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Televac Resources

Application Notes

Televac Tolerances

AN 3000: MX Series Replacement of MP Series Active Gauges

AN 3001: Comparison of the MX2A and MX4A Active Gauges

AN 3002: Cleaning the 7B2 and 7E Cold Cathode Vacuum Sensors

AN 3004: Cleaning the 7FC and 7FCS Cold Cathode Vacuum Sensors

AN 3006: Resetting the MM200 Data Memory

AN 3007: Changing the MM200 Analog Output Settings

AN 3008: MX200 to PC Interfacing and Communications

AN 3009: MM200 to PC Interfacing and Communications

AN 3010: Torr Scientific/Torr Decimal/mTorr/Micron Conversions

AN 3011: MX200 and MM200 Analog Output Comparisons

AN 3015: Televac Recommended Practices for Vacuum Calibration

AN 3016: Loading EDS Files for Rockwell Automation Allen-Bradley PLCs

AN 3017: MX200 EthernetIP Vacuum Controller Setup and Troubleshooting Guide (1)

AN 3018: MX200 EthernetIP Vacuum Controller Setup and Troubleshooting Guide (2)

AN 3020: Vacuum Terminology Reference

AN 3022: Automatic Control of an MP7ER/MP7FR with an MX2A/MX4A

AN 3025: Hot Ion Vacuum Gauge Degas Instructions for the MM200

Tools

• Vacuum Measurement Converter

Infographics

Vacuum Furnace Diagram – Typical Active Gauge Configuration

Do You Have What It Takes to Be an Electrical Engineer?

Features of the MX200 with Ethernet IP Vacuum Controller

Videos

Televac® MX2A Sensor Replacement

Televac® MX200 Demo

Televac® 7B Cold Cathode Gauge Disassembly

Televac® 7FC/7FCS Cold Cathode Sensor Disassembly

Televac® 7E Cold Cathode Sensor Disassembly

Brochures and Flyers

Comparison of Vacuum Controller Features MX200 and MM200

Televac – Switch now!

MX4A – Active Convection Gauge

MX200 – The solution for Vacuum Furnaces

MX200 – The solution for University Research

MX200 – Retrofit your system today!

MX200 – The solution for High Energy Physics