Difference between duty cycle, frequency and pulse width explanation, pulse width vs frequency.




Duty cycle

Duty cycle refers to the amount of time that a signal is in a particular state (such as “on”) relative to the period of the signal. For example, if a signal has a duty cycle of 50%, that means that it is in the “on” state for half of the time period, and in the “off” state for the other half of the time period.

The duty cycle of a pulse waveform is a measure of the time that the signal is in a particular state (either high or low) relative to the total period of the waveform. It is usually expressed as a percentage. For example, a duty cycle of 50% means that the signal is in the high state for half of the period of the waveform, and in the low state for the other half.

Pulse width vs frequency.




Frequency

Frequency

Frequency refers to the number of times that a particular event occurs within a given time period. For example, if a signal has a frequency of 10 Hz, that means that the event (such as the signal turning “on” or “off”) occurs 10 times per second.

The frequency of a pulse waveform is a measure of how many times the waveform repeats itself in a given period of time. It is usually expressed in Hertz (Hz), which is the number of cycles per second. For example, a frequency of 1 Hz means that the waveform repeats itself once per second.

Pulse width

Pulse width

Pulse width refers to the duration of time that a signal is in a particular state. For example, if a signal has a pulse width of 5 microseconds, that means that the signal is in the “on” state for 5 microseconds before switching to the “off” state.

Pulse width is a measure of the duration of a pulse in a pulse train, or the amount of time that the pulse is in the high state. It is usually expressed in units of time, such as seconds or milliseconds. For example, a pulse with a width of 1 millisecond is high for 1 millisecond, and then low for the remainder of the period.

It is important to note that these terms are often used in the context of electrical signals, but they can also be applied to other types of signals as well.

In summary, the duty cycle is a measure of the time that the signal is in a particular state, the frequency is a measure of how many times the waveform repeats itself in a given period of time, and the pulse width is a measure of the duration of a pulse.

Book: The Energy Machine of Joseph Newman 1984

You can buy this book via Amazon:
https://www.amazon.com/gp/search/ref=as_li_qf_sp_sr_tl?ie=UTF8&tag=vmp02-20&keywords=The Energy Machine of Joseph Newman&index=aps&camp=1789&creative=9325&linkCode=ur2&linkId=6faa30b62a6360698e6507eb6a1ed82a

Pdf download:
Book:
The Energy Machine of Joseph Newman 1984 pdf
by Joseph Westley Newman

The Energy Machine Of Joseph Newman 8th Edition pdf

Title: Unveiling the Free Energy Machine of Joseph Newman: Revolutionizing Energy Generation

Introduction: In the realm of alternative energy, Joseph Newman stands as a pioneer whose work continues to captivate the imagination of both scientists and enthusiasts alike. His book, “The Free Energy Machine,” delves into his revolutionary invention, which promises to harness unlimited and sustainable energy. In this article, we will explore the key concepts of Newman’s invention, shedding light on its potential implications for the future of energy generation.

Summary: “The Free Energy Machine” by Joseph Newman unveils a groundbreaking invention that challenges conventional wisdom regarding energy generation. Newman proposes an innovative approach that taps into the vast resources of free energy available in the universe. His device, based on the principles of electromagnetic induction, offers a potentially limitless supply of energy without requiring traditional fuel sources.

Newman’s invention centers around a motor design that utilizes magnets and electromagnetic coils. By arranging these components in a specific configuration, he claims to achieve a self-sustaining system capable of generating more energy than it consumes. This excess energy, often referred to as “overunity,” challenges the laws of thermodynamics but has been the subject of ongoing debate and controversy.

The book outlines Newman’s journey and the challenges he faced while developing his free energy machine. It delves into the technical aspects of his invention, explaining the interplay between magnets, coils, and rotational forces. Newman’s claims of achieving an energy output greater than input have garnered attention and skepticism in equal measure.

Although Newman’s work has faced skepticism from the scientific community, his book presents detailed experiments and testimonies from witnesses who claim to have witnessed the device in action. He shares anecdotes of successful demonstrations and provides insights into the potential applications of his invention, from powering homes to revolutionizing transportation systems.

Newman’s vision goes beyond the mere creation of a working prototype. He envisions a world where his invention liberates humanity from the dependence on finite resources, providing a clean and abundant source of energy. If his claims are validated, the implications would be far-reaching, touching on areas such as environmental sustainability, economic development, and global energy security.

Conclusion: Joseph Newman’s book, “The Free Energy Machine,” introduces an intriguing and controversial concept that challenges established notions of energy generation. While his claims of harnessing unlimited and sustainable energy have faced scrutiny, his work has sparked curiosity and debate within scientific and alternative energy communities.

As we strive to address the pressing issues of climate change and energy scarcity, exploring innovative solutions becomes crucial. Newman’s free energy machine offers a unique perspective, demanding further research and investigation to determine its true potential. Whether the device will ultimately revolutionize energy generation remains uncertain, but its impact on stimulating conversations about the future of sustainable power is undeniable.

Reason to buy the book:
Title: Discover the Free Energy Machine: Why You Should Invest in Joseph Newman’s Book

Introduction: In a world driven by the quest for alternative energy sources, Joseph Newman’s book, “The Free Energy Machine,” emerges as a captivating and thought-provoking work. If you are intrigued by the possibilities of limitless and sustainable energy, investing in this book can provide you with a wealth of knowledge and insights. In this article, we will explore the reasons why individuals interested in alternative energy should consider purchasing Joseph Newman’s book.

  1. Unveiling a Paradigm-Shifting Invention: “The Free Energy Machine” offers a unique opportunity to delve into the mind of an inventor who challenges established beliefs about energy generation. Newman’s invention, if proven successful, could revolutionize the way we power our world. By purchasing this book, you gain access to detailed explanations, diagrams, and firsthand accounts that illuminate the inner workings of Newman’s revolutionary device.
  2. Expanding Your Understanding of Alternative Energy: For individuals passionate about renewable and sustainable energy, Joseph Newman’s book presents a fascinating addition to your knowledge base. By exploring the concepts and principles behind Newman’s invention, you can broaden your understanding of alternative energy sources, electromagnetic induction, and the potential for overunity. This expanded awareness may inspire further research or spark your own innovative ideas.
  3. Insight into an Inventor’s Journey: Beyond the technical aspects, “The Free Energy Machine” offers a glimpse into Joseph Newman’s personal journey as an inventor. The book documents the challenges he faced, the skepticism he encountered, and the determination that drove him forward. Through his story, you gain valuable insights into the mindset and perseverance required to challenge established norms and pursue groundbreaking ideas.
  4. Engaging in the Controversy and Debate: The claims made by Joseph Newman in his book have generated significant controversy and skepticism within the scientific community. By purchasing this book, you become part of an ongoing discussion surrounding the possibility of free energy and the validity of Newman’s invention. You can examine the arguments for and against his work, developing a nuanced perspective on the challenges and potential of alternative energy research.
  5. Stimulating Curiosity and Imagination: “The Free Energy Machine” fuels curiosity and imagination, inviting readers to ponder the possibilities of a world powered by limitless energy. By engaging with Newman’s ideas and concepts, you tap into the creative and innovative spirit that drives scientific progress. This book can inspire individuals from various backgrounds to explore alternative energy, contribute to the field, or engage in interdisciplinary discussions.

Conclusion: Investing in Joseph Newman’s book, “The Free Energy Machine,” offers an opportunity to embark on a fascinating journey into the realm of alternative energy. By purchasing this book, you gain access to the insights, experiments, and ideas behind Newman’s groundbreaking invention. Whether you are a scientist, engineer, student, or simply an enthusiast interested in sustainable energy, this book provides a gateway to expanding your knowledge, engaging in important debates, and igniting your imagination.

About Joseph Newman and his Book.

Joseph Newman is an inventor known for his work on the concept of a free energy machine. His book, “The Free Energy Machine,” explores his revolutionary invention and its potential implications for energy generation.

Newman’s invention centers around a motor design that utilizes magnets and electromagnetic coils. He claims that by arranging these components in a specific configuration, his machine can achieve a self-sustaining system capable of generating more energy than it consumes, known as “overunity.”

“The Free Energy Machine” provides detailed explanations, diagrams, and experiments to support Newman’s claims. The book also shares anecdotes and testimonies from witnesses who claim to have witnessed successful demonstrations of the device.

However, Newman’s work has faced skepticism and controversy within the scientific community. The claims of achieving overunity and violating the laws of thermodynamics have been met with scrutiny. The book engages in the ongoing debate surrounding the validity and feasibility of Newman’s invention.

Beyond the technical aspects, the book offers insights into Newman’s personal journey as an inventor, including the challenges he faced and the determination that drove him forward.

“The Free Energy Machine” serves as a resource for individuals interested in alternative energy sources, electromagnetic induction, and the possibilities of limitless and sustainable energy. It sparks curiosity, imagination, and discussions about the future of energy generation.

While the ultimate impact and validation of Newman’s invention are still uncertain, investing in his book provides readers with a deeper understanding of his ideas and contributions to the field of alternative energy research.

How to print large A3 poster with A4 size paper, print with no margin in Adobe Acrobat

In Adobe Acrobat,
1. File->print.
2. Select the ‘poster’ button.
3. fill in the sclae.
4. Select the standing or portret printing option.

Print posters and banners using Acrobat or Reader
https://helpx.adobe.com/acrobat/kb/print-posters-banners-acrobat-reader.html

How to avoid Margin:

1. Open Adobe Acrobat

2. Clikc on document

3. Remove white margins’

4. Choose ‘all’ papers’ then Clik ok.

Tile printing without borders?
https://forums.adobe.com/thread/829713

How to Get Rid of White Border in Adobe Acrobat
http://smallbusiness.chron.com/rid-white-border-acrobat-49228.html

Posters en banners afdrukken met Acrobat of Reader programma
https://helpx.adobe.com/nl/acrobat/kb/print-posters-banners-acrobat-reader.html

Control PC fan speed with Asus Fan control FanXpert

You can find the software at the Asus website:

Select your operation system.

Under ‘Utilities’
https://www.asus.com/support/Download/1/39/4/67/rQkjulQm5y2qHcHK/30/

Install the Packaged named: AISuiteII_XPVistaWin7-8-8-1_H61M-Series_V20102.zip

Additionally the package includes :
ASUSUpdate – update software from Asus
Network_iControl – Network software
Probe_II – Motherboard sensor monitor software
Matrix_1.03.02
Mylogo

 

Installing 802.11 n USB Wireless Network Wifi Adapter

installing_802-11_n_usb-wireless-network-wifi-adapterInstalling 802.11 n USB Wireless Network Wifi Adapter

You can buy the adapter via  Amazon via the link below for the cheapest price, via affiliate link:
Amazon/USB-Wi-Fi-Network-Adapters-Dongles/

‘Driver for Windows 7 64 bit:
IS_Setup_ICS_081414_1.5.38.101.exe

To use the adapter:
There are many software for using the wifi adapter.
For example:  Virtual Router – Wifi Hot Spot for Windows 8, Windows 7 and 2008 R2

Or Asus software:
Using the AP Mode for transmitting wifi signal as hotspot.

AP mode allows you to set your system as an access point for another wireless-enabled devices.To use AP mode, click AP Mode on the Wi-Fi Engine menu.asus-ai-suite-wifi-engine

  1. If you have Asus motherboard, you can use this link: https://www.asus.com/nl/Motherboards/P8Z77V_PRO/HelpDesk_Download/
    Choose your PC operation system and download the ASUS AI Suite II V2.01.01, from under ‘Utility’ section. For example the ‘ASUS AI Suite II V2.01.01 Install Program for Windows XP/7/8 32bit & 64bit.
  2. Open Asus AI suite program. Via the icon on the task bar below or via programs.
    asus-ai-suite-wifi-engine-ap-mode
    1. Click to go back to previous screen
    2. Click to select a network
    3. Key in a network name
    4. Key in your password
    5. Key in your password for confirmation
    6. Click to disable AP mode
    7. Click to enable AP mode

More info about the adapter:

Product Name:USB Wireless Lan 802.11N with antenna
Model No.: SY-1506N
Product Abstract:
Interface USB 2.0 Standards IEEE 802.11b/g/n Data Transfer Rates 11/54/135/150Mbps Antenna Type on board Antenna
Product Description
Wireless-N USB 2.0 Adapter allows you to connect your laptop or desktop to any Wireless-N networks in your home or office. The Wireless-N (802.11n) USB 2.0 Adapter is great for those who want to upgrade older computers to be able to access the internet over a Wireless-N network.

At 5 times faster than traditional Wireless-G (802.11b) networks, Wireless-N networks allow for high speed data transfers, online gaming, and lightning fast downloads. The Wireless-N USB 2.0 Adapter gives you access to all the high-speed features of Wireless-N networks on older and newer computers. Its simple and easy setup means you’ll be surfing the internet, downloading movies, and e-mail in no time.

Wireless Standards
IEEE 802.11n (draft)
IEEE 802.11g
IEEE 802.11b
Host Interface
High speed USB2.0/1.1 interface
Data Rate
802.11n: up to 150Mbps (downlink) and 150Mbps (uplink)
802.11g: 54 / 48 / 36 / 24 / 18/ 12 / 9 / 6 Mbps auto fallback
802.11b: 11 / 5.5 / 2 / 1 Mbps auto fallback
Frequency Band
2.4GHz ISM (Industrial Scientific Medical) Band
Chipset
Ralink
RF Frequency
2412 ~ 2462 MHz (North America)
2412 ~ 2472 MHz (Europe)
2412 ~ 2484 MHz (Japan)
Radio Channel
1 ~ 14 channels (Universal Domain Selection)
Range Coverage
Up to 3 times farther range than 802.11g
Antenna type
Integrated Antenna
Roaming
Full mobility and seamless roaming from cell to cell
RF Output Power
13 ~17 dBm (Typical)
Modulation
11n: BPSK, QPSK, 16QAM, 64QAM with OFDM
11g: BPSK, QPSK, 16QAM, 64QAM, OFDM
11b: DQPSK, DBPSK, DSSS, CCK
Data Security
64/128-bit WEP Encryption
WPA, WPA-PSK, WPA2, WPA2-PSK. TKIP/AES
Network
Auto-switch to use 802.11n or 802.11g or 802.11b mode
Supports Ad-Hoc, Infrastructure WLAN network
Wireless roaming
Data rate auto fall-back under noisy environment or longer range distance
Site Survey with Profile function
Configuration & Management
Plug-and-Play setup and installation
Management Utility supports 2000 / XP/ Vista
Media Access Control
CSMA/CA with ACK
LED Indicator
Link/Active ( Green )
Operating System
Windows 2000, XP 32/64-bit, Vista 32/64-bit,
Linux and MAC OS X
Environment
Operating Temperature: 0oC to 40oC
Storage Temperature: -20oC to 75oC
Operating Humidity: 10% ~ 90% (Non Condensing)
Storage Humidity: 5% ~ 95% (Non Condensing)
Compliant
FCC (USA)
CE Mark (Europe)
RoHS Compliant
Wi-Fi Compliant

Operating System
Windows 2000, XP, Vista, Win7, Linux and MAC OS X
Available USB 2.0 port
Seamlessly compatible with 802.11b/g/n devices
Equipped with an elegant and stylish USB Cradle for flexible deployment

To install a 802.11n USB wireless network adapter, you will need to follow these steps:

Insert the adapter into an available USB port on your computer.
Wait for the device to be recognized by the operating system. This may take a few minutes.
If the device is not recognized automatically, you may need to install the driver software that came with the adapter. This can usually be done by inserting the installation CD or downloading the drivers from the manufacturer’s website.
Once the drivers are installed, you should be able to see the wireless adapter listed in the Network Connections control panel or in the system tray.
Connect to a wireless network by clicking on the wireless icon in the system tray and selecting the network you want to join. If the network is password-protected, you will need to enter the password to connect.
If you encounter any issues during the installation process, you may want to refer to the documentation that came with the adapter or contact the manufacturer for assistance.

IEEE 802.11n is a wireless networking standard that was designed to improve upon the previous 802.11 standards by providing higher data rates and longer range. It operates in the 2.4 GHz and 5 GHz frequency bands and uses multiple-input multiple-output (MIMO) technology, which utilizes multiple antennas to improve signal strength and reliability.

802.11n was introduced in 2007 and has since become the most widely used wireless networking standard, providing faster and more reliable wireless connections than its predecessor, 802.11g. It has a maximum data rate of up to 600 megabits per second (Mbps), which is much faster than the 54 Mbps maximum rate of 802.11g.

Although 802.11n has been succeeded by newer standards such as 802.11ac and 802.11ax, it is still widely used and supported by many devices. If you have a device that supports 802.11n, you should be able to connect to wireless networks that use this standard and enjoy faster and more reliable wireless connectivity.

Further installation:

  1. Connect the adapter: Insert the 802.11 USB wireless network Wi-Fi adapter into an available USB port on your computer. Ensure a secure connection.
  2. Install drivers: Depending on your operating system, the drivers may be automatically installed or require manual installation.
    • Windows: Windows will typically detect the adapter and attempt to install the drivers automatically. If it fails to do so, use the installation disc provided with the adapter or visit the manufacturer’s website to download the latest drivers. Follow the on-screen instructions to complete the installation.
    • macOS: macOS usually has built-in drivers for many popular Wi-Fi adapters. Connect the adapter and check if it is detected and activated. If not, visit the manufacturer’s website to download the necessary drivers or software. Follow the manufacturer’s instructions for installation.
    • Linux: Linux distributions often have extensive driver support. If the adapter is not natively supported, search online for Linux drivers specific to your adapter model. Community forums and online assistance can also help you find compatible drivers and installation instructions.
  3. Configure the adapter: Once the drivers are installed, you may need to configure the adapter settings. This typically involves connecting to an available Wi-Fi network by entering the network name (SSID) and password. Access the adapter’s settings through the operating system’s network settings or dedicated software provided by the manufacturer.
  4. Test the connection: After configuring the adapter, test the connection to ensure it is working properly. Try accessing websites or performing other network-related tasks to verify that the Wi-Fi adapter is functioning correctly.

Note: The installation process may vary depending on your adapter’s make and model. Refer to the product documentation or the manufacturer’s website for detailed, adapter-specific instructions.

Keep your adapter’s drivers and software up to date by regularly checking for updates from the manufacturer. Updates can improve performance and address any issues that may arise.

Inspire 2 introducing DJI Inspire 2 Drone

inspire2-dji-inspire23

https://www.youtube.com/watch?v=XBHuftMcmis

The Inspire 2 takes everything that was good about the Inspire 1 and improves it. An all-new image processing system records at up to 5.2K in CinemaDNG RAW, Apple ProRes and more. It goes from 0 to 50mph (80kph) in just 4 seconds and hits a maximum speed of 67mph (108kph) and has a max descent speed of 9m/s for unheard of speed and agility in an aircraft this size. A  ual battery system prolongs the flight time to a maximum of 27 minutes (with an X4S), while self-heating technology allows it to fly even in low temperatures. FlightAutonomy has been revised and developed specifically for the Inspire 2, providing two directions of obstacle avoidance and sensor redundancy. Increased intelligence adds multiple intelligent flight modes, including Spotlight Pro, giving even single pilots the ability to create complex, dramatic shots. An upgraded video transmission system is now capable of dual signal frequency and dual channel, streaming video from an onboard FPV camera and the main camera simultaneously, for better pilot and camera operator collaboration.

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STRUCTURE:
Magnesium aluminum composite shell and transforming design, carbon
fiber arms

CONFIGURATION:
Vision sensing, 2-axis FPV camera, range of supported cameras

PROPULSION:
67mph (108kph) max speed, 2kg thrust per rotor, 15in props, maximum
27min flight time (with X4S).

BATTERY:
Dual battery, self-heating, battery redundancy, 98Wh

inspire2-dji-inspire220

IMAGE PROCESSING:
Image Processing and storage: 5.2KC04.2Gbps RAW video recording,
CineCore 2.0, integrated DJI CINESSD.
VIDEO FORMAT:
CinemaDNG and Apple ProRes 5.2K video support, H.265 and H.264 video
codec support, 4K video at 100Mbps.
Recorded video can be stored simultaneously on the DJI CINESSD and a
Micro-SD card.
FILE SYSTEM:
FAT32/exFAT universal file system.

73b859cf-cea6-42fd-a48c-f23f22eb21ae
• Signal frequency switching between 2.4 GHz and 5.8 GHz. Lightbridge
technology.
• Controllable range: 4.3mi (7km)*
• Master-slave mode: Multiple slave controllers supported
• Ports: Extension port, HDMI port, USB port
*Unobstructed, free of interference, when FCC compliant.

 

inspire2-dji-inspire218

PROFESSIONAL IMAGE QUALITY

Integrated into the Inspire 2 is the brand new CineCore 2.0 image
processing system, capable of recording 5.2K videos in
CinemaDNG1, Apple ProRes2 and more. CineCore 2.0 is built into
the aircraft nose and works with any camera connected through
the dedicated gimbal port.
(Currently compatible with X4S3 and X5S).

inspire2-dji-inspire221

5.2K 0fps 20fps
4K 6Ofps CinemaDNG continuous burs

3DNR Apple ProRes 3DLUT

H.265 H.264
100Mbps Ply 100Mbps
NVMe SSD Oversampling FAT32/exFAT
PCIe 3.0 Video

CinemaDNG

5.2K (5280’4’2972, 16:9) 30fps 12bit, 4.2Gbps
4K (4096*2160, 17:9) 60fps lObit, 4.0Gbps

Apple ProRes

5.2K (5280*2160, 2.4:1) 30fps (422 HQ)
4K (3840*2160, 16:9) 30fps (4444 XQ, no alpha)
H.265/H.264

Built-in 3D noise reduction, 3DLUT color management tech-
nology, advanced sensor correction.
H.264/AVC BP/MP/HP Level 5.1: 4K 60fps, 100Mbps;
H.265 MP Level 5.1: 4K 30fps, 100Mbps;
Stills

JPEG/DNG/JPEG+DNG 14fps in burst 20.8 MP4
DNG 20Ips continuous burst 20.8 MPS
1, 2Additional licenses required
3 X4S does not support DNG RAW or Apple ProRes
4 Photos stored on Micro-SD card
5 Photos stored on DJI CINESSD

 

inspire2-dji-inspire29

EFFICIENT WORKFLOW

The Inspire 2 creative workflow has been completely optimized
and is now capable of recording video in CinemaDNG and Apple
ProRes, and other common formats for post-production in
filmmaking. Also supported are FAT32/exFAT* file systems, which
allow fast copying of files direct from the CINESSD without
additional software.
* Coming soon.

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SENSE AND AVOID
Forward and downward vision systems enable the Inspire 2 to detect
obstacles up to 30 meters ahead, allowing for protected flight at up

to 34mph (54kph) at a controllable attitude angle of 25′. Upward
facing infrared sensors scan obstacles 16.4ft (5m) above, adding
protection when flying in enclosed spaces. Obstacle sensing systems
are active during normal flight, RTH and all Intelligent Flight Modes.
These sensors are core components of the DJI FlightAutonomy
system, which brings the below intelligent features to the Inspire 2:

Upward Infrared Sensors
inspire2-dji-inspire223
inspire2-dji-inspire225
inspire2-dji-inspire25

Accurate indoor hovering and positioning
Automatic obstacle  avoidance during RTH 111. Terrain detection Accurate indoor
hovering and  positioning

Spotlight Pro
Spotlight Pro is a powerful tracking mode that allows even single
pilots to capture complex, dramatic images. It uses advanced
visual tracking algorithms to lock onto a subject during flight,
regardless of the direction that the Inspire 2 flies, creating shots
that would once have required a dedicated camera operator. If
the gimbal comes close to reaching its rotation limits, the Inspire
2 itself will rotate in the same direction without affecting flight
control or the shot being captured to free up gimbal movement.
It has two shooting modes, Quick Mode and Composition Mode.

In Quick Mode, select an object to begin tracking.
In Composition Mode, select the subject and the tracking
position. When the subject enters the preset tracking position,
press the shortcut to begin tracking. The gimbal can be moved
during shooting for composition adjustments.

Spotlight Pro is available in all Intelligent Flight Modes including
ActiveTrack, TapFly, Waypoint and Point of Interest.

13a02288-dcac-4909-aff0-0723d061168dinspire2-dji-inspire217

inspire2-dji-inspire219inspire2-dji-inspire28

INTELLIGENT FLIGHT MODES
In addition to Spotlight Prof a range of other intelligent flight and
shooting modes are available. Obstacle avoidance is optimized
when using Point of Interest* and Waypoint* modes, making
complex shots simple and repeatable. Also available are QuickSpin,
TapFly and ActiveTrack, to simplify challenging shots.
*Coming soon.

INTELLIGENT FLIGHT MODES
In addition to Spotlight Prof a range of other intelligent flight and
shooting modes are available. Obstacle avoidance is optimized
when using Point of Interest* and Waypoint* modes, making
complex shots simple and repeatable. Also available are QuickSpin,
TapFly and ActiveTrack, to simplify challenging shots.
*Coming soon.

76205a6d-cbcb-4e09-bb14-7c8778f95b78

Forward and downward vision systems allow the Inspire 2 to
create a real-time map of its flight route as it flies. If the video
transmission system signal is lost and Smart Return Home is
enabled, it is able to fly home along its original route, and change
to a straight line when it regains a signal. As it returns, it will use
the primary camera to identify obstacles as far as 200m in front,
allowing it to plan a safe route home. It is also able to reconnect
more quickly after losing connection,

 

inspire2-dji-inspire215

inspire2-dji-inspire224

OPTIMIZED TRANSMISSION
AND CONTROL SYSTEM

The latest update to DJI Lightbridge technology has an effective
transmission distance of up to 4.3mi (7km)* and is capable of
delivering both 1080p/720p video as well as the FPV view to pilot
and camera operator. Users can also switch between 2.4GHz and
5.8GHz** control frequencies to cut through noise for greater signal
stability.
*Unobstructed, free of interference, FCC compliant.
**5.8GHz transmission is not available in some regions due to local
regulations.

 

inspire2-dji-inspire211

MASTER AND SLAVE CONTROLLERS
A new wireless HD image transmission technology sends
video information from the master controller to the slave
controller and the two controllers can be up to 100m apart
without loss of image quality.

BROADCAST MODE
Broadcasters can broadcast direct from the Inspire 2 using its
dedicated 1080i50 and 720p60 transmission signal. Aerial live-
streaming direct to TV is as simple as connecting the Inspire 2
remote controller to the satellite truck.

POWERFUL FLIGHT
PERFORMANCE

inspire2-dji-inspire216

 

inspire2-dji-inspire21

A new propulsion system optimized for power creates a new level
of flight performance. The Inspire 2 flies at up to 67mph (10 kph)
descends at 9mis and climbs at 6m/s. It can accelerate from 0 to
50mph (80kph) in just four seconds and flies at a max attitude
angle of 40′.

The two controller sticks are tuned for more sensitivity, making
delicate maneuvers easier.

More power also allows the Inspire 2 to fly in more extreme
conditions, including over 2500-5000m above sea level (using
optional dedicated propellers), and in temperatures as low as -4°F
(-20″C) using self-heating Intelligent Flight Batteries.

inspire2-dji-inspire212

INCREASED RELIABILITY

Reliability has been further enhanced through dual redundancy of
key modules such as the IMU, compass and barometer_ The
intelligent flight control system monitors the redundancy system,
giving it accurate flight data.

The new obstacle sensing system helps the Inspire 2 sense and
avoid obstacles, minimizing the risk of collision_

Dual batteries mean that if a problem occurs on one battery the
other is able to continue flight long enough for a safe landing. At
the same time, the Inspire 2 propulsion system is driven a PWM
signal with serial port signal redundancy so that if PWM signals
are lost, transmission will continue through the serial port.

This propulsion system has been tested for thousands of hours to
ensure reliability, when combined with key sensors and a dual-
battery design, overall flight reliability is significantly enhanced.

inspire2-dji-inspire214

INCREASED RELIABILITY

Reliability has been further enhanced through dual redundancy of
key modules such as the IMU, compass and barometer_ The
intelligent flight control system monitors the redundancy system,
giving it accurate flight data.

The new obstacle sensing system helps the Inspire 2 sense and
avoid obstacles, minimizing the risk of collision_

Dual batteries mean that if a problem occurs on one battery the
other is able to continue flight long enough for a safe landing. At
the same time, the Inspire 2 propulsion system is driven a PWM
signal with serial port signal redundancy so that if PWM signals
are lost, transmission will continue through the serial port.

This propulsion system has been tested for thousands of hours to
ensure reliability, when combined with key sensors and a dual-
battery design, overall flight reliability is significantly enhanced.

The DJI CINESSD Station is used to connect the DJI CINESSD into
a computer for fast, efficient file transfer.

fa3ab63d-cf95-4a6c-a5e7-8c661278ecde

DJI LINE SD uses an NV 1e logical device interface
specification, features four PCI Express’ ports and supports
FAT32/exFAT2 file formats. It comes in both 120GB and
480GB. When using a 480GB LINE SD, the Inspire 2 can
record videos at write speeds of up to 4.2Gbps, providing
enough data to meet demanding filmmaking needs.

1 PCI Express 3.0
2Coming soon

 

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DJI License Key

CINEMADNG
ProRes
DJI License Keys allow CineCore 2.0 to record in CinerriaDNG and
Apple ProRes_ These are available for purchase separately and
allow the Zenmuse X5S camera to produce the exact file type
needed for individual post-production requirements.
*Maximum video resolution is subject to DJI CINESSD capacity.
Refer to the Licensing page for details.

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CrystalSky
A 5.5inch, 1000 cdim2 display, a 7.85inch 1000 cd/rn2 display and
a 7.85inch 2000 cd/rn2 display, are all designed by DJI to offer the
brightness and clarity needed when shooting outdoors. A
powerful video decoder integrated in these displays create
smooth video and integrated image enhancement increases
performance in bright environments. All these displays are
operational from -4°F (-20°C) to 104°F (40°C) and are made to
work with a replaceable external battery.

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DJI Focus
DJI Focus adds remote focus control to the Zenmuse X5S.

 

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BATTERY CHARGING STATION

An 800W Battery Charging Station charges up to eight Inspire 2
batteries. With additional space for storing four Intelligent Flight
Batteries and a standard battery charger. The Battery Charging
Station is also equipped with two USB charging ports.
*Coming soon
4G-LTE NETWORK CONNECTION

The Inspire 2 supports control over 4G. USB dangle and SDK
development required. This high bandwidth allows the Inspire
2 to transmit high quality videos to a network server or can be
used for ultra-long distance control. It also cuts video
transmission latency to 500ms.

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GROUND FILMING

An all-new handheld camera mount3 is compatible with the
Zenmuse X4S and the Zenmuse X5S, bringing these cameras
down to the ground for more flexible filmmaking.
*Coming soon

REMOTE CONTROLLER4 GPS
ACCESSORY
A CPS Accessory for the Remote Controller improves the accuracy
of the remote controller’ s positioning. Used with the Inspire 2′ s
Dynamic Home point function which constantly updates the latest
location of the remote controller as its Home point, it allows accurate Return to Home when moving around an environment.

*Coming soon

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