER SUPPLIED BY THE DJI M300 RTK OSDK PORT.
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PRS-M300 USER MANUAL FOR DJI M300 RTK
3. Changing Electronic Module Battery
Replacing PRS-M300 Battery
Step 1
Turn the Battery Knobs
Using the knob, turn the knobs to open the battery compartment door.
Step 2
Open Battery Using the knob, turn and open the
Door
battery compartment door.
Step 3
Disconnect battery
connector
Press the release on the battery connector and unplug the cable.
Step 4
Remove Battery
Slowly remove battery from storage compartment.
Step 5
Orient Battery Orient the new battery so that the and Cable cable is as shown in the corner.
Step 6 Step 7
Plug-in Battery
Close Battery Door
Plug-in the battery connector to the cable inside the battery compartment of
the electronic module. Proper attachment will result in a “click” sound and
will be latched.
Once the battery and cable are neatly packed into the compartment, close the
battery door and tighten knob. Ensure that the cable is not being pinched by
the door.
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PRS-M300 USER MANUAL FOR DJI M300 RTK
Firmware & SD Card
1. MicroSD Card
Removing and/or Inserting the SD Card
Step 1
Open Door
Pull the tab on the charging port cover to open it. The tab will open with a hinged door that opens to the right, towards the power button.
Step 2 Step 3
Remove SD card Insert Micro SD-Card
Gently press the SD card in to release the latch and then pull the card out of
the slot. Use Tweezers if necessary.
To insert the micro SD-card, slide it into the slot with the metal contacts
facing up. An audible click should be heard when it connects properly.
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PRS-M300 USER MANUAL FOR DJI M300 RTK
2. Firmware Updates
Firmware updates should be performed when a new version is released by AVSS.
Check the AVSS website regularly for firmware updates.
Updating the Firmware
Step 1
Synchronize Remote and PRS-
M300
Follow the steps in Manual Triggering Device Synchronization to synchronize the remote and PRS-M300 before updating the firmware
Step 2 Step 3 Step 4 Step 5 Step 6
Download firmware
Download the firmware from the bottom of the page on https://www.avss.co/products/prsfor-dji-m300-rtk/
Copy the firmware on a SD card
Extract the zip file and copy the firmware (sfb files) on an SD card and insert in the PRS-M300, there may be 3 firmware files if this is a major release (PRSM300, RMT, DBM300). Do not change the file names of the Firmware.
Connect FTS of PRS-M300 to the
DJI M300
Ensure that the drone, PRSM300, and Manual Remote are all turned off. Connect the FTS cable on the PRS-M300 to the DJI M300 RTK.
Turn on DJI M300 RTK drone
Firmware LED
Turn on the drone, which should automatically turn on the PRSM300, if not, turn on the PRSM300 by clicking the main PRSM300 button, next to the status LED. The PRS-M300 LED should turn white to indicate the firmware is downloading. Then the LED should be pink to indicate updating, and then the LED will turn white again to download the next firmware. Wait till the PRS-M300 LED turns yellow, indicating a successful firmware update for the PRS-M300 and daughterboard.
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PRS-M300 USER MANUAL FOR DJI M300 RTK
Step 7
Turn on the manual remote
Keep the remote at least 3 meters away from the DJI M300 RTK, then turn on the remote. The remote firmware will now update and the LED should be white. When the firmware is successfully updated the remote will either restart or turn off. Turn on the remote and the PRS-M300 and remote LED should be green. Check the event log for the correct firmware version listed on the website.
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PRS-M300 USER MANUAL FOR DJI M300 RTK
Status Indications
The PRS-M300 status, also referenced as “Heartbeat” is indicated using a
combination of LED color and buzzer signals. The PRS-M300 Status LED is
located next to the ON/OFF switch. The LED color on PRSM300 and manual
triggering device indicates the stage of the flight. The manual triggering
device LED indicates its state for 2 seconds and blinks the color of the
PRS-M300 when a connection is established. The buzzers indicate secondary
information which can be either continuous and require action or show a single
event for user information.
1. PRS-M300 Indications
Status
LED5 / Buzzer6
Required action
1
Power on
2 Synchronization
3 Updating firmware
4
Initializing
5 FTS not connected
6 FTS diagnostic failed
7
Initialized
P P P P P P P P P P W W W W W W W W W W W W W W W W P P P P P P P P P P P B P
B P B P B P B
Y Y Y Y Y Y Y Y Y Y P P P P P P P P P P
Hold Sync and turn on the manual triggering device See firmware section
Connect the HR30 FTS cable to
pass initialization7
Change FTS module or HR30 FTS cable
8
POD not found
9
Very low battery (~1 hour8)
10
SD error
11 Searching for RF
12
Standby
13
Standby
R R R R R R R R R R C C C C C C C C C C Y Y Y Y Y Y Y Y Y Y OY Y Y YOY Y Y Y G G G G G G G G G G G G G G G G G G G G
Install/replace the pod
Replace/charge the battery Ensure SD card is readable and properly inserted
Turn on the manual triggering device (make sure it is bound) SD card Error,
ready to take off
Ready to take off (No error)
14
ATS Armed
15
ATS Armed
16
FTS activated
17
Sensor Error
C C C C C C C C C C ATS is active, SD error
G G G G G G G G G G ATS active (No error)
R R R R R R R R R R R R R R R R R R R R
Immediate deployment, keep away
Check Event log on the SD card. IMU calibration may be required.
5 Purple, Blue, Yellow, Red, Cyan, Green, Off 6 Buzzer is illustrated by lines around the color marks 7 Disconnection of the FTS after the initialization produces the same error and needs a power cycle to run diagnostic again 8 Dependent on environmental factors and number of battery charge cycles
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PRS-M300 USER MANUAL FOR DJI M300 RTK
2. Manual Triggering Device Status Indication
The LED on the manual triggering device indicates its status for 2 seconds and
blinks the status of the PRS-M300 so the pilot can monitor the status of the
PRS-M300 in the sky conveniently.
G
G
G
G
G
G
G
G
G
C
The manual triggering device status has the following colors:
Synchronizing
W
Searching
Y
Standby
G
Armed
C
Critical/Triggered
R
3. Manual Triggering Device Synchronization
1. Make sure that both devices are off. 2. Hold the Sync button on the manual
triggering device and, while turning it on, until the LED
turns white. 3. To increase the channel, press and hold the arm button until
the LED turns off then release.
Repeat to increase the channel further. Number of channels depends on the
local regulations. 4. Hold the Sync button on the PRS-M300 and while turning
it on. The LED should be white. 5. Hold the Sync button on the manual
triggering device and turn it on. 6. Both devices will generate a tone and
Sync. 7. Note, the manual triggering device can also change channels. This
feature can be used to
potentially reduce RF interference. To change the manual triggering device
channel, the user should contact customersupport@avss.co.
ONCE A DEVICE IS PUT TO SYNC MODE, IT WILL SYNCHRONIZE WITH THE FIRST DEVICE
IT FINDS. TO PREVENT UNINTENDED SYNCHRONIZATION, SYNCHRONIZE ONLY A SINGLE
PRS-M300 AND A SINGLE MANUAL TRIGGERING DEVICE AT THE SAME TIME.
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PRS-M300 USER MANUAL FOR DJI M300 RTK
Operating Procedures
1. Hangar Checklist
Make sure manual triggering device battery is fully charged Make sure the
electronic module battery is charged more than 25% Make sure that the memory
card is inserted and has enough storage space
2. Installation Checklist
Ensure that the PRS-M300 and bracket are not damaged Ensure the foam spacers
are still secure to the bracket Insert Attachment Bracket legs, two per side,
to the bracket leg connectors Ensure that the PRS-M300 top plate and main
system are securely attach Verify that bracket is secure to the DJI M300 RTK
Check that the FTS connectors on the electronics module, FTS module and cable
are clean and
undamaged Plugin HR30 FTS cable to FTS module Plug the HR30 FTS cable into the
electronics module Ensure that the HR30 FTS cable is securely connected and
cannot interfere with propellers Check that manual triggering device antenna
is oriented vertically
3. Pre-Flight Checklist
Perform DJI M300 RTK Preflight checks Ensure DJI M300 RTK is in position mode
Connect the HR30 FTS cable with PRS-M300 electronic module Turn on PRS-M300
Manual Triggering Device Turn on PRS-M300 by turning on the DJI M300 RTK Check
continuity light Check the buzzers and lights (heartbeat) Check battery level
and ensure it is at least 50% Wait for successful initialization Ensure no
errors are present Move at least 5 meters away from the DJI M300 RTK Arm the
manual triggering device by holding down the “Arm” button for about 2 seconds
and
will provide audio feedback with the statement of “Remote Armed” Takeoff and
climb to minimum deployable altitude
AUTO-TRIGGER WILL ONLY ARM ONCE AN ALTITUDE OF 43 METERS IS REACHED.
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PRS-M300 USER MANUAL FOR DJI M300 RTK
4. In-Flight Checklist
Always fly in Position Mode Fly in a safe and controlled manner Avoid flying
over people if unnecessary
5. Landing Checklist
Land DJI M300 RTK gently on a level surface a safe distance from people The
ATS should disarm when the DJI M300 RTK is 5 meters from the ground. The
manual remote
will indicate when the ATS disarms. Do not approach the DJI M300 RTK until the
ATS is disarmed. If the automatic ground detection does not disarm the ATS
then it will take approximately 5 seconds after landing to disarm the ATS.
Note, the pilot will be notified through a voice command on the manual
triggering device Disarm manual triggering device Turn off the PRS-M300 once
it has landed After the PRS-M300 is off, turn off the DJI M300 RTK
6. Post-Flight Checklist (No Deployment)
Ensure PRS-M300 is disarmed before approaching the DJI M300 RTK DO NOT STAND
DIRECTLY OVER THE PRS-M300 WHEN APPROACHING THE DJI M300 RTK Turn off PRS-M300
BEFORE handling the DJI M300 RTK Turn off the DJI M300 RTK Disconnect HR30 FTS
cable before removing batteries Inspect PRS-M300 for damage
7. Deployment Checklist
If necessary, the system can be deployed using the manual triggering device If
possible, fly over a safe area free of people, cars or obstacles Press and
hold the trigger button on the manual triggering device Visually follow the
DJI M300 RTK’s descent to the ground
8. Post-Flight Checklist (With Deployment)
Hold parachute by the lines and fold canopy to prevent wind from inadvertently
inflating the parachute
Turn off PRS-M300 Turn off DJI M300 RTK Disconnect PRS-M300 and bracket from
the DJI M300 RTK Verify that no components are missing
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PRS-M300 USER MANUAL FOR DJI M300 RTK
Maintenance & Care
Maintenance and inspection intervals of the AVSS PRS-M300 are required to
maximize the safety of each flight and ensure proper functionality for
parachute deployment whenever it may be required. The PRS-M300’s Electronic
Module is expected to reliably function for several parachute deployments so
long as no damage is imparted to the module. The PRS-M300’s Parachute PodTM is
intended as a single-use item that can be quickly removed and replaced in the
field; however, the PRS-M300 must be repacked in 18 month intervals.
1. Post-Flight (Monthly)
1. Visually inspect the PRS-M300 to ensure there is no damage 2. Test the
receptacles on the Electronic Module and Parachute PodTM 3. Test the manual
triggering device
2. Transportation
1. Always transport in a secure storage case
3. Storage
1. Always ensure the power is off 2. Make sure the unit is clean and dry
before putting in the case
4. Extended Storage Considerations
1. Store in a dry room, that is room temperature 2. Uninstall the AVSS
PRS-M300 assembly down to the following separate components:
a. PRS-M300 Electronic Module b. PRS-M300 Parachute Pod 3. Visually inspect
the electrical connectors located on both the Electrical Module and the
Parachute Pod. Check against signs of corrosion, dust/dirt buildup, wear, or
any other types of abnormalities. Clean electrical contacts with rubbing
alcohol and cotton swabs if necessary. 4. Inspect the Main Parachute and
harness lines for: a. Signs of moisture such as standing water or mold b.
Tears, rips, fraying and other signs of wear and damage 5. If any of the above
defects are present during the annual inspection, contact AVSS for further
information.
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PRS-M300 USER MANUAL FOR DJI M300 RTK
Frequently Asked Questions
1
How do I register my PRS-M300?
Go to https://www.avss.co/products/productregistration/
2
When does the ATS Arm?
43 meters
3
When does the Manual Triggering Device Arm?
By the pilot initializing the manual triggering device through the “arm” button
The ATS disarms when the DJI M300 RTK is within 5
4
When does the PRS-M300 return to a standby state?
meters of the ground. If this sensor is not available then the ATS will disarm
after landing for 5 to 10
seconds and then the user will receive audio
feedback that it has returned to the standby state
5
How many files can the microSD card hold?
Erase microSD card files after 200 flights
6
How do I check the power level on the electronic module?
Push the blue Sync button, located behind the microSD dust cap on the
electronic module, on the
PRS-M300 to check the power level
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PRS-M300 USER MANUAL FOR DJI M300 RTK
Parachute PodTM Deployment Procedures
The Parachute PodTM must be repacked every 18 months. To return a used and/or
unused Parachute PodTM, an end-user may do so by sending the Parachute PodTM
directly to AVSS or by returning the Parachute PodTM to their Authorized
Dealer.
Sending to AVSS:
· Before sending the Parachute PodTM to AVSS, contact customersupport@avss.co
to request a shipping label.
· If you are purchasing a new Parachute PodTM, AVSS will send you a purchase
link for a replacement Parachute PodTM, plus deposit.
· Once fully paid, AVSS will then send you the replacement Parachute PodTM. ·
To return your Parachute PodTM and receive your deposit, utilize the same box
with the
provided shipping label to send the Parachute PodTM to AVSS. · Once AVSS
receives the Parachute PodTM and completes the visual inspection, you will be
notified and will receive your deposit within fourteen business days.
Sending to an Authorized Dealer:
· Contact your Authorized Dealer to notify them that you will be returning
and/or requesting a new Parachute PodTM
· If you are purchasing a new Parachute PodTM, the Authorized Dealer will
either send you a purchase link for a replacement Parachute PodTM, plus
deposit, or accept payment at their physical location.
· Once fully paid and your Parachute PodTM has been returned, the Authorized
Dealer will then send you or directly provide you with the replacement
Parachute PodTM.
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PRS-M300 USER MANUAL FOR DJI M300 RTK
Customer Support
Email: Telephone:
customersupport@avss.co Monday to Friday, excluding holidays 10:00 am Est to 4:00 pm Est +1-844-852-0665
© 2023 AVSS ALL RIGHTS RESERVED
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Appendix A: DJI M300 RTK & Payload References
Drone / Payload
Date
Link
DJI M300 RTK
2020-09-01
https://dl.djicdn.com/downloads/M300/20181120R/Matrice_200_Us er_Manual_v1.4_EN.pdf
DJI H20
2020-09-01 https://www.dji.com/ca/zenmuse-h20-series/specs
DJI H20T U10 Methane Wingsland Z15 Zenmuse XT Zenmuse XT 2 Zenmuse Z30
2020-09-01 2019-10-09 2019-09-16 2016-07-11 2018-05-11 2018-10-08
https://www.dji.com/ca/zenmuse-h20-series/specs
https://terra-
1g.djicdn.com/851d20f7b9f64838a34cd02351370894/others/ENa5_U10%20Gas%20Detector_en_format_191009.pdf
https://terra-1g.djicdn.com/851d20f7b9f64838a34cd02351370894/others/Z15_Spot
light_en.pdf
https://dl.djicdn.com/downloads/zenmuse_xt/en/Zenmuse_XT_User_
Manual_V1.2_en0708.pdf
https://dl.djicdn.com/downloads/Zenmuse%20XT%202/Zenmuse%20
XT%202%20User%20Manual%20v1.0.pdf
https://dl.djicdn.com/downloads/zenmuse_z30/20180810/Z30_User_ Manual_EN.pdf
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PRS-M300 USER MANUAL FOR DJI M300 RTK
Appendix B: IMU Calibration Instructions
A red flashing LED and a beeping sound coming from the PRS-M300 indicates that
the IMU must be calibrated. There are two methods of calibrating the IMU on
the PRS-M300, either by placing the PRSM300 in the travel box or keeping the
PRS-M300 on the drone. The preferred method is in the box; however, if the box
cannot be located, performing the calibration on the drone is acceptable.
PRS-M300 IMU Calibration in the box
Step 1
Remove the PRS-M300 from the brackets on the drone, but do not remove the module from the base plate.
Step 2
Turn the PRS-M300 on and lay it on the PRS box, keeping it stationary for a couple of seconds until the LED flashes red and the PRS-M300 starts beeping.
Step 3
Place the PRS-M300 in its position in the PRS-M300 box.
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PRS-M300 USER MANUAL FOR DJI M300 RTK
Step 4 Close the box.
Step 5
Rotate the box 90 degrees towards the latched end and allow the box to stand on this end for 5 seconds.
Step 6
Rotate the box 90 degrees in the opposite direction and allow it to stand on this end for 5 seconds.
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PRS-M300 USER MANUAL FOR DJI M300 RTK
Step 7
Bring the box back to the original position and rotate it to the right side 90 degrees and wait for 5 seconds.
Step 8
Bring the box back to the original position and rotate it to the left side 90 degrees and wait for 5 seconds.
Step 9
Bring the box back to the original position and leave it stationary for 20 seconds.
Step 10
If the calibration is successful three beeps If the calibration is unsuccessful the LED
will start from the PRS-M300 and the PRS will continue to flash and the beeping will
will auto shutdown in 5 seconds.
sound, go back to step 2 and re-calibrate.
If the calibration is successful, the PRS LED will flash pink and blue, and
the module is ready to fly.
If the travel box cannot be found and calibration is needed, then use the
following method on the drone.
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PRS-M300 USER MANUAL FOR DJI M300 RTK
PRS-M300 IMU Calibration on the Drone
Step 1
Remove the props from the drone and keep it on a level surface.
Step 2
Turn on the PRS-M300. The PRS-M300 should be beeping and flashing red
Step 3
Tilt the drone backward 90 degrees. Hold steady for 5 seconds.
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PRS-M300 USER MANUAL FOR DJI M300 RTK
Step 4
Bring the drone back to level and then tilt it forward 90 degrees. Hold steady for 5 seconds.
Step 5
Bring the drone back to level and then tilt it towards the right 90 degrees. Hold steady for 5 seconds.
Step 6
Bring the drone back to level and then tilt it towards the opposite side 90 degrees. Hold steady for 5 seconds.
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PRS-M300 USER MANUAL FOR DJI M300 RTK
Step 7
Bring the drone back to level and leave it for 20 seconds.
Step 10
If the calibration is successful three beeps will start from the PRS-M300 and the PRS-M300 will auto shutdown in 5 seconds.
If the calibration is unsuccessful the LED will continue to flash and the beeping will sound, go back to step 2 and re-calibrate.
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PRS-M300 USER MANUAL FOR DJI M300 RTK
Appendix C: New Features & Information
1. Pre-Flight FTS Check
The PRS-M300 allows for a pre-flight FTS check on the ground for the DJI M300 RTK. This pre-flight check is only enabled on the ground with the motors initially disarmed. This PRS-M300 mode is only enabled for 1 minute, after which the PRS-M300 will auto shutdown and must be restarted.
FTS Pre-flight testing on PRS-M300
Step 1
Turn On the DJI remote and M300
RTK
Connect the FTS module to the drone and the PRS-M300 and turn on the drone remote controller and then the drone.
Step 2 Step 3
Turn on Remote
Turn on the manual remote by holding the power button. The LED on the top of the remote should turn GREEN.
FTS mode
Hold down the sync button and press the arm button at least 3 times quickly. Keep the sync button held. The LED on the remote and PRS should now be blue. The remote should say “FTS” repeatedly. The PRS-M300 and remote are now in “FTS mode”.
Step 4
Turn Drone motors on
Stay clear of the propellers of the drone and, when safe to do so, start the drone’s motors.
Step 5
FTS Test
To trigger the FTS press the ARM button on the Manual Remote once.
Step 6
Automatic shutdown
After the motors have stopped, the PRS-M300 will automatically shut down, and the Manual Remote will reset. The parachute cannot deploy on the ground and the Red button on the Manual Remote will not be functional in FTS mode.
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PRS-M300 USER MANUAL FOR DJI M300 RTK
Step 7
Back to Normal Operation
After the FTS test, power off the drone and turn it back on. Ensure that both the manual remote and PRS-M300 have a GREEN LED.
Step 8
Arm the Manual Remote
Arm the Manual Remote and the PRS-M300 is now ready to fly.
The PRS-M300 will automatically shut down after 1 minute if the FTS is not triggered in FTS-mode. If the PRS-M300 is manually restarted before the FTS is triggered or before the timeout then the remote may still be in FTS mode. The remote will also reset after 1 minute of being in FTS mode. This is to prevent any flights in this mode.
2. Ground Risk Buffer Calculator
The table below provides a method to calculate the ground risk buffer zone for your operation according to the Specific Operation Risk Assessment. The rows that are not highlighted are example values.
Ground Risk Buffer T human latency + system latency V1 Drone Speed W Wind Speed A Max altitude DR Descent Rate D1 TV1 D2 1.1W*A/DR GRB Ground Risk Buffer = D1 + D2
3s 5 m/s 3 m/s 80 m 3.54 m/s 15 m 74.6 m 89.6 m
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