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* /!\ Values below 6 and over 220 result in an static signal. If you need a blinking interval, please use values between 6-220
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* Black cable: blue and white on " Out+ "; Yellow to " Out- " | * Black cable Version I: blue and white on " Out+ "; Yellow to " Out- " * Black cable Version II: red and white on " Out+ "; Yellow to " Out- " * Black cable Version III: red and white on " Out+ "; Black to " Out- " |
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=== Assignment of the cable === | === Assignment of the cable (Version I) === |
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=== Assignment of the cable (Version II) === * Yellow: GND * White: focus (when connecting from blue to yellow) * Red: Trigger (when connecting from blue to yellow) In the ShutterCable red and white are combined. So the camera gets the instruction to focus and release at the same time. === Assignment of the cable (Version III) === * Black: GND * White: focus (when connecting from blue to yellow) * Red: Trigger (when connecting from blue to yellow) In the ShutterCable red and white are combined. So the camera gets the instruction to focus and release at the same time. |
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* /!\ Values below 6 and over 220 result in an static signal. If you need a blinking interval, please use values between 6-220 | |
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See also: Fototechnik
Inhaltsverzeichnis
Eletronic schutter cable for cameras
High-quality cameras (eg SLR, Canon G11, etc.) usually have an input for a remote trigger.
A trigger cable for these cameras can be easily built, which can be controlled by the FlightControl.
Where to buy: Shop-Link
Set
The set consists of:
- A board with optocouplers and LEDs
- A black cable with 90° 2,5mm jack
- A two-core cable for connection to the flight control
- Transparent shrink tube
Connect the cable
== Strip the cable ===
Connection
- Red wire: black cable labeled " In- "
- Black cable Version I: blue and white on " Out+ "; Yellow to " Out- "
- Black cable Version II: red and white on " Out+ "; Yellow to " Out- "
- Black cable Version III: red and white on " Out+ "; Black to " Out- "
Shrinking
Assignment of the cable (Version I)
- Yellow: GND
- Blue: focus (when connecting from blue to yellow)
- White: Trigger (when connecting from blue to yellow)
In the ShutterCable blue and white are combined. So the camera gets the instruction to focus and release at the same time.
Assignment of the cable (Version II)
- Yellow: GND
- White: focus (when connecting from blue to yellow)
- Red: Trigger (when connecting from blue to yellow)
In the ShutterCable red and white are combined. So the camera gets the instruction to focus and release at the same time.
Assignment of the cable (Version III)
- Black: GND
- White: focus (when connecting from blue to yellow)
- Red: Trigger (when connecting from blue to yellow)
In the ShutterCable red and white are combined. So the camera gets the instruction to focus and release at the same time.
Connect to the FlightControl
The cable is connected to the transistor outputs (top row of SV2):
The outputs Out1 and Out2 can be used.
The red wire of the cable is always in the middle
Trigger
The trigger can be controlled as follows:
Adjustable interval after engine start
- set interval and fixed bit pattern
- Here settings for Out2: fixed interval (30)
- Flash patterns is active only when the motors run
Values below 6 and over 220 result in an static signal. If you need a blinking interval, please use values between 6-220
Using switches on the remote control
- Select a potentiometer instead of the interval
- Settings for this Out2: Poti4 assigned
See Koptertool
Schematic
Optocoupler
An optocoupler provides electrical isolation between flight control and camera.
It protects the camera against damage in case of faulty connection or overvoltage.
The optocoupler operates almost like a switch.
Building yourself without the set
If you want to build the cable yourself, it can also be realized without the LED
You would need:
- A servo cable
- A resistor (eg 330Ohm Reichelt: SMD1/4W 330)
- An optocoupler (for example, Reichelt: LTV-356T SMD)
- A jack (for example, Reichelt: KSS25)
- A small piece of breadboard PCB (eg Reichelt: H25PR050)