605202

YSI 2002 Galvanic Dissolved Oxygen Sensor

YSI 2002 Galvanic Dissolved Oxygen Sensor

Description

The YSI 2002 galvanic dissolved oxygen sensor provides instant and reliable DO readings.

Features

  • YSI 2002 galvanic sensors have no warm-up time and are immediately ready for calibration and use
  • Easily inserts into the probe module and cable assembly
  • Compatible with YSI 5912, 5913, or 5914 screw-on cap membranes
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List Price
$185.00
Your Price
$175.75
In Stock

Shipping Information
Return Policy
Why Buy From Fondriest?
Notable Specifications:
  • 6-month warranty
What's Included:
  • (1) YSI 2002 DO module
  • (1) 5913 cap membrane kit
  • (1) Instruction sheet
  • (1) Hex wrench
  • (1) Set screw
Image Part # Product Description Price Stock Order
YSI 2002 Galvanic Dissolved Oxygen Sensor 605202 2002 galvanic DO sensor, Pro Series
$175.75
In Stock
Image Part # Product Description Price Stock Order
YSI 5912 DO Cap Membrane Kit 605912 5912 Teflon black 1.0 mil cap membrane kit, 2002 galvanic sensor
$57.00
Usually ships in 3-5 days
YSI 5913 DO Cap Membrane Kit 605913 5913 PE yellow 1.25 mil cap membrane kit, 2002 galvanic sensor
$57.00
In Stock
YSI 5914 DO Cap Membrane Kit 605914 5914 PE blue 2.0 mil cap membrane kit, 2002 galvanic sensor
$57.00
In Stock
Additional Product Information:

Questions & Answers

| Ask a Question
How does a Galvanic DO Sensor work?
In a Galvanic sensor, the cathode is silver and the anode is zinc. The two materials are dissimilar enough to self-polarize and reduce oxygen molecules without an applied voltage. This is similar to how a battery works. The system uses a meter to read the electrical signal and the signal is proportional to the amount of oxygen passing through the membrane.
Why can the Galvanic sensor be used immediately after it is powered on?
The Galvanic sensor contains silver and zinc. These two materials are different enough to self-polarize without added voltage. This allows them to be used immediately instead of waiting on the anode and cathode to polarize.
I am having trouble getting an accurate reading, what can I be doing incorrectly?
The steady-state sensor reduces oxygen, meaning it is flow dependent. The sensors require stirring or sample movement to produce accurate readings.

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