Portable, easy to use, and shock-resistant, this analyzer offers high measurement accuracy and allows the measurement of voltage, current, frequency, etc. In addition, this 1000 V CAT IV analyzer is comfortable to handle and has an intuitive graphical user interface, calculated values, and 4 x flexible current sensors.
Portable, easy to use, and shock-resistant, this analyzer offers high measurement accuracy and allows the measurement of voltage, current, frequency, etc. In addition, this 1000 V CAT IV analyzer is comfortable to handle and has an intuitive graphical user interface, calculated values, and 4 x flexible current sensors.
This product exceeds standard shipping dimensions/weight, as such it does not qualify for free shipping. We will contact you with your shipping costs.
Suitable for engineers, technicians, and more, this portable three-phase class A power quality analyzer allows you to perform diagnostics and power quality work on one, two, or three-phase networks. In addition, this analyzer features a 7" (177.8 mm) color touchscreen display, and the curve display is automatic and goes up to 10 complete cycles.
Features
Measurements
Calculations
Energy valuation
Offers all the measurements required to successfully implement energy efficiency projects and monitor electricity distribution
Shockwaves
Usually caused by lightning, are spectacular instantaneous electrical voltage surges, and they also propagate in the digital network; can withstand shockwaves up to 12 kV which are sampled every 500 ns.
Line carrier signal measurement
In the harmonic analysis function, there is also a mode for monitoring carrier currents, and after defining their frequency, the command signals will then be measured.
Interharmonics (harmonic mode)
Can be used to measure and display the interharmonics, as requested in IEC 61000-4-7, for very precise analysis of all the disturbances in an electrical network
Trend
The trend graph shows the variations of the parameters measured over time as fast as 200 ms
Alarms
Alarms set points can be programmed to be monitored, which are then recorded and time-stamped with the duration and extreme values; users can be informed directly by email when an alarm is triggered
Transients
Transients correspond to peaks in the voltage or current waveform; shockwaves are extremely fast transients with even greater possible amplitude
True InRush
For tests when starting up loads, it can record ½-period values covering more than 30 minutes and the waveforms of the signal can be captured
In addition to using media such as SD cards and USB drivers, it is possible to download the measurements and communicate with this instrument remotely via USB, remote links, Wi-Fi (direct or via server), or the RJ45 (Ethernet connector).
The web server
This analyzer is equipped with firmware for remote access. It can be controlled via VNC, which controls a remote machine while displaying its desktop. It can be activated from any browser (Chrome, Edge, Firefox, etc.).
IRD server
The IT networks are protected against external attacks. Thanks to the provision of access to the IRD server, a single authorized IP output address allows you to transmit your measurements all over the world.
SCPI commands
With an integrated interfacing software layer, it is possible to control this instrument via its own software application. SCPI commands are available for all the instrument's functions.
Data files in JSON format
Saved in JSON format, all the recordings are accessible and can be processed with a third-party and/or proprietary application.
The International Electrotechnical Commission (IEC) IEC 61000-4-30 Edition 3.1 standard. This standard defines:
The measurement parameters are described for each applicable parameter in terms that provide reliable, repeatable results, however the method is implemented.
The EN 50160 standard characterizes the quality of the voltage supplied. It presents the different types of disturbances which may affect the voltage on a network. It lists the parameters to be monitored and defines how long the parameters should be monitored for. With the DataView® software, the Monitoring mode can be used to set up a simplified configuration of all the limits to be monitored and the parameters to be recorded.
The IEC 61000-4-7 standard defines the measurement methods for voltage quality analyzers so that they remain compliant with the emission levels stipulated in certain standards (e.g. the harmonic current limits specified by IEC 61000-3-2) and for the measurement of harmonic currents and voltages on the power networks themselves.
This is caused by the power supply voltage modulation. When it affects lighting, it gives an impression of unstable vision due to a light stimulus whose luminance or spectral distribution fluctuates over time. There are two parameters calculated from the power supply voltage.
Today, electrical distribution networks are judged according to their ability to power loads causing disturbances and loads sensitive to disturbances. The latter may take multiple forms. Voltage quality analyzers can be used to detect and qualify each disturbance type: outage, voltage surges, and sags, flicker, THD, voltage variations, transients, etc.
For energy diagnostics on a site, a logger must be set up to record the electrical power and energy consumed. Once all the measurements have been taken, billing data is compared with the actual measurements to determine whether corrective action needs to be taken. This action may take different forms: resizing a transformer, implementing filtering systems, replacement of faulty equipment, etc. This analysis helps you understand and act at the right place and time to provide the best solution.
The increase in electronic power supplies in industrial processes has led to increases in harmonic disturbances on electrical networks which have a direct impact on the quality of energy distribution. These disturbances may cause failures across all the electrical devices connected to the network. Harmonic currents have negative effects on nearly all the components in the electrical system, creating new dielectric, thermal, and/or mechanical stresses.
Inputs | 5 x voltage/4 x current, isolated |
Voltage | 5 to 1000 V AC and V DC Unbalance (u0,u2): 0.5 to 5% (absolute); ±0.15% (absolute) |
Mode | Harmonics: DC to 63rd order; <3% Udin Interharmonics: 0 to 62nd order; <0.5% Udin |
Inrush and Transient Capture (Number) | No maximum (limited by SD card) |
Shockwaves (Fast Transient) | Up to 12 kV sampled every 500 ns |
Flicker (Pst) | <0.1 |
Trend Recording | >900 parameters Three days with a sampling period of 200 ms 15 days with a sampling period of 1 second 45 days with a sampling period of 3 seconds |
Sampling Rate | Voltage 400 kSps/current 200 kSps/surge 2 MSps |
Alarm Mode (Types/Number) | 52/20,000 with email notifications |
Real-Time/Power/Energy/Unbalance Modes | Yes/yes/yes/composite |
Screenshots | No maximum (limited by SD card) |
Carrier Current Detection | Yes |
Data Storage | 16 GB SD-card (included) for snapshot, transients, alarms and trend recording |
Display | 7" (177.8 mm) color LCD touch screen: 800 x 480 (WVGA) |
Clock/GPS | Yes, built-in |
Operating Temperature | 32 to 104°F (0 to 40°C) |
Communication | USB, Ethernet, Wi-Fi, web server, IRD server, USB stick port (type A) |
Compliance and Standards | Safety: IEC 61010 1000 V CAT IV Environmental: IEC 61557-12 and IEC 62586 Measurement standard: IEC 61000-4-30 (Ed 3) Class A (Full) EN50160 monitoring mode: With PAT3 software |
Power Supply | Battery type: Cartridge li-ion, 5800 Ah battery pack, ≤6 hours with display on; ≤10 hours with display off Power from phase from 100 to 1000 V AC/DC with external supply block |
Dimensions | 7.87 x 11.22 x 2.17" (200 x 285 x 55 mm) |
Weight | 4.19 lbs (1.9 kg), meter only |
The DataView® software provides a convenient way to configure and control power analysis tests from a computer. Through the use of clear and easy-to-use tabbed dialog boxes, all functions can be configured and tests can be initiated. Results can be displayed in real-time and stored on a PC. Reports may be printed along with the operator's comments and analysis.
Reports can be displayed on a PC and printed. Each report includes all test results in a tabular and graphic format, as well as operator and test site information. Comments typed by the operator will also be included.
The monitoring feature allows the user to set up a recording with selected parameters for which specific user-defined pass/fail criteria can be applied. The objective is to set up a measurement chart of relevant parameters and monitor them to establish whether an electrical network of source and loads is within control limits. Monitoring can also be set up without any thresholds for pass/fail criteria. The software structure of the setup is flexible and allows the user full customization. The progress of the measurement setup can be viewed in real-time as the measurement is progressing.
Click on a category to view a selection of compatible accessories with the AEMC 8345 PowerPad IV Power Quality Analyzer with MiniFlex sensors, 5 to 1000 V AC/DC, 1000 V CAT IV.
Inputs | 5 x voltage/4 x current, isolated |
Voltage | 5 to 1000 V AC and V DC Unbalance (u0,u2): 0.5 to 5% (absolute); ±0.15% (absolute) |
Mode | Harmonics: DC to 63rd order; <3% Udin Interharmonics: 0 to 62nd order; <0.5% Udin |
Inrush and Transient Capture (Number) | No maximum (limited by SD card) |
Shockwaves (Fast Transient) | Up to 12 kV sampled every 500 ns |
Flicker (Pst) | <0.1 |
Trend Recording | >900 parameters Three days with a sampling period of 200 ms 15 days with a sampling period of 1 second 45 days with a sampling period of 3 seconds |
Sampling Rate | Voltage 400 kSps/current 200 kSps/surge 2 MSps |
Alarm Mode (Types/Number) | 52/20,000 with email notifications |
Real-Time/Power/Energy/Unbalance Modes | Yes/yes/yes/composite |
Screenshots | No maximum (limited by SD card) |
Carrier Current Detection | Yes |
Data Storage | 16 GB SD-card (included) for snapshot, transients, alarms and trend recording |
Display | 7" (177.8 mm) color LCD touch screen: 800 x 480 (WVGA) |
Clock/GPS | Yes, built-in |
Operating Temperature | 32 to 104°F (0 to 40°C) |
Communication | USB, Ethernet, Wi-Fi, web server, IRD server, USB stick port (type A) |
Compliance and Standards | Safety: IEC 61010 1000 V CAT IV Environmental: IEC 61557-12 and IEC 62586 Measurement standard: IEC 61000-4-30 (Ed 3) Class A (Full) EN50160 monitoring mode: With PAT3 software |
Power Supply | Battery type: Cartridge li-ion, 5800 Ah battery pack, ≤6 hours with display on; ≤10 hours with display off Power from phase from 100 to 1000 V AC/DC with external supply block |
Dimensions | 7.87 x 11.22 x 2.17" (200 x 285 x 55 mm) |
Weight | 4.19 lbs (1.9 kg), meter only |
The DataView® software provides a convenient way to configure and control power analysis tests from a computer. Through the use of clear and easy-to-use tabbed dialog boxes, all functions can be configured and tests can be initiated. Results can be displayed in real-time and stored on a PC. Reports may be printed along with the operator's comments and analysis.
Reports can be displayed on a PC and printed. Each report includes all test results in a tabular and graphic format, as well as operator and test site information. Comments typed by the operator will also be included.
The monitoring feature allows the user to set up a recording with selected parameters for which specific user-defined pass/fail criteria can be applied. The objective is to set up a measurement chart of relevant parameters and monitor them to establish whether an electrical network of source and loads is within control limits. Monitoring can also be set up without any thresholds for pass/fail criteria. The software structure of the setup is flexible and allows the user full customization. The progress of the measurement setup can be viewed in real-time as the measurement is progressing.
Click on a category to view a selection of compatible accessories with the AEMC 8345 PowerPad IV Power Quality Analyzer with MiniFlex sensors, 5 to 1000 V AC/DC, 1000 V CAT IV.