1. High Image Quality. Enable Super resolution, the image quality will be upscaled from 96*96 to 240*240. 25HZ frame rate ensures a smooth live viewing experience without freezes or lags. 2. Accurate temperature reading. The HF96 can detect temperature changes of 0.05℃ with a small difference of only ±2% , and provides emissivity reference for common objects. 3. Intuitive temperature readings. The HF96 automatically detects and displays maximum, minimum, and center temperature spots,helping you quickly identify anomalies in the scanning area. 4. 7 selected color palettes allow you to flexibly choose the most suitable color palette for different detection scenarios and purposes. 5. Laser pointer helps you locate the inspected object in dim environments or small areas. Temperature exceedance alarm helps locate the anomaly spot efficiently. 6.Wide temperature range of -68°F to +1022°F allows for adjusting the range to focus on specific inspection areas. 7. Built-in 3350mAh rechargeable battery provides an 8-hour runtime, sufficient for a full day of work. For better image clarity: Inspecting distance: Recommended within 6.56 feetInspecting Time: Early morning or night that with significant temperature difference.Color Palettes: Choose appropriate palette based on the scene being observedlike gray for focusing on details, rainbow for high contrast, and iron for general use. The HF96 is equipped with emissivity parameters for common objects. (e.g. metal, ceramic, cement, etc.)Select the the emissivity according to the material to be measured before the inspection, and adjust an approximate temperature range to ensure more accurate temperature measurements. For better readings accuracy, it is recommended to keep regular-sized targets within 6.56 feet (2 meters) of the thermal camera. If the target is larger, you can increase the distance to achieve a wider angle of view. 7 selected color palettes allow you to flexibly choose the most suitable image settings for different detection scenarios and purposes. FAQ Q1: Can a thermal imager see through walls? Thermal imagers create images by capturing the thermal radiation on the surface of objects, and it is unable to see through walls unless there is a sufficient temperature difference behind them. Q2: Can a thermal imager detect mold? The process of mold growth often accompanies the release or absorption of heat, which may lead to changes in the temperature of its surrounding environment. However, since mold itself may not directly emit sufficient thermal radiation to be captured by a thermal imager, we recommend using it as part of a comprehensive mold inspection process that includes visual inspection, humidity testing, and possible air sampling to more accurately identify potential risk points. Q3: How does a thermal imager detect water leaks? Step 1. Selection of Testing Time: It is recommended to test the building after it has been subjected to thermal loads (e.g., after sunlight exposure on a hot, dry, sunny day) because the temperature difference between the leaking area and the normal area will be more pronounced at this time. Step 2. Perform a Water Pressure Test: Use a water pressure gauge to check the water pressure at each faucet and fixture. Utilize a pressurizing device to determine if the water line is maintaining proper pressure. If there is a drop in water pressure, it can help determine if the cold or hot water line is leaking. Step 3. Using Thermal Imager: If the leak is in the hot water line, let the hot water run for 15-30 minutes until the temperature of the water line is visible on the thermal imaging device. Check the location of the leak along the hot water line. If the leak is in the cold water line, pour hot water into the cold water line and wait 15-30 minutes to observe. Q4. Why does the thermal imager occasionally calibrate itself? Thermal imaging cameras are automatically calibrated to changes in ambient temperature to counteract the effect of changes on the accuracy of the detector. This process usually occurs when the camera is moving quickly or when it is first switched on, the screen will stutter and display ‘calibrating’ and there may be a ‘clicking’ sound from within the instrument. FAQ Q1: Can a thermal imager see through walls? Thermal imagers create images by capturing the thermal radiation on the surface of objects, and it is unable to see through walls unless there is a sufficient temperature difference behind them. Q2: Can a thermal imager detect mold? The process of mold growth often accompanies the release or absorption of heat, which may lead to changes in the temperature of its surrounding environment. However, since mold itself may not directly emit sufficient thermal radiation to be captured by a thermal imager, we recommend using it as part of a comprehensive mold inspection process that includes visual inspection, humidity testing, and possible air sampling to more accurately identify potential risk points. Q3: How does a thermal imager detect water leaks? Step 1. Selection of Testing Time: It is recommended to test the building after it has been subjected to thermal loads (e.g., after sunlight exposure on a hot, dry, sunny day) because the temperature difference between the leaking area and the normal area will be more pronounced at this time. Step 2. Perform a Water Pressure Test: Use a water pressure gauge to check the water pressure at each faucet and fixture. Utilize a pressurizing device to determine if the water line is maintaining proper pressure. If there is a drop in water pressure, it can help determine if the cold or hot water line is leaking. Step 3. Using Thermal Imager: If the leak is in the hot water line, let the hot water run for 15-30 minutes until the temperature of the water line is visible on the thermal imaging device. Check the location of the leak along the hot water line. If the leak is in the cold water line, pour hot water into the cold water line and wait 15-30 minutes to observe. Q4. Why does the thermal imager occasionally calibrate itself? Thermal imaging cameras are automatically calibrated to changes in ambient temperature to counteract the effect of changes on the accuracy of the detector. This process usually occurs when the camera is moving quickly or when it is first switched on, the screen will stutter and display ‘calibrating’ and there may be a ‘clicking’ sound from within the instrument. Laser Pointer The laser pointer helps you locate the inspected objects in dim environments or small areas. Easy to Tranfer Data Equipped with a USB C to USB A cable. Note 1 : Please contact HSFTOOLS if you need USB C to USB C cable. Note 2 : To transfer data, you need to turn off the cast screen function first. Standard Tripod Hole Designed with standard tripod hole, it's supported to combine with a triple to asstist inspection works. (Tripod is not included)