Overview
The HANNA HI8733 Conductivity Meter uses four-ring Conductivity detector Electrode technology to solve the problem of frequent calibrating and multiple Electrode measurements required by traditional conductivity meters. Only one PVC Electrode can complete 0.0 to 199.9 mS/cm wide range measurement, suitable for field environments, with single point calibrating, large screen display and automatic temperature compensation to provide laboratory-grade measurement results in harsh environments.
Features
1. Appearance design, backlit LCD display
2. Manual/automatic temperature compensation function, manually select the range
3. Manual single point calibrating, convenient and accurate calibrating
4. Adopting new microcomputer technology, designed for on-site measurement
5. Excellent waterproof performance is suitable for production and quality control experiment site use
6. From deionized water to saline water, samples with different concentration ranges can be measured
Principle
The instrument uses a four-ring Conductivity detector Electrode system, which processes conductivity signals through microcomputer technology. Single point calibrated in the range of 0.0 to 199.9 mS/cm, with manual or automatic temperature compensation function (compensation factor 0.0-2%/° C adjustable), to ensure accurate measurement readings at different Ambient Temperatures.
Applications
Field measurement, production site, quality control experiment site
Steps
1. Choose similar conductivity standard buffer based on water sample prediction data
2. Perform manual single point calibrating
3. Select manual or automatic temperature compensation mode
4. Manually select the appropriate range
5. Start measurement and read display data
Notice
• When calibrating, a conductivity standard buffer similar to the water sample prediction data should be selected
• Operating Environment Temperature 0-50 ° C, relative humidity up to 100%
• Pay attention to the battery level and use a 9V AA battery
• Electrode made of PVC, suitable for field measurement environment
• Measurement accuracy of +/- 1% of reading (ignoring Probe error)
