Conductivity Wireless Sensor

I. Working principle

There are two platinum pieces on the glass base built into the conductivity electrode. The position and distance of the platinum pieces are fixed. When the electrode is inserted into a certain liquid or conductive fluid, the sensor passes the current between the two platinum pieces. to measure the electrical conductivity of the solution. Adding a potential difference between the two platinum electrodes, the resulting current is proportional to the conductivity of the solution. The sensor converts this current signal into a voltage signal, and converts it into a 0-5V voltage output through the analog-to-digital converter of the data collector. The results are stored in the collector’s memory.

Since current is transmitted through ions in the solution, the higher the ion concentration, the stronger the conductivity of the solution, so the conductivity sensor can actually be used to measure the ion concentration in the solution.

II. Specifications

Range: 100,000 µs, resolution 0.1 µs.

Range: 20,000 µs, resolution 0.01 µs.

Range: 1000 µs, resolution 0.001 µs.

III.Structure and function

1. The sensor terminal comes with a 1.8-inch color LCD screen.
2. The sensor terminal is equipped with 5 function buttons.The operation interface is simple and convenient.
3. The sensor terminal supports high-speed USB data channel, which enables high speed transmission of the data from the terminal to other devices such as PC, tablet or mobile phone.
4. The sensor terminal supportswireless communication with experimental terminals.
5. The sensor terminal has a built-in removable batterywith a capacityof 1800mAh.
6. The sensor terminal is designed with a hidden buckle sensor interface to support combined experiments with other sensors.
7. The sensor terminal has designed a fixation spot to get itfixed on the iron frameconveniently and combined with traditional lab equipment for experiments.
8. The sensor terminal supports the latest operating systems,such as iOS, Android, windows operating systems, etc.
9. Software with permanent use in digital laboratories in Kazakh and Russian languages. Designed for practical and laboratory work in the physics module of the school curriculum.

IV.Typical applications

Conductivity sensors can be used in the field or in the laboratory to measure the conductivity of a solution or the total ion concentration in a solution. It cannot measure the types of ions in the solution, but it can quickly determine the total concentration of all ions. Its typical applications include studying the conductivity of different solutions, environmental research, monitoring water purity, studying the effect of chemical condensation on conductivity, etc.

V.Caution

This product is suitable for educational use only and is not suitable for industrial, medical, research, or commercial applications.

VI.Usage Tips

1. Rinse the top of the sensor electrode with distilled water before use.
2. When inserting the top of the sensor into the sample solution to be measured, make sure that the electrode is completely immersed in the liquid.
3. After using the sensor, rinse the electrode with distilled water and dry it with paper towels or laboratory cloth before storing it. When drying, care should be taken to avoid scratching the internal surface of the sensor electrode.
4. Lipids, oils, fingerprints and other substances attached to the electrodes can cause incorrect measurements and instability of the response.
5. If there is dirt on the surface of the sensor probe, soak it in water with flexible detergent for 15 minutes, then soak it in dilute acid solution (preferably 0.1 M hydrochloric acid or 0.5 M acetic acid) for 15 minutes, and then use Rinse with distilled water.
6. It is best to soak the probe in deionized water for storage. Any probe that is stored dry should be soaked in deionized water for 5-10 minutes before use.
7. The probe of the conductivity sensor is made of glass and is fragile, so it needs to be placed with care.
8. Operating temperature range of conductivity sensor probe: 0-80℃.
9. Response time: 98% of readings completed within 10 seconds.
10. The service life of the conductivity probe is: 1 year.
11. The pH sensor and temperature sensor cannot be connected to the same data collector and put into the same solution as the conductivity sensor at the same time (the reason is: the conductivity sensor will generate an output signal in the solution, and this signal may affect other sensors) .
12. If you really want to use it with the above sensors at the same time, you have the following methods to choose from:

To get conductivity and pH readings or conductivity and temperature readings at the same time, you can connect the sensor to 2 different data collectors.