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- Tilt Measurement Product Selection Guide
- Televac® Vacuum Measurement Product Selection Guide
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- MX200 Profinet Beta Invitation
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- Electrolytic Tilt Sensors for Railway Monitoring
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- Liquefied Natural Gas (LNG), Industrial Gas, Cryogenics
- National Labs, Research and Development
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- Televac® Vacuum Measurement Converter
- Web Serial Terminal
- Tilt Measurement Product Overview
- Request a Quote
- High Precision Inclinometers
- Resources
- 0729-1723-99 Instruction Manual
- 2-2100-016 – 2A Thermocouple NW16/KF16 Nickel-Plated Brass STEP
- ApexTwo (F260-21A-018-00) Datasheet
- ApexTwo (F260-21A-018-00) STEP
- Arduino Analog Communications INO File
- Case Study: Custom High Performance Tilt Sensor for Hydraulic Leveling Applications
- MX200 Datasheet
- MX200 Instruction Manual
- 0729-1727-99 Instruction Manual
- 2-2126-030 – 2A Thermocouple NW16/KF16 Stainless Steel STEP
- Arduino PWM Communications INO File
- F203-00A-212-00 Datasheet
- F203-00A-212-00 STEP
- MX200 EthernetIP Datasheet
- MX200 EthernetIP Instuction Manual Addendum
- Reliable, Rugged, and Repeatable: Electrolytic Tilt Sensors Alive and Well in 2017
- 0729-1730-99 Instruction Manual
- 2-2126-045 – 2A Thermocouple 4-VCR Female Stainless Steel STEP
- 2-2126-050 – 2A Thermocouple CF16/1.33″ CF-F Stainless Steel STEP
- Arduino RS-232 Communications INO File
- F225-00T-003-01 Datasheet
- F225-00T-003-01 STEP
- MV2A Datasheet
- MV2A Instruction Manual
- Sensing Danger: How inclinometers & tilt switches improve MEWP safety
- 0703-0703-99 Datasheet
- 0729-1731-99 Instruction Manual
- 1-6200-005 STEP
- 2-2119-016 – 4A Convection NW16/KF16 Nickel-Plated Brass STEP
- Arduino RS-485 Communications INO File
- Compact 2A Datasheet
- Compact 2A Instruction Manual
- Structural Monitoring Case Study: Resensys
- 0703-0711-99 Datasheet
- 0729-1736-99 Instruction Manual
- 1-6200-006 STEP
- 2-2120-030 – 4A Convection NW16/KF16 Stainless Steel STEP
- Arduino SPI Communications INO File
- VacuGuard™ Datasheet
- VacuGuard™ Instruction Manual
- 0703-1602-99 Datasheet
- 0729-1740-99 Instruction Manual
- 1-6200-006-MV7 STEP
- 2-2120-045 – 4A Convection 4-VCR Female Stainless Steel STEP
- 2-2120-050 – 4A Convection CF16/1.33″ CF-F Stainless Steel STEP
- Arduino UART/TTL Communications INO File
- B2A Portable Datasheet
- B2A Portable Instruction Manual
- 0703-1603-99 Datasheet
- 0729-1756-99 Instruction Manual
- 1-6200-007 STEP
- 2-2146-052 – 7FC Cold Cathode CF40/2.75″ CF-F Stainless Steel STEP
- MX2A Datasheet
- MX2A Instruction Manual
- 0711-0763-99 Datasheet
- 0729-1757-99 Instruction Manual
- 1-6200-008 STEP
- 2-2146-053 – 7FCS Cold Cathode CF40/2.75″ CF-F Stainless Steel STEP
- MX4A Datasheet
- MX4A Instruction Manual
- 0711-0768-99 Datasheet
- 0729-1758-99 Instruction Manual
- 1-6200-008-MV7 STEP
- 2-7900-03X – MX200 Vacuum Controller STEP
- MX7B Datasheet
- MX7B Instruction Manual
- 0703-1602-99 STEP
- 0717-4304-99 Datasheet
- 0717-4313-99 STEP
- 0729-1763-XX Instruction Manual
- 2-7980-031 – CC-10 Wide Range NW25/KF25 Stainless Steel STEP
- MX7M Datasheet
- MX7M Instruction Manual
- 0717-4313-99 Datasheet
- 0717-4315-99 STEP
- 0750 Series MEMS Instruction Manual
- 2-7980-032 – CC-10 Wide Range NW40/KF40 Stainless Steel STEP
- MX EthernetIP Gateway Datasheet
- MX EthernetIP Gateway Instruction Manual
- 0717-4315-99 Datasheet
- 0717-4318-99 STEP
- 0751 Series MEMS Instruction Manual
- 2-7980-052 – CC-10 Wide Range CF40/2.75″ CF-F Stainless Steel STEP
- CC-10 Datasheet
- CC-10 Instruction Manual
- 0717-4318-99 Datasheet
- 0717-4319-99 STEP
- 1-6200-002 Instruction Manual
- 2-8930-125 – MX4A NW25/KF25 Stainless Steel STEP
- 2A Datasheet
- CC-10 Remote Display Instruction Manual
- 0717-4319-99 Datasheet
- 0717-4326-99 STEP
- 1-6200-008 Instruction Manual
- 2-8930-131 – MX4A NW25/KF25 Nickel-Plated Brass STEP
- 2A VacuMini Datasheet
- MC300 Instruction Manual
- 0717-4321-99 Datasheet
- 0729-1751-99 STEP
- 2-8930-152 – MX4A CF40/2.75″ CF-F Stainless Steel STEP
- 2A NASA Mini Datasheet
- MM200 Instruction Manual
- 0717-4322-99 Datasheet
- 0729-1752-99 STEP
- 2-8950-CF40 – MX7M CF40/2.75″ CF-F Stainless Steel STEP
- 2V6 Datasheet
- MP2AR Instruction Manual
- 0717-4323-99 Datasheet
- 0729-1753-99 STEP
- 4A Datasheet
- MP4AR Instruction Manual
- 0717-4326-99 Datasheet
- 0729-1754-99 STEP
- 1E Datasheet
- MP3DR Instruction Manual
- 0719-1138-99 Datasheet
- 0729-1755-99 STEP
- 1F Datasheet
- 0719-1143-99 Datasheet
- 0729-1759-99 STEP
- 7B Datasheet
- MP7ER/MP7FR Instruction Manual
- 0719-3703-99 Datasheet
- 0729-1760-99 STEP
- 7E Datasheet
- 0719-3705-99 Datasheet
- 0729-1765-99 STEP
- 7F Datasheet
- 0728-1025-99 Datasheet
- 0729-1767-99 STEP
- 7FC Datasheet
- 0729-1736-99 Datasheet
- 0729-1768-99 STEP
- 7FCS Datasheet
- 0729-1751-99 Datasheet
- 0729-1769-99 STEP
- MC300 Datasheet
- 0729-1752-99 Datasheet
- MM200 Datasheet
- 0729-1753-99 Datasheet
- MP2AR Datasheet
- 0729-1754-99 Datasheet
- MP3DR Datasheet
- 0729-1755-99 Datasheet
- MP4AR Datasheet
- 0729-1757-99 Datasheet
- MP7ER Datasheet
- 0729-1758-99 Datasheet
- MP7FR Datasheet
- 0729-1759-99 Datasheet
- 3F Datasheet
- 0729-1760-04 Datasheet
- 0729-1760-99 Datasheet
- 0729-1763-XX Datasheet
- 0729-1765-99 Datasheet
- 0737-0101-99 Datasheet
- 0737-0604-99 Datasheet
- 0737-1203-99 Datasheet
- 0750-3002-99 Datasheet
- 0750-9002-99 Datasheet
- 0751-3002-99 Datasheet
- 0751-9002-99 Datasheet
- 1-6200-005 Datasheet
- 1-6200-006 Datasheet
- 1-6200-006-MV7 Datasheet
- 1-6200-007 Datasheet
- 1-6200-008 Datasheet
- 1-6200-008-MV7 Datasheet
- 1-6200-012 Datasheet
- Case Study: Argonne National Laboratory
- MX Active Gauge EthernetIP Gateway EDS File
- MX200 EthernetIP EDS File
- Televac MX7M Cold Cathode Disassembly Video
- Televac MX7B Cold Cathode Disassembly Video
- Typical Output Behavior – 0717-4318-99, 0729-17XX-99 (Download .xlsx)
- Televac Product Catalog
- Typical Output Behavior – 0717-4318-99, 0729-17XX-99 (View on Office.com)
- E-Commerce Launch Video
- MX200 Configurator Tool Demonstration Video
- Televac MX4A Convection Demonstration Video
- Televac MX4A Convection Overview Video
- Televac MX2A Thermocouple Demonstration Video
- Televac MX2A Thermocouple Overview Video
- Televac 7E Cold Cathode Sensor Disassembly Video
- Televac 7FC/7FCS Cold Cathode Sensor Disassembly Video
- Televac 7B Cold Cathode Gauge Disassembly Video
- Televac MX200 Demonstration Video
- Televac MX2A Sensor Replacement Video
- Televac 7B Cleaning Instruction Video
- Televac MX7B Cold Cathode Overview Video
- What Is An Electrolytic Tilt Sensor?
- So You Want To Measure Vacuum?
- Televac Vacuum Resources
- Tilt Measurement Resources
- Vacuum Gauges for Vacuum Distillation Equipment
- Vacuum Measurement for Cryogenics and Industrial Gases
- Vacuum Controllers and Gauges for Freeze Drying
- Vacuum Measurement Solutions for the Medical Industry
- Vacuum Controllers and Gauges for Laboratory Ovens
- Vacuum Controllers and Gauges for Vacuum Glove Boxes
- Videos
- Vacuum Measurement Using Modern Cold Cathode Technology
- Televac® Vacuum Measurement Reps and Distributors
- Representatives and Distributors
- Tilt Measurement Reps and Distributors
- B2A
- Vacuguard
- Sample Applications
- Application Notes
- AN 1000: Electrolytic Tilt Sensor Excitation
- Televac AN 3000: MX Series Replacement of MP Series Active Gauges
- AN 1001: Temperature Compensation of Electrolytic Tilt Sensors
- Televac AN 3001: Comparison of the MX2A and MX4A Active Gauges
- Televac AN 3002: Cleaning the 7B and 7E Cold Cathode Passive Gauges
- AN 1002: Definitions of Electrolytic Tilt Sensor Operating Specifications
- Televac AN 3004: Cleaning the 7FC and 7FCS Cold Cathode Passive Gauges
- AN 1003: Configuring Tera Term for Use with TFC Tilt Products
- AN 1004: Inclinometers for Solar Tracking Systems
- Televac AN 3006: Resetting the MM200 Data Memory
- AN 1005: Converting Tilt Angle to Degrees
- Televac AN 3007: Changing the MM200 Analog Output Settings
- AN 1006: Obtaining Measurements from TFC Signal Conditioners
- Televac AN 3008: MX200 to PC Interfacing and Communications
- Televac AN 3009: MM200 to PC Interfacing and Communications
- Televac AN 3010: Torr Scientific/Torr Decimal/mTorr/Micron Conversions
- Televac AN 3011: MX200 and MM200 Analog Output Comparisons
- Televac AN 3015: Recommended Practices for Vacuum Calibration
- Televac AN 3016: MX200 EthernetIP Loading EDS Files for Rockwell Automation Allen-Bradley CompactLogix PLCs
- Televac AN 3017: MX200 EthernetIP Setup and Troubleshooting Guide for EthernetIP Option 1
- Televac AN 3018: MX200 EthernetIP Setup and Troubleshooting Guide for EthernetIP Option 2
- Televac AN 3020: Vacuum Terminology Reference
- Televac AN 3022: Automatic Control of an MP7ER/MP7FR with an MX2A/MX4A
- Televac AN 3023: Automatic Control of an MX7B/MX7M with an MX2A/MX4A
- Televac AN 3024: Automatic Control of an MX7B/MX7M with an MP2AR/MP4AR
- Televac AN 3025: Hot Ion Vacuum Gauge Degas Instructions for the MM200
- Televac AN 3028: Televac® Simulators
- Televac AN 3029: Televac® EthernetIP Vacuum Controllers Creating and Mapping Class 3 Connections for Rockwell Automation Allen-Bradley CompactLogix PLCs
- Televac Tolerances
- Technical Information
- Blog
- Tilt Measurement
- Televac® Vacuum Gauges
- Products
- About Us
- Precision Components
- News & Events
- End-Use/End-User Statement
- Contact Us – Marketing Test Page
- Contact Us
Tilt Measurement Products
Tilt Sensors
Wide Range Tilt Sensors
Mid Range Tilt Sensors
Narrow Range Tilt Sensors
Glass Wide Range Sensors
Glass Mid Range Sensors
Glass Narrow Range Sensors
Micro-Arch Wide Range Sensors
Tilt Sensor Legacy Products
Tilt Sensors Assemblies
Signal Conditioning Boards
Inclinometers
Tilt Switches
Televac® Vacuum Measurement Products
Passive Vacuum Gauges
Active Vacuum Gauges
Portable Controllers
Controllers
Custom Filaments
Accessories
Legacy Products
Blog Posts
- Employee Spotlight: Debra Holeman
- Employee Spotlight: Samuel “Sam” Huat
- Televac® MM200 and MC300 Vacuum Controller End-of-Life Notice
- Heat Treat E-Commerce: A Growing Trend or a Passing Fad?
- 2021 Greater Philadelphia Manufacturing Summit Webinar
- Employee Spotlight: Jaclyn Branham
- Visit us at Booth #1707 during Heat Treat 2021
- Ask Art: Women Business Owners with Heidi McKenna
- Televac® Launches New MX7M Cold Cathode Active Gauge
- Employee Spotlight: Sharyl Puskar
- Employee Spotlight: Shawn Orr
- Employee Spotlight: Bob Keller
- Fredericks Company Celebrates 85-Years
- 2 Week Lead Time with Televac
- EthernetIP Gateway: The First Solution for EthernetIP and Active Vacuum Gauges
- Employee Spotlight: Global Sales Manager Jeremy Snow
- Building Your Next MX200 Just Got Easier
- [Update] The Fredericks Company and Temple University Approved for the Manufacturing PA Innovation Program Award
- Labor Day Picnic and Cornhole Competition
- 30th Heat Treating Society Conference & Exposition
- The Fredericks Company Featured in ‘What’s So Cool About Manufacturing?’
- Use Case: Custom Tilt Sensor for Hydraulic Leveling Application
- What’s the difference between an accelerometer and a tilt sensor?
- PA Senator Haywood Visits The Fredericks Company
- October 5 is National Manufacturing Day
- Televac Introduces the MX Active Gauge EthernetIP Gateway, the Only Network Communication Solution of Its Kind
- Televac adds to active vacuum gauge family with new MX7B Penning cold cathode gauge
- New Televac MX7B Active Vacuum Gauge
- Televac to Sponsor Furnaces North America 2018
- 2018 NSLS-II CFN Users Meeting at Brookhaven National Lab
- 2018 APS/CNM Users Meeting at Argonne National Lab
- 3 Common Misconceptions on Inclinometers and Solar Tracking Systems
- One-minute read: MX2A Sensor Disassembly
- ASM 29th Heat Treating Society Conference & Expo 2017
- One-Minute Read: 4A Convection Sensor Offers Improved Accuracy
- Fredericks Announces Launch of The ApexOne, a Versatile Single Axis Inclinometer
- New Safety Regulations: Tilt Sensors and MEWPs [Infographic]
- FAQ: What Does It Take to Be An Electrical Engineer
- Employee Spotlight: Purchasing Manager Cindy Seipp
- New Televac Modular Vacuum Controller Model Offers EthernetIP Capability
- New Product: The MX200 with EthernetIP Capability
- The Fredericks Company Announces Official Launch of the 0729-1763-XX Dual Axis Tilt Switch
- Infographic: 4 Reasons to Make the Switch to Electrolytic Tilt Sensors
- Employee Spotlight: Vacuum Scientist Darren Weinhold
- Happy Holidays and Happy New Year!
- How to Ensure Workplace Safety with Tilt Sensors
- Back to Basics: Sensors and Signals (Part 1)
- 7 Reasons to Upgrade from MM200 to MX200
- Fredericks Featured in Pennsylvania Manufacturing: Alive and Well
- Our First Blog: 5 Things You Should Know About Us and Our Blog
- The Fredericks Company Recognized for Significant Statewide Impact in Premier Publication
- Pennsylvania Manufacturing: Alive and Well
- New Televac Modular Vacuum Controller Offers Expanded Communications
- New Tilt Sensor Enables Accurate Performance in Industrial Applications
- New Tilt Sensor Helps to Prevent Unsafe Working Conditions
- The Fredericks Company Signals Brand Evolution With New Logo and Website
- The Fredericks Company Receives Nomination for Prestigious 2013 Pennsylvania Governor’s Impact Award
- Fredericks expands line of Microprocessor-Based output dual axis Inclinometers to include RS 232 and RS 485 communications
- Televac Vacuum Measurement Gauges Prominently Featured In New Vacuum Heat Treatment Book
- New Rollover Mitigation System (v-pro) Provides Warning Of Hazardous Rollover Conditions For Light, Medium, And Tactical Defense, Government, Fire And Emergency Vehicles
- New RS-485 Mini-Signal Conditioning Board Provides Cost-Effective Solution That Can Be Integrated Into Larger Control Systems Or Used To Evaluate Fredericks Company Tilt Sensors
- New “Low Profile” Single and Dual-Axis Wide-Range Electrolytic Tilt Sensors Feature Lower Profile for Limited Height OEM Applications
- New Dual Axis Inclinometer Offers Microprocessor-Based Electronics With Analog Output For Solar Tracking, Industrial & OEM Applications
- New Fredericks Mid-Range Electrolytic Tilt Sensor Provides Highly Repeatable Mid-Range +10° Angle Measurement With A Linear Output
- New Electrolytic Tilt Sensor With Patented “Thin Film” Technology Offers Sub Arc Second Measurement And Is Less Expensive Than Traditional High Accuracy Type Tilt Sensors