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高級現場參考溫度計溫度校正器

Advanced field reference thermometer / temperature calibrator 型號:THERMYS 150
THERMYS 150 是一款一體化高精度記錄型現場基準溫度計,適用於熱電偶(14 種)、電阻探頭(12 種)和熱敏電阻,精度高達 0.005% RDG。
  • HERMYS 150是一款一體化高精度記錄溫度計/溫度校正器,適用於熱電偶(14種),電阻探頭(12種)和熱敏電阻,具有高精度:

    • 熱電偶:RDG高達0.005%。
    • RTD:RDG高達0.006%。
    • 熱敏電阻:RDG高達0.006%。

    它專為所有行業的現場和實驗室高級溫度維護和測試台使用而設計。

    • 同時測量和發射溫度(輸入/輸出)。
    • 雙通道同時測量,用於對比校正(IN / IN)。

    第二個通道可用於溫度產生或測量。 當用作雙輸入溫度計時,THERMYS 150是溫度比較校正和差分測量的理想工具。 當第二個通道用作輸出時,儀器可用於控制溫度記錄儀,指示器,手持式溫度計。

    使用這種用戶友好型儀器,可在整個過程鏈中快速執行校正任務。 900 克記錄式製程校正器可在一週內攜帶到現場,設備中儲存有 10 個校正程序。 將探頭連接到儀器(Easy connect system®)後執行程序,並儲存結果,以便在現場進行簡單快速的校正。 回到辦公室後,您可以將資料上傳到電腦上,以便使用專用校正軟體 DATACAL 簽發客製化校正證書。

    THERMYS 150 提供擴展功能(溫度模擬,縮放,步驟,合成器,統計功能......)和審計跟踪,符合21 CFR Part 11和NADCAP熱處理標準,使高級數據利用和完整數據可追溯性變 得更加容易。
    IP 54,完全由antichoc橡膠皮套保護,THERMYS 150集成了“easyconnect”端子和寬背光顯示幕,使其易於在任何嚴苛或黑暗條件下使用。THERMYS 150 在與特定電纜(請參閱 ACL600)連接時,也能驅動水浴槽和乾燥塊。

    易於連接的系統

    只需按下端子頂部並插入最大直徑為3 mm或10 AWG的電線和補償熱電偶連接器即可連接探頭。

    導線緊固在兩塊黃銅板之間,確保熱穩定性,並為熱電偶提供非常好的冷端補償。

    該系統還可以在終端頂部連接4 mm香蕉插頭和安全連接器。

  • 溫度@ 23°C±5°C時的規格和性能

    不確定度以讀數百分比(THERMYS 150顯示)+固定值給出。

    電阻探針:測量和類比

    2線,3線或4線電阻探頭測量:自動識別連接線數,螢幕上顯示
    4線安裝探頭的準確度考慮所用
    溫度感測器的特殊誤差和實施條件
    允許的測量電流:0.01 mA至1 mA
    在模擬模式下,給出1 mA測量電流(Pt50 / 100,Ni100 / 120,Cu10 / 50)或0.1 mA(Pt200 / 500/1000,Ni1000)的規格
    建立時間:<1ms用於類比(快速模擬)發射器)
    溫度係數:<精度的10%/°C

    熱電偶:測量和類比

    熱電偶:PlatineL,Mo,NiMo / NiCo,G,D,L,C:有關規格,請參閱使用說明書(可根據要求提供)。
    精度參考@ 0°C。
    使用內部參考結(B雙除外)時,在0°C時額外增加0.2°C的不確定度。
    可以通過程式設計冷端定位來選擇(熱電偶B除外):外部溫度為0°C,內部(儀器端子的溫度補償)或手動輸入。
    溫度係數:<10%精度/°C
    顯示單位:°C和F.

    熱敏電阻:測量
    通過集成50千歐姆範圍和Steinhart - Hart方程,可以將熱敏電阻輸入THERMYS 150並進行測試。
    Steinhart-hart方程如下:

    1/3T= A + B (ln(R)) + C(ln(R))

    其中:A,B和C通常根據0°C,25°C和70°C的溫度計算。

    熱敏電阻:類比
    使用Steinhart-hart方程類比高達3600歐姆的熱敏電阻

  • THERMYS 150 is an all-in-one high accurate documenting thermometer / temperature calibrator for thermocouples (14 types), resistive probes (12 types) and thermistors with a high accuracy:

    • Thermocouples: Up to 0.005% RDG
    • RTDs: Up to 0.006% RDG
    • Thermistors: Up to 0.006% RDG

    It is designed for field and lab use for advanced temperature maintenance and use on test bench in all industries.

    • Simultaneous measurement and emission of temperature (IN / OUT)
    • Simultaneous measurement over two channels for comparison calibration (IN / IN)

    The second channel can be used either for temperature generation or measurement. When used as a dual input thermometer, THERMYS 150 is the perfect tool for temperature comparison calibration and differential measurement. When the second channel is used as an output, the instrument can be used to control temperature recorders, indicators, handheld thermometers.

    Using this user-friendly instrument, calibration tasks can be quickly carried out over the whole process chain. Take the 900 g documenting process calibrator to the field with you during the whole week with 10 calibration procedures stored in the device. Run the procedure after connecting the probes to the instrument (Easy connect system®) and save the results for onsite easy and quick calibration. Back to the office, you can then upload the data on a computer in order to issue customized calibration certificates with dedicated calibration software DATACAL.

    Providing extended functionalities (temperature simulation, scaling, steps, synthesizer, statistical functions…) and audit trails, THERMYS 150 complies with both 21 CFR Part 11 and NADCAP Heat Treatment standards and makes advanced data exploitation and full data traceability easier.

    IP 54, fully protected by an antichoc rubber holster, THERMYS 150 integrates "easyconnect" terminals and a wide backlite display that makes it easy to use in any severe or dark conditions.

    THERMYS 150 has also the capability to drive baths and dry-blocks when associated with the specific cable (ref. ACL600).

    Easy connection system

    Connect your probes by simply pushing on the terminal top and insert wires of up to 3 mm or 10 AWG diameter and compensated thermocouple connectors.

    Wires are held tight between two brass plates ensuring thermal stability and a very good cold junction compensation for thermocouples.

    This system also enables 4 mm banana plugs and security connectors to be connected on the terminal top.

  • Specifications and performances in temperature @23°C ±5°C
    Uncertainty is given in % of reading (THERMYS 150 display) + fixed value.

    Resistive probes: Measurement and simulation

    Resistive probes measurements in 2, 3 or 4 wires: automatic recognition of number of connected wires, with indication on screen
    Accuracies are given for 4-wire mounted probes
    Take into account particular error of temperature sensor used and implementation conditions
    Admissible measuring current: 0.01 mA to 1 mA
    In simulation mode, specifications given for 1 mA measuring current (Pt50 / 100, Ni100 / 120, Cu10 / 50) or 0.1 mA (Pt200 / 500 / 1000, Ni1000)
    Establishing time:  <1ms for simulation (simulation on quick transmitters)
    Temperature coefficient: < 10% of accuracy /°C

    Thermocouples: Measurement and simulation

    Thermocouples: PlatineL, Mo, NiMo/NiCo, G, D, L, C: For specifications, refer to the instruction manual (Available on request)
    Accuracy is given for reference @ 0°C.
    When using the internal reference junction (except couple B) add an additional uncertainty of 0.2 °C at 0 °C.
    It is possible (thermocouple B excepted) to choose by programming the cold junction localization: External at 0°C, internal (temperature compensation of instrument’s terminals) or manually entered.
    Temperature coefficient: <10% of accuracy /°C
    Display unit: °C and F.

    CALYS 150_Mesure de thermistances_FR

    Thermistors: Measurement
    With 50 Kohms range and Steinhart – Hart equation integrated, thermistors can be entered into THERMYS 150 and tested.
    Steinhart-hart equation is as follows:

    1/3T= A + B (ln(R)) + C(ln(R))

    Where: A, B and C are usually calculated according to temperature at 0°C, 25°C and 70°C

    Thermistors: Simulation
    Simulation of thermistors up to 3600 ohms using Steinhart-hart equation