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KM26
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| K-TEK offers the standard KM26 MLG with a chamber of virtually any non-magnetic material, extruded process connections, a custom engineered float, and all accessories with 316 stainless steel construction. |
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AT200
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| The AT200 Magnetostrictive Level Transmitter is Used as a Direct Insert for the KM26 Magnetic Level Gauge to Create a Complete Level Measuring System for a Wide Range of Total and Interface Applications. The AT200 Transmitter Features One Moving Part, a Float, that Provides Continuous Level Reading Via Common Industry Protocols Such as 4-20 mA, HART, Honeywell DE, Foundation Fieldbus, while Deriving its Source of Power from the Control Loop. The Transmitter Detects the Position of the Float within the Float Chamber by Using "Time of Flight" Technology to Calculate Distance. The Resulting, Non-Contact, Level Measurement is Highly Accurate. |
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AT100
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| The AT100 is Based Upon the Magnetostrictive Principle. The Sensing Tube Contains a Wire, which is Pulsed at Fixed Time Intervals and the Interaction of the Current Pulse with the Magnetic Field Created by the Magnetic Float. This Causes a Torsional Stress Wave to be Induced in the Wire. This Torsion Propagates Along the Wire at a Known Velocity from the Position of the Magnetic Float and Toward Both Ends of the Wire. A Patented Piezo-Magnetic Sensing Element Placed in the Transmitter Assembly Converts the Received Mechanical Torsion into an Electrical Return Pulse. The Microprocessor-Based Electronics Measures the Elapsed Time Between the Start and Return Pulses and Converts it into a 4-20 mA Output, which is Proportional to the Level Being Measured. |
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MT2000
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| This product is discontinued. Please contact a K-TEK sales representative for a similar part. |
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LS Series
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| K-TEK’s LS Series Mechanical Level Switches are the most rugged and durable liquid point-level detection products in the industrial marketplace today. K-TEK innovations such as the one-step switch point adjust and the hermetically sealed/dual compartment switching mechanism have eliminated the need for bulky housing covers that are associated with cracking, moisture ingress, high temperature fatigue, and ultimately switch failure. This configuration guide contains general guidelines and ordering data that will assist you in selecting the best float or displacer operated switch for your specific fluid level application. These switches are available in flanged or sealed chambers or as insertion models. K-TEK has over 100 configurations available.
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MAGWAVE
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| The MagWave is a level measurement system which combines a highly visible magnetic level indication with an output from a Guided Wave Radar Transmitter. The MagWave features two separate close-coupled chambers for the level indicator float and the Guided Wave Radar antenna. Using single probe radar transmitters in the standard 1-1/2 inch chamber provides the measurement capabilities of coaxial style probes without the potential for fouling due to buildup. The separate float chamber allows the float to travel unobstructed throughout the range of measurement. Redundant level control can be achieved by adding a magnetostrictive transmitter or switches to the float chamber.
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High Temperature
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| K-TEK KM26 Magnetic Liquid Level Gauges are Fabricated to Suit Specific Process Requirements. For Extreme Temperature Environments, the KM26 MLG is factory furnished/fabricated to offer Heat Tracing and High Temperature Insulation. |
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Low Temperature
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| K-TEK KM26 Magnetic Level Gauges are Fabricated to Suit Specific Process Requirements. For Low Temp Insulation purposes, K-TEK offers the KM26 the Low Temperature Gauge. |
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MT5000
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| The MT5000 Series Guided Wave Radar transmitters feature a graphic display incorporated into an all digital electronics module. Using this new format K-TEK has been able to add waveform screens to the modular electronics along with easy to follow multiple choice setup menus. These menus can be changed to many different languages for easy commissioning throughout the world.
MT5000 Series Guided Wave Radar transmitters provide superior performance in tough applications. Pulses of microwave energy are directed to the product surface using a rigid rod or flexible cable type probe. This assembly has no moving parts and no loss of energy due to beam divergence.
Multiple coupler and probe types are available to accommodate applications such as knock out drums, feed water heaters, production vessels and separators. 316L stainless steel is the standard probe material however materials such as Hastelloy C-276 and Monel are available for use in acidic or caustic services.
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MT5100
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| The MT5000 Series Guided Wave Radar transmitters feature a graphic display incorporated into an all digital electronics module. Using this new format K-TEK has been able to add waveform screens to the modular electronics along with easy to follow multiple choice setup menus. These menus can be changed to many different languages for easy commissioning throughout the world.
MT5000 Series Guided Wave Radar transmitters provide superior performance in tough applications. Pulses of microwave energy are directed to the product surface using a rigid rod or flexible cable type probe. This assembly has no moving parts and no loss of energy due to beam divergence.
Multiple coupler and probe types are available to accommodate applications such as knock out drums, feed water heaters, production vessels and separators. 316L stainless steel is the standard probe material however materials such as Hastelloy C-276 and Monel are available for use in acidic or caustic services.
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RS85
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| The Resonator utilizes a piezoelectric driven tuning fork that exhibits a large change in resonant frequency when immersed in any liquid. A "smart" microprocessor-based electronic unit keeps the sensor in a resonant state as it changes from dry to wet or wet to dry. The resonant frequency is continuously monitored for changes created by a wet or dry sensor and an alarm is provided via relay. The RS85 should be used when the application requires optional process connections, exotic materials of construction, coatings, finishes or adjustable time delay and density set point. |
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AT200VP
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| The AT200 Valve Positioner is a compact, high accuracy valve position transmitter that uses K-TEK’s patented Magnetostrictive sensing technology. In the valve positioning application, the transmitter is bolted to the yoke of the actuator with two (2) mounting brackets that are supplied with the transmitter. A third bracket is secured to the stem connector. This bracket holds the magnet that provides the signal to the transmitter. |
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Flanges
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| Flange Designations for Welded & Loose Process Connections for Transmitters & Switches |
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EC
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| Displacer Replacer & External Chamber for Side3 of Tank Mouting of Float Level Switches and Transmitters |
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RI100
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| The RI100 Repeat Indicator is a loop powered device designed to provide a 4-20 mA output based on process variable information provided by a primary transmitter. The RI100 gathers its data through a parallel connection using HART communications. It can be used in combination with AT100, AT200, MT2000 and MT5100 transmitters and is typically used to provide an output for a secondary level indication. |
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KSONIK™ I
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| The KSONIK™ I is an Ultrasonic Level Transmitter capable of measuring liquid level or solid applications up to 50 ft. / 15 meters or flow rates in all types of open channel flow applications. The transmitter has a single 4-20 mADC analog output and three (3) relay outputs. A transducer is fitted to the top of a silo or tank, facing down towards the material being measured. The transmitter’s microprocessor simultaneously fires an electronic pulse to the transducer and starts a timer. The transducer converts this electronic pulse to an acoustic pulse, which is directed toward the surface of the material being measured. When the acoustic pulse contacts the surface of the material, energy is reflected back to the transducer, which converts this reflected energy back to an electronic pulse. This pulse is sent back to the microprocessor, which stops the timer and determines the “time of flight” of the signal. By combining the speed of sound through air and the “time of flight” of the pulse, the microprocessor accurately determines the level of the product. Powerful software removes false echoes from the signal and electronic filters remove ambient noise. |
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MICRO
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| The KSONIK™ MICRO Ultrasonic Level Transmitter or Switch is designed to measure liquid (32 ft. / 10 m) and bulk solids (10 ft. / 3 m) levels. The range can be configured by the keyboard and display. The MICRO is mounted on top of the vessel or tank. The microprocessor in the MICRO fires an electronic pulse that the transducer converts into an acoustic pulse. The pulse travels to the level that is being measured and is reflected back to the transducer. The transducer then converts the energy back into an electronic signal and stops the counter in the microprocessor, which then knowing the speed of sound through the air, can accurately determine the distance. The powerful software removes false echoes and the electronic filter removes ambient noise. |
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MICRO LP
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| The KSONIK™ MICRO LP Ultrasonic Level Transmitter is designed to measure liquid (16 ft. / 5 m) levels. The range can be configured by the keyboard and display. The MICRO LP is mounted on top of the vessel or tank. The microprocessor in the MICRO LP fires an electronic pulse that the transducer converts into an acoustic pulse. The pulse travels to the level that is being measured and is reflected back to the transducer. The transducer then converts the energy back into an electronic signal and stops the counter in the microprocessor, which then knowing the speed of sound through the air, can accurately determine the distance. The powerful software removes false echoes and the electronic filter removes ambient noise. |
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KSONIK™ III
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| The KSONIK™ III is an Ultrasonic Level Transmitter capable of measuring two separate levels in liquid or solid applications up to 195 ft. / 60 meters, or flow rates in all types of open channel flow applications. The unit is available with two 4-20 mADC analog and five (5) relay outputs. A system can consist of up to two transducers and a single transmitter with the transducer(s) installed at the top of a silo or tank, facing down towards the material being measured. The transmitter’s microprocessor simultaneously fires an electronic pulse to the transducer and starts a timer. The transducer converts this electronic pulse to an acoustic pulse, which is directed toward the surface of the material being measured. When the acoustic pulse contacts the surface of the material, energy is reflected back to the transducer, which converts this reflected energy back to an electronic pulse. This pulse is sent back to the microprocessor, which stops the timer and determines the “time of flight” of the signal. By combining the speed of sound through air and the “time of flight” of the pulse, the microprocessor accurately determines the level of the product. Powerful software removes false echoes from the signal and electronic filters remove ambient noise. |
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K10C
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| The K10 and K10C is a General Purpose Transducer that can be used with the KSONIK™ I and III Transmitters in both Liquid and Solid Applications. |
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