Usage condition on "High Speed mode"
CAUTION
When using the high-speed mode, use a Futaba
digital servo (including brushless servo) or S.BUS
servo at conventional system use channels 1 to 6.
Analog servos cannot be used.
• The use of analog servos may cause servo trouble.
• When using analog servos, select the normal mode, and
use channel outputs 7 and 8.
Applicable systems:
T8FG 2.4GHz
(on 8ch mode)
, TM8
(on 8ch mode)
, T10CG 2.4GHz
(on
10ch mode)
, TM10
(on 10ch mode)
, TM14
(on multi-ch mode)
R6108SB
S.BUS compatible/FASST-2.4GHz (Multi-ch) system
8 channels/high-speed receiver
Compliance Information Statement
(for U.S.A.)
This device, trade name Futaba Corporation of America, model
number R6108SB, complies with part15 of the FCC Rules.
Operation is subject to the following two conditions:
(1) This device may not cause harmful interference, and
(2) This device must accept any interference received, including
interference that may cause undesiredoperation.
The responsible party of this device compliance is:
Futaba Service Center
3002 N Apollo Drive Suite 1, Champaign, IL 61822 U.S.A.
R6108SB Specications
S.BUS compatible/FASST-2.4GHz (Multi-ch) system/8 channels/
high-speed receiver
• Dual antenna diversity
• Power requirement: 4.8V or 6.0V battery or regulated out-
put from ESC, etc. (*1)
• Size: 0.98 x 1.86 x 0.56 in. (24.9 x 47.3 x 14.3 mm)
• Weight: 0.49 oz. (13.8g)
(*1) Be sure that when using ESC's regulated output the capacity of
the ESC must meet your usage condition.
Thank you for purchasing a Futaba
R6108SB
S.BUS
compatible receiver.
The
R6108SB
has an
S.BUS
system output port and a
conventional system channel output. It can also be used with
conventional system servos, etc. in addition to
S.BUS
system
compatible servos and gyros, etc.
In addition, the operating mode (high-speed mode/normal
mode) can be selected.
* However, channel outputs 7 and 8 for conventional system oper-
ate in the normal mode even if set to the high-speed mode.
Link/Mode
switch
LED
R6108SB
DATA
port
• Channel outputs for conventional
system (
1
to
8
)
• Battery terminal (
B
)
•
S.BUS
Port (
S.BUS
)
What is S.BUS?
Different from conventional radio control systems the
S.BUS
system uses data communication to transmit control signals
from a receiver to a servo, gyro, or other
S.BUS
compatible
device. This data includes commands such as “move the
channel 3 servo to 15 degrees, move the channel 5 servo to
30 degrees” to multiple devices. The
S.BUS
devices execute
only those commands for their own set channel. For this
reason, it can be used by connecting multiple servos to the
same signal line.
[Connection by S.BUS system]
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