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1F Diaphram
1 - 7,600 Torr

1E Diaphram
1 - 1,000 Torr

4A Convection
10^-3 - 1,000 Torr

MX4A Convection
10^-4 - 1,000 Torr

2A Thermocouple
10^-3 - 20 Torr

MX2A Thermocouple
10^-4 - 1,000 Torr

CC10 Crystal / Cold Cathode Combination
10^-9 - 1,000 Torr

7B2 Cold Cathode
10^-7 - 10^-3 Torr

MX7B Cold Cathode
10^-8 - 10^-3 Torr

7E Cold Cathode
10^-8 - 10^-2 Torr

7F Cold Cathode
10^-11 - 10^-2 Torr

3F Mini Metal Bayard-Alpert Hot Ion
10^-10 - 10^-2 Torr

ETI 4336 Glass Envelope Bayard-Alpert
10^-10 - 10^-3 Torr

ETI 8142 Glass Envelope Bayard-Alpert
10^-10 - 10^-2 Torr

ETI 8130 Nude Bayard-Alpert
10^-10 - 10^-3 Torr

ETI 8140 Nude Bayard-Alpert
10^-11 - 10^-2 Torr

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 3023: Automatic Control of an MX7B/MX7M with an MX2A/MX4A
AN 3024: Automatic Control of an MX7B/MX7M with an MP2AR/MP4AR
AN 3025: Hot Ion Vacuum Gauge Degas Instructions for the MM200
AN 3028: Televac Simulators
AN 3029: Televac EthernetIP Vacuum Controllers Creating and Mapping Class 3 Connections for Rockwell Automation Allen-Bradley CompactLogix PLCs

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

Articles

EthernetIP Communications in Heat Treat Today

Videos

E-Commerce Launch
MX200 Configurator Tool Demonstration
Televac® MX4A Convection Demonstration
Televac® MX4A Convection
Televac® MX2A Thermocouple Demonstration
Televac® MX2A Thermocouple
Televac® MX7B Cold Cathode
Televac® 7B Cleaning Instructions
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

Vacuum Controllers and Gauges for Vacuum Glove Boxes
Vacuum Controllers and Gauges for Laboratory Ovens
Vacuum Measurement Solutions for the Medical Industry
Vacuum Controllers and Gauges for Freeze Drying
Vacuum Measurement for Cryogenics and Industrial Gases
Vacuum Gauges for Vacuum Distillation Equipment
Full Range Solutions for Vacuum Furnaces
EthernetIP Solution for Vacuum Furnaces
So You Want To Measure Vacuum?
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

Social Media

Contact

The Fredericks Company
2400 Philmont Avenue
Huntingdon Valley, PA 19006

+1 215 947 2500
[email protected]

Products

Tilt Measurement
Televac Vacuum Measurement
Precision Components

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