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5 Best Flight Controllers for FPV Drone

Exploring the best flight controller for FPV Drone in 2024, it's essential to consider key features that optimize performance and user experience. For newcomers, Betaflight stands out as a preferred FC firmware due to its extensive community support and plethora of online resources, aiding in both initiation and troubleshooting.

Key Features to Consider:

  1. Processor Selection: Opt for F4, F7, or H7 processors, with preference given to F7 and H7 for their enhanced speed, future-proofing, and Frsky receiver compatibility without requiring signal inversion.

  2. Gyro Preference: The MPU6000 Gyro remains favored for its stability, while ICM gyros are acceptable if soft-mounted.

  3. Input Voltage Range: Look for controllers accommodating a wide input voltage range, ideally up to 6S, to suit various battery configurations.

  4. Soft Mounting Solutions: Flight controllers offering soft mounting solutions, such as silicone grommets, effectively dampen vibrations, improving flight performance.

MEPS F7 HD

meps f7 hd

The MEPS SPACE F7 HD Flight Controller emerges as a standout option for digital FPV builds. Powered by the STM32F722 microcontroller and seamlessly compatible with Betaflight firmware, it delivers exceptional performance.

Crafted with precision, this FC features an interface port tailored for digital video systems, alongside well-sized solder pads and a logical layout for easy assembly. Additionally, its 6-pin plug&play port eliminates the need for soldering when connecting HD Digital VTX, enhancing convenience.

Tailored for racing and freestyle drones, the MEPS SPACE F7 HD sets the standard for digital quad flight controllers. With compatibility with Betaflight firmware and streamlined connectivity to HD Digital VTX, it's an ideal choice for enthusiasts seeking advanced features.

Speedybee F405 V4

The Speedybee F405 V4 offers excellent value, boasting robust quality control and performance. Supporting both analogue and digital FPV systems, it includes an onboard Betaflight OSD chip for seamless operation.

Despite utilizing an F4 processor, the Speedybee F405 V4 remains competitive, especially for running 4K looptime setups. Its ample processor memory may contribute to its longevity compared to faster counterparts.

Rush Blade F722 FC

The Rush Blade F722 stands out for its comprehensive features and robust design. With multiple JST connectors, it supports a solder-less setup, making FC swaps quick and convenient, particularly advantageous for racers.

Available in analog and DJI variants, the Rush Blade F722 ensures compatibility with chosen FPV systems. Choosing a stack configuration prevents messy wiring issues, ensuring seamless compatibility.

MEPS F7

meps f7

The MEPS F7 Flight Controller, designed for analog builds, offers reliability and efficiency. Featuring well-sized solder pads and a sensible layout, it simplifies assembly. Notably, it introduces the ability to assign a transmitter switch to control the VTx power regulator, offering added flexibility.

Flywoo GOKU GN745

The GOKU GN745 is ideal for lightweight FPV drone builds, boasting impressive specifications in a compact form factor. With a built-in 40A BLHeli_32 4in1 ESC, it supports RPM filter and bi-directional DShot out of the box, making it a top choice for enthusiasts prioritizing performance.

Despite potential soldering challenges due to cramped pads, the GOKU GN745's specifications make it compelling for those seeking top-tier performance.

By considering these top-FPV flight controller and their features, enthusiasts can make informed decisions tailored to their FPV drone needs, ensuring optimal performance and a seamless flying experience.

 
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Complete Guide: Connecting and Flashing BLHeli_32 ESCs

In this comprehensive guide, we will delve into the intricacies of connecting, configuring, and flashing BLHeli ESC, providing detailed instructions and additional insights to optimize your drone's performance.

BLHeli ESC

Downloading BLHeliSuite_32 Software

To begin, navigate to the official repository and download the latest version of BLHeliSuite32. Ensure that you select the appropriate version tailored for BLHeli_32 ESCs. This software serves as the key to unlocking the full potential of your BLHeli ESC. You can find the download link in the "READ ME" section at the bottom of the BLHeliSuite32 page.

Understanding BLHeli_32 4in1 ESC

Before delving into the technical details, it is crucial to understand the significance of BLHeli_32 ESCs. Unlike their predecessors, BLHeli_32 ESCs offer enhanced performance, smoother operation, and advanced features such as telemetry support and bidirectional DShot communication.

Connecting ESC to FC

Begin by establishing a physical connection between the ESCs and the flight controller (FC). Keep the ESCs plugged into the FC, connect a LiPo battery to power them, and attach the USB cable to the FC. This setup enables the FC to serve as a conduit for accessing and configuring the ESCs.

Configuring ESCs in BLHeliSuite32

Prioritize safety by removing propellers before proceeding. Power up the ESCs with a LiPo battery and connect the USB cable to the FC. Launch BLHeliSuite32 and navigate to the "BLHeli32 Bootloader (Betaflight/Cleanflight)" interface. Select the appropriate COM port for your flight controller and establish a connection.

Once connected, explore the myriad of settings available in BLHeliSuite32. From motor timing to PWM frequency, fine-tune each parameter to align with your drone's specific requirements and flight characteristics.

Advanced Configuration

Delve deeper into the intricacies of ESC configuration by experimenting with advanced settings. Adjust parameters such as demag compensation and motor direction to achieve optimal performance and efficiency. Maintain detailed records of your configurations and monitor their impact on flight dynamics.

Flashing BLHeli_32 Firmware on ESCs

Before proceeding with firmware flashing, ensure that your computer is connected to the internet for firmware validation. Connect a fully charged LiPo battery, plug in the USB cable to the FC, and select the appropriate COM port. Use BLHeliSuite32 to read the ESC setup and verify firmware versions.

Initiate the flashing process, ensuring to confirm each step meticulously. Avoid disconnecting the battery during flashing, as it may result in irreversible damage to the ESCs. Once complete, verify the firmware versions and write settings to the ESCs if necessary. 

Recommendations

Consider investing in high-quality components such as the MEPS F7 HD flight controller and MEPS 60A ESC for optimal compatibility and performance. These components are renowned for their reliability and seamless integration with BLHeli_32 ESCs. Prioritize safety at all times by adhering to best practices such as propeller removal and using a smoke stopper during initial power-up. Regularly inspect and maintain your drone's components to ensure continued functionality and safety. They are the best quad flight controller and the best 6s esc.

By following these comprehensive steps and recommendations, you'll be well-equipped to unlock the full potential of BLHeli_32 ESCs, enhancing your drone flying experience to new heights.

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An Overview of ESC Protocols and Firmware: How Flight Controllers and ESCs Interact

Entering the intricate domain of Electronic Speed Controller (ESC) firmware and protocols poses a formidable challenge for enthusiasts of FPV drones. This manual endeavors to present a distinct perspective, demystify technical intricacies, and illuminate common hurdles encountered by those new to the field.
 
Harmonizing the Symphony of Firmware Progress:
 
Imbued within each ESC lies its firmware, acting as the conductor breathing life into these components. It orchestrates the myriad of customizable settings, compatible protocols, and the configuration interface, with every ESC firmware meticulously tailored to synchronize with specific hardware.
 
Consider the following repertoire of ESC firmware widely embraced in the electronic speed control drone domain:
 
SimonK (2011)
BLHeli (2013)
KISS (2014)
BLHeli_S (2016)
BLHeli_32 (2017)
AM32 (2020)
Bluejay (2022)
 
In the infancy of FPV drones, SimonK and BLHeli took the spotlight as preferred open-source firmware. By 2015, BLHeli emerged as the industry benchmark, acclaimed for its extensive hardware compatibility, feature-rich design, user-friendly interface, and a constant stream of updates. Features like Active Braking significantly heightened drone responsiveness.
 
In 2016, BLHeli_S entered the stage as an upgrade, extending support to newer BusyBee processors and introducing innovations like the DShot protocol. In 2017, BLHeli_32, the 3rd generation, optimized 32-bit processors, unlocking features such as ESC Telemetry and customizable startup tones.
 
ESC firmware usually comes pre-installed, typically either BLHeli_S or BLHeli_32, contingent on the ESC's hardware. For BLHeli_S ESCs, consider delving into the realms of Bluejay firmware, unlocking features reminiscent of BLHeli_32. Alternatives like JESC and BLHeli_M have gracefully faded into obsolescence.
 
In 2020, AM32 made its debut as an open-source firmware, potentially positioning itself as an alternative to BLHeli_32, with select latest ESCs shipping with AM32.
MEPS ESC
 
 
The Ballet of ESC Protocols:
 
ESC protocols function as the poetic language facilitating communication between the flight controller and the drone esc 4in1, orchestrating the dance of motor spin speed. Operating on Betaflight firmware presents an array of protocols, each boasting distinctive signal timings:
 
Standard PWM (1000us – 2000us)
Oneshot125 (125us – 250us)
Oneshot 42 (42us – 84us)
Multishot (5us – 25us)
 
And now, the crescendo of DShot:
 
Dshot150 (106.8us)
Dshot300 (53.4us)
Dshot600 (26.7us)
DShot1200 (13.4us)
ProShot
 
In 2014, standard PWM stood alone as the exclusive ESC protocol. However, the march of progress ushered in swifter alternatives like Oneshot and Multishot, boasting reduced latency. The advent of DShot, the latest digital ESC protocol, marked an epoch of heightened reliability and performance. DShot transcends traditional protocols by enabling the transmission of specific commands to ESCs. The bidirectional facet of DShot facilitates two-way communication, unlocking advanced features.
 
DShot speeds encompass a spectrum from DShot150 to DShot2400, with higher numerical values signifying accelerated speeds. However, Betaflight advocates aligning the DShot speed with the PID loop frequency to avert data corruption and excessive CPU load.
 
In Conclusion, a Symphony of ESC Progress:
 
The evolution of ESC firmware and protocols mirrors the dynamic essence of the FPV drone hobby, presenting enthusiasts with a diverse palette of options for performance augmentation and customization.
 
A Serendipitous Suggestion:
 
For those seeking recommendations in the realm of ESC and FC, consider embarking on an exploration of the realms of MEPS ESC and MEPS F7 HD. Their journey promises to be an expedition well worth undertaking in the captivating world of FPV drones.
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AIO Flight Controller Selection Guide

Understanding Whoop FCs:

The Whoop flight controller boasts a 25.5×25.5mm mounting pattern. Commonly referred to as AIO FC, this single board integrates ESC, FC, and OSD. For weight-conscious enthusiasts, there are options with integrated radio receivers and VTX, with a recommended 45-degree rotation during installation.

Decoding Toothpick FCs:

Toothpicks, a distinct category of ultralight fixed-point video drones, feature slender, toothpick-like limbs. While Whoop style FCs were initially integrated into Toothpick setups, manufacturers have honed a specific FC for toothpick constructions. The mounting pattern matches that of Whoop FC (25.5×25.5mm), often slightly larger for additional solder pads. Notably, Toothpick FCs boast stronger ESCs, supporting up to 55A (6S).

Unveiling Mounting Patterns:

The official mounting pattern is 1 inch (25.4mm), but variations like 25.5mm, 26.0mm, or even 26.5mm exist due to a lack of standardization. Although the differences are negligible, adhering to 25.5mm is recommended to avoid surprises during frame installation.

Strategizing the Best Flight Controller Selection:

To streamline FC selection, consider specific criteria tailored to your build:

  • Frame compatibility: Whoops or toothpick frames
  • LiPo voltage support
  • ESC current rating
  • Motor connections: Direct solder or "plug and play"
  • Integrated receiver and VTX
  • Additional UART for peripherals like DJI Air Unit, Vista, GPS, etc.

Showcasing the Best All in One Flight Controller:

  1. iFlight BLITZ F411 1S 5A AIO:

    iFlight's Blitz F411 1S 5A flight controller, designed for little whoops, integrates VTX and a radio receiver (FrSky D8 or ELRS). The ELRS variant includes a built-in ceramic tower antenna, and the VTX output power ranges from 25/50mW. The board weighs 4.4g excluding the VTX antenna.

  2. BetaFPV F4 AIO 2-4S V3 (12A / 20A):

    Tailored for 75mm, 85mm, and 95mm whoop frames, this board supports up to 4S LiPo. Despite its 26x26mm mounting, it can be adapted to a 65mm frame. Noteworthy is the absence of an integrated RX, necessitating external connections. The additional weight of an external RX has minimal impact on brushless whoops.

  3. MEPS AIO Flight Controller F411 15A:

    Specifically crafted for 1S racing whoops and 1S long-range toothpicks, this FC incorporates a 32-bit ESC chip for swift response and customizable parameters. Features include small current plugging, high current soldering, and a plug-in motor plug, eliminating the need for welding. Recommendations include FPV Motor SZ0802 and FPV Propellers SZ1218, making it an exemplary choice for the best 1S esc&FC configurations.

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The Guide of Choosing Quadcopter Flight Controllers

Selecting the ideal flight controller for your FPV quadcopter can be a challenging task given the plethora of options available. Each controller offers unique features, and technological advancements have led to more powerful micro-controllers for enhanced optimization. This guide aims to simplify the process of choosing a flight controller tailored to your needs. Additionally, we'll highlight noteworthy offerings from MEPSKING, such as the MEPS F7 and MEPS 2306, which can benefit your FPV drone endeavors. Let's delve into the ESC landscape.

  1. What are the Quadcopter Flight Controllers?

Physically, a flight controller is a circuit board with electronic chips—a counterpart to a laptop's motherboard and processor. It serves as the drone's brain, housing intelligent electronics and software that monitor and control all drone operations. Flight controllers vary in size and complexity, much like the brains of different organisms.

  1. Flight Controller Processors

F1, F3, F4, and F7 are commonly used processors in mini quads. Advancements led to higher processing speeds, with F7 being the latest and fastest, capable of executing 216 million cycles per second. This increased speed enhances the controller's ability to execute commands swiftly.

Processor

Operating Frequency 

F1 72 (MHz)
F3 72 (MHz)
F4 168 (MHz)
F7 216 (MHz)
  1. Firmware

Various firmware options like Betaflight, Cleanflight, Raceflight, and KISS cater to specific functions. Betaflight, being open-source, boasts a large user base and a wide range of flight controllers. KISS, a closed-source firmware, limits users to proprietary flight controllers. iNav is suitable for those interested in automated flying and GPS waypoint missions.

  1. How to Choose the best Flight Controllers for Quadcopter?

Whether you're a novice or an experienced pilot, consider the following when selecting a flight controller:

  • Size and Mounting Pattern: Ensure the controller fits your drone's frame and mounting pattern.
  • Features: Assess if you need features like a built-in OSD, black box, or additional modules like SpeedyBee Bluetooth/WIFI tuning.
  • Performance: Opt for a controller with a fast processor (F4 or F7) and reliable sensors for improved flight performance.
  • Peripherals: Consider the number of available peripheral plugs for devices like video transmitters, receivers, buzzers, LEDs, etc.
  • Pad Layout: A well-designed pad layout simplifies cable management, and some controllers offer plug-and-play ports for convenience.
  • Customer Support: Choose a brand with reliable customer support, especially crucial for beginners.

Keeping these factors in mind will help you make an informed decision when choosing the right flight controller for your drone.

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Choosing the Right ESC for Your FPV Drone

We'll go over the foundations of Electronic Speed Controllers (ESCs) and their important function in First Person View (FPV) drones in this article. This thorough summary seeks to offer crucial details on voltage and current ratings, the benefits of various ESC kinds, and an ESC's internal construction. We'll also highlight some notable MEPSKING items that you could find useful for your FPV drone, including the MEPS ESC. Now let's explore the realm of ESCs.

MEPSKING is a well-known brand in the industry, specializing in 6S brushless motor, FPV drone ESCs, and drone flight controllers with sixteen years of experience in UAV propulsion systems. Establishing a recreational e-commerce platform with an emphasis on FPV propulsion technology advancement is their objective.

1. Recognizing ESCs

An FPV drone's ability to control motor speed is mostly dependent on its ESC, or electronic speed controller. In order to operate the brushless motor and reach the intended speed, it decodes throttle signals from the flight controller. Considering all the variables that affect performance, choosing ESCs of superior quality improves the whole flying experience. Direct current (DC) from the LiPo battery powers ESCs, which then take motor instructions from the flight controller and convert them into three-phase alternating current to power the motor.

2. Types of ESCs

The 4-in-1 ESC and the single ESC are the two main categories of ESCs. Four distinct ESCs, each controlling a different motor, are combined into a single circuit board to form a 4-in-1 ESC. 4-in-1 ESCs, which often match the size of the flight controller, make it simple to stack and install quickly with fewer solder connections, which minimizes the amount of wiring and soldering that is required. The ease of 4-in-1 ESCs is undeniable, but it's important to remember that if one ESC breaks, the entire board needs to be replaced. Nevertheless, the tremendous reliability of contemporary 4-in-1 ESCs reduces worries about these kinds of incidents. In the past, single ESCs—which regulate just one motor—were more common; but, lately, their use has decreased. Noteworthy products from MEPSKING, such as the MEPS 45A and the MEPS 60A ESC, are popular choices available in their store.

3. Establishing the Needs for the ESC

Make sure the ESC you choose for your FPV drone can manage the current draw from your chosen motor and propeller and is compatible with the voltage of your battery.

3.1 Ratings for Voltage

To avoid damage, be sure the ESCs you have chosen can handle the voltage of your battery. ESCs can handle input voltages as low as 6S, where 6S and 4S stand for the number of cells in your LiPo battery.

3.2 Present Assessments

The maximum current an ESC can handle without breaking is indicated by its ESC current rating, which is expressed in amps. The amp rating can only be too low; it cannot be too high. At the moment, there are two rating types: burst and continuous. Burst current specifies the maximum current for brief intervals, usually less than 10 seconds, whereas continuous current indicates the sustained current the ESC can safely take.

4. Choosing ESC Firmware

Since there is not much of a performance difference between BLHeli_S and BLHeli_32, any option is acceptable. Bi-directional DShot is now supported by both firmware versions, allowing RPM filtering in Betaflight. Even though BLHeli_S ESCs are more affordable, they may require more work to enable RPM filtering because doing so may require flashing third-party firmware (like Bluejay). By comparison, BLHeli_32 functions flawlessly right out of the box. The more recent model, BLHeli_32, has more sophisticated features like RGB LED support and ESC telemetry, however these features don't really affect flight performance. If you want an ESC that is more future-proof, go with BLHeli_32; if cost is a factor, go with BLHeli_S.

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The Cheapest Parts for 5 inch FPV Drone

Craving the adrenaline rush of FPV racing but worried about emptying your wallet? Fear not, budget-conscious pilots! This guide unveils a cost-effective 5-inch drone build that balances affordability with exhilarating performance. Buckle up, and let's craft your aerial rocket on a shoestring. MEPSKING has sixteen years of experience in the study and creation of UAV propulsion systems, including drone flight controller, fpv drone esc and quad motor. Our goal is to create a recreational e-commerce platform with an emphasis on FPV propulsion technologies.

The Toolbox Arsenal:

Before your soldering iron heats up, gather your trusty allies:

  • Multimeter: Your electrical watchdog, ensuring healthy voltages and currents.
  • Soldering Iron & Supplies: Weaving the magic smoke that binds your drone together.
  • Allen Key & Screwdriver Set: Tightening every bolt to perfection.
  • Pliers & Wire Strippers: Taming unruly wires with precision.
  • Tapes & Smoke Stoppers: Securing components and battling rogue solder fumes.
  • Tweezers: Your nimble friends, placing components with surgical accuracy.

Frame: The Canvas of Speed

Enter the Source One V5 – your blank canvas for aerial acrobatics. At a budget-friendly $29.99, it boasts sleek lines, sturdy carbon fiber, and endless customization options through readily available 3D printed parts. Prepare to unleash your inner artist!

FPV Flight Controller & ESC: The Brains and Brawn

Introducing the MEPS SPACE F7, your drone's neural network. This powerhouse drone flight controller, fueled by the STM32F722 chip, delivers precision flying and smooth analog video with its trusty AT7456E OSD chip. And paired with the MEPS 60A drone ESC – the king of 6S power – you'll experience unmatched responsiveness and blistering acceleration. Get ready to leave your rivals in the dust cloud!

Motors: The Heartbeat of Flight

Powering your skyward journey are the MEPS SPACE 2207 motors – your aerial workhorses. These 6S brushless motor, adorned in a unique sunflower design and industry-first fluorescent green color scheme, are crafted with top-notch materials for unwavering performance. Prepare for gravity-defying maneuvers and heart-pounding dives!

Video Transmitter: Broadcasting Your Adventures

For crystal-clear FPV views, the Flywoo GOKU HM600 VTX takes center stage. At $19.99, this analog transmitter packs a punch with its multiple mounting options, wide voltage range, and a powerful 600mW output. Witness every exhilarating loop and twist in stunning detail!

FPV Camera: Your Window to the World

Capturing every high-speed moment is the Foxeer Razer Micro. This $17.99 marvel of micro cameras delivers exceptional image quality for the price, perfectly complementing the Source One frame. Prepare to be mesmerized by the world at warp speed!

Receiver: Staying in Touch

The BetaFPV ELRS Lite RX, priced at a mere $11.99, keeps your drone tethered to your commands. Opt for the tower antenna version for superior signal strength and reliability, ensuring your aerial escapades remain free from unwanted dropouts.

Propeller Playground:

Finally, the playground of propellers! Experiment with various affordable options, typically costing around $3-$4 per set, to find the perfect match for your flying style. From nimble freestyle props to aggressive racing blades, unleash your inner mad scientist and discover your ideal setup!

This budget-friendly build is your launchpad to exhilarating FPV adventures. With careful selection and a touch of DIY magic, you'll conquer the skies without breaking the bank. So, grab your tools, embrace the spirit of innovation, and prepare to paint the clouds with your drone's aerial ballet!

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Problème nacelle mini 3d

Bonjour à tous. Nouveau sur le forum, je viens vers vous pour un soucis que je n'arrive pas à solutionner. Je procède un drone que j'ai acheté il y a quelques années de cela et je m'en sert actuellement en vacances et ma nacelle pour ma GoPro héro 4 déconne. Dès que j'alimente le drone, la nacelle se met à chercher son point centre sans le trouvé. Je ne sais vraiment pas quoi faire. C'est une feiyutech mini 3d. Voilà si besoin d'autres informations, je reste disponible. Je souligne le fait que je n'est pas monté le drone donc, se n'est pas moi qui à fait les connections. La nacelle fonctionnait bien avant. Bonne journée.

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piper cub

bonjour je suis a la recherche d'un plan de piper cub envegure 3.50 et photo de la construction merci

 

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AEROMODELISME

Bonjour à tous Nouveau membre sue ce site et sur ce forum. Déjà je me présente ,Gérard ULRICH 80 ans , habitant le Var 83 , et modeliste depuis pas mal d'années .Surtout avions et bateaux . Je suis un peu seul dans mon coin et aussi l'idée m'est venu de me connecter à Modelisme.com que je consulte très souvent . Depuis peu me passionne également pour l'impression 3d et l'idée d'associer mon imprimante au modélisme avions et bateaux . Actuellement je souhaite construire un planeur simple type SG 38 en structure PLA ,ailes non coffrées , et me demande comment entoiler et surtout avec quoi ? J'ai essayé le type ORACOVER mais pobléme de température déjà......et a priori l' ORACOVER n'adhère pas sur le PLA . Peut que que quelqu'un aurait une expérience en la matière .......je serais ravi de te lire . PS il y a aussi que j'ai avec les années acquis une petite et modeste expérience en modélisme et bien sûr suis tout a fait disponible pour en faire profiter. Bonne journée . Illk
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Bug Aurora 9 x ?

Bonjour,

j'ai programmé sur mon Aurora 9 x une sécurité pour le démarrage du moteur électrique de mon planeur par le biais d'un interupteur et d'un potentiomètre latéral pour la puissance du moteur. 
lorsque j'allume ma radio, je suis obligé de déplacer le curseur, pourtant en bonne position pour acquitter l'alarme ( forcer l'acquisition à 0 ) pour passer en mode normal. 
Quelqu'un sait il pourquoi  et comment résoudre ce problème ?!

merci d'avance

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Pirate 8.6 T2M / Questions diverses

Bonjour à tous,

Je débute dans le modélisme et je viens d'acquérir une pirate 8.6 1/8 de chez T2M en 3,5 cm3 la voiture a été achetée sur breizh modélisme et le site conseillait de prendre de l'essence 25% uniquement, un chauffe-bougie, un accu avec chargeur, une bougie GP3 courte pour après le rodage et ne mentionnait rien vis à vis de l'huile pour filtre à air. A mon grand étonnement lorsque je l'ai reçu, le mode d'emploi conseil de faire un rodage avec de la 10% de nitro (entre 2 à 3L) et d'imperativement mettre de l'huile sur la mousse interne du filtre à air.

J'ai tout de même voulu essayer de la démarrer avec ce que j'avais, elle est partie mais cale dès que j'enlève le chauffe bougie, elle a dû tourner à peine 30 sec en tout d'où ces quelques questions :

Est-ce grave de faire un rodage avec de la 25% ?

Quelle bougie pour après le rodage? vue la médiocrité des conseils du site sur lequel j'ai acheté la voiture

Est-ce grave d'avoir démarrer sans mettre d'huile sur la mousse ?

Faut il mette de l'after run entre chaque pleins en rodage ?

Je vous remercie par avance de votre aide 

Bien cordialement 

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RAFALE 3d indoor jet LLdesign

Bonjour à tous,

Jai créé un rafale 3d spécialement conçu pour l'indoor.

Le plan est gratuit (pdf/dxf) et disponible dans la description de cette vidéo.

https://youtu.be/LM707Sit4j4

 

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aidez moi svp ..

Bonjour j'ai besoin d'une aide de votre part en aéro je pense . Voilà mon problème je voudrais faire fonctionner 2 servos a partir d'un servo "maitre" en exemple j'ai un servo droite /gauche et je voudrai faire fonctionner un servo quand je fait droite et un autre quand je fait gauche. Avez vous une solution pour moi ?

Merci

 

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Commentaires récents pour ces articles
yves
Bonjour Pas bien sur de comprendre la demande. Est ce que vous avez une télécommande ? Si oui c’est classique si elle est progr... Lire la suite
lundi 11 mai 2020 08:14
christophe allainmat
bonjour yves, en fait c'est un peu particulier. Sur un bateau rc je voudrai faire fonctionner deux servos en plus a partir du serv... Lire la suite
lundi 11 mai 2020 15:07
christophe allainmat
Vous pensez que c'est possible en rentrant dans le menu de ces radios ?
lundi 11 mai 2020 15:11
1510 lectures
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Problème lanceur voiture thermique

Bonjour,

Je suis nouveau sur le site.

Je viens de terminer le montage de ma viper extrême 1/7 (à monter en 90 numéros avec les éditions altaya ) après 12 ans de pause. Il me manquait des pièces sur certains numéros et j'avais un peu lâché l'affaire faute de temps. Bref, elle est entière et je l'ai mise en route hier sur un banc pour le rodage. Après quelques démarrages, et réglages, problème avec le ressort du lanceur : démonte et remonté (avec le moteur ) 2 fois. Maintenant j'ai le souci suivant : quand le moteur est en marche, la tirette du lanceur s'emballe et cela coupe le moteur. Pouvez vous me venir en aide ?

Merci par avance. 

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moteur thermique

  Authentification nécessaire.

Ce blog est protégé par un mot de passe, veuillez remplir le champ correspondant, ci-dessous, pour consulter l'article.

Excellentes fêtes de fin d'année !!!

Bonjour,

Je vous souhaite une excellente fête de fin d'année pour vous et vos proches, et que demain matin soit au pied du sapin tout vos cadeaux attendus.

A bientôt sur Modelisme.com

Yves

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recherche de plan

bonjour!

je suis a la recherche de la revue "rc marine" n°170 avec le plan de la barge ostreicole  "revolution"

si vous avez ça dans vos fonds de tiroir je suis interesse !

merci

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recherche de plan

bonjour!

je suis a la recherche de la revue rc marine n°170

avec le plan de la barge ostreicole evolution!

si vous avez ça dans vos archives je suis interesse!

merci.

amicalement

 

bizuth

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Christ Craft MRB 1957

Amis Modélistes bonjour,

 

Je suis à la recherche du scan de l'article relatif au Christ-Craft paru dans le MRB de juin 1957.

 

Quelqu'un aurait il ce magazine svp ?

 

Sincères salutations modélistiques

 

LITTLE ONE

 

 

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  1861 lectures
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