Lesson 1Power systems: battery types, C-rating, wiring, voltage sag, and power distributionMaster FPV power systems, including LiPo and Li-ion batteries, C-rating, wiring, and power distribution. Learn to size packs, avoid voltage sag, design safe harnesses, and protect components from brownouts, shorts, and over-current events.
LiPo vs Li‑ion chemistry, risks, and handlingCapacity, C‑rating, and current draw estimatesVoltage sag, IR, and log analysis in flightsXT60, wiring gauge, and soldering standardsPDB, BEC, and regulator layout best practicesLesson 2Peripheral hardware: VTX/VRX, antenna types, OSD, DVR/HD recorders, and SD card workflowsExplore key FPV peripherals, including VTX and VRX hardware, antenna types, OSD, DVR, and SD card workflows. Learn how to wire, configure, and maintain these devices for reliable recording, clear video, and efficient post-flight data handling.
VTX power levels, channels, and wiring layoutsVRX modules, diversity, and ground station setupsAntenna polarization, gain, and placement basicsOSD wiring, voltage sensing, and layout designDVR settings, SD card care, and file managementLesson 3FPV frame types, sizes, and trade-offs (5" freestyle/racing vs cine frames)Compare FPV frame types and sizes, from 5 inch freestyle and racing to cinewhoops and long-range rigs. Learn how wheelbase, layout, and materials affect durability, tune, noise, and payload capacity for different flying objectives.
Wheelbase, motor spacing, and prop size limitsFreestyle vs racing frame geometry and stiffnessCinewhoop ducts, guards, and camera isolationLong‑range and cruiser frame design prioritiesMounting stacks, arm design, and repairabilityLesson 4Analogue vs digital video systems: latency, range, image quality, and use casesAnalyse analogue and digital FPV video systems by latency, range, penetration, and image quality. Learn how to match system choice to racing, freestyle, cinematic, and long-range use cases, and plan upgrade paths within budget constraints.
Analog video basics, channels, and modulationDigital HD systems, codecs, and link behaviorLatency measurement and racing implicationsRange, penetration, and environment factorsEcosystem costs, upgrades, and compatibilityLesson 5FPV goggles and ground station choices, latency implications, and spectator monitoring optionsEvaluate FPV goggles and ground stations, focusing on ergonomics, optics, and receiver options. Understand latency implications, recording and spectator features, and how to build reliable viewing setups for pilots, spotters, and audiences.
Box vs slim goggles, optics, and IPD fittingReceiver modules, diversity, and power optionsHDMI input, DVR, and external display useLatency, resolution, and comfort trade‑offsSpectator screens, relays, and event setupsLesson 6Onboard camera selection and lens/FOV choices for racing vs cinematicLearn how to choose FPV cameras and lenses for racing and cinematic flying. Compare sensor formats, latency, dynamic range, and FOV, and understand how lens choice affects image clarity, speed perception, and framing in different environments.
Sensor size, resolution, and low‑light performanceLatency, WDR, and image processing trade‑offsLens focal length, FOV, and distortion choicesND filters, shutter control, and motion blurMounting, vibration isolation, and protectionLesson 7Radio transmitters and receivers: protocols (CRSF, SBUS, DSM), antenna placement, and redundancyUnderstand radio links for FPV drones, covering CRSF, SBUS, DSM, and modern long-range protocols. Learn receiver wiring, antenna placement, and redundancy strategies to reduce failsafes and maintain control in demanding environments.
CRSF, SBUS, DSM, and ELRS protocol overviewBinding, failsafe setup, and range testingReceiver wiring, power, and UART assignmentAntenna orientation, diversity, and mountingRedundant receivers and link health monitoringLesson 8Motors, ESCs, propellers: KV, thrust, efficiency, and durability considerationsStudy motors, ESCs, and propellers as a unified thrust system. Learn KV, stator size, and prop pitch relationships, ESC current limits, and how to balance efficiency, durability, and responsiveness for racing, freestyle, and cinematic rigs.
Motor KV, stator size, and torque behaviorESC current rating, firmware, and coolingProp diameter, pitch, and blade count effectsMatching motor, ESC, and prop to batteryDurability, crash tolerance, and spare planningLesson 9Flight controllers and firmware: Betaflight/INAV/Cleanflight basics and tuning rolesDiscover how flight controllers and firmware shape aircraft behaviour. Compare Betaflight, INAV, and similar stacks, and learn about sensor roles, filtering, PID tuning, and configuration practices that support stable, responsive flight.
MCU, gyro, and barometer hardware selectionBetaflight, INAV, and Ardu‑based stack overviewPorts, mixers, and channel mapping setupFilters, PID gains, and preset usageBlackbox logging and iterative tune changesLesson 10Required safety gear: failsafe beacons, kill switches, propellers guards, PPE, and toolkits for field repairsReview essential FPV safety gear and field tools. Learn how to configure beacons, kill switches, prop guards, PPE, and repair kits to reduce injury risk, speed up recovery after crashes, and keep aircraft airworthy during long flying days.
Buzzers, GPS beacons, and recovery workflowsRadio kill switches and arming logic setupProp guards, ducts, and safe testing methodsPPE: eye, hand, and hearing protectionField repair kits, spares, and checklists
