8
美國TIF7612測溫儀
TIF7612使用說明:紅外測溫儀測量表面溫度,用戶目標的紅外測溫儀瞄準目標,按下一個按鈕,并讀取溫度顯示。該器件具有一個光學透鏡,收集從對象的輻射的紅外能量,并集中在檢測器上。美國TIF紅外測溫儀將能量轉換成電信號,并將其放大并顯示為溫度讀數。紅外溫度計通過探測紅外頻率的輻射能量的大小來測量溫度。利用這個數據和探測器的實際溫度,溫度計計算出發射能量的表面溫度。
美國TIF7612內置紅外芯片,結構緊湊,重量輕; 新型光學鏡頭,實現精確測量,寬溫度測試范圍; 激光指示器容易鎖定測試目標區,基本參數:
| TIF7612零售價: | ¥750.00 |
|---|---|
| 類型: | 手持式 |
| 適用對象: | 工業物體測溫儀 |
| 測量精度: | ±2% |
| 分辨率: | 9.9~199.9℃ |
| 尺寸: | 175.2*39.0*71.9(mm) |
| 加工定制: | 是 |
| 重量: | 0.179 |
| 測量范圍: | -60~500℃ |
| 規格: | 7612紅外測溫儀 |
| 品牌: | 美國TIF |
美國TIF76系列三款紅外測溫儀參數對比:
| 產品規格 | TIF7610 | TIF7612 | TIF7620 |
紅外測量范圍 | -60~500℃(-76~932℉) | -60~760℃(-76~1400℉) | |
熱電偶測量范圍 | - | -64~1400℃(-83.2~1999℉) | |
精度 物體溫度:59~95℉(15~35℃) 環境溫度:77℉(25℃) | ±1.8℉(±1℃) | ||
精度 物體溫度:-27~932℉(-33~500℃) 環境溫度:73℉±5℉(23℃±3℃) | 讀數±2% | ||
熱電偶精度 | - | 讀數±1% | |
發射率 | 0.95(定) | 可調整(0.01~1) | |
分辨率:14.2~199.9℉(9.9~199.9℃) | 0.1℉/0.1℃ | ||
響應時間 | 0.5秒 | ||
點比率 | 10:1 | 12:1 | 20:1 |
電池壽命 | 18小時 | ||
外形尺寸 | 175.2 X 39.0 X 71.9 mm | ||
重量 | 179g(包括2節“AAA”電池) | ||
美國TIF7612測溫儀廠家為美國TIF,是的鹵素檢漏儀(SF6氣體檢漏儀氣體、制冷劑檢測儀器、氣體泄露定性檢測儀)專業廠家,產品主要應用于電力、汽車、空調制冷等各個行業。
外文參考:
SoC (System-on-a-Chip) Technology - Complete IR design incorporated on a single chip, creating compact and lightweight design.
Innovative optical lens - high accuracy measurements over wide temperature ranges. 12:1 distance to spot (D:S) ratio.
Laser pointer -Simply point at desired target and press the trigger for temperature reading.
External temperature port can extend the temperature up to 1999°F.
High and low pass filters with audible alarms for out of range measurements
Temperature modes - Maximum (MAX), Minimum (MIN), Difference (DIF), & Average (AVG) temperature modes.
Visual low battery indicators; requires two "AAA" batteries.
How Infrared Thermometers Work: To measure a surface temperature, the user aims the IR Thermometer at the target, presses a button, and reads the temperature display. The device has an optical lens that collects the radiated infrared energy from the object and focuses it on the detector. The detector converts the energy into an electrical signal that's amplified and displayed as a temperature reading. An infrared thermometer measures temperature by sensing the magnitude of radiated energy at infrared frequencies. Using this data and the actual temperature of the detector, the thermometer calculates the temperature of the surface that emitted the energy.