Enhancing Action Camera Mounting Solutions: Introducing BandoProof 2 Flex Angle Horizontal Cam Mount
Introduction
Welcome to our comprehensive guide on the BandoProof 2 Flex Angle Horizontal Cam Mount, your ultimate solution for securing action cameras in various environments. In this article, we delve into the features, benefits, and applications of this innovative mounting accessory, designed to elevate your filming experience to new heights.
Understanding the BandoProof 2 Flex Angle Horizontal Cam Mount
The BandoProof 2 Flex Angle Horizontal Cam Mount is meticulously engineered to provide unparalleled flexibility and stability for action cameras. Its robust construction ensures durability, while its unique design offers versatility in mounting options. With adjustable angles and secure locking mechanisms, this mount enables users to capture dynamic footage from diverse perspectives.
Key Features
1. Flexibility:
The BandoProof 2 Flex Angle Horizontal Cam Mount boasts a flexible design, allowing users to adjust the angle of their action camera with precision. Whether capturing fast-paced sports or scenic landscapes, this mount ensures optimal positioning for stunning footage.
2. Durability:
Crafted from high-quality materials, including reinforced plastics and corrosion-resistant metals, the BandoProof 2 Flex Angle Horizontal Cam Mount is built to withstand the rigors of outdoor adventures. Its sturdy construction provides peace of mind, knowing that your camera is securely mounted in any environment.
3. Compatibility:
Designed to accommodate a wide range of action cameras, including GoPro, DJI Osmo Action, and more, the BandoProof 2 Flex Angle Horizontal Cam Mount offers universal compatibility. Whether you’re using a compact action camera or a larger DSLR setup, this mount ensures a snug and secure fit.
4. Ease of Use:
With its intuitive design and user-friendly features, the BandoProof 2 Flex Angle Horizontal Cam Mount simplifies the mounting process. Quick-release mechanisms and tool-free adjustments make setup and repositioning effortless, allowing you to focus on capturing the perfect shot.
Applications
The versatility of the BandoProof 2 Flex Angle Horizontal Cam Mount makes it ideal for a wide range of applications, including:
- Action Sports: Capture adrenaline-fueled moments with confidence, knowing that your camera is securely mounted.
- Travel and Adventure: Document your travels and outdoor adventures from unique perspectives, enhancing your storytelling.
- Filmmaking and Photography: Expand your creative possibilities with dynamic camera angles and smooth footage.
Bandoproof 2 FPV drone mount
DJI Action3-4 🚀
Please read this description and the printer info below carefully. If you have any questions please contact me on my Instagram @yannik.fpv or send me an email: Yannik.fpv@gmail.com
❗️ Even if the mount is called “Bandoproof” and is designed as thoughtfully as possible, it does not protect the cam from every external influence. Too hard crashes and tolerances on the part of DJI can still lead to a defective cam – nevertheless I think we have the best FPV drone mount.
Compatibility: The mount is designed for the DJI Action4 (and do also fit the Action3)
The FlexAngle mount is compatible with all “Universal” or “GoPro adapters”. But it works best with my Bandoproof frame adapters – just have a look here.
🗃 The download includes:
The horizontal mount with FlexAngle/Universal Adapter-Feets
💥 Additional Screen-Protector: I have designed a screen protector for this mount that additionally protects the front screen. This can simply be clicked into the mount. Just have a look here. You will find all the information there.
😎 ND-Filter:
I recommend the use of TBS-ND filters with this mount. The mount is also compatible with the CameraButter BlackDiamond filters. If Screw-On ND filters are used (which replace the actual lens cover), they must not be larger (32mm x 32mm). I highly recommend the use of slide-in ND filters as they provide additional protection for the cam and are significantly cheaper to purchase and replace.
⚙️ Supported exposure settings:
The mount can of course be flown with all camera settings. Under certain conditions, the mount can be seen in the corners:
4:3 + Wide + Hypersmooth:off -> slightly visible
16:9 + SuperWide + Hypersmooth:off -> slightly visible
->As long as you are using ANY ND the mount shouldn’t be in view at all.
With all other setting combinations, the mount is not visible
3D Printing Service (TPU) Specifications and Features:
TPU (Thermoplastic polyurethane) is a soft flexible material, Common uses for a material like TPU include, medical supplies, seals, automotive components, and household appliances, this is down to the material having a very flexible and elastic-like use. TPU has a melting point of 225 degrees to 235 degrees however 230 degrees is normally a stable temperature to print with. Another great advantage of this material is that it does not produce nasty emissions. Below are some key points when printing with TPU.
- Extremely flexible
- Lightweight
- Durable
- Non-soluble
- Heated bed required
Alright, let’s dive into the world of PID loop frequencies!
So, imagine you’re playing a really immersive video game. You press a button on your controller, and your character responds instantly on the screen, right? Now imagine if there was a delay between your button press and the character’s action. That would be a bummer, wouldn’t it?
Well, in the world of drones, we have a similar situation. The drone’s flight controller is constantly making adjustments to keep the drone flying smoothly. This happens through something called the PID loop, which stands for the Proportional, Integral, and Derivative loop.
The PID loop is like the brain of the drone. It takes information from the sensors, decides how the drone should respond, and then sends commands to the motors. This entire process happens repeatedly and at a very fast pace. The frequency at which this process repeats is known as the PID loop frequency. It’s like the frame rate in a video game – the higher the frame rate, the smoother the game looks.
Now, when we talk about 2K, 4K, and 8K PID loop frequencies, we’re talking about how many times per second this process happens. So, 2K means the PID loop runs 2000 times per second, 4K means it runs 4000 times per second, and 8K means it runs 8000 times per second. It’s like choosing between running, cycling, or driving – each one is faster than the last!
So, you might be thinking, “Well, obviously 8K is the best because it’s the fastest, right?” Not necessarily! Just like driving a car super fast isn’t always the best option (you could get a ticket or crash ), running your PID loop at super high frequencies isn’t always the best choice.
For one, it can make your flight controller work harder, which can lead to overheating. It can also make your ESC protocol more prone to errors, kind of like how a fast internet connection can sometimes be unstable.
So, it’s all about finding the right balance. Just like how you wouldn’t use a race car to go to the grocery store, you wouldn’t necessarily use an 8K PID loop frequency for a casual drone flight. It all depends on what you’re using your drone for.
I hope this helps to understand what PID loop frequencies are all about! If you have any more questions, feel free to ask. Happy droning!
Read More About Lipo Batteries by clicking the link below:
https://oscarliang.com/fpv-drone-guide/
Checkout our Frames Collection by clicking the link below:
https://thefpvproject.com/product-category/frames/
1S = 1 cell = 3.7V
2S = 2 cells = 7.4V
3S = 3 cells = 11.1V
4S = 4 cells = 14.8V
5S = 5 cells = 18.5V
6S = 6 cells = 22.2V
For example, we call a 14.8V battery a “4-cell” or “4S” battery.
LiPo battery is designed to operate within a safe voltage range, from 3V to 4.2V. Discharging below 3V could cause irreversible performance loss and even damage to the battery. Overcharging above 4.2V could be dangerous and eventually cause a fire.
However, it’s advisable to stop discharging when it reaches 3.5V for battery health reasons. For example for a 3S Lipo, the max voltage is 12.6V, and you should land when the voltage reaches 10.5V (at 3.5V per cell).
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