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Xi'an Dehou Electronic Technology Co., Ltd.

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Province/State:Shaanxi

Country/Region:china

Contact Person:MrJero

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China NUOYING Plate Table for Bulk Material Level Sensor NYSP-L865 Rf Admittance Switch wholesale

NUOYING Plate Table for Bulk Material Level Sensor NYSP-L865 Rf Admittance Switch

Name: NUOYING Plate Table for Bulk Material Level Sensor NYSPL865 Rf Admittance Switch
Brand: NUOYING
Price: 259 USD

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Brand Name :NUOYING

Model Number :NYSP-L865

Certification :CE, SIL, ATEX

Place of Origin :Xi'an,Shaanxi,China

MOQ :1pcs

Price :$259 to $299/pcs

Payment Terms :T/T

Supply Ability :1000pcs per month

Delivery Time :5-7 working day

Packaging Details :40*30*30cm

Grade :Industrial

Warranty :12 months

Customized support :OEM, ODM

Applications :flat panel probe to solve the impact ofbulk material on rod probe

Operating temperature :-40~+130 ℃,-184~+260 C

Power supply :24VDC,220VAC

Bar material :304+PTFE (optional)

Procedure linkage :thread, flange (optional)

Signal Output :4~20 mA,0~1000Hz,RS485 Modbus RTU

Probe length :cable length S can be customized according to request

Process pressure :0~2.0MPa

Output relay :double pole, double throw (DPDT) output,5A,24VDC or5A,220VAC

Protection/explosion class :IP67/ExialCT6 (optional)

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NUOYING Plate Table for Bulk Material Level Sensor NYSP-L865 Rf Admittance Switch

NYSP-L865 Radio Frequency Admittance Switch

Products Description

NYSP-L865 RF Admittance Level Switch Working Principle

The principle of operation of radio frequency conductivity level switches is based on radio frequency (RF) capacitance technology.

A radio frequency is applied to the probe and the influence caused by the surrounding environment is determined by continuous analysis. Because all materials have a dielectric constant and their conductivity are different from air, the total impedance reflected by the small capacitance shift changes when the probe is in contact with the material. Because the energized probe and the vessel wall constitute the two pole plates of the capacitor, the insulator of the probe and the surrounding air become dielectric materials, and the capacitive effect is enhanced when the air (whose dielectric constant is 1.0) is replaced by any other material (dielectric constant > 1). Thus, the impedance of the application is changed. That is, the change in capacitance value causes a change in impedance. This effect is measured by the circuit and then compared to the reference reference frame established by the sensitivity setting (circuit). The correct setting of the RF Admittance Level Switch sensitivity affects the correct change in sensor output. The probe's Nul1-KoTeTM circuitry allows the measurement circuit to ignore material buildup on

the probe that would otherwise cause a sensitivity failure. The Nul1-KoTeTM circuit is excited with the same radio frequency potential as that applied to the sensing probe. Since the current cannot flow at the same potential, the Nul1-KoTeTM circuit isolates the current flow that normally flows from the energized probe through the stacked material to the vessel wall. This way the material around the energized probe is measured, not the stacked material.

Product Parameters

Typical application	To solve the impact of bulk material
Probe material	304, PTFE (optional)
Power supply	24VDC, 220VAC (optional)
Operation temperature	-40~+130℃, -184~+260℃
Joint material	316L, stainless steel, Hastelloy
Working pressure	＜2.0MPa
Process connection	Thread, flange (optional)
Probe length	500mm

Product details

Product feature

Various application

Cooperative customers

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