DEWE3-PA8-RM
High-end power measurements, ideal for rack-mount usage
The DEWE3-PA8-RM is our high-end power analyzer, especially designed for rack-mount-usage. It offers 8 TRION(3) slots with up to 16 power phases. The intuitive OXYGEN measurement software makes it universally and flexibly applicable. Enjoy fast acquisition rates with up to 10 MS/s but also absolute high-precision.
Key Features
- Up to 16 power phases
- 8 TRION(3) module slots
- 0.04 % basic power accuracy
Interface
- Up to 10 MS/s per channel
- Mixed signal acquisition
- Sync, CAN, DIOs, counter
Good to know
- Signal inputs at the front
- Typ. 1 GB/s gapless storing rate
- Redundant, integrated current transducer supply
user-exchangeable power modules
Enjoy maximum flexibility with user-exchangeable plug & play power modules: Choose your suitable power modules, plug them into your DEWE3-PA8-RM system, turn it on and get to work. Select between different power modules of the TRION(3) series for 4-phase power analysis and up to 10 MS/s sampling rate. All of the offer a high safety class and a large measuring range of ±2 kVPEAK with a high 24-bit resolution – without range error.

HIGH-END POWER ANALYSIS WITH OXYGEN
Use the full potential of the DEWE3-PA8-RM with our easy-to-use OXYGEN measurement software. It supports you with a huge amount of software features but still is very intuitive to use. OXYGEN seamlessly integrates data being transmitted through multiple, totally synchronized signals into calculations for power analysis.
- Analyze 1–9 phase power systems (1P2W, 2V2A, 3P3W, 3P4W, 2x3P3W, …)
- Summarize several power systems logically into power groups
- Benefit from gapless cycle-by-cycle calculations – no blind spots anymore
- Post-process your data also offline and analyze and export your recorded data
- Benefit of the highest accuracy and reliability by using unique fundamental frequency detection with delay compensation

CREATE INDIVIDUAL INPUT CONFIGURATIONS
We offer you a unique modularity: 4 slots on each power module or even 8 slots of the TRION3-1810-SUB-8 can be equipped with different sub-modules. Choose between direct current measurement modules or voltage modules to connect almost any kind of current or voltage transducer. Create your individual input configurations with our sub-modules. They are user-exchangeable at any time and automatically detected. The calibration data is directly stored inside the sub-module.

HIGH ACCURACY MEASUREMENTS
The power accuracy of the DEWE3-PA8-RM is stunning. Compared to other power analyzers available on the market, it offers a constant low measurement error of only 0.03 % from 0.5 Hz to 1000 Hz fundamental frequency. Moreover, it comes with a factory calibration certificate. In addition you can benefit from our accredited ISO 17025 calibration. High-precision measurements over a wide frequency range are an easy task with your DEWE3-PA8 and central requirement for test stand applications.

ONE DAQ SYSTEM FOR ALL INPUTS
The DEWE3-PA8-RM is also a mixed signal power analyzer, which means that you only need ONE system for all inputs. Just expand it with additional TRION(3) modules for other signals and sensors like: electrical data, mechanical data, ECU data, video, sound, and many more. Benefit from 100 % synchronization of additional signals.

REAL-TIME POWER ANALYSIS
- DEWETRON offers a dedicated solution for latency critical tests and applications to turn your DEWE3-PA8-RM into a real-time power analyzer:
- Calculation of cycle-by-cycle power values
- Data output interface: Ethernet UDP or
- EtherCAT slave
- Data output rate: 1 kHz
- Typical I/O latency: 2 ms (max: 4 ms)

EASY TEST STAND INTEGRATION
Test stand manufacturers trust DEWETRON’s measurement data for reliable testing. Our interfaces ensure easy integration. Smart interface technology seamlessly integrates the DEWE3-PA8-RM power analyzer into test stand automation systems like PAtools® from Kratzer Automation. Instruments are equipped with the right interface for reliable data transmission, remote control, and configuration via TCP/IP-based protocols, tailored to test stand architectures.
