TX16S User Manual Version:1.0 WWW.RADIOMASTERRC.
Table of Contents 1. Overview.............................................................................................................................................4 1.1. Introduction.......................................................................................................................... 4 1.2. Safety instructions.............................................................................................................. 4 1.3. Manual and Firmware Download............................
4.3.1. Create model and model selection................................................................ 29 4.3.2. Channel monitor...................................................................................................31 4.3.3. Reset function....................................................................................................... 32 4.4. Model settings (Model Setup).................................................................................... 33 4.4.
1. Overview 1.1. Introduction Thank you for purchasing the RadioMaster TX16S 2.4g remote control system. The system is versatile and can be used by beginners and professionals. In order to ensure the correct and safe use of this product, please read this instruction manual carefully before use. The information contained in this manual is subject to change without notice. TX16S remote control is suitable for all types of fixed-wing, glider, helicopter and multi-rotor aircraft.
1.3. Manual and Firmware Download The TX16S comes pre-installed with standard OpenTX firmware. To download the latest software manual, visit the RadioMaster website: https://www.radiomasterrc.com To download the latest firmware for your TX16S remote control, visit the OpenTX website: https://www.open-tx.org 1.4. Important note on firmware. The TX16S comes pre-installed with the most stable firmware at time of manufacture.
1.6. Important note on Power and charging precautions. TX16S has built-in USB-C charging function for 3.7v lithium battery. The charging circuit is only suitable for 2x 3.7v lithium-ion 18650 or 2x 3.7v Lipoly batteries (2s 7.4v Lipo battery pack). The nominal battery voltage is 3.7v and the maximum charging voltage is 4.2v. Do not use a LiFE battery pack or 18650 lithium-ion battery with a nominal voltage of 3.6v. Incorrect battery pack or battery.
1.8. Specifications Specifications: 183 * 212 * 66 mm Weight: 736g (excluding battery) Transmission frequency: 2.400GHZ-2.480GHZ Transmitter module: Internal Four-in-one multi-protocol RF module Transmit power: maximum 22dbm (transmit power adjustable) Working current: 400mah Working voltage: 7-8.
1.10. Firmware Update and OpenTX Information For the latest news and information on OpenTX firmware from development team, please visit the OpenTX website at https://www.open-tx.org. If you enjoy using OpenTX firmware please consider supporting the development team with a donation. 1.11. Disclaimer OpenTX is an open source firmware. No warranty or implied warranty is given for the quality and reliability of this firmware. If not handled properly, the RC model can cause serious injury or even death.
2. OpenTX Companion software (OpenTX companion) The OpenTX Companion remote control support software is used for many different tasks, such as loading OpenTX firmware to the remote, backing up model settings, editing model settings, and running the remote simulator. You can run OpenTX Companion software on multiple computer platforms. OpenTX Companion software supports common systems such as Windows, Mac OS X, and Linux.
At this point, the OpenTX Companion software installation is complete.
2.2. Use Companion software to upgrade remote controller firmware After the above settings are completed, click the firmware download button to download the firmware. Note: The RadioMaster TX16S remote control is pre-installed with stable and reliable OpenTX firmware when it leaves the factory. If there is no special need, please do not update the firmware unneccasarily. Incorrectly flashing firmware may leave your radio inoperable.
Before writing the firmware, please make sure that the remote control is turned off, and plug in the USB-C (TYPE-C) cable. The following device name will appear in the computer device manager: Before writing the firmware for the first time, you need to replace the STM32 BOOTLOADER driver to ensure that the OpenTX Companion software can recognize this hardware type and write the firmware correctly.
B. In the zadig software, select Options-> List All Devices to view the device list C.
D. Click the Replace Driver button (if the driver has been installed before, Reinstall Driver will be displayed) to replace / install the driver. After the driver installation is completed, you can use OpenTX Companion to write the firmware to the remote controller correctly. At this point, the firmware of the remote control is successfully written. Unplug the USB-C (TYPE-C) cable and you can use it after booting.
3. First boot Press and hold the power button to boot. Before entering the main interface, the system will check the position of the throttle stick and switch and other startup conditions. If the startup conditions are not met, there will be a corresponding error prompt. You need to clear it or press any key to jump Over. Throttle warning: This is a warning that the throttle is not at the lowest position when the machine is turned on.
Failsafe not set warning: This is a warning that the remote control runaway protection is not set. Alarm Off Warning: A similar warning will appear if the sound mode of the remote control settings page is set to mute. SD card warning: The SD card file version used does not match the remote controller firmware version, this warning will appear. The figure requires 2.3V0026 version (the SD card content needs to be updated when upgrading the firmware).
First page: the default first page of the system, you can customize the display elements in the page as required. 3.1. Calibrate the battery voltage This example is for using 2 x 3.7v (2s 7.4v) 18650 Li-ion batteries in the supplied tray (batteries sold seperatlty), a 21700 2s 7.4 Li-ion pack (sold seperatlty) or a 2s 7.
A. Press and hold the [SYS] button to enter the system settings. Press the [PAGE] key to page to the HARDWARD page, scroll to the bottom of the page, select Battery calibration, and fill in the actual measured battery voltage. B. Scroll to RADIO SETUP, and fill in the battery level range in the Battery meter range as shown below B. On the current page, turn the scroll wheel to find Battrey low (low voltage alarm), and fill in the alarm voltage as shown below.
3.2. Calibrating Gimbals A. In the system settings, scroll to the HARDWARE page, select the Calibration item, and press OK to enter the settings. B. Follow the text prompts at the top for calibration.
C. In the second step, place all the gimbals, knobs, and side sliders in the middle position. The system obtains the midpoint value, and then press the confirmation key to continue to the next step.
D. The third step reminds that all the gimbals, knobs, and side sliders of the paddle move the maximum and minimum. The system saves the maximum and minimum values. At this time, 6POS (six-speed button) may be pressed one by one. The system records the value of each button. The value of the key can be viewed at the bottom of the page. After all the above steps are completed, press the OK key to complete the calibration, and the system automatically returns to the previous page.
3.3. Set the default Gimbal mode and the default channel output order.
4. Remote control menu details 4.1. Main interface The default startup screen is as follows. The user can add the content to be displayed to customize the main interface. Top menu bar: The default top menu bar displays speaker volume, remote control battery level, receiver signal strength (RSSI), and time and date. Batt is a custom top display remote control voltage; users can also add other display information.
-GLOBA FUNCTIONS: Global function page. This page can customize various global functions. Global functions are similar to special functions in model parameters, but global functions are shared by all model parameters, while functions in model parameters are only used by the current model. -TRAINER: Trainer aka Coach function page.
4.2.
4.2.4 GLOBAL FUNCTIONS (Global Functions Page) Instructions 4.2.
4.2.
4.2.7 VERSION (Version page) description 4.3. Model selection 4.3.1.
Select Model Select to enter the model selection page, which is used to create, switch, delete and copy models.
4.3.2. Channel monitor Monitors: used to display the monitoring interface of channel output, mixed control output and logic switch. You can use the PAGE key to switch to other interfaces. The logic switch page can display the status of 64 logic switches. By default, the active state is gray and black is the active state.
4.3.3.
4.4. Model settings (Model Setup) 4.4.
Model Setup Detailed options: Model name:Enter your model name here. Model image:You can select a picture file as the model logo in the BMP folder of the SD card. Pictures can be viewed using the SD card manager. Timer1-3: Up to 3 fully programmable timers that can count up or down.
Extended trims : Fine-tuning extension, allowing fine-tuning to cover the entire gimbal range, instead of ± 25% Display trims:Modify the precision of the fine-tuning step. The accuracy can be modified according to actual requirements.
Internal RF:Built-in wireless RF module, built-in 4in1 multi-protocol RF module, please refer to multi-protocol RF module manual for usage External RF:External RF module, compatible with many mainstream RF modules Trainer:Trainer Mode Mode: Master/Jack Slave/Jack Audio cable connection, coach host mode Audio cable connection, student slave mode Master/Bluetooth Bluetooth wireless connection, coach mode (requires external Bluetooth module) Slave/Bluetooth Bluetooth wireless connection, student slave mod
There are 8 flight modes plus the default FM0 available. The first item of FM1FM8 requires a trigger switch. When no switch is on, FM0 is enabled by default. Name Define a name for the flight mode Switch Select the trigger switch for the flight mode. It can be a physical switch or a logical switch.
To set an entry, press and hold the ENT key on the current entry and a submenu will pop up 选择 Edit 进入编辑条目 Input name: Name of the current entry. Use the scroll wheel to select a letter or number. Press and hold the ENT key to switch between upper and lower case. Press the ENT key to switch to the next character.
Weight: Normal range is a value between ± 100% will be zoomed to the gimbal operation. If you enter a negative value, for example -100% means reverse the output. Note that channel inversion should not use negative values on the Inputs page, and to reverse channels should be reversed on the Outputs page. Offset: Midpoint offset setting Curve: Curve settings Diff Adjust the stroke amount on one side with the midpoint as the boundary Expo Expo curve setting.
Modes: Select the corresponding flight mode, and the output trimming value that affects this entry can be set by the flight mode entry Switch: Select the switch to activate this item (Note: This setting is added to this item to add multiple lines of different settings to switch, if there is only one line setting, do not set the activation switch, otherwise the switch will cause this item to be completely invalid) Side: Unilateral setting with the midpoint as the boundary.
A mix puts one input into one channel. The inputs are configured in the Inputs page, which defines any input type. The mixing control page can also use other channels as the source of the current channel, and output from the current channel after re-mixing. It can also mix one or more channels to another or multiple channel outputs, which can combine very powerful complex functions. All inputs range from -100% to + 100%. Gimbals, knobs, sliders, channels, global variables, and coach input.
Detailed settings for mixing entries Mix name: Name setting Use the scroll wheel to select letters and numbers, and press and hold the ENT key to switch between upper and lower case. Short press the ENT key to set the next character. Source: Long press the ENT key to pop up the input source category menu.
Weight: Channel travel amount, the range is -500 / + 500. The default value is 100. Negative values indicate reverse channel output. Offset: Midpoint offset, you can add the offset of the input value, positive or negative. Range is -500 / + 500 Trim: You can choose whether the fine-tuning is effective for this entry, or you can define a fine-tuning that affects this article separately.
Cstm Call custom curve (CV1-CV32), custom curve is set in curve page CURVE Modes: Select the corresponding flight mode, and the output trimming value that affects this entry can be set by the flight mode entry Switch: Select the switch to activate this item (Note: This setting is added to this item to add multiple lines of different settings to switch, if there is only one line setting, do not set the activation switch, otherwise the switch will cause this item to be completely invalid).
4.4.5. Output(Outputs) Total output page, final channel output overall settings 4.4.6 Curves The curve can be used to modify the control response in the Inputs, Mixes, or Outputs page. Standard curves containing Expo and Differential can be used directly in these sections. This page is used to customize any kind of curve.
The curve can be between 2 and 17 points and can have a fixed or user-definable x coordinate.
Smooth:If checked, create a smooth curve through all points. When customizing, move the cursor to X and Y coordinates, and change the position of each coordinate point according to your needs. Depending on the type selected above, this allows writing the X coordinate of a standard curve, or the X and Y coordinates of a custom curve. Long press the ENT key on the coordinate point to enter the submenu: Preset:Select presets with slopes of -45 °, -33 °, -22 °, -11 °, 0 °, 11 °, 22 °, 33 °, 45 °.
By using the "Adjust GVx" option in the Special Functions page, you can even adjust global variables on the fly, so you can quickly optimize settings such as doublerate ratio, exposure, differential, flap to elevator conversion, and more. If pop-ups are enabled (indicated by! Next to the GV label), when the variable is updated, a pop-up window with the variable name and new value will be displayed on the main view.
Name: Setting name Unit: Units, switchable between normal and% Precision: Precision, which can be used in decimal mode. You can set this mode corresponding to the percentage. Min: Minimum value, which can be limited when the value is changed dynamically Max: Maximum value, which can be limited when using dynamic change values FM0-FM8: You can specify a value for each flight mode or set it to be the same as the other flight modes.
The setting of the L01 example in the figure is expressed as follows: When the return value A1 is less than 11.0V, the L01 switch is automatically turned on. In the settings of other pages, L01 has the same function as the physical switch. You can define the corresponding function for L01 on or off. In this way, a switch is automatically executed according to the parameters that change in real time. The remote control system provides 64 logic switches, each of which has three judgment methods: 1.
Triggered when the absolute value of parameter v1 is greater than v2, the |a|>x absolute value is that it will become positive no matter whether it is positive or negative |a|
to the value of data v2. Switch, this item only judges the difference when v1 changes from small to large Triggered when the absolute value of the difference of the parameter v1 |△|≥x itself is greater than or equal to the value of v2. This judges the absolute value. Since the negative value also becomes positive, a change from v1 to v or from v1 to trigger the current logic switch The switch that automatically loops all the time. V1 is the on time and Timer v2 is the off time.
-Use the switch to adjust the backlight brightness In addition to a few of the commonly used methods listed above, the everchanging features allow you to realize your imagination The three examples in the picture are represented as: SF1:When the SF switch position is ↑, the CH3 channel will be covered by -100. Usually this setting is used to lock the throttle. SF2:When the logic switch L01 is automatically turned on, lowbat (low battery voltage) voice will be broadcasted.
The following functions are triggered by the switch selected above Override Trainer Inst.Trim Override channel value Coach mode enable switch, it is recommended to set to SH rebound switch, this switch is used to activate or stop the operation of the student machine One-touch saves the current gimbal position as a fine-tuning value Reset Reset, you can choose to reset all or reset one way individually. The content of the reset option is the same as that in the main interface.
1x: Play sound once. 1s-60s: broadcast at intervals (seconds) Play Track Play wav file in SD card, single broadcast and loop broadcast are the same as above Play Value Voice broadcast value, can broadcast values from any source, such as real-time values such as gimbal, voltage, altitude, time, etc. Lua Script: Call the specified script, and the script file should be placed in the / SCRIPTS / FUNCTIONS / folder of the SD card.
There are some caveats-if the script stops executing, you should never use Lua model scripts to control any aspect of the model that might cause a crash. The reason is that if the script tries to use too much CPU time or memory, it will be closed and it will not run again when the model is selected. “The Custom Scripts page is for mixed-type scripts that run continuously. These scripts should be placed in the / SCRIPTS / MIXE / folder of the SD card. There can be up to 9 custom scripts.
It is not an absolute measurement, but a number that represents the ratio of the signal to some initial "good" value. The number is relative, but can indicate that the model may be close to the range limit of the controlling aircraft. When the return signal is completely lost, the remote control will prompt “Lost return signal”. Please note that due to a failure of the return link, the remote control can no longer warn you of RSSI or any other alarm conditions, so no further alarm sounds.
______________________________________________________________________ EU Simple Declaration of Conformity RadioMaster declares the radio equipment TX16s is in compliance with EU directives Directive 2014/53/EU. Full text of the declaration of conformity is available at the following website www.radiomasterrc.com Manufacturer by ShenZhen RadioMaster Co., Ltd 5th Floor, Yutian Building, No. 18 Yangtian Road, Xin’an Street, Baoan District, Shenzhen, Guangdong.