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LM-3000L Series
Outlines
LM-3000L Series: High performance digital mass flow meter equipped with mass flow meter for liquid applications
Operates as a liquid mass flow controller when use in combination with CV-1000 Series or control valve-fitted VU Series
Features
Can also be used as a liquid mass flow controller upon integration of a solenoid-actuator driving circuit
RS-485 digital interface
Lintec's original ambient temperature-compensated sensor incorporated
Highly functional upon installation of microprocessor
Long-term leak tightness ensured using metal seal
By using metal case and various filters, stable operation can be achieved through reduction of radio frequency noises and electromagnetic field interferences |
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LM-2000P Series
Outlines
LM-2000P Series: Liquid mass flow sensor equipped, highly efficient digital liquid mass flow meter
Operating as a liquid mass flow controller when use in combination with VU-206 Series
Features
Can also be used as a liquid mass flow controller upon integration of piezoelectric-actuator driving circuit
RS-485 digital interface
LINTEC's original ambient temperature-compensated sensor incorporated
Highly functional upon installation of microprocessor
Long-term leak tightness ensured using metal seal
By using metal case and various filters, stable operation can be achieved through reduction of radio frequency noises and electromagnetic field interferences |
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AM-3000 Series
Acid Resistance, Metal Free Mass Flow Meter
Outlines
AM-3102: Liquid mass flow meter equipped with metallic part-excluded wetted materials
Operates as a liquid mass flow controller when use in combination with CV-1000 Series (Noted that metal-composed wetted materials are used in CV-1000 Series)
Features
Exclusion of metallic parts from the wetted materials makes strong acid handing possible
RS-485 digital interface
LINTEC's original ambient temperature-compensated sensor incorporated
Highly functional upon installation of microprocessor
By using metal case and various filters, stable operation can be achieved through reduction of radio frequency noises and electromagnetic field interferences |
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