CS456 Titanium Pressure Transducer
Titanium
Ideal for long-term deployment in harsh conditions
weather applications water applications energy applications gas flux and turbulence applications infrastructure applications soil applications

Overview

The CS456 is a pressure transducer for water-level measurements in canals, wells, ponds, harbors, lakes, streams, and tanks. It has a rugged titanium case that allows it to be used in saltwater and other harsh environments. The CS456 outputs either a digital SDI-12 or RS-232 signal to indicate observed pressure and temperature. This output can be read by many of our data loggers. The CS456 replaces the CS455 transducer. The new transducers have a smaller gap between the water ports and the diaphragm so that less air is trapped that the user must remove during deployment. Trapped air causes the transducer's readings to drift as the air slowly dissolves into the water.

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Benefits and Features

  • Rugged titanium case protecting the piezoresistive sensor and allowing it to be used in saltwater and other harsh environments
  • Quality construction to ensure product reliability
  • Fully temperature-compensated
  • Low-power sleep state between measurements to reduce power consumption
  • Optional weighted nose cone to facilitate submersion
  • Compatible with most Campbell Scientific data loggers
  • Optional NPT nose cone to enable usage in closed-pipe applications
  • Quick shipment after receipt of order (ARO)

Images

CS456 with standard nose cone
CS456 with standard nose cone
CS456 with standard nose cone
CS456 with NPT nose cone
CS456 with weighted nose cone

Detailed Description

The CS456 consists of a piezoresistive sensor and a temperature sensor housed in a titanium case. It has a rugged Hytrel cable that remains flexible, even under harsh environmental conditions. The cable incorporates a vent tube to compensate for atmospheric pressure fluctuations. The vent tube terminates inside a desiccant tube, which prevents water vapor from entering the inner cavity of the transducer.

The CS456 has several pressure range options and two accuracy options (see Ordering Info). The standard accuracy option provides ±0.1% FS TEB over the 0° to 60°C temperature range. The high accuracy option provides ±0.05% FS TEB over the 0° to 60°C temperature range and includes a calibration certificate. TEB is the combined errors due to nonlinearity, hysteresis, non-repeatability, and thermal effects over the compensated temperature range, per ISA S51.1. Please note that the high accuracy option is not available for the 0 to 2.9 psig range option.

Campbell Scientific offers the A150 Desiccated Case that allows the CS456 to be connected to a prewired enclosure (see Ordering Information).

Specifications

Measurement Time < 1.5 s
Output Options SDI-12 (version 1.3) 1200 bps; RS-232 9600 bps
Water-Level Resolution 0.0035% FS
Worst-Case Temperature Resolution 0.006°C
Dry Storage Temperature Range -10° to +80°C
WARNING: Sensor could be damaged if encased in frozen ice.
Operating Temperature Range 0° to 60°C
WARNING: Sensor could be damaged if encased in frozen ice.
Temperature Accuracy ±0.2°C
Overpressure 2 x pressure range
Power Requirements 6 to 18 Vdc
Cable Type Hytrel Jacket, five conductor, 26 AWG
NPT Fitting 1/4-in. NPS
Top Cone Material Delrin
Body Material Titanium
Element Material Hastelloy
Distance
  • 2.54 cm (1 in.)
    Distance from black line etched on housing to end of NPT fitting
  • 2.3 cm (0.9 in.)
    Distance from black line etched on housing to end of standard nose cone
  • 9.9 cm (3.9 in.)
    Distance from black line etched on housing to end of weighted nose cone
Ingress Protection Exceeds IP68
Diameter 21.34 mm (0.84 in.)
Length 213.36 mm (6.875 in.)
Cable Weight 0.0421 kg/m (0.0283 lb/ft)
Weight 0.10 kg (0.23 lb) without cable

Power Consumption
Quiescent < 50 µA
Measurement/Communication 8 mA (1 s measurement)
Maximum 40 mA

Measurement Ranges at Fresh Water Depths
0 to 2.0 m (6.7 ft)
  • 0 to 2.9 psig
    The high accuracy (±0.05% FS) option is not available for the 0 to 2.9 psig range option.
  • 0 to 20 kPa
    The high accuracy (±0.05% FS) option is not available for the 0 to 2.9 psig range option.
0 to 5.1 m (16.7 ft)
  • 0 to 7.25 psig
  • 0 to 50 kPa
0 to 10.2 m (33.4 ft)
  • 0 to 14.5 psig
  • 0 to 100 kPa
0 to 20.4 m (67 ft)
  • 0 to 29 psig
  • 0 to 200 kPa
0 to 50.9 m (167 ft)
  • 0 to 72.5 psig
  • 0 to 500 kPa
0 to 102 m (334.5 ft)
  • 0 to 145 psig
  • 0 to 145 psig

Accuracy
-NOTE- Includes the combined errors due to nonlinearity, hysteresis, nonrepeatability, and thermal effects over the compensated temperature range, per ISA S51.1.
Standard Accuracy Option ±0.1% full-scale-range TEB
High Accuracy Option ±0.05% full-scale-range TEB
The high accuracy (±0.05% full-scale range) option is not available for the 0 to 2.9 psig range option.

Maximum Cable Length
SDI-12
  • ~457 m (1500 ft)
    1 sensor connected to a single port
  • 60 m (200 ft)
    10 sensors connected to a single port
RS-232 60 m (200 ft)

Air Gap
Standard & Weighted Nose Cone 0.653 cm (0.257 in.)
NPT Fitting 2.72 cm (1.07 in.)

Compatibility

Note: The following shows notable compatibility information. It is not a comprehensive list of all compatible or incompatible products.

Data Loggers

Product Compatible Note
CR1000 (retired)
CR1000X
CR300
CR3000 (retired)
CR310
CR350
CR6
CR800 (retired)
CR850 (retired)

Downloads

CS45x Firmware v.4 (472 KB) 03-22-2016

Includes the current firmware for the CS451 and CS456.

View Update History

Frequently Asked Questions

Number of FAQs related to CS456: 6

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  1. Can the CS451 or CS456 be programmed to do event-based measurements?

    Yes, but a data logger is required. The CS45x-series pressure transducers are not autonomous. They require a data logger to initiate and retrieve a measurement. The data logger can initiate an event-based measurement.

    In contrast, the CRS45x-series water-level recording sensors support event-based recording using built-in data-collection features. 

  2. Is a CS451 or CS456 appropriate for measuring variations in the water level of a high (elevation 2000 m) mountain lake?

    The CS45x-series pressure transducers are suitable for monitoring lake levels. However, be sure to submerge the pressure transducer below the frost line. If ice forms against the diaphragm, it will deform the diaphragm and cause permanent damage.

  3. Can a CS451 or CS456 take measurements on a water level at a 5Hz or 10Hz rate?

    No. Because of the SDI-12 protocol, the CS45x-series pressure transducers can only make measurements every 1.5 seconds.

  4. Can a CS451 or CS456 be used as a real-time sensor to provide pressure and temperature readings on a laptop?

    No. A data logger must be used with the CS45x-series pressure transducers.

  5. Is it possible to winterize the CS451 or CS456 for year-round in-stream monitoring at a stream that sometimes freezes solid to the bottom?
    No. To prevent damage to the pressure transducer, it must be removed if freezing is anticipated.
  6. Can the A200 be used to monitor the input and output of pressure and temperature transducers through a computer?

    No. The A200 is only used to configure the CS451 and CS456 pressure transducers.

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