- Sign In
- |
- Sign Up
- |
- My Quote (0)
- |
- CART (0)
This is a noncontact, highly sensitive infrared thermal imaging camera with motorized and software controlled variable focus capability. The ThermoView® Series infrared cameras are rugged and designed to be able to withstand demanding industrial environments. External add-on lenses are not water tight and have a degraded IP54 rating.
This is a noncontact, highly sensitive infrared thermal imaging camera with motorized and software controlled variable focus capability. The ThermoView® Series infrared cameras are rugged and designed to be able to withstand demanding industrial environments. External add-on lenses are not water tight and have a degraded IP54 rating.
Monitor your site and equipment for safety with the rugged thermal imager that provides process control, monitoring, and archiving capabilities for industrial process applications. Customizable and designed for the harshest applications, the thermal imaging camera allows users to view infrared and visible images, program areas of interest, data remotely, and more.
With additional software features and advanced analytical tools, the software offers control of multiple parts of the process. Providing independent, continuous, intermittent, and remote evaluation of the temperature condition, the software enables data to be accessed at any time and any place.
Features
Applications
| Sighting | Thermal + Visible light Camera (640 x 480) |
| Measuring Range | 14 to 2192°F (-10 to 1200°C) |
| Measurement Accuracy | ±2°C or ±2% of reading |
| Number of Pixels | 640 x 480 |
| Frame Rate | 9 Hz |
| Spectral Range | 8 to 14 μm |
| Detector | Uncooled focal plane array |
| Field of View | Horizontal 24 x 18° |
| Add on Lens Options | 0.75X wide lens (32° x 24°) 2X lens (12° x 9°) 4X lens (6° x 4.5°) Macro lens |
| Focus Range | Infrared: 15 cm to ∞ (motorized remote focus) Visible light: 60 cm to ∞ |
| Camera Frame Time | 9 or 60 frames/sec (must be specified at the time of ordering) |
| Emissivity Correction | 0.10 to 1.00 |
| Interface | GigE Vision |
| LED Display | Power supply indication, system error codes |
| Operating Temperature | 14 to 122°F (-10 to 50°C) |
| Storage Temperature | -4 to 122°F (-20 to 50°C) |
| Humidity | 10 to 95% non-condensing |
| Power Supply | 12 to 26 VDC, ±5% Power over Ethernet (IEEE 802.3at) |
| Power Consumption | Typical: 8 W Maximum: 13 W |
| Shock Resistance | IEC 60068-2-27 (mechanical shock): 50 g, 6 ms, 3 axis |
| Vibration Resistance | IEC 60068-2-26 (sinusoidal vibration): 3 g, 11 to 200 Hz, 3 axis |
| Environmental Protection | IP67 NEMA 4 |
| Dimensions | Approximately 3.25 x 3.25 x 6.22" (83 x 83 x 158 mm) |
| Weight | Approximately 2.2 lbs (1 kg) |
Integrate
GigE Vision, Power over Ethernet, along with digital and analog I/O modules allows for easy integration of the Thermal Imager TV40 into any plant level automation system. A unique IP67 rated housing, together with a wide range of accessories designed for your harshest industrial environment, guarantees reliable and long-term thermal imaging. Multiple pre-calibrated lenses are field interchangeable, ensuring the right field of view for any application, while the standard camera with integrated lens means there are no external moving parts. TV40 thermal imagers come with integrated visible light, allowing combined infrared and visible light viewing for remote verification of proper sighting. You can monitor your process with ThermoView software or by connecting directly to the web server integrated in the thermal imager.
Visualize
Stream thermal images at up to 60 frames per second with GigE Vision capability. Multiple software tools make it easy to analyze your temperature data post-process, giving you the ability to dig deeper than what might be practical in real time. TV40 thermal imagers provide high resolution infrared and visible images simultaneously to the ThermoView software for analysis of your process, highlighting details that may be overlooked otherwise. Stich together images and live views from multiple cameras to catch every detail.
Control
Combining TV40 thermal imagers and the ThermoView software allows for continuous monitoring and alarms when an unwanted temperature event occurs, using DAQ modules for I/O process control. Manual or automated image and AOI data archiving provides process traceability. Monitor, archive, and alarm multiple imagers simultaneously using the ThermoView software.
ThermoView software and TV40 thermal imagers provide process control, monitoring and archiving capabilities for industrial process applications. With ThermoView software, you can interface to process control equipment receiving synchronization inputs and providing pass/fail logic outputs performing product inspections, temperature alarming and monitoring, and process temperature archiving. For product troubleshooting several temperature analysis and tools are available to provide trending. TV40 thermal imagers offer a rugged product to the industrial applications which Fluke Process Instruments has served for many years. The thermal imager is housed in an IP67 enclosure using industrial sealed connectors. The standard thermal imager is offered with an “on-board” lens which means that there are no external moving parts. The thermal imager GigE high speed interface allows for high speed data transfer at 60 frames per second and also (PoE) Power over Ethernet.
ThermoView Software
ThermoView software is a rich software package with a wide variety of analysis and process monitoring tools offered in a single package.
Analysis
Automation mode (for process monitoring, alarming, archiving)
General features
ThermoView Lite Software
ThermoView lite software provide a user with a startup software package to get familiar with the features and benefits of using the TV40 thermal imagers. Benefits of the software include:
TV40 Thermal Imager Web Server
Different displays being used on the ThermoView Software, including histograms, charts and graphs.
The automotive industry boasts one of the most sophisticated—and increasingly complex—supply chains in manufacturing. Automakers, also referred to as OEMs, rely on suppliers of varying sizes to manufacture components that are assembled into a final vehicle. Strict quality requirements ensure that materials and manufactured systems, from Tier 3 to Tier 1 suppliers, result in a car that is safe to drive.
Fixed thermal imaging is a cost-effective way for suppliers to ensure that parts delivered to automotive companies meet those stringent quality requirements.
Read More about window heating
Bad defroster grid during isotherm testing
Continuous coal and biomass monitoring is an important step in understanding the conditions leading to a fire. Hot spots can flare-up devastating spontaneous combustion, potentially causing thousands of dollars in material loss, dangerous work conditions, and difficult extinguishing options. Prevention is becoming readily available with cost-effective continuous thermal image monitoring as a method for early warning.
Learn More about hot spots
Continuous coal and biomass monitoring with thermal imaging
The automotive industry features one the most sophisticated–and increasingly complex–supply chains in manufacturing. For newer components, such as heated car seats, strict quality requirements ensure that manufactured materials and systems result in a car that is both safe and comfortable to drive.
Meeting these requirements can be time consuming and, if done incorrectly, can waste valuable production time later in the process; but it doesn’t have to. Fixed thermal imaging is a cost-effective, easy-to-implement way for suppliers to ensure parts are delivered to OEMs with a 100% quality inspection.
Find out More
View of your car seat warmer through a thermal imager
In recent years, distributed renewable energy sources like wind and solar have made headlines for their significant progress in cost reduction, effectively supplementing the electrical grid with clean power. Even so, most electricity consumed across the globe is produced at centralized plants, ranging from traditional coal power plants to clean hydroelectric facilities. There is a variety of critical equipment involved in the power generation process–which, if it fails, can ultimately disrupt power supplied to the grid, as well as significantly increase costs associated with repairs and re-establishing operations. However, preventing unexpected failures is becoming easier due to the implementation of continuous monitoring with fixed thermal imagers.
Learn More about hot spot detection
Maintain nonstop power plant operations with hot spot detection
Automakers, also referred to as OEMs, rely on suppliers of varying sizes to manufacture components that are later assembled into a final vehicle. When looking at a vehicle’s structural components, hot stamping and press hardening are some of the most integral manufacturing processes. Pair that with strict industry requirements like the CQi-9 heat treat systems assessment and suddenly your team is faced with expensive, time-consuming testing procedures. However, fixed thermal imaging is a cost-effective way for you to ensure that your parts are delivered to OEMs while meeting stringent industry requirements.
Find out More
Hot stamping automotive parts
The automotive industry boasts one of the most sophisticated—and increasingly complex—supply chains in manufacturing. Automakers, also referred to as OEMs, rely on suppliers of varying sizes to manufacture components that are assembled into a final vehicle. Strict quality requirements ensure materials and manufactured systems, from Tier 3 to Tier 1 suppliers, result in a car that is safe to drive. When it comes to meeting those stringent quality requirements, suppliers can encounter prohibitive costs that don’t always allow for complete, quality inspections; and fixed thermal imaging is a cost-effective way to ensure these parts are delivered to automakers with 100% quality inspection.
Vibration and Laser welding using the Fluke Process TV40
Find Out More
Vibration and Laser welding using the Fluke Process TV40
When it comes to the development of the modern world, the manufacturing of primary and secondary metal products is one of the most important industries. It is also one of the most energy intensive.
That said, improving energy and production efficiency, as well as ensuring the quality of materials for OEMs, is likely near the top of your to do list. Fortunately, continuous thermal imaging can provide you with the necessary data you need to optimize your process.
Find Out More
Recording the reheating process of metals with the TV40
Click on a category to view a selection of compatible accessories with the Fluke Process TV46L-TL-0 ThermoView TV40 Thermal Imager with Lite Software, 640 x 480, 60Hz.
| Sighting | Thermal + Visible light Camera (640 x 480) |
| Measuring Range | 14 to 2192°F (-10 to 1200°C) |
| Measurement Accuracy | ±2°C or ±2% of reading |
| Number of Pixels | 640 x 480 |
| Frame Rate | 9 Hz |
| Spectral Range | 8 to 14 μm |
| Detector | Uncooled focal plane array |
| Field of View | Horizontal 24 x 18° |
| Add on Lens Options | 0.75X wide lens (32° x 24°) 2X lens (12° x 9°) 4X lens (6° x 4.5°) Macro lens |
| Focus Range | Infrared: 15 cm to ∞ (motorized remote focus) Visible light: 60 cm to ∞ |
| Camera Frame Time | 9 or 60 frames/sec (must be specified at the time of ordering) |
| Emissivity Correction | 0.10 to 1.00 |
| Interface | GigE Vision |
| LED Display | Power supply indication, system error codes |
| Operating Temperature | 14 to 122°F (-10 to 50°C) |
| Storage Temperature | -4 to 122°F (-20 to 50°C) |
| Humidity | 10 to 95% non-condensing |
| Power Supply | 12 to 26 VDC, ±5% Power over Ethernet (IEEE 802.3at) |
| Power Consumption | Typical: 8 W Maximum: 13 W |
| Shock Resistance | IEC 60068-2-27 (mechanical shock): 50 g, 6 ms, 3 axis |
| Vibration Resistance | IEC 60068-2-26 (sinusoidal vibration): 3 g, 11 to 200 Hz, 3 axis |
| Environmental Protection | IP67 NEMA 4 |
| Dimensions | Approximately 3.25 x 3.25 x 6.22" (83 x 83 x 158 mm) |
| Weight | Approximately 2.2 lbs (1 kg) |
Integrate
GigE Vision, Power over Ethernet, along with digital and analog I/O modules allows for easy integration of the Thermal Imager TV40 into any plant level automation system. A unique IP67 rated housing, together with a wide range of accessories designed for your harshest industrial environment, guarantees reliable and long-term thermal imaging. Multiple pre-calibrated lenses are field interchangeable, ensuring the right field of view for any application, while the standard camera with integrated lens means there are no external moving parts. TV40 thermal imagers come with integrated visible light, allowing combined infrared and visible light viewing for remote verification of proper sighting. You can monitor your process with ThermoView software or by connecting directly to the web server integrated in the thermal imager.
Visualize
Stream thermal images at up to 60 frames per second with GigE Vision capability. Multiple software tools make it easy to analyze your temperature data post-process, giving you the ability to dig deeper than what might be practical in real time. TV40 thermal imagers provide high resolution infrared and visible images simultaneously to the ThermoView software for analysis of your process, highlighting details that may be overlooked otherwise. Stich together images and live views from multiple cameras to catch every detail.
Control
Combining TV40 thermal imagers and the ThermoView software allows for continuous monitoring and alarms when an unwanted temperature event occurs, using DAQ modules for I/O process control. Manual or automated image and AOI data archiving provides process traceability. Monitor, archive, and alarm multiple imagers simultaneously using the ThermoView software.
ThermoView software and TV40 thermal imagers provide process control, monitoring and archiving capabilities for industrial process applications. With ThermoView software, you can interface to process control equipment receiving synchronization inputs and providing pass/fail logic outputs performing product inspections, temperature alarming and monitoring, and process temperature archiving. For product troubleshooting several temperature analysis and tools are available to provide trending. TV40 thermal imagers offer a rugged product to the industrial applications which Fluke Process Instruments has served for many years. The thermal imager is housed in an IP67 enclosure using industrial sealed connectors. The standard thermal imager is offered with an “on-board” lens which means that there are no external moving parts. The thermal imager GigE high speed interface allows for high speed data transfer at 60 frames per second and also (PoE) Power over Ethernet.
ThermoView Software
ThermoView software is a rich software package with a wide variety of analysis and process monitoring tools offered in a single package.
Analysis
Automation mode (for process monitoring, alarming, archiving)
General features
ThermoView Lite Software
ThermoView lite software provide a user with a startup software package to get familiar with the features and benefits of using the TV40 thermal imagers. Benefits of the software include:
TV40 Thermal Imager Web Server
Different displays being used on the ThermoView Software, including histograms, charts and graphs.
The automotive industry boasts one of the most sophisticated—and increasingly complex—supply chains in manufacturing. Automakers, also referred to as OEMs, rely on suppliers of varying sizes to manufacture components that are assembled into a final vehicle. Strict quality requirements ensure that materials and manufactured systems, from Tier 3 to Tier 1 suppliers, result in a car that is safe to drive.
Fixed thermal imaging is a cost-effective way for suppliers to ensure that parts delivered to automotive companies meet those stringent quality requirements.
Read More about window heating Bad defroster grid during isotherm testing
Continuous coal and biomass monitoring is an important step in understanding the conditions leading to a fire. Hot spots can flare-up devastating spontaneous combustion, potentially causing thousands of dollars in material loss, dangerous work conditions, and difficult extinguishing options. Prevention is becoming readily available with cost-effective continuous thermal image monitoring as a method for early warning.
Learn More about hot spots
Continuous coal and biomass monitoring with thermal imaging
The automotive industry features one the most sophisticated–and increasingly complex–supply chains in manufacturing. For newer components, such as heated car seats, strict quality requirements ensure that manufactured materials and systems result in a car that is both safe and comfortable to drive.
Meeting these requirements can be time consuming and, if done incorrectly, can waste valuable production time later in the process; but it doesn’t have to. Fixed thermal imaging is a cost-effective, easy-to-implement way for suppliers to ensure parts are delivered to OEMs with a 100% quality inspection.
Find out More
View of your car seat warmer through a thermal imager
In recent years, distributed renewable energy sources like wind and solar have made headlines for their significant progress in cost reduction, effectively supplementing the electrical grid with clean power. Even so, most electricity consumed across the globe is produced at centralized plants, ranging from traditional coal power plants to clean hydroelectric facilities. There is a variety of critical equipment involved in the power generation process–which, if it fails, can ultimately disrupt power supplied to the grid, as well as significantly increase costs associated with repairs and re-establishing operations. However, preventing unexpected failures is becoming easier due to the implementation of continuous monitoring with fixed thermal imagers.
Learn More about hot spot detection
Maintain nonstop power plant operations with hot spot detection
Automakers, also referred to as OEMs, rely on suppliers of varying sizes to manufacture components that are later assembled into a final vehicle. When looking at a vehicle’s structural components, hot stamping and press hardening are some of the most integral manufacturing processes. Pair that with strict industry requirements like the CQi-9 heat treat systems assessment and suddenly your team is faced with expensive, time-consuming testing procedures. However, fixed thermal imaging is a cost-effective way for you to ensure that your parts are delivered to OEMs while meeting stringent industry requirements.
Find out More
Hot stamping automotive parts
The automotive industry boasts one of the most sophisticated—and increasingly complex—supply chains in manufacturing. Automakers, also referred to as OEMs, rely on suppliers of varying sizes to manufacture components that are assembled into a final vehicle. Strict quality requirements ensure materials and manufactured systems, from Tier 3 to Tier 1 suppliers, result in a car that is safe to drive. When it comes to meeting those stringent quality requirements, suppliers can encounter prohibitive costs that don’t always allow for complete, quality inspections; and fixed thermal imaging is a cost-effective way to ensure these parts are delivered to automakers with 100% quality inspection.
Vibration and Laser welding using the Fluke Process TV40
Find Out More Vibration and Laser welding using the Fluke Process TV40
When it comes to the development of the modern world, the manufacturing of primary and secondary metal products is one of the most important industries. It is also one of the most energy intensive.
That said, improving energy and production efficiency, as well as ensuring the quality of materials for OEMs, is likely near the top of your to do list. Fortunately, continuous thermal imaging can provide you with the necessary data you need to optimize your process.
Find Out More
Recording the reheating process of metals with the TV40
Click on a category to view a selection of compatible accessories with the Fluke Process TV46L-TL-0 ThermoView TV40 Thermal Imager with Lite Software, 640 x 480, 60Hz.
