Clark Solutions CRFO & CRFA Rotor Flow Indicator & Transmitter C165075

Description
CFR0 flow transmitters combine visual confirmation of flow with a pulse or conditioned 0-10 V output proportional to flow rate. As liquid passes through the meter body, a magnetic rotor spins at a rate proportional to flow. This causes a series of magnetic fields (the rotor vanes) to excite a hall effect sensor, producing a series of voltage pulses. The output pulses (CRFO) are at the same voltage level as the input (4.5 - 24 VDC) with a frequency proportional to the flow rate. The output signal can be utilized by digital rate meters, totalizers, or other electronic controllers. CRFA Type analog sensors condition the output signal to 0-10 VDC. Typical applications include water purification/dispens ing systems, chemical metering equipment, lasers and welders, water injection systems, semiconductor processing equipment, chillers and heat exchangers.
Datasheet

Suppliers

Company
Product
Description
Supplier Links
CRFO & CRFA Rotor Flow Indicator & Transmitter - C165075 - Clark Solutions
Hudson, MA, USA
CRFO & CRFA Rotor Flow Indicator & Transmitter
C165075
CRFO & CRFA Rotor Flow Indicator & Transmitter C165075
CFR0 flow transmitters combine visual confirmation of flow with a pulse or conditioned 0-10 V output proportional to flow rate. As liquid passes through the meter body, a magnetic rotor spins at a rate proportional to flow. This causes a series of magnetic fields (the rotor vanes) to excite a hall effect sensor, producing a series of voltage pulses. The output pulses (CRFO) are at the same voltage level as the input (4.5 - 24 VDC) with a frequency proportional to the flow rate. The output signal can be utilized by digital rate meters, totalizers, or other electronic controllers. CRFA Type analog sensors condition the output signal to 0-10 VDC. Typical applications include water purification/dispens ing systems, chemical metering equipment, lasers and welders, water injection systems, semiconductor processing equipment, chillers and heat exchangers.

CFR0 flow transmitters combine visual confirmation of flow with a pulse or conditioned 0-10 V output proportional to flow rate. As liquid passes through the meter body, a magnetic rotor spins at a rate proportional to flow. This causes a series of magnetic fields (the rotor vanes) to excite a hall effect sensor, producing a series of voltage pulses. The output pulses (CRFO) are at the same voltage level as the input (4.5 - 24 VDC) with a frequency proportional to the flow rate. The output signal can be utilized by digital rate meters, totalizers, or other electronic controllers. CRFA Type analog sensors condition the output signal to 0-10 VDC.

Typical applications include water purification/dispensing systems, chemical metering equipment, lasers and welders, water injection systems, semiconductor processing equipment, chillers and heat exchangers.

Supplier's Site Datasheet

Technical Specifications

  Clark Solutions
Product Category Liquid Flow Meters
Product Number C165075
Product Name CRFO & CRFA Rotor Flow Indicator & Transmitter
Meter Technology Turbine
Features Recorder / Totalizer Functions
Approvals Underwriters Laboratory; CE
Operating Temperature 20 to 212 F (-7 to 100 C)
Process Media Type Liquid
Unlock Full Specs
to access all available technical data

Similar Products

Process Instrumentation, Flow Measurement, Coriolis -  - Siemens Process Instrumentation
Specs
Meter Technology Coriolis
Additional Variables Measured Temperature
Approvals ATEX
View Details
NW/NW-P Instantaneous Flow-rate/ Integrating Flow Volume Flowmeter -  - Aichi Tokei Denki Co., Ltd.
Specs
Meter Technology Turbine
Operating Temperature 32 to 140 F (0 to 60 C)
Process Media Type Liquid
View Details
 - 3610262 - RS Components, Ltd.
RS Components, Ltd.
Specs
Operating Temperature 149 F (65 C)
Pipe Diameter 1.00 inch (25.4 mm)
Process Media Type Gas
View Details
Burkert Fluid Control Systems
Specs
Features Sanitary Applications Rated
Operating Temperature 14 to 158 F (-10 to 70 C)
Process Media Type Liquid
View Details