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FLIR E-Series Infrared Thermal Camera

The FLIR E-Series with Wi-Fi offers affordable, high-resolution thermal imaging with the added advantage of wireless connectivity. Find hidden electrical faults, mechanical issues, and sources of energy loss thanks to the E-Series crisp upto 76,800 (320 x 240) pixel infrared resolution and MSX® image enhancements. Then, streamline your workload by uploading and sharing images and data over Wi-Fi to the FLIR Tools mobile app.

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FLIR E4 WIFI
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FLIR E8 WIFI
OVERVIEW
Detector Type Uncooled microbolometer Uncooled microbolometer Uncooled microbolometer
IR Resolution 80 × 60 pixels 160 × 120 pixels 320 × 240 pixels
Packaging Size 385 x 165 x 315 mm (15.2 x 6.5 x 12.4 in.) 385 x 165 x 315 mm (15.2 x 6.5 x 12.4 in.) 385 x 165 x 315 mm (15.2 x 6.5 x 12.4 in.)
CONNECTIONS & COMMUNICATIONS
Interface USB Micro: Data transfer to and from PC and Mac device USB Micro: Data transfer to and from PC and Mac device USB Micro: Data transfer to and from PC and Mac device
WiFi •Standard: 802.11 b/g/n •Frequency range: •2400–2480 MHz •5150–5260 MHz •Max. output power: 15 dBm •Standard: 802.11 b/g/n •Frequency range: •2400–2480 MHz •5150–5260 MHz •Max. output power: 15 dBm Peer-to-peer or network
ENVIRONMENTAL
Emissivity table/correction Emissivity table of predefined materials/variable from 0.1 to 1.0 Emissivity table of predefined materials/variable from 0.1 to 1.0 Emissivity table of predefined materials/variable from 0.1 to 1.0
Encapsulation/Drop IP 54 (IEC 60529)/2m (6.6 ft.) IP 54 (IEC 60529)/2m (6.6 ft.) IP 54 (IEC 60529)/2m (6.6 ft.)
IMAGING & OPTICAL
Camera weight incl battery 0.575 kg (1.27 lb.) 0.575 kg (1.27 lb.) 0.575 kg (1.27 lb.)
Color palettes Black & white, iron, and rainbow Black & white, iron, and rainbow Black & white, iron, and rainbow
Display 3.0 in. 320 × 240 color LCD 3.0 in. 320 × 240 color LCD 3.0 in. 320 × 240 color LCD
Field of view (FOV) 45° × 34° 45° × 34° 45° × 34°
Focus Focus free Focus free Focus free
Image Adjustment Automatic adjust/lock image Automatic/Manual Automatic/Manual
Image Frequency 9 Hz 9 Hz 9 Hz
Image Modes Thermal MSX, Thermal, Picture-in-Picture, Thermal blending, Digital camera. Thermal MSX, Thermal, Picture-in-Picture, Thermal blending, Digital camera. Thermal MSX®, thermal, picture-in-picture, thermal blending, digital camera
Minimum Focus Distance 0.5 m (1.6 ft.) 0.5 m (1.6 ft.) 0.5 m (1.6 ft.)
Multi Spectral Dynamic Imaging (MSX) IR image enhanced with visible camera detail IR image enhanced with visible camera detail IR image enhanced with visible camera detail
Picture-in-Picture IR area on visual image IR area on visual image IR area on visual image
Digital Camera Resolution/FOV 640 × 480/55° × 43° 640 × 480/55° × 43° 640 × 480/55° × 43°
MEASUREMENT & ANALYSIS
Accuracy ±2°C (±3.6°F) or ±2% of reading, for ambient temperature 10°C to 35°C (+50°F to 95°F) and object temperature above +0°C (+32°F) ±2°C (±3.6°F) or ±2% of reading, for ambient temperature 10°C to 35°C (+50°F to 95°F) and object temperature above +0°C (+32°F) ±2°C (±3.6°F) or ±2% of reading, for ambient temperature 10°C to 35°C (+50°F to 95°F) and object temperature above +0°C (+32°F)
Object Temperature Range –20°C to +250°C (–4°F to +482°F) –20°C to +250°C (–4°F to +482°F) –20°C to +250°C (–4°F to +482°F)
Thermal Sensitivity/NETD <0.15°C (0.27°F) / <150 mK <0.06°C (0.11°F) / <60 mK <0.06°C (0.11°F) / <60 mK
POWER
Battery type & operating time Rechargeable 3.6 V Li ion battery; approx. 4 hours typical use Rechargeable 3.6 V Li ion battery; approx. 4 hours typical use Rechargeable 3.6 V Li ion battery; approx. 4 hours typical use
STORAGE MEDIA
File Formats Standard JPEG, 14-bit measurement data included Standard JPEG, 14-bit measurement data included Standard JPEG, 14-bit measurement data included

Must Read Guidebooks

Booklet: Thermal imaging guidebook for industrial applications

Numerous industries worldwide have discovered the advantage of incorporating infrared cameras in their industrial processes and programs. This booklet is an in-depth guide for these industrial applications.

Booklet: Thermal imaging guidebook for building applications

Thermal imaging cameras are powerful and non invasive tools for monitoring and diagnosing the condition of buildings. Energy losses, missing insulations, air leaks, moisture and many other building related problems become immediately and clearly visible on a thermal image.

Booklet: Thermal imaging guidebook for automation applications

Automated IR (infrared) radiation imaging offers the potential for improving a host of industrial production applications, including process monitoring and control, quality assurance, asset management, and machine condition monitoring.

Booklet: Thermal imaging guidebook for gas detection applications

Infrared cameras can also play a major role in helping to decrease environmental damage. They are successfully used for detecting insufficient insulation in buildings, identified as one of the highest opportunity areas for decreasing the greenhouse effect, as well as detecting environmentally dangerous gas leaks.

Booklet: Thermal imaging guidebook for R&D Professionals

Although infrared radiation (IR) is not detectable by the human eye, an IR camera can convert it to a visual image that depicts thermal variations across an object or scene.

FLIR Warranty

warranty puff EN

Thermal Imaging Guidebook for Building Applications

thermal-imaging-building-applications-guidebook

Get the FREE copy of this informative FLIR Systems publication. Thermal imaging cameras are powerful and non invasive tools for monitoring and diagnosing the condition of buildings. Energy losses, missing insulations, air leaks, moisture and many other building related problems become immediately and clearly visible on a thermal image. Also the renewable energy sector has discovered the benefits of thermal imaging cameras. Solar panel and windmills are regularly inspected with the help of a thermal imaging camera.

The guidebook is written for everyone with an interest in the use of thermal imaging cameras for building and renewable energy applications. It introduces the reader to many applications for building, solar panel and windmill inspections. It also explains to which details you need to pay attention when carrying out thermal inspections and has useful tips for choosing the correct thermal imaging camera for your specific building or renewable energy application.

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