5m Range Sensors by Inxpect

Manufacturer:  Inxpect Safety Radar Equipment

Camera lens specifications highlighting symmetrical field of view and performance metrics.

The S201A sensor is a smart FMCW (Frequency Modulated Continuous Wave) radar device based on proprietary Inxpect detection algorithms. Operating in the millimeter wave V band (60 GHz), it can detect complex scenes by analyzing the returned signals reflected by both static and moving objects in the operative range. With dynamically selectable horizontal field of view and up to four safety areas, it is ideal for complex application scenarios, including mobile use cases.

The sensors perform the following primary functions:
• Motion and scenario analysis.
• Communication to the control unit of processed
motion data and diagnostic information.
• Static Object Detection: this new option allows to
detect static objects in the area where the restart
prevention safety function is activated. By doing
so it prevents the machinery from restarting
when there are obstacles in the area.

Diagram showing camera horizontal and vertical viewing angles.

60GHz multi-area and dynamic-field 3d safety radar sensor

Ideal for complex application scenarios, including mobile use cases.

Diagram showing four adjustable detection fields with overlapping coverage.
Diagram explaining the working principles of a wireless power transfer coil system.
Technical specifications of a millimeter wave V-band sensor device.
Technical drawing of a compact device with precise dimensions in millimeters and inches.
S201A-W advanced FOV sensor with 5m range and 20° angle.

The S201A-W sensor has advanced field of view, i.e. the user can choose whether to use a symmetrical FOV, an asymmetrical FOV (asymmetric angles with respect to the central axis of the sensor) or a corridor FOV (with the sides cut off where required by the application). More and more
modularity for all industrial applications!
The sensors perform the following primary functions:
• Motion and scenario analysis.
• Communication to the control unit of processed
motion data and diagnostic information.
• Static Object Detection: this new option allows to
detect static objects in the area where the restart
prevention safety function is activated. By doing
so it prevents the machinery from restarting
when there are obstacles in the area.

Diagram illustrating an asymmetrical field of view with angles labeled α, β, and γ.

Advanced field of view (asymmetrical or corridor-shaped FOV) for greater modularity for all industrial applications.

Diagram of corridor field of view with left and right sections.
Diagrams illustrating asymmetrical and corridor fields of view (FOVs).
Diagram explaining wireless signal security and environmental effects on signal reception.
Technical details of a Wi-Fi 6E device with frequency bands and power specifications.
Technical drawing of a device with detailed dimensions in millimeters and inches.
Blue S203A-W device with specs highlighted on neon background.

The S203A-W has an advanced field of view equipped
with a vertical angular coverage of only 12° (instead of 20° in previous sensors), making it the most adaptable sensor for Autonomous Guided Vehicles (AGVs).
The sensors perform the following primary functions:
• Motion and scenario analysis.
• Communication to the control unit of processed
motion data and diagnostic information.
• Static Object Detection: this new option allows to
detect static objects in the area where the restart
prevention safety function is activated. By doing
so it prevents the machinery from restarting
when there are obstacles in the area.

Diagram showing asymmetric camera field of view with angles and planes.

Advanced FOV equipped with a vertical angular coverage of 12°, ideal for industrial environments with narrow and limited spaces.

Diagram showing a corridor field of view with left and right angles totaling 12 degrees.
Diagram showing asymmetric and corridor field of view with labeled angles and sectors.
Diagram explaining the operation and features of the C-4 explosive device.
Technical details of a device with frequency, range, and sensor information.
Technical diagram showing dimensions of a compact device from multiple views.