Lab 5: Windracers Believer Setup

Main lifting surfaces that generate life during flight. Hold ailerons and wing servos

The horizontal and vertical tail surfaces that stabilize the aircraft and control pitch and yaw.

Main body of the aircraft that houses the electronics, flight controller, battery, payload, and wings.

Secures the wings to the fuselage and covers internal wing join areas.

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Removable hatch giving access to battery, flight controller, and electronics inside the fuselage.

Covers and protects the parachute bay, released in flight for recovery.

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Provides structural stiffness and rigidity to the fuselage, preventing bending or twisting.

Serves as the main spar to connect and strengthen both wings, keeping them aligned and rigid under load.

Mechanically connect each wing half to the fuselage, often containing spar supports or joiners.

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Connects the two ruddervators securelywas to the body of the aircraft using spars with supporting plastic

Mount servos securely in the fuselage or wings; includes base, pressers, and covers to protect servo arms.

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Small brackets or control horn mounts used to connect control rods to control surfaces (rudder/elevator).

Mounting board to hold the battery firmly, prevents shifting during flight.

Mounts and organizes antennas for optimal signal reception and to avoid interference.

Provides structure for securing the cabin cover to the fuselage.

Covers and protects ESCs (electronic speed controllers) or wiring areas.

Threaded mounts used to fasten plastic/foam parts together.

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Locking mechanisms that secure the cabin cover in place.

Likely part of the nose or motor mount locking system to hold motor parts or accessories.

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Small hooks used to latch covers, hatches, or other components for easy access/removal.

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Strengthens the fuselage internally, especially at load-bearing areas.

Provides extra rigidity for the tail assembly to handle aerodynamic loads.

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Mounting platform for flight controller or autopilot, isolates vibrations

Base structure for mounting the servo that deploys the parachute.

Reinforces the parachute hatch to prevent warping or flexing

Adds additional structural support to the parachute hatch assembly.

Mounting plate for the motor, aligns thrust and spreads load into the fuselage.

Absorbs shock and protects battery from vibration and impact. Damps vibrations transmitted to flight controller and sensors for stable flight performance.

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Telemetry System

Sends primary flight information (Airspeed, Altitude, Attitude) to the GCS

Both accomplish similar things, thought the blog’s system includes video functionality

Ground controller

Provides system by which flight control inputs can be transmitted to the airplane

They are the same controller, except different skins

Connection from battery to power system

Large currents require large and secure connectors

XT-60 connectors

XT-60 are smaller, but serve a similar purpose

Battery eliminator circuit

The RC system and motors require different voltages

Turnigy Multistar Twin Output 5/10 Amp (6-50V) SBEC for Lipoly

Similar function, but different voltages

Senses airspeed

Airspeed is one of the most critical data points in flight

The blog does not mention an airspeed sensor

N/A

GPS receiver

Knowing GPS position is crucial to ensure the aircraft is in the correct location for the mission

These ultimately provide the same information, which is the GPS position

Telemetry cable to receive data from various sensors attached to the UAV

This allows data to be collected from the sensors and provided to the flight controller

The blog does not mention a specific telemetry cable

N/A

Telemetry antennae

Provides for adequate transmission of radio telemetry

The antennas are already included with the aforementioned hacklink system. They serve the same purpose

N/A

Remote ID component

Remote ID is required for all drones operated outside of a FRIA.

The blog doesn’t specify a remote ID module

N/A

Remote ID component

Remote ID is required for all drones operated outside of a FRIA.

The blog doesn’t specify a remote ID module

N/A

Carrier board for the cube

Additional remote ID component with ADS-B out potential

The blog doesn’t specify a remote ID or ADS-B out

N/A

Primary battery

On-board components require electricity to function

Our battery is of a slightly higher capacity

Servo connections

Servos need to be connected to the controller to actuate flight controls

Fundamentally the same

Servo connections

Servos need to be connected to the controller to actuate flight controls

JST Female + Male 2 pin connector set

Fundamentally the same

Additional standalone RID module

Remote ID is required for all drones operated outside of a FRIA.

The blog doesn’t specify a remote ID module

N/A

Mounting of avionics units

Velcro attachments mean easy future replacement of defective units

Fundamentally the same

Computer power cord for powering battery charger

Battery charger must be connected to AC power to operate

No charger was specified in the blog

N/A

Primary propulsion motor

Required to turn propellers for flight

Fundamentally similar - brushless DC motor

Flight control actuation

The flight controls require an electronic component to move and control the airplane in its axes

Bluebird BMS-393DMH

Fundamentally similar - standard servos

Forward propulsion

Rotated by the engines to provide thrust for flight

APC Style 10x7E

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