Thursday, December 31, 2009

Wishlist for products

There are so many opportunities of making business for established companies and yet they are not taken.

* As said in this blog before, why does not every single camera support bluetooth? Bluetooth as the standard method to retrieve GPS coordinates and as a remote control.

* A waterproof camera like the Pentax W80 with a wide angle lens (18mm equivalent). Especially with underwater or water sport photos where the camera is right at the action, the wide angle would be desperately needed. I tried to rig the camera on the boom of a windsurfing sail - you can see my head but nothing else.

* A waterproof camera with no openings, it is charged by induction and pictures are downloaded via WLAN

* Speaking of WLAN, Liveview found on DLSRs should broadcast the image via WLAN built in. This would allow for all kinds of special operations, starting from Studios (The Nikon WT-4 is an addon with cables! and costs 700USD or so!), Astrophotography... Just imagine you could control your camera from an IPhone and watch the Liveview screen there. (Note, there is a software that claims to does that but when you dig into the details, it uses a PC as a bridge from USB of the Camera to WLAN)

* Why does the PS3 have a software like Photo Gallery, I can't think about any scenario where an user would do the tagging of photos with the PS3. The Playstation is for viewing, nothing else.

* Why on earth does PSP support LocationFree Player but not any UPnP server? Nobody will by a LocationFree Server just for the PSP and people using this kind of technology usually have different UPnP clients and these do not support the LocationFree Server. So if it is to sell the LocationFree stuff better, make it a common UPnP server. Much more market opportunities.

* An Android based PhotoFrame would make sense as well. Then you can use it to show photos from the SD card, you can stream them via UPnP, and you can run other apps like Alarm Clock, eMail and Calendar client and install more apps. In fact using Android all you have to do is connect an Android motherboard with a LCD screen, software does not need any modifications. Anyway, this is in the worx already I am sure. Just a matter of time. Just imagine a touchscreen on the living room wall where you can see and enter todays appointments stored on the central email server.

* A door bell with Video using TCPIP. Think about Skype, available on the computer, on the cell phone, on the tablet PC,... and used as a door bell?

Monday, August 24, 2009

Sunday, August 23, 2009

Pimp my Telescope Part 2

After describing the general design ideas in part 1 and how the Laser was fitted into the system, the remaining parts are less fency.
On switch controls the environmental lamp, the one the Laser flashes prior to engaging as safety warning. And two other switches turn on the LEDs for the polefinder and the finder scope. But there as well I had a problem before. Your goal is to get the selected object exactly into the center of the crosshair illuminated via the LEDS. When is it in the center? When you can't see it anymore. Didn't like that, so the microcontroller does not simply switch on the LEDs, it keeps them flashing. Simple implementation but one of the once you have seen it you do want to miss that again.
The power line is connected to one of the analog-digital converters of the microcontroller to measure the voltage of the battery and if it droppes below a threshold, the control LED on the PCB starts flashing. Oh, did I mention I use LiPo batteries with 11.1V known from RC helicopters as power source? They are compact, cheap, do not discharge when not used - very important! - but have one downside, they should never get discharged entirely. That's the reason for that warning light.

The dew shield and the temp sensor I will connect to the board later the year. And the next major improvement is to listen to the Autostar internal bus to understand its two-wire interface protocol. Then I want to respond to the autostar computer in the beginning when it is in the scanning phase and tell it is a Meade focuser. This should enable the focuser screens on the Autostar and the connected laptop. I could use these buttons then for various things like turning on the laser via the computer. Or I connect a motor to the focuser that understands the standard I²C protocol the microcontroller outputs to the RJ-11 connector. I am not that thrilled about the autostar protocol of the focuser, all you can do is selecting the speed of the focuser motor and not its absolute position but okay, we have to live with that.

Thursday, August 20, 2009

Pimp my Meade Telescope

As another project I bought an used Meade Telescope, a LXD55 8" Smith Newton with Autostar. This is a GoTo Mount, meaning once you did setup the scope it moves to the star or planet you picked by name and keeps the object centered. It was a nice learning experience however what I liked the most was enhancing it.

1. A Laser visible in the sky as a "finder".
2. The cross-hair occular should be illuminated by the main power, not a battery, and it should blink.
3. Same with the pole finder.
4. Dew shield with heater should be temperature controlled.
5. A simple light.
6. Lithium Ion Battery saver.
7. An electric focuser motor controlled by the Meade Autostar computer

Let's start with the Laser:

The problem for me was usually, what star am I looking at? During the initialization of the scope, it moves to the appoximate position of a star and your task is to center it. When you look at the sky you can see the star in question as the brightest object in that region. When you look through the main scope you can see tens of stars with similar brightness but certainly not the one you are looking for. And in the finder - a second attached but smaller scope with a bigger angle of view - there are three equally bright stars. So you have to move the scope for quite some time until you can be sure you identified the constellation and are pointing to the correct star. With a Laser it's a piece of cake.

ATTENTION: Only use Class 2 Laserpointers with <1mW power. They are strong enough to be visible in the sky given average moist weather conditions. And only these are not dangerous to humans or animals. And not dangerous does not mean completely harmless either. So never point at somebody else, neither direct nor indirect (reflections). Above image was shot with an exposure time of 8 seconds using a 1.4 aperture setting.

You can clearly see where the scope points to, you do not have to make any artistic exercises for multiple minutes when looking through the finder. The Laser is a stripped Laserpointer, the green ones work best as the human eye is most sensitive for this color.

It is placed at the telescope clamp onto a bar where I screwed in two bushings with three adjustment screws, similar to how a viewfinder is adjusted.

Not beautiful yet, but when I find the time for a CAD plan, I will ask a friend to mill that out of alloy.

One design question I asked myself was if that system should be completely independent from the telescope or plugged in to the Autostar. Given the fact that I keep forgetting to turn off the polfinder LED and hence the battery is always empty next time I need it, I certainly want to use the Autostar power. So I need to have a DC-DC converter from 12V to 3V between the AUX port of the mount and the Laser. Oh, and a switch somewhere on the mount, not the tube to avoid shaking it.
And a safety mechanism should be implemented as well to warn people the Laser is about to engage. And.....and I need a microcontroller.

I designed a PCB that
1. is connected to the Aux-Port to draw the power and listen on the Autostar internal bus
2. has rocker switches for the different functionality
3. a RJ-45 connector to connect to a daugther PCB, a tiny one distributing the signals required at the tube (Laser, Temp Sensor, Finderscope LED)
4. a RJ-11 connector for the I²C bus of the microcontroller as a future expansion connector
5. a few mini-usb plugs for the functionalities required at the mount (Polefinder LED, Lamp)
6. a connector for the dew shield heater

So when I switch on Laser, first the LED lamp starts blinking for a few seconds and then the laser engages.