The CS605 is used in TDR100-based systems. This probe is recommended for typical soils (soil bulk conductivity ≤1.5 dS/m) and cable lengths of less than 15 m (measured from the tips of the probe's rods to the TDR100 Reflectometer). The CS605 consists of three pointed, large-diameter rods and a large epoxy head allowing installation in rugged environments.
Lesen Sie mehrThe CS605 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.
Campbell Scientific offers six TDR probes for our TDR100-based systems. The probes have different rods and connector cables allowing them to be used in different soil types and with different cable lengths. Other TDR probes available are the CS610, CS630, CS635, CS640, and CS645.
Maximum Soil Bulk Electrical Conductivity | ≤ 1.4 dS/m |
Spacing between Outer Rods | 4.5 cm (1.77 in.) |
Rod Diameter | 0.48 cm (0.187 in.) |
Rod Length | 30 cm (12 in.) |
Epoxy Head Dimensions | 7 x 10.8 x 1.9 cm (2.8 x 4.3 x 0.7 in.) |
Weight | 363 g (13 oz) without cable |
Cable Weight | 272 g (10 oz) per 3.1 m (10 ft) of cable |
Number of FAQs related to CS605: 1
In applications where TDR probes are used to measure soil water content, the maximum distance from the TDR probe back to the TDR100/TDR200 (even through one or more multiplexers) cannot exceed 15 m (50 ft) when using RG58 coaxial cable; the CS605-L, CS630-L, and CS640-L TDR probes have an RG58 cable. When using low-loss coaxial cable, the distance cannot exceed ≈25 m (80 ft); the CS610-L, CS635-L, and CS645-L TDR probes have a low-loss coaxial cable.
In slope stability and rock mass deformation applications, the maximum coaxial cable length should not exceed ≈1 mile (5,280 ft). The maximum combined length of all SDM cables in the system should not exceed ≈76 m (250 ft).