Discover our range of technologies
We provide a variety of bench-top, hand-held, and USB modular digital multimeters to meet a range of requirements under different circumstances.
Our digital multimeter (DMM) family offers exceptional performance and reliability from 3,5 to 8,5 digits resolution with speeds up to 100.000 readings/sec and is available in handheld or bench applications. With a Keysight DMM you can:
- Increase productivity by providing insights beyond numbers, with trend charts and histograms on a graphical display
- Deliver the highest performing products your customers can rely on with unrivalled DCV accuracy up to 4 ppm
- Automate and document test results without programming with BenchVue or the Handheld Meter Logger software
Handheld measurement instruments
From electronics troubleshooting to installation and maintenance of machinery, our handheld measurement instruments are designed to withstand harsh working conditions and improve safety.
From digital multimeters (DMMs) and basic capacitance meters to oscilloscopes, spectrum/signal and network analysers, the handheld and portable test tools will address the test and measurement capabilities you need to complete your tasks – on the bench or in the field. Whatever your industry and application – electronics, electrical, installation and maintenance, wireless communications, aerospace and defence, or industrial process testing, we have a wide range of test tools to ensure there is the best fit for your unique requirements.
Data acquisition solutions
Data acquisition is the process of measuring, recording, and analysing an electrical or physical phenomenon. It includes measurements such as voltage, current, power, temperature, pressure, flow, level, strain, acceleration, pH, humidity, and more. It samples signals that measure real-world physical conditions and convert the resulting samples into digital numeric values that can be manipulated by a computer. Data acquisition systems typically convert analog waveforms into digital values for processing.
Selecting the ideal recorders/data loggers depends on your application. Typical factors include sample rates, channel scalability, signal conditioning, sensor types, analysis capability, mobility, and environmental conditions.
Femto-picoammeters and electrometers / high resistance meters
Femto-picoammeters and electrometers/high resistance meters not only offer best-in-class measurement performance but also provide unprecedented features to maximise your measurement confidence. These meters are often used for:
- Material science (biomaterials, ceramics, elastomers, films, dielectric materials, electrochemical, ferroelectric materials, graphene, metals, organic materials, nanomaterials, polymers, and semiconductors)
- Devices and electronic components (capacitors, resistors, diodes, sensors, transistors including TFT and CNT, optoelectronics, and solar cells)
- Electronic/non-electronic systems (ion beam, electron beam, sensing systems, particle measurements, and embedded precision instruments)
With Femto-picoammeters, you can be sure that it will deliver you superior performance and great measurement confidence for your test and measurement project.
Frequency counters are depended on in R&D and manufacturing for the fastest, most accurate frequency and time interval measurements.
The frequency counter products in our portfolio serve all of your frequency and time interval measurement needs. Speed, resolution, and accuracy are just a few benefits that our range offers. With unprecedented resolution, you can capture very small frequencies and time changes. Measurement functions include frequency, period time, pulse width, duty cycle, frequency ratio, RPM, phase A/B time interval A/B, event count, and may have an external clock input for maximum stability and accuracy. These products offer an intuitive user interface with a large colour graphical display for ease of use.
Source measure units
A source measure unit or SMU is a source and measurement resource for test applications requiring high accuracy, high resolution, and measurement flexibility. SMUs are sometimes also referred to as source monitor units.
An SMU can precisely force voltage or current and simultaneously measure voltage and/or current. An SMU combines the features of a digital multimeter, true current source, electronic load, power supply, and pulse generator, all into a single, tightly synchronised instrument. Source measure units are considered more useful than a combination of any of the five mentioned instruments due to the instrument’s high accuracy, performance, and versatility.
Our source measure units are extremely cost-effective source/measurement solutions with superior performance. They are categorised into four areas: precision, application-specific, general-purpose, and basic. Available as benchtop or USB models, these instruments have excellent voltage and current sourcing capabilities at the highest precision and multiple software control options allow you to choose the solution that best fits your particular SMU application.
These solutions will improve overall test productivity and lower your cost of ownership.
Impedance, Capacitance and LCR meters
Impedance and LCR meters are used to measure the inductance (L), capacitance (C), and resistance (R) of an electronic component. We offer a wide range of carefully selected LCR meters from our strategic partners, ensuring our range consists of high quality, accuracy, and performance.
Whether your application is in R&D, production, quality assurance, or incoming inspection, we take pride in contributing to your success. We strive to deliver solutions to meet your needs, no matter how basic or stringent your project requirements are.
Power meters and sensors
Power meters and sensors measure the power of RF and microwave signals accurately with sensors of various types (CW, average, peak, and average), covering numerous frequency and power ranges.
Our wide selection of power meters and sensors are suitable for practically all application needs—wireless communications, radar pulse measurements, component tests, and more. Some common applications include testing the output power of communication base-station transmitters, cellular telephones, and radar system equipment.
Safety testers (Hi-Pot)
Safety testers (also named hi-pot testers/ hi-pot testers/ hi-pot tests) are designed to ensure the safe operation of DUTs under various operating conditions and environments.
Safety testers provide safe and fast measurement tools for AC/DC withstanding voltage tests, insulation resistance tests, and AC ground bond tests. These tests are required by many international safety regulations such as CE, UL, VDE, etc. We also offer leakage current testers that support all the major leakage current test standards for medical and general electronic equipment.
When it comes to developing custom solutions for tomorrow's technologies, we trust our approach to deliver the best possible outcome.
Our engineers will skilfully guide you through each stage of your project, working with you to understand and identify a solution that meets your technical and commercial needs before designing and integrating your solution.
Working together to create the right solution.FIND OUT HOW
From modified to fully customised components.FIND OUT HOW
Technological expertise across your application lifecycle.FIND OUT HOW
Submit your enquiry directly to one of our Technical Sales Specialists.
Alternatively call our Sales Team.
Our solutions and expertise are centred around six key markets
Over the years we have built up considerable knowledge and knowhow, providing tailored solutions for our customers.
- Industrial and Connectivity
- Renewable energy
- Aerospace and Defence
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