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Submitted on
August 10, 2010
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Camera Data

Make
NIKON CORPORATION
Model
NIKON D90
Shutter Speed
2/1 second
Aperture
F/4.5
Focal Length
32 mm
ISO Speed
250
Date Taken
Aug 10, 2010, 1:21:18 AM
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triggerd flash explained by BiOzZ triggerd flash explained by BiOzZ
this is my simple weight switch controlled flash unit used to produce this image

Switch: the switch is simple ... it consists of aluminum tape a peace of metal 2 nuts and bolts a peace of 1/4th inch acrylic a 1/4th inch bolt (for tripod mount) the switch is sensitive depending on where you put the load ... its a normally open switch
Control Unit: the control unit is a triggered by as little as 2 volts or as high as 40 volts (3.3-12v recommended) via a resistor and a transistor ... (the 10K that carry's to ground is a pull down resistor to prevent misfire from radiant voltage ... higher resistance here can give you lower input voltage lower resistance gives you higher voltages in but the 10K feed resistor must remain at 10K) that triggers a 220V 5A relay via a 1A highspeed diode that prevents inductive feedback current from being jammed in to my transistor than the relay triggers the 400V 1MA line that the flash uses to trigger and i can adjust inverting ro non inverting via a switch that selects witch side of the relay to use (NC or NO)
there are 2 ways of doing this
1) Relay ... Pros. simple bidirectional triggering and i can select inverting or non-inverting without drawing any power ... Cons. non-solid-state so it will degrade with use (but at only 1MA it can last years) with a large bump it can trigger prematurely ... it draws large amounts of current while being triggered and there is a small delay (i have yet to be able to measure it)
2) SCR (silicon controlled rectifier) ... Pros. Fast, Reliable, Highspeed, Draws little current, SolidState ... Cons. Expensive, Hard to find, Omni-Directional (you have to match positive to negative) you need to use an logic inverter that draws current to invert, gets hot (maybe not in this setup) and you need to use the ground of the HV supply as the ground of the circut so if something goes wrong you have 400V flowing threw your project

Flash:
1) a modified disposable camera with the battery replaced by a plug (connected via wire to a 1.5V Dcell for prolonged use) and a 3.5mm pone jack to trigger the flash parallel to a N.O. button for triggering ... Pros: Fast, Simple, constant output ... Cons. Nonadjustable, hard to point and has a limited range
2) an nikon SB-600 flash on a DIY remote hotshoe [link] ... Pros. Simple to point, has zoom settings, fully adjustable output, can trigger many times a second and easy rechargeable batteries ... Cons. produces a delay of about 5MS or so and more of a pain to set up

use: the control box is set on inverting i place a standoff between whats going to be captured and the switch i place the flash on the camera and i hit it ... the delay can be controlled with simple leverage ... depending on ware i place the standoff on the switch the standoff leaves the switch at different times ... it requires a gut feeling to get it JUSTTTTT right
... put your camera on an exposure of a few seconds ( i use my intravolomitor to delay 20 seconds than do a 3 second exposure) cut off all the lights and let the flash capture the moment
i can trigger this with my laser trigger also [link]

EDIT 8/11/2010: i got a hackaday feature! [link]
to any one looking to make this let me explain how i made the flash unit in detail

when you open a disposable camera with a flash DONT TOUCH THE CIRCUIT BOARD locate the primary capacitor and short it out with a screw driver to empty the load (the last thing you want is to get a 200V shock) find 2 little peaces of metal that hang out of the side remove them and solder in the trigger wires (or wire them to a phone jack so you can exchange them)
OPTIONAL: find the charge button and attach a switch for easier charge and remove the battery and attach a power socket and externally make a battery pack or power source with a 1.5V battery (D cell recommended for extended use but do not exceed 2V)
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:iconkorabeka:
korabeka Featured By Owner Dec 31, 2010  Hobbyist Photographer
:invisible:
I didn't quite understand..
you use this to shoot things?
But it looks pretty cool and very well done

I'll burn down my house if I tried it.. so I'll just stick to the usual way ^__^
but you keep up
Reply
:iconbiozz:
BiOzZ Featured By Owner Dec 31, 2010  Hobbyist Photographer
it uses a trigger plate, trigger controller and flash ... you place on object on the trigger plate and you turn on the controller ... once the object leaves the trigger plate it triggers the flash
the flash has now been replaced with an nikon SB-600 speed flash
Reply
:iconkorabeka:
korabeka Featured By Owner Jan 1, 2011  Hobbyist Photographer
ooh!! I get it..
but the electronics you did are kinda tricky.. I'll get my dad to help me with that ^__^
Reply
:iconbiozz:
BiOzZ Featured By Owner Jan 1, 2011  Hobbyist Photographer
it is rather tricky and be careful the capacitor in the flash unit if full can carry lethal voltage so make sure you short that out before fiddling around in it
Reply
:iconkorabeka:
korabeka Featured By Owner Jan 3, 2011  Hobbyist Photographer
don't worry, I wont be getting even close to it xD
Reply
:iconazuh-ra-el:
Azuh-ra-el Featured By Owner Aug 14, 2010  Student General Artist
woah man...crazy ^^;
amazing how you came up with this.
Reply
:iconjoshuaartwork:
JoshuaArtwork Featured By Owner Aug 14, 2010
Saw this on hackaday, looks great :)
Reply
:iconbiozz:
BiOzZ Featured By Owner Aug 14, 2010  Hobbyist Photographer
thanks!
Reply
:iconjoshuaartwork:
JoshuaArtwork Featured By Owner Aug 15, 2010
A pleasure. :)
Reply
:iconrionnipal:
RionNipal Featured By Owner Aug 11, 2010
saw this on hackaday dude, keep up the good work
Reply
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