6
The ACF-3000 SR design utilizes the light weight and flexibility of the Flexible AC
Current Transducer. This transducer is a versatile current probe that may be wrapped
around most conductors. Its application versatility and high voltage isolation rating
clearly distinguish the ACF-3000 SR from other current measuring methods. The
measuring transducer is constructed from nonferrous materials, minimizing any circuit
loading.
Note: The ACF-3000 SR will produce twice the output if you wrap the
transducer round the conductor twice.
The frequency response of the ACF-3000 SR is wide compared to conventional CTs.
This allows the user to monitor a much wider range of line harmonic components than
conventional CTs allow. The ACF-3000 SR was designed to be very flexible, larger in
aperture and smaller in cross section than many conventional CTs. This allows
measurement in tight places as never before possible.
OPERATION
LATCH
ELECTRONICS
PACKAGE
Fig. 3 - ACF-3000 SR
Fig. 5 - LATCH CLOSED
Fig. 4 - LATCH OPEN
6
The ACF-3000 SR design utilizes the light weight and flexibility of the Flexible AC
Current Transducer. This transducer is a versatile current probe that may be wrapped
around most conductors. Its application versatility and high voltage isolation rating
clearly distinguish the ACF-3000 SR from other current measuring methods. The
measuring transducer is constructed from nonferrous materials, minimizing any circuit
loading.
Note: The ACF-3000 SR will produce twice the output if you wrap the
transducer round the conductor twice.
The frequency response of the ACF-3000 SR is wide compared to conventional CTs.
This allows the user to monitor a much wider range of line harmonic components than
conventional CTs allow. The ACF-3000 SR was designed to be very flexible, larger in
aperture and smaller in cross section than many conventional CTs. This allows
measurement in tight places as never before possible.
OPERATION
LATCH
ELECTRONICS
PACKAGE
Fig. 3 - ACF-3000 SR
Fig. 5 - LATCH CLOSED
Fig. 4 - LATCH OPEN