| 9360
360° Non-contacting Dual Output Rotary Sensor |
|
|
The
9360 Series rotary sensor is a non-contacting
Hall effect device with 360° of rotation and dual outputs. This rugged
design is ideally suited for infi nite rotation applications where reliability
and durability are a priority. The sensor provides absolute
position at power on and offers two completely redundant outputs.
The packaging is similar to other BEI devices and meets the severe
durability requirements that are typical in off-highway and agriculture
requirements. The new sensor incorporates a rotating Neodymium
disk magnet that enables the sensing element to remain stationary,
improving both accuracy and reliability. This combination of
magnet, sensor and sealed packaging offers excellent temperature
stability and corrosion resistance. The sensor can be confi gured for
Analog (voltage) outputs or with a PWM output. These programmability
features are confi gured at the factory and allow for greater
fl exibility in creating custom limited electrical angle outputs (i.e.
0-20 degrees for full scale) with short turnaround times.
|
|
| 9950 Non-Contacting Rotary Position Sensor Features High EMI Tolerance and Rugged Construction for Harsh Environments |
|
|
The new 9950 Sensor incorporates all the proven performance characteristics
of the company’s dual Hall effect sensors, including the superior
durability of non-contacting technology and excellent EMI capabilities,
into a single analog output, lower-cost and more compact package. The result
is a rugged, completely sealed device with a life expectancy of up to 35
million cycles that provides an ideal solution for the harsh environments
found in industrial, agriculture and off-highway applications.
|
|
| Rugged
Dual-Output Hall Effect Sensor Features Redundancy |
|
|
|
|
This new sealed module features two independent
outputs for full redundancy in a single, miniature
unit, ready for instant installation via an integral
METRI-Pack™ sealed connector.
Full
mechanical rotation enables flexibility in mounting
and alignment.
|
|
|
