Digital Recording Binoculars Handbook
78
Table of Contents Menu Lists Index
GB
World time difference
Time-zone
differences
Area setting
GMT Lisbon/London
+01:00 Berlin/Paris
+02:00 Helsinki/Cairo/Istanbul
+03:00 Nairobi
+03:30 Tehran
+04:00 Moscow/Abu Dhabi/Baku
+04:30 Kabul
+05:00 Karachi/Islamabad
+05:30 Kolkata/New Delhi
+06:00 Almaty/Dhaka
+06:30 Yangon
+07:00 Bangkok/Jakarta
+08:00 HongKong/Singapore/Beijing
+09:00 Tokyo/Seoul
+09:30 Adelaide/Darwin
+10:00 Melbourne/Sydney
+11:00 Solomon Is
+12:00 Fiji/Wellington
–11:00 Midway Island
–10:00 Hawaii
–09:00 Alaska
–08:00 LosAngeles/Tijuana
–07:00 Denver/Arizona
–06:00 Chicago/MexicoCity
–05:00 New York/Bogota
–04:00 Santiago
–03:30 St. John’s
–03:00 Brasilia/Montevideo
–02:00 Fernando de Noronha
–01:00 Azores/Cape Verde Is.
Maintenance and
precautions
About the AVCHD format
What is the AVCHD format?
The AVCHD format is a high definition
digital video camera format used to record
a high definition signal using efficient
data compression coding technology. The
MPEG-4 AVC/H.264 format is adopted to
compress video data, and the Dolby Digital
or Linear PCM system is used to compress
audio data.
The MPEG-4 AVC/H.264 format is capable
of compressing images at higher efficiency
than that of the conventional image
compressing format.
The MPEG-4 MVC/H.264 format is
adopted to compress 3D video data in the
AVCHD format Ver. 2.0 for the 3D and
60p/50p recording.
As the AVCHD format uses a
compression coding technology, the
picture may be disturbed in scenes
where picture, field angles or brightness,
etc. change drastically, but this is not a
malfunction.
About GPS (DEV-50V)
The GPS (Global Positioning System) is a
system that calculates geographical location
from highly accurate US space satellites.
This system allows you to pinpoint your
exact location on the earth. The GPS
satellites are located in 6 orbits, 20,000 km
above the earth. The GPS system consists of
24 or more GPS satellites. A GPS receiver
receives radio signals from the satellites,
and calculates the current location of the
receiver based on the orbital information
(almanac data) and travel time of the
signals, etc.