There are two basic sensor styles used for measuring Conductivity: Contacting and Inductive (Toroidal, Electrodeless).
When Contacting Sensors are used, the conductivity is measured by applying an alternating electrical current to the sensor electrodes (that together make up the cell constant) immersed in a solution and measuring the resulting voltage. The solution acts as the electrical conductor between the sensor electrodes.
With Inductive Conductivity (also called Toroidal or Electrodeless), the sensing elements (electrode coils) of an inductive sensor do not come in direct contact with the process. These two matched (identical) coils are encapsulated in PEEK (or Teflon) protecting them from the adverse effects of the process.
There is only one cell factor (constant) for the ISC40 Inductive Sensor. It covers nearly the entire conductivity measurement range ~ 50-2,000,000 µS/cm. Only on the low end (below 50 µS) does the accuracy of the sensor suffer.
Because the ISC40 Inductive sensor is virtually maintenance free; it is the first choice for any application. If the ISC40 cannot be used then it is recommended to use the 4-electrode design, model SC42 large bore sensor.
Details
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| Model Code | ISC40 | SC42 Large Bore | ||
|---|---|---|---|---|
| Cell Constants | NA | NA | 10.0/cm | |
| Ranges | 1-20,000,000 µS/cm | 1-20,000,000 µS/cm | 20.0-20,000,000 µS/cm | |
| Temperature Element | Pt1000 or 30K Thermistor | Pt1000 or 30K Thermistor | Pt1000 | |
| Pressure Rating | Up to 20 bar/290 PSIG *Depending on installation* | 10 bar/142 PSIG @ 20°C/36°F; 5 bar/71 PSIG @ 100°C/212°F | 10 bar/142 PSIG | 2 bar/28.5 PSIG |
| Maximum Temperature | -20°C/-4°F to 130°C/266°F | -20°C/-4°F to 100°C/212°F | 110°C/230°F | |
| Installation Connections | Flange; Tri-Clamp; Flow Thru, NPT, Retractable | Flange; Tri-Clamp; Flow Thru, NPT, Retractable | Requires FD40, FS40 or FF40 Holder | |
| Integral Cable | YES | YES | NO | |
| Materials Of Construction | PEEK | PFA (Teflon) | EPOXY; PVDF (Kynar) | PTFE (Teflon) |
| Design Style | Inductive (Torodial or Electrodeless) | Inductive (Torodial or Electrodeless) | 4-Electrode | |
Ressources
In the past, the boiler feed tank systems in sugar factories had to be checked several times a day to make sure there were no sugar solution leaks. This was a very laborious process and, as continuous monitoring was not possible, monitoring results were not reliable. When a leak occurred, recovery operations were very costly and time-consuming. (AN10D01K01-02E)
Downloads
Technique Information
Certificats
- EU_UK Declaration of Conformity ISC40G_ISC40S 2022-10-03 (202 KB)
- FM Certificate of Conformity FM21US0083X (330 KB)
- FM Certificate of Compliance FM22CA0012X (311 KB)
- CAN/CSA Certificate of Compliance Supplement 70037798 (66 KB)
- CAN/CSA Certificate of Compliance 2447837 (39 KB)
- EU_UK Declaration of conformity SC42 2022-10-03 (158 KB)
- CAN/CSA Certificate of Compliance 70037798 (77 KB)
- CAN/CSA Certificate of Compliance 70037798 (77 KB)
- FLXA21 with ISC40S RINA type approval ELE482021CS/001 (621 KB)
- Certificate of Conformity IECEx ISC40S (521 KB)
- Certificate of Compliance CSA ISC40S (77 KB)
- Certificate of Compliance FM ISC40S (61 KB)
- Certificate EC-type Examination ATEX ISC40S (537 KB)
- ATEX ISC40 11ATEX0063X Issue 2 (2.3 MB)
- IECEx for ISC40 DEK 11.0028X-Issue 1 (486 KB)
- FM certificate of conformity FM21US0083X (328 KB)
- CAN/CSA certificate of confirmity FM22CA0012X (309 KB)
- ATEX ISC40 11ATEX0063X-Issue 1
- IECEx for ISC40 DEK 11.0028X-Issue 0
- EAC certificate for sensors (1.8 MB)
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