Hanna HI83300-01 Multiparameter Benchtop Photometer and pH meter
HI83300 is a compact, multiparameter photometer for use in the lab or in the field. The meter is one of the most advanced photometers available with a innovative optical design that utilizes a reference detector and focusing lens to eliminate errors from changes in the light source and from imperfections in the glass cuvette. This meter has 60 different programmed methods measuring 37 key water quality parameters and also offers an absorbance measurement mode for performance verification and for users that would like to develop their own concentration versus absorbance curves. To save valuable laboratory benchtop space, the HI83300 doubles as a professional pH meter with its digital pH/temperature electrode input. Now one meter can be used for both photometric and pH measurements.
- Advanced optical system
- Unparalleled performance from a benchtop photometer
- Digital pH electrode input
- Save valuable bench space with one meter that works both as a photometer and as a laboratory pH meter
- Absorbance measuring mode
- Allows performance verification using CAL CheckTM standards
From aluminum to zinc, the HI83300 benchtop photometer measures 37 different key water quality parameters using 60 different methods. This photometer features an innovative optical system that uses LEDs, narrow band interference filters, focusing lens and both a silicon photodetector for absorbance measurement and a reference detector to maintain a consistent light source ensures accurate and repeatable photometric readings every time.
A digital pH electrode input allows the user to measure pH by a traditional glass electrode. The digital pH electrode has a built in microchip within the probe that stores all of the calibration information. Having the calibration information stored in the probe allows for hot swapping of pH electrodes without having to recalibrate. All pH measurements are automatically compensated for temperature variations with a built in thermistor located in the tip of the sensing bulb for fast and accurate temperature measurement.
The HI83300 offers an absorbance measuring mode that allows for CAL CheckTM standards to be used to validate the performance of the system. The absorbance mode allows the user to select one of the five wavelengths of light (420 nm, 466 nm, 525 nm, 575 nm, and 610 nm) to measure and plot their own concentration versus absorbance mode. This is useful for users with their own chemical method and for educators to teach the concept of absorbance by using the Beer-Lambert Law.
Two USB ports are provided for transferring data to a flash drive or computer and to use as a power source for the meter. For added convenience and portability the meter can also operate on an internal 3.7 VDC Lithium-polymer rechargeable battery.
A digital pH electrode input allows the user to measure pH by a traditional glass electrode. The digital pH electrode has a built in microchip within the probe that stores all of the calibration information. Having the calibration information stored in the probe allows for hot swapping of pH electrodes without having to recalibrate. All pH measurements are automatically compensated for temperature variations with a built in thermistor located in the tip of the sensing bulb for fast and accurate temperature measurement.
The HI83300 offers an absorbance measuring mode that allows for CAL CheckTM standards to be used to validate the performance of the system. The absorbance mode allows the user to select one of the five wavelengths of light (420 nm, 466 nm, 525 nm, 575 nm, and 610 nm) to measure and plot their own concentration versus absorbance mode. This is useful for users with their own chemical method and for educators to teach the concept of absorbance by using the Beer-Lambert Law.
Two USB ports are provided for transferring data to a flash drive or computer and to use as a power source for the meter. For added convenience and portability the meter can also operate on an internal 3.7 VDC Lithium-polymer rechargeable battery.
Features and Benefits
Digital pH Electrode Input
- Measure pH and temperature with a single probe
- Good Laboratory Practice (GLP) to track calibration information including date, time, buffers used, offset and slope for traceability
- pH CAL CheckTM alerts user to potential problems during the calibration process
- Space saving having a pH meter and photometer built into one meter
Data Logging
- Up to 1000 photometric and pH readings can be stored by simply pressing the dedicated LOG button. Logged readings are just as easily recalled by pressing the RCL button
- Sample ID and User ID information can be added to a logged reading using alphanumeric keypad
Connectivity
- Logged readings can be quickly and easily transferred to a flash drive using the USB-A host port or to a computer using the micro USB-B port
- Data is exported as a .CSV file for use with common spreadsheet programs
Battery Status Indicator
- Indicates the amount of battery life left
Error Messages
- Photometric error messages include no cap, high zero, and standard too low
- pH calibration messages include clean electrode, check buffer and check probe
Backlit 128 x 64 Pixel Graphic LCD Display
- Backlit graphic display allows for easy viewing in low light conditions
- The 128 x 64 Pixel LCD allows for a simplified user interface with virtual keys and on-screen help to guide the user through use of the meter
Built-in Reaction Timer for Photometric Measurements
The measurement is taken after the countdown timer expires.
Countdown timer ensures that all readings are taken at the appropriate reaction intervals regardless of user for better consistency in measurements
Absorbance mode
- Hanna's exclusive CAL CheckTM cuvettes for validation of light source and detector
- Allows for the user to plot concentration versus absorbance for a specific wavelength for use with user supplied chemistry or for teaching principles of photometry
Units of Measure
- Appropriate unit of measure along with chemical form is displayed along with reading
Result Conversion
- Automatically convert readings to other chemical forms with the touch of a button
Cuvette Cover
- Aids in preventing stray light from affecting measurements
| Parameter | Range | Resolution | Accuracy (at 25 °C) | Method | Wavelength | Reagent Code |
| Absorbance | 0.000 to 4.000 Abs | 0.001 Abs | +/-0.003Abs @ 1.000 Abs | |||
| Alkalinity | 0 to 500 mg/L (as CaCO3 ) | 1 mg/L | ±5 mg/L ±5% of reading | Colorimetric Method | 610 nm | HI775-26 |
| Alkalinity, Marine | 0 to 300 mg/L (as CaCO3 ) | 1 mg/L | ±5 mg/L ±5% of reading | Colorimetric Method | 610 nm | HI755-26 |
| Aluminum | 0.00 to 1.00 mg/L (as Al3+) | 0.01 mg/L | ±0.04 mg/L ±4% of reading | Adaptation of the aluminon method. | 525 nm | HI93712-01 |
| Ammonia, Low Range | 0.00 to 3.00 mg/L (as NH3 -N) | 0.01 mg/L | ±0.04 mg/L ±4% of reading | Adaptation of the ASTM Manual of Water and Environmental Technology, D1426 Nessler method. | 420 nm | HI93700-01 |
| Ammonia, Medium Range | 0.00 to10.00 mg/L (as NH3-N) | 0.01 mg/L | ±0.05 mg/L ±5% of reading | Adaptation of the ASTM Manual of Water and Environmental Technology, D1426, Nessler method | 420 nm | HI93715-01 |
| Ammonia, High Range | 0.0 to 100.0 mg/L (as NH3 -N) | 0.1 mg/L | ±0.5 mg/L ±5% of reading | Adaptation of the ASTM Manual of Water and Environmental Technology, D1426, Nessler method | 420 nm | HI93733-01 |
| Bromine | 0.00 to 8.00 mg/L (as Br2 ) | 0.01 mg/L | ±0.08 mg/L ±3% of reading | Adaptation of the Standard Methods for the Examination of Water and Wastewater, 18th edition, DPD method | 525 nm | HI93716-01 |
| Calcium | 0 to 400 mg/L (as Ca2+) | 1 mg/L | ±10 mg/L ±5% of reading | Adaptation of the Oxalate method | 466nm | HI937521-01 |
| Calclium, Marine | 200 to 600 mg/L (as Ca2+) | 1 mg/L | ±6% of reading | Adaptation of the Zincon method | 610 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 method | 466 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 method | 575 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 330.5 | 525 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 G | 525 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 nm | HI93711-01 |
| 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 nm | HI95761-01 |
| 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-Cl | 525 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 method | 525 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 nm | HI93723-01 |
| 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 method | 420 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 method | 575 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 nm | HI93702-01 |
| Cyanuric Acid | 0 to 80 mg/L (as CYA) | 1 mg/L | ±1 mg/L ±15% of reading | Adaptation of the turbidimetric method | 525 nm | HI93722-01 |
| 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 method | 575 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 nm | HI93739-01 |
| 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 nm | HI93720-01 |
| 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 nm | HI93719-01 |
| 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 130.1 | 466 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 130.1 | 466 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 nm | HI93735-02 |
| 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 nm | HI93704-01 |
| 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 nm | HI93718-01 |
| 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 nm | HI93746-01 |
| 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 nm | HI93721-01 |
| 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 Method | 525 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 Method | 525 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 nm | HI937520-01 |
| 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 nm | HI93748-01 |
| 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 method | 525 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 nm | HI93730-01 |
| 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 nm | HI93740-01 |
| 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 nm | HI93726-01 |
| 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 method | 525 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 nm | HI764-25 |
| 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 nm | HI93707-01 |
| 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 nm | HI93708-01 |
| 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 nm | HI93732-01 |
| 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 nm | HI96773-01 |
| 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 nm | HI96773-01 |
| 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 nm | HI96773-01 |
| 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 nm | HI96773-01 |
| 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 nm | HI93757-01 |
| pH | 6.5 to 8.5 pH | 0.1 pH | ±0.1 pH | Adaptation of the Phenol Red method | 525 nm | HI93710-01 |
| 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 nm | HI736-25 |
| 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 nm | HI93713-01 |
| Phosphate, High Range | 0.0 to 30.0 mg/L(as PO43-) | 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 nm | HI93717-01 |
| 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 nm | HI93750-01 |
| 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 nm | HI93705-01 |
| 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 nm | HI96770-01 |
| 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 nm | HI93737-01 |
| 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 nm | HI93751-01 |
| 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 nm | HI95769-01 |
| 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 nm | HI93731-01 |
