All Categories
EN

Products

Novasky Handheld Through wall system –CEM100

Moving Target Speed Distance Direction Azimuth

CEM100 handheld through wall radar is a vital sign detection device based on UWB radar technology and biomedical engineering technology. This product has the advantages of small size, light weight, easy to carry, and supports wireless remote control. It can detect multiple targets behind wall or in building ruins, and display the target distance in real time, which is widely used in emergency detection and search tasks in special industries such as firefighting, armed police, border defense, street fighting to achieve rapid target search and positioning.

Series:

Through wall radar system

Application:

urban street battle,public security & anti-terrorist, hostage rescue and indoor human detection

Features:

Light weight and compact, hand-held fit design

Real-time detection& display of moving and static targets

Able to detect live object behind wall/barrier of common material

Maximum up to 3 targets detection and display simultaneously

Support screen-off detection and alert, reducing the risk of operator

Provide clear and intuitive detection results for strategy making

Wireless remote control for detection and display, stand-alone screen supports tactical application for long-playing monitoring and synergetic observation

Comply with GJB150A-2009 design standard, meeting the mission requirement in maximum

Condition

Specifications

Spec.

Parameter

Penetrable materials

 

Concrete, reinforced concrete, cement, plaster, mixed brick,

wood, adobe, stucco and other non-mental standard building

material

Detection range

 

20m(static living object)

30m(moving living object) @37cm thickness wall

FOV

 

120° in Azimuth, 90° in Elevation

Display model

Presence of static & moving targets, quantity and real-time

distance

 

Multi-target detection

 

≥3

 

Dimension

255×95×55mm,800g

Protection grade

IP67


Contact Us

PREV : Novasky Handheld Through wall system –CEM200

NEXT : None