#acl AdminGroup:read,write,revert Brunweil:read,write,revert All:read

{{{#!wiki MK_Nav

||<class="MK_Nav_left":>{{attachment:symbols/Help.png}}||<class="MK_Nav_Header">Step - HELP||<class="MK_Nav_right":>{{attachment:symbols/Help.png}}||
}}}

{{{#!wiki MK_select1

 * {{http://mikrokopter.de/images/eng.gif}} [[en/Erstinbetriebnahme/Help|english]]
 * {{http://mikrokopter.de/images/deu.gif}} [[Erstinbetriebnahme/Help|deutsch]]
}}}

{{{#!wiki caution
'''Info'''

This page is currently under revision
}}}


<<TableOfContents>> 


#######################################################################################################################################################################################
<<Anchor(Step1-1)>>
= Soldered joints and checking wires =
A clean and proper assembling and soldering of the Kopter is very important. Only in that way a function without failures can be guaranteed.<<BR>>
The cables should not be stripped too far, solder-pads should be used completely and through hole joints should be soldered on both sides. <<BR>><<BR>>

Here are some examples of how it is wrong and right: <<BR>><<BR>>

[[http://gallery.mikrokopter.de/main.php?g2_view=core.DownloadItem&g2_itemId=100062&g2_serialNumber=2|{{http://gallery.mikrokopter.de/main.php?g2_view=core.DownloadItem&g2_itemId=100061&g2_serialNumber=2}}]]

[[http://gallery.mikrokopter.de/main.php?g2_view=core.DownloadItem&g2_itemId=100067&g2_serialNumber=2|{{http://gallery.mikrokopter.de/main.php?g2_view=core.DownloadItem&g2_itemId=100066&g2_serialNumber=2}}]]

[[http://gallery.mikrokopter.de/main.php?g2_view=core.DownloadItem&g2_itemId=100072&g2_serialNumber=2|{{http://gallery.mikrokopter.de/main.php?g2_view=core.DownloadItem&g2_itemId=100071&g2_serialNumber=2}}]]



<<BR>><<BR>><<BR>>
Everything OK? Then it goes back here to Step 1: [[fr/Erstinbetriebnahme/Step1#Step1-1|{{attachment:symbols/Pfeil_rechts.png}}]]
<<BR>><<BR>><<BR>>
#######################################################################################################################################################################################
<<Anchor(Step1-1)>>
= Check power distributor for short circuits =
If you equip a power distribution board with BL-Ctrl's by yourself you should check afterwards for short circuits.<<BR>>
Here you can use either way a multimeter or a continuity tester.<<BR>><<BR>>

For that reason that the distributor is a parallel circuit it's enough you measure at one BL-Ctrl.<<BR>>

[[http://gallery.mikrokopter.de/main.php?g2_view=core.DownloadItem&g2_itemId=99664&g2_serialNumber=1|{{http://gallery.mikrokopter.de/main.php?g2_view=core.DownloadItem&g2_itemId=99667&g2_serialNumber=2}}]]
<<BR>><<BR>><<BR>>

At this specific points of the BL-Ctrl you should measure: <<BR>><<BR>>

[[http://gallery.mikrokopter.de/main.php?g2_view=core.DownloadItem&g2_itemId=99635&g2_serialNumber=1|{{http://gallery.mikrokopter.de/main.php?g2_view=core.DownloadItem&g2_itemId=99638&g2_serialNumber=2}}]]<<BR>><<BR>>

'''Example view: Measuring points BL-Ctrl in the distributor:''' <<BR>>
{{http://gallery.mikrokopter.de/main.php?g2_view=core.DownloadItem&g2_itemId=74605&g2_serialNumber=1}}

While measuring between this points you should __not__ get any shorts (0 Ohm): 
 * '''+''' and '''-'''
 * '''C''' and '''D'''
 * '''+''' and '''C'''
 * '''+''' and '''D'''
 * '''-''' and '''C'''
 * '''-''' and '''D'''


<!> '''ATTENTION:''' If you measure with a continuity tester (or the diode tester on the multimeter) between "+" and "-" it will beep for a short moment. <<BR>>
This is not a short circuit. The short "beeping" is caused throughout the Elkos. <<BR>><<BR>>

If there is a short circuit the entire distribution board need to be checked or if necessary completely disassembled.<<BR>>



<<BR>><<BR>><<BR>>
Everything OK? Then it goes back here to Step 1: [[fr/Erstinbetriebnahme/Step1#Step1-1|{{attachment:symbols/Pfeil_rechts.png}}]]
<<BR>><<BR>><<BR>>


#######################################################################################################################################################################################
<<Anchor(Step5)>>
= I2C error =
If you get an '''I2C Error''' displayed in the virtual display mostly you have soldering defects/short circuits at the I2C Bus (C/D) or a defect on a BL-Ctrl.<<BR>>
An I2C error is also indicated if the Kopter is powered only by the MK-USB with closed jumper. Here the power supply for the BL-Ctrl is missing.<<BR>>


If you have an error like that you shoud go ahead systematically.<<BR>>
All BL-Ctrl's in the distributor are connected in parallel circuits. Has a BL-Ctrl now a soldering defect, a short circuit or is defect by itself this effects the whole I2C Bus (distributor). <<BR>><<BR>>

To figure out where the I2C Error comes from you need to partially disassemble the distributor and remove parts of them.<<BR>>
In the first step you should disconnect from all BL-Ctrl's the I2C connection to the distributor. Here you need to solder out the headers on C and D of each BL-Ctrl. <<BR>>
The easiest way is to use desoldering braid. A desoldering sucker shouldn't be used because it can damgage the pads/traces.<<BR>><<BR>>

<!> '''To avoid damaging the components throughout solder bridges or other failures you should use a regulated power supply (12V/500mAh).'''
<<BR>><<BR>><<BR>>


'''Step 1:''' 
 To the distributor (it doesn't matter which one) the BL-Ctrl are soldered on following spots to the I2C Bus: <<BR>> 

 ||<class="MK_THeader">'''Example View:''' <<BR>>BL-Ctrl1.2 + Distributor with I2C-Bridges in the distributor||<class="MK_THeader">'''Example View:''' <<BR>>BL-Ctrl2.0 + XL-Distributor||
 ||{{http://gallery.mikrokopter.de/main.php?g2_view=core.DownloadItem&g2_itemId=99671&g2_serialNumber=2}}||{{http://gallery.mikrokopter.de/main.php?g2_view=core.DownloadItem&g2_itemId=99691&g2_serialNumber=2}}||
<<BR>><<BR>>

'''Step 2:''' 
 The connection of the I2C Bus to the distributor is now completely separated from '''__all__''' BL-Ctrl's: <<BR>>

 ||<class="MK_THeader">'''Example View:''' <<BR>>The solder bridges are removed||<class="MK_THeader">'''Example View:''' <<BR>>The solder bridges are removed||
 ||{{http://gallery.mikrokopter.de/main.php?g2_view=core.DownloadItem&g2_itemId=99681&g2_serialNumber=2}}||{{http://gallery.mikrokopter.de/main.php?g2_view=core.DownloadItem&g2_itemId=99701&g2_serialNumber=2}}||

(At the XL-Distributor a thin piece of cardboard was placed between the contacts to protect it against short circuits)
<<BR>><<BR>>

'''Step 3:''' 
 Now you need to measure again with a multimeter between the contacts (Like described under ''"Check power distributor for short circuits"'').<<BR>>
 If there is no short circuit you can connect the distributor back to the FlightCtrl.<<BR>>
 For that you can take the FlightCtrl from the Kopter.<<BR>>

'''Step 4:'''
 The distributor with the connected FlightCtrl can now be hooked up to the KopterTool and powered.<<BR>>
 Is everything OK you should see in the virtual display '''"Missing BL-Ctrl:1!!"''' <<BR>><<BR>>

 <!> If there is still an "I2C error" displayed there is certainly a connection from "C" or "D" to GND (-) or PLUS (+).<<BR>>
 If you have a distributor with I2C-Bus solder bridges on the distributor you need to remove them and clean the contacts with desoldering braid from solder: <<BR>>
 ||<class="MK_THeader">'''Example View:''' <<BR>>The solder bridges are removed||
 ||{{http://gallery.mikrokopter.de/main.php?g2_view=core.DownloadItem&g2_itemId=99686&g2_serialNumber=2}}||


'''Step 5:'''
 If instead of an "I2C error" a "Missing BL-Ctrl:1!!" is displayed the I2C-Bus from the __first__ BL-Ctrl can be soldered back nicely. (all others stay open!).

'''Step 6:'''
 Connect the distributor back to the FlightCtrl. After the volktage is supplied  to the distributor you should see in the virtual display: '''"Missing BL-Ctrl:2!!"'''.<<BR>><<BR>>

 {{http://gallery.mikrokopter.de/main.php?g2_view=core.DownloadItem&g2_itemId=99722&g2_serialNumber=1}}<<BR>><<BR>>
 If you click under the virtual display on the arrow right or left you will be in the window '''BL-Ctrl found'''. The detected BL-Ctrl No. 1 should be displayed: <<BR>><<BR>> 

 {{http://gallery.mikrokopter.de/main.php?g2_view=core.DownloadItem&g2_itemId=99718&g2_serialNumber=1}}

'''Step 7:'''
 Now the I2C-Bus from the __second__ BL-Ctrl can be soldered back nicely (all others stay open!).

'''Step 8:'''
 Connect the distributor again to the FlightCtrl and supply power. In the virtual display  '''"Missing BL-Ctrl:3!!"''' should be displayed.<<BR>><<BR>>

 {{http://gallery.mikrokopter.de/main.php?g2_view=core.DownloadItem&g2_itemId=99726&g2_serialNumber=1}}<<BR>><<BR>>
 In the window '''BL-Ctrl found''' both BL-Ctrl's No. 1+2 should be displayed: <<BR>><<BR>> 

 {{http://gallery.mikrokopter.de/main.php?g2_view=core.DownloadItem&g2_itemId=99724&g2_serialNumber=1}}


'''Step 9:'''
 Now the I2C-Bus from the __third__ BL-Ctrl can be soldered back nicely (all others stay open!). ....and so on... <<BR>>
 The next step is always like the previous - connect distributor, check, solder next BL-Ctrl to the I2C, connect distributor again, check, ... etc. <<BR>><<BR>>

If you had just a soldering defect all BL-Ctrl's should be detected now due to clean new soldering. Also, no I2C Error should be displayed.<<BR>><<BR>>

If you get, after re-soldering a BL-Ctrl, again an I2C Error the last connected BL-Ctrl will be defective.<<BR>>
This one should be taken out of the distributer, been changed or repaired.



<<BR>><<BR>><<BR>>
Everything OK? Then it goes back here to Step 5: [[fr/Erstinbetriebnahme/Step5#Step5|{{attachment:symbols/Pfeil_rechts.png}}]]
<<BR>><<BR>><<BR>>


#######################################################################################################################################################################################

<<Anchor(Step1-2)>>
= Set up transmitter =
Before you can use the transmitter and the appropriate receiver on the MikroKopter you should note the following: <<BR>><<BR>>

 __35MHz/40MHz Transmitter/Receiver__
  * Transmitter and receiver should be equipped with the appropriate crystal (same channel).
  * The receiver need to give a PPM Sum-signal.
<<BR>>

 __2.4GHz Transmitter/Receiver__ 
  * Transmitter and receiver have to be "paired" to each other.
  * The receiver need to give a PPM Sum-signal or (if possible) switched to it.
<<BR>>

A transmitter you can use in 4 modes. The assignment of the functions Throttle, Yaw, Nick and Roll are assigned differently to the sticks.<<BR>><<BR>>

Here now the assignment of the sticks for the 4 different modes:

||<class="MK_THeader">'''Mode 1'''||<class="MK_THeader">'''Mode2'''||<class="MK_THeader">'''Mode3'''||<class="MK_THeader">'''Mode4'''||
||[[http://gallery.mikrokopter.de/main.php?g2_view=core.DownloadItem&g2_itemId=93401&g2_serialNumber=2|{{http://gallery.mikrokopter.de/main.php?g2_view=core.DownloadItem&g2_itemId=93570&g2_serialNumber=6}}]]||[[http://gallery.mikrokopter.de/main.php?g2_view=core.DownloadItem&g2_itemId=93434&g2_serialNumber=2|{{http://gallery.mikrokopter.de/main.php?g2_view=core.DownloadItem&g2_itemId=93580&g2_serialNumber=6}}]]||[[http://gallery.mikrokopter.de/main.php?g2_view=core.DownloadItem&g2_itemId=93607&g2_serialNumber=2|{{http://gallery.mikrokopter.de/main.php?g2_view=core.DownloadItem&g2_itemId=93611&g2_serialNumber=4}}]]||[[http://gallery.mikrokopter.de/main.php?g2_view=core.DownloadItem&g2_itemId=93497&g2_serialNumber=2|{{http://gallery.mikrokopter.de/main.php?g2_view=core.DownloadItem&g2_itemId=93601&g2_serialNumber=6}}]]||
<<BR>>

(!) For the !MikroKopter is '''Mode 2''' the perfect mode.
<<BR>><<BR>>

On the !MikroKopter channels for specific functions are already preset.<<BR>>

The first 4 channels are assigned for the control.<<BR>>
The remaining channels can be set up on the transmitter as follows: <<BR>>
 * Channel 1 -> Throttle (Function on stick)
  * Stick up - Kopter lifts off/increases
  * Stick down - Kopter decreases
  * Stick middle - Kopter holds the height 
<<BR>>
 * Channel 2 -> Roll (Function on stick)
  * Stick to the left - Kopter flies to the left
  * Stick to the right - Kopter flies to the right
<<BR>>
 * Channel 3 -> Nick (Function on stick) 
  * Stick up - Kopter flies forward
  * Stick down - Kopter flies backward
<<BR>>
 * Channel 4 -> Yaw (Function on stick)
  * Stick to the left - Kopter rotates anticlockwise
  * Stick to the right - Kopter rotates clockwise
<<BR>>
 * Channel 5 -> Height switch (two-way switch * ON/OFF)
  * Switch OFF - Kopter holds the height manually
  * Switch ON - Kopter holds automatically the height while stick is in middle-position
<<BR>>
 * Channel 6 -> GPS (three-way switch * OFF/PH/CH) 
  * Switch OFF - Kopter without GPS function
  * Switch middle position - Kopter holds position automatically
  * Switch ON - Kopter flies back to the start point
<<BR>>
 * Channel 7 -> Camera tilt (rotary potentiometer)  
  * With a rotary potentiometer on the transmitter the camera mount is infinitely adjustable for the tilt.
<<BR>>
 * Channel 8 -> !CareFree (two-way switch * ON/OFF)
  * Switch OFF - Front of the Kopter (red outrigger) is ahead
  * Switch ON - Keeps the last direction for the control; independently in which direction shows the front of the kopter (red outrigger) 
   * More specific describtion of the function: CareFree
<<BR>>
 * Channel 9 -> not assigned
<<BR>>
 * Channel 10 -> Lighting (two-way switch * ON/OFF)  
  * In conjunction with an [[ExtensionPCB]] you can switch i.e. the lighting ON/OFF.
<<BR>>
 * Channel 11 -> Camera "Roll" (rotary potentiometer)
  * With a rotary potentiometer on the transmitter you can infinitely adjust the Roll direction of the camrea mount.
<<BR>>
 * Channel 12 -> Camera trigger (button)
  * With the [[ShutterCable]] you can trigger the connected camera.  
<<BR>>

How the channels, like a switch/button/poti, are assigned to the transmitter is described in the instructions of the appropriate trensmitter.<<BR>><<BR>>

For the transmitter Graupner MX-20 HoTT is the set up described on the HoTT-Wikipage. <<BR>>
In addition you can download there the ready channel set-up for this transmitter. Wikilink: [[HoTT#Kan.2BAOQ-le_zuordnen|HoTT]]


<<BR>><<BR>><<BR>>
Everything OK? Then it goes back here to Step 1: [[en/Erstinbetriebnahme/Step1#Step1-2|{{attachment:symbols/Pfeil_rechts.png}}]]
<<BR>><<BR>><<BR>>

#######################################################################################################################################################################################
<<Anchor(Step4-1)>>
= Kopter beeps continuously after switching ON =
There are a bunch of possibilities why the Kopter  still "beeps" after switching ON and initializing.<<BR>><<BR>>

'''__Possibility 1__'''<<BR>><<BR>>

The Kopter "beeps" continuously '''1x short and 3x long ...'''. <<BR>><<BR>>

That is the message for the '''Loss of receiving signal'''. <<BR>>
On the !FlightCtrl the red LED is '''ON'''. This can have i.e. following reasons: <<BR>>

 * There is no receiver connected or hooked up wrong to the !FlightCtrl. (Connection opportunities: [[http://mikrokopter.de/ucwiki/FlightCtrl_ME_2_1#Empf.2BAOQ-ngeranschl.2BAPw-sse|Link]])
 * The transmitter is switched OFF.____
 * The transmitter is not connected with the receiver. ____
 * The receiver is not switched to PPM Sum-signal. (i.e. necessary for the HoTT receiver: [[http://www.mikrokopter.de/ucwiki/HoTT#Empf.2BAOQ-nger_auf_Summensignal_stellen|Link]])
 * The wrong receiver has been chosen in the !KopterTool. (This can be set over the EasySetup: [[http://www.mikrokopter.de/ucwiki/EasySetup/Kanaele|Link]] 
<<BR>><<BR>>


'''__Possibility 2__'''<<BR>><<BR>>

The Kopter "beeps" continuously '''short'''. <<BR>><<BR>>

This indicates a '''Battery Warning'''. <<BR>>
On the !FlightCtrl the red LED is '''OFF'''. This can have several reasons: <<BR>>

 * The connected Lipo is not charged and should be charged immediatly. (Infos about Lipos you can find here: [[http://mikrokopter.de/ucwiki/LiPo|Link]])
 * The connected power supply is set wrong. (Using 12-14V it shouldn't be in that way)
<<BR>><<BR>>


'''__Possibility 3__'''<<BR>><<BR>>

The Kopter "beeps" continuously '''1x per second, short'''. <<BR>><<BR>>

This indicates a '''GPS-message'''. That you will hear __only__ with the assembled GPS-System (NaviCtrl with compass and MKGPS).<<BR>><<BR>>

This "beeping" is caused by following reasons: <<BR>>
In the software of the FlightCtrl channel 6 is already set for the GPS. Here you can choose over a 3-way switch at your transmitter between the functions "Free - PositionHold - ComingHome".<<BR>>
As long as the MKGPS has no Satfix (the LED on the MKGPS is __not__ flashing) and in addition channel 6 is activated the buzzer beeps in intervals of a second. <<BR>><<BR>>

If the transmitter has been set already, means the switches are assigned to the right channels, the 3-way switch should be set on "Free". After that the buzzer should be silent.<<BR>>
Are the channels not set at your transmitter, channel 6 can be assigned to a different switch. Here you need to check on each switch until the buzzer is silent.

<<BR>><<BR>><<BR>>
Everything OK? Then it goes back to 4: [[fr/Erstinbetriebnahme/Step4#Step4-1|{{attachment:symbols/Pfeil_rechts.png}}]]
<<BR>><<BR>><<BR>>

############################################################################################################################

<<Anchor(Step4-2)>>
= BL-Ctrl - the red LED is flashing =
If on a BL-Ctrl the red LED is __flashing__, or both LED's are OFF or only on one BL-Ctrl the green and red LED is ON then you can determine a failure. <<BR>><<BR>><<BR>>


'''__Possibility 1: Both LEDs are not lighting__'''<<BR>><<BR>>

 * There is no voltage at the controls.
  * Controller not connected; Wires are not soldered correctly; Controller are not soldered correctly into the distributor.
  
 * Atmega has a defect.
  * Incorrect polarity at the controller; Short circuits throughout solder bridges on the controller; Atmega has been wrong programmed.

 * Controller not or wrong programmed.
  * That can be happen with self-assembled BL-Ctrl's or while trying to download new software into the controller.
<<BR>><<BR>>
 

'''__Possibility 2: Both LEDs are lighting permanently__'''<<BR>><<BR>>

As you can read in "Step 4" with a not correct set up mixer all BL-Ctrl's from address "5" up are lighting. After choosing the right mixer the red LEDs are OFF.<<BR>>
If still one of the BL-Ctrl's (or all BL-Ctrl's) are lighting green and red that indicates an error.<<BR>>
 
 * The BL-Ctrl is not connected to the FlightCtrl; I2C Bus not (or not correct) connected to the FlightCtrl or to the distributor.
<<BR>><<BR>>
 

'''__Possibility 3: Red LED is OFF but the green one shows pulses__'''<<BR>><<BR>>

 * Therefore the controller is OK and connected right but there is no engine connected.
<<BR>><<BR>>
 

'''__Possibility 4: Red LED flashes in intervals__'''<<BR>><<BR>>

The BL-Ctrl is controlling itself for errors while starting. If an error occurs the red LED is blinking after the start.<<BR>>
With the flashing sequence you can figure out what is defect. However, the controller __must__ be checked, replaced or repaired.<<BR>><<BR>>

The flashing indicates: <<BR>>

 * 1 x : Phase A defect
 * 2 x : Phase B defect
 * 3 x : Phase C defect

There can be also different flashing sequences. A detailed and exact error message will be displayed in the '''Terminal Window''' of the KopterTool.<<BR>>
For that reason the BL-Ctrl __must__ be connected directly to the MK-USB. Over the FlightCtrl the failures of the BL-Ctrl will be '''__NOT__''' displayed.<<BR>><<BR>>

Here you can make i.e. your own connection cable: <<BR>><<BR>>

{{http://gallery.mikrokopter.de/main.php?g2_view=core.DownloadItem&g2_itemId=90277&g2_serialNumber=2}}

{i} The top bar contains the odd numbers, the bottom bar the even numbers.
<<BR>><<BR>>

Connected will be the BL-Ctrl in that way: <<BR>><<BR>>

[[http://gallery.mikrokopter.de/main.php/v/tech/MKUSB-BL-Ctrl.jpg.html|{{http://gallery.mikrokopter.de/main.php?g2_view=core.DownloadItem&g2_itemId=77841}}]]<<BR>>
(If only the BL-Ctrl will be connected to the MK-USB you just need to close the jumper on the MK-USB to supply power. <<BR>>
Is the BL-Ctrl still in the distributor or directly connected with wires to the power supply of the Kopter, you can use the power supply of the Kopter.)
<<BR>><<BR>><<BR>>


The error messages are as follows: <<BR>>

 * 1 => Short circuit Phase A ( against B ) -> Controller not ready
 * 2 => Short circuit Phase B ( against A ) -> Controller not ready
 * 3 => Short circuit Phase C ( against B ) -> Controller not ready
 * 4 => Mosfet NA- not always switching off
 * 5 => Mosfet NB- not always switching off
 * 6 => Mosfet NC- not always switching off
 * 7 => Short circuit Phase C ( against A ) -> Controller not ready
 * A => NA+ not switching on
 * B => NB+ not switching on
 * C => NC+ not switching on
 * a => NA- not switching on
 * b => NB- not switching on
 * c => NC- not switching on

More support to additional error messages and to test the controllers you can find here: [[http://mikrokopter.de/ucwiki/BL-Ctrl_Fehlerbeseitigung|BL-Ctrl Fehlerbeseitigung]]


<<BR>><<BR>><<BR>>
Everything OK? Then it goes back here to Step 4: [[fr/Erstinbetriebnahme/Step4#Step4-2|{{attachment:symbols/Pfeil_rechts.png}}]]
<<BR>><<BR>><<BR>>




#######################################################################################################################################################################################
<<Anchor(Step6)>>
= Info window appears: "FlightCtrl is not compatible" =
If after a "click" on {{http://gallery.mikrokopter.de/main.php?g2_view=core.DownloadItem&g2_itemId=95126&g2_serialNumber=1}} this window appears ... <<BR>><<BR>>

{{http://gallery.mikrokopter.de/main.php?g2_view=core.DownloadItem&g2_itemId=94162&g2_serialNumber=1}}<<BR>><<BR>>

... is the software version on the !FlightCtrl/NaviCtrl __NOT__ compatible with the version of the used !KopterTool.<<BR>>
This can either be an older software version of the FlightCtrl or the NaviCtrl. The same error you will get if using an older version of the !KopterTool.<<BR>><<BR>>

The used software versions should have the same ending numbers. <<BR>>
Using the !KopterTool version V1.7'''__6__''' the !FlightCtrl should have version 0.8'''__6__''' and the !NaviCtrl the version 0.2'''6'''.<<BR>><<BR>>
Has in example the !FlightCtrl the version 0.8'''__4__''' is that one __NOT__ compatible with the KopterTool version V1.7'''__6__''' and the !NaviCtrl with version 0.2'''6'''.<<BR>>
Here you need to download into the !FlightCtrl the appropriate software.<<BR>><<BR>>


== Checking Software versions ==

In the first step you can see which software is installed. <<BR>><<BR>>

The version of the KopterTool will be displayed on the upper side to the left: <<BR>><<BR>>

{{http://gallery.mikrokopter.de/main.php?g2_view=core.DownloadItem&g2_itemId=96258&g2_serialNumber=1}}<<BR>>
(Example: !KopterTool Version 1.7'''6'''b)<<BR>><<BR>>

In the virtual display of the !KopterTool you can check on the versions of the !FlightCtrl and the !NaviCtrl.<<BR>><<BR>>

One "click" on the button {{http://gallery.mikrokopter.de/main.php?g2_view=core.DownloadItem&g2_itemId=96260&g2_serialNumber=1}} shows you the information of the FlightCtrl: <<BR>><<BR>>

{{http://gallery.mikrokopter.de/main.php?g2_view=core.DownloadItem&g2_itemId=96254&g2_serialNumber=1}}<<BR>>
(Example: !FlightCtrl2.1 Version 0.8'''6'''d)<<BR>><<BR>>

One "click" on the botton {{http://gallery.mikrokopter.de/main.php?g2_view=core.DownloadItem&g2_itemId=96266&g2_serialNumber=1}} shows you the information of the NaviCtrl: <<BR>><<BR>>

{{http://gallery.mikrokopter.de/main.php?g2_view=core.DownloadItem&g2_itemId=96256&g2_serialNumber=1}}<<BR>>
(Example: !NaviCtrl2.0 Version 0.2'''6'''f)<<BR>><<BR>>


== Download software ==
With the KopterTool you can download easily and quick the actual software for the MikroKopter, the modules and also for the actual KopterTool.<<BR>><<BR>>

How this works is described here: [[fr/SoftwareDownload|SoftwareDownload]]


== Install software ==
If you have successfully downloaded the software you can install and update it into the appropriate module.<<BR>><<BR>>

How this works is described here: [[fr/SoftwareUpdate|SoftwareUpdate]]
 


<<BR>><<BR>><<BR>>
Everythin OK? Then it goes back here to Step 6: [[fr/Erstinbetriebnahme/Step6#Step6|{{attachment:symbols/Pfeil_rechts.png}}]]
<<BR>><<BR>><<BR>>


#######################################################################################################################################################################################