Hyperion Receiver Bedienungsanleitung
Hyperion
ferngesteuertes Spielzeug
Receiver
Lesen Sie kostenlos die đź“– deutsche Bedienungsanleitung fĂĽr Hyperion Receiver (7 Seiten) in der Kategorie ferngesteuertes Spielzeug. Dieser Bedienungsanleitung war fĂĽr 42 Personen hilfreich und wurde von 2 Benutzern mit durchschnittlich 4.5 Sternen bewertet
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- This is not a Horizon Hobbies DSM2™, DSMX™ product, and is not manufactured or
endorsed by Horizon Hobbies . LLC
DSM2™, and DSMX™ are registered trademarks of Horizon Hobbies LLC.
Manual for Hyperion Receivers
1. Binding .................................................................................................................................................. .......... 1
2. What does the LEDs Mean ........................................................................................................... .......... 2 ..
3. Antennas and Satellites ........................................................................................................... ............... 3 ..
4. Failsafe ............................................................................................................................................................. 5
5. How to Bind to a Satellite via Baseflight/Cleanflight…………………………………………………7
1. Binding
Binding is the process of “locking” the receiver to its own transmitter (and,
where relevant, to a particular model memory within the transmitter) so that it
ignores any others. Binding is the irst step in setting up any receiver. Ensure the
transmitter and receiver are separated by 3-6ft/1-2m or the transmitter may “swamp” the
receiver. Occasionally, it may be necessary to have as much as
10ft/3m separation to achieve binding. Generally you should only need to bind
once and, after binding, normal link-up should not require more than a couple of
feet of separation.
Step 1. Power up the receiver in bind mode
For most receivers: put the bind plug on to the bind pins. For 6-channel Ultra
Light and Micro Light receivers, press and hold in the bind button.
Connect a suitable power source to the receiver throttle servo pins. This can be:
ď€ď€ A receiver pack battery (generally 3.45 7.2v) ; or –1
ď€ď€ A stand-alone BEC; or
ď€ď€ The throttle connection from your speed controller (ESC) with inbuilt BEC
(if the ESC is in a model, disconnect the motor or remove the propeller).
The red LED on the receiver will flash rapidly to indicate bind mode. If it doesn’t,
you have a problem (such as reversed power connector). Make absolutely sure
the LED is lashing rapidly before going any further.
Step 2. Turn on transmitter in bind mode
On some transmitters bind mode is activated by holding the Trainer button/
switch or bind button while powering up. Others require going into a menu to
enable bind mode. If in doubt, read the manual.
Where appropriate, continue to hold the switch/button until the receiver LED
stops its rapid lashing. Release it at that point and the bind process will
complete. A solid light on the LED indicates successful bind.
Some transmitters will display on screen or announce the type of bind (DSM2 or
DSMX) and the frame rate (normally 22mS).
Step 3. Power down and test
Remove power from the receiver, (very important!) andremove the bind plug
switch the transmitter off.
Turn the transmitter back on, then apply power to the receiver to check that the
receiver operates properly and servos respond to the transmitter controls.
NOTES:
1. If your receiver uses a satellite then binding MUST be done with the
satellite connected. Both receiver and satellite LEDs should lash rapidly at
the beginning of the bind process, then become solid.
2. Binding can be done with or without servos. Servos plugged in the wrong
way round may prevent binding, so check this if you have dificulty.
3. Always perform a range check after binding, using the range check
function on your transmitter. This attenuates transmitter power so that
range is reduced by a factor of about 30. -check mode at 30 Please make sure to use “range ”
yds./25m indicates ample range for normal visual lying. It is good practice to perform a
range check at the beginning of every day’s lying to ensure everything is working properly.
2. What does the LEDs Mean?
All Hyperion receivers and satellites have a red LED.
1. A indicates the receiver is in Bind mode rapidly flashing red LED
2. A indicates normal radio link between receiver and solid red LED
transmitter.
3. means there is no radio link. No red LED
this “brownout warning”.
4. On receivers equipped with a failsafe button, a indicates solid green LED
that user-deined (preset) failsafe has been set. No green LED on these
receivers indicates that failsafe is in the default mode, in which loss of
signal triggers removal of all pulses from the output.
3. Antennas and Satellites
All Hyperion receivers are “full range”. However the range of any receiver is affected by the
number of antennas (aerials) and their orientation, as well as by the installation in the
model, making comparisons dificult. Some Hyperion receivers and satellites have one
short active antenna wire, while ire. Some others also have a second identical “reflector” w
come with longer twin diversity antennas or have them as an option. For the strongest and
most reliable reception there are a number of good practices to follow.
For receivers and satellites with short wire antennas:
1. The wire(s) should stick reasonably straight out from the receiver/
satellite; where there are two, they should be in an approximately straight
line. Antennas that are bent along the receiver/satellite board may have
range reduced by 10-15%.
2. If a satellite is connected, it should be located as far as possible from the
main receiver, not right next to it.
3. If a satellite is connected, most reliable reception is obtained when the
satellite antenna and main receiver antenna are at right angles.
The larger non-diversity receivers (e.g., 7, 8- and 10-channel) do not have a
second short antenna wire, as the circuit board serves the relector function.
A small receiver with only a single antenna wire (including satellite-enabled
receivers when operated without a satellite) will generally have less range by
about 10-15% than an equivalent twin short antenna wire version. This is still
ample range for normal lying.
For receivers and satellites with diversity antennas:
Receivers and satellites with diversity have two antennas made of coaxial cable
with the last 32mm of outer insulation and conductive sheath removed to create
a white or silver active portion (the antenna proper).
The antenna cables are connected to an electronic switch that selects the one
currently with the stronger available signal. The receiver will switch antennas
very quickly if the signal from the one it is using starts to drop in strength below
the signal from the other antenna. The switching occurs within 300mS and no
signal is lost during the switching period. This antenna-switching strategy is
commonly called “diversity” in the RC world.
A satellite does not signiicantly increase the maximum possible range. Rather, as
a separate stand-alone receiver it increases the probability that a reliable signal
will be obtained at all times no matter the orientation of the model. The main
receiver selects the stronger of its own best signal or that of the satellite. Note
that if both the receiver and the satellite have diversity antennas this gives up to
four separate signal sources for the receiver/satellite combination.
The antennas we use for radio control radiate (and receive) in all directions, but
the signal is much weaker off the ends of the antenna (the active portion of the
cable) than "broadside" to it .
Produktspezifikationen
Marke: | Hyperion |
Kategorie: | ferngesteuertes Spielzeug |
Modell: | Receiver |
Produkttyp: | Receiver |
Typ: | Radio-Controlled (RC) Model Parts |
Anzahl Kanäle: | 6 Kanäle |
Vorgesehene Verwendung: | Flugzeug |
Markenkompatibilität: | Hyperion |
Spannung: | 3.45 - 10.2 V |
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