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Agfamatic Sensor 100, Germany, 1971.
What must be the best, most minimalist case ever designed for a camera.
The Agfamatic 100 is a viewfinder camera for Pak-Film 126 cassettes. It has an Agfa Colorstar lens with fixed focus and fixed aperture. Two shutter speeds are selectable with the ring around the lens barrel, the scale showing a cloud and a sun symbol. The camera has a single stroke advance lever that advances the film, cocks the Parator shutter and turns the flash cube holder on which magicubes can be fired as flash. On the axis of the advance lever is the red "sensor", the shutter release button hidden under a round piece of red foil.
-Camerapedia
This is the new temperature sensor w/ power indicator LED, and a new connector interface (RJ45 + backup .100 headers.)
More info here: make.rrrf.org/ts-2.0
This is the new temperature sensor w/ power indicator LED, and a new connector interface (RJ45 + backup .100 headers.)
More info here: make.rrrf.org/ts-2.0
Arduino + Pmr + RTTY = Remote Temperature Sensor
emmanuelgranatello.blogspot.it/2012/08/remote-temperature...
Before and after pics from cleaning my D600 sensor for the first time.
I used Sensor Swab Type 3 and the Eclipse Optic Cleaning Fluid, both bought from Amazon.com
www.amazon.com/Sensor-Swab-Type-Box-12/dp/B0029WUKVG/ref=...
www.amazon.com/Photographic-Solutions-ECDSC-Cleaning-Solu...
It took 4 swabs to get it 99% clean (3 would have been fine, but I was being OCD about 1 tiny spec). Here is the before and after in full resolution!
Shot with the Tokina 17-35, F14, ISO 800, 1/4s for all shots, around 17-19mm. AWB made the last photo a bit different colored, but you get the point :)
Total end cost to me was about $47, which is less than a typical shop sensor cleaning, and I still have 8 swabs left -- good for another 2 or 3 cleans hopefully!
Arduino + Pmr + RTTY = Remote Temperature Sensor
emmanuelgranatello.blogspot.it/2012/08/remote-temperature...
This is the new temperature sensor w/ power indicator LED, and a new connector interface (RJ45 + backup .100 headers.)
More info here: make.rrrf.org/ts-2.0
Canon G12 sensor. The dust you see on the sensor is less than when I took it apart. This is pretty much what destroyed the camera.
My Baroesque Barometric Skirt reflects environmental data, plus my personal temperature - it's a reflection of the self within the bigger picture. What I mean by this is that how I pass through and interact with the ambient environment interests me. To visualise this passage I have created a skirt that uses sensors to glean environmental data in the form of a barometric sensor board, its data more commonly familiar to those who track and predict weather. To the viewer of the skirt, they will see colours changing in real time on four rays of RGB strip, one for each sensor reading.
This is how I’ve put together the electronics inside the skirt: the aforementioned barometric sensor board protrudes from the skirt and gleans the ambient temperature ( Celcius C) around it, the other sensors on the board collect data and via algorithms in the code work out the altitude (meters m) and pressure (Pascal Pa). I’ve used a Shrimp kit, which is similar to the Arduino Uno, that comes as a bag of components and soldered it onto stripboard. Another temperature sensor, measuring my temperature sits on this stripboard, Four lengths of RGB LED strip radiate from the Shrimp circuit and both the stripboard circuit and the RGB LED strip are sewn onto what I call an ‘apron’, which sits under the skirt and is detachable for washing purposes and also as I like to fashion my electronic circuits as interesting pieces to be viewed in their own right.
The code takes the readings from the sensors and runs an algorithm firstly to convert the data into Celcius, meters or Pascals, and then runs another to mix the colours appearing on each corresponding RGB LED strip. There are 7 colours I’ve set to pass through, the lowest reading being blue, followed by cyan, white, green, yellow, magenta and finally red for the highest reading in each sensor reading data band.
It took a months to create the skirt as there was so many iterations between experimenting with circuits around how to make my idea come to life and creating the skirt, testing paint on fabric, choosing a visual metaphor and style of the skirt, then making the skirt. Next finalising choice of the electronics, coding, prototyping, then transferring the circuit to stripboard. Finally soldering everything together and then debugging, testing, making changes to the code, before eventually putting the skirt and the electronics together.
The Baroesque Skirt’s weather artwork was inspired by the characters Amaterasu & Kabegami from the game Okami.
Read more about the Baroesque Skirt: rainycatz.wordpress.com/2012/10/22/baroesque-barometric-s...
Visual comparison of sensor sizes full frame Nikon D700(crop 1x), Sony Nex-5n(crop 1.5x) and Olympus E-P1(crop 2x)
DreamVu Inc come with handy technology Obstacle Detection Sensor. Detecting obstacles as high as needed for your robot and its payload. Give you correct vision, which often very difficult. Shop our product now.
Mutsuko Hatano, Professor, Tokyo Institute of Technology, Japan during the session "Diamond Sensors.Explore" at the World Economic Forum - AMNC 17, Annual Meeting of the New Champions in Dalian, People's Republic of China 2017. Copyright by World Economic Forum / Ciaran McCrickard
1986 Fender Stratocaster with Fender Lace Sensor Pickups
1986 Fender Stratocaster with Fender Lace Sensor Pickups
1986 Fender Stratocaster with Fender Lace Sensor Pickups
1986 Fender Stratocaster with Fender Lace Sensor Pickups
1986 Fender Stratocaster with Fender Lace Sensor Pickups
1986 Fender Stratocaster with Fender Lace Sensor Pickups
1986 Fender Stratocaster with Fender Lace Sensor Pickups
1986 Fender Stratocaster with Fender Lace Sensor Pickups
1986 Fender Stratocaster with Fender Lace Sensor Pickups
1986 Fender Stratocaster with Fender Lace Sensor Pickups
1986 Fender Stratocaster with Fender Lace Sensor Pickups
1986 Fender Stratocaster with Fender Lace Sensor Pickups
1986 Fender Stratocaster with Fender Lace Sensor Pickups
1986 Fender Stratocaster with Fender Lace Sensor Pickups
1986 Fender Stratocaster with Fender Lace Sensor Pickups
1986 Fender Stratocaster with Fender Lace Sensor Pickups
1986 Fender Stratocaster with Fender Lace Sensor Pickups
1986 Fender Stratocaster with Fender Lace Sensor Pickups
1986 Fender Stratocaster with Fender Lace Sensor Pickups
1986 Fender Stratocaster with Fender Lace Sensor Pickups
1986 Fender Stratocaster with Fender Lace Sensor Pickups
1986 Fender Stratocaster with Fender Lace Sensor Pickups
1986 Fender Stratocaster with Fender Lace Sensor Pickups
1986 Fender Stratocaster with Fender Lace Sensor Pickups
1986 Fender Stratocaster with Fender Lace Sensor Pickups
1986 Fender Stratocaster with Fender Lace Sensor Pickups
1986 Fender Stratocaster with Fender Lace Sensor Pickups
1986 Fender Stratocaster with Fender Lace Sensor Pickups
1986 Fender Stratocaster with Fender Lace Sensor Pickups
1986 Fender Stratocaster with Fender Lace Sensor Pickups
1986 Fender Stratocaster with Fender Lace Sensor Pickups
1986 Fender Stratocaster with Fender Lace Sensor Pickups
1986 Fender Stratocaster with Fender Lace Sensor Pickups
1986 Fender Stratocaster with Fender Lace Sensor Pickups
1986 Fender Stratocaster with Fender Lace Sensor Pickups
1986 Fender Stratocaster with Fender Lace Sensor Pickups
1986 Fender Stratocaster with Fender Lace Sensor Pickups
1986 Fender Stratocaster with Fender Lace Sensor Pickups
1986 Fender Stratocaster with Fender Lace Sensor Pickups
1986 Fender Stratocaster with Fender Lace Sensor Pickups
1986 Fender Stratocaster with Fender Lace Sensor Pickups
1986 Fender Stratocaster with Fender Lace Sensor Pickups
1986 Fender Stratocaster with Fender Lace Sensor Pickups
Fender 1986 USA Strat Original & Case
Fender 1986 USA Stratocaster Original & Case
Canon 10mp aps-c image sensor used in 400d / Rebel XTi and possibly in 40d 1000d
Die size 24.3 x 17.6 = 427.68mm2
Effective area size 22.2 x 14.8
see the line running horizontally through the entire photo. can anybody please tell me what this means? ( out of cam )
Before and after pics from cleaning my D600 sensor for the first time.
I used Sensor Swab Type 3 and the Eclipse Optic Cleaning Fluid, both bought from Amazon.com
www.amazon.com/Sensor-Swab-Type-Box-12/dp/B0029WUKVG/ref=...
www.amazon.com/Photographic-Solutions-ECDSC-Cleaning-Solu...
It took 4 swabs to get it 99% clean (3 would have been fine, but I was being OCD about 1 tiny spec). Here is the before and after in full resolution!
Shot with the Tokina 17-35, F14, ISO 800, 1/4s for all shots, around 17-19mm. AWB made the last photo a bit different colored, but you get the point :)
Total end cost to me was about $47, which is less than a typical shop sensor cleaning, and I still have 8 swabs left -- good for another 2 or 3 cleans hopefully!
Balloon Bokeh? (Almost)
Photos from an air quality balloon installation around Pittsburgh. Project by Stacey Kuznetsov.
An exploded view of the AuroraWatchNet remote sensor enclosure. Commercially-available soil pipe is used to provide an enclosure which is waterproof and can be partially buried to provide a stable temperature for the fluxgate sensor. The top section remains above ground for access and to enable wireless communication with the Raspberry Pi.