FlySky Noble NB4+ AFHDS3 User Manual
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FlySky Noble NB4+ AFHDS3 User Manual

8-channel 2.4ghz radio system w/fgr4b receiver
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Copyright ©2024 Flysky Technology Co., Ltd.
This product is only for 15
years old or above.
Touching Infinity
USER MANUAL
USER MANUAL

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Summary of Contents for FlySky Noble NB4+ AFHDS3

  • Page 1 USER MANUAL USER MANUAL Touching Infinity Copyright ©2024 Flysky Technology Co., Ltd. This product is only for 15 years old or above.
  • Page 2 Read the manual carefully to ensure your personal safety as well as the safety of your equipment. If you encounter any problems during using, please refer to this manual first. If the problem is still not resolved, please contact the local dealer directly or contact the customer service staff via the website below: www.flysky-cn.com...

  • Page 3: Table Of Contents

    Contents 1. Safety ....................1 1.1 Safety Symbols ......................1 1.2 Safety Guide ........................1 2.Introduction ..................2 2.1 System Features ......................2 2.2 Transmitter Overview ....................3 2.3 Receiver Overview (FGr4B)..................6 2.3.1 Status Indicator ...........................6 3. Getting Started .................. 7 3.1 Transmitter Battery Installation ..................7 4.
  • Page 4 6.22 BEGINNER ........................ 41 6.23 SVC ........................... 41 6.24 TRAINER ........................44 6.25 i-BUS2........................47 6.26 HELP ........................53 7 RX SET ....................54 7.1 Bind Set ........................54 7.2 Steering Force ......................54 7.3 Gyro Gain ........................54 7.4 RX Interface Protocol....................55 7.5 Failsafe ........................
  • Page 5 8.15 Factory Reset ......................71 8.16 About Noble NB4+ ....................71 9. Transmitter Specifications ............... 72 9.1 Transmitter Specifications (Noble NB4+) ..............72 9.2 Receiver Specifications (FGr4B) ................73 10. Package Contents ................74 11. Instructions ................... 75 11.1 Trigger Spring Replacement ..................75 11.2 Steering Wheel Spring Replacement ................

  • Page 6: Safety

    1. Safety 1.1 Safety Symbols Pay close attention to the following symbols and their meanings. Failure to follow these warnings could cause damage, injury or death. Danger • Not following these instructions may lead to serious injuries or death. Warning • Not following these instructions may lead to major injuries. Attention •...

  • Page 7: Introduction

    2.Introduction This product uses the 2.4GHz Third Generation AFHDS 3 protocol. The Noble NB4+ transmitter and FGr4B receiver constatute a system, compatible with model cars, boats and other models. and it also supports the USB simulator function (Default enabled). 2.1 System Features AFHDS 3 (third-generation automatic frequency hopping digital system) is a newly developed digital wireless system.

  • Page 8: Transmitter Overview

    2.2 Transmitter Overview Speaker Steering Wheel Battery Note: If you can't shut down the transmitter properly, please shut down the transmitter by pressing the force shutdown button on the transmitter. (Operation: pull the hand grip placed at the top of transmitter's grip or take off the whole handle grip.
  • Page 9 Screen Neck Strap Hook Throttle trigger tension Throttle trigger size adjustment hole adjustment hole Handle 18650 Battery Cover Base Power Port Type-C input port, Firmware Update, Charging Jack, Connect to Simulator Port, Trainer Interface, Head Track Interface Base Power Button USB 5V 2A Port Base power button: Press for a short time to charge the battery at the transmitter handle and to charge external devices.
  • Page 10 Steering Wheel Swivel Bracket Screen Transmitter Transmitter Power Button Steering Wheel Throttle trigger structure Steering wheel tension travel adjustment hole adjustment hole...

  • Page 11: Receiver Overview (Fgr4B)

    2.3 Receiver Overview (FGr4B) CH4(NPA) BVD/VCC BIND Button CH3(NPB) Antenna CH2(NPC) CH1(NPD) Connect to battery positive pole BVD harness BVD harness Connect to battery negative pole 2.3.1 Status Indicator The status indicator is used to indicate the power and working status of the receiver. • Off: The power is not connected.

  • Page 12: Getting Started

    3. Getting Started Before operation, install the battery and connect the system as instructed below. 3.1 Transmitter Battery Installation Danger • Only use included batteries . Danger Do not open, disassemble, or attempt to repair the battery. • Danger • Do not crush/puncture the battery, or short the external contacts. Danger •...
  • Page 13 Steps for replacing the built-in battery of the handle: Remove the grip first, and then remove the handle battery cover (18650 battery cover) ; Remove the 18650 battery to be replaced, align the negative end of the fully charged 18650 battery with the end of the battery compartment with spring, press the spring and install the battery ;...

  • Page 14: Operation Instructions

    User needs to choose between classic and enhanced editions when binding. When there is a stable two-way communication established between the transmitter and the receiver, the transmitter recognizes the receiver as a non FLYSKY receiver, the system will prompt and interrupt the communication.

  • Page 15: Transmitter Led Indicator

    Different receiver models are slightly different in binding operation. Please refer to the receiver's manual for specific steps. • The products are subject to constant update. Please enter FLYSKY website for the latest transmitter and receiver compatibility form. 4.3 Transmitter LED Indicator The transmitter LED color can be customized, or you can select one of the five colors defined in the options (Red, Green, Blue, Yellow or White), and the LED brightness can be adjusted.

  • Page 16: System Interface

    5. System Interface The main interface mainly displays information related to the model, such as transmitter voltage information, function status and so on. The display on the main interface can be customized as required, including the states and data of the main interface.

  • Page 17: Function Settings

    6. Function Settings This section introduces details functions and their use. Notes: 1. The default ex-factory state of this transmitter allows the user to set the functions under CH1-CH4, follow the steps for specific function settings for other channels (Refer to Channel Number Definition of 6.9 MODEL for setting 6 channels or 8 channels).

  • Page 18: Sub Tr

    6.3 SUB TR SUBTRIM can be used to adjust the error of the structure by changing the channel neutral position. For example, if a car's wheels are slightly out of aline-ment, even when the transmitter steering wheel is not being touched, subtrim can be used to correct the alignment. Setup:...

  • Page 19: Th Dr/Exp

    6.5 TH DR/EXP This function which is similar to the ST DR/EXP function is used to control the throttle channel. This function can be switched on or off through SW keys, and the corresponding rates and curves can be tuned by other trims or knobs. Please refer to [Assign] function for setting.
  • Page 20 Break Return Controls the reduction of braking during each pulse. Can be set to any value between 0% and 100%. By default it is set to 50%. If set to 60%, when the brakes are active; the system will remove 60% of the brakes strength on each pulse. Delay Determines how long it takes for the A.B.S.

  • Page 21: Timer

    Steering Mix A.B.S. can be enabled or disabled automatically while turning when mixed with steering wheel . The percentage represents the trigger position through its entire range of movement. E represents inside, N represents outside; if 50% N is set, the ABS function is to turn off when within 50% (10% N-50% N), and outside 50% (50% N-100% N) is to turn on the ABS function;...
  • Page 22 Verify that the setting is normal as expected. Namely, when the throttle is adjusted to the set value, the timer will start timing. Mode Ⅲ : The timer can be enabled or disabled quickly through the key assignment function. The system will send out a reminder when it reaches a minute sharp. The race timer has 3 modes: [Up timer]: Start the clock from zero.

  • Page 23: Assign

    6.8 ASSIGN The key assignment function is used to assign keys or switches to different functions for quick switch or control. If the base color of a control is green, indicating the control has been assigned. SW Controls The keys of SW1L, SW1R, SW2 and SW3 can enable, disable or switch CH3 to CH8 and many functions.
  • Page 24 TR Controls The six keys or knobs (TR1-FB, TR1-LR, TR2-FB, TR2-LR, TR3, and TR4) have the same function and can be used to quickly adjust the values of CH3 to CH8 and multiple functions, with assigning 2-position or 3-position switches. Note: the number of channels controlled is subject to the [Channel Number Definition].

  • Page 25: Name

    6.9 NAME You can customize the function name based on the channel function name.You can also choose a preset Chinese name. Preset Chinese Channel Name Steering, Throttle, Trim Tab1, Trim Tab2, Aux.ST, F Diff, C Diff, R Diff, Shift, Gearbox, T Case, CutGear, Lights, H Beam, L Beam, F Light, T Light, Smoke, Whistle, Capstan, Ecas, Engine.

  • Page 26: Model

    Touch [Select Model], then touch a model from the list. Then click "Yes" in the prompt menu. Name: FlySky 01 To name the model. After clicking, use the keyboard in the interface to type in a new name. When the setting is finished, click "Enter"...
  • Page 27 You can import and export models by FlySky Assistant which can be downloaded via the FlySky official website, and then operate it on the PC (No need go back to click the menu on the transmitter, you can operate it directly)!

  • Page 28: Sensor

    6.11 SENSOR This function can display the sensor information received by the receiver on the transmitter. This function shows all sensors connected to the receiver, including sensor type, ID and real-time value. It can also be accessed quickly from the home screen. This function is availale when the receiver is bound to the transmitter using the AFHDS 3 2 Way protocol.
  • Page 29 Speed sensor (FS-CPD01, FS-CPD02) The speed sensor is applied to test the speed of the motor. • "Motor speed" indicates that the sensor is testing the motor speed; "0rpm" is the speed measurement value. Magnetic induction speed sensor (FS-CPD01) Sensor Connect the FS-CPD01 sensor to the receiver or other sensors connected to the receiver using the same method as shown above.
  • Page 30 Voltage sensor (FS-CVT01) It is used to monitor the model's battery voltage. The battery voltage can be monitored through the transmitter. Alarms can be set. Connect FS-CPD02 following the same steps as above. Insert the red and black wire pins into the plug of the battery used for testing.
  • Page 31 i-BUS2 Altitude Sensor(FS-iBA01) It is used to monitor the model's altitude. Alarms can be set. • "Air Pressure" indicates that the sensor is monitoring air pressure; "Height" means the height measurement, "Altitude" is the altitude measurement. Use 3M stickers to fix the altitude sensor at the appropriate location of the model.
  • Page 32 i-BUS2 Current and Voltage Sensor(FS-iBC01) It is used to monitor the information such as the Cable connecting method I voltage, current and actual battery consumption capacity of the ESC in real time. Use 3M stickers to fix the sensor at an appropriate location of the model.
  • Page 33 Data Record Note: Before using this function, note that [RF Standard] needs to be set to [AFHDS3 2 Way]. This function is used to display and set data-record information. To set the sensor to be recorded. To display the actual page number of the coordinate Click to enter the setting interface.
  • Page 34 Supported Devices, Default Values and Setting Ranges of Data Record Default Value Related Items for Setting Devices Type Min Value Max Value Setting Range Step Unit Transmitter Voltage 0~10 Voltage 0~10 Receiver BVD Voltage 0~100 Voltage Sensor External Voltage 0~100 Temperature Sensor Temperature -100~200...
  • Page 35 Speed and Distance This function is used to detect monitor wheel revolutions and distance traveled. [Speed Sensor]: Selects the target sensor. If the sensor and receiver are connected, then it will appear in this menu automatically. You can choose between two speeds or [None].
  • Page 36 Altitude Zero Set This function is used to set the current height to 0 m base height. [Alitude Sensor]: To display the ID of the sensor. If multiple altitude sensors are connected, by default, this is the sensor with the smallest ID. [Current Height]: Display the real time height information after performing zero adjustment.
  • Page 37 [GPS Display]: To display the information returned by the GPS sensor. To display the number of satellites returned by GPS. When the number of displayed satellites is more than 10, the GPS positioning accuracy is high, otherwise there is positioning error. To show whether the positioning is successful or not.
  • Page 38 Curr and Vol Sensor Set (Current and Voltage Sensor Set) This function is adapted to i-BUS2 protocol current and voltage sensors, to reset sensor data and related max/min data. [Power on Recovery Data]: Sets whether the recorded data will be cleared automatically when the current and voltage sensor is powered on. And the recorded data include the maximum/ minimum voltage, maximum current, average current,battery consumption capacity, and run time.

  • Page 39: Speed

    6.12 CH SPEED This function allows you to set the steering speed, forward speed, brake speed and response speeds of CH3 to CH8. Note: the number of channels controlled is subject to the [Channel Number Definition]. [Steering]: Changes the corresponding speed of the servo when the steering channel is outputting at fast speed.
  • Page 40 Channel Speed - Front This function is used to set the delay of the throttle start and return-to-neutral. [Go Speed]: Sets the speed of throttle acceleration. [Return Speed]: Sets the speed at which the throttle returns to the neutral position. Setup: Please refer to [6.12 CH SPEED]>[Channel Speed - Steering]. Channel Speed - CH3-CH8 This function is used to set the delay time of CH3-CH8 forward and return-to-neutral.

  • Page 41: Mixes

    6.13 MIXES This function allows you to set 3 mixing functions, that is, [4WS Mixing], [Brake Mixing], and [Programming Mixes]. 4WS Mixing Used to set the wheels that control steering of the vehicle, front, rear or all four wheels. This function is applicable to crawler with steering on both front and rear wheels. By default, the front wheel steering is used in this function.

  • Page 42: Th Mid

    Programming Mixes The Mixing function can be used to set the mix-control relationship between channels, containing a total of 8 groups of mixing relationships. Setup: Click [Mix 1] or other mixing options as needed to enter the setting interface. Click to enable this function. When this function is enabled, the icon will change to Click [Master Channel], select a primary channel from the list.

  • Page 43: Th Neutral

    6.15 TH NEUTRAL The function is used to set a "dead zone" for throttle control, in which the throttle always outputs the neutral value, and throttle channel does not change when moving the trigger. [Forward]: When it exceeds the dead zone, the throttle channel will output this value directly to accelerate forwards.

  • Page 44: Eng Cut

    6.18 ENG CUT When Engine Cut is triggered via a button it sets the throttle channel to a predefined position. This function must be assigned to a switch/button in order to be activated. This function will reset after shutting down. You need to restart this function after turning on again.

  • Page 45: Boat

    6.20 BOAT This function is used only when you are using a model boat. When this function is active, the throttle channel is set to its lowest position and the brake functionality is disabled. To enable this function, select [Boat] to switch to boat mode. When switching is successful, [Normal Mode] is changed to [Boat Mode].

  • Page 46: Beginner

    6.22 BEGINNER The beginner mode is suitable for entry level players to improve the safety of operations by limiting the amount of throttle servo. This function is hidden by default. You need to enable it manually. Setup: Go to the [Custom Main Menu] menu under the [MODEL] menu bar, and select the [Beginner] check box.
  • Page 47 Neutral Calibration Used for gyroscope to calibrate steering and throttle neutral to make the best driving condition when the vehicle is driving normally. Before enabling the SVC function, you need to adjust the vehicle's steering servo volume, neutral trim and throttle neutral to the best driving condition. After completion, start the [Smart Vehicle Control] function for neutral calibration.
  • Page 48 Advanced To adapte INr4-GYB receiver compatible with model drift cars, etc. You can set type of the model cars, and customize parameters for [ST Wheel Gain], [Damper Point], [Damper] and [Filter]. [ST Wheel Gain]: Adjustment of intervention ratio of steering operation to gyro control, It is more sensitive in the steering control when the value increases.

  • Page 49: Trainer

    6.24 TRAINER Noble NB4+ supports three function modes: Trainer, Student and H Track. Transmitters set to Trainer or H Track Mode accept external signals to control the model, that is, the trainer interface or head tracker interface has the ability to recognize external PPM signal input.
  • Page 50 Student When the Trainer Mode is set to Student, the transmitter only supports Student function at this time. [Signal Polarity]: High level is valid by default positive. Some devices may recognize low level as valid signal. At this time, set the signal polarity to negative, that is, low level is valid.
  • Page 51 Notes: Users need to prepare the cable for the Trainer function (dual-ended Type-C cable) and the cable for the Head Tracker function (Type-C port on one end and audio port on the other end in advance). • If users do not have a suitable head tracker cable, the FS-XC201 Type-C cable can be used to change the cable according to the definition of Type-C cable sequence, retaining the Type-C connector of the Type-C cable.

  • Page 52: I-Bus2

    6.25 i-BUS2 The i-BUS2 device settings function is used to set up the i-BUS2 devices, such as FS- iBH07 Hub or i-BUS2 protocol servo. • At the transmitter side, you firstly need to set the receiver interface to be connected to the iBUS2 device as i-BUS2 via [RX interface protocol] function. If the transmitter is normally connected to the i-BUS2 HUB, you can set it as PWM converter.
  • Page 53 i-BUS2 SENSOR When the transmitter detects an i-BUS2 sensor, you can set the function parameters of the sensor in this function. Refer to 6.10 SENSOR for more details. i-BUS2 SERVO (FXS260/380) When the transmitter detects the i-BUS2 FXS260/380 servo, you can use this function to set the relevant function parameters of the servo, monitor the information returned from the servo, and assign the channel for controlling the servo.
  • Page 54 i-BUS2 SERVO (Power HD) When the transmitter detects an i-BUS2 servo (Power HD), you can use this function to set the relevant function parameters of the servo, monitor the information returned from the servo, and assign the channel for controlling the servo. The settings of Power HD servo parameters are similar to those of the FXS260/380. Refer to the description of FXS260/380 servos.
  • Page 55 i-BUS2 SERVO When the transmitter detects an i-BUS2 servo, you can use this function to set the relevant function parameters of the servo, monitor the information returned from the servo, and assign the channel for controlling the servo. The settings of i-BUS2 servo parameters are similar to those of the Power HD. Refer to the description of Power HD and FXS260/380 servo.
  • Page 56 i-BUS2 ESC (XERUN AXE R2) When the transmitter detects an i-BUS2 XERUN AXE R2 ESC, you can use this function to set the relevant function parameters of the ESC. Servo Setup Set the function parameters to adjust the corresponding ESC. Setup: After selecting the function item to be set, click "+" or "-" to adjust the value or option;...
  • Page 57 i-BUS2 ESC (XERUN AXE R3) Note: This function is available for version 1.0.7 or later. When the transmitter detects an i-BUS2 XERUN AXE R3 ESC, you can use this function to set the relevant function parameters of the ESC. Servo Setup Set the function parameters to adjust the corresponding ESC.

  • Page 58: Help

    6.26 HELP To obtain the user manual via this function. Users can contact us through social accounts listed on the interface. Setup: Touch [Help center] to enter. Touch the item you want to view, then the corresponding QR code will display. Scan the QR code to obtain the related information.

  • Page 59: Rx Set

    7 RX SET This section introduces details functions relate to receiver and their use. 7.1 Bind Set This function is used to put the transmitter into the binding state to bind with the receiver. For specific binding guidelines, see section "4.2 Bind". 7.2 Steering Force This function is used to adjust the amount of steering force when the receiver servo is steered.

  • Page 60: Rx Interface Protocol

    7.4 RX Interface Protocol This function is used to set the receiver output mode. Classic Edition Receiver Interface Protocol When the adapted receiver is FGr4, FGr4S, FGr4P, FTr4, FTr10 and FTr16S, The output protocols of [CH1 Interface] and [Serial] can be set respectively.[CH1 Interface] can be set to PWM or PPM.

  • Page 61: Failsafe

    7.5 Failsafe The Failsafe function can be set in the following three ways: • Set to disable the signal output of i-BUS-out and PPM protocol interfaces in case of out-of-control, i.e., no output at i-BUS-out & PPM interfaces in case of losing control.
  • Page 62 Setting A Separate Channel Used to set the output signal states of channels respectively: Free means that there is no output in case of out-of-control; Hold means the last channel value is kept in case of out-of-control; Fixed Value means that you can set the failsafe output value by moving the control, then the value set will output in case of out-of-control.

  • Page 63: Servos Frequency

    7.6 Servos Frequency This function is used to select the frequency of channel data PWM signals. The function includes analog servo (95 Hz), digital servo (380 Hz), and custom. You can select or set the correct output frequency value according to the servo used. By default, the system adopts the digital servo.

  • Page 64: I-Bus2 Setup

    7.7 i-BUS2 Setup This function is used to set up the i-BUS2 devices. For details, see 6.25 i-BUS2 section. 7.8 i-BUS Setup This function is used to set up the i-BUS expansion module. The i-BUS function is mainly used for servo expansion. If a cable is too short or the number of servos exceeds the outputs for the receiver, the i-BUS serial bus receiver provides a convenient option for expansion.

  • Page 65: Config Pwm Converter

    7.9 Config PWM Converter This function allows you to configure the corresponding receiver to a PWM converter. After the setting is successful, the receiver is used as a PWM converter, and the interfaces output PWM signals. Note: This function is not available for all receivers. For the classic receiver, only the FGr4 and FTr10 receivers are availabe.

  • Page 66: Rssi Output Setup

    7.10 RSSI Output Setup Through this function, you can select a channel to output the signal strength value of the receiver. After the function is enabled, the selected channel does not perform the output of transmitter's corresponding channel function, but outputs the receiver's signal strength value.

  • Page 67: Range Test

    7.12 Range Test This function is used to test whether wireless communication between the transmitter and the receiver is normal. As the actual remote control distance between transmitter and receiver is far, it is hard to test whether the radio frequency is normal by controlling a distance of several hundred meters between the transmitter and receiver in practice.

  • Page 68: Low Signal Alarm

    After each transmitter update the receiver firmware will need to be updated. Setup: Touch [Update Receiver]: • Some receivers such as GMr needs to be updated with "Flysky Assistant". If the transmitter has successfully bound and the connection is established, if the receiver firmware is the latest version, a pop-up prompt will appear [The current version is the new version, no upgrade is required! ].

  • Page 69: Steering Ics

    Click [Update] to enter the update state. When the update has finished, the receiver LED flashes slowly. • This procedure applies to FGr4B receiver, different receivers may enter the forced update in different ways, please go to the FLYSKY website to query the instructions of the relevant receiver for action. 7.17 Steering ICS This function is used to set the parameters of the gyroscope mixing steering channel of the vehicle control base board.

  • Page 70: System

    USB Setup is used to support the output signals of Type-C port. [USB Function]: When the input or output is USB signal, you can control the simulator and connect the computer and FlySky Assistant. [Trainer Mode]: When the input or output is PPM signal, it can realize the trainer and head tracker functions.

  • Page 71: Wallpaper

    8.3 Wallpaper It is used to set the wallpaper of home screen and main menu. [Home Screen Wallpaper]:Sets the wallpaper of home screen. [Main Menu Wallpaper]: Sets the wallpaper of the main menu. Wallpaper preview: To preview the wallpaper in full screen and hide the option,click the area outside the corresponding function option.Click again to exit the preview.

  • Page 72: Backlight Adjustment

    8.5 Backlight Adjustment This function controls the backlight brightness. Note: Turning the brightness up will use more power and as such, the longer the Backlight timeout, the more power consumption, the shorter the battery using time. [Backlight Timeout]: Select the delay time. That is, when there is no action, the screen is reduced to a minimum brightness state after the corresponding backlight delay time.

  • Page 73: Vibration

    8.7 Vibration This function is used to enable or disable the vibration of different function. [Vibrate Level]: To set the intensity of vibration level. Tap [Vibrate Level], then select the desired level from the list. Touch to save. [System Vibrate]: To turn on or off system vibration. Tap the box at the right of "System Vibrate".

  • Page 74: Quick Access

    8.9 Quick Access This function is used to set up the Up, Down, Left and Right quick sliding screen functions of the main interface. Users can customize the sliding screen interface according to their needs. The [Quick Access] can help users find setting interfaces quickly. For example, when users want to check the lap counting time after the function is enabled in the model operations, users can use this function to enter the timer interface quickly.

  • Page 75: Auto Power Off

    8.12 Auto Power Off If the transmitter is powered on for a long time, the transmitter battery may be used up. If the system detects that the transmitter is not used for a long time, it will be automatically shut down. If no operation is detected within five minutes, the system starts playing no operation sound, Auto Power Off will turn off the transmitter if no receiver is connected .

  • Page 76: Firmware Update

    8.14 Firmware Update In case of updating the firmware of the transmitter, use this function to put the transmitter to enter updating mode first, then upgrade the transmitter's firmware. • Use the USB Type-C cable shipped with the transmitter. WARNING • Do not unplug the USB Type-C cable while the firmware is updating. Setup: Download and open the newest official software.

  • Page 77: Transmitter Specifications

    9. Transmitter Specifications This chapter includes specifications for Noble NB4+ transmitter and FGr4B receiver 9.1 Transmitter Specifications (Noble NB4+) Product Model Noble NB4+ Compatible Receivers FGr4B and other AFHDS 3 receivers Compatible Models Car or Boat Number of Channels 2.4GHz ISM Maximum Power < 20 dBm(EU) RF Protocol AFHDS 3 Low Voltage Alarm...

  • Page 78: Receiver Specifications (Fgr4B)

    9.2 Receiver Specifications (FGr4B) Product Model FGr4B Number of PWM Channels 2.4GHz ISM RF Protocol AFHDS 3 Antenna Single Antenna Operating Voltage 3.5~9V/DC Data Output PWM/PPM/i-BUS2/S.BUS/i-BUS Temperature Range -10℃ ~ +60℃ Humidity Range 20% ~ 95% Online Update Dimensions 17*29*16.6mm Weight 6.4g Certifications CE, FCC ID: N4ZFGR4B000...

  • Page 79: Package Contents

    10. Package Contents The accessories included are different in different editions, please consult your dealer for details.

  • Page 80: Instructions

    11. Instructions 11.1 Trigger Spring Replacement Remove the upper trigger cover; Remove 4 screws(PWA 2.1*6mm); Spring Adjusting Block The upper end of the spring is detached first Adjust the screw(HB2*9mm) with a metric 1.5mm hexagonal screwdriver and Lift the upper end of the spring, and adjust the spring adjusting block to the finally the spring is removed.

  • Page 81: Steering Wheel Spring Replacement

    Lock 4 screws(PWA 2.1*6mm) to secure Install the upper trigger cover; trigger cover; Complete the trigger spring replacement. 11.2 Steering Wheel Spring Replacement Turn a metric 2.5mm hexagonal First insert a metric 2.5mm hexagonal screwdriver counterclockwise until the screwdriver into the screw hole used to screw(HM3*12mm) is completely loose secure the steering wheel;...
  • Page 82 Pinch the brake pad with two fingers and Remove the steering wheel; take out upwardly; Steering wheel base detached; FPC wire detached Remove the screws by turning them counterclockwise with a metric 1.5mm hexagonal screwdriver; FPC wire detached, then remove the steering wheel base;...
  • Page 83 Remove the screws(PWA2.1*6mm); Remove the cap; Lift the spring hook remove the steering wheel shaft Lift the spring hook with one hand and Remove the upper steering wheel pad remove the steering wheel shaft with the cover; other hand; Remove the spring hook and the spring Install the spring component;...
  • Page 84 Lift the spring hook Install the steering wheel shaft Lift the spring hook with one hand and install the steering wheel shaft with the Install the upper steering wheel pad other hand; cover; Lock the screws(PWA2.1*6mm); Install the cap;...
  • Page 85 Connect the FPC wire; Lock the screws(HB2*9mm); Install the brake pad; Use the mounting slot of the steeringwheel with brake pad adjustment hole to place over the protruding connector of the brake pad, then press the steering wheel to fix it.

  • Page 86: Triggers Description

    Complete the steering wheel spring Insert the screw(HM3*12) into the replacement. screwhole used to secure the steering wheel, then align a metric 2.5mm hexagonal screwdriver with the hexagonal hole in the head of the screw, hold the side of the steering wheel with one hand and turn the screwdriver clockwise with another hand until the screw is secured;...

  • Page 87: Certification

    12. Certification 12.1 DoC Declaration Hereby, [ShenZhen FLYSKY Technology Co., Ltd.] declares that the Radio Equipment [Noble NB4+, NB4+] is in compliance with RED 2014/53/EU. The full text of the EU DoC is available at the following internet address: www.flyskytech.com/info_detail/10.html 12.2 CE Warning The ce warns that the installation of the antenna used in this transmitter must be kept in distance from all the personnel and shall not be used or used with any other transmitter.

  • Page 88: Ised Compliance Statements

    To assure continued compliance, any changes or modifications not expressly approved by the party responsible for compliance could void the user's authority to operate this equipment. This equipment complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) This device may not cause harmful interference, and (2) This device must accept any interference received, including interference that may cause undesired operation.
  • Page 89 Copyright ©2024 Flysky Technology Co., Ltd. Release date: 2024-05-13 FCC ID: 2A2UNNB4PLUS00 IC: 25584-NB4PLUS00 Manufacturer: ShenZhen FLYSKY Technology Co., Ltd. Address: 16F, Huafeng Building, No. 6006 Shennan Road, Futian District, Shenzhen, Guangdong, China...

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