Conductivity level switch CoFox ELT 8
Código Interno:
Conductivity level switch Water alarm unit in wall mounting housing withvisual alarm, operation indicator as well as tworelay outputs for additional external signallingequipment or the additional alarm unit ZAG 01.The probe is mounted at the lowest point of theobject to be monitored. The alarm is triggeredwhen the probe comes into contact with liquidand ELT 8 activates the connected alarm equipment. The visual alarm is cleared once the leakhas been removed. ELT 8 enables parallel operation of several probes.
Guided micropulse level indicator with coax probe PulsFox PMG 10 KX
Código Interno:
Guided micropulse level indicator with coax probe PulsFox® PMG 10 level indicators operate on the basis of the guided micropulse principle (TDR, timedomain reflectometry). A micropulse is emitted along a probe. The micropulse is surrounded by anelectromagnetic field. Reflections of the pulses from objects and surfaces serve as the basis of distance measurement. The pulse\'s propagation time is directly proportional to the distance between theprobe and the surface of the medium. The reflectance of materials depends on the dielectric constant?r. Changes of the medium (e.g. vapour, dust or a turbulent surface) do not affect the measuring accuracy of this measuring principle. No recalibration is required when a different medium is used. Even ifproperties such as pressure, temperature and density change, the system operates with high reliabilityand precision. PulsFox® PMG 10 has no moving parts and is therefore maintenance-free and not subject to wear.
Guided micropulse level indicator with flexible dual probe PulsFox PMG 10 DF
Código Interno:
Guided micropulse level indicator with flexible dual probePulsFox® PMG 10 level indicators operate on the basis of the guided micropulse principle (TDR, timedomain reflectometry). A micropulse is emitted along a probe. The micropulse is surrounded by anelectromagnetic field. Reflections of the pulses from objects and surfaces serve as the basis of distance measurement. The pulse\'s propagation time is directly proportional to the distance between theprobe and the surface of the medium. The reflectance of materials depends on the dielectric constant?r. Changes of the medium (e.g. vapour, dust or a turbulent surface) do not affect the measuring accuracy of this measuring principle. No recalibration is required when a different medium is used. Even ifproperties such as pressure, temperature and density change, the system operates with high reliabilityand precision. PulsFox® PMG 10 has no moving parts and is therefore maintenance-free and not subject to wear.
Guided micropulse level indicator with flexible mono probe PulsFox PMG 10 MF
Código Interno:
Guided micropulse level indicator with flexible mono probePulsFox® PMG 10 level indicators operate on the basis of the guided micropulse principle (TDR, timedomain reflectometry). A micropulse is emitted along a probe. The micropulse is surrounded by anelectromagnetic field. Reflections of the pulses from objects and surfaces serve as the basis of distance measurement. The pulse\'s propagation time is directly proportional to the distance between theprobe and the surface of the medium. The reflectance of materials depends on the dielectric constant?r. Changes of the medium (e.g. vapour, dust or a turbulent surface) do not affect the measuring accuracy of this measuring principle. No recalibration is required when a different medium is used. Even ifproperties such as pressure, temperature and density change, the system operates with high reliabilityand precision. PulsFox® PMG 10 has no moving parts and is therefore maintenance-free and not subject to wear
Guided micropulse level indicator with rigid mono probe PulsFox PMG 10 MS
Código Interno:
Guided micropulse level indicator with rigid mono probePulsFox® PMG 10 level indicators operate on the basis of the guided micropulse principle (TDR, timedomain reflectometry). A micropulse is emitted along a probe. The micropulse is surrounded by anelectromagnetic field. Reflections of the pulses from objects and surfaces serve as the basis of distance measurement. The pulse\'s propagation time is directly proportional to the distance between theprobe and the surface of the medium. The reflectance of materials depends on the dielectric constant?r. Changes of the medium (e.g. vapour, dust or a turbulent surface) do not affect the measuring accuracy of this measuring principle. No recalibration is required when a different medium is used. Even ifproperties such as pressure, temperature and density change, the system operates with high reliabilityand precision. PulsFox® PMG 10 has no moving parts and is therefore maintenance-free and not subject to wear.
Ultrasonic transmitter SonarFox UST 10
Código Interno:
Ultrasonic transmitterThe SonarFox® UST 10 level indicator uses the physical properties of ultrasonic waves to determine thelevel. An ultrasonic wave is emitted which is reflected by objects in the cone. The time up to the reception of the reflected echo is a measure of the distance. Since the mounting position is defined, it ispossible to calculate the filling level of the medium. Type, density and temperature of the medium haveno effect on the measurement ? the only prerequisite is a reflecting surface. Acoustically diffuse surfaces such as foam or uneven surfaces of bulk solids are not suitable or should be tested with regardto the application. Installations or stirrers below a plane surface of the medium do not affect the measurement
Capacitance level indicator CapFox EFT 7
Código Interno:
Capacitance level indicatorThe capacitance level indicator CapFox® EFT 7 detects the change in electrical capacitance caused bythe change in level. The device is available with either a flexible band electrode or a rigid probe. Pleasespecify the length of the rigid probe when ordering. Zero and full scale can be adjusted via an internalpotentiometer. The output signals are proportional to the liquid level.
