厂商 :天津市浩达科为科技有限公司
天津 津南区- 主营产品:
供应 美国AMETEK DE Z4-1002-101料位计
供应 美国AMETEK DE Z4-1002-101料位计
供应 美国AMETEK DE Z4-1002-101料位计
These instructions are for the AMETEK Drexelbrook Z-tron IV? Series
Point Level Control.
The label on top of the electronic unit identifies the model number of the
Z-tron IV level control.
1.1 System Description
Cote-Shield? action is designed into all Z-tron IV level controls and
enables the instrument to ignore the effect of buildup or material coating
on the sensing element.
The electronic unit:
? Provides double-pole double-throw dry relay contact closure when
material reaches a specific point on the sensor. The relay contacts
may be used to operate alarms, solenoid valves, or other low power
devices.
? Provides a 0-60 second time delay for agitated vessels.
The 700-series sensing element:
? Is mounted on the tank or in the process.
? Provides a change in radio frequency (RF) admittance indicating
presence or absence of material.
1.2 Technology
In a simple capacitance probe type sensing element, when the level rises
and material covers the probe, the capacitance within the circuit between
the probe and the medium (conductive applications) or the probe and the
vessel wall (insulating applications) increases. This is due to the dielectric
constant (k) of the material, which causes a bridge misbalance. The signal
is demodulated (rectified), amplified and the output is increased. There
are drawbacks, however, especially when there is coating of the probe.
An RF Admittance level transmitter is the next generation. Although
similar to the capacitance concept, The Z-tron employs a radio frequency
signal and adds the Cote-Shield? circuitry within the Electronics Unit.
This patented Cote-Shield? circuitry is designed into Z-tron series and
enables the instrument to ignore the effect of buildup or material coating
on the sensing element. The sensing element is mounted in the vessel
and provides a change in RF admittance indicating presence or absence of
material.
The Cote-Shield? element of the sensor prevents the transmission of
RF current through the coating on the sensing element. The only path
to ground available for the RF current is through the material being
measured.
The result is an accurate measurement regardless of the amount of
coating on the probe, making it by far the most versatile technology, good
for very wide range conditions from cryogenics to high temperature, from
vacuum to 10,000 psi pressure, and works with all types of materials.