PT ANDALAN BANGUN SEJAHTERA

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 HI83300
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Last Updated
22 Feb 2019
Country Origin
American Samoa
Minimum Order
1 UNIT

Specification of

High Efficiency LED Light Source

An LED light source offers superior performance as compared to a tungsten lamp. LEDs have a much higher luminous efficiency, providing more light while using less power. They also produce very little heat, which could otherwise affect the optical components an electronic stability. LEDs are available in a wide array of wavelengths, whereas tungsten lamps are supposed to be white light (all wavelengths of visible light) but actually have a poor blue/violet light output.

High Quality Narrow Band Interference Filters

The narrow band interference filter not only ensure greater wavelength accuracy (+/- 1 nm) but are extremely efficient. The filters used allow up to 95% of the light from the LED to be transmitted as compared to other filters that are only 75% efficient. The higher efficiency allows for a brighter, stronger light source. The end result is higher measurement stability and less wavelength error.

Reference Detector for a Stable Light Source

A beam splitter is used as part of the internal reference system of the HI83300 photometer. The reference detector compensates for any drift due to power fluctuations or ambient temperature changes. Now you can rely on a stable source of light between your blank (zero) measurement and sample measurement.

Large Cuvette Size

The sample cell of the HI83300 fits a round, glass cuvette with a 25 mm path length. Along with the advanced optical components, the larger size of the cuvette greatly reduces errors in rotation from the indexing mark of the cuvettes. The relatively long path length of the sample cuvette allows the light to pass through more of the sample solution, ensuring accurate measurements even in low absorbance samples.

Focusing Lens for Greater Light Yield

Adding a focusing lens to the optical path allows for the collection of all of the light that exits the cuvette and focusing the light on the silicon photo detector. This novel approach to photometric measurements cancels the errors from imperfections and scratches present in the glass cuvette eliminating the need to index the cuvette.

Parameters

*Please note, reagents are not included but can be purchased here.

ParameterRangeResolutionAccuracy (at 25 °C)MethodWavelengthReagent Code
Absorbance0.000 to 4.000 Abs0.001 Abs+/-0.003Abs @ 1.000 Abs
Alkalinity0 to 500 mg/L (as CaCO3 )1 mg/L±5 mg/L ±5% of readingColorimetric Method610 nmHI775-26
Alkalinity, Marine0 to 300 mg/L (as CaCO3 )1 mg/L±5 mg/L ±5% of readingColorimetric Method610 nmHI755-26
Aluminum0.00 to 1.00 mg/L (as Al3+)0.01 mg/L±0.04 mg/L ±4% of readingAdaptation of the aluminon method.525 nmHI93712-01
Ammonia, Low Range0.00 to 3.00 mg/L (as NH3 -N)0.01 mg/L±0.04 mg/L ±4% of readingAdaptation of the ASTM Manual of Water and Environmental Technology, D1426 Nessler method.420 nmHI93700-01
Ammonia, Medium Range 0.00 to10.00 mg/L (as NH3 -N)0.01 mg/L±0.05 mg/L ±5% of readingAdaptation of the ASTM Manual of Water and Environmental Technology, D1426, Nessler method420 nmHI93715-01
Ammonia, High Range 0.0 to 100.0 mg/L (as NH3 -N)0.1 mg/L±0.5 mg/L ±5% of readingAdaptation of the ASTM Manual of Water and Environmental Technology, D1426, Nessler method420 nmHI93733-01
Bromine 0.00 to 8.00 mg/L (as Br2 )0.01 mg/L±0.08 mg/L ±3% of readingAdaptation of the Standard Methods for the Examination of Water and Wastewater, 18th edition, DPD method525 nmHI93716-01
Calcium0 to 400 mg/L (as Ca2+) 1 mg/L ±10 mg/L ±5% of reading Adaptation of the Oxalate method466nm HI937521-01
Calclium, Marine 200 to 600 mg/L (as Ca2+) 1 mg/L ±6% of reading Adaptation of the Zincon method610 nm HI758-26
Chloride 0.0 to 20.0 mg/L (as Cl) 0.1 mg/L ±0.5 mg/L ±6% of reading Adaptation of the mercury(II) thiocyanate method466 nm HI93753-01
Chlorine Dioxide 0.00 to 2.00 mg/L (as ClO2 ) 0.01 mg/L ±0.10 mg/L ±5% of reading Adaptation of the Chlorophenol Red method575 nm HI93738-01
Chlorine Dioxide, Rapid Method 0.00 to 2.00 mg/L (as ClO2 ) 0.01 mg/L ±0.10 mg/L ±5% of reading Adapted from Standard Methods for the Examination of Water and Wastewater,18 ed., 4500 ClO2 D.525 nm HI96779-01
Chlorine, Free 0.00 to 5.00 mg/L (as Cl2 ) 0.01 mg/L ±0.03 mg/L ±3% of reading Adaptation of the EPA DPD method 330.5525 nm HI93701-01
Chlorine, Free Ultra Low Range 0.000 to 0.500 mg/L (as Cl2 ) 0.001 mg/ ±0.020 mg/L ±3% of reading Adaptation of the Standard Method 4500-Cl G525 nm HI95762-01
Chlorine, Total 0.00 to 5.00 mg/L (as Cl2 ) 0.01 mg/L ±0.03 mg/L ±3% of reading Adaptation of the EPA DPD method 330.5 525 nmHI93711-01
Chlorine, Total Ultra Low Range 0.000 to 0.500 mg/L (as Cl2 ) 0.001 mg/L ±0.020 mg/L ±3% of reading Adaptation of the EPA recommended Method 330.5 525 nmHI95761-01
Chlorine, Total Ultra High Range 0 to 500 mg/L (as Cl2 ) 1 mg/L ±3 mg/L ±3% of reading Adaptation of the Standard Methods for Examination of Water and Wastewater, 20th edition, 4500-Cl525 nm HI95771-01
Chromium (VI), Low Range 0 to 300 µg/L (as Cr(VI)) 1 µg/L ±10 µg/L ±4% of reading Adaptation of the ASTM Manual of Water and Environmental Technology, D1687 Diphenylcarbohydrazide method525 nm HI93749-01
Chromium (VI), High Range 0 to 1000 µg/L (as Cr(VI)) 1 µg/L ±5 µg/L ±4% of reading at 25 °C Adaptation of the ASTM Manual of Water and Environmental Technology, D1687, Diphenylcarbohydrazide method 525 nmHI93723-01
Color of Water 0 to 500 PCU (Platinum Cobalt Units) 1 PCU ±10 PCU ±5% of reading Adaptation of the Standard Methods for the Examination of Water and Wastewater, 18th edition, Colorimetric Platinum Cobalt method420 nm
Copper, Low Range 0.000 to 1.500 mg/L (as Cu) 0.001 mg/L ±0.010 mg/L ±5% of reading Adaptation of the EPA method575 nm HI95747-01
Copper, High Range 0.00 to 5.00 mg/L (as Cu) 0.01 mg/L ±0.02 mg/L ±4% of reading Adaptation of the EPA method 575 nmHI93702-01
Cyanuric Acid 0 to 80 mg/L (as CYA) 1 mg/L ±1 mg/L ±15% of reading Adaptation of the turbidimetric method 525 nmHI93722-01
Fluoride, Low Range 0.00 to 2.00 mg/L (as F) 0.01 mg/L ±0.03 mg/L ±3% of reading Adaptation of the Standard Methods for the Examination of Water and Wastewater, 18th edition, SPADNS method575 nm HI93729-01
Fluoride, High Range 0.0 to 20.0 mg/L (as F) 0.1 mg/L ±0.5 mg/L ±3% of reading Adaptation of the Standard Methods for the Examination of Water and Wastewater, 18th edition, SPADNS method 575 nmHI93739-01
Hardness, Calcium 0.00 to 2.70 mg/L (as CaCO3 ) 0.01 mg/L ±0.11 mg/L ±5% of reading Adaptation of the Standard Methods for the Examination of Water and Wastewater, 18th edition, Calmagite method 525 nmHI93720-01
Hardness, Magensium 0.00 to 2.00 mg/L (CaCO3 ) 0.01 mg/L ±0.11 mg/L ±5% of reading Adaptation of the Standard Methods for the Examination of Water and Wastewater, 18th edition, EDTA Colorimetric method 525 nmHI93719-01
Hardness, Total Low Range 0 to 250 mg/L (as CaCO3 ) 1 mg/L ±5 mg/L ±4% of reading Adaptation of the EPA recommended method 130.1466 nm HI93735-00
Hardness, Total Medium Range 200 to 500 mg/L (as CaCO3 ) 1 mg/L ±7 mg/L ±3% of reading Adaptation of the EPA recommended method 130.1466 nm HI93735-01
Hardness, Total High Range 400 to 750 mg/L (as CaCO3 ) 1 mg/L ±10 mg/L ±2% of reading Adaptation of the EPA recommended method 130.1 466 nmHI93735-02
Hydrazine 0 to 400 µg/L (as N2H4 ) 1 µg/L ±4% of full scale reading Adaptation of the ASTM Manual of Water and Environmental Technology, method D1385, p-Dimethylaminobenzaldehyde method 466 nmHI93704-01
Iodine 0.0 to 12.5 mg/L (as I2) 0.1 mg/L ±0.1 mg/L ±5% of reading Adaptation of the Standard Methods for the Examination of Water and Wastewater, 18th edition, DPD method 525 nmHI93718-01
Iron, Low Range 0.000 to 1.600 mg/L (as Fe) 0.001 mg/L ±0.010 mg/L ±8% of reading Adaptation of the TPTZ Method 575 nmHI93746-01
Iron, High Range 0.00 to 5.00 mg/L (as Fe) 0.01 mg/L ±0.04 mg/L ±2% of reading Adaptation of the EPA Phenanthroline method 315B, for natural and treated waters 525 nmHI93721-01
Iron (II) - Ferrous 0.00 to 6.00 mg/L Fe2+ ) 0.01 mg/L ±0.10 mg/L ±2% of reading Adaptation of Standard Methods for the Examination of Water and Wastewater, 3500-Fe B., Phenanthroline Method525 nm HI96776-01
Iron (II & III) – Ferrous & Ferric 0.00 to 6.00 mg/L Fe 0.01 mg/L ±0.10 mg/L ±2% of reading Adaptation of Standard Methods for the Examination of Water and Wastewater, 3500-Fe B., Phenanthroline Method525 nm HI96777-01
Magnesium 0 to 150 mg/L (as Mg2+) 1 mg/L ±5 mg/L ±3% of reading Adaptation of the Calmagite method 466 nmHI937520-01
Manganese, Low Range 0 to 300 µg/L (as Mn) 1 µg/L ±10 µg/L ±3% of reading Adaptation of the PAN Method 575 nmHI93748-01
Manganese, High Range 0.0 to 20.0 mg/L (as Mn) 0.1 mg/L ±0.2 mg/L ±3% of reading Adaptation of the Standard Methods for the Examination of Water and Wastewater, 18th edition, Periodate method525 nm HI93709-01
Molybdenum 0.0 to 40.0 mg/L (as Mo6+) 0.1 mg/L ±0.3 mg/L ±5% of reading Adaptation of the mercaptoacetic acid method 420 nmHI93730-01
Nickel, Low Range 0.000 to 1.000 mg/L (as Ni) 0.001 mg/L ±0.010 mg/L ±7% of reading Adaptation of the PAN method 575 nmHI93740-01
Nickel, High Range 0.00 to 7.00 g/L (as Ni) 0.01 g/L ±0.07g/L ±4% of reading Adaptation of the photometric method 575 nmHI93726-01
Nitrate 0.0 to 30.0 mg/L (as NO3 - N) 0.1 mg/L ±0.5 mg/L ±10% of reading Adaptation of the cadmium reduction method525 nm HI93728-01
Nitrite, Marine Ultra Low Range 0 to 200 µg/L (as N02-N) 1 µg/L ±10 µg/L ±4% of reading Adaptation of the EPA Diazotization method 354.1 466 nmHI764-25
Nitrie, Low Range 0 to 600 µg/L (as NO2-N) 1 µg/L ±20 µg/L ±4% of reading Adaptation of the EPA Diazotization method 354.1 466 nmHI93707-01
Nitrite, High Range 0 to 150 mg/L (as NO2-) 1 mg/L ±4 mg/L ±4% of reading Adaptation of the Ferrous Sulfate method 575 nmHI93708-01
Oxygen, Dissolved 0.0 to 10.0 mg/L (as O2 ) 0.1 mg/L ±0.4 mg/L ±3% of reading Adaptation of the Standard Methods for the Examination of Water and Wastewater, 18th edition, Azide modified Winkler method 420 nmHI93732-01
Oxygen Scavengers (Carbohydrazide) 0.00 to 1.50 mg/L (as Carbohydrazide) 0.01 mg/L ±0.02 mg/L ±3% of reading Adaptation of the iron reduction method 575 nmHI96773-01
Oxygen Scavengers (Diethylhydroxylamine)(DEHA) 0 to 1000 µg/L (as DEHA) 1 µg/L ±5 µg/L ±5% of reading Adaptation of the iron reduction method 575 nmHI96773-01
Oxygen Scavengers (Hydroquinone) 0.00 to 2.50 mg/L (as Hydroquinone) 0.01 mg/L ±0.04 mg/L ±3% of reading Adaptation of the iron reduction method 575 nmHI96773-01
Oxygen Scavengers (Iso-ascorbic Acid) 0.00 to 4.50 mg/L (as Iso-ascorbic acid) 0.01 mg/L ±0.03 mg/L ±3 % of reading Adaptation of the iron reduction method 575 nmHI96773-01
Ozone 0.00 to 2.00 mg/L (as O3 ) 0.01 mg/L ±0.02 mg/L ±3% of reading Colorimetric DPD Method 525 nmHI93757-01
pH 6.5 to 8.5 pH 0.1 pH ±0.1 pH Adaptation of the Phenol Red method 525 nmHI93710-01
Phosphate, Marine Ultr Low Range 0 to 200 µg/L (as P) 1 µg/L ±5 µg/L ±5% of reading Adaptation of the Standard Methods for the Examination of Water and Wastewater, 20th edition, Ascorbic Acid method 610 nmHI736-25
Phosphate, Low Range 0.00 to 2.50 mg/L (as PO4 3-) 0.01 mg/L ±0.04 mg/L ±4% of reading Adaptation of the Ascorbic Acid method 610 nmHI93713-01
Phosphate, High Range 0.0 to 30.0 mg/L (as PO4 3-) 0.1 mg/L ±1.0 mg/L ±4% of reading Adaptation of the Standard Methods for the Examination of Water and Wastewater, 18th edition, Amino Acid method 525 nmHI93717-01
Potassium 0.0 to 20.0 mg/L (as K) 0.1 mg/L ±3.0 mg/L ±7% of reading Adaptation of the Turbidimetric Tetraphenylborate method 466 nmHI93750-01
Silica, Low Range 0.00 to 2.00 mg/L (as SiO2 ) 0.01 mg/L ±0.03 mg/L ±3% of reading Adaptation of the ASTM Manual of Water and Environmental Technology, D859, Heteropoly Molybdenum Blue method 610 nmHI93705-01
Silica, High Range 0 to 200 mg/L (as SiO2 ) 1 mg/L ±1 mg/L ±5% of reading Adaptation of the USEPA Method 370.1 for drinking, surface and saline waters, domestic and industrial wastes and Standard Method 4500-SiO2 466 nmHI96770-01
Silver 0.000 to 1.000 mg/L (as Ag) 0.001 mg/L ±0.020 mg/L ±5% of reading Adaptation of the PAN method 575 nmHI93737-01
Sulfate 0 to 150 mg/L (as SO42-) 1 mg/L ±5 mg/L ±3% of reading Sulfate is precipitated with barium chloride crystals 466 nmHI93751-01
Surfactants, Anionic 0.00 to 3.50 mg/L (as SDBS) 0.01 mg/L ±0.04 mg/L ±3% of reading Adaptation of the USEPA method 425.1 and Standard Methods for the Examination of Water and Wastewater, 20th edition, 5540C, Anionic Surfactants as MBAS 610 nmHI95769-01
Zinc 0.00 to 3.00 mg/L (as Zn) 0.01 mg/L ±0.03 mg/L ±3% of reading Adaptation of the Standard Methods for the Examination of Water and Wastewater, 18th edition, Zincon method 575 nmHI93731-01

** Reagents for 50 tests.† Unless noted otherwise, all reagent codes ending with -01 are for 100 tests.

General Meter

Wavelength Accuracy±1 nm
Light Source5 LEDs with 420 nm, 466 nm, 525 nm, 575 nm, and 610 nm narrow band interference filters
Spectral bandwidth8 nm
Input Channels1 pH electrode input and 5 photometer wavelengths
pH Electrodedigital pH electrode (not included)
Logging Typelog on demand with user name and sample ID optional input
Logging Memory1000 readings
ConnectivityUSB-A host for flash drive; micro-USB-B for power and computer connectivity
GLPcalibration data for connected pH electrode
Display128 x 64 pixel LCD with backlight
Battery Type / Life3.7 VDC Li-polymer rechargeable battery / >500 photometric measurements or 50 hours of continuous pH measurement
Power Supply5 VDC USB 2.0 power adapter with USB-A to micro-USB-B cable (included)
Environment0 to 50.0 oC (32 to 122.0 oF); 0 to 95% RH, non-condensing
Dimensions206 x 177 x 97 mm (8.1 x 7.0 x 3.8")
Weight1.0 kg (2.2 lbs.)
Photometer/Colorimeter Light Detectorsilicon photodetector
Cuvette Typeround, 24.6 mm
Number of Methods128 max.
Ordering InformationHI83300 is supplied with sample cuvettes and caps (4 ea.), cloth for wiping cuvettes, USB to micro USB cable connector, power adapter and instruction manual.

*Please note, reagents are not included but can be purchased here.

Untuk keterangan lebih lanjut, silahkan download PDF ini :

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