Manuals:MBPlusFblV5:Intro/de: Difference between revisions
Shornstein (talk | contribs) Created page with "==MICROBEAST PLUS Version 5 - Features== <p>(Klickehier für eine Übersicht der Unterschiede zu Firmware Version 4.x.x und tiefer.)</p> File:Plus_and_plusHD.png|th..." |
Shornstein (talk | contribs) Created page with "===Gerätevergleich=== {|cellpadding="4" cellspacing="2" border="0" style="text-align:center;border:0px solid; padding:0px 0px 0px 10px" ! style="width:200px" | <br /> || sty..." |
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=== | ===Gerätevergleich=== | ||
{|cellpadding="4" cellspacing="2" border="0" style="text-align:center;border:0px solid; padding:0px 0px 0px 10px" | {|cellpadding="4" cellspacing="2" border="0" style="text-align:center;border:0px solid; padding:0px 0px 0px 10px" | ||
! style="width:200px" | <br /> || style="width:200px" | MICROBEAST PLUS || style="width:200px" | MICROBEAST PLUS HD | ! style="width:200px" | <br /> || style="width:200px" | MICROBEAST PLUS || style="width:200px" | MICROBEAST PLUS HD | ||
|- | |- | ||
|style="text-align:left; border:1px solid #c3c3c3;" | ''' | |style="text-align:left; border:1px solid #c3c3c3;" | '''Stromanschluss''' | ||
|style="border:1px solid #c3c3c3;" | | |style="border:1px solid #c3c3c3;" | nur über Servoanschlussleiste | ||
|style="border:1px solid #c3c3c3;" | | |style="border:1px solid #c3c3c3;" | zusätzlicher Hochstromanschluss | ||
|- | |- | ||
|style="text-align:left; border:1px solid #c3c3c3;" | ''' | |style="text-align:left; border:1px solid #c3c3c3;" | '''Ein/Aus Schalter''' | ||
|style="border:1px solid #c3c3c3;" | [[File:Error_Symbol.png|x18px]] | |style="border:1px solid #c3c3c3;" | [[File:Error_Symbol.png|x18px]] | ||
|style="border:1px solid #c3c3c3;" | [[File:Checkmark.png|x18px]] | |style="border:1px solid #c3c3c3;" | [[File:Checkmark.png|x18px]] | ||
|- | |- | ||
|style="text-align:left; border:1px solid #c3c3c3;" | ''' | |style="text-align:left; border:1px solid #c3c3c3;" | '''Gehäuse''' | ||
|style="border:1px solid #c3c3c3;" | | |style="border:1px solid #c3c3c3;" | Kunststoff | ||
|style="border:1px solid #c3c3c3;" | | |style="border:1px solid #c3c3c3;" | Aluminium Mischbauweise | ||
|- | |- | ||
|style="text-align:left; border:1px solid #c3c3c3;" | ''' | |style="text-align:left; border:1px solid #c3c3c3;" | '''Empfohlene Heligröße''' | ||
|style="border:1px solid #c3c3c3;" | 250 - 700 | |style="border:1px solid #c3c3c3;" | 250 - 700 | ||
|style="border:1px solid #c3c3c3;" | 550 - 800 | |style="border:1px solid #c3c3c3;" | 550 - 800 |
Revision as of 11:32, 6 November 2017
MICROBEAST PLUS - Was ist das?
Beim MICROBEAST PLUS handelt es sich um eine Steuereinheit für RC Modellhubschrauber ohne Hilfsrotorebene. Durch die integrierten Kreiselelemente wird der Helikopter weitestgehend stabilisiert, so dass er nur den Steuerbefehlen des Piloten folgt. Das MICROBEAST PLUS lässt sich durch ein kostenpflichtiges Upgrade zur "ProEdition" erweitern. Diese bietet Zusatzfunktionen wie die AttitudeControl zur Lagestabilisierung und Rettung des Modells in unsicherer Fluglage, sowie ein Bankumschaltung mit der verschiedene Parametersätze im Flug abgerufen werden können.
Zur Grundeinstellung und Abstimmung des Systems werden keine weiteren Geräte benötigt. Dank dem bewährten "EasySetup" benötigen Sie nur Ihren Helikopter und das Fernsteuersystem. Sämtliche Einstellschritte können direkt und in kürszester Zeit am Gerät durchgeführt werden. Wenn Sie mehr Eingriff in das System und ein geführtes Setup wünschen, können Sie darüber hinaus auf unsere StudioX App für PC/Mac oder StudioXm für Smartphones/Tablets zurückgreifen. In Kombination mit dem USB2SYS interface (PC/Mac) oder BLE2SYS interface (Smartphone/Tablet) (optional erhältlich) bieten sich neben der interaktiven Durchführung aller Einstellungen weitere Möglichkeiten, wie das Aufspielen von Firmware Updates, das Sichern und Laden von Einstellungen, das Laden vorgefertigter Helisetups sowie das Erstellen fortgeschrittene Parameterisierungen./p>
MICROBEAST PLUS Version 5 - Features
(Klickehier für eine Übersicht der Unterschiede zu Firmware Version 4.x.x und tiefer.)
- Eingangsspannung von 4 bis 9 Volt
- Unterstützt nahezu alle Fernsteuersysteme mit konventionellen Servoanschlüssen sowie Summensignalen wie SBUS, XBUS, EXBUS, iBus, UDI, SRXL, SPPM, ...
- vorgefertigte Taumelscheibenmischer für mCCPM und 90, 120, 140 eCCPM + völlig frei konfigurierbare Mischung für nahezu alle Arten von Helikoptern mit bis zu 3 Taumelscheibenservos
- Einstellbare Wiederholrate auf der Taumelscheibe mit bis zu 333Hz
- Integrierter Heckkreisel mit Unterstützung für nahezu alle Typen von Heckservos und Mittenimpulesn von 760, 960 und 1500(1520)µs und einer Wiederholraten von bis zu 560Hz
- Integrierte Drehzahlregelfunktion für Elektro- und Verbrennerhelikopter (benötigt Drehzahlsensor oder Motorsteller mit Drehzahlausgang)
- optionales ProEdition Upgrade mit Bankumschaltung für umfassende Anpassbarkeit an unterschiedliche Flugzustände und AttitudeControl für Lagestabilisierung und Rettung aus schwierigen Situationen
- MICROBEAST PLUS HD mit schaltbarem Hochstromanschluss für große Helikopter mit Stromhungrigen Standardservos und erhöhter Vibrationsfestigkeit durch das Aluminiumgehäuse
Gerätevergleich
Optional features
Basic firmware | ProEdition firmware | |
---|---|---|
AttitudeControl | ||
Bank switching | ||
Upgrade Price | - | 99,- € |
Firmware version display
Please note that these instructions are only valid for the MICROBEAST PLUS firmware version 5.x.x!
The firmware version can be detected by connecting the device to a computer using the USB2SYS interface (optional) or tablet/smartphone using the BLE2SYS interface (optional) together with the StudioX App. During initialization also you can directly read from the display of the device what firmware version it is running: After power up when the Status-LED lights red, for a few seconds the Menu-LEDs A to G display the first digit of the firmware version and the LEDs H to N the second digit.
Firmware version 5.0.x
In the left row menu LEDs A and C indicate major version "5".
In the right row now LED lights up, so minor version is "0".
Safety notes
Radio controlled (R/C) helicopters are no toys! The rotor blades rotate at high speed and pose potential risk. They may cause severe injury due to improper usage. It is necessary to observe common safety rules for R/C models and the local law. You can gather information from your local R/C model club or from your national modelers association.
Pay attention to your own safety and the safety of other people and property in your vicinity when using our product. Always fly in areas away from other people. Never use R/C models in close proximity to housing areas or crowds of people.
R/C models may malfunction or crash due to several reasons like piloting mistakes or radio interference, and cause severe accidents. Pilots are fully responsible for their actions, and for damage or injuries caused by the usage of their models.
Please read the instruction manual thoroughly before the first use of your MICROBEAST PLUS and setup the system carefully according to this manual. Allow sufficient time for the setup procedure and check each step carefully. Watch for a mechanically clean and proper build of your helicopter. A wrong system setup can lead to a serious accident and damage to the model.
Radio controlled (R/C) models consist of several electrical components. It is therefore necessary to protect the model from moisture and other foreign subtances. If the model is exposed to moisture this may lead to a malfunction which may cause damage to the model or a crash. Never fly in the rain or extremely high humidity.
When operating the helicopter with a MICROBEAST PLUS ensure there is a sufficiently large and stable receiver power supply. Because of the direct coupling of the rotor blades to the servos, without the use of a flybar mixer, the servos are exposed to increased actuating forces. In addition, because of the intermediary electronic gyro system, the servos are driven more often than with traditional use. These factors can make the power consumption increase a lot compared to a flybar helicopter. When the supply voltage falls below 3,5 volts for a short amount a of time, the system will power off and reboot. In this case a crash of the helicopter is unavoidable.
Do not expose the MICROBEAST PLUS system to extreme variations in temperature. Before powering up the system, wait some time so that the electronics can acclimatize and any accumulated condensation is able to evaporate.
The sensors of MICROBEAST PLUS consist of highly sensitive electromechanical components. These can be damaged due to moisture or mechanical or electrical impact. Do not continue using this product if it has been exposed to such influences, e.g. due to a crash of the model or due to overvoltage caused by a defective receiver power supply. Otherwise a failure may happen any time.
When operating electric helicopters make sure that the electric motor cannot start inadvertently during the setup procedure. Particularly pay attention if using a single-line receiver and if the ESC is connected directly to the MICROBEAST PLUS. We recommend disconnecting the electric motor from the ESC during the setup procedure. Prior the first usage please slide the motor/pinion away from the main gear, then check that the motor does not to start inadvertently when the receiver is switched on.
When operating the RPM Governor feature of MICROBEAST PLUS it is essential to ensure that the motor cannot start by accident when making adjustment or performing preparations to start the engine. Carefully read this manual and make sure you fully understand how the RPM Governor feature is operated before making any adjustments. Also make sure the motor does not start when the radio link is interrupted or when you switch on the transmitter initially. With electric driven models do not dock the motor to the main gear unless all necessary adjustment procedures have been finished. Always maintain sufficient safety distance to the motor and other rapidly rotating components of the helicopter.
MICROBEAST PLUS with AttitudeControl can be used as a flying aid for beginners by limiting the reaction of the helicopter to stick inputs and by stabilizing the helicopter with a electronic control loop. However, this does not provide that the helicopter can always be flown safely! By incorrect control inputs the helicopter still may crash or be placed in a position in which the pilot becomes disoriented even when using AttitudeControl. In addition, the helicopter can drift due to external influences and it is not guaranteed that the artificial horizon of the device can stabilize the helicopter at any time and recover from any orientation. Influences such as temperature fluctuations or vibrations may cause incorrect results and distort the position calculation of the system in consequence. There is no guarantee that the system will always work correctly. Only the pilot is responsible for the control of the helicopter and thus also for the use of the system. Note that the system for technical reasons will not hold the helicopter absolutely to the point. The unstable tendency of a helicopter will cause the model to fly in a certain direction even when using AttitudeControl. External influences such as wind can further strengthen this effect. In addition measurement inaccuracies of the sensors can distort the position determination slightly. You must always be able to turn off the system immediately and be able to take over full control of the helicopter.
We suggest you to seek the support of an experienced helicopter pilot before you undertake the first flight of your model. Additionally, flight training with a R/C simulator can help make flying easier and more enjoyable. Ask your local dealer if you need technical support or if you observe problems during the usage of our system.
AttitudeControl can help to facilitate flying of model helicopters by briefly passing over control to the system if the pilot becomes disoriented. By using the built-in artificial horizon the helicopter can be brought to a nearly horizontal position so that the pilot gains time to reorient. Thus, there can be no assurance that the model is saved from a crash in general. Depending on the current attitude and the speed of the model and depending on how fast the AttitudeControl is activated, the model may crash before or while the system tries to recover. In addition, the helicopter can drift due to external influences and it is not guaranteed that the artificial horizon of the device can stabilize the helicopter at any time and recover from any orientation. Influences such as temperature fluctuations or vibrations may cause incorrect results and distort the position calculation of the system in consequence. Strictly observe the general safety rules for dealing with RC models and do not totally rely on the system. The pilot is responsible for the control of the helicopter and thus also for the use of the system. You must always be able to turn off the system immediately and be able to take over full control of the helicopter.