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Myron L (CS52) Conductivity Cell (CS52) (Ranges > 20,000 MS)

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Myron L (CS52) Conductivity Cell (CS52) (Ranges > 20,000 MS)

The Myron L CS52 Conductivity Cell is an industrial-grade sensor designed for continuous inline monitoring of high-conductivity water in ranges exceeding 20,000 microsiemens. Built with 316 stainless steel and Teflon wetted materials, this cell features dual O-ring sealing and integrated temperature compensation for reliable performance in demanding process environments.
SPECIFICATIONS

CS52 Cell Core Features

Conductivity Range
> 20,000 μS
For high-TDS applications
Wetted Materials
316 SS + Teflon
Chemical resistant construction
Temperature Comp
Integrated
Automatic for accuracy
Cable Length
10 ft / 3 m
Standard lead length
Connection
3/4" NPT
Bored-through swage fitting
Seal Design
Dual O-Ring
EPR double-seal protection
TECHNICAL DETAILS

Construction & Installation Specs

Model Number CS52 (Myron L)
Wetted Body Material 316 Stainless Steel
Wetted Polymer Material Teflon (PTFE)
Seal Configuration Dual EPR O-ring, staged protection
Temperature Element Integral for automatic compensation
Process Connection 3/4" NPT swage fitting (reversible for submersion)
Standard Lead Length 10 feet (3 meters)
COMPATIBILITY & APPLICATIONS

Where the CS52 Cell Works

The Myron L CS52 is engineered for high-conductivity water monitoring in industrial process lines, boiler feedwater systems, cooling towers, and wastewater streams where total dissolved solids exceed typical ranges. The reversible NPT fitting allows inline installation through pipe or tank walls, or standpipe mounting for submersion in open tanks or reservoirs. Dual O-ring sealing provides chemical resistance and long-term reliability in harsh water chemistry environments. Compatible with Myron L conductivity meters and controllers that support high-range EC cells. Ideal for applications requiring continuous monitoring of concentrated brine, reverse osmosis reject streams, or heavily mineralized process water.

💧 The dual O-ring design matters: the first EPR seal handles direct chemical exposure while the second maintains backup integrity. This staged sealing extends sensor life in aggressive water chemistry where single-seal probes fail prematurely.
The Myron L CS52 Conductivity Cell is an industrial-grade sensor designed for continuous inline monitoring of high-conductivity water in ranges exceeding 20,000 microsiemens. Built with 316 stainless steel and Teflon wetted materials, this cell features dual O-ring sealing and integrated temperature compensation for reliable performance in demanding process environments.
SPECIFICATIONS

CS52 Cell Core Features

Conductivity Range
> 20,000 μS
For high-TDS applications
Wetted Materials
316 SS + Teflon
Chemical resistant construction
Temperature Comp
Integrated
Automatic for accuracy
Cable Length
10 ft / 3 m
Standard lead length
Connection
3/4" NPT
Bored-through swage fitting
Seal Design
Dual O-Ring
EPR double-seal protection
TECHNICAL DETAILS

Construction & Installation Specs

Model Number CS52 (Myron L)
Wetted Body Material 316 Stainless Steel
Wetted Polymer Material Teflon (PTFE)
Seal Configuration Dual EPR O-ring, staged protection
Temperature Element Integral for automatic compensation
Process Connection 3/4" NPT swage fitting (reversible for submersion)
Standard Lead Length 10 feet (3 meters)
COMPATIBILITY & APPLICATIONS

Where the CS52 Cell Works

The Myron L CS52 is engineered for high-conductivity water monitoring in industrial process lines, boiler feedwater systems, cooling towers, and wastewater streams where total dissolved solids exceed typical ranges. The reversible NPT fitting allows inline installation through pipe or tank walls, or standpipe mounting for submersion in open tanks or reservoirs. Dual O-ring sealing provides chemical resistance and long-term reliability in harsh water chemistry environments. Compatible with Myron L conductivity meters and controllers that support high-range EC cells. Ideal for applications requiring continuous monitoring of concentrated brine, reverse osmosis reject streams, or heavily mineralized process water.

💧 The dual O-ring design matters: the first EPR seal handles direct chemical exposure while the second maintains backup integrity. This staged sealing extends sensor life in aggressive water chemistry where single-seal probes fail prematurely.
$376.29
Myron L (CS52) Conductivity Cell (CS52) (Ranges > 20,000 MS)
$376.29

Description

The Myron L CS52 Conductivity Cell is an industrial-grade sensor designed for continuous inline monitoring of high-conductivity water in ranges exceeding 20,000 microsiemens. Built with 316 stainless steel and Teflon wetted materials, this cell features dual O-ring sealing and integrated temperature compensation for reliable performance in demanding process environments.
SPECIFICATIONS

CS52 Cell Core Features

Conductivity Range
> 20,000 μS
For high-TDS applications
Wetted Materials
316 SS + Teflon
Chemical resistant construction
Temperature Comp
Integrated
Automatic for accuracy
Cable Length
10 ft / 3 m
Standard lead length
Connection
3/4" NPT
Bored-through swage fitting
Seal Design
Dual O-Ring
EPR double-seal protection
TECHNICAL DETAILS

Construction & Installation Specs

Model Number CS52 (Myron L)
Wetted Body Material 316 Stainless Steel
Wetted Polymer Material Teflon (PTFE)
Seal Configuration Dual EPR O-ring, staged protection
Temperature Element Integral for automatic compensation
Process Connection 3/4" NPT swage fitting (reversible for submersion)
Standard Lead Length 10 feet (3 meters)
COMPATIBILITY & APPLICATIONS

Where the CS52 Cell Works

The Myron L CS52 is engineered for high-conductivity water monitoring in industrial process lines, boiler feedwater systems, cooling towers, and wastewater streams where total dissolved solids exceed typical ranges. The reversible NPT fitting allows inline installation through pipe or tank walls, or standpipe mounting for submersion in open tanks or reservoirs. Dual O-ring sealing provides chemical resistance and long-term reliability in harsh water chemistry environments. Compatible with Myron L conductivity meters and controllers that support high-range EC cells. Ideal for applications requiring continuous monitoring of concentrated brine, reverse osmosis reject streams, or heavily mineralized process water.

💧 The dual O-ring design matters: the first EPR seal handles direct chemical exposure while the second maintains backup integrity. This staged sealing extends sensor life in aggressive water chemistry where single-seal probes fail prematurely.