Hi all,
I mentioned in another thread I'm working on the development of a new film scanner. I started this project almost 8 years ago but put it on hold as I wasn't shooting much film at that time. Back then I developed the electronics and more recently the PC software. I've now ordered all the parts for the prototype mechanical design - let's see if it all works in the New Year!
My motivations for this scanner come from the frankly poor set of options on the market. All the scanners seem to have one or more of the following traits:
- Terrible software
- Are legacy hardware only working with legacy PCs
- Poor scan quality
- Poor user experience
- Extremely long and tedious scan times
I think this can all be fixed quite easily. I plan to make a sort of copy of the Pakon F 135 scanner, at least the style of it any way where it's capable of scanning a whole roll of film.
The electronics I have got working can scan a whole roll of film in just over a minute at 2000dpi, 14bit in black and white only. If I look to sell this, It would be upgraded to colour and at least 2700dpi.
So, some key criteria for my scanner are:
- Can scan a whole roll of film in one go without human intervention (loading strips of film)
- Scanning time less than 10 minutes
- 3000dpi ideally
- Really good software that doesn't crash or require some exotic HW configuration
- Simple USB 2.0, drivers come with the SW
- Good optical quality up to 3000dpi
- 10 bit digitisation or better
- Scans the 135 film format
My philosophy for this project is in offering a product that is reliable and customers can have faith in using for the next 20 years - which is entirely possible. The software will be fully open source and the communication protocol fully documented and public to allow for 3rd party software. The software is already publicly available on github (see below) and is current written in Python, it will be rewritten in C++ for the official release - binary size will be in the region of 10s of MB. Community contributions to the software will be actively encouraged.
Github repo for the PC software.
Github repo for the electronics.
I think it'd be possible to achieve a retail price of around €1-1.5k but I'm a long way off that yet.
I would love to hear everyone's opinion / feedback / suggestions!
But please, do not just tell me why it won't work unless you have some real justification.
I mentioned in another thread I'm working on the development of a new film scanner. I started this project almost 8 years ago but put it on hold as I wasn't shooting much film at that time. Back then I developed the electronics and more recently the PC software. I've now ordered all the parts for the prototype mechanical design - let's see if it all works in the New Year!
My motivations for this scanner come from the frankly poor set of options on the market. All the scanners seem to have one or more of the following traits:
- Terrible software
- Are legacy hardware only working with legacy PCs
- Poor scan quality
- Poor user experience
- Extremely long and tedious scan times
I think this can all be fixed quite easily. I plan to make a sort of copy of the Pakon F 135 scanner, at least the style of it any way where it's capable of scanning a whole roll of film.
The electronics I have got working can scan a whole roll of film in just over a minute at 2000dpi, 14bit in black and white only. If I look to sell this, It would be upgraded to colour and at least 2700dpi.
So, some key criteria for my scanner are:
- Can scan a whole roll of film in one go without human intervention (loading strips of film)
- Scanning time less than 10 minutes
- 3000dpi ideally
- Really good software that doesn't crash or require some exotic HW configuration
- Simple USB 2.0, drivers come with the SW
- Good optical quality up to 3000dpi
- 10 bit digitisation or better
- Scans the 135 film format
My philosophy for this project is in offering a product that is reliable and customers can have faith in using for the next 20 years - which is entirely possible. The software will be fully open source and the communication protocol fully documented and public to allow for 3rd party software. The software is already publicly available on github (see below) and is current written in Python, it will be rewritten in C++ for the official release - binary size will be in the region of 10s of MB. Community contributions to the software will be actively encouraged.
Github repo for the PC software.
Github repo for the electronics.
I think it'd be possible to achieve a retail price of around €1-1.5k but I'm a long way off that yet.
I would love to hear everyone's opinion / feedback / suggestions!
But please, do not just tell me why it won't work unless you have some real justification.
It's a shame people even ask that and really shows where the state of the software in this space is at.
