Introduction to the GEPRC TAKER F722 BLS 50A Stack
For FPV drone enthusiasts, the flight controller stack is the heart of their setup. The GEPRC TAKER F722 BLS 50A Stack is a high-performance solution designed to meet the demands of both racing and freestyle pilots. This powerful stack offers unparalleled performance, reliability, and ease of use, making it a top choice for serious drone pilots looking to upgrade their equipment.
Key Features of the GEPRC TAKER F722 BLS 50A Stack
Advanced F722 Flight Controller
At the core of this stack is the advanced F722 flight controller. It features a powerful STM32F722RET6 processor that delivers lightning-fast processing speeds, ensuring smooth and responsive flight performance. This controller is designed to handle the most complex flight tasks with ease, providing a stable and reliable flight experience.
High-Power BLS 50A ESC
The GEPRC TAKER F722 BLS 50A Stack includes a robust BLS 50A Electronic Speed Controller (ESC). This ESC supports a continuous current of 50A, with a burst current of up to 60A, providing ample power for high-performance motors. It also supports DShot600, Oneshot125, and Multishot protocols, offering precise throttle control and fast response times.
Integrated BEC
The stack comes with an integrated 5V/3A BEC (Battery Eliminator Circuit), which supplies consistent power to your FPV system and other onboard electronics. This feature simplifies your drone’s wiring and ensures that all components receive stable voltage, enhancing overall flight reliability.
Compact and Lightweight Design
Despite its powerful capabilities, the GEPRC TAKER F722 BLS 50A Stack is compact and lightweight, making it an excellent choice for various drone builds. Its small footprint allows for easy integration into tight frame spaces, and its lightweight nature helps to maintain optimal flight performance.
Versatile Connectivity
The flight controller offers multiple UART ports and supports various receiver types, including SBUS, IBUS, DSMX, and Crossfire. This versatility ensures compatibility with a wide range of FPV equipment, making it easier to upgrade and customize your drone setup.
GEPRC TAKER F722 BLS 50A STACK is a plug-and-play flying tower system specially designed for DJI Air Unit.Use STM32F722 chip, ICM42688-P gyroscope, integrated 16M black box, and GEP-BLS50A-4IN1 ESC to have a more delicate hand feeling experience.
The GEPRC TAKER F722 BLS 50A STACK can be directly plugged into the DJI Air Unit, which can save the trouble of welding. Upgrade the type-C USB interface, which greatly improves the service life of the socket and reduces the risk of poor contact. 9V@2.5A + 5V@3A dual independent BEC, more stable power supply for external devices.
Features
- Use mainstream STM32F722 chip
- Equipped with the latest 42688-P gyroscope
- 16M black box storage
- Integrated LC filter
- Upgrade type-C USB interface
- Directly plugged into the DJI Air Unit
- With GEP-BLS50A-4IN1 ESC, the flying feel is silky
- Simple and reasonable installation method, the shock absorber can make the gyroscope work very stably
- 9V@2.5A + 5V@3A dual independent BEC
Specifications
GEP-F722-HD v2 Flight Controller
- MCU:STM32F722
- IMU:ICM42688-P(SPI)
- Air Unit Connection:Direct plugging into DJI Air Unit
- Black Box:16M onboard
- USB Interface:Type-C
- OSD:BetaFlight OSD w/ AT7456E chip
- BEC:5V@3A,9V@2.5A dual BEC
- Firmware Target:GEPRCF722
- Size:36.85×36.85mm, hole 30.5×30.5mm,φ4mm hole becomes φ3mm after using a silicone shock-absorbing circle.
- Input Voltage:3-6S LiPo
- UART:5
- Power Filter:Integrated LC filter
- Weight:8.1g
GEP-BLS50A-4IN1 ESC
- Input Voltage:3-6S Lipo
- Galvanometer:Support
- Continue Current:50A
- Burst Current:55A(5 second)
- Support Protocol:Dshot 150/300/600
- Size:42.9×39.7mm, hole30.5×30.5mm,φ4mm hole becomes φ3mm after using the silicone shock-absorbing circle.
- Weight:13.7g
- Target:G_H_30
Includes
1 x Flight Controller
1 x ESC
1 x Capacitor
1 x DJI Air Unit Adapter Cable
1 x Flight Controller Adapter Cable
1 x XT60 Power cable
4 x M3*30 Screws
4 x M3*24 Screws
8 x Nylon nuts
8 x Silicone grommets
2 x sh1.0 4pinsilicone cable
1 x Camera connection cable
Why Choose the GEPRC TAKER F722 BLS 50A Stack?
Superior Flight Performance
The combination of the F722 flight controller and the BLS 50A ESC provides a significant boost in flight performance. The fast processing speeds and high current handling capabilities ensure that your drone can perform complex maneuvers with precision and stability, whether you’re racing or performing freestyle tricks.
Enhanced Reliability
The GEPRC TAKER F722 BLS 50A Stack is designed with reliability in mind. The high-quality components and robust design ensure that your drone can withstand the rigors of intense flying sessions. This stack is built to last, providing you with a dependable performance for countless flights.
Easy Installation and Configuration
This stack is designed for easy installation and configuration, making it accessible for both novice and experienced drone builders. The clear layout and well-documented instructions simplify the setup process, allowing you to get your drone in the air quickly and efficiently.
Competitive Edge
For competitive pilots, having the right equipment can make a significant difference. The GEPRC TAKER F722 BLS 50A Stack offers the performance and reliability needed to gain a competitive edge. Its advanced features and high power handling capabilities can help you achieve faster lap times and more precise control.
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!
FPV Drone PID Explained – Mastering Flight Performance through PID Tuning
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