![]() ![]() (Obviously, your intvlm8r requires a suitable private network or internet connection for this.) Low-Cost The store destination can be an FTP or SFTP server, Dropbox, Google Drive or rsync. Auto-upload of imagesĪt least once each day, the Raspberry Pi copies the images from the camera, and if enabled by the user then uploads all the images to a remote store. A typical building construction might shoot Monday through Friday, from 6am to 6pm, and take up to 60 shots an hour. Flexible interval settingsįrom the web interface you select the days of the week to shoot, within what span of hours, and how many shots per hour. GPhoto (running on the Pi) is only used for the camera management, with the Arduino handling the core role of waking the camera and taking the shot using the camera's manual shutter input.Ĭheck to see if your camera's been tested on this page (and please update it if you have tried). The unit deployed in NZ contains the 600D - read why on the Design Decisions page of the project's Wiki. ![]() The intvlm8r has been tested primarily with Canon cameras and also a limited level of Nikon support. With gPhoto and python-gphoto2 providing all the camera interfacing, the intent is that any camera compatible with these projects should be able to be used. The Arduino's code ('sketch') is largely bespoke, whilst the Pi is totally reliant on and derived from both the gPhoto2 project, and python-gphoto2, Jim Easterbrook's Python interface to same. The digital I/O reduces the risk of drive corruption as the power-hungry Pi's power is applied and removed under the Arduino's control. An I2C communication bus between the micros handles the higher-level intercommunication, with 3 digital I/O lines between them providing 'wake' and 'shutdown' signalling. A Raspberry Pi Zero W provides a web-based "front-end" where all configuration and management takes place. An Arduino Pro Mini is the master, with a battery-backed external real-time clock signalling it to wake the camera and fire the shutter. The first unit deployed is recording the construction of our friends' house in rural New Zealand, off-grid and with no network connectivity.Īt its heart are two micro-controller boards, each serving a specific purpose. It came into being after we were unable to find a suitable time-lapse controller for a planned time-lapse shoot for which we wanted the image quality of a DSLR. Making the full version available for free as a demo should get some attention.The Intervalometerator (aka "intvlm8r") is a flexible, low-cost time-lapse camera controller for DSLRs. It's kind of a shame too, since Proton Basic is a powerful and easy-to-use compiler. It does offer a PIC-based, Basic-programmed alternative that is more-or-less compatible with Arduino shields but it doesn't seem to be making much of an impact with anybody. Amicus was introduced with much hype and fanfare. There's information about the loader here as well as some pre-built load files for common configurations. The bootloader supplied with the Amicus compiler will only work with the custom VID/PID to "save the user from having to specify a com port." The ds30Loader is a great substitute without the nonsense and can easily be integrated into the Amicus IDE. ![]() The Amicus board has a FTDI USB converter chip with a custom VID/PID. The 18F25K20 is a nice 28-pin micro, but limited to 3.3 volt operation which does cause some issues. Amicus, which is free, will work with any 18F25K20, regardless of hardware, so this is an excellent demo for them and a nice compiler available free-of-charge. The Amicus compiler is the full version of Proton Basic, limited to the PIC18F25K20. Crownhill/Proton Basic recently introduced Amicus. There are a few options for PIC-based "Ardiuno-like" boards.
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