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Turbo Ace MATRIX-i-FPV-3D + 14SG: NAZA V2, GPS, Gyrox-3D, H7, 8" Monitor, VTX, VRX, Telemetry, 8000mah, B601

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MSRP: $6,400.00
Price: $4,199.00
Out of stock
Item Number: MATRIXi-FPV+14SG+NZ2+Gyrox3D+Tel+8000+B601
Manufacturer: Turbo Ace
Manufacturer Part No: MATRIXi-FPV+14SG+NZ2+Gyrox3D+Tel+8000+B601


A game changer in aerial video and photography, Matrix is spawning a new era in super quadcopter designs. Sporting low profile architecture, its quadruple carbon fiber deck supports a generous 1000mm wingspan that's foldable down to fit inside an optional carry-on aluminum case for portability. No dismounting and remounting of propellers, landing skids or gimbal are required. Matrix's upgraded motors, advanced carbon ropellers and powerful 6-cell batteries offer up to 3 times the flight time and payload of traditional quadcopters. Ideally front mounted camera and brushless gimbal delivers wide-angle views unobstructed by propeller shadows, reflections and landing skids. Unprecedented vibration isolation on the upper decks provides optimal operating conditions for camera, gimbal and flight controller in up to 40mph wind gusts. Elimination of all structures associated with cumbersome undermounted gimbals lowers the center of gravity while greatly improving aerodynamics for top speeds that exceed 60mph.


carry case for matrix


  • Turbo Ace MATRIX-i Quadcopter System
  • Futaba 14SG Transmitter + R7008SB Receiver + Telemetry Voltage Sensor
  • Naza-M V2 Flight Controller + PMU (Power Management Unit) + GPS System (Functions listed on the next line.)
  • GPS-Lock, Return-to-Home, Course-Lock, Home-Lock
  • Gyrox-3D Brushless 3-Axis Gimbal for GoPro Hero3/3+/4 Cameras (Camera is not included.)
  • H7 Vibration Isolation System
  • FPV 8" Monitor with Sunscreen + Battery + Mounting Bracket for Transmitter
  • FPV Video Transmitter + Video Receiver + Cables for Hero3/3+/4
  • 3x Carbon Fiber Decks
  • 4x Foldable Arms
  • 4x Foladable Extended Adjustable Landing Skids
  • Foldable GPS Compass with Anti-Slip Bracket
  • 4x Upgraded Ultra Efficient Brushless Motors
  • 4x 40A ESCs with Cooling Algorithm
  • 4x 15" TM Carbon Fiber Propellers
  • 10,000mAh 25C 6S (22.2V) LiPo Batteries for Trubo Ace Matrix
  • Voltage Converter for Gyrox3 Brushless Gimbal
  • B601 Professional Programmable Wall Charger
  • User Instruction Manual in Flash Drive




  • Triple Deck Carbon Fiber Architecture
  • C4 Vibration Isolation Deck to eliminate jello effect on videos
  • Foldable Arms that locks into portable or operating positions
  • Naza-M Lite, Naza-M V2 & A2 Flight Controller Selection
  • GPS & Compass Functions include GPS-Lock, Home-Lock, Course-Lock & Return-to-Home
  • Brushless Gimbal for gyro based auto-stabilization or Hard Mount with Vibration Isolation Options
  • Centrally Located Rotation for camera & gimbal auto-stabilization eliminates the pendulum effect
  • 42mm Brushless Motors dynamically balanced to minimize vibrations
  • 40amp ESCs with Cooling Algorithm overspecced to support extended high torque operations 
  • 15inch Extra Heavy Duty Carbon Fiber Propellers to resist flexing and warping under heavier payloads
  • 2.4GHz Standard & Long Range Walkera, Spektrum & Futaba Transmitters, Receivers & Telemetry
  • Multiple Battery Mounting Positions on both top or bottom of main frame
  • Single 8,000-10,000mah 6S (22.2V) LiPo Battery Options
  • B601 or Quattro Professional Wall Charger Options
  • Adjustable Landing Skid for a variety of surfaces
  • Foldable GPS Compass with Locking Bracket for consistent alignment
  • Adjustable Arms Mounting Position for aggressive forward sports flight
  • FPV Live Feed Video available for a selection of cameras
  • Flash Memory with detailed instructions
  • Heavy Duty Aluminum Carrying Case option to fit Matrix, transmitter, gimbal & more.
  • Training Package options including small crash resistant quadcopters & flight simulators


  • Dimensions Wingspan (including propellers): Diagonal=1110mm, Front=1000mm, Back=935mm
  • Dimensions Operating Position (including propellers): W=760mm, L=760mm, H=130mm
  • Dimensions Folded Position (including propellers): W=295mm, L=780mm, H=110mm
  • Dimensions Motor to Motor: Diagonal=725mm
  • Maximum Payload Capacity: Gimbal+Camera+Accessories=3.5LB, Gimbal+Camera+Accessories+8000mah Battery=6.2LB
  • Maximum Optimal Payload Capacity: Gimbal+Camera+Asscessories=2.5LB, Gimbal+Camera+Accessories+8000mah Battery=5.2LB
  • Matrix Weight without Payload/Battery: 4.8LB
  • Typical Operating Weight with Hero4/3+/3: Matrix+Gyrox-3+VTX& Power (5.33LB)+ Hero4/3+/3 (.17LB) +VTX+8,000mah Battery (2.5LB) = 8LB
  • Typical Operating Weight with Sony NEX 5R: Matrix-E+Gyrox-5R+VTX&Power (5.5LB) + NEX-5R+Lense (1LB), 8,000mah Battery (2.5LB) = Total: 10LB
  • Motors: Diameter=42mm, Height=35mm
  • ESC: 40amp
  • Propellers: 2xCW & 2xCCW, 15" Extra Robust Carbon Fiber Constructions, Dual Position Mount
  • Flight Time: Matrix + 22,000mah 6S Battery + Brushless Gyrox-3 Gimbal + Hero4/3+/3 = 40-42min
  • Flight Time: Matrix + 2x 10,000mah 6S Battery + Brushless Gyrox-3 Gimbal + Hero4/3+/3 = 38-40min
  • Flight Time: Matrix + 16,000mah 6S Battery + Brushless Gyrox-3 Gimbal + Hero4/3+/3 = 36-38min
  • Flight Time: Matrix + 10,000mah 6S Battery + Brushless Gyrox-3 Gimbal + Hero4/3+/3 = 26-29min
  • Flight Time: Matrix + 8,000mah 6S Battery + Vibration Isolation Carbon Plates + Hero4/3+/3 = 27-30min
  • Flight Time: Matrix-S + 8,000mah 6S Battery + Brushless Gyrox-3 Gimbal + Hero4/3+/3= 22-25min
  • Flight Time: Matrix-E + 8,000mah 6S Battery + Brushless Gyrox-5R Gimbal & Sony NEX-5R = 12-15min
  • Transmitter & Receiver Recommendation: 2.4GHz, Minimum 6-Channels, Optimal 7-Channels or more
  • Standard Distance Operations: 300 to 500 feet (Using Walkera Devo 10 & Most Other Name Brand Transmitters)
  • Long Distance Operations: 4,224 feet (.8miles) to 6,336 feet (1.2miles) (Using Spektrum DX8/DX18 & Futaba 14SG)
  • FPV Recommendation: 5.8GHz Video Transmitter & Video Receiver + Monitor or Goggles
  • Wind Tolerance: Class 5
  • Aluminum Case Dimensions: L=935mm, W=410mm, H=145mm

Leapfrogging quadcopter records with ease, the sporty new Matrix is crushing all competitions with its super sized wingspan. Yet, it folds down nicely to fit in a professional aluminum case along with the transmitter radio. Matrix's super efficient 6-cell system powers 4 muscular 42mm brushless motors driving 15" carbon fiber propellers for unparalleled lifting capacity and stability. Conceptualized by master FPV pilots, Matrix is a quadcopter designed for rather than adapted to carrying cameras. To satisfy an almost insurmountable list of high expectations, Turbo Ace engineers set out on a journey of innovation and discovery. Applying more than 85 years of combined helicopter and multi-rotor expertise between our master pilot group, engineers and designers, the Matrix represents an ultimate breakthrough in quadcopter engineering and optimization. To search for the ultimate mix of performance and durability, Turbo Ace developers matched up countless motors, ESCs and propellers combinations followed by series of unrelenting updates and test flights. From planning and implementing the best components on a foldable structure, setting and meeting new milestones in flight time and payload, to executing crucial requirements for flight and camera stabilization, the Turbo Ace Matrix is truly a quadcopter beyond its time.   

Matrix's big breakthrough is a 25-minute flight time carrying the #1 selling GoPro Hero4/3+/3 stabilized on the ultra fast 2-axis brushless Gyrox3 gimbal. Cutting out the gimbal but keeping the Hero4/3+/3 on a vibration isolation plate will extend Matrix flight time beyond the amazing 30min threshold. Despite many unrealistic claims, the closest competition offers less than half the flight time. At about 3 times the size of a mid-sized quadcopter, heavier payloads exert disproportionatelly less impact on Matrix flight time than smaller quadcopter flight time. Without exception, even the top selling mid-sized quadcopters with 8" to 10" propellers will max out at 5-6 minutes with Hero4/3+/3 and gimbal onboard.  It's common for both vendors and end users to exaggerate or manipulate payload and flight time by gutting critical components inside quadcopters and cameras.
Tired of propellers and landing skids framing your video? The Matrix's nose offers an ideal location with unobstructed view - no propellers even in wide angle videos, no skid landing when pointed down and no more annoying propellers shadows on the lenses. Although these are nagging issues, there are even more crucial factors in achieving stability. Because traditionally mounted cameras are about 8 inches below the main hub, a quadcopter's roll causes the camera to swing like a pendulum. Although a good gimbal is able to compensate for the roll axis movement, it's unable to address the horizontal movement that causes a video to shift from side to side as if a skater is holding the camera. By moving the gimbal and camera up to the level of the propellers, the Matrix design has basically eliminated the pendulum effect. Last but not least, gimbals are only as stable as the foundation they are mounted on. Bypassing the weight and slack of unstable undermounted gimbal platforms, Matrix's gimbal is mounted directly on the main frame to prevent oscillation from surfacing.

In housing and supporting an extensive list of stock and upgrade components on a super-scaled quadcopter, Matrix's triple decked carbon fiber structure is extremely strong and versatile. Four foldable arms which double as supporting beams are securely sandwiched between the lower decks along with multiple ventilated ESC positions. The middle deck houses and protects all critical electronic components such as the flight controller, the GPS, LED and other optional systems. Versatile Battery and ESC mounting positions allows the operator to shift CG (center of gravity) upward, downward, forward and backward to accommodate a wide variety of payloads and flight characteristics. Mount the battery below the lower deck for more stable flights or move the battery to the upper deck to increase maneuverability. And to counter balance different camera payloads, you can shift the battery, ESCs and arms into optimal positions for proper CG.

High frequency vibration on cameras is the principal cause of jello effects on videos. Implemented on a vast scale, Matrix's C4 vibration isolation deck offers a comprehensive anti-vibration solution for gimbal, camera and flight controller. In contrast to skimpy isolation plates, rubber bands or balls, Matrix's C4 vibration roadblock encompasses the entire surface and mass of the upper decks including the weight of a top mounted battery to neutralize vibrations. By including an extra layer of vibration dampening for the flight controller, Matrix is also preserving a common practice amongst professional pilots. A flight controller's sensitive gyro system can often misinterpretate vibrations as part of an aircraft movement, leading to adjustments and counter adjustments that generates more vibrations. By addressing the cause and effect of vibrations, the Matrix platform offers the epitome of production quality videos without the risk and disappointment of software stabilization.


No more awkward quadcopter with protruding arms and propellers to lug around. Unlike typical folding mechanisms, the Matrix's arms and landing skids are designed to lock into folded or operating positions so you don't have to sacrifice structural integrity for portability. Implementations of slotted tracks enable fast and secured transitions without the risk losing any hardware. For a day out in the park or a hiking trip, you can retract the arms and skids to reduce the footprint. And for traveling, foldable antenna enable the Matrix and the transmitter to slip comfortably into a professional aluminum case without dismounting the propellers and gimbal. Upon arrival at the flight location the operator can adjust the landing skid height to accommodate rougher terrain. An optional aluminum case even includes cutouts for transmitter, batteries, spare parts & tools. Who knows, you might have a trip planned for Europe and the very versatile Matrix can make a great companion as a carry-on.


For exceptionally smooth flights, Matrix super muscular 42mm brushless motors are dynamical balanced. Since brushless motors are hand wound, the mass center is usually not in alignment with the mechanical center. Using advanced electronic balancing instruments, our factory spins up each motor then make proper adjustment to bring the mass center into alignment. Then to control and power the motors, Matrix 40A ESCs feature advanced multi-rotor algorithms which offers better performance and reliability than generic helicopter algorithms. Over-specced to sustain unrestrained amperage in higher torque for acceleration, extreme maneuvers and bigger payloads, Matrix is engineered to operating below capacity, so mechanical and electronic components stay relatively cooler even with consecutive flights.

No propellers are created equal. 15" Matrix robust carbon fiber propellers are sculpted with extra thick mid-section to resists flex then tapers to efficient blades to cut through the air with minimal resistance. Traditional circular mounts are accidents waiting to happen because the force of rotating propellers will eventually unscrew the crown nuts during flight. Integrated double point mounts on Matrix motors and propellers eliminate this possibility and at the same time improve tracking precision because the propellers are forced to sit flat against the top of the motors. Another benefit of a flat mount is that there are no vulnerable protruding motor shafts. Slight deviations in traditional circular mounting holes or protruding motor shafts are extremely difficult to detect which magnify pitch and tracking variances, a major cause of vibrations and unstable flights. Since end-users are often required to purchase and mount propellers, Matrix's new hassle free mounting configuration is implemented to prevent vibration issues from surfacing.

A 3-positioned switch is setup on Matrix' transmitter for pilot to select between 3 different flight modes. (1) With Manual Flight Mode, the absence of Gyro assisted flight makes it very difficult for the Pilot to stabilize and maneuver the quadcopter. (2) For 3-axis gyro auto-stabilized flight, the Attitude Flight Mode will automatically keep the Matrix in a leveled and sustainable flight thus enabling the pilot to focus on maneuvering the quadcopter. (3) Finally, the GPS Flight Mode is the most often used mode because it combines the benefit of 3-axis gyro auto-stabilized flight with 4 advanced GPS based functions described below.

Under GPS Flight Mode, (1) one of the most utilized GPS based functions is the GPS-Lock function. Simply release the cyclic stick and allow it to spring to the middle of the control and the Matrix will be locked into a fixed GPS location (longitude-lock and latitude-lock) with a tolerance of 3 to 5 feet radius. Another similar function from the Matrix flight controller, the Barometric-Lock can be activated by moving the throttle stick to the middle of the control and the Matrix will be locked into a fixed elevation (altitude-lock). A hands-free hover modes is established when the pilot activates both the GPS-Lock and the Barometric-Lock simultaneously and the flight controller takes over. Either lock may also be used independently to hover in a fixed GPS coordinate with pilot controlled elevation or the longitude/latitude. By relinquishing controls to these auto-hover modes, the pilot can better focus on monitoring the video and controlling the camera. (2) Another popular GPS function is the Return-to-Home feature, a preprogrammed failsafe function that's automatically triggered by lose of remote control signals. Upon activation, the quadcopter will hover in place for a couple of seconds before elevating to a preprogrammed height and return to the home position for an automated landing sequence.

Under GPS Flight Mode, there is dedicated 3-positioned carefree mode switch set up to access (3) Course-Lock, a compass based carefree mode that remembers the initial take-off direction of the flight which is used to consistently orient the quadcopter. Under Course-Lock, the transmitter radio must remain in the initial take-off direction until it's reset or until the quadcopter lands. For example, with the transmitter pointed in the eastward direction, a quadcopter takes off in eastward heading orientation then turns towards a northward heading. Without Course-Lock, a transmitter cyclic (directional) stick moved up towards the east will cause the quadcopter to head northward. Under Course-Lock, a cyclic stick moved up towards the east will cause the quadcopter to head eastward which is consistent with the initial take-off direction. In fact, by keeping the transmitter pointed in the initial eastward take-off direction, the cyclic stick direction will always correspond to the direction of the quadcopter no matter how the heading has changed. At any time the pilot may reset the initial direction by flipping the Carefree Mode Switch in and out of Course-Lock. (4) Lastly, there is another similar carefree mode with a twist. Home-Lock, a home coordinate based carefree mode is very similar to Course-Lock. The difference is that Home-Lock uses the home location as the consistent tail-in orientation for the entire flight. While this allows the pilot to constantly turn and follow the quadcopter, the pilot should not move away from the home location. And because GPS has a tolerance of 3-5 feet, Home-Lock is less precise than Course-Lock. However, as the quadcopter gains more distance from the home position the precision improves dramatically. This is why Home-Lock will not and cannot be activated within a 30-feet circle from the home position. To use Home-Lock, the pilot usually maintains a tail-in orientation until the quadcopter is well beyond the 30-feet circle before assuming that Home-Lock has activated. At this point the pilot can constantly turn and point the transmitter at the quadcopter and the cyclic stick will always correspond directly to the quadcopter's direction. To bring the quadcopter back, the pilot simply pulls the cyclic towards himself - basically a manual controlled return-to-home function. Special caution is required when the quadcopter approaches the 30-feet circle because Home-Lock will automatically switch to Course-Lock. If the quadcopter enters the 30-feet circle from the initial take-off direction so that Home-Lock is equal to Course-Lock the pilot can assume that the quadcopter is under Course-Lock until the quadcopter lands. In summary, an experienced pilot uses the "Normal" flight mode because no help is required from GPS. Both Course-Lock & Home-Lock carefree flight modes enable the operator to pilot the quadcopter without keeping track of the quadcopter's tail position. This is especially useful if a less experienced pilot is rotating the quadcopter to pan the video. There is much less confusion for beginner pilots to stick with either "Normal" mode or use GPS assisted Course-Lock. Home-Lock is usually reserved for longer distance within-the-line-of-sight flight because it's a bit confusing to operate when it approaches the home position.

All Matrix material and components are selected and built for reliability and durability. Premium carbon fiber is utilized in the main frame for its rigidity and light-weight properties. Wear resistant CNC aluminum is utilized in screw-mounted joints, brackets and posts. Tough Japanese bearings are implemented to guard against higher temperatures. Then for continued maintenance, Matrix is based on a modularized design with strategically placed high tensile strength connectors so it's extremely easy and cost effective to maintain and operate. With minimal disassembly, components can be independently removed and replaced to diagnose and repair problems. As with all Turbo Ace production models, well stocked Matrix parts and upgrades are manufactured in larger volumes and savings are passed on to end-users. Operators are encouraged to keep some backup parts such as spare propellers, screws and batteries for replacement. Complimentary Turbo Ace videos are available online to assist operators in maintaining and upgrading the Matrix. 

Catering to research professionals and avid hobbyists, the Matrix welcomes a full spectrum of specialized modifications. An open architecture supports unparalleled flexibility for arm and frame extensions, variable motor mount options and ample space for peripheral integration. To get a head start on more advanced integrations, you can get an upgrade from the DJI Naza-M Lite to either the Naza-M V2 or WooKong flight controllers that are all supported with continued online updatable firmware. Multiple adjustable mounting positions are pre-drilled to accommodate third party gimbal integration.




  • Support Multi-Rotor: Quad-Rotor I4, X4/ Hex-Rotor I6, X6, IY6, Y6
  • Supported ESC Output: 400Hz Refresh Frequency
  • Recommended Transmitter: PCM or 2.4GHz with minimum 4 channels
  • Working Voltage Range: MC: 4.8V~5.5V
  • Power Consumption: MAX 1.5W (0.3A@5V), Normal: 0.6W (0.12A@5V)
  • Operating Temperature: -10 ~ 50 degree Celsius
  • Assistant Software System Requirement: Windows XP sp3 / Windows 7 / Windows 8
  • Maximum Yaw Angular Velocity: 200 Degree/Sec
  • Maximum Tilt Angle: 45 Degree
  • Ascent / Descent: +-6m/Sec
  • MC: 25g
  • GPS/Compass: 21.3g
  • VU: 20g
  • Dimensions: MC: 45.5mm x 31.5mm x 18.5mm, GPS/Compass 46mm (diameter) x 9mm, VU 32.2mm x 21.1mm x 7.7mm
  • Built-in Functions: Three Modes Auto-pilot, Enhanced Failsafe, Low Voltage Protection, S-Bus Receiver Support, PPM Receiver Support, 2-Axis Gimbal Support




  • Support Multi-Rotor: Quad-Rotor I4, X4/ Hex-Rotor I6, X6, IY6, Y6/
    Octo-rotor I8,V8,X8
  • Supported ESC Output: 400Hz Refresh Frequency
  • Recommended Transmitter: PCM or 2.4GHz with minimum 4 channels
  • Working Voltage Range: MC: 4.8V~5.5V
  • Working Voltage Range: PMU input: 7.4V to 26.0V (recommend 2S to 6S Lipo)
  • Power Consumption: MAX 3.15W (0.25A@12.6V), Normal: 1.638W (0.13A@12.6V)
  • Operating Temperature: -10 ~ 50 degree Celsius
  • Assistant Software System Requirement: Windows XP sp3 / Windows 7 / Windows 8
  • Maximum Yaw Angular Velocity: 200/s
  • Maximum Tilt Angle: 45
  • Ascent / Descent: +-6m/s
  • MC: 27g
  • GPS/Compass: 27g
  • PMU: 28g
  • LED: 13g
  • Dimensions: MC: 45.5mm x 32.5mm x 18.5mm, GPS/Compass 46mm (diameter) x 10mm, PMU 39.5mm x 27.5mm x 10.0mm, LED 25mm x 25mm x 7.0mm
  • Built-in Functions: Three Modes Auto-pilot, Enhanced Failsafe, Low Voltage Protection, S-Bus Receiver Support, PPM Receiver Support, 2-Axis Gimbal Support



Based on the technology and design philosophy of DJI’s Ace series of high-performance controllers, the A2 offers you a brand new flight experience. The A2 adopts a full metal case design and utilizes high quality components precisely calibrated with temperature compensation in all gyros and sensors, industry renowned flight algorithm in flight control and UAV field.


  • Supported Multi-Rotor: Quad-Rotor: +4,x4; Hex-Rotor +6,x6,Y6,Rev Y6; Octo-Rotor +8,x8,V8
  • Supported ESC Output: 400Hz refresh frequency
  • Supported Transmitter for Built-in Receiver: Futaba FASST Series and DJI DESST Series
  • Supported External Receiver: Futaba S-Bus, S-Bus2, DSM2
  • Recommended Battery: 2S ~ 6S LiPo
  • Operating Temperature: -5°C to +60°C
  • Assistant Software System Requirement: Windows XP SP3 / 7 /8 (32 or 64 bit)
  • Other DJI Products Supported: Z15,H3-2D,iOSD,2.4G Data Link,S800 EVO

Flight Performance

  • Hovering Accuracy (In GPS Mode): Vertical: ± 0.5m; Horizontal: ± 1.5m
  • Max Yaw Angular Velocity: 150 deg/s
  • Max Tilt Angle: 35°

Electrical & Mechanical

  • Power Consumption: MAX 5W (Typical Value: 0.3A@12.5V
  • Built-In Functions: Built-in Receiver; Multiple Control Modes; 2-axis Gimbal Supported; Low Voltage Protection; PC & Bluetooth Ground Station
  • Built-In Functions: External Receiver Supported; Intelligent Orientation Control; Sound Alarm; 4 Configurable Output
  • Total Weight: Total Weight: <= 224g(overall)
  • Flight Controller Dimensions: 54mm x 39mm x 14.9mm
  • IMU Dimensions: 41.3mm x 30.5mm x 26.3mm
  • GPS-Compass Pro Dimensions: 62mm (diameter) x 14.3mm
  • LED-BTU-I Dimensions: 30mm x 30mm x 7.9mm
  • PMU Dimensions: 39.5mm x 27.6mm x 9.8mm

Aerial camera mounted under quadcopter serves two main purposes. (1) First and foremost, cameras are used for the purpose of recording videos or taking still photographs. Preferably, a DSLR camera is mounted on an auto-stabilized gyro based gimbal (camera mount) to stabilize the camera's horizon. (2) For more experienced pilots, a camera can be used for the purpose of piloting the quadcopter from the point of view of the camera aka FPV (first-person-view) piloting. If the camera is either mounted directly on the quadcopter without stabilization so the pilot can experience the tilt (pitch) & roll of the hexacopter. If the camera is auto-stabilized, OSD (on-screen-display) may be required to overlay artificial horizon and flight status on live feed video.

600TVL Camera

  • Super Compact at 1"x1"x1" Approximate Dimension
  • Extremely Light
  • Convenient 2-way Tape Mounting facilitates an easy way to change PFV location.
  • For FPV Piloting: 600TVL camera is hard mounted on the hexacopter's frame so pilot can see the video's tilt & roll action of the hexacopter.
  • For Framing Videos: 600TVL camera is mounted on the bottom of the brushless gimbal which is aligned with the Hero4/3+/3 on the gimbal.

GoPro Hero4/3+/3

  • Adjustable Ultra Wide Angle Lenses
  • 2X Faster Image Processor
  • 2X Low Light Performance
  • 12MP Image Sensor for high definition photos
  • HD Video from 1080p at 60 fps to 4K at 15 fps
  • Wi-Fi enables all camera function to be remotely controlled at up to 500 feet.

Employing vibration isolation mount for camera can significantly dampen high frequency vibrations to prevent rolling shutter & jello effects on videos. And for more professional applications, we can optionally add gyro based camera mounts to automatically stabilize cameras to accommodate quadcopter's tilt & roll movements to maintain a leveled video horizon. To control the camera's aim, a dial switch on the transmitter radio enables the pilot to tilt the camera up or down. With the freedom to maneuver and turn the quadcopter from different perspectives, heights and angles, one can achieve an endless variety of high quality shots and videos.

H3 Vibration Isolation Plates System

  • Vibrations Dampening (for GoPro Hero4/3+/3 & other small cameras)
  • GoPro Tripod Mount & Tripod Screw
  • Super Light Weight Configuration Enables Dual Battery Setup for Extended Flight Time 

C4 Vibration Isolation Deck & C7 Vibration Isolation Supplement

  • Ultimate Vibration Isolation Between Top 2 Decks & Bottom 2 Decks
  • Isolated Top 2 Decks Offers Mounting Locations for Gimbal & Flight Controller
  • Optional C7 Vibation Isolation Supplement for Larger/Heavier Gimbals (Gyrox-5$ & Gyrox-5B)
  • Optionion Gimbal Motor Mount (TA-MAT-06 for Gyrox-3) (TA-MAT-50 for Gyrox-5R & Gyrox-5B)

Gyrox-3 Brushless 2-Axis Gimbal

  • Super Fast Auto-Stabilized Roll-Axis
  • Super Fast Pilot Controlled & Auto-Stabilized Tilt-Axis
  • Expanded Tilt-Axis Angle Enables the Camera to Point Straight Down
  • Optimized Stabilization & Mounting for GoPro Hero4/3+/3 Camera Only

FPV Live Feed Video
Live feed video enables the pilot or cameraman to see real time videos from the camera's point of view which is synonymous to FPV (first-person-view). In contrast to slower and shorter distanced WiFi video streaming on cameras, aerial FPV requires much longer distance transmission without visible delay. A video transmitter is usually attached to a camera's video-out port transmits the video signals. A matching video receiver located next to the pilot or cameraman receives the video signal that is then plugged into a monitor's video-in port for displaying the video. There are 2 main purposes for aerial FPV. (1) To enable pilot/cameraman to see and frame videos or still shots by adjusting the gimbal and/or the quadcopters location and orientation. (2) To enable pilot to see and fly from the point of view of the camera (view from the cockpit). If a camera is hard mounted without auto-stabilization, the video will reflect the tilt (pitch) and roll of the quadcopter. If a camera is auto-stabilized on a gimbal, an OSD (on-screen-display) may be implemented to overlay artificial horizon and flight data on the auto-stabilized video that does not reflect the tilt and roll of hexacopter.

FPV From 600TVL Camera

  • Lighter TVL camera is easy to set up and promotes longer flight time.
  • Composite video output & standardized plug enable simple connection to video transmitter.
  • Hard mounted on the Hexacopter, TVL camera can be used for FPV piloting & surveillance.
  • Mounted on under or above the gimbal, TVL camera can be aligned with DSLR camera for framing your videos and stills.

FPV From Hero4/3+/3 or HD Camera

  • You can see exactly what the Hero4/3+/3 or HD camera is capturing for framing your video and stills.
  • Special cable connector is provided for video transmitter to plug into the Hero4/3+/3 or HD camera's video out port
  • Examples of cameras supported: Hero4/3+/3 & Sony NEX 5N/6N/7N


Due to safety and equipment concerns, transmitter reliability is crucial in professional quadcopter operations. Without an established standard of verification, it's common place for transmitter brands to overstate operating distance by discounting the importance of reliability. A typical transmitter spec for 2,000 feet range may only be reliable 80% of the time and you can easily lost your equipment in several flights at 300 feet. Only extensive field testing over several months - not biased reviews based on several test flights - are true indicators of consistently reliable operating range.


Walkera F7 Transmitter

  • 2.4GHz Transmitter with 7 Channels
  • RX701 Receiver with 7 Channels
  • Telemetry Installed for Updated Flight Battery Status to Trigger Low Battery Alarm
  • Standard Distance of 300-500 Feet
  • Build-in 3.5" Color LCD Screen for FPV Live Video Display
  • Compatible only with DV04 Camera


Walkera Devo 10 Transmitter

  • 2.4GHz Transmitter with 10 Channels
  • RX1002 Receiver with 10 Channels
  • Telemetry Installed for Updated Flight Battery Status to Trigger Low Battery Alarm
  • Standard Distance of 300-500 Feet
  • A Practical and Cost Effective Solution 


Spektrum DX8 Long Distance Transmitter

  • 2.4GHz DSMX Transmitter with 8 Channels
  • AR8000 Receiver Package with 8 Channels
  • Main Receiver & Satellite Receiver Strategically Placed for Signal Path Diversity
  • TM1000 Telemetry Installed for Updated Flight Battery Status to Trigger Low Battery Alarm
  • Reliable Standard & Long Distance of 1 to 1.2 Mile
  • 2013’s #1 Selling & User Friendly Transmitter


Spektrum DX9 Long Distance Transmitter

  • 2.4GHz DSMX Transmitter with 9 Channels
  • AR9020 Receiver Package with 9 Channels
  • Main Receiver & 2x Satellite Receivers Strategically Placed for Signal Path Diversity
  • TM1000 Telemetry Installed for Updated Flight Battery Status to Trigger Low Battery Alarm
  • Reliable Standard & Long Distance of 1 to 1.2 Mile
  • Upgraded Robust Antenna
  • 2014’s #1 Selling & User Friendly Transmitter


Futaba 14SG Long Distance Transmitter

  • 2.4GHz FASSTEST Transmitter with 14 Channels
  • R7800SB Bi-Directional Receiver with 8 Channels (Optional: R6106HFC Receiver for 6 additional channels)
  • S.Bus2 Bi-Directional Protocol for Additional Servos, Telemetry & Other Auxiliary Functions
  • Telemetry Voltage Sensor Installed for Updated Flight Battery Status to Trigger Low Battery Alarm
  • Ultra Reliable Standard & Long Distance of 1 to 1.2 Mile (Upgradable to EZUHF for up to 25 miles)
  • Overwhelmingly Recommended by Professional RC Pilot Groups

Standard remote control transmitters and receivers utilized with the Matrix quadcopter operate under FCC Part 15 (S29DEVO-10, BRWDAMTX11, AZPT14SG-24G, S29TX5803) in either legal 2.4GHz and/or 5.8GHz frequencies. In general, advanced quadcopters require a minimum of 7 channels under the 2.4GHz frequency range: 4 channels for piloting controls, 2 channels for the GPS and 1 channel for controlling the tilt-axis of the gimbal. Extended distance transmitters usually employ several methods to promote signal strength and reliability. (1) Frequency-hopping spread spectrum (FHSS) is a method of transmitting radio signals by rapidly switching between several frequencies to seek the least amount of traffic. (2) Dual paths diversity enable the signals to reach two receivers or antennas mounted in different locations on the quadcopter so the system can utilize the strongest signal path. Bi-directional communications between transmitter and receiver can also utilize feedback signal strength to traget the best frequencies in real time (3) In case of signal disruptions, algorithm for ultra fast signal recovery enables the transmitter and receiver to quickly rebind for uninterrupted operations. Products using permitted frequencies without certification will require an amateur radio (ham) license. It is the operator's responsibilities to ensure the use of such products meet their individual countries' federal and local government's rules or regulations for RF devices. If you are unsure of your government's requirement or unable to comply with them, please do not purchase this product. Please do not alter the purchased product in violation of said rules and regulations because Wow Hobbies cannot be held liable for operator's misuse or modification of a legal product.

There is a myriad of Matrix options to satisfying specific applications. After installation, setup and inspection, our technicians will complete final adjustments plus a series of test flights. If your orders is placed for pick-up, we will redo a live flight-test when you arrive at our showroom. If your order is to be shipped, a test flight video for your specific Matrix order will be recorded, saved and shipped with the instructions in a flash drive. Our Matrix packages are designed to retain all assembled components as a fully integrated system during shipping. To prevent damage, the Matrix quadcopter is suspended in the middle of a large corrugated shipping box.

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