WAE1-LS5 JOLA wall electrode

Description

The WAE1-LS5 JOLA wall electrode signals via an electrode relay the presence of liquid medium due to, for example, a burst pipe. Floor electrodes are designed for use in dry rooms.

WAE1-LS5 with integrated galvanic separation:

• prevents interconnection of electrode circuits
• prevents the formation of earth loops when more than one detector is connected to a common power supply circuit.

Conductive wall electrodes WAE1 -… should only be used in normally dry environments. They should be mounted on the wall so that the tips of the electrode rods are just above the floor, which should be controlled.

The WAE1 -… conductive wall electrode is equipped with two separate electrodes in the form of two electrode rods: 1 control electrode and 1 ground electrode. As soon as the conductive liquid creates a conductive path between the two electrode rods, the switching state of the leak detector changes.

Conductive measurement principle

The principle of conductive measurement is used to detect electrically conductive liquids. Not suitable for the detection of electrically non-conductive liquids.

Electrically conductive liquids are usually aqueous solutions of salts, acids or alkalis. In water, the molecules of these substances separate into positive and negative ions, which give the aqueous solution its electrical conductivity. The conductive leak detector detects the presence of an electrically conductive liquid and then sounds an alarm.

The measurement process uses alternating current to ensure accurate response sensitivity and to prevent galvanic processes at the electrodes. The conductive leak detector shall have an integrated electronic evaluation unit with galvanically isolated circuits. This prevents the electrode circuits from interconnecting and forming earth loops if more than one of these leakage detectors is connected.

Reliable detection of liquids with poor electrical conductivity, such as condensate or demineralised water, is ensured by the factory-set sensitivity response of the conductive leak detector.

Features of WAE1-LS5

• design: leak detector with quiescent current / NC (interrupting)
• electrode rods: 2 316 Ti stainless steel rods, each 24 mm in diameter
• Housing: PC or PP
• electrical connection: 5-wire connection via a 5 x 0.5 connection cable 2 m long, on request: longer, without halogen
• supply voltage: only for connection to extra low voltage SELV or PELV! (see datasheet)
• Energy consumption: approx. 0.5 VA
• Output: potential-free contact (CO) (see datasheet for details)
• switching state without supply voltage: output relay de-energised, switching to pos. 1 (grey and blue)
• switching condition both sensing capacitors not activated: output relay with voltage, switching to pos. 2 (grey and brown)
• switching state of one or two sensing capacitors activated: output relay de-energised, switching to pos. 1 (grey and blue)
• galvanic isolation: only for connection to extremely low voltage SELV or PELV! voltage resistance> 500 V between capacitor circuit, supply circuit and output circuit
• max. no-load voltage across the sensing capacitors: 5 Veff 15 kHz
• max. short-circuit current on sensing capacitors: 0.2 mA
• response sensitivity: approx. 30 kΩ or approx. 33 μS (conductivity)
• temperature range: – 20 °C to + 60 °C

For more technical information, please refer to the datasheet attached under the Documentation tab.

Example of application WAE1-LS5: monitoring a false floor in the server room using a cable electrode and a panel electrode in an adjacent room.

Welcome to the article ”Conductive Measurement of Liquids”