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FMS F-86 The Huff Jet EDF 80 PNP

FMS-F-86-The-Huff-Jet-EDF-80-PNP-PRODUCT-IMAGE

Product Information

Specifications

  • Model: 80mm F-86
  • Model Number: MAN-G0244
  • Material: Rigid EPO
  • Stability: Stable

The 80mm F-86 is a realistic and high-performance model aircraft designed for combat flying. It features a rigid EPO construction, ensuring durability and stability during extreme flight maneuvers. The model comes with a 12-blade 80mm ducted fan, a high-power 3665-KV2000 brushless inrunner motor, and a 100A ESC with a 5A switch-mode BEC. These components provide excellent performance, longer flight times, and a realistic turbine-like engine sound.

  • The model requires a 6S 4000-5500mAh LiPo battery (not included)for power. It is recommended to follow the manufacturer’s instructions for safe use and disposal of LiPo batteries to avoid fire, property damage, or serious injury.
  • The fuselage, wings, and tail of the Sabre model are reinforced with multiple embedded strengthening tubes and reinforcement plates, ensuring structural strength during extreme flight maneuvers. The two-piece design of the fuselage allows for easy transport and storage. The model is available in two classic schemes: THE HUFF and SKYBLAZERS.

Features

  • Realistic design
  • Rigid EPO construction
  • Stable flight performance
  • 12-blade 80mm ducted fan
  • High-power 3665-KV2000 brushless inrunner motor
  • 100A ESC with 5A switch-mode BEC
  • Requires 6S 4000-5500mAh LiPo battery (not included)
  • Embedded strengthening tubes and reinforcement plates
  • Two-piece fuselage design for easy transport and storage
  • Available in two classic schemes: THE HUFF and SKYBLAZERS

Product Usage Instructions

Kit Contents Inspection

  • Before assembly, please inspect the contents of the kit. The photo below shows the contents of the kit with labels. If any parts are missing or defective, please identify the name or part number (refer to the spare parts list near the end of the manual) and
  • contact your local shop or email us at support@fmsmodel.com.

Main Wing Installation

  1. Align and slide the wing spar into the fuselage.
  2. Press the left and right door covers down to the bottom (closed position) and attach the left and right wings with landing gear to the fuselage. Ensure that the connectors on both sides are attached precisely and firmly.
  3. Secure the wings on the fuselage using the included screws (HKM3.0*10mm x 6).

Rear Fuselage Installation

  1. Thread the extension wire from the front fuselage through the rear fuselage trough.
  2. Align and install the rear fuselage to the rear of the front fuselage in the corresponding slot.
  3. Use the flap channel of the remote control to open the airbrake and secure the rear fuselage horizontally into place using the included screws (cHKM3.0*10mm x 2).
  4. With the bottom of the fuselage facing up, secure the front and rear fuselage using the included screw (HKM3.0*10mm x 1).

Vertical Tail and Horizontal Tail Installation

  1. Align and connect the elevator servo plugs and LED plugs to the servo extensions located within the fuselage.
  2. Carefully insert the horizontal stabilizer into the horizontal stabilizer slot of the fuselage and secure it using the included screw (HKM3.0*10mm x 1).

Frequently Asked Questions (FAQ)

  1. Q: What type of battery does the 80mm F-86 require?
    A: The 80mm F-86 requires a 6S 4000-5500mAh LiPo battery.
  2. Q: Are LiPo batteries included with the model?
    A: No, LiPo batteries are not included. They need to be purchased separately.
  3. Q: How should I secure the wings on the fuselage?
    A: The wings should be secured using the included screws (HKM3.0*10mm x 6) after aligning and attaching them to the fuselage.
  4. Q: Can I transport and store the model easily?
    A: Yes, the two-piece design of the fuselage reduces packaging size by thirty percent, facilitating easy transport and storage.
  5. Q: How many classic schemes are available for the Sabre model?
    A: The Sabre model is available in two classic schemes: THE HUFF and SKYBLAZERS.

Instruction Manual

WARNING

  • WARNING: Read the ENTIRE instruction manual to become familiar with the features of the product before operating.
  • Failure to operate the product correctly can result in damage to the product, personal property and cause serious injury.
  • This is a sophisticated hobby product and NOT a toy. It must be operated with caution and common sense and failure to do so could result in injury or damage to the product or other property. This product is not intended for use by children without direct adult supervision.
  • This manual contains instructions for safety operation and maintenance. It is essential to read and follow all the instructions and warnings in the manual prior to assembly, setup or use, in order to operate and avoid damage or serious injury.

Safety precautions and warnings

  • As the user of this product, you are solely responsible for operating in a manner that does not endanger yourself and others or result in damage to the product or the property of others. This model is controlled by a radio signal subject to interference from many sources outside your control. This interference can cause momentary loss of control so it is advisable to always keep a safe distance in all directions around your model, as this margin will help avoid collisions or injury. Age Recommendation: Not for children under 14 years. This is not a toy.
  • Never operate your model with low transmitter batteries.
  • Always operate your model in an open area away from cars, traffic or people.
  • Avoid operating your model in the street where injury or damage can occur.
  • Never operate the model in populated areas for any reason.
  • Carefully follow the directions and warnings for this and any optional support equipment you use (chargers, rechargeable battery packs, etc.)
  • Keep all chemicals, small parts and anything electrical out of the reach of children.
  • Moisture causes damage to electronics. Avoid water exposure to all equipment not specifically designed and protected for this purpose.
  • Never lick or any place of any your model in your mouth as it could cause serious injury or even death

SAFETY

Lithium Polymer (Li-Po) Battery Warning
CAUTION: Always follow the manufacturer’s instructions for safe use and disposal of batteries. Fire, property damage, or serious injury can result from the mishandling of Li-Po batteries.

  • By handling, charging or using a Li-Po Battery you assume all risks associated with lithium batteries.
  • If at any time the batteries begin to swell or balloon, discontinue use immediately!
  • Always store the batteries at room temperature in a dry area to extend the life of the battery. Always transport or temporarily store the battery in a temperature range of 40-120F. Do not store the battery or model in a car or in direct sunlight.
  • If stored in a hot car, the battery can be damaged or even catch fire.
  • Never use a Ni-Mh Charger to charge Li-Po Batteries. Failure to charge the battery with a Li-Po compatible charger may cause fire resulting in personal injury and property damage.
  • Never discharge Li-Po Cells below 3V.
  • Never leave charging batteries unattended.
  • Never charge damaged batteries.
  • Charging the Flight Battery Warning
  • Use a battery charger that is designed to safely charge the Li-Po Battery. Read the charger instructions care fully before use. When charging the battery, make certain the battery is on a heat resistant surface. It is also highly recommended to place the Li-Po Battery inside a fire resistant charging bag readily available at hobby shops or online.

Introduction

  • Background
  • After the end of World War II, the United States and the Soviet Union brought back aviation experts, data, and equipment from Germany to create their own jet fighter aircraft. The
  • F-86 fighter jet, nicknamed “Sabre,” was a swept-wing jet fighter developed by the United States. It was the first-generation jet fighter in service with the U.S. Air Force, capable of air-to-air combat, aerial interception, and bombing missions. It was also the world’s first fighter aircraft equipped with air-to-air missiles and the first U.S. fighter aircraft with an ejection seat.
  • FMS model
  • Building upon their extensive experience in developing remote-controlled model fighter aircraft, FMS has made significant efforts to faithfully replicate the legendary and classic F 86 “Sabre” with the product standard of “perfect appearance, excellent performance.” The model is filled with numerous realistic details, such as operable landing-gear doors,  retract-able CNC-machined landing gear, movable airbrakes, wing navigation lights (red on the left, green on the right), jet nozzle navigation lights (one red, one white), and
  • landing lights (white). The static model-level exterior details have also been meticulously addressed, including fuel tanks, cockpit interior (molded plastic parts), pitot tubes, and antennas.
  • Eight 13g all-metal digital servos control the ailerons, flaps, rudder, and elevator, precisely executing input commands to simulate the maneuverability of a fighter aircraft, making maneuvers such as pitching, rolling, yawing, and flipping, easily achievable. Three 9g semi-metal servos control the airbrakes, which can increase the drag and reduce the speed of the aircraft, and the operating of the front-landing gear door, which when worked with the sequencer, can simulate the delayed opening and closing of the front-landing gear door, ensuring  synchronization with the movement of the landing gear during the deployment or retraction process, ensuring safety and smoothness.
  • The PNP configuration includes a 12-blade 80mm ducted fan, a high-power 3665-KV2000 brushless inrunner motor, and a 100A ESC (with a 5A switch-mode BEC), designed to be used with a commonly available 6S 4000-5500mAh LiPo battery (to be purchased separately). This high-performance power and control system provides excellent performance, longer flight times, and a more realistic turbine-like engine sound for “combat” flying.
  • Additionally, key areas of the “Sabre” model, such as the fuselage, wings, and tail, are reinforced with multiple embedded strengthening tubes and reinforcement plates, ensuring structural strength during extreme flight maneuvers. The two-piece design of the fuselage reduces packaging size by thirty percent, facilitating easy transport and storage. The model is available in two classic schemes,
  • “THE HUFF” and “SKYBLAZERS,” which are easily recognizable in clear skies or overcast conditions.

Features

  1. Electronic configuration: 80mm 12-blade ducted fan, 3665-KV2000 brushless motor, high-performance 100A ESC, 8x 13g all-metal digital servos, 3x 9g semi-metal servos.
  2. Rich in dynamic and static realistic details, such as operable landing-gear doors, retractable CNC-machined landing gear set, movable airbrakes, navigation lights, landing lights, fuel tanks, scaled cockpit interior, etc.
  3. CNC-machined shock-absorbed full-metal landing gear set effectively countering hard landings.
  4. Two-piece fuselage structure reducing packaging size by thirty percent.
  5. Realistic water-based paint finish, offering a high-quality appearance.

Kit contents

  • Before assembly, please inspect the contents of the kit. The photo below details the contents of the kit with labels. If any parts are missing or defective, please identify the name or part number (refer to the spare parts list near the end of the manual) then contact your local shop or email us: support@fmsmodel.com.

Specifications

Specifications
Wing span:1220mm /48in
Overall length: 1165mm /46in
Flying weight: ~ 3050g
Motor size: 3665-KV2000
Wing load:95.3 g/dm² ( 0.18oz/in²)
Wing area: 32dm²  ( 495.8 sq.in)
ESC: 100A
Servo: 13gX8,9gX3
Recommended battery: 22.2V 4000mAh-5500mAh 45c

 

FMS-F-86-The-Huff-Jet-EDF-80-PNP-IMAGE-1

  • A. Front fuselage
  • B. Rear fuselage
  • C. Main wing set
  • D. Vertical Stabilizer
  • E. Horizontal Stabilizer
  • F. Cockpit
  • G. Screw set(HKM3.0*10mm x 13)
  • H. Antenna and airspeed head
  • I. Wing spar

Model assembly

Main wing installation

  1. Align and slide the wing spar into the fuselage.
  2. Press the left and right door covers down to the bottom (i.e. closed position) and attach the left and right wings with landing gear to the fuselage.
    NOTE: The connectors on both sides should be attached precisely and firmly.FMS-F-86-The-Huff-Jet-EDF-80-PNP-IMAGE-2
  3. Secure the wings on the fuselage using the included screws (HKM3.0*10mm x 6) as shownFMS-F-86-The-Huff-Jet-EDF-80-PNP-IMAGE-3

Rear fuselage installation

  1. Thread the extension wire from front fuselage through the rear fuselage trough, align and install the rear fuselage to the rear of the front fuselage in the corresponding slot as shown.
  2. Use the flap channel of the remote control to open the airbrake and use the included screws (HKM3.0*10mm x 2) to secure the rear fuselage horizontally into placeFMS-F-86-The-Huff-Jet-EDF-80-PNP-IMAGE-4
  3. With the bottom of the fuselage facing up, Secure the front and rear fuselage using the included screws (HKM3.0*10mm x 1) .FMS-F-86-The-Huff-Jet-EDF-80-PNP-IMAGE-5

Vertical tail and horizontal tail installation

  1. Align and connect the elevator servo plugs and LED plugs to the servo extensions located within the fuselage. Carefully insert the horizontal stabilizer to the horizontal stabilizer slot of the fuselage and secure using the included screws (HKM3.0*10mm x 1) .
  2. Align and connect the rudder servo plugs to the servo extensions located within the fuselage. Carefully insert the vertical stabilizer to the vertical stabilizer slot of the   fuselage and Secure it in place using the included screws (HKM3.0*10mm x 3)FMS-F-86-The-Huff-Jet-EDF-80-PNP-IMAGE-6

Non-functional scale parts installation

  1. Insert the non-functional scale antennas into the corresponding slot at the bottom of fuselage as shown, and slide it toward the tail to lock in placeFMS-F-86-The-Huff-Jet-EDF-80-PNP-IMAGE-7
  2. Insert the non-functional scale airspeed head into the wingtip slotFMS-F-86-The-Huff-Jet-EDF-80-PNP-IMAGE-8

Battery installation

  1. Pull back on the latch and remove the battery hatch.
  2. Apply the hook tape to the cable end of the battery.
  3.  Slide the full charged battery into the battery compartment with the power supply cable toward the rear end of the plane.
    Note: The center of gravity can be adjusted by moving the battery forward or aft. Having the correct center of gravity is critical to achieving proper flight characteristics.
    Battery compartment size:200*68*45mmFMS-F-86-The-Huff-Jet-EDF-80-PNP-IMAGE-9

Receiver diagram

  • The cables from the servo connector board should be connected to your receiver in the order shown. Note that the LEDs can be powered by any spare channel on the receiver. Tuck the wire leads into the recessed cavity towards  the rear of the battery hatch.

FMS-F-86-The-Huff-Jet-EDF-80-PNP-IMAGE-22

Get your model ready to fly

Important ESC and model information

  1. The ESC included with the model has a safe start. If the motor battery is connected to the ESC and the throttle stick is not in the low throttle or off position, the motor will not start until the throttle stick is moved to the low throttle or off position. Once the throttle stick is moved to the low throttle or off position, the motor will emit a series of beeps. Several beeps with the same tune means the ESC has detected the cells of the battery. The count of the beeps equals the cells of the battery. The motor is now armed and will start when the throttle is moved.
  2. The motor and ESC come pre-connected and the motor rotation should be correct. If for any reason the motor is rotating in the wrong direction, simply reverse two of the three motor wires to change the direction of rotation.
  3. The motor has an optional brake setting. The ESC comes with brake switched off and we recommend that the model be flown with the brake off. However, the brake could be accidentally switched on if the motor battery is connected to the ESC while the throttle stick is set at full throttle. To switch the brake off, move the throttle stick to full throttle and plug in the motor battery. The motor will beep one time. Move the throttle stick to low throttle or the off position. The motor is ready to run and the brake will be switched off.
  4. Battery Selection and Installation. We recommend the 22.2V 4000-5500mAh 45C Li-Po battery. If using another battery, the battery must be at least a 22.2V 4000-5500mAh 45C battery. Your battery should be approximately the same capacity, dimension and weight as the 22.2V 4000-5500mAh 45C Li-Po battery to fit the fuselage without changing the center of gravity significantly.

Transmitter and model setup

  • Before getting started, bind your receiver with your transmitters
  • Please refer to your transmitter manual for proper operation.
    CAUTION: To prevent personal injury, DO NOT install the propeller assembly onto the motor shaft while testing the control surfaces.
  • DO NOT arm the ESC and do not turn on the transmitter until the Transmitter Manual instructs you to do so.
  • Tips: Make sure all control sticks on your radio are in the neutral position (rudder, elevator, ailerons) and the throttle is in the OFF position. Make sure both ailerons move up and down (travel) the same amount. This model tracks well when the left and right ailerons travel the same amount in response to the control stick. Move the controls on the transmitter to make sure the aircraft control surface moves correctly. See diagrams right.FMS-F-86-The-Huff-Jet-EDF-80-PNP-IMAGE-12

Control throws
The suggested control throw setting for this airplane are as follows (dual rate setting

High Rate Low Rate
Elevator 16mm up / down 12mm up / down
Aileron 14mm up / down 10mm up / down
Rudder 14mm left / right 10mm left / right

Tips: On the first flight, fly the model in low rate.

  • The first time you use high rates, be sure to fly at low to medium speeds. High rate, as listed, is only for EXTREME maneuvering

Control horn and servo arm settings

  • The table shows the factory settings for the control horns and servo arms. Fly the aircraft at the factory settings before making changes.
  • After flying, you may choose to adjust the linkage positions for the desired control responseFMS-F-86-The-Huff-Jet-EDF-80-PNP-IMAGE-13

Linkage rods installation

  • Before installing the main wing, horizontal tail and vertical tail, the linkage rods for ailerons, flaps, elevators and rudder should be installed in advance.
  • Make sure the servos are in neutral position. Attach the “Z” bend end of aileron, flap, elevator and rudder linkage rods to the corresponding holes in the aileron, flap, elevator and rudder control arms from the outside as shown (Please refer to the control horn and servo arm settings and clevis installation sections in manual ). And then install the ball buckleat the other end of the linkage rods to ball head at each control horn on control surfaces.FMS-F-86-The-Huff-Jet-EDF-80-PNP-IMAGE-14

Check the C.G. (Center of gravity)
When balancing your model, adjust the battery as necessary so the model is level or slightly nose down. This is the correct balance point for your model. After the first flight, the CG position can be adjusted for your personal preference.

  1. The recommended Center of Gravity (CG) location for your model is(180-190mm)from the leading edge of the main wing (as shown) with the battery pack installed. Mark the location of the CG on top of the wing.
  2. When balancing your model, support the plane at the marks made on the bottom of the main wing with your fingers or a commercially available balancing stand. This is the correct balance point for your model. Make sure the model is assembled and ready for flight before balancing.FMS-F-86-The-Huff-Jet-EDF-80-PNP-IMAGE-15

Before flying the model 

Find a suitable flying site

  • Find a flying site clear of buildings, trees, power lines and other obstructions. Until you know how much area will be required and have mastered flying your plane in confined spaces, choose a site which is at least the size of two to three football fields  a flying field specifically for R/C planes is best. Never fly near people – especially children, who can wander unpredictably

Perform the range check for your plane

  • As a precaution, an operational ground range test should be performed before the first flight each time you go out. Performing a range test is a good way to detect problems that could cause loss of control such as low batteries, defective or damaged radio components, or radio interference. This usually requires an assistant and should be done at the actual flying site you will be using.
  • First turn on the transmitter, then install a fully-charged battery into the fuselage. Connect the battery and install the hatch. Remember, use care not to bump the throttle stick.
  • Otherwise, the propeller/fan will turn and possibly cause damage or injury
    Note: Please refer to your Transmitter Manual that came with your radio control system to perform a ground range check. If the controls are not working correctly or if anything seems wrong, do not fly the model until you correct the problem. Make certain all the servo wires are securely connected to the receiver and the transmitter batteries have a good connection.

Monitor your flight time

  • Monitor and limit your flight time using a timer (such as on a wristwatch or in your transmitter if available). When the batteries are getting low you will usually notice a performance drop before the ESC cuts off motor power, so when the plane starts flying slower you should land. Often (but not always) power can be briefly restored after the motor cuts off by holding the throttle stick all the way down for a few seconds.
  • To avoid an unexpected dead-stick landing on your first flight, set your timer to a conservative 4 minutes. When your alarm sounds you should land right away.

Flying course

Take off

  • While applying power, slowly steer to keep the model straight. The model should accelerate quickly.
  • As the model gains flight speed you will want to climb at a steady and even rate. It will climb out at a nice angle of attack (AOA).

Flying
Always choose a wide-open space for flying your plane. It is ideal for you to fly at a sanctioned flying field. If you are not flying at an approved site always avoid flying near houses, trees, wires and buildings. You should also be careful to avoid flying in areas where there are many people, such as busy parks, schoolyards, or soccer fields. Consult laws and ordinances before choosing a location to fly your aircraft. After takeoff, gain some altitude. Climb to a safe height before trying technical maneuvers, including high speed passes, inverted flight, loops, and point rolls.

Maintenance

  • Repairs to the foam should be made with foam safe adhesives such as hot glue, foam safe CA, and 5min epoxy. When parts are not repairable, see the Spare Parts List for ordering by item number.
  • Always check to make sure all screws on the aircraft are tightened. Pay special attention to make sure the spinner is firmly in place before every flight.

Landing

  • Land the model when you hear the motor pulsing (LVC) or if you notice a reduction in power. If using a transmitter with a timer, set the timer so you have enough flight time to make several landing approaches.
  • The model’s three point landing gear allows the model to land on hard surfaces. Align model directly into the wind and fly down to the ground. Fly the airplane down to the ground using 1/4-1/3 throttle to keep enough energy for proper flare. Before the model touches down, always fully decrease the throttle to avoid damaging the propeller or other components. The key to a great landing is to manage the power and elevator all the way to the ground and set down lightly on the main landing gear. After a few flights you will find the model can be set downlight Lyon the mains and you can hold the nose wheel off balancing the model on the mains until it slows and gently settles the nose.

Troubleshooting

Problem Possible Cause Solution
Aircraft will not respond to the throttle but responds to other controls.
  • ESC is not armed.
  • Throttle channel is reversed.
  • Lower throttle stick and throttle trim to lowest settings.
  • Reverse throttle channel on transmitter.
Extra propeller noise or extra vibration.
  • Damaged spinner, propeller, motor or motor mount.
  • Loose propeller and spinner parts.
  • Propeller installed backwards.
  • Replace damaged parts.
  • Tighten parts for propeller adapter, propeller and spinner.
  • Remove and install propeller correctly.
Reduced flight time or aircraft underpowered.
  • Flight battery charge is low.
  • propeller installed backward.
  • Flight battery damaged.
  • Completely recharge flight battery.
  • Replace flight battery and follow flight battery instructions.
Control surface does not move, or is slow to respond to control inputs.
  • Control surface, control horn, linkage or servo damage.
  • Wire damaged or connections loose.
  • Replace or repair damaged parts and adjust controls.
  • Do a check of connections for loose wiring.
Controls reversed. Channels are reversed in the transmitter. Do the control direction test and adjust controls for aircraft and transmitter.
  • Motor loses power
  • Motor power pulses then motor loses power.
  • Damage to motor, or battery.
  • Loss of power to aircraft.
  • ESC uses default soft Low Voltage Cutoff(LVC).
  • Do a check of batteries, transmitter, receiver, ESC, motor and wiring for damage(replace as needed).
  • Land aircraft immediately and recharge flight battery.
LED on receiver flashes slowly. Power loss to receiver.
  • Check connection from ESC to receiver.
  • Check servos for damage.
  • Check linkages for binding.

FMS-F-86-The-Huff-Jet-EDF-80-PNP-23

  • Visit our website: www.fmshobby.com to see photo of this product. Enter the key word “ESC” in the search bar for the stock ESC instruction manual.

User Manual of Brushless Speed Controller

  • Thanks for purchasing our Electronic Speed Controller (ESC). High power system for RC model is very dangerous, please read this manual carefully. In that we have no control over the correct use, installation, application, or maintenance of our products, no liability shall be assumed nor accepted for any damages, losses or costs resulting from the use of the product. Any claims arising from the operating, failure or malfunctioning etc. will be denied. We assume no liability for personal injury, property damage or consequential damages resulting from our product or our workmanship. As far as is legally permitted, the obligation to compensation is limited to the invoice amount of the affected product.

Specifications

Model Cont Current Burst Current (≤10) BEC Mode BEC Output BEC Output Capability Battery Cell Weight Weight
L*W*H (mm)
2S Lipo 3S Lipo 4S Lipo 6S Lipo Lipo NiMH
6A 6A 8A Linear 5V/0.8A 3servos 2S 5-6 cells 5.5 32*12*4.5
12A 12A 15A Linear 5V/1A 3servos 2servos 2-3S 5-9 cells 9g 38*18*6
12AE 12A 15A Linear 5V/2A 5servos 4servos 2-3S 5-9 cells 10g 38*18*7
15A 15A 20A Linear 5V/2A 5servos 4servos 2-3S 5-9 cells 16.5g 48*22.5*6
20A 20A 25A Linear 5V/2A 5servos 4servos 2-3S 5-9 cells 19g 42*25*8
30A 30A 40A Linear 5V/2A 5servos 4servos 2-3S 5-9 cells 37g 68*25*8
40A 40A 55A Linear 5V/3A 5servos 4servos 2-3S 5-9 cells 39g 68*25*8
40A-UBEC 40A 55A Switch 5V/3A 5servos 5servos 5servos 2-4S 5-12 cells 43g 65*25*12
50A-UBEC 50A 65A Switch 5V/5A 8servos 8servos 6servos 6servos 2-4S 5-12 cells 41g 65*29*10
60A-UBEC 60A 80A Switch 5V/5A 8servos 8servos 6servos 6servos 2-6S 5-18 cells 63g 77*35*14
60A-UBEC 60A 80A N/A N/A 2-6S 5-18 cells 60g 86*38*12
80A-UBEC 80A 100A Switch 5V/5A 8servos 8servos 6servos 6servos 2-6S 5-18 cells 82g 86*38*12
80A-UBEC 80A 100A N/A N/A 2-6S 5-18 cells 79g 86*38*12
80A-BEC 80A 100A Switch 5V/7A 3-6S 5-18 cells 79g 85*36*9
80Ax2+UBE 80A 100A Switch 5V/10A 3-6S 5-18 cells 175g 85*36*9
100A ESC 100A 120A Switch 5V/7A 3-6S 5-18 cells 92g 85*36*9

Programmable Items (The option written in bold font is the default setting)

  1. Brake Setting :Enabled / Disabled
  2. Battery Type: Lipo / NiMH
  3. Low Voltage Protection Mode(Cut-Off Mode): Soft Cut-Off (Gradually reduce the output power) /Cut-Off (Immediately stop the output power).
  4. Low Voltage Protection Threshold(Cut-Off Threshold):Low / Medium / High
    1. For lithium battery, the battery cell number is calculated automatically. Low / medium / high cutoff voltage for each cell is 2.85V/3.15V/3.3V.
      For example: For a 3S Lipo, when “Medium” cutoff threshold is set, the cut-off voltage will be:3.15*3=9.45V.
    2. For NiMH battery, low / medium / high cutoff voltages are 0%/50%/65% of the startup voltage (i.e. the initial voltage of battery pack), and 0% means the low voltage cut-off  function is disabled. For example: For a 6 cells NiMH battery, fully charged voltage is 1.44*6=8.64V, when “Medium” cut-off threshold is set, the cut-off voltage will be: 8.64*50%=4.32V.
  5. Startup Mode: Normal /Soft /Super-Soft (300ms / 1.5s / 3s)
    1. Normal mode is suitable for fixed-wing aircraft. Soft or Super-soft modes are suitable for helicopters. The initial acceleration of the Soft and Super-Soft modes are slower, it takes 1.5 second for Soft startup or 3 seconds for Super-Soft startup from initial throttle advance to full throttle. If the throttle is completely closed (throttle stick moved to bottom position) and opened again (throttle stick moved to top position) within 3 seconds after the first startup, the re-startup will be temporarily changed to normal mode to get rid of the chance of a crash caused by slow throttle response. This special design is suitable for aerobatic flight when quick throttle response is needed.
  6.  Timing: Low / Medium / High,( 3.75°/15°/26.25°) Usually, low timing is suitable for most motors. To get higher speed, High timing value can be chosen.

Begin To Use Your New ESC

  • IMPORTANT! Because different transmitter has different throttle range, please calibrate throttle range before flying.

Throttle range setting (Throttle range should be reset whenever a new transmitter is being used)

  1. Switch on the transmitter, move throttle stick to the top position.
  2. Connect battery pack to the ESC, and wait for about 2 seconds.
  3. The “Beep-Beep-” tone should be emitted, means the top point of throttle range has been confirmed.
  4. Move throttle stick to the bottom position, several “beep-” tones should be emitted to present the amount of battery cells.
  5. A long “Beep-” tone should be emitted, means the lowest point of throttle range has been correctly confirmed.

Normal startup procedure

  1. Move throttle stick to bottom position and then switch on transmitter.
  2. Connect battery pack to ESC, special tone like “♪ 123” means power supply is OK.
  3. Several “beep-” tones should be emitted to present the amount of lithium battery cells.
  4. When self-test is finished, a long” beep—–” tone should be emitted.
  5. Move throttle stick upwards to go flying.

Protection Function

  1. Start up failure protection: If the motor fails to start within 2 seconds of throttle application, the ESC will cut-off the output power. In this case, the throttle stick MUST be moved to the bottom again to restart the motor. (Such a situation happens in the following cases: The connection between ESC and motor is not reliable, the propeller or the motor is blocked, the gearbox is damaged, etc.)
  2.  Over-heat protection: When the temperature of the ESC is over about 110 Celsius degrees, the ESC will reduce the output power.
  3. Throttle signal loss protection: The ESC will reduce the output power if throttle signal is lost for 1 second, further loss for 2 seconds will cause the output to be cut-off completely.

TroubleShooting

Trouble Possible Reason Action
After power on, motor does not work, no sound is emitted After power on, motor does not work, no sound is emitted Check the power connection. Replace the connector.
  • After power on, motor does not work, such an alert tone is emitted: “beep-beep-, beep-beep-,beep-beep-” (Every “beep-beep-” has a time interval of about 1 second)
Input voltage is abnormal, too high or too low Check the voltage of battery pack
After power on, motor does not work, such an alert tone is emitted: “beep-, beep-, beep- “(Every “beep-” has a time interval of about 2 seconds) Throttle signal is irregular Check the receiver and transmitter Check the cable of throttle channel
After power on, motor does not work, such an alert tone is emitted: “beep-, beep-, beep-” (Every “beep-” has a time interval of about 0.25 second) The throttle stick is not in the bottom (lowest) position Move the throttle stick to bottom position
After power on, motor does not work, a special tone ” ♪56712″ is emitted after 2 beep tone (beep-beep-) Direction of the throttle channel is reversed, so the ESC has entered the program mode Set the direction of throttle channel correctly
The motor runs in the opposite direction The connection between ESC and the motor need to be changed Swap any two wire connections between ESC and motor

Program the ESC with your transmitter (4 Steps)

Note: Please make sure the throttle curve is set to 0 when the throttle stick is at bottom position and 100% for the top position.

NO.1 Enter program mode

  1. Switch on transmitter, move throttle stick to top position, connect the battery pack to ESC
  2. Wait for 2 seconds, the motor should emit special tone like “beep-beep-“
  3. Wait for another 5 seconds, special tone like “♪56712” should be emitted, which means program mode is entered

NO.2 Select programmable items

  • After entering program mode, you will hear 8 tones in a loop with the following sequence. If you move the throttle stick to bottom within 3 seconds after one kind of tones, this item will be selected
    • Note: 1 long “beep—–” = 5 short “beep-“
Prompt tone Selected item
“beep”(1 short tone) brake
“beep-beep-“(2 short tone) battery type
“beep-beep-beep-“(3 short tone) cutoff mode
“beep-beep-beep-beep-“(4 short tone) cutoff threshold
“beep——”(1 long tone) startup mode
“beep——beep-“(1 long 1 short) timing
“beep——beep-beep-“(1 long 2 short) set all to default
“beep——beep——”(2 long tone)) exit

NO.3 Set item value (Programmable value)

  • You will hear several tones in loop. Set the value matching to a tone by moving throttle stick to top when you hear the tone, then a special tone “♪1515” emits, means the value is set and saved. (Keeping the throttle stick at top  you will go back to Step 2 and you can select other items; or moving the stick to bottom within 2 seconds will exit program mode directly)
Tones Items “beep-” 1 short tone “beep-beep-” 2 short tones “beep-beep-beep” 3 short tones
Brake Off On
Battery type Lipo NiMH
Cutoff mode Soft-Cut Cut-Off
Cutoff threshold Low Medium High
Start mode Normal Soft Super soft
Timing Low Medium High

NO . 4EXIT PROGRAM MODE

There are 2 ways to exit program mode

  1. In step 3, after special tone ” “, please move throttle stick to the bottom position within 2 seconds.
  2.  In step 2, after tone “beep—–beep—–“(that is: The item #8),move throttle stick to bottom within 3 seconds

Decal Application

WATER DECAL APPLICATION 

  1. Cut decals from the sheet as needed.
  2. Dip the decal in water for about 15-30 seconds.
  3. Hold the decal backing sheet edge and gently slide the decal onto the model in its proper position .
  4. Using a cotton stick gently push out the water and bubbles from inside.

FMS-F-86-The-Huff-Jet-EDF-80-PNP-IMAGE-16 FMS-F-86-The-Huff-Jet-EDF-80-PNP-IMAGE-17

Decal Application

FMS-F-86-The-Huff-Jet-EDF-80-PNP-IMAGE-18 FMS-F-86-The-Huff-Jet-EDF-80-PNP-IMAGE-19 FMS-F-86-The-Huff-Jet-EDF-80-PNP-IMAGE-20

Foshan Zhengze Model Technology Co., Ltd.

  • Tel: +86-0757-26330080
  • E-mail: support@fmsmodel.com
  • Add: Unit A, Building 6, Jicheng Science and Technology Innovation Park,
  • KLP Racing
  • Well Model

FMS-F-86-The-Huff-Jet-EDF-80-PNP-IMAGE-21

Documents / Resources

FMS F-86 The Huff Jet EDF 80 PNP [pdf] Instruction Manual
F-86 The Huff Jet EDF 80 PNP, F-86, The Huff Jet EDF 80 PNP, Jet EDF 80 PNP, EDF 80 PNP

References

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