List of Calibration Services Provided by NMC

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List of Calibration Services Provided by NMC List of calibration services provided by NMC LENGTH AND DIMENSIONAL ELECTRICAL OPTICAL RADIATION Laser Wavelengths AC voltage reference meter Laser head Photometry AC-DC current transfer device Wavelength meter Illuminance (lux) meter AC-DC voltage transfer device Luminance meter Capacitance meter Length Measurements Luminous flux of lamps Capacitance standard Bore gauge Luminour intensity of lamps Clamp meter Depth gauge colour temperature of lamps Current shunt Calliper checker Emitted colour of lamps Earth/ Continuity tester Dial gauge calibrator Colorimeter Electrometer Dial gauge Colour rendering index of lamps Electronic load Dial test indicator CIE Averaged LED intensity, Electrostatic analyser Feeler gauge LED flux Electrostatic voltage meter Fineness of grind gauge Gloss meter Energy calibrator Gauge block Energy meter Glass scale Radiometry High voltage divider Height gauge Spectral irradiance of lamps High voltage generator Height setting micrometer Laser power meter (power) High voltage meter Indicator inspector Laser source (wavelength and High voltage probe Linear transducer & stage power) Highpot tester Micrometer UV radiometer (irradiance and Impedance meter Optical parallel radiant Impulse tester Optical flat exposure) Inductance meter Pin gauge Photodiode (spectral responsivity) Inductance standard Plastic thickness UV appliance (total effective Insulation tester Plug gauge irradiance) Low current meter Profile projector Low current source Screw pitch gauge Spectrophotometry Low magnetic field coil Stage micrometer Spectral regular transmittance Megger tester Steel rule Spectral regular reflectance Multifunction calibrator Test sieve Spectral diffuse reflectance Multimeter Thickness gauge Peak wavelength of optical filter Oil dielectric tester Thread gauge Surface colour of material Potentiometer Thread measuring cylinder Spectral optical density of material Power analyser Toolmaker microscope Refractive index of material (prism) Power calibrator Vernier/dial/digital caliper Power converter Fibre optics Power meter Angle Measurements Fibre optic power meter (power) Resistance bridge Angle gauge Wavelength meter (wavelength) Resistance standard Autocollimator Fibre optic light sources Resistivity meter Bevel protractor (wavelength and power) Transconductance amplifier Clinometer Optical spectrum analyser Voltage divider Indexing table (wavelength and power) Watt converter Polygon Optical time domain reflectometer Watt-hour meter Rotary table (distance, attenuation and return Wattmeter Sine bar/spirit level loss) Zener voltage standard Geometrical Measurements ACOUSTICS AND VIBRATION RF AND MICROWAVE 1D/2D coordinate measurement by non- AC measurement standard (broad band contact probing Acoustic option) 3D coordinate measurement Microphone AC-DC (RF-DC) transfer standard CMM performance verification Sound calibrator Air line Diameter Sound level meter Amplifier Roundness Acoustics piston-phone Attenuator Straightness Audiometer Attenuator calibrator Squareness Noise measurement Audio analyzer Surface flatness Calibration kit Surface profile Vibration Current probe Surface roughness Accelerometer Curve tracer Charge amplifier Digital stroboscope Nanoscale Measurements Power supply coupler Directional coupler Lateral Standards (1D&2D pitch gratings) Vibration calibration exciter Distortion analyser Nano-stage movement Vibration meter Filter Nano-scale surface roughness Vibration measurement Frequency calibrator Step Height Function generator Leveled sine wave generator TEMPERATURE AND HUMIDITY MASS AND FORCE Micropotentiometer Mass Microwave power meter Temperature Balances (Electronic) Microwave power sensor Mass standards Microwave power splitter Radiation thermometer Dead Weights Modulation analyzer Variable temperature blackbody furnace Volume/Density of mass standarrds Measuring receiver Thermocouple (fixed point method) Magnetic susceptibility of mass Oscilloscope Thermocouple (comparison method) standards Oscilloscope calibrator Industrial platinum resistance Pulse generator thermometer RF voltmeter Liquid in glass thermometer RF voltmeter calibrator Fixed points (for contact thermometry) Torque RMS voltmeter Fixed points (for radiation thermometry) Torque driver Scalar network analyser Standard platinum resistance thermometer Torque gauge Signal analyser Surface probes Torque tester Signal generator Dry block calibrator Torque wrench Spectrum analyser Multi-Function calibrator (temperature) SWR bridge Termination/Load Humidity Hardness Thermal voltage converter Rockwell hardness test blocks Thermister/Bolometric mount Dew point meter Thermistor mount Digital RH meter Force Time mark generator Thermohygrograph Durometer Vector network analyzer Psychrometer Dynamometer Verification kit Force gauge Force transducers GAS TIME AND FREQUENCY Gram gauge Gas detectors/analyzers Hydraulic jack Time & Frequency Standards: Load cell Load column Caesium standards Proving ring Rubidium standards Push pull gauge Quartz oscillators Spring tester GPS standards Tension gauge Compression testing machines Time & Frequency Measurement Concrete Compression testing Devices: machines Tensile testing machines Frequency/Universal counter Universal testing machines Timer interval counter Stop watch PRESSURE AND FLOW Timer Anemometer( Air velocity meter) Deadweight pressure tester Gas flow meter Leak rate meter Manometer Pressure indicator Pressure transducer Vacuum gauge Vacuum transducer For any enquiry, please contact our customer support staff at tel : 6279 1900 or fax : 6279 1992 or e-mail : [email protected]. .
Recommended publications
  • HP Journal 1955-03
    HEWLETT-PACKARD JOURNAL TECHNICAL INFORMATION FROM THE -hp- LABORATORIES Vol. 6 No. 7 ^••i LlSHED CALIFORNIA THE HEWLETT-PACKARD COMPANY, 275 PAGE MILL ROAD, PALO ALTO, CALIFORNIA MARCH, 1955 A New Standing Wave Indicator With an Expanded VSWR Scale THE widely-used -hp- Model 41 5 A Stand- instrument retains such former features as ng Wave Indicator is an instrument an alternate high-impedance input channel which measures standing-wave ratios di for use in bridge measurements and a high rectly when used in slotted line set-ups in sensitivity of 0.1 microvolt full scale. combination with detec Basically, a standing-wave indicator is a SEE ALSO: tor elements such as crys tuned audio amplifier of unusually high "New Microwave Power Meter", p. 3 tals or barretters. This sensitivity which is provided with an output instrument has now been meter and an accurate step attenuator. Since redesigned to be even more convenient to the instrument is an audio device which use through addition of an expanded VSWR measures the relative outputs of an r-f de scale, a half-step attenuator which always tector, it must be used with an r-f detector permits readings to be made in the upper and an amplitude-modulated signal (see ac half of the scale, and a new bolometer bias companying set-up diagrams). Commonly, arrangement which permits use of both 8.5 1,000-cps square- wave modulation is used. ma and 4.5 ma bolometer elements as de The Model 415B as supplied is normally tectors. An output jack for operating a re tuned to this frequency.
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  • Development of Circuitry for a Multikilowatt
    WPACE 20 FEBRUARY 1970 LIYSTEMS DEVELOPMENT OF CIRCUITRY FOR A MULTIKILOWATT TRANSMITTER FOR SPACE COMMUNICATIONS SATELLITES INTERIM TECHNICAL REPORT -Jv (AES5~ T" U),' _________ ___(CODE) (NASACR ORTMX ORADINUMBER) ------(CA- Z Reproduced by the GLE N E A E EC T R C frFC derL EARINGHOUSE alScientific &Te hnical GEN* -RA E ECT ICInformation Springfield Va 22151 1 20 February 1970 DEVELOPMENT OF CIRCUITRY FOR A MULTIKILOWATT TRANSMITTER FOR SPACE COMMUNICATIONS SATELLITES INTERIM TECHNICAL REPORT Prepared for: GEORGE C. MARSHALL SPACE FLIGHT CENTER NATIONAL AERONAUTICS AND SPACE ADMINISTRATION HUNTSVILLE, ALABAMA Contract No. NAS 8-24771 GENERAL ELECTRIC COMPANY SPACE SYSTEMS ORGANIZATION VALLEY FORGE SPACE CENTER P.O. BOX 8555 PHILADELPHIA, PA. 19101 ABSTRACT This report covers the first half of a contract on the "Development of Circuitry for a Multikilowatt Transmitter for Space Communications Satellites". This effort is a continuation of a previous study on definition of space trans­ mitters with emphasis on space TV broadcast satellites; it will culminate in a breadboard of a transmitter type applicable to a UHF AM-TV broadcast satellite. Development of about half of the transmitter was performed during the reporting interval. Of the transmitter circuits, initial development is complete for a 125 watt visual channel driver at 825.25 MHz and nearly complete for a 500 watt FM aural channel amplifier at 829.75 MHz. A crowbar circuit for dc breakdown protection has been bench tested and will be included in the final transmitter assembly. Also, RF waveguide components have been completed for inclusion in the transmitter tests. An initial approach has been selected for the high effi­ ciency Doherty UHF visual channel amplifier, and a controlled carrier circuit has been designed to achieve dc power conservation in the AM TV application.
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  • RF Power Sensor Based on MEMS Technology
    1 / 4 Rf-power-sensor Monitor 4 line different power supply (voltage & current), current sensor sold ... If you want to measure RF Power at 88 - 108 and SWR, then you cannot use .... by AN Parks · Cited by 202 — The minimal RF input power required for sensor node operation was -18 dBm (15.8 µW). Using a. 6 dBi receive antenna, the most sensitive RF harvester was.. Thermistors (Temperature Sensors). Thermistors · Sensors ... Your RF module-related questions answered by fellow connectivity professionals. SimSurfing.. USB Pulse Power Sensor AR RF/Microwave is proud to present a new line of wideband, USB peak power sensors. These PSP series sensors set the standard .... Many instruments can be used to measure radio frequency (RF) and microwave power. The most accurate one is a power sensor with a meter. The accuracy of .... For Wireless Sensor Networks Analog Circuits And Signal Processing ... fundamental issues of ultra-low power wireless communications, radio-frequency power.. Dec 11, 2020 — The LB5944A power sensor with 1 MHz to 44 GHz frequency coverage and 86 dB of dynamic range. Options to 50 GHz. No drift technology .... Bird Electronics, 4025, Power Sensor, 100 kHz - 2.5 MHz, 3 W to 10 kW, DETAILS · Bird Electronics 4421 RF Power Meter, Bird Electronics, 4421, RF Power .... by LJ Fernández · 2006 · Cited by 116 — A capacitive RF power sensor based on MEMS technology. To cite this article: L J Fernández et al 2006 J. Micromech. Microeng. 16 1099. View the article online .... Instead, it is measuring the total power over the entire bandwidth of the sensor, which for measurement purposes is practically infinite! Power meters versus ..
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  • Fundamentals of RF and Microwave Power Measurements (Part 2) Power Sensors and Instrumentation
    Keysight Technologies Fundamentals of RF and Microwave Power Measurements (Part 2) Power Sensors and Instrumentation Application Note For user convenience, the Keysight Technologies, Inc. Fundamentals of RF Fundamentals of RF and Microwave Power and Microwave Power Measurements, Measurements (Part 1) application note 64-1, literature number 5965-6330E, has been updated and Introduction to Power, History, Deinitions, International segmented into four technical subject Standards, and Traceability groupings. The following abstracts explain AN 1449-1, literature number 5988-9213EN how the total field of power measurement fundamentals is now presented. Part 1 introduces the historical basis for power measurements, and provides definitions for average, peak, and complex modulations. This application note overviews various sensor technologies needed for the diversity of test signals. It describes the hierarchy of international power traceability, yielding comparison to national standards at worldwide National Measurement Institutes (NMIs) like the U.S. National Institute of Standards and Technology. Finally, the theory and practice of power sensor comparison procedures are examined with regard to transferring calibration factors and uncertainties. A glossary is included which serves all four parts. Fundamentals of RF and Microwave Power Measurements (Part 2) Power Sensors and Instrumentation AN 1449-2, literature number 5988-9214EN Part 2 presents all the viable sensor technologies required to exploit the users’ wide range of unknown modulations and signals under test. It explains the sensor technologies, and how they came to be to meet certain measurement needs. Sensor choices range from the venerable thermistor to the innovative thermocouple to more recent improvements in diode sensors. In particular, clever variations of diode combinations are presented, which achieve ultra-wide dynamic range and square-law detection for complex modulations.
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  • Type 1362 UHF Oscillator (220-920 Megahertz)
    INSTRUCTION MANUAL .'.:: Type 1362 UHF Oscillator (220-920 Megahertz) B GENERAL RADIO Contents SPECIFICATIONS TABLE OF CONTENTS INTRODUCTION - SECTION 1 INSTALLATION - SECTION 2 OPERATING PROCEDURE - SECTION 3 APPLICATIONS - SECTION 4 PRINCIPLES OF OPERATION - SECTION 5 SERVICE AND MAINTENANCE - SECTION 6 WARRANTY We warrant that each new instrument manufactured and sold by us is free from defects in material and workmanship and that, properly used, it will perform in full accordance with applicable specifications for a period of two years after original shipment. Any instrument or component that is found within the two-year period not to meet these standards after examination by our factory, District Office, or authorized repair agency personnel will be repaired or, at our option, replaced without charge, except for tubes or batteries that have given normal service. Type 1362 UHF Oscillator (220;..920 Megahertz) B ©GENERAL RADIO COMPANY 1967 Concord, Massachusetts, U.S.A. 01742 Form 1362-0100-B January, 1971 ID-B552 SPECIFICATIONS Frequency Range: 220 to 920 MHz. A sinewave of 20 V rms, amplitude will produce ap­ Tuned Circuit: Butterfly, with no sliding contacts. proximately 30% amplitude modulation. For 400 Hz, Frequency Accuracy: ±1%. 1000 Hz and other audio frequency modulation the Type Warmup Frequency Drift: 0.2% typical total. 1311 Audio Oscillator is recommended. The Type 1263 Frequency Control: A four-inch dial with calibration Amplitude-Regulating Power Supply can be used for 0 over 300 , with a slow-motion drive of about 9 turns. I-kHz square-wave modulation, the Type 1264 Mod­ Output Power (into 50 ohms): At least 160 mW with ulating Power Supply for square-wave ,or pulse modula­ Type 1267 or 1264 Power Supply, 200 mW with Type tion.
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  • RF Power Reference for RF Power Meter Calibration
    Simple RF Power Reference For RF power meter calibration Paul Wade W1GHZ ©2006 [email protected] corrected 7/2011 You’ve just finished building a new RF power meter, like the ABPM from Down East Microwave (www.downeastmicrowave.com) – how do you calibrate it? Or perhaps you’ve acquired a surplus unit – how do you check the calibration? You need some known reference point or a friend with a calibrated meter. Some recent commercial power meters, like the HP 435, include a reference output to check and set the calibration of the meter. These fine meters are occasionally found as surplus at very reasonable prices, probably because the RF sensor heads command such exorbitant prices that the meter alone is unattractive. However, the meter is worth a modest amount for the reference output alone, to be used to check other power meters, either homebrew or older surplus. With inexpensive RF power detector chips made for wireless networking, it is easy to homebrew a good microwave power meter like ABPM – so I started thinking about ways to make a reproducible reference source for RF power. The obvious starting point was the HP 435; I looked at the schematic, but it didn’t feel right. One readily available, reproducible, component is a diode. If we use a pair of anti-parallel (back-to- back) diodes as a clipper, we get a pretty predictable voltage. Of course, the clipping action generates lots of harmonics – this is a good way to make a frequency multiplier or harmonic mixer – so a low- pass filter is needed to get a sine wave output.
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  • 1975 , Volume , Issue Oct-1975
    OCTOBER 1975 HEWLETT-PACKARD JOURNAL WP-'1 'tuH © Copr. 1949-1998 Hewlett-Packard Co. Digital Power Meter Offers Improved Accuracy, Hands-Off Operation, Systems Compatibility This four-digit general-purpose microwave power meter features autoranging, absolute or relative readings, 0.01 dB resolution, and 0.02 dB basic accuracy. Six power sensors cover a frequency range of 100 kHz to 18 GHz and a power range of -70 dBm to +35 dBm. by Allen P. Edwards BETTER DISPLAY RESOLUTION AND read high-sensitivity low-barrier Schottky-diode power ability and potentially easier interfacing with sensor (see article, page 8). The low SWR of these other equipment for systems operation are the most sensors — specified maximum SWR's are 1.1 to 1.3, immediate and obvious advantages of digital instru depending on frequency — substantially reduces mis ments over their analog counterparts. Model 436A, a match uncertainty, the major source of error in micro precision general-purpose digital power meter, wave power measurements. For example, with a sen brings these benefits and many others to the measure sor SWR of 1.1 and a source SWR of 1.3, mismatch un ment of RF and microwave power in a frequency certainty is a low ±1.5%. The power meter automati range of 100 kHz to 18 GHz and a power range of -70 cally recognizes which sensor is connected to it and dBm to +35 dBm, depending on the power sensor be ing used. Automatic and remotely programmable, the new meter is an excellent instrument for general Cover: A mini-system that laboratory use, especially in the new calculator- shows off the features and controlled mini-systems based on the Hewlett-Pack capabilities of the new ard Interface Bus (HP-IB).
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  • Basic RF Technic and Laboratory Manual
    Basic RF Technic and Laboratory Manual Dr. Haim Matzner&Shimshon Levy April 2002 2 CONTENTS I Experiment-4 Power Meter and Power Measurement 5 1Introduction 7 1.1 Prelab Exercise .............................. 7 1.2BackgroundTheory............................ 7 1.3dBanddBmTerminology........................ 7 1.4FundamentalsofRFPowerMeasurement................ 8 1.5MicrowavePowerMeter-HP-E4418................... 9 1.5.1 TheoryofOperation....................... 9 1.6TypesofPowerMeasurements...................... 10 1.7AverageandInstantenousPower.................... 10 1.8PowerofModulatedSinusoidalSignal.................. 11 1.9PulsePower................................ 12 1.10PowerSensingMethod.......................... 13 1.10.1 Thermocouple as a sensor of Power meter. ......... 13 1.10.2DiodeasaSensorofPowerMeter................ 14 1.10.3DirectionalPowerSensor..................... 16 2 Experiment Procedure 17 2.1RequiredEquipment........................... 17 2.2TurningOnthePowerMeter...................... 17 2.3 Front Panel Tour ............................. 17 2.4PowerMeterOperation.......................... 19 2.4.1 ZeroingthePowerMeter..................... 19 2.4.2 CalibratingthePowerMeter................... 19 2.5 Average Power .............................. 20 2.6 PowerofaModulatedSinusoidalSignal................ 21 2.7PulsePower................................ 21 2.8 Diode Detector .............................. 22 2.9FinalReport................................ 23 2.10Appendix-1................................ 23 2.10.1Tophaselocktwofunctiongenerator..............
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  • ROHDE & SCHWARZ NRP Datasheet
    Test Equipment Solutions Datasheet Test Equipment Solutions Ltd specialise in the second user sale, rental and distribution of quality test & measurement (T&M) equipment. We stock all major equipment types such as spectrum analyzers, signal generators, oscilloscopes, power meters, logic analysers etc from all the major suppliers such as Agilent, Tektronix, Anritsu and Rohde & Schwarz. We are focused at the professional end of the marketplace, primarily working with customers for whom high performance, quality and service are key, whilst realising the cost savings that second user equipment offers. As such, we fully test & refurbish equipment in our in-house, traceable Lab. Items are supplied with manuals, accessories and typically a full no-quibble 2 year warranty. Our staff have extensive backgrounds in T&M, totalling over 150 years of combined experience, which enables us to deliver industry-leading service and support. We endeavour to be customer focused in every way right down to the detail, such as offering free delivery on sales, covering the cost of warranty returns BOTH ways (plus supplying a loan unit, if available) and supplying a free business tool with every order. As well as the headline benefit of cost saving, second user offers shorter lead times, higher reliability and multivendor solutions. Rental, of course, is ideal for shorter term needs and offers fast delivery, flexibility, try-before-you-buy, zero capital expenditure, lower risk and off balance sheet accounting. Both second user and rental improve the key business measure of Return On Capital Employed. We are based near Heathrow Airport in the UK from where we supply test equipment worldwide.
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  • Reference Designs
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  • Pre-Owned Test Equipment for SALE
    instockIssue Issue Ausgabe Edizione Edición #5 PRE-OWNED TEST EQUIPMENT FOR SALE PRE-OWNED TEST EQUIPOS DE TEST STRUMENTI DI GEBRAUCHTE TeST- EQUIPEMENT DE EQUIPMENT FOR SALE Y MEDIDA MISURA UND MeSSGERÄTE TEST ET MESURE Save up to 70% Ahorre hasta un 70% Risparmiate fino al 70% Sie sparen bis zu 70% Economisez jusqu’à 70% In Stock NOW! ACTUALMENTE ORA in stock! JETZT auf Lager! ACTUELLEMENT en stock! en stock! £19,000 28310e £3,000 4470e £15,800 23542e £750 1118e £42,000 62580e £6,500 9685e Europe’s leader Líder europeo en Leader europeo nei Der führende Anbeiter Le leader européen in test equipment servicios de equipos servizi per strumenti in Europa des services de test services de test di misura für Testgerate d’équipement www.microlease.com/instock DEUTSCHLAND: 01804 42 00 20* ESPAÑA: 902 902 420 FRANCE: 0 810 42 00 20 IRELAND: 1800 535 096 ITALIA: 84 87 84 200 NEDERLAND: 0800 4 200 200 SVERIGE: 0771 420 020 USA: (866) 520-0200 UK & INTERNATIONAL: +44 (0)20 84 200 200 *Der Anruf kostet 20 Cent aus dem deutschen Festnetz Pre-owned tried and tested electronic test equipment Issue #5 • Thousands of products in stock, major EaSY TO ORDER instock brands Call, email [email protected] Manufacturer Product Type Options/other information Sale Price • Save up to 70% on new or visit www.microlease.com/instock. If you can’t see the specific piece of kit R3271A 3Ghz Spectrum Analyser £6,000 8940a Welcome • Reliable source – Europe’s leading test Advantest you want, call us – we add to our inventory U3641-020-026 3Ghz Spectrum Analyser 020, 026 £5,000 7450a to the latest equipment services company every day, and can source it for you.
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  • Exhibit #2 IDIQ Representative Task Order August 2019 Contract# TBD RFP 80GSFC19R0027 CONTRACT# TBD IDIQ Representative Task Order (RTO) Exhibit #2
    80GSFC19R0027 Contract #TBD Exhibit #2 Exhibit #2 IDIQ Representative Task Order August 2019 Contract# TBD RFP 80GSFC19R0027 CONTRACT# TBD IDIQ Representative Task Order (RTO) Exhibit #2 The Offeror shall propose a unit price for each item listed below. The unit price shall be multiplied by the quantity to obtain a total price per unit. The Offeror shall provide a price for the total sum of all CLINS, respectivley, CLINS 06-001 through 06-2615. CLIN Description Model Manufacturer Quantity Unit Price Total 06-001 HYGROTHERMOGRAPH 0 to 1 INCH BROWN & SHARP 1 06-002 GAUGE 0 to 1 INCH SCHERR TUMICO 1 06-003 MICROMETER 0 to 1 INCH STARRETT 1 06-004 TRANSDUCER, PRESSURE 0 to 1 TORR MKS INSTRUMENTS 1 06-005 THERMOMETER 0 to 10 °C UNKNOWN 1 06-006 SCALE 0 to 10 G TOROTRON 1 06-007 IGNITER TESTER LID 0 to 10 mA SIMPSON 1 06-008 TRANSDUCER, PRESSURE 0 to 10 TORR MKS INSTRUMENTS 1 06-009 TORQUE WRENCH 0 to 100 IN LBS UTICA 1 06-010 GAUGE, PRESSURE 0 to 100 PSIG PERMA-CAL 1 06-011 GAUGE 0 to 100 PSIG MARSHALLTOWN 1 06-012 GAUGE, PRESSURE 0 to 100 PSIG OMEGA 1 06-013 GAUGE, PRESSURE 0 to 100 PSIG ASHCROFT 1 06-014 GAUGE, PRESSURE 0 to 100 PSIG MCDANIEL 1 06-015 GAUGE, PRESSURE 0 to 100 PSIG U S GAUGE 1 06-016 GAUGE 0 to 100 PSIG WEKSLER 1 06-017 TRANSDUCER, PRESSURE 0 to 100 TORR MKS INSTRUMENTS 1 06-018 SCALE 0 to 1000 LBS FAIRBANKS 1 06-019 GAUGE, PRESSURE 0 to 1000 PSIG MARSH INSTRUMENT CO 1 06-020 GAUGE, PRESSURE 0 to 1000 PSIG ASHCROFT 1 06-021 TRANSDUCER, PRESSURE 0 to 1000 TORR MKS INSTRUMENTS 1 06-022 GAUGE, PRESSURE 0 to 10000 PSIG ENERPAC 1 06-023 GAUGE, PRESSURE 0 to 10000 PSIG 3D INSTRUMENTS, INC.
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