Distributed Infrared thermalgraphy Detector 90 Degree Wide Infrared thermalgraphy Viewing Angle Network Power RJ45 Powered Version NKTEVA6

Power by  USB 5V or RJ45 -POE

NKTEVA6 distributed Infrared thermalgraphy detector, Infrared thermalgraphy video can be recorded and captured

The new version of the Infrared thermalgraphy has a wider field of view of 90 degrees

Network-powered/RJ45  POE-powered, fixed-mounted

The Infrared thermalgraphy responds faster

The upper computer workstation can run multiple sets of monitoring software at the same time on one computer

Web boasting browsing

Windows PC ANDROID PHONE

Faster browsing on mobile phones

 

TS501-94 Distributed Infrared thermalgraphy Detector

TS501-95 Infrared thermalgraphy Controller 8 ports/16 ports

 

 

 

Optional accessories

DC5V power bank USB input single port POE output Infrared thermalgraphy controller tester

(It can be flexibly applied to outdoor engineering, POE power supply test and image test, Infrared thermalgraphy field of view angle adjustment)

Mobile or handheld 5V USB power supply

Support power supply of mobile power

The USB power bank can be replaced at any time

It can have unlimited battery life after modifying the handheld type

A small portable controller can be carried

AC220V can be plugged into the power bank to charge

It can also transmit wifi signals through the controller

Multiple people share Infrared thermalgraphy maps, thermal imaging maps, and visible light maps in real time

It can be used for real-time video recording and capture of the detection process by multiple mobile phones and computers

Real-time safety monitoring and fault recording of the detection process

 

Note that the height of the power bank/power bank is 110-185mm

Note that the width of the clampable phone is 58-90mm

 

Comes with LEDs

 

 

NKTEVA6 Instructions for the use of the 2024 version of the distributed Infrared thermalgraphy  detector monitoring software

Instant software Does not occupy the registry Safer Consumes less system resources Runs faster Unzip and run

 

 

 

 

Real-time, continuous, easier to use RJ45 network power supply interface, simpler wiring and relatively safer

Ideal for large network systems

With a wide field of view, it is very suitable for monitoring in high and low voltage cabinets and fire monitoring in the comprehensive pipe gallery of cable tunnels

  

 

Provide advanced  Infrared thermalgraphy detection temperature imaging video surveillance solutions for on-site condition monitoring:

 

The new VOx detector is used to distinguish more details; 25Hz frame rate network interface; More advanced MatrixIII image algorithms;

 

Reduce the size and power consumption, easy to install; Compatible with a variety of industrial protocols, easy to realize automatic alarm, compatible with power monitoring SCADA interconnection

 

 

 

   

 

 

 

 

 

Product model	NKTEVA6
detector	Uncooled IR Focal Plane Detector 256×192 (>43200 IR dots).
Thermal sensitivity	<50/60mk
Frame rate	25fps
Infrared thermalgraphy field of view	The wide field of view of the Infrared thermalgraphy is 90°×65.1°/
palette	At least 6 color palettes (Black Hot / White Hot / Iron Red / etc.)
Visible light parameters: ultra-wide field of view: 120°/97°/77°
resolution	1920×1080 wide field of view 120°/
Fill in the light	Built-in LED light
Multispectral fusion
Visible light fusion	Dual-band image fusion enhancement
Temperature measurement
Temperature measurement range	Wide dynamic range -20 °C to +550°C)
Temperature measurement accuracy	±2°C or 2% of range (2% of range in wide dynamic state)
Point temperature measurement	6 movable points for temperature measurement, which can be used with the highest temperature, lowest temperature, Average temperatures are compared
Regional temperature measurement	6 movable zones with highest, lowest and average temperatures, It can be compared with the maximum, minimum and average temperature of other temperature measurement points or temperature measurement areas
Line temperature measurement	1 line temperature measurement, there is a highest, lowest and average temperature on the line
Refer to humidity	Set it manually
Atmospheric transport correction	Automatic, based on distance, atmospheric temperature, and relative humidity inputs
Emissivity correction	0.01 to 1.0
Reflection apparent temperature correction	Automatic, based on reflected temperature inputs
Temperature correction for measurements	Overall and individual target parameters
alarm
Alarm function	The highest and lowest temperature within all temperature measurement points, all temperature measurement areas and temperature lines and average temperature, both configurable with separate alarm outputs
Alarm output	I/O output,
agreement
ONVIF is supported	Support GB/28181
Image streaming
Image stream format	MJPEG/H.264
Image storage
Storage medium	Built-in memory (Flash)
file format	JPEG、MP4
Set up
There is a B/S configuration interface B/S	There is the C/S configuration tool C/S
SDK	The original temperature data can be exported externally, and the user can carry out secondary development
power supply
POE	802.3 at
External interfaces
NKTEVA6	Contains 10M/100M adaptive Ethernet port and POE power supply
Environmental parameters
Ingress protection	IP67
Operating temperature	-20℃ to  +60℃
Storage temperature	-40℃ to  +70℃
humidity	≤95%
Electromagnetic compatibility	EN 61000-6-2:2001 (anti-interference) EN 61000-6-3:2001      FCC 47 CFR Part 15 Class B (Radiation Hardened)
Impact-resistant	25G， IEC68-2-29
Vibration resistance	2G， IEC68-2-6
Physical parameters
size	55.5×30.3× 87.5 mm (without connectors) weight 200g 55.5×30.3×101.4 mm (with connectors)
Accessories (not standard)	Interface cables, brackets, heat sinks

 

The distributed  Infrared thermalgraphy detector is an instrument that visualizes the temperature through the red array lens,

and the video uploaded by the red array lens can be recorded and captured.

The distributed Infrared thermalgraphy  detector also comes with a visible light lens,

which can also be recorded and captured, compared with the visual temperature video and confirmed the location of the fault point.

The role of distributed Infrared thermalgraphy detectors and the importance of installation on power equipment

At present, more and more attention is paid to the online monitoring of electrical equipment, because most of the electrical equipment is now unattended.

And with the increase of system capacity and the increasing requirements of customers for power supply reliability, it is more important than ever to strengthen the inspection and maintenance of equipment to nip accidents in the bud.

The distributed Infrared thermalgraphy  detector is a kind of equipment that uses modern high-tech means to carry out non-damage and non-contact detection of operating equipment.

Infrared visual temperature measurement and detection of power equipment in operation is mostly judged by comparison methods. In normal operation, power equipment will generate heat due to the action of current and voltage.

When a defect or failure occurs in the power equipment, the temperature rise of the defective part will change significantly.

According to the long-term measured data provided by relevant units and the comprehensive statistics of a large number of cases, the main causes of external thermal defects of power equipment are as follows:

(1) The joint connection is poor, and the bolt is not compressed.

(2) Corrosion and oxidation due to long-term operation due to conductor contact.

(3) Corrosion caused by harmful gases and dust in the atmosphere.

(4) Poor material quality and poor processing and installation technology cause conductor damage.

(5) The actual cross-section of the conductor is reduced due to mechanical vibration and other reasons.

(6) The load current is unstable or exceeds the standard, or there is a large harmonic current, etc.