Hutan Bandar Multirotor Fun Fly
Tuesday, 12 May 2015
Tuesday, 17 March 2015
IB Crazy Antenna Selection
First i though when buy antenna ...the higher gain is the best antenna , seems i am wrong
read articles FPV guide from IBcrazy RCGroups
LIST OF ANTENNA AND CURRENT PRICE
http://www.banggood.com/5_8G-Circular-Polarized-LHCP-Antenna-Short-SMA-RP-SMA-p-965219.html?p=6Q272106433620120652
US$8.99
read articles FPV guide from IBcrazy RCGroups
FPV antenna selection
– A guide to help you select the best antenna system for you.
Antennas are the critical link between a transmitter and
receiver, so it is best to select the proper antennas for your FPV scenario for
the best possible flight experience. If
you refer to the “How to be successful in FPV” guide, you will note that one of
the big points is that there is no such thing as best. There is however, the one that works best for
me. This guide will help you find that
system.
Polarization – Circular or linear?
Recently a few FPVer’s including myself have discovered the
merits of circular polarization.
Circular polarization is not for everyone, but does give the most
consistent performance. Linear is more
common, much simpler and is technically capable of longer range. So which do you choose and why?
Circular
polarization:
Circular polarization is used by NASA and many HAMs to
communicate with satellites that orbit the Earth as the orientation of the
satellite is consistently changing. Circular
polarization has two distinct advantages:
it rejects multipath interference (which is the most common reason for
video issues), and does not lose polarization when a plane banks to turn. If you are having trouble with video
scrambling or random drop outs, this is likely due to multipath interference. MULTIPATHING IS NOT FUZZ IN THE VIDEO! MUTIPATHING IS SCRAMBLING OR SUDDEN DROP
OUTS!
When to use circular
polarization:
- When where your base station is near (within 100 feet) of
large structures such as houses or buildings
- When standing on a porch or deck of a house or apartment
or other building
- When stunt flying
- When flying behind trees and objects
- When doing low altitude flying
- When flying very high altitude (with a directional
antenna)
Linear
polarization:
Linear polarization is very common and is the easiest to
implement. It is capable of longer range
than circular polarization, but is more susceptible to multipathing. The range advantage is seldom realized due to
multipath interference. The antennas
tend to be more compact and easier to build (as well as cheaper to buy).
When to use linear
polarization:
-
When flying out in the open with no structures
nearby
-
When flying planes that do not bank sharply
-
When going for long distance runs
-
When standing on top of a hill or mountain
-
Where antenna compactness is needed
What if my flight
goals encompass several merits of each type of polarization? This is often the case with most FPVers. You can’t have it all so you must make an
educated guess. If you are a current
FPVer and are having problems with video drop outs and scrambling, then
circular polarization will help you. If
your problem is that you are getting fuzz in the video due to going very long
range, use linear polarization.
RX antenna
selection – How much gain do I want?
Now it’s time to determine how much directivity (gain) is
best for you. This will be determined by
your flight area and where you wish for your plane to go. As the gain of your antenna increases, so
does the available range of the video system.
Unfortunately, higher gain antennas have narrower beams and thus are not
suitable for short range missions.
Omni directional antennas provide great coverage when flying
near the base station, but do not do well for long range missions. Similarly, a high gain grid or dish antenna
would make a poor choice for flying around a park. Most FPVer’s will find that a moderate gain
antenna suits most of their needs.
Use omni directional
antennas when:
-
You plan to fly all around yourself
-
When flying short range (2km or less)
-
When standing in the middle of the flight field
-
When you want a quick and easy set up
Use moderate gain
(5-9 dbi) antennas when:
-
You plan to fly moderate range (2-8km)
-
You want to fly an area out in front of you
-
You desire more range than an omni, but want to
be able to fly patterns and stunts
-
When using an antenna tracker
Use high gain (10+
dbi) antennas when:
-
Exploring an object or destination very far away
-
When flying in a straight line and coming straight
back
-
When making long distance attempts
Examples of Omni
antennas:
-
½ wave dipole (common rubber ducky type antenna)
-
The Vee antenna
-
Cloverleaf antenna
-
Skew-planar wheel antenna
-
The ground plane antenna
Examples of moderate
gain antennas
-
3 or 4 element Yagi
-
8dbi patch
-
3 turn helical
-
8dbi circularly polarized patch
-
Moxon Rectangle
Examples of High gain
antennas
-
Multi element Yagis
-
Grid or dish antennas
-
BiQuad or double BiQuad
-
Patch antenna arrays
-
14 dbi patch antenna
TX antenna
selection: What do I fly on the plane?
While there is much discussion on which antenna should be
used on the ground, the aerial antenna is less discussed because there are
fewer choices, but it is no less important.
Generally speaking, lower gain antennas are better for airplanes, but
helicopters and long distance runs might opt for higher gain omni antennas.
Since the choices are few, I will discuss each type:
The ½ wave dipole – This
is the antenna to which all others are compared. With a moderate 2.15 dbi gain,
the antenna has a large null over the top and bottom of the antenna. This is best used for long range attempts.
The Vee antenna
- This antenna has slightly less
gain (~1.9 dbi) than the dipole and is best suited for general purpose flying. This antenna was introduced to the FPV realm
in 2009 and has been used very successfully by many FPVers.
Skew-Planar Wheel –
Relatively low gain (.92dbic) this antenna is circularly polarized and has
excellent multipath rejection capability.
This antenna is used for general purpose flying where aerodynamic drag
is not a critical factor. This antenna
was introduced in 2010 by Nigel (devonboy) which opened up the doors to CP on
the airplane.
The Cloverleaf – With
moderate gain (1.25 dbic) this antenna is slightly longer range than the Skew
planar wheel antenna, but has a slightly oblong horizontal pattern. This antenna is great for general purpose
flying and moderate range where less aerodynamic drag is required. This is the newest aerial antenna to the FPV
world. Designed by Alex (IBCrazy) as an
easier to build higher gain substitute for the Skew-planar wheel.
Choosing the proper RX antenna:
Here I will some of the common antennas we use for FPV and
de-bunk some myths as well. The omni
directional antennas listed above all work for RX applications as well and
therefore will not be discussed here.
Linear patch antenna
– This antenna is by far the most common directional FPV antenna. With compact size and a 70 degree beam width
this allows a good sweep of coverage right out in front of you. This antenna is
ground plane dependent, however, and performs best when mounted just a few
inches off of the ground. Frequencies
above 2GHz may find that this antenna can be mounted high in the air with
minimal problems.
The low mounting requirement is the antenna’s greatest
downfall. It makes flying in hilly areas
difficult as the Fresnel zone is easily disrupted.
Yagi antenna – A
much less commonly flown antenna than the patch, this antenna is found in a
wide range of gain values. The beam on
this antenna is fairly narrow but it is easy to aim and can be mounted up on a
tripod or stand as it is not ground plane dependent. It is
a good choice for an antenna tracker provided the tracker is strong enough to
take the weight of the antenna.
The greatest downfall with the Yagi is moisture. Moisture causes degradation of antenna
performance as more elements are added.
BiQuad antenna – The
BiQuad is a very efficient 11dbi antenna.
Perhaps even less common than the Yagi, this antenna shares the compact
size of the patch without the dependence on a ground plane. The antenna has small side lobes which help
in landing. This antenna works well with
antenna trackers.
The greatest downfalls of this antenna are that it is hard
to find (it must be built as it isn’t commercially available) and it is
fragile.
Grid antenna –
Commonly used for long range, this antenna is highly directive. Gains can range from 15-24dbi. This antenna is not ground plane dependent
and is best mounted high in the air.
The greatest downfall of a grid antenna is efficiency. Grids are seldom more than 60%
efficient. So while your range
capability is great, you must fly in a very narrow beam.
Helical antenna – This
antenna is circularly polarized with exceptional axial ratio and multipath
rejection. It is extremely broadband and
can be made for a wide range of gains.
Smaller units can be mounted to an antenna tracker.
The greatest problems with the helical is that the
efficiency is often not exceptional (between 60 and 80%) and that they are not
readily available commercially.
CP Patch –
Similar to the linear patch, but circularly polarized. This antenna is compact and easy to use.
The problems with this antenna are its low axial ratio
(multipath rejection capability), and that it is ground plane dependant.
CP BiQuad – The
CP BiQuad is an 8dbi circularly polarized antenna. It has a compact size that is suitable for
antenna trackers and is not ground plane dependent. Alex (IBCrazy) is currently developing this
antenna.
The greatest downfall of this antenna is that it has not
been perfected yet and therefore will not be available for some time.
More information:
More information can be found by watching Andology’s video: http://www.vimeo.com/8826952
Or by visiting IBCrazy’s blog: http://www.rcgroups.com/forums/member.php?u=103113
LIST OF ANTENNA AND CURRENT PRICE
5.8G Circular Polarized LHCP Antenna Short SMA RP-SMA
US$4.69http://www.banggood.com/5_8G-Circular-Polarized-LHCP-Antenna-Short-SMA-RP-SMA-p-965219.html?p=6Q272106433620120652
US$8.99
5.8G Gain Petals Clover Mushrooms Antenna Set For FPV System http://www.banggood.com/5_8G-Gain-Petals-Clover-Mushrooms-Antenna-Set-For-FPV-System-p-919079.html?p=6Q272106433620120652
Monday, 9 February 2015
Arduino Nano DIY Headtracker test run
Using Arduino Nano and GY-85 sensor
with Fatshark Base SD and Mobuis Headtracker
more info on RCGroups on how to build one
http://www.rcgroups.com/forums/showth...
and here are the parts needed to buy and build it.
Arduino Nano Clone
http://www.banggood.com/ATmega328P-Na...
GY 85 sensor
http://www.banggood.com/GY-85-BMP085-...
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