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Focusing
You may think that gettinig an iris into focus would be a
lengthy exercise, but with the EyeRonec
camera
that is not so.
Just hold the camera up to the eye, make sure the eyeball
is reasonably centered and press the
shutter button half way down and as you see the image
coming into focus on the large 13.5" monitor, the
button is then pressed all
the way down and the picture will be taken.
A l l i
t t a k e s i s 5 - 1
0 seconds
Did 'the penny drop' ? There is no need at all to strain and look
through a tiny few-finder or trying to see
something on a 1.5 " mini screen
on the back of a
camera?
Did you know that All other
makes of digital iridology cameras need you to peek through a little view
finder?
With the EyeRonec...
YOU ARE ACTUALLY SEEING EVERY FIBER OF
THE EYE MAGNIFIED TO THE 13.5" MONITOR SIZE BEFORE TAKING THE
SHOT!!
Recording
I have watched long instruction sessions of other iris camera
makers and felt sorry for the user; All that
technical stuff and settings to remember. Iridologist
that never before used the EyeRonec iris
camera
where able to make good pictures at the first attempt in
just 10 seconds or so...... You can do the
same!.
Old iriscope cameras rely on film and
developing in photo labs that produce varying colour
each time.
The EyeRonec digital camera iriscope employs the latest
digital recording techniques.
Digital cameras use electronic dots
similar to film. Do you remember hearing about grainy film and when
a photograph was enlarged to wall poster
size you had to take a few steps back to see the image clearly?
Digital photography is similar, the dots may
still be larger and more defined as film, but the principle is
the same.
As a matter of fact the monitor you are looking at
now also works with 'dots'. To enable us to get colour
the image dots or pixels are arranged in lots of 3 and by
turning one, two or 3 ON, ALL the colours of the
rainbow can be made. So 3 dots become ONE so to
speak. How many of these dots do we need to get a
good picture or a clear photo? Well your TV has around
153,200 pixels (USA) or 215,500 in Australia and
Europe. Up until now that has been
satisfactory until computers became available and people
became
used to watch screens with around 1000,000,000 pixels (
1Meg ) producing better images
than the old
TV and Video's. This challenged the TV
people to start off fresh and introduce a NEW incompatible system
of DIGITAL TV. Now all
our old TVs need to be replaced
as a whole new digital network and new
TV
sets are
introduced.
What does this have to do with Digital
Cameras?
Well digital cameras are currently designed
to give an analog (old system) TV signal
output so the
number of pixels has to be limited to suit that system, even if the
camera can produce images with
3.2 - 8 Mp. So YES, most of the
image is lost and only 215,500 or 153,200 are
sent to the monitor.
The printer can accept around 3 million pixels as this
deviceis designed to be
digital.
So for now the monitor is
the weakest link. In the next 5-10 years as all
the current TVs have been
replaced the camera manufacturers
will have an output signal that will suit the
new equipment and
hence a better
image.
But do we need more pixels to see all the fibers in an iris?
Maybe not, current equipment produces
very good images and iridologist all over the
world enjoy the
luxury of having INSTANT images to work with, on a large
screen patients can observe at the same time.
The Canon camera was selected
because of its high amount of usable pixels and its ability to
show the
live image on a large
monitor.
The memory card supplied is
able to store approximately 1720 images and
additional cards are
available at around $
20.- (The actual number of images depends on the
model of the camera
used) | |
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