Get started with SensorPush hassle-free! Access the user guide for setup guidance. Easily configure your G1 WiFi Gateway and sensors, optimising their placement for the best coverage. Learn about multi-device compatibility, troubleshooting tips, account creation, and utilising features like barometric pressure readings. These FAQs cover everything, from managing multiple gateways to addressing connectivity issues with iPhone Personal Hotspots, ensuring a smooth setup and usage experience.
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Air quality plays a crucial role in the workplace, impacting productivity, health, and overall wellbeing. Poor air quality can lead to various health-related complaints and increased absenteeism, resulting in lost man-hours for businesses. To address these concerns, uHoo presents the uHoo Aura Commercial Environment Monitor—a powerful solution that allows businesses to take control over their air quality, improving the working environment and enhancing employee performance.
The uHoo Aura Commercial Environment Monitor is specifically designed to create a healthier workplace environment. By accurately monitoring air quality, it helps in reducing health-related complaints and minimizing lost man-hours. With its extensive range of 13 environment sensors, uHoo Aura provides businesses with crucial insights into the air employees breathe. These sensors include temperature, relative humidity, carbon dioxide, carbon monoxide, dust particles of various sizes (PM1, PM2.5, PM4, PM10), chemical volatile organic compounds (VOCs), formaldehyde, air pressure, virus index, light, and sound.
The virus index feature is particularly relevant in today's pandemic scenario, as it allows businesses to stay informed about the risk of potential viral transmission within the workplace. By proactively monitoring the virus index, businesses can take necessary precautions to safeguard their employees' health and wellbeing.
The uHoo Aura Commercial Environment Monitor provides real-time data on the air quality within the workplace. This data is instrumental in identifying potential issues that may be affecting employee performance and overall wellbeing. By monitoring key air quality indicators such as temperature, humidity, particulate matter, and pollutants like carbon dioxide and VOCs, businesses can gain a comprehensive understanding of the air employees breathe.
Hidden air pollutants are a concern that often goes unnoticed. With uHoo Aura, businesses can detect and analyze these pollutants, ensuring a safe and healthy working environment. By addressing these hidden pollutants, businesses can mitigate their negative effects on employee health and productivity.
A happier, healthier, and more productive workplace results from optimal air quality. The uHoo Aura Commercial Environment Monitor helps businesses achieve this by providing valuable insights and empowering them to take actionable steps. Numerous studies have demonstrated the correlation between air quality and employee performance. By optimizing the workplace environment based on air quality information, businesses can maximize productivity and create an environment where employees thrive.
The real-time data provided by uHoo Aura enables businesses to identify trends and patterns in air quality, allowing them to make informed decisions. Whether it's adjusting temperature and humidity levels, implementing air purification systems, or optimizing ventilation, uHoo Aura ensures that businesses have the necessary insights to optimize the workplace environment.
Investing in the uHoo Aura Commercial Environment Monitor is a smart decision for businesses aiming to enhance workplace productivity and employee health. By effectively monitoring air quality, businesses can create a safer, healthier, and more productive working environment. The uHoo Aura provides crucial data and actionable insights to businesses, enabling them to identify and address air quality issues promptly.
In today's fast-paced world, where the importance of health and wellbeing is paramount, businesses must prioritize air quality monitoring. The uHoo Aura Commercial Environment Monitor offers long-term benefits, improving productivity, reducing health-related complaints, and ensuring the success of businesses in a commercial environment. Embrace uHoo Aura and harness the power of air quality to transform your workplace into a thriving hub of productivity and wellbeing.
]]>In the field of sanitation monitoring, ensuring cleanliness and eliminating harmful microorganisms is of utmost importance. ATP testing is a process that helps to rapidly measure actively growing microorganisms by detecting adenosine triphosphate (ATP). In this article, we will explore the significance of ATP testing in sanitation monitoring and introduce the Hygiena SystemSURE Plus Starter Kit, a powerful tool for this purpose.
ATP, adenosine triphosphate, is a molecule found in and around living cells. It serves as a direct measure of biological concentration and health. ATP testing involves quantifying the amount of ATP present in a sample by measuring the light produced through its reaction with the naturally occurring firefly enzyme luciferase using a luminometer. The quantity of light produced is directly proportional to the amount of ATP present in the sample.
ATP testing offers several benefits for restoration contractors and those involved in sanitation monitoring. Firstly, it helps to determine the initial condition of surfaces and standing water, providing valuable insights into the level of contamination. This information allows the accurate categorization of losses as levels 1, 2, or 3, guiding appropriate restoration efforts.
Furthermore, ATP testing becomes a valuable tool during the cleaning and drying processes. It enables contractors to measure progress, ensuring that cleaning procedures are working effectively. This measurement also assists in verifying the cleanliness and sanitization of materials and surfaces at the completion of a job.
The Hygiena SystemSURE Plus Starter Kit is a state-of-the-art ATP sanitation monitoring system that offers advanced functionality and reliable performance. It has gained recognition as the world's best-selling ATP sanitation monitoring system, owing to its improved features, new software, and increased memory capacity.
One of the notable advantages of the SystemSURE Plus kit is its cost-effectiveness. It provides a comprehensive solution for ATP hygiene monitoring, facilitating real-time feedback and long-term data analysis. By optimizing and verifying the effectiveness of cleaning procedures, it assists in developing and improving process and risk assessment programs such as HACCP and GMPs.
Another benefit of the SystemSURE Plus is the absence of scheduled yearly maintenance, saving time and resources. Additionally, it offers an available Calibration Control Kit for in-house confirmation of calibration, ensuring accurate and reliable results. The kit also includes complimentary SureTrend Software, providing a powerful platform for data management and analysis.
The SystemSURE Plus demonstrates remarkable sensitivity, capable of detecting ATP down to 1 femtomole (1 x 10^-15 moles). This sensitivity enables the identification and measurement of even minute quantities of ATP, ensuring comprehensive assessment of microbial activity.
Equipped with an advanced photodiode sensor, the SystemSURE Plus offers low variation and maintains calibration, ensuring accurate and consistent results. It incorporates a calibration self-check at startup and provides an optional full diagnostic check mode for enhanced reliability.
The system's symbol keypad is designed to be user-friendly and easy to navigate, allowing operators of all levels of expertise to utilize it effectively. Powered by two AA batteries, the device offers several months of uninterrupted use, ensuring reliable operations even in demanding environments.
The SystemSURE Plus boasts impressive memory capacity, enabling the storage of 100 programmable test plans, 200 programmable user IDs, and 251 programmable locations per test plan. With the ability to program up to 5,000 test locations, it caters to a wide range of testing needs.
Featuring a compact and lightweight design, weighing just 0.57 lbs. and measuring 7.6 x 17.8 x 3 cm, the SystemSURE Plus is a convenient handheld instrument. Its quick-test mode allows for ad-hoc testing, providing flexibility and versatility in various testing scenarios.
The device is equipped with a large viewable screen with back-light, ensuring readability in different lighting conditions. The optional bold text further enhances visibility. For ease of maintenance, the SystemSURE Plus incorporates a removable read chamber, allowing for straightforward cleaning and ensuring accurate and reliable readings.
Lastly, the SystemSURE Plus can connect to the SureTrend software via USB, enabling seamless data transfer and comprehensive analysis. This integration enhances the overall capabilities of the SystemSURE Plus, assisting users in gaining deeper insights and making informed decisions.
ATP testing is a crucial component of effective sanitation monitoring, offering real-time feedback and facilitating data-driven decision-making. The Hygiena SystemSURE Plus Starter Kit emerges as a powerful solution, providing advanced features, accurate measurements, and user-friendly capabilities.
By utilizing the SystemSURE Plus, restoration contractors and cleaning professionals can optimize cleaning procedures, track progress, and ensure the cleanliness and sanitization of materials and surfaces. With its impressive sensitivity, memory capacity, and connectivity to SureTrend software, the SystemSURE Plus empowers users to meet the demanding requirements of sanitation monitoring.
Implementing ATP testing, particularly with the aid of the Hygiena SystemSURE Plus Starter Kit, is an investment in maintaining high sanitation standards and mitigating risks associated with microbial contamination. By embracing these technologies, professionals can elevate their sanitation monitoring practices and contribute to safer and healthier environments.
]]>The Hygiena EnSURE™ Touch ATP meter is an advanced monitoring system that has revolutionized the field of sanitation verification. With its comprehensive capabilities and user-friendly design, it has become the centerpiece of environmental monitoring solutions in various industries. In this article, we will explore the key benefits and features of the EnSURE™ Touch ATP meter, emphasizing its importance in maintaining and improving sanitation practices.
The EnSURE™ Touch ATP meter offers compatibility with a range of quality test devices, including ATP, indicator organism, and enzyme tests. This allows for a complete environmental monitoring solution, consolidating multiple tests into one system. By utilizing Hygiena's best-in-class testing devices, users can easily verify cleanliness, isolate problem areas, and test for specific enzymes.
The integration with cloud-based software, SureTrend™ Cloud, further enhances data management. Test results from multiple locations can be centrally stored, analyzed, and accessed through an interactive dashboard. This centralized reporting system provides a comprehensive 360-degree view of your food safety program, aiding in risk management and compliance.
Breaking away from the mold of traditional ATP luminometers, the EnSURE™ Touch ATP meter brings the power of a smartphone to the field of sanitation verification. Its intuitive design, simple icons, and navigation make it incredibly easy to use. The device's user-friendly interface ensures that users can perform multiple tests with just a few touches. Despite its simplicity, the EnSURE™ Touch is a powerful tool that delivers accurate and reliable results.
With the EnSURE™ Touch ATP meter, users have the flexibility to perform a variety of food safety and quality tests. Hygiena offers a range of ATP test devices, such as UltraSnap™, SuperSnap™, AquaSnap™ Total, and AquaSnap™ Free, which enable users to verify cleanliness on different surfaces and in water.
For more comprehensive analysis, the EnSURE™ Touch is also compatible with MicroSnap™ indicator organism tests. These tests bridge the time gap between ATP and bacterial culture results, providing same-day results for coliform, E. coli, Enterobacteriaceae, and total bacteria. Additionally, the EnSURE™ Touch supports rapid enzyme tests, including CrossCheck, SpotCheck Plus, and ZymoSnap ALP, which detect specific enzymatic activities relevant to food safety and quality.
One of the standout features of the EnSURE™ Touch ATP meter is its cloud connectivity and centralized reporting system. By connecting to SureTrend™ Cloud over WiFi and utilizing SSL encryption, test results are securely stored and accessible across multiple facilities. The cloud-based software offers an interactive dashboard for analyzing test results, identifying trends, and making informed decisions. The ability to centralize and manage test data across multiple locations streamlines data analysis, enhances collaboration, and simplifies regulatory compliance.
The EnSURE™ Touch ATP meter's compact size and portability make it a convenient tool for on-the-go professionals. Designed to fit in the palm of your hand, this device offers powerful monitoring capabilities without requiring additional space or equipment. Its palm-size technology ensures that sanitation verification is always within reach, enabling swift actions to address potential issues and maintain high standards of cleanliness.
To further support users, the EnSURE™ Touch ATP meter offers internet-enabled remote training options. This feature allows users to access training materials and resources remotely, providing convenience and accessibility. By leveraging internet-enabled training, organizations can ensure that their personnel are equipped with the necessary knowledge and skills to use the EnSURE™ Touch effectively, contributing to improved sanitation practices across the board.
The importance of food safety and quality cannot be overstated in industries such as food and beverage, healthcare, and pharmaceuticals. The EnSURE™ Touch ATP meter plays a critical role in maintaining and improving sanitation practices, thereby safeguarding consumer health and preventing product contamination.
Real-world examples have demonstrated the effectiveness of the EnSURE™ Touch in helping organizations meet regulatory requirements and enhance their overall food safety programs. By utilizing its advanced monitoring capabilities, businesses have been able to identify and address sanitation issues promptly, leading to improved quality control, reduced risk of recalls, and increased consumer confidence.
The Hygiena EnSURE™ Touch ATP meter offers a comprehensive solution for sanitation verification, revolutionizing the way industries approach environmental monitoring. The device's key benefits, including compatibility with multiple quality test devices, cloud-based software integration, intuitive smartphone design, and palm-size technology, provide users with a powerful tool to ensure food safety and quality. Incorporating the EnSURE™ Touch ATP meter into your organization's sanitation practices can strengthen your risk management protocols and safeguard your reputation. Embrace the EnSURE™ Touch and empower your organization with cutting-edge sanitation verification technology.
]]>Moisture content in concrete floor slabs is a critical factor to consider before installing flooring materials. Excess moisture can lead to problems such as mold growth, warping, and delamination. To accurately measure moisture levels in concrete floor slabs, professionals in the flooring industry can rely on the MMS3 Flooring Kit. This article provides a detailed guide on how to properly use the MMS3 Flooring Kit for moisture measurement in concrete floor slabs.
The MMS3 Flooring Kit is a specialized system designed for moisture measurements in concrete floor slabs using the in-situ probe method. The kit provides accurate and reliable measurements of moisture content in both concrete and wood materials. It consists of two primary components:
The MMS3 Moisture Meter is a handheld device that measures moisture levels in various materials. It features a digital display that shows the moisture level as a percentage. The moisture meter uses the in-situ probe method to measure the moisture content in concrete floor slabs accurately.
The MMS3 Flooring Kit includes the BLD5800 Moisture Probe, which is used to take moisture measurements in concrete floor slabs. This moisture probe is specially designed to be inserted into the concrete and left for a specified period of time to gather accurate readings.
Proper utilization of the MMS3 Flooring Kit ensures accurate and reliable moisture measurements in concrete floor slabs. The following steps outline how to effectively use the kit:
Before taking moisture measurements, ensure that the MMS3 Moisture Meter is properly calibrated and ready for use. Follow the manufacturer's instructions for calibration, which typically involve adjusting the device using a known reference material.
Once the moisture meter is calibrated, insert the BLD5800 Moisture Probe into the concrete floor slab. Proper insertion depth may vary depending on the specific requirements of the project and should be determined by referring to industry standards and guidelines.
After inserting the moisture probe into the concrete, leave it in place for the specified period of time to ensure accurate readings. The required time may vary depending on factors such as the thickness of the concrete slab and the desired level of precision. Again, industry standards and guidelines should be consulted to determine the appropriate duration.
Once the designated waiting time has elapsed, carefully remove the moisture probe from the concrete. The MMS3 Moisture Meter's digital display will show the moisture content reading as a percentage. Take note of the displayed reading and interpret it accordingly by referring to moisture content guidelines for flooring materials. This will help determine if the moisture level is within an acceptable range for installing the desired flooring material.
The MMS3 Flooring Kit offers numerous benefits to professionals in the flooring industry:
The in-situ probe method used by the MMS3 Flooring Kit allows for non-destructive measurement of moisture levels in concrete floor slabs. This means that professionals can assess moisture content without causing damage to the concrete structure.
The MMS3 Flooring Kit provides a cost-effective solution for moisture measurement compared to using one-time-use humidity probes. The kit comes with reusable probes that can be used for multiple projects, eliminating the need for frequent probe replacements and resulting in significant cost savings over time.
Accurate and reliable moisture measurements provided by the MMS3 Flooring Kit help prevent common issues such as mold growth, warping, and delamination in flooring installations. By assessing moisture levels beforehand, professionals can ensure that the flooring materials are installed in a suitable environment, reducing the risk of future problems.
The MMS3 Moisture Meter features a digital display that makes it easy for professionals to read and interpret moisture content readings. The percentage-based display provides clear and concise information, assisting professionals in making informed decisions about the suitability of the concrete floor slab for flooring installations.
The MMS3 Flooring Kit is designed to be durable and long-lasting, ensuring reliable performance even in demanding construction environments. Its robust construction allows professionals to rely on the kit's accurate and repeatable measurements throughout various projects.
The MMS3 Flooring Kit is an invaluable tool for professionals in the flooring industry. By following the proper steps for utilization, it enables accurate and reliable moisture measurement in concrete floor slabs. The kit's non-destructive measurement method, cost-effectiveness, prevention of flooring installation issues, easy-to-read digital display, and durable construction make it a comprehensive and efficient solution. With the MMS3 Flooring Kit, professionals can confidently ensure that flooring materials are installed in a suitable moisture environment, minimizing the risk of future problems and ensuring successful and durable flooring installations.
]]>A thermal imaging camera is an instrument that captures and displays the heat profile of an object, environment, or process. It uses a specialized infrared detector to measure the infrared energy (heat) emitted by an object and produces a digital image of the object or scene. Thermal imaging cameras are commonly used in a variety of fields, including medical, industrial, and commercial applications. The camera processes the thermal energy and produces a picture that is displayed on the camera’s viewfinder. Thermal images are also sometimes called thermographs.
Occasionally, there are industrial problems that require an inspection of the surface of an object in order to diagnose and repair it. In some cases, a thermal imaging camera may be necessary to view the surface temperature of the object to detect uneven heating or cooling, which could indicate a malfunction. Thermal imaging cameras are especially useful in industrial environments because they can provide a clear picture of problems without having to resort to intrusive methods such as dismantling machinery.
The range of applications for thermal imaging cameras is extensive. From examining home insulation and identifying air leaks to observing wildlife and pets, thermography experiments, solar panel inspections, battery and PCB monitoring, and automotive brake disk temperature checks, the possibilities are nearly limitless. They can even be used for veterinary care, medical diagnostics, search and rescue operations, plumbing, and security surveillance.
For home insulation and air leaks: A homeowner can use a thermal imaging camera to identify air gaps, poorly insulated areas, and other areas of the home that are vulnerable to air leaks. This is important because these areas can lead to an increase in energy consumption and higher energy bills.
A thermal imaging camera is a device that detects infrared radiation, which is emitted by all objects and surfaces that have a temperature above the absolute zero. The camera then converts the infrared radiation into visible images, which are displayed on a monitor.
The thermal imaging camera can be used in a variety of applications, but it is particularly useful for home energy efficiency. Homeowners can use the camera to easily identify air gaps, poorly insulated areas, and other areas of the home that are vulnerable to air leaks. By identifying these areas, homeowners can take the necessary steps to properly insulate them, thus reducing their energy consumption and bills.
The thermal imaging camera can identify the temperature of the walls, ceilings, and floors of the home and can detect even the smallest temperature differences. Homeowners can use this information to identify areas with inadequate insulation and take the necessary steps to improve the insulation.
In wildlife: Thermal imaging cameras provide wildlife professionals with an invaluable tool to monitor and study wildlife. Thermal imaging cameras are used to detect the infrared radiation emitted from the body of an animal. This emitted radiation is invisible to the naked eye, so thermal imaging cameras allow us to see things that we would otherwise not be able to see.
Thermal imaging cameras are especially useful to detect the presence of animals in areas where it is difficult to observe them. This includes areas that are difficult to access, such as mountainous terrains, animals in the dark and in low light conditions. They can also be used to detect animals in dense vegetation, or in water where visibility is limited. Thermal imaging cameras can also detect ground level thermal patterns to monitor the health of soil and vegetation.
For battery servicing: Battery technicians can use thermal imaging cameras to identify areas of heat build-up in batteries. Heat build-up is a common sign of a battery's impending failure and can help technicians diagnose and address problems before they become catastrophic.
Thermal imaging cameras are a valuable tool for battery technicians because they quickly detect heat build-up in batteries. The cameras use infrared light to measure the temperature of a battery and its surrounding environment. This allows technicians to identify areas of elevated temperature and pinpoint any potential problems.
For example, if a technician notices a hotspot on a battery, they can use the thermal imaging camera to determine the exact location and extent of the problem. This helps them to quickly identify the cause of the heat build-up and take corrective action.
This technology also helps technicians to identify problems in a timely manner. For example, if a technician notices a hotspot on a battery, they can use the thermal imaging camera to determine the exact location and extent of the problem. This allows them to take corrective action before the battery fails by identifying potential problems and take steps to prevent catastrophic failure.
In PCB Industry: Electronic engineers can use thermal imaging cameras to identify areas of heat build-up in PCBs. The use of thermal imaging cameras is becoming increasingly popular in PCB industry because it can detect temperature changes quickly and measure temperature differences from a distance. Thermal imaging cameras can be used to identify hot spots on a printed circuit board (PCB) due to poor power dissipation, inadequate grounding, poor heat sink design, or dielectric breakdown.
For example, a thermal imaging camera can detect a temperature variation of 0.1°C or less across a PCB that would not be visible to the naked eye. This is especially useful for diagnosing problems with voltage regulators, power supplies, and ICs. Thermal imaging cameras can also be used to identify poor power distribution on a PCB, which can be a source of system
For automotives: Automotive engineers can use thermal imaging cameras to identify areas in the engine or other parts of the car where there are problems with heat dissipation. This technology can detect potential areas of overheating, as well as help identify potential mechanical or electrical issues in the car.
Thermal imaging cameras are used in the automotive industry to detect potential leaks from the radiator, engine, transmission case, and other parts of the car. This technology can help engineers quickly identify if there is a leak and pinpoint its exact location. This can save time and money, as well as protect the car’s overall performance.
Thermal imaging cameras are also used to diagnose cooling system problems in cars. This technology can detect potential signs of overheating, as well as identify possible blockages in the cooling system. By using a thermal imaging camera, an engineer can identify and address the issue before it causes any serious damage to the car.
Thermal imaging cameras are also used to diagnose electrical system problems in cars. This technology can detect potential signs of electrical issues, such as faulty wiring or loose connections. By using a thermal imaging camera, an engineer can identify and address an electrical issue before it causes a serious problem.
Thermal imaging cameras are also useful for inspecting brakes, exhaust systems, and engine components. By examining the heat patterns of these components, the engineer can determine the effectiveness of the cooling systems and identify weak points. This helps prevent premature wear and tear on the engine and other parts of the car.
For medical diagnostics (thermography): Doctors and specialized medical professionals have been using thermal imaging cameras for diagnostics in medical imaging for many years. Thermal imaging cameras are used to detect and diagnose various medical conditions and diseases, such as tumors, infections, and cardiovascular diseases.
Thermal imaging cameras work by using infrared waves to detect and measure the temperature of an object or person. As different parts of our bodies have different temperatures, thermal imaging can detect these differences, which in turn can indicate the presence of a medical condition or disease.
Thermal imaging cameras can be used in a variety of medical imaging applications, including breast imaging, new-born screening, vascular imaging and dental imaging. Thermal imaging has the potential to provide doctors with more detailed information than other imaging techniques, such as X-ray and MRI.
For instance, thermal imaging cameras can detect changes in temperature that may indicate the presence of cancer. Thermal imaging cameras can also be used to detect and monitor the spread of tumours, as well as to assess the effectiveness of treatment. Thermal imaging cameras can also be used to diagnose cardiovascular conditions and infections, as they can detect changes in the temperature of blood vessels. This can help the doctors and specialized medical professionals to identify any underlying health issues that the patient may be experiencing, allowing them to provide more timely and effective treatment.
For search and rescue operations: Search and rescue teams can use a thermal imaging camera to quickly and effectively locate people who are missing or trapped in dark or hard-to-reach places. Thermal imaging technology allows rescuers to detect heat sources, even in complete darkness or in difficult terrain.
A thermal imaging camera is a device that detects infrared radiation from objects and displays the scene as a thermal image. It can detect the slightest changes in temperature, even through walls and other barriers.
The thermal imaging camera is used by search and rescue teams to quickly identify and locate victims in a variety of situations. When searching for a missing person in a dark area, such as in a cave, a thermal imaging camera can quickly locate the person’s body heat. The camera can also be used to search for victims in a collapsed building or in a forest fire. The camera is especially useful in identifying victims in water, as it can detect body heat even through the water.
In plumbing: Plumbers can use thermal imaging cameras to identify any areas of blockage or leaks in the plumbing system. Thermal imaging cameras detect the heat emitted by the walls of the pipes and can accurately pinpoint the location of any issue.
In the plumbing industry, thermal imaging cameras are used to quickly and accurately identify leaks, blockages, and other potential issues in pipes and other plumbing systems. Plumbers are able to detect potential problems and fix them before they become more serious and expensive.
Thermal imaging cameras are a valuable tool for plumbers because they provide a way to see into the walls of a pipe. The cameras detect temperature differences and can accurately pinpoint the location of the blockage or leak.
This helps the plumbers and construction professionals to identify and fix any problems quickly and to prevent further damage.
For security applications: Security personnel can use thermal imaging cameras to detect any suspicious activity in an area. Thermal imaging cameras are powerful devices that capture temperature differences in their field of view. They are used to detect objects and people in an area that are hotter or colder than the average, which can indicate the presence of activity. Thermal imaging cameras are often used in surveillance activities, to locate people in the dark and to detect objects that are hidden in a location.
Thermal imaging cameras work by measuring the infrared radiation emitted from objects in their field of view. They collect this radiation and convert it into a visible image. The temperature of an object is typically related to its colour, with hotter objects appearing brighter and colder objects appearing darker. Thermal imaging cameras are especially useful for detecting people since their body temperature is much higher than their surrounding environment.
Thermal imaging cameras can be used for a wide range of security applications. They can be used to detect intruders in areas that are not easily visible, such as in dense forests or in darkness. Thermal imaging cameras can also detect objects hidden behind walls or in other enclosed areas. They can also detect people in large crowds, as they are more easily detectable by their temperature than by their physical appearance. This can help the security teams and professionals to identify security breaches and apprehend intruders more quickly and effectively.
Conclusion:
As discussed in detail above, thermal imaging cameras have a wide variety of industrial applications and can be used to monitor and detect heat sources, diagnose mechanical issues, detect energy efficiency issues, identify insulation problems, and detect and measure hazardous levels of heat. Thermal imaging cameras are also used in a range of industrial processes, such as in the automotive and aerospace industries, as well as in areas such as security, surveillance, and firefighting. These cameras provide a powerful tool to help companies identify and address problems quickly and efficiently. Visit our thermal imaging camera products collection to explore.
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Thermal Imaging Camera with Wireless Connectivity for iOS® and Android™ Smart Devices
FLIR ONE Edge® Pro is a thermal imager that connects wirelessly to your mobile phone and supports both iPhone and Android devices. VividIR and FLIR MSX allow you to take crisp thermal images from any position or angle. The FLIR ONE Edge® Pro can easily scan difficult-to-view or and hard-to-reach areas, and measures temperatures up to 400°C.
FLIR ONE Edge® Pro uses a wireless connection to send images to your smart device, making it easy to inspect areas that are difficult to reach. The imager can also be clipped onto your phone or tablet for easy one-handed operation. Common uses for the thermal camera include building inspection and auto repair to industrial maintenance applications.
The highlight is FLIR ONE Edge® Pro doesn't need to be physically connected to your mobile device, and it comes in one model that works with all operating systems. This makes it easier to use for thermal inspections.
FLIR ONE Edge® Pro is a thermal-visible mobile camera that can be detached from its form factor for greater flexibility. It does not require specific connection ports or operating systems. FLIR is providing more software tools to empower new and untrained users to conduct thermography inspections, process images, and create reports.
Flexible Yet Rugged Design
The FLIR ONE Edge Pro is a RESNET compliant and IP54-rated Infrared camera that can be attached to many types of mobile phones and tablets. The thermal camera has a Bluetooth and Wi-Fi connection, allowing users to operate the FLIR ONE Edge Pro up to 30 meters away from their mobile device.
FLIR ONE Edge Pro is a thermal imaging camera with a 160×120 resolution radiometric Lepton® thermal imaging camera paired with a visible camera. It features VividIR™, which combines multiple image frames to deliver one sharper, final image. The cameras are brought together via MSX®. The MSX patented image enhancement feature overlays the edge detail of the visible camera onto the thermal image without sacrificing any thermal data within the image, providing greater context and clarity to improve decision support.
Longer Battery Life
The FLIR ONE Edge Pro has a longer battery life than older models of the FLIR ONE, and a battery life indicator that is easy to see, making it a good choice for inspections that will take a long time, such as after a disaster, when inspecting a house, checking energy use, and diagnosing problems with industrial equipment.
Advanced software tools - More image processing and reporting
The FLIR ONE Edge Pro comes with a range of software from Teledyne FLIR that makes it easy to store images in the cloud, process them, and create reports. This includes Tools Mobile, Ignite cloud, and FLIR Thermal Studio desktop software, so users can share Edge thermal photos with clients and include them in professional reports.
Additionally, app developers have access to the FLIR ONE software development kit (SDK) to create custom applications for exclusive use with the FLIR ONE Edge Pro.
Conclusion
At the end of the day the FLIR ONE Edge Pro is a truly powerful and truly wireless thermal (infrared) imaging camera that can easily be clipped to your iPhone or Android mobile phone device. It has a longer battery life compared to older models, is easy to operate, and comes with powerful software that makes it easy to process images and create reports. Need less to say that it is a must have tool for all professional technicians who work in wide variety of fields from building inspection and auto repair to industrial maintenance applications.
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What is a moisture survey?
A moisture survey is the process of assessing an area for the presence of moisture. The first step in a moisture survey is a visual inspection, in which the assessor looks for signs of moisture.
Moisture surveys are an important tool for determining the moisture content of building materials. By measuring the moisture content of the repair technician can determine a suitable course of action for restoration. Moisture meters are the most common type of moisture survey tool.
Start with Visual Inspection
A repair technician usually can't give a diagnosis without first seeing the issue first-hand. The same principle applies to moisture surveys from home inspections to water and flood damage restoration. A visual inspection is necessary to set the stage for the rest of the moisture survey and to provide invaluable information for remediation or repair efforts.
The first step to addressing a moisture issue is being able to identify signs that there may be a problem. To do this, you should enter any room or space that could potentially be affected by moisture and take a look around. Sometimes the evidence of moisture will be obvious, while other times you may need to look for more subtle signs that there is a problem. Regardless, a visual inspection should always be the first component of a moisture survey. By itself, a visual inspection is a means to get a sense of a space - or building - that's affected by moisture. It's also a rudimentary means to identify obvious areas of concern. A visual inspection is just one part of a broader effort to understand moisture presence within a space. Its results act as a guide for where the rest of a moisture investigation should start. A visual inspection, if done carefully, can save time in completing a full moisture survey.
Next step is to perform Moisture Mapping
The moisture mapping process helps communicate vital information with a property owner starting the recovery process, it is helpful to get easily digestible information about the source of moisture intrusion, the location of moisture, and the extent of damage.
A moisture map is a visual representation of the results of an inspection, detailing the location, extent, and likely point of entry of moisture in a space. It serves as a guide for repair crews and a documentation of damage for insurance claims.
Why is Moisture Mapping important in Water Damage Inspection and Flood Damage Restoration Process?
Moisture mapping is a non-destructive testing method that uses specialized equipment to detect, document, and often quantify the presence of absorbed moisture in building materials. A moisture map is the pictorial output of a moisture mapping procedure and is generally presented in the form of a colored floor plan showing the locations and extents of moisture within the building.
The moisture map displays the likely point of entry for moisture as well as the extent to which it is present within affected materials such as drywall, wood, flooring, baseboards, and ceilings.
How Moisture Maps help when Filing Insurance Claims?
Insurers typically need a lot of details about any flood or water damage that has happened. Moisture maps show where moisture has gone into a building, so insurers can tell how bad the damage is. If a property owner has a complete moisture map, it is more likely that the insurance company will approve their claim.
What tools are needed to prepare a Moisture Map?
To create an accurate and comprehensive moisture map, you need experience and the right tools. Fortunately, a moisture meter, a hygrometer, a visual camera (smartphone) and a thermal camera are standard equipment for flood damage restoration professionals.
Tool #1 Moisture Meter
There are many different types of moisture meters, each designed for a specific purpose. The most common type of moisture meter is the pin type moisture meter. Pin type moisture meters measure the moisture content of a material by inserting two metal pins into the material. The moisture content is then determined by the electrical resistance between the two pins.
Another type of moisture meter is the capacitive moisture meter (pinless moisture meters). Capacitive moisture meters measure the moisture content of a material by measuring the dielectric constant of the material. The dielectric constant is a measure of the ability of a material to store electrical energy.
In order to make a thorough assessment, you will need to use both types of moisture meters.:
At every point on a moisture map where moisture intrusion is observed, the corresponding moisture readings should be recorded.
Dual moisture meters like Protimeter MMS3 are all-in-one moisture meters that you can use. All-in-one moisture meters have the dual functionality as they combine the functionality of both meter types (pinless and pin type) into one device.
Sometimes it can be challenging to take moisture readings, or you may need specialized equipment. Additional functionality is available for your moisture meter device through meter-specific accessories. This allows you to complete a survey without unnecessary issues.
Some of the common moisture meter accessories to readily have are:
Tool #2 Hygrometer or more preferably Thermo-Hygrometer:
A hygrometer measures humidity (the amount of moisture in the air).
Hygrometers measure the following three components of humidity:
A Thermo-hygrometer like Protimeter Hygromaster2 is preferred to ordinary hygrometers because it not only takes humidity readings, but they also take temperature readings.
Tool #3 Visual Camera (Smartphone)
A regular camera in a smartphone can help you create a more detailed moisture map by providing additional information about the areas you surveyed. Photos can show the areas tested and any visible damage, which can help you create a more accurate moisture map.
Tool #4 Thermal Camera
A thermal camera is a camera that uses infrared radiation (heat) to create images. Thermal cameras detect differences in temperature in order to identify areas where water is present. Combined with readings from moisture meter and hygrometer this can help in finding hidden leaks or assessing the amount of water damage after a flood.
A thermal camera can be used to find areas that may be affected by moisture. These areas appear cooler on the camera. This information, along with readings from a hygrometer, can be used to determine if there is moisture present in a space.
Check out the all-in-one solution for Water Damage and Flood Damage Restoration Professionals from Protimeter.
MMS3+ Probes + Heavy Duty Hammer Electrode
For use with:
Everything you need in one case. Also includes: QuickStick, Sensor and extension lead, calibration check device, logging software and cable, all-in-one foam insert hard carrying case.
For more information click here to explore other moisture meters and kits.
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Using a moisture meter can help determine the moisture content of materials like drywall, panelling, and wood studs. Furniture makers and other woodworkers often use them to make sure they are using a good quality product, and flooring contractors can use the meters to figure out the best moisture conditions when installing a laminate or wood floor over a concrete slab or subfloor.
A moisture meter is not only helpful for home and building inspectors, but for anyone wanting to check the moisture levels in their home or during DIY projects. A moisture meter can help you determine if there is too much moisture or your home needs a dehumidifier.
The buyer should also decide what kind of display is desired and whether extra features, such as the ability to take measurements in various units or a data logger, are needed.
When looking for the best moisture meter for woodworking, it is important to consider these various factors to find the meter that is best suited for the task at hand.
The article discusses how to find the best moisture meter for woodworking.
The best moisture meters for wood are high quality, easy to use, and provide accurate moisture measurements.
On your behalf we will navigate through factors like how often the meter will be used, the range of moisture it can measure, the accuracy of the readings, the type of display, and any extra features to evaluate what leading moisture meter brands have to offer.
MoistureMeterExperts.com.au brings you flagship products of Protimeter, a leader in manufacturing advanced moisture meters for the woodworking industry, and facilitates order shipments throughout Australia.
Protimeter produces wood moisture meters to help with various woodworking applications. We sell a range of different Protimeter models, from basic to advanced, that serve different purposes with respect to woodworking industry.
Each Protimeter model is equipped with different features, such as species correction (built in wood calibration scales - 150 wood species), automatic temperature correction, electrode for sub-surface measurements, data storage and recall functions. All of Protimeter moisture meters are designed to be portable, accurate, and easy to use that help ensure quality lumber products.
Here are 10 most important features you want in a wood moisture meter:
The importance of having a moisture meter for wood can be felt easily, as improper moisture levels in wood while working can have a negative impact on the quality and durability of the end-product. The right moisture meter can save money and prevent many problems down the line.
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The Protimeter ReachMaster Pro takes moisture readings from surfaces up to a nominal depth of 5” (12.5cm). The Extendable Handle improves safety and functionality. It’s suitable for many of the same applications as conventional moisture meters.
The Protimeter ReachMaster Pro is a versatile device. The device quickly takes moisture readings on a variety of non-conductive materials, such as: drywall, concrete, and fiberglass boat hulls.
MoistureMeterExpert’s own highlights on Protimeter Reachmaster Pro moisture meter from user voice, surveys, reviews and our own findings:
Characteristics:
Detailed list of non-conductive materials where Protimeter ReachMaster Pro can be used:
And Protimeter ReachMaster Pro is suitable for many of the same applications as conventional moisture meters, such as:
A moisture meter is a device that is used to measure the moisture content of a material, such as wood, paper, or concrete.
An industry leader with more than 70 years of experience, Protimeter offers innovative, dynamic, and high-performance moisture meters and accessories that are designed to meet the specific needs of a wide range of industries.
From food and beverage to pharmaceuticals and construction, Protimeter moisture meters are used by some of the world's leading companies to help ensure product quality and safety, minimize production costs, and optimize process efficiency.
Protimeter moisture meters are known for their accuracy, reliability, and easy-to-use designs. And, with a wide range of models to choose from, there's a Protimeter moisture meter that's just right for your specific application.
Protimeter hygrometers are used by professionals in the building trades to measure the moisture in wood, concrete, mortar, and other building materials. Depending on the model, they can be used to measure the moisture content of wood and wood products, adhesives, concrete, mortar, and stucco.
- what is being measured: humidity, moisture, air temperature or all of them at once
- what materials do you need to measure: e.g. wood, dry wall, etc
- whether you want to do an invasive or non-invasive readings: pin type or pinless type
- what is the measurement range that is required
- accuracy: how important is it for the readings to be accurate
- resolution: how important is it for the readings to be precise
- how often do you need to take readings: once, intermittently, or continuously
- ease of use: is the meter easy to set up and use
- display: how the readings are displayed, e.g. on a digital screen
- price: how much you are willing to spend on the moisture meter
- batteries: most moisture meters require batteries to operate
- carrying case: to protect the meter when not in use
- Probes
- Sensor Pads
- Replacement Pin Needles
Protimeter moisture meters are known for their accuracy, reliability, and durability.
- calibration certificate: to ensure accuracy
When choosing a moisture meter, consider what you need to measure and the associated factors. If you need an accurate and reliable moisture meter, buy a Protimeter.
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- Ensures accuracy in home inspections
- Ensures meters are functioning properly
- Ensures readings are accurate
It’s a process that’s not difficult, but it does require some basic understanding about how moisture meters work.
Here’s a primer on digital moisture meter calibration for home inspectors.
How Moisture Meters Work
There are two main types of moisture meters: pin-type and pinless.
Pin-type moisture meters have two metal probes that penetrate the surface being tested. The moisture content is then displayed as a percentage on the digital readout.
Pinless moisture meters, on the other hand, don’t require physical contact with the surface being inspected. Instead, they emit low-frequency electromagnetic waves that penetrate up to 3/4” below the surface. The moisture content is then displayed as a percentage on the digital readout.
While both types of moisture meters are designed to provide accurate readings, they can be affected by a number of factors. That’s why it’s important to calibrate them on a regular basis.
Factors That Can Affect Moisture Meter Accuracy
There are a number of factors that can influence the accuracy of a moisture meter reading, including:
In order to get accurate readings, it’s important to calibrate your moisture meter on a regular basis.
Calibration Procedures
There are two types of calibration procedures: standard and field.
Standard calibration is the most common and is typically done with a device known as a calibration checker. This is a small, portable device that’s specifically designed to test the accuracy of moisture meters.
Field calibration, on the other hand, is done with a known moisture sample. This could be a piece of wood with a known moisture content or a damp sponge. The idea is to test the moisture meter on a known moisture source to see if it’s providing accurate readings.
Most manufacturers recommend that moisture meters be calibrated on a monthly basis. However, some experts believe that’s too often. They recommend calibrating pin-type moisture meters every three to six months and pinless moisture meters every six to twelve months.
Conducting a Calibration Check
To conduct a calibration check, you’ll need a few things:
The first thing you’ll want to do is remove the battery cover from the back of the moisture meter. Next, insert the 9-volt battery into the battery compartment and replace the cover.
Now it’s time to connect the moisture meter to the calibration checker. Most moisture meters will have a jack for this purpose. If yours doesn’t, you can use the alligator clips that come with the calibration checker.
Once the moisture meter is connected to the calibration checker, turn on the device. You should see a reading of 50% on the display. If you don’t, the moisture meter needs to be calibrated.
Calibrating a Moisture Meter
Calibrating a moisture meter is a relatively simple process. Most moisture meters will have a calibration screw somewhere on the body of the device.
To calibrate the moisture meter, turn the calibration screw clockwise or counterclockwise until the display reads 50%. Once the display reads 50%, the moisture meter is calibrated and ready for use.
It’s important to note that some moisture meters have a self-calibration feature. This means that the moisture meter will calibrate itself automatically when it’s turned on.
If your moisture meter has this feature, you won’t need to calibrate it manually. However, it’s still a good idea to check the calibration on a regular basis to ensure the moisture meter is providing accurate readings.
Conclusion
Calibrating a digital moisture meter is a simple but important process. By taking the time to calibrate your moisture meter on a regular basis, you can ensure that it’s providing accurate readings.
]]>Our team built its expertise by working for decades with moisture meters for clients in various industry applications including wood works industry, concrete industry, restoration industry and all the way till food, biomedical & pharma industries. And we have gathered a pretty solid list of checking the accuracy of your moisture meter in reliable ways and to make your readings fool proof.
Here are the 21 ways to check your moisture meter's accuracy:
Here are eight key factors to consider when evaluating both types of damp testing equipment: