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Fiberoptic temperature sensors offer reliability and accuracy
LumiTherm¢â fiberoptic thermometers provide accu-rate and reliable measurements where others can't. The units can be used in high electromagnetic interference (EMI) environments, especially suitable for monitoring high voltage transformers and microwave processes. Fiber optic cladding makes the probes inert and safe to use in harsh chemical environments such as refineries, chemistry labs, mining operations, and pharmaceutical manufacturing. Probes are autoclaveable and instru-ment is self-calibrating. The LumiTherm¢â 500 is fully calibrated at the factory to NIST traceable standards. Calibration data for each probe is stored in individual Calibration Data Modules that are shipped with the probe. High stability, minimum drift.
Benefits
- High repeatability and accuracy of data - Expedites time spent from analysis to discovery of results - Saves time during processing and allows investigator to change conditions if needed - Flexibility in use of unit for many appli-cations - Ideal for microwave/RF or MRI envi-ronments - Probes can be reused saving future expenditures |
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Pharmaceutical & Biomedical |
- Real Time data logging & sample prep monitoring
- Pharmacokinetic studies
- Cardiac studies monitoring plaque inflammation
- Map margins of metastasis of tumors
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RF and Microwave Processing/ MRI |
- FMRI studies and cryogenic or laser prostate
- Drying of pharmaceuticals and waste slurries
- Curing of composites, resins and petroleum
- Food processing, packaging and testing
- Monitoring e-fields during processing
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High Spark Hazard Processes |
- Operational maintenance of hydro-generators
- Battery manufacturing and testing
- Propellant extrusion and packaging
- Chemical/Petroleum processing
- Corrosive/electrochemical production control
- Nuclear power plant monitoring
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Electrical Power Generation |
- Hot spot monitoring in generators and transformers
- Monitoring of winding temperatures
- Diagnostic testing of high voltage components
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| | | SPECIFICATIONS — IP500
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Range |
-50 to 400 ¡ÆC (-58 to 752 ¡ÆF) |
| Accuracy |
¡¾ 0.1 ¡ÆC |
| Repeatability |
¡¾ 0.2 ¡ÆC |
| Precision |
Up to 0.01 ¡ÆC |
| NIST Traceable |
Absolute accuracy ¡¾ 1.0 ¡ÆC |
| Method |
Fluordecay |
SPECIFICATIONS — IP104
|
Range |
-20 to 80 ¡ÆC (-5 to 175 ¡ÆF) |
| Accuracy |
¡¾0.1 ¡ÆC |
| Precision |
0.01 ¡ÆC (FAST mode) |
| 0.001 ¡ÆC (HI-RES mode) |
| NIST Traceable |
Absolute accuracy ¡¾1.0 ¡ÆC |
| Method |
Quartz Oscillator |
| Applications |
Calorimetry and phase change assays |
| CAT NO. |
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MODEL |
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DEscRIPTION |
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AVAIL |
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PRICE |
| IP104 |
|
¡¡ |
¡¡ |
LumiTherm¢â 104 (Optical) |
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Yes |
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10,534,050 |
| Four Channel high precision temperature instrument. LED display, RS232 port, analog output, one fiber optic holder, V1 interface driver for LabView, user's manual and case Reads temperature -20-80¡ÆC, Programmable unit with alarms for max and min. temp. |
| IP1044 |
|
¡¡ |
¡¡ |
LumiTherm¢â 104 (Electron) |
|
Yes |
|
11,016,000 |
| Four Channel high precision temperature instrument. LED display, RS232 port, analog output, one fiber optic holder, V1 interface driver for LabView, user's manual and case, Reads temperature -20-80¡ÆC, Programmable unit with alarms for max and min. temp. |
| IP1041 |
|
¡¡ |
¡¡ |
LT104 optical probe |
|
Yes |
|
826,200 |
| IP1042 |
|
¡¡ |
¡¡ |
LT104 electronic probe |
|
Yes |
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642,600 |
| IP1043 |
|
¡¡ |
¡¡ |
FiberOptic Probe Holder |
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Yes |
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229,500 |
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