The Fluke 787 was the first tool to combine a DMM and a loop calibrator to give process technicians double the power in one tool. Now it’s even better, the range is extended with the Fluke 789 – the ultimate loop calibration multimeter. The Fluke 789 has a 24-Volt loop supply reducing the need for taking a separate power supply when doing offline transmitter testing. And with its built-in, selectable 250-Ohm Hart® resistor, it also eliminates the need to carry a separate resistor with you.
The 1653B Installation Tester verifies the safety of electrical installations in domestic, commercial and industrial applications. It can ensure that fixed wiring is safe and correctly installed to meet the requirements of IEC 60364, HD 384 and all relevant local standards.
The ultimate electronic component verifier measures inductance, capacitance, resistance, transistors, diodes and microwave diodes.
The Fluke 376 Clamp Meter offers improved performance perfect for a wide range of current measurement situations. With true-rms voltage and current measurements, the Fluke 376 can read up to 1000 V and 1000 A in both ac and dc modes.
The CP 41 current clamp meter has been designed for reliable and accurate, non-intrusive measurement of AC, DC and complex waveform currents. Using advanced Hall Effect technology the CP 41 can measure currents accurately from 5mA to 40Amps.
Measurement features include:
Combined with the CPC 100, the CP TD1 measures the capacitance and dissipation factor (power factor) with laboratory precision.
This allows the insulation condition of transformers, generators and other parts of high-voltage systems to be tested according to IEEE 62 (C57.152), IEC 60076-1 and -3, as well as the CIGRE "Guide for Transformer Maintenance". As recommended in the CIGRE Guide, testing is performed at variable frequencies to better diagnose signs of ageing in insulation.
The portable test system (max. 29 kg per component) can also generate output voltages of up to 12 kV.
The following variables can be measured by extending the CPC 100 to include the CP TD1:
Electrical tests on transformers, current transformers, voltage transformers, grounding systems, lines and cables, and circuit breakers can be performed with the CPC 100.
The patented test system replaces several individual testing devices and offers new, innovative testing methods.
The CPC 100 is the base for multiple accessories. These facilitate further applications, such as tan delta measurements, as well as line and ground impedance measurements.
Combined with the CPC 100, the CP TD1 measures the capacitance and dissipation factor (power factor) with laboratory precision.
This allows the insulation condition of transformers, generators and other parts of high-voltage systems to be tested according to IEEE 62 (C57.152), IEC 60076-1 and -3, as well as the CIGRE "Guide for Transformer Maintenance". As recommended in the CIGRE Guide, testing is performed at variable frequencies to better diagnose signs of ageing in insulation.
The portable test system (max. 29 kg per component) can also generate output voltages of up to 12 kV.
The following variables can be measured by extending the CPC 100 to include the CP TD1:
Electrical tests on transformers, current transformers, voltage transformers, grounding systems, lines and cables, and circuit breakers can be performed with the CPC 100.
The patented test system replaces several individual testing devices and offers new, innovative testing methods.
The CPC 100 is the base for multiple accessories. These facilitate further applications, such as tan delta measurements, as well as line and ground impedance measurements.
The FRAnalyzer (Frequency Response Analyzer) was developed for testing the integrity of power transformers after transportation or occurrence of high currents. The FRAnalyzer uses the SFRA principle (Sweep Frequency Response Analysis) and measures the electrical transfer function in a wide frequency range.
It detects winding defects and faults in the magnetic core - thereby helping to improve transformer reliability, reduce maintenance costs and prevent costly failures.
The FRAnalyzer is used for transformer testing, after:
The following tests can also be performed:
FLIR Ex-Series thermal imaging cameras are ideal for electrical and mechanical inspections where their ability to detect potential problem areas mean that installations can be quickly and easily inspected and breakdowns avoided. Building inspectors will also rapidly discover the benefits of the FLIR Ex-Series as they are ideal for detecting insulation losses, inspecting under floor heating and many other building related anomalies.
FLIR Ex-Series cameras are easy-to-use thermal imaging cameras that give the user access to a new dimension in inspection capability. An affordable replacement for a spot pyrometer, they provide a thermal image with temperature information on every pixel. A FLIR thermal imaging camera can scan an entire area, never missing a potential problem area, no matter how small it might be.
With a fixed focus-free lens, FLIR Ex-Series are extremely simple to operate. Designed for entry-level users, and measuring temperatures up to +250°C, they produce instant, ‘point-and-shoot’ JPEG thermal imagery with all required temperature data included.
A built-in visual camera makes observing and inspecting faster and easier, as the visual image can be used as a reference against the thermal image. FLIR's patented MSX-technology provides thermal images of exceptional quality in real time. This results in sharper-looking thermal images, quicker target orientation and clutter-free reports.
The CMC 356 is the universal solution for testing all generations and types of protection relays. Its powerful six current sources (three-phase mode: up to 64 A / 860 VA per channel) with a great dynamic range, make the unit capable of testing even high-burden electromechanical relays with very high power demands.
The CMC 356 is the first choice for applications requiring the highest versatility, amplitude and power. Commissioning engineers will particularly appreciate its ability to perform wiring and plausibility checks of current transformers, by using primary injection of high currents from the test set.
When performing end-to-end tests of line protection schemes, it is necessary to start several test sets simultaneously. The CMGPS is a GPS-based synchronization unit which is used with CMC test equipment.
The CMGPS receives signals from the satellites of the Global Positioning System (GPS) and provides an output at a time specified by the user. This clock output is then used as a trigger input to start the CMC test set. The CMGPS has been developed to fulfil the requirements of testing in the field, because off-the-shelf GPS receivers with trigger output have many drawbacks (size, weight, complicated operation, etc.).
CMGPS is typically ready for operation just 5 minutes after startup. The synchronizing pulse can be configured according to the requirements of the application. The software is integrated in the testing modules (like the State Sequencer). It allows for the setting of:
Two independent timing pulses are available via separate connectors
C-Probe 1 is an active AC and DC current probe with voltage output. It is the recommended accessory for measuring currents with the CMC 356 with ELT-1 hardware option or CMC 256plus and EnerLyzer software license.
Coil Analyzer SAT40A is a powerful instrument ideal for testing of circuit breakers, where substation battery is not connected or available. The SAT40A is intended to operate breaker coils, and spring charging motors as a part of commissioning and maintenance testing.
SAT30A measures current and resistance of circuit breaker coils. SAT40A can also be used to test minimum trip voltage of circuit breaker coils, as well as under voltage releases of circuit breaker. Output voltage is selectable from 10 V to 300 V DC or from 10 V to 250 V AC.
The set is equipped with thermal and over current protection. SAT40A is easy to use and has accessory cable-set with touch-proof contacts.
The SAT40A has very high ability to cancel electrostatic and electromagnetic interference in the HV electric fields. It is achieved by very efficient filtration. The filtration is made utilizing proprietary hardware and software.
Coil Tester & Power Supply POB40AD is powerful, lightweight power supply device, ideal for operating and testing circuit breakers coils. It is also intended to supply spring-charging motors with the possibility to generate the inrush current of up to 40 A. For supplying the circuit breaker auxiliary circuits, it provides wide output DC (10 – 300 V) and AC (10 – 250 V) voltage ranges.
POB40AD has built-in capability to perform an automatic test of minimum trip-voltage (in accordance to IEC 62271-100 and ANSI C37.09 standards).
POB40AD can be used as a general power supply device or a temporary battery charger. Note that it is compatible with the circuit breaker analyzers from different vendors.
The Fluke 9040 is effective for measuring phase rotation in all areas where three phase supplies are used to feed motors, drives and electrical systems. The Fluke 9040 is a rotary field indicator and can provide clear indication of the 3 phase via an LCD display and the phase rotation direction to determine correct connections. It allows rapid determination of phase sequence and has a voltage (up to 700 V) and frequency range suitable for commercial and industrial applications. The included test probes have a variable clamping range for safe contact, also in industrial sockets.
Electrical tests on transformers, current transformers, voltage transformers, grounding systems, lines and cables, and circuit breakers can be performed with the CPC 100.
The patented test system replaces several individual testing devices and offers new, innovative testing methods.
The CPC 100 is the base for multiple accessories. These facilitate further applications, such as tan delta measurements, as well as line and ground impedance measurements.
