CS645
CS645
OrderableConfigurable3-Rod 7.5 cm TDR Probe with Low-Loss Cable
Pricing
Configuration
Sign in for option pricing- w/5m (17ft) per SensorCS645-5m
- w/10m (33ft) per SensorCS645-10m
- w/20m (66ft) per SensorCS645-20m
Select a configuration to add to your quote
- Model:
- CS645
- Item Number:
- 45159
- Warranty:
- 1 year
- Lead time:
- 14 days
- Compliance:
- cable lengths greater than 50 ft
Overview
The CS645 is used in TDR100- and TDR200-based systems. This probe consists of a Santoprene head, three pointed rods, and a low-loss LMR200DB cable. The length of each rod is 7.5 centimeters, allowing the probe to be used in very high electrical conductivity soils or in laboratory column applications (maximum soil bulk electrical conductivity of 5 deciSiemens/meter). The low-loss cable is suitable for lengths up to 25 meters as measured from the tips of the probe's rods to the reflectometer. A similar probe, the CS640, is available for applications using shorter cable lengths (up to 15 meters). The CS640 and CS645 differ only in their cables.
Key Advantages
Up to 25 m cable length
Technical Description
The CS645 acts as a wave guide. Impedance along the rods varies with the dielectric permittivity of the surrounding soil. Because the dielectric permittivity of soil primarily depends on the amount of water present, soil volumetric water content can be inferred from the reflected measurements. Soil bulk electrical conductivity is determined from the attenuation of the applied pulse.
Specifications
- Maximum Soil Bulk Electrical Conductivity
- 5 dS/m
- Rod Diameter
- 0.16 cm
(0.063 in.)
- Rod Length
- 7.5 cm
(2.95 in.)
- Santoprene Head Dimensions
- 4.5 x 2.2 x 1.0 cm
(1.8 x 0.9 x 0.4 in.)
Related Resources
Documents
- Manual
TDR100 Time Domain Reflectometry Systems
May 2015
View Document - Manual
TDR200-Based Time-Domain Reflectometry System
August 2019
View Document - Brochure
TDR200 Time-Domain Reflectometer
March 2026
View Document - Brochure
Time-Domain Reflectometry System (TDR100, SDM8X50, CS600-series)
January 2016
View Document - View all documents