HI83399Hanado parameter moisture analyzerAdopting a carefully designed optical system, utilizing LEDs, narrowband interference filters, focusing lenses, and silicon photodetectors and reference detectors for absorbance measurement, to maintain a consistent light source and ensure accurate and reproducible photometric readings every time.
Added electrode method for acidity determination and measurement indicators50project77One water quality parameter, built-in temperature sensor can quickly and accurately measure temperature, and quickly perform automatic temperature compensation. Large capacity data storage, reaching1000One reading storage, providing twoUSBPorts are used to transfer data to flash drives or computers and serve as power sources for instrument hosts. In order to increase convenience and portability, the measuring instrument is built-in3.7 VDCRechargeable lithium battery, convenient for users to quickly measure on-site.Digital acidity pH electrode input, with a built-in microchip inside the probe that can store all calibration information. Store calibration information in the digital acidity pH electrode, so there is no need to recalibrate.
LEDHigh quality light source system LEDCompared with traditional tungsten lamps and other light sources, light sources have higher performance and luminous efficiency, and can provide maximum and stable light sources with less energy,LEDThe self generated heat can be ignored, as higher heat can affect the stability of electronic products.
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High quality optical filter 8 nmNarrowband interference filter, precise to±1 nm,Increased absorbance25%,Improved optical filters can ensure higher wavelength accuracy and allow for brighter, stronger signals to be received, higher measurement stability, and less wavelength error, ensuring measurement accuracy and precision.
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Reference Detector The internal reference system can compensate for any drift caused by battery voltage fluctuations or environmental temperature changes through automatic adjustmentLEDThe voltage is used to achieve consistent and stable light source output, enabling fast and stable readings between blank (zero) measurements and sample measurements. |
CAL Check ™ function Hannawell-designedCAL Check ™Function, allowing the use of NIST traceable standards for instrument performance validation and calibration;CAL Check ™NISTCurve calibration group, used to simulate specific absorbance values for each wavelength to verify the accuracy of subsequent readings.CAL Check ™(CALThe screen guides the user through the verification process and user calibration step by step. |
Stable and efficient light source setting High quality concave focusing lenses can collect all the light transmitted through the glass cuvette, reducing errors caused by defects and scratches in the glass cuvette, and minimizing errors and reading deviations caused by defects in the glass cuvette. |
Measurement project |
Measurement indicators42project88A water quality parameter |
Filter bandwidth |
8 nm ±1.0 nm |
Light source mode |
Silicon photodetector, narrowband interference filterLED @ 420 nm、 466 nm、525 nm、575 nmand610 nm |
Channel |
1individualpHElectrode input and5A photometer wavelength |
aciditypHconfiguration |
3.5mmInterface specific aciditypHElectrode, not included as standard, [click to select acidity pH electrode] |
data management |
Data storage: 1000 USB-AUsed for flash drives;micro-USB-BUsed for power and computer connection |
Display Settings |
LCD 128 x 64Pixel with backlight |
Power Mode |
built-in3.7 VDCRechargeable lithium batteryAC230/5 VDC USB 2.0Power adapter, withUSB-Atomicro-USB-Bcable |
application environment |
0 to 50.0 o C(32 to 122.0 o F);relative humidity0 to 95%,No condensation |
Dimension |
Host size:206 x 177 x 97 mm (8.1 x 7.0 x 3.8'),Weight:1.0 kg (2.2 lbs.) |
HI83399Hanado parameter moisture analyzer:Host, standard does not include measurement reagents and acidity electrodes and electrode brackets, HI731555 glass colorimetric dish set (6 sets) and HI731333N glass colorimetric dish set (4 sets), HI colorimetric dish adapter, HI920015 USB custom data transmission cable, HI75110/230 custom USB2.0 power adapter [specification: DC5V], Chinese and English user manual
【TipsFor the convenience of instrument storage and quick on-site operation, it is recommended to order HI customized carrying cases; To ensure the accuracy of the instrument, it is recommended to purchase and regularly use the HI83399-11NIST measurement curve calibration kit to calibrate the instrument and ensure that it is in the best performance state
Standard value @ 25 º C: 0nm, 420nm, 466nm, 525nm, 575nm, 610nm, easy and fast calibration of HI83399 COD multi parameter photometer with built-in six wavelength absorbance standard curve
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HI83399-11 Customized six wavelength absorbance NIST curve calibration group |
Measurement project parameters |
Measurement Range |
Resolution Resolution |
Accuracy @ 25 º C |
Wavelength |
Measurement Method |
Reagents and prediction frequency |
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Ammonia nitrogenLR |
0.00 to 3.00 mg/L NH3-N |
0.01 mg/L |
reading±4%±0.04 mg/L |
LED@420nm |
ASTM D1426-93, Nessler |
HI93700-01[100 times] |
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Ammonia nitrogenLR |
0.00 to 3.00 mg/L NH3-N |
0.01 mg/L |
reading±5%Or ± 0.10 mg/L |
LED@420nm |
ASTM D1426-93, Nessler |
HI93764A-2525 times |
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Ammonia nitrogenHR |
0.0 to 100.0 mg/L NH3-N |
0.1 mg/L |
reading±5%Or ± 1 mg/L |
LED@420nm |
ASTM D1426-93, Nessler |
HI93764B-2525 times |
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bromine |
0.00 to 8.00 mg/L Br2 |
0.01 mg/L |
reading±3%±0.05 mg/L |
LED@525nm |
Applicable water and wastewater standard methods,auxiliary word for ordinal numbers18edition |
HI93716-01[50 times] |
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Chlorine dioxide [fast] |
0.00 to 2.00 mg/L CO2 |
0.01 mg/L |
reading±5%±0.10 mg/L |
LED@575nm |
Applicable water and wastewater standard methods,auxiliary word for ordinal numbers18Version4500 |
HI96779-01[100 times] |
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Residual chlorineFree chlorine |
0.00 to 5.00 mg/L CI2 |
0.01 mg/L |
reading±3%±0.03 mg/L |
LED@525nm |
ReferenceUSEPA method 330.5, DPDmethod Adaptation of the EPA DPD method 330.5 |
HI93701-F300 times |
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Residual chlorineFree chlorine |
0.000 to 0.500 mg/L CI2 |
0.001 mg/L |
reading±3%±0.020 mg/L |
LED@525nm |
Adapt to standard methods4500-Cl G. Adaptation of the Standard Method 4500-Cl G. |
HI95762-01[100 times] |
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Total chlorineLR Chlorine, Total |
0.00 to 5.00 mg/L CI2 |
0.01 mg/L |
reading±3%±0.03 mg/L |
LED@525nm |
ReferenceUSEPA 330.5method, DPDmethod Adaptation of the EPA DPD method 330.5 |
HI93711-T300 times |
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calcium hardness |
0.00 to 2.70 mg/L CaCO3 |
0.01 mg/L |
reading±5%±0.11 mg/L |
LED@525nm |
Applicable water and wastewater standard methods,auxiliary word for ordinal numbers18edition |
HI93720-01[100 times] |
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Magnesium hardness |
0.00 to 2.00 mg/L CaCO3 |
0.01 mg/L |
reading±5%±0.11 mg/L |
LED@525nm |
Applicable water and wastewater standard methods,auxiliary word for ordinal numbers18edition |
HI93719-01[100 times] |
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Total hardnessLR |
0 to 250 mg/L CaCO3 |
1 mg/L |
reading±4%±5 mg/L |
LED@466nm |
adaptEPAmethod130.1EDTAcolorimetry |
HI93735-00[100 times] |
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Total Iron |
0.00 to 7.00 mg/L Fe |
0.01 mg/L |
reading±3%±0.20 mg/L |
LED@525nm |
Applicable water and wastewater standard methods,auxiliary word for ordinal numbers22edition |
HI96778-2525 times |
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magnesium |
0 to 150 mg/L Mg2+ |
1 mg/L |
reading±3%±5 mg/L |
LED@466nm |
Calcium magnesium reagent colorimetric method |
HI937520-01[50 times] |
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manganeseLR |
0 to 300 μg/L Mn |
1 μg/L |
reading±3%±10 μg/L |
LED@575nm |
adaptPANmethod |
HI93748-01[50 times] |
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nitrite |
0 to 200 μg/L NO2-N |
1 μg/L |
Reading±4%±10 μg/L |
LED@466nm |
adaptEPADiazotization method354.1 Adaptation of the EPA Diazotization method 354.1. |
HI764-2525 times |
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Total nitrogenLR |
0.0 to 25.0 mg/L N |
0.1 mg/L |
reading±5%Or ± 1.0 mg/L |
LED@420nm |
Color changing acid method Chromotropic acid method. |
HI93767A-50[49 times] |
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Total nitrogenHR |
0 to 150 mg/L N |
1 mg/L |
reading±4%Or ± 3 mg/L |
LED@420nm |
Color changing acid method Chromotropic acid method |
HI93767B-50[49 times] |
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dissolved oxygen |
0.0 to 10.0 mg/L O2 |
0.1 mg/L |
reading±3%±0.4 mg/L |
LED@420nm |
Applicable water and wastewater standard methods,auxiliary word for ordinal numbers18edition |
HI93732-01[100 times] |
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oxygen scavengersCarbohydrates Oxygen Scavengers |
0.00 to 1.50 mg/Lcarbohydrate |
0.01 mg/L |
reading±3%±0.02 mg/L |
LED@575nm |
Adapt to iron reduction method |
HI96773-01[50 times] |
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oxygen scavengers【DEHA】 |
0 to 1000 μg/LDEHA |
1 μg/L |
reading±5%±5 μg/L |
LED@575nm |
Adapt to iron reduction method |
HI96773-01[50 times] |
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oxygen scavengers[Hydroquinone] |
0.00 to 2.50 mg/Lhydroquinone |
0.01 mg/L |
reading±3%±0.04 mg/L |
LED@575nm |
Adapt to iron reduction method |
HI96773-01[50 times] |
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oxygen scavengersIsoascorbic acid |
0.00 to 4.50 mg/Lisoascorbic acid |
0.01 mg/L |
reading±3%±0.03 mg/L |
LED@575nm |
Adapt to iron reduction method |
HI96773-01[50 times] |
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Total phosphorusLR |
0.00 to 1.15 mg/L P |
0.01 mg/L |
reading±6%Or ± 0.05 mg/L |
LED@610nm |
adaptEPAmethod365.2standard method,auxiliary word for ordinal numbers20edition |
HI93758C-50[50 times] |
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Total phosphorusHR |
0.0 to 32.6 mg/L P |
0.1 mg/L |
reading±5%Or ± 0.5 mg/L |
LED@420nm |
adaptEPAmethod365.2standard method,auxiliary word for ordinal numbers20edition |
HI93763B-50[49 times] |
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potassium |
0.0 to 20.0 mg/L K |
0.1 mg/L |
reading±7%±3.0 mg/L |
LED@466nm |
Tetraphenylboronic acid turbidity method |
HI93750-01[100 times] |
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