The EXAxt450 series covers all Conductivity Applications including all special software functions in the standard analyzers to reduce the number of configurations. This results in less inventory and less training needs for users that have multiple Conductivity applications.
Model SC450G is iI
The ISC450 is designed to measure Specific Conductivity by using the Inductive Conductivity method. This method is especially suitable for high conductivity measurements.
|Area Classiffication||Class I Div II||Class I Div II|
|Measureemnt Type||Contacting Conductivity, Resitivity,||Inductive, Torodial, Non-Contacting Conductivity|
|Enclosure Material||Cast Aluminim with chemically resistance coating; polycarbonate cover with polycarbonate flexible windowm||Cast Aluminim with chemically resistance coating; polycarbonate cover with polycarbonate flexible windowm|
|Housing Rating||IP66/ NEMA 4A/ CSA 3S||IP66/ NEMA 4A/ CSA 3S|
|Power Supply||4-Wire 110-256 VAC, Mains Power||4-Wire 110-256 VAC, Mains Power|
The model SC450 is designed to measure specific conductivity with contacting electrodes. This method is proven to offer very high measurement accuracy especially in pure and ultra pure water applications. The SC450 a has self tuning pre-amplifier to eliminate the measuring errors that are associated with cabling or with polarization associated with high conductivities and cell fouling. The integrity of the signal across the electrodes is monitored continuously to activate a call for maintenance or a fail message in the rare occasion that cell fouling would cause erratic readings. The standard SC450 covers almost all Conductivity Applications including all special software functions in the standard analyzers to reduce the number of configurations. This results in less inventory and less training needs for users that have multiple Conductivity applications.
|Input specification||Two or four electrode measurement with square wave excitation, using max. 60 m cable and cell constants from 0.005 to 50.0 cm-1|
|Detection method||Frequency, read-pulse position and reference voltage are dynamically optimized.|
|Input ranges||Conductivity: 0.000 μS/cm to 2000 mS/cm
Minimum: 1 μS/cm (underrange 0.000 μSx C).
Maximum: 200 mS/cm (overrange 2000 mS x C).
Resistivity: 0.0 Ω x cm to 1000 MΩ x cm
Minimum: 5 Ω x cm (underrange 0 Ω/C).
Maximum: 1 MΩ x cm (overrange 1000 MΩ/C).
Temperature: Pt1000: -20 to 250°C (0 to 500°F)
Pt100 and Ni100: -20 to 200°C (0 to 400°F)
NTC 8k55: -10 to 120°C (10 to 250°F)
Pb36 NTC: -20 to 120°C (0 to 250°F)
|Conductivity/Resitivity Accuracy||≤0.5 % of reading|
|Temperature Accuracy||≤0.3°C (≤ 0.4°C for PT100)|
|Step Response||≤4 sec for 90 % (for a 2 decade step)|
|Transmission Signals||Two isolated outputs of 4 to 20 mA DC with common negative. Maximum load 600 Ω. Bi-directional HART digital communication, superimposed on mA 1 (4 to 20 mA) signal. Burn up (21.0 mA) or Burn down (3.6 mA) to signal failure accorded with NAMUR NE43.|
|Temperature compensation||Automatic or manual, for temperature ranges.
Reference temp.: programmable from 0 to 100°C or 30 to 210°F (default 25°C).
|Compensation algorithm||According IEC 60746-3 NaCl tables (default).
Two independent user programmable temperature coefficients, from 0 to 3.5 %/°C (°F) by adjustment or calibration.
Matrix compensation: with conductivity function of concentration and temperature. Choice out of 13 preprogrammed matrixes.
|Display||Graphical Quarter VGA (320 x 240 pixels) LCD with LED backlight and touchscreen.|
|Contact Outputs||Four SPDT relay contacts with display indicators.
Contact outputs configurable for hysteresis and delay time.
|Contact Input||Remote range switching to 10 times the programmed range.|
|Power Supply||85 to 265 V AC ±10 %, 47 to 63 Hz, maximum consumption 10 VA.
9.16 to 30 V DC ±15 %, maximum consumption 10 W.
The ISC450 is designed to measure Specific Conductivity by using the Inductive Conductivity method. This method is especially suitable for high conductivity measurements. The analyzer works with a sensor with two toroidal transformers built in. An AC current induces a voltage in the process sample that results in a current in the sample. The strength of this current is proportional to the conductivity of the sample following Ohm's law.
The EXAxt 450 series builds on the superior functionality of the industry leading Yokogawa EXA series by enhancing the EXA's proven operation and application flexibility. The ISC450 features a unique accuracy and rangeability, which is only possible through superior sensor design and electronic data processing using a self tuning preamplifier with more than 10 sub ranges with automatic zero adjustment at every range change. Accurate concentration measurement requires accurate temperature compensation and the ISC450 offers three compensation methods from default NaCl compensation to user defined MATRIX compensation for electrolytes where the coefficient varies with Temperature and with Concentration.
The EXAxt is highly intelligent and continuously checks the software, hardware and sensor system for irregularities. Not only will these irregularities be signaled through the main display as well as a signal output according Namur NE43, the transmitter will provide adequate instructions how to solve the errors.
Compatible with ISC40 inductive conductivity sensor with integrated temperautre sensors: NTC30k or Pt1000.
|Input Range||Conductivity: 0 to 1999 mS/cm at 25ºC (77°F)
Minimum: 1 µS/cm (at process temperature)
Maximum: 2 S/cm (at process temperature)
Temperature: -20 to 140ºC (0 to 280°F)
|Accuracy Conductivity||≤0.5% reading ± 1.0 µS/cm|
|Accuracy Temperature||≤0.3ºC (0.6ºF)|
|Step Response||≤4 seconds for 90% (for a 2 decade step)|
|Cable Length||Max 60 meters (200 feet). 10 meters (35 feets0 fixed sensor cable + 50 meters (165 feets) WF10 extension cable|
|Transmission Signal||Two isolated output of 4 to 20 mA DC with common negative. Maximum load 600 Ω. Bi-directional HART digital communicaiton, superimposed on mA1 (4 to 20 mA) signal. Burn up (21.0 mA) or burn down (3.6 mA) to signal failure accorded to NAMUR NE43.|
|Contact Output||Four SPDT relay contact with display indicators|
|Contact Input||Remote range switching to 10 times the programmed range|
|Temperature Compensation||Automatic or manual, for temperature ranges.
Reference temp. programmable from 0-100°C or 30-210°F (default 25°C)
|Calibration||Semi-automatic calibration using pre-configured OIML (KCl) standard tables, wiht automatic stabilit check. Manual adjustment to grab sample.|
|Display||Graphical Quarter VGA (320 x 240 pixels) LCD with LED backlight and touch screen|
|Housing||Cast Aluminim housing with chemically resistance coating; Polycarbonate cover with Polycarbonate flexible window.
Protection IP66/ NEMA4X/ CSA Type 3S
|Environment||Ambient Temperature: -20 to 55°C
Humidity: 10 to 90% RH at 40°C (non-condensig)
Ratings: 100 to 240 V AC
Acceptable Range: 90 to 260 V AC
Ratings: 50/60 HZ
Acceptable Range: 50 HZ ± 5%; 60 HZ ± 5%
Power Consumption: 15 VA
Ratings: 12 to 24 V DC
Acceptable Range: 10.8 to 26.4 V DC
Power Consumption: 10 W
Cyanide-bearing wastewater from mining and electroplating facilities and certain types of chemical plants is toxic and must be treated by oxidation with chlorine or chloride to bring the cyanide concentration within regulatory limits.
Industry:Electrical and Electronics
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