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Angle de barre

Collection: Bar angle

14 products

Convertit Capteur de gouvernail résistif vers NMEA2000

Raymarine

Raymarine RAA100-01 Resistive Rudder Angle Sensor to NMEA2000 Converter

Ref : RAA100-01

Regular price $276.00 USD
Sale price $276.00 USD Regular price $345.00 USD
excl. tax
Capteur d’angle de barre Simrad PRO RF14XU - fréquence et tension

Simrad Pro

Simrad PRO RF14XU rudder angle sensor - frequency and voltage

Ref : 22506950

Regular price $2,291.00 USD
Sale price $2,291.00 USD Regular price
excl. tax
Capteur d’angle de barre RF25 - SimNet

Simrad

Simrad RF25 Rudder Feedback - SimNet

Ref : 22014286

Regular price $343.00 USD
Sale price $343.00 USD Regular price $369.00 USD
excl. tax
RF45X Rudder Feedback - Frequency & Current

Simrad Pro

Simrad PRO RF45X rudder angle sensor - frequency and current

Ref : 22011415

Regular price $748.00 USD
Sale price $748.00 USD Regular price
excl. tax
FAPAR4502 — FAPAR4502 Feed-Back Hord Bord linéaire

Furuno

FAPAR4502 — FAPAR4502 Linear Outboard Rudder Angle Feed-Back Unit

Ref : RO-00593

Regular price $806.00 USD
Sale price $806.00 USD Regular price
excl. tax
PACK NP711C FAP6112 PG700 — Pilote automatique NMEA2000, 4,1, Indicateur, calculateur, Feed-Back Rotatif et PG700

Furuno

PACK NP711C FAP6112 PG700 — NAVpilot-711C autopilot NMEA2000, 4.1-inch display, processor, rotating feedback unit, and PG700

Ref : IMD034240ABPK3

Regular price $3,079.00 USD
Sale price $3,079.00 USD Regular price $3,449.00 USD
excl. tax
Capteur à câble (VMH EX225 HP/3500 PRO) - Montage babord

Furuno

Cable sensor (VMH EX225 HP/3500 PRO) - Port-side mounting

Ref : LE-2204113

Regular price $1,211.00 USD
Sale price $1,211.00 USD Regular price
excl. tax
NAVPILOT711CPK1 — Pilote CAN Bus, 4,1, Indicateur, calculateur, Feed-Back Rotatif

Furuno

NAVPILOT711CPK1 — Autopilot CAN Bus, 4.1", Display, Processor Unit, Rotary Feedback

Ref : IMD034240AB

Regular price $2,392.00 USD
Sale price $2,392.00 USD Regular price $2,721.00 USD
excl. tax
FAP-6112 Feed Back Pro rotatif en aluminium et 20m de câble pour NavPilot Série 700/300 (F

Furuno

FAP-6112 Feed Back Pro rotary sensor in aluminum with 20m cable for NavPilot Series 700/300 (F

Ref : 00003767800

Regular price $563.00 USD
Sale price $563.00 USD Regular price
excl. tax
Retour de barre RF300 - Fréquence

Simrad

RF300 Rudder Feedback - Frequency

Ref : 20193744

Regular price $300.00 USD
Sale price $300.00 USD Regular price $335.00 USD
excl. tax
Retour linéaire LF3000

Simrad

LF3000 Linear Feedback

Ref : 20188074

Regular price $354.00 USD
Sale price $354.00 USD Regular price $466.00 USD
excl. tax
Capteur angle étanche (barre, mât tournant, quille) Gyro 3

Nke

Waterproof angle sensor (rudder, rotating mast, keel) Gyro 3

Ref : PF000135

Regular price $502.00 USD
Sale price $502.00 USD Regular price $572.00 USD
excl. tax
Raymarine Capteur d'angle de barre rotatif M81105 - Comptoir Nautique

Raymarine

10m cable bar angle sensor

Ref : M81105

Regular price $344.00 USD
Sale price $344.00 USD Regular price $385.00 USD
excl. tax
Navico RF25N Capteur angle de barre - NMEA 2000 - câble 5.5m

Navico

RF25N rudder angle sensor - NMEA 2000 - 5.5 m cable

Ref : 000-10756-001

Regular price $286.00 USD
Sale price $286.00 USD Regular price $410.00 USD
excl. tax

Learn more

Rudder angle: precision and control of your steering system

Rudder angle is crucial for optimizing sail trim, monitoring autopilot performance, and anticipating boat reactions. At Skysat, drawing on our extensive offshore racing experience, we know that precise and reliable information is essential for smooth and efficient sailing. Here, we offer a selection of robust and accurate rudder angle sensors, along with advice on their optimal integration into your navigation system.

choosing the right bar angle sensor

Choosing a rudder angle sensor depends on several factors, including the type of steering system on your boat, the communication protocol of your onboard electronics (NMEA 2000, SeaTalk NG), and the desired accuracy. A well-suited sensor ensures reliable information that is easily usable by your navigation instruments.

  • Rotary potentiometer sensors: A simple and economical solution, ideal for mechanical steering systems. Requires precise calibration and protection against moisture.
  • Hall effect sensors: More robust and precise than potentiometers, they offer better resistance to vibration and wear. Compatible with NMEA 2000 systems via a suitable interface.
  • Digital angle sensors: Integrate an analog-to-digital converter for direct data transmission in NMEA 2000 or SeaTalk NG. Offer high accuracy and immunity to interference.
  • Bar angle interfaces: Allow you to convert the analog signal from an existing sensor into a digital signal compatible with your NMEA 2000 network.

integration and calibration

Proper installation and rigorous calibration are essential to ensure the accuracy and reliability of your rudder angle sensor. Alignment of the sensor with the rudder's rotation axis, supply voltage, and communication protocol configuration are all points that must be carefully checked.

  • Sensor alignment: Ensure that the sensor's rotation axis is perfectly aligned with the rudder's rotation axis to avoid measurement errors.
  • Power supply: Check the sensor's supply voltage and use a stabilized power supply to avoid fluctuations.
  • NMEA 2000 Configuration: Properly configure the sensor on your NMEA 2000 network using the appropriate diagnostic tool. Verify the PGN (Parameter Group Numbers) sent by the sensor.
  • Calibration: Calibrate the sensor following the manufacturer's instructions to compensate for installation errors and temperature variations.

diagnostics and maintenance

Even the most robust sensors may require periodic maintenance to ensure their long-term performance. Regularly check the condition of connections, for corrosion, and the accuracy of measurements. Accurate diagnostics allow for the early detection of problems and help prevent breakdowns at sea.

  • Checking connections: Regularly inspect electrical connections for corrosion or loose wires.
  • Accuracy test: Compare the values ​​displayed by the sensor with a known bar angle to verify its accuracy.
  • Cleaning: Regularly clean the sensor with a soft, dry cloth to remove dust and dirt.
  • Replacing worn parts: Replace worn parts, such as potentiometers or bearings, to maintain sensor performance.

💡 Skysat's advice

When integrating a rudder angle sensor into an NMEA 2000 network, ensure compatibility with other instruments. An NMEA 2000 multiplexer may be necessary to manage ID conflicts and optimize data flow.