Dissolved Oxygen Probe AT-SB-PROBE-DO-P-C1

SENSBLUE RS-485 Dissolved Oxygen Probe AT-SB-PROBEDO-P is an integrated online fluorescence dissolved oxygen sensor designed based on the quenching principle of excited fluorescence by specific substances in physics. When the excitation light shines on the fluorescent substance on the surface of the fluorescent membrane head, the substance becomes excited and emits fluorescence. The extinguishing time of this fluorescence is affected by the concentration of oxygen molecules on the surface of the fluorescent membrane head. The oxygen concentration can be calculated by detecting the phase difference between the fluorescence and the excitation light and comparing it with the internal calibration curve. The final value is then output after temperature and salinity compensation.

• No electrolyte is required and it will not be polarized.
• No oxygen consumption; not affected by flow rate.
• Built‑in temperature sensor, automatic temperature compensation.
• Built‑in salinity compensation, flexible parameter settings.
• Free from interference by chemicals such as sulfides.
• Small drift, rapid reaction, for more accurate measurement.
• Long service cycle, lower cost of use.
• Simple replacement of fluorescent cap.RS‑485 interface, Modbus/RTU protocol.
• Low power consumption and anti‑interference

Install

The sensor needs to be installed below the liquid level. The installation and use should avoid any collisions or scraping against the surface of the fluorescent film head. The fluorescent film head should also be kept from contacting the bottom sediment. Remove the rubber cover when in use.

a) Maintenance schedule

Different from dissolved‑oxygen probe technology based on the electrochemical principle, the fluorescence dissolved‑oxygen probe does not consume oxygen and does not need to be cleaned frequently (except when used in viscous liquids).

Note: The maintenance frequency in the above table is only recommended, and the maintenance personnel shall clean the sensor according to the actual use of the sensor, however, the replacement frequency of the fluorescent cap is recommended once a year.

a) Sensor outer surface:

Clean the outer surface of the sensor with tap water, if there is still debris residue, wipe with wet soft cloth, for stubborn dirt, you can add household washing liquid to clean.

b) Surface of fluorescent film head:

If there is dirt on the surface of the fluorescent film head, please rinse it with clean water or wipe it gently with a soft cloth. Pay attention to the cleaning intensity to avoid causing scratches in the measuring area and affecting measurement accuracy.

c) Inside the fluorescent film head:

  It is generally unnecessary to clean. If water vapor or dust enters the fluorescent film head, the cleaning steps are as follows:

•Screw down the fluorescent film head;

•Rinse the inner surface of the fluorescent film head and the optical window of the sensor.

•For oily dirt, you can use household cleaning solution;

•Gently dry the water with a clean cloth and let dry;

Reinstall the fluorescent film head.

d) Check the cables of the sensor:

  There should be no damage to the skin and root of the cables;

Terminals should not be submerged in water; When the sensor is normally installed, the cable should not be tensioned, otherwise the internal wire of the cable will easily break, and the sensor cannot work normally.

e) Check whether the casing of the sensor is damaged by corrosion or other causes.

f) Daily storage of fluorescent film head:

  When not in use, a rubber protective cover with a wet sponge should be placed over the fluorescent film head to keep the surface of the measuring area wet. If the surface of the measuring area of the fluorescent film head becomes chronically dry, measurement errors or data instability may occur, and it needs to be soaked in water for 48 hours before use.