MAGNETOSTRICTIVE LEVEL TRANSMITTER

MAGNETOSTRICTION WORKS LOW-VOLTAGE PULSE On-board electronics send a low-voltage electrical pulse down the magnetostrictive wire at the speed of light, ten times per second. MAGNETS Magnets contained within the float focus their energy toward the wire at the precise location of the liquid level. DIRECT INSERTION TWIST Interaction between the magnetic field, electrical pulse, and magnetostrictive wire cause a slight mechanical disturbance in the wire that travels back up the probe at the speed of sound. PIEZOELECTRIC CRYSTALS The mechanical wave is converted back into electrical energy by two...

A Versatile, High-Performance Level Measurement Solution The Jupiter® Model JM4 magnetostrictive transmitter can solve challenging level applications in a variety of ways. With its magnetic-based operating principle, Jupiter can be directly inserted into the top of a vessel via an assortment of connection types, or mounted on the outside of a magnetic level indicator (MLI). STILLING WELL DUAL-LEVEL MEASUREMENT CUSTOM FLOAT DESIGN JUPITER® ON ATLAS TOP MOUNT MLI JUPITER® IN EXTERNAL CHAMBER

HIGH ACCURACY MEASUREMENT REMOVABLE & ROTATABLE TRANSMITTER HEAD In an era of technologically advanced “smart” instruments, plants and operators are investing and placing more reliance in device networks which deliver reliable level measurement with a high degree of accuracy. The Jupiter magnetostrictive level transmitter is capable of measuring with an impressive accuracy of ±0.05 inches (1.3 mm), allowing facilities tighter level tolerances, optimizing their process operations and generating greater ROI. Jupiter possesses a comprehensive array of advanced diagnostics and real-time performance...

REMOTE MOUNT OPTION IDEAL FOR INSTALLATION SPACE CONSTRAINTS 45° ANGLED ENCLOSURE CONVENIENT VISIBILITY & ACCESSIBILITY

BUOYANCY A VERSATILE SOLUTION FOR A VARIETY OF APPLICATION CHALLENGES Buoyancy-based technologies have been utilized in the process instrumentation world for generations and are widely considered to provide reliable, accurate level measurement in an extensive range of applications and service conditions. Jupiter capitalizes on the benefits of buoyancy such as ease of installation, minimized configuration, ability to check calibration either by moving the float or utilizing an external magnetic field, customization of float size/shape/ materials, and high pressures. With the amazing accuracy of...

A SIMPLE, FEATURE-RICH USER INTERFACE Jupiter® takes the user experience to new levels of convenience and functionality with an information-rich display and an easy-to-navigate menu. With the new graphic LCD, waveforms are viewable locally at the device. You can also interface with Jupiter via a capable DCS or handheld communicator that utilize DDs/EDDL for remote connectivity. A fully redesigned and upgraded DTM puts real-time and historical trend data at your fingertips. With a basic laptop, a HART modem, and the free-to-download program PACTware™, the transmitter can be accessed locally or...

JUPITER MODEL JM4 LEVEL TRANSMITTER | SPECIFICATIONS System Design Magnetostriction-based mechanical response signal Measurement Principle Input Measured Variable Level, response signal time of flight Output 4 to 20 mA with HART: 3.8 mA to 20.5 mA usable (per NAMUR NE43) Foundation fieldbusTM: H1 (ITK Ver. 6.1.1) Resolution Analog: Digital Display: Loop Resistance Diagnostic Alarm Selectable: 3.6 mA, 22 mA (meets requirements of NAMUR NE 43), or HOLD last output User Interface Keypad 4-button menu-driven data entry Graphic liquid crystal display with viewable echo curve Digital Communication...

Performance Linearity 0.030 in. (.8 mm) or 0.01% of probe length, whichever is greater ±0.01% full scale or ±0.05 in (1.3 mm), whichever is greater ±0.005% of full span or 0.014 in, whichever is greater Response Time Initialization Time Less than 10 seconds Ambient Temperature Effect Approx. ±0.02% of probe length/degree C Execution Time 15 msec (30 msec PID, Signal Characterizer Block) Calibration Points Up to 5-point calibration (upon request) Foundation fieldbusTM ITK Version Link Master (LAS)—selectable ON/OFF Function Blocks (6) Al, (2) Transducer, (1) Resource, (1) Arithmetic, (1) Input...

PHYSICAL DIMENSIONS DIRECT INSERTION Offset Mount Cryogenic Offset Mount dashed line represents cryogenic insulation

JUPITER JM4 MODEL NUMBER | TRANSMITTER HEAD Foundation fieldbus Communications ™ SIL 2/3 Certified - HART only Aluminum, Dual-Compartment Stainless Steel, Dual-Compartment 10 CONDUIT CONNECTION & SUNSHADE OPTION required for FOUNDATION fieldbus™ SEE NOTE 1 SIL certificate and FMEDA report available No Digital Display and Keypad- Integral No Digital Display and Keypad - Remote 36” (0.91m) No Digital Display and Keypad - Remote 144” (3.6m) Digital Display and Keypad - Integral Digital Display and Keypad - Remote 36” (0.91m) Digital Display and Keypad - Remote 144” (3.6m) Transmitter Head Dimensions...

JUPITER JM4 MODEL NUMBER | EXTERNAL MOUNT PROBE Probe length to be provided in inches Probe length to be provided in centimeters STANDARD Top Mount Offset STANDARD Bottom Mount Offset HIGH-TEMP Top Mount Offset HIGH-TEMP Bottom Mount Offset CRYOGENIC Top Mount Offset CRYOGENIC Bottom Mount Offset suitable for process temperatures -40 to +500 °F (-40 to +260 °C) SEE NOTE 1 suitable for process temperatures +501 to +850 °F (+261 to +454 °C) SEE NOTE 1 suitable for process temperatures -320 to +150 °F (-196 to +66 °C) MLI insulation required for maximum temperature Left side mount (standard) Right...

8 CHAMBER SIZE (FOR MOUNTING HARDWARE) Select these options if chamber DOES NOT contain high-temp insulation 2” (or if digit 20 of MLI model code is 1, 2, or 7) 21⁄2” or if digit 20 of MLI model code is 3, 4, 5, or 6) 3” (or if digit 20 of MLI model code is A, B, C, or D) 4” (or if digit 20 of MLI model code is E, F, G, H, or J) None. No mounting clamps required. ⁄4” (for Atlas Top Mount Configuration only) Select these options if chamber DOES contain high-temp insulation 2” (or if digit 20 of MLI model code is 1, 2, or 7) 21⁄2” or if digit 20 of MLI model code is 3, 4, 5, or 6) 3” (or if digit...