SpeedyBee F405 V3 BLS 60A 30×30 Stack Features and Specifications:
Elevating Your FPV Freestyle Experience with SpeedyBee F405 V3 BLS 60A 30×30 FC/ESC Stack
Introduction
Welcome to the ultimate guide on enhancing your FPV (First Person View) freestyle adventures with the SpeedyBee F405 V3 BLS 60A 30×30 FC/ESC Stack. In this comprehensive article, we delve into the features, benefits, and performance of this cutting-edge flight controller and ESC stack, designed to elevate your drone freestyle experience to new heights.
Unveiling the SpeedyBee F405 V3 BLS 60A 30×30 FC/ESC Stack
The SpeedyBee F405 V3 BLS 60A 30×30 FC/ESC Stack represents the pinnacle of innovation in the FPV freestyle industry. Engineered with precision and packed with advanced functionalities, this stack serves as the backbone of high-performance freestyle drones.
Key Features:
- Flight Controller (FC):
- Advanced F405 MCU processor for lightning-fast response times.
- Integrated Betaflight OSD (On-Screen Display) for real-time telemetry data.
- Dual gyroscope and accelerometer sensors for precise flight stabilization.
- Built-in Blackbox recorder for flight data logging and analysis.
- Electronic Speed Controller (ESC):
- High-performance 60A ESCs with BlHeli_S firmware for smooth and efficient motor control.
- Support for DShot protocols, ensuring rapid communication and minimal latency.
- Adjustable motor timing and PWM frequency for customized performance tuning.
- Overcurrent and over-temperature protection mechanisms for enhanced durability.
Elevating Performance and Efficiency
The SpeedyBee F405 V3 BLS 60A 30×30 FC/ESC Stack is engineered to deliver unparalleled performance and efficiency in FPV freestyle flying. Whether you’re executing complex maneuvers or exploring creative lines, this stack empowers you with the precision and control needed to push the boundaries of aerial acrobatics.
Enhanced Stability and Control:
With its advanced gyroscopic sensors and intelligent flight algorithms, this stack provides unmatched stability and control, allowing you to execute precise maneuvers with confidence and precision. Say goodbye to jittery movements and hello to buttery smooth freestyle flights.
Lightning-Fast Response Times:
Equipped with a high-speed F405 MCU processor, the SpeedyBee stack ensures instantaneous response times, enabling you to execute split-second maneuvers with ease. Whether you’re performing power loops or inverted yaw spins, this stack keeps up with your every command, giving you the freedom to unleash your creativity without limitations.
Customizable Performance Tuning:
One of the standout features of the SpeedyBee F405 V3 BLS 60A 30×30 FC/ESC Stack is its extensive range of customization options. From motor timing to PWM frequency, you have full control over every aspect of your drone’s performance. Fine-tune your settings to match your flying style and unleash the full potential of your freestyle machine.
Seamless Integration and Compatibility
The SpeedyBee F405 V3 BLS 60A 30×30 FC/ESC Stack is designed for seamless integration with a wide range of FPV freestyle drones. Whether you’re building a new quadcopter from scratch or upgrading an existing setup, this stack offers plug-and-play compatibility with popular frame designs and component configurations.
Universal Mounting Options:
Featuring a standard 30x30mm form factor, the SpeedyBee stack fits effortlessly into most drone frames, ensuring hassle-free installation and setup. Whether you prefer a sleek, minimalist build or a rugged, durable frame, this stack adapts to your needs with ease.
Cross-Platform Compatibility:
The SpeedyBee stack is compatible with a variety of flight control software, including Betaflight, Cleanflight, and iNav, giving you the flexibility to choose the platform that best suits your preferences and requirements. Whether you’re a seasoned freestyler or a novice pilot, you’ll appreciate the versatility and adaptability of this stack.
are you waiting for?
via Bluetooth
FC configurator and tune your quad anytime, anywhere.
Experience wireless, fully configurable ESC experience with
SpeedyBee app.
Just look at the FC!
anywhere worry-free – even without your lipo checker!
* 1 light constantly on: battery level 10-25%
1 light blinking: battery level < 10%
wirelessly!
Take your smartphone out, and configure your motor direction
wirelessly with the latest SpeedyBee app. Works for all
BLHeli32 / BLHeli_S / BlueJay ESCs.
simple switching
and blaze the darkest trail you can find. With just one tap on t
he BOOT button, you can cycle through all different LED presets**
and pick the one you love!
* LED strips could be purchased here
**Or long press the boot button to switch to Betaflight LED mode
useful features
● SD Card slot can support up to 4GB Blackbox data*
● Dedicated DJI Air Unit connector for a quick digital build
● 9V 2A + 5V 2A individual BECs
● 4 x UARTs for your receiver + VTX + camera + GPS.
● Power your GPS with a USB cable – no battery needed.
No extra heat, no worries.
● 22mm cutouts for FPV camera in your tight build
either Standard (SDSC) or High capacity (SDHC), so extended
capacity cards (SDXC) are not supported(Many high-speed U3 cards
are SDXC). Also the card MUST be formatted with the FAT16 or FAT32
(recommended) filesystems. So, you could use any SD card less than
32GB, but the Betaflight can only recognize 4GB maximum.
We suggest you use this 3rd party formatting tool and choose
‘Overwrite format’ then format your card. Also check out here for
the recommended SD cards or buy the tested cards from our store.
Product Name | SpeedyBee F405 V3 30×30 Flight Controller |
MCU | STM32F405 |
IMU(Gyro) | BMI270 |
USB Port Type | Type-C |
Barometer | Built-in |
OSD Chip | AT7456E chip |
BLE Bluetooth | Supported. Used for Flight Controller configuration (MSP should be enabled with Baud rate 115200 on UART4) |
WIFI | Not supported |
DJI Air Unit Connection Way | Two ways supported: 6-pin connector or direct soldering. |
6-pin DJI Air Unit Plug | Supported. Completely compatible with DJI O3/RunCam Link/Caddx Vista/DJI Air Unit V1, no wire is needed to be changed. |
Blackbox MicroSD Card Slot | *Betaflight firmware requires the type of the microSD card to be either Standard (SDSC) or High capacity (SDHC), so extended capacity cards (SDXC) are not supported(Many high-speed U3 cards are SDXC). Also the card MUST be formatted with the FAT16 or FAT32 (recommended) filesystems. So, you could use any SD card less than 32GB, but the Betaflight can only recognize 4GB maximum. We suggest you use this 3rd party formatting tool and choose ‘Overwrite format’ then format your card. Also check out here for the recommended SD cards or buy the tested cards from our store. |
BetaFlight Camera Control Pad | Yes(CC pad on the front side) |
Current Sensor Input | Supported. For SpeedyBee BLS 60A ESC, please set scale = 400 and Offset = 0. |
Power Input | 3S – 6S Lipo(Through G, BAT pins/pads from the 8-pin connector or 8-pads on the bottom side) |
5V Output | 9 groups of 5V output, four +5V pads and 1 BZ+ pad( used for Buzzer) on front side, and 4x LED 5V pads. The total current load is 2A. |
9V Output | 2 groups of 9V output, one +9V pad on front side and other included in a connector on bottom side. The total current load is 2A. |
3.3V Output | Supported. Designed for 3.3V-input receivers. Up to 500mA current load. |
4.5V Output | Supported. Designed for receiver and GPS module even when the FC is powered through the USB port. Up to 1A current load. |
ESC Signal | M1 – M4 on bottom side and M5-M8 on front side. |
UART | 6 sets(UART1, UART2, UART3, UART4(Dedicated for Bluetooth connection)), UART5(Dedicated for ESC telemetry),UART6 |
ESC Telemetry | UART R5 |
I2C | Supported. SDA & SCL pads on front side. Used for magnetometer, sonar, etc. |
Traditional Betaflight LED Pad | Supported. 5V, G and LED pads on bottom of the front side. Used for WS2812 LED controlled by Betaflight firmware. |
Buzzer | BZ+ and BZ- pad used for 5V Buzzer |
BOOT Button | Supported. [A]. Press and hold BOOT button and power the FC on at the same time will force the FC to enter DFU mode, this is for firmware flashing when the FC gets bricked. [B]. When the FC is powered on and in standby mode, the BOOT button can be used to controller the LED strips connected to LED1-LED4 connectors on the bottom side. By default, short-press the BOOT button to cycle the LED displaying mode. Long-press the BOOT button to switch between SpeedyBee-LED mode and BF-LED mode. Under BF-LED mode, all the LED1-LED4 strips will be controlled by Betaflight firmware. |
RSSI Input | Supported. Named as RS on the front side. |
Smart Port / F.Port | Not supported |
Supported Flight Controller Firmware | BetaFlight(Default), INAV (INAV firmware can only use Multishot (recommended) and OneShot125. Please note that DShot is not supported.) |
Firmware Target Name | SPEEDYBEEF405V3 |
Mounting | 30.5 x 30.5mm( 4mm hole diameter) |
Dimension | 41.6(L) x 39.4(W) x 7.8(H)mm |
Weight | 9.6g |
Product Name | SpeedyBee BLS 60A 30×30 4-in-1 ESC |
Firmware | BLHeli_S J-H-50 |
PC Configurator Download Link | https://esc-configurator.com/ |
Continuous Current | 60A * 4 |
Burst Current | 80A(10 sec) |
TVS Protective diode | Yes |
External Capacitor | 1000uF Low ESR Capacitor(In the package) |
ESC Protocol | DSHOT300/600 |
Power Input | 3-6S LiPo |
Power Output | VBAT |
Current Sensor | Support (Scale=400 Offset=0) |
ESC Telemetry | Not supported |
Mounting | 30.5 x 30.5mm( 4mm hole diameter) |
Dimension | 45.6(L) * 44(W) *8mm(H) |
Weight | 23.5g |
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!
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