Futaba Manuals (Others)
Futaba WTR-7 Manual
This manual introduces the Wireless Trainer System WTR-7. The WTR-7 is used as a wireless trainer unit instead of the conventional wired trainer cable. This manual will introduce how to use WTR-7.
File format: PDF Size:251 KB
Futaba FASST Air System TM-8 RF Module R608FS Receiver Instruction Manual
This document describes how to get the best performance from your 2.4GHz FASST radio equipment.
File format: PDF Size:552 KB
Futaba FASST Air System TM-7 RF Module R607FS Receiver Instruction Manual
This article mainly introduces how to use Futaba® 2.4GHz FASST™ aircraft receivers to obtain the best performance.
File format: PDF Size:804 KB
Futaba FASST Air System TM-14 RF Module R6014FS Receiver Instruction Manua
This document provides recommendations on how to get the best performance from your 2.4GHz FASST aircraft receivers. The recommendations include: don’t wrap your FASST receiver in foam, shade your model from sunlight when not flying, use the correct power setting, install the receiver so that it doesn’t come into contact with any metal parts of the aircraft, keep the receiver away from other electronic devices, and regularly check the receiver’s operation status.
File format: PDF Size:517 KB
Futaba SBS-01RM Manual
The document introduces an RPM sensor named SBS-01RM, which has a length of 255mm, weight of 4.7g, voltage range of DC3.7~7.4V, and a speed range of 360~100,000RPM. The document also provides installation instructions and proper usage methods for the sensor.
File format: PDF Size:947 KB
Futaba SBS-01G Manual
The SBS-01G is a sensor that calculates distance and speed from GPS. It is not recommended for indoor flying and may not detect the flight posture of a model. This sensor calculates altitude based on atmospheric pressure, but changes in atmospheric pressure can affect the accuracy of the display. It takes some time for the GPS positioning to be established, and during this time, the model should not be moved. The sensor should not be installed where it can be directly exposed to wind or airflow, in a sealed location where atmospheric pressure does not change, or where objects that interfere with electromagnetic waves are above the sensor (such as metal or carbon). It is not recommended for indoor flying and should not be placed in a sealed location. The altitude/height displayed starts from 0m when the power is turned on and shows the change from that point. Even if the altitude of your airfield is high, it will start at 0m and calculate the altitude difference.
File format: PDF Size:1145 KB
Futaba SBS-01A Manual
This document introduces an altitude sensor and vario meter based on atmospheric pressure measurement. The sensor can measure altitudes ranging from -700 to 5,500 meters and is lightweight. It is suitable for applications with a DC voltage of 3.7 to 7.4V. The sensor calculates altitude from atmospheric pressure, but exact advanced display is not possible when atmospheric pressure changes due to weather conditions. The document also mentions installation precautions.
File format: PDF Size:0 KB
Futaba SBE-1 Manual
Instruction Manual of SBE-1 S.BUS ENCODER. It introduces the working principle of SBE-1, which can convert the signal of traditional system (PWM) to S.BUS system signal.
File format: PDF Size:159 KB
Futaba SBD-1 Manual
This manual introduces the use of SBD-1, including connection methods and channel settings
File format: PDF Size:589 KB
Futaba SBC-1 Manual
The S.BUS System Channel Changer is a tool for setting the channel to S.BUS servo and S.BUS decoder of Futaba S.BUS system.
File format: PDF Size:518 KB
Futaba S5801 Manual
File format: PDF Size:272 KB
Futaba FP-S126G/S16G Manual
This is a product introduction document for Futaba FP-S126G and FP-S16G servos. These two servos are designed for Futaba radio control sets and feature small, rugged, and durable construction.
File format: PDF Size:105 KB
Futaba S.BUS SERVO USAGE PRECAUTIONS Manual
Pay attention to current consumption, power supply, operating angle when using S.BUS servo
File format: PDF Size:411 KB
Futaba RS301CR/RS302CD Manual
This document is an instruction manual for the RS301CR/RS302CD Command Type Servo for Robot. It provides information on safety precautions, connection methods, control methods, specifications, and troubleshooting for the product.
File format: PDF Size:601 KB
Futaba R6303SBE Manual
R6303SBE is a 2.4GHz wireless receiver from Futaba, which can be used with FASST-7ch or 8ch/10ch/Multi-ch systems. It has a S.BUS port and 3 conventional system/high-speed receiver channels.
File format: PDF Size:641 KB
Futaba R6303SB Manual
This document introduces the usage conditions and specifications of the Futaba R6303SB high-speed receiver. The high-speed mode only accepts digital servos, and connecting an analog servo may cause a malfunction. If a malfunction occurs, the receiver should be changed back to normal mode. The receiver complies with part 15 of the FCC rules, and features dual antenna diversity and an S.BUS port. It is lightweight and compact, making it suitable for various systems.
File format: PDF Size:709 KB
Futaba R6208SB Manual
R6208SB is a 8-channel high-speed receiver from Futaba, supports S.BUS protocol, compatible with FAST-2.4GHz (multi-ch) system. This receiver features dual antenna diversity technology, size is 0.98 x 1.86 x 0.56 inches (24.9 x 47.3 x 14.3 mm), weight is 0.49 oz (13.8g), power requirement is 3.7V to 7.4V (voltage range is 3.5 to 8.4V). When using ESC's regulated output, please make sure the battery capacity is greater than or equal to the receiver's required capacity.
File format: PDF Size:703 KB
Futaba R6203SBE Manual
File format: PDF Size:0 KB
Futaba R6203SB Manual
This document describes the usage conditions of R6203SB FASST-2.4GHz (7ch/8ch/10ch/Multi-ch) System S.BUS Port and 3 Channels for Conventional System High-speed Receiver, as well as its compatibility, specifications, etc.
File format: PDF Size:604 KB
Futaba R6202SBW Manual
This document introduces the usage conditions of R6202SBW receiver, including the supported systems, size, weight, and power requirements.
File format: PDF Size:646 KB