As promised, here’s more on low cost frame options, illustrated with a few examples. The designs have not been worked out in detail yet.
These frames consist of one part, typically made of plastic, with actuators mounted directly below the finger plate. This way they can be relatively low cost and low profile. Compact coils are used like with the previously shown high-res display, and they aren’t necessarily limited to low power operation despite being mounted in plastic, as explained below.
The first example (tctct2-frame-open-mini.png) accomodates a 10×16 array of 160 pins in roughly the same finger plate area as the standard Optacon display. With a horizontal pitch of 1.5mm and a vertical pitch of 1.8mm, this layout is not really appropriate for Optacon-like reading use (vertical resolution is relatively low) but it may be an attractive alternative for the ‘mobile’ version proposed before. Smaller versions with lower vertical resolution (e.g. 10×10, 100 pins, just covering a fingertip) may be more suitable for low cost and low power applications.
Disadvantages of this first design are resolution and power limitations, and high precision manufacturing requirements due to the actuator packing density. Also, interconnect cost will be high because of the curved actuator array without a common node available, requiring two connections per actuator.
The next design (tctct2-frame-open-mini-wide.png) improves resolution by increasing width rather than height, intended for use with more than one finger at a time. The example in the image has the same pin pitch as before but has a less curved finger plate and is rotated 90 degrees. With 28×14 pins at 1.8×1.5mm it provides for 392 pins on a 48.6×19.5mm active area, usually enough for 3 fingertips.
This arrangement has several advantages besides an obvious higher overall resolution. Pin pitch is smaller in vertical direction now (like Optacon displays), and even though the density is lower than an Optacon display it covers a larger total area, all of which consists of the most sensitive part of fingertips. Because of this I expect this display to perform quite well at lower power and frequencies. Like the previous design, it still requires a high precision plastic part and interconnect cost will be high.
Cost (including precision and interconnect requirements) can be brought down by moving to a flat lower density display as shown in the third image (tctct2-frame-open-mini-flat.png). This example has a 24×10 array of 240 pins on a 46x18mm active area display similar to the previous one. The lower density allows for somewhat higher efficiency coils, mounted on a lower precision, more heat resistant plastic frame, which allows driving at high power. Also, with actuators mounted in a flat plane coil contacts can be made to fit a printed circuit board below to simplify assembly.
This last frame design is quite a departure from the Optacon standard layout but seems promising: it is relatively high resolution yet low cost, suitable for high and low power modes, and has a simple low profile construction.
PDF reference description: tctct2-frame-open-mini
tctct2-frame-open-mini.png: -----BEGIN PGP SIGNATURE----- Version: GnuPG v1 iQEcBAABAgAGBQJVbMxBAAoJEFRnUmrjvQPl7H8H/2fe6V79GtGgQLqivL3Z1FoX lBSwuP6qiB78pmXcjdH5X0M8u20eUOYCEOarkvIEkKrSXtMr3p3SKoENytbUa82I z8Or9/EACkMF9fITSm1FzK1O1N9yj8F+5SNc0S/Y6CrJPp/XBH4HlPaF9l0NrEYk QDN8F53y1FxfSQ15gv1QSi3GYh4K+YRwQrlTKWhm9uoi1dIv6Wrg7t+70vjkxlUp igDhrWLjd7vSArLpZK2xuMvvzASalq9PkQPhiloADSGvjHMSxPQMC8bqY85AADrN qpAYizSJAchlfkMnW6KHyl9ZMVyAkF+ZlhfW++CWkMDtROcrxNkvfyWnMLUMDpI= =pm2S -----END PGP SIGNATURE----- tctct2-frame-open-mini-wide.png: -----BEGIN PGP SIGNATURE----- Version: GnuPG v1 iQEcBAABAgAGBQJVbMyBAAoJEFRnUmrjvQPlsxMH/14lzBJwEECvPX/b+MYi1Zpw ueNS1CSi5KM7dyp/KF9UBiqgwQhZOb+MSTRrB0rwu+uJ6U8bvvLyHScLdhY4O3J+ gWOZ54RxtL5QomU3iNIHxXhSRhQqen7/Pmh9DoNBJUAYqI+QMtMX0kzw+76PevbY EznetKoq52GBo9euHvFgCNCAsCsWI1clEml12BpYGBOak13GS34F1N1R2BSIx9MU RWC1G3x17aadY2UK3Rxfy56gKjMrWq8INau2klqIr/hcgqc3pEa3S2LKv8W2VsdE LM8pVI5faudbx/MD9YrHQsOZxW4gEXn6umLSPA94gs90Z/EI1kzDyWih25abm3k= =SMwR -----END PGP SIGNATURE----- tctct2-frame-open-mini-flat.png: -----BEGIN PGP SIGNATURE----- Version: GnuPG v1 iQEcBAABAgAGBQJVbMv6AAoJEFRnUmrjvQPlMSMH/jKYToLRiHyUq0y33E6nzTCn iO8EyZ8oXjFHooghsTkbe00t0dPtDvmdwLQlbF+VyG+7+NfGAIy70K2F9AWsYc30 M5/Te/dbUCKhsYn9DpwGYODJHYR31gS6WyNw1Zgkg9d17UCzBlgeoodmte+g/1Zz AYxC0jy/7Kr8P4RRw2n7EnUnbH1aI1PX6o0kpdARzMe1UjF/LJB7zoBQgO24s37M 9L38Y4ZUtXfkjIT0M+AOdJF83nBhMFMEDEf7w0joSZRBQ1uPIDo6CwZRox4gOK9F bmuekh6/s2V6MyPWuWRKX06TT9kD6liX1Hx5UN8jRiS61H1ECe32zQyFRTvSpLs= =Llbp -----END PGP SIGNATURE----- tctct2-frame-open-mini.pdf: -----BEGIN PGP SIGNATURE----- Version: GnuPG v1 iQEcBAABAgAGBQJVbMwhAAoJEFRnUmrjvQPlSUMIAI8jELLhyQDbdBzHterCf9/f ShYhDwipoF0rg1rvvyncFxN3qfPsAEqU8X51Rc/yBdUpSufoob9eiws0nw4qHfNo 0PpydJOK10+/qqm7laNdeLAGXaVIiYVSWVtGY6yMeWN77MMp5clTO2CYheKt0PmL 2jAbtyZcENLaI/UMTHA0MD28NXNkySg/abtTGDdSx7ANACmjQSxhPZSE8x55GqUC iZwASsM1pfXFUwy8A3Jhxq1c97ZVf1XQ0ADPgp4+vHGHX+Qq1w+Iity3CZXTcBLh E+RK+izr9pG/Or5kHoqVCREg5fStqfMmug6vlHtazmamvmOAbxxnQu97phRFt64= =6MZp -----END PGP SIGNATURE-----