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Megger ICM system Generation 5
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The Megger ICMsystem Generation 5 is a high-precision partial discharge (PD) measurement and monitoring system designed for transformers, switchgear, cables, and GIS. Combining modular hardware with intuitive software, it delivers real-time PD detection, advanced noise suppression, and detailed analysis. Ideal for both on-site testing and permanent monitoring, it helps prevent insulation failures, reduce downtime, and extend the lifespan of critical electrical assets.
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Description
Megger ICM system Generation 5 – Cutting-Edge Partial Discharge Testing and Monitoring Solution
The Megger ICM system Generation 5 represents the pinnacle of partial discharge (PD) detection technology,
delivering unmatched precision, reliability, and versatility for high-voltage insulation testing and monitoring.
Designed for electrical engineers, asset managers, and maintenance professionals, this advanced system helps
safeguard critical infrastructure by detecting insulation defects before they evolve into costly failures.
With its modular, scalable design, the ICM system Generation 5 can be tailored to a wide range of high-voltage assets,
including transformers, switchgear, cables, generators, and gas-insulated systems (GIS). Its advanced hardware components
are paired with intelligent software that allows real-time PD data acquisition, analysis, and visualization,
providing actionable insights to optimize maintenance schedules and improve operational reliability.
One of the standout features of the ICM system Generation 5 is its highly sensitive measurement capability combined with
sophisticated noise suppression, enabling clear differentiation of true partial discharge signals from environmental
and electrical noise. This ensures accurate diagnostics even in challenging industrial environments.
The system’s intuitive user interface and software suite simplify the process of testing, data collection,
and reporting, making it accessible for both field engineers and laboratory professionals. Reports can be generated quickly
with detailed graphical representation, trend analysis, and historical comparison, supporting proactive decision-making
and compliance with international testing standards.
ICM system Generation 5 Key Benefits
- Early detection of insulation defects to prevent costly downtime
- High sensitivity PD measurement for reliable identification of defects
- Modular and scalable design for versatile applications across high-voltage assets
- Real-time monitoring with advanced noise suppression and data analytics
- Intuitive interface for easy operation and rapid reporting
- Suitable for on-site testing, laboratory analysis, and permanent monitoring solutions
The Megger ICM system Generation 5 is the ideal solution for industries where asset reliability is paramount,
including utilities, power generation, oil and gas, and heavy industry. By providing accurate, actionable insights into
insulation health, it empowers organizations to enhance safety, optimize maintenance, and extend the lifespan
of critical electrical assets.
Megger ICM system Generation 5 Key Features
- High-sensitivity partial discharge (PD) measurement for accurate detection of insulation defects
- Modular and scalable system design for use across transformers, switchgear, cables, generators, and GIS
- Real-time data acquisition with advanced noise suppression for reliable results in noisy environments
- User-friendly interface with intuitive software for easy setup, operation, and analysis
- Comprehensive reporting tools including trend analysis, graphical representation, and historical comparisons
- Suitable for both laboratory testing and on-site or permanent monitoring applications
- Compatible with a wide range of sensors and accessories for flexible deployment
What’s in the Box Megger ICM system Generation 5
- Megger ICM system Generation 5 main measurement unit
- Integrated software package for PD acquisition, analysis, and reporting
- High-voltage coupling capacitors and sensor interfaces
- Connection cables and adapters for various PD measurement setups
- User manual and technical documentation
- Rugged carrying case for safe transport and field deployment
Technical Highlights
- Measurement frequency range: 30 kHz – 100 MHz (depending on sensor configuration)
- PD sensitivity: Detects micro-coulomb-level discharges
- Sampling rate: High-speed real-time acquisition for transient events
- Noise suppression: Advanced filtering algorithms for accurate signal differentiation
- Data storage: Internal memory with export capability for long-term monitoring
- Connectivity: USB/Ethernet for software integration and remote monitoring
- Operating temperature: -10°C to 50°C, suitable for field and laboratory use
- Compliance: Meets international PD testing standards (IEC 60270, IEEE, and others)
Specifications
Specifications
| Specification | Details |
|---|---|
| Acquisition Unit – Mains Supply | 90–264 V AC, 47–440 Hz (automatic) |
| Line Fuse | 2 A (time-lag) – ICMsystem with up to 4 channels 3.15 A (time-lag) – ICMsystem with 5 to 10 channels |
| Power Requirements | Approx. 110 VA max. |
| Operation | Remote-controlled via ICMsystem software |
| Operating Temperature | 0–40 °C (non-condensing) |
| Input Impedance (AMP IN) | 50 Ω || 50 pF |
| A/D Converter (PD) | 12 bits, compressed into 8 bits (unipolar) / ±7 bits (bipolar) |
| Size (W x H x D, excl. BNC) | 236 x 133 x 300 mm – up to 4 channels 450 x 133 x 300 mm – 5 to 10 channels |
| Weight | Approx. 6.9–9 kg |
| Standard PD Mode – Lower Cut-Off | 40, 80, or 100 kHz (software-controlled) |
| Standard PD Mode – Upper Cut-Off | 250, 600, or 800 kHz (software-controlled) |
| Input Sensitivity | < 500 μV RMS / 5 pC (without preamplifiers) |
| Gain Range | 4, 8, 10, 20 …, 200, 400, 800 |
| PD Pattern Resolution (x-y-z) | 8 x 8 x 16 bits |
| Preamplifiers – Input Impedance | RPA1/RPA1D/RPA1G/RPA4: 10 kΩ || 50 pF RPA1L / RPA1H: 1 kΩ || 50 pF FCU2: 50 Ω || 50 pF |
| Preamplifiers – Input Sensitivity | RPA1/RPA1D/RPA1G/RPA4: < 50 μV RMS / 0.03 pC RPA1L: < 15 μV RMS / 0.02 pC RPA1H: < 40 μV RMS / 0.05 pC RPA2: < 800 μV RMS / 1 pC RPA3: < 2 μV RMS FCU2: < 200 μV RMS (46 dBμV) |
| Preamplifiers – Bandwidth | RPA1/RPA1D/RPA1G/RPA4: 40–800 kHz RPA1L/RPA1H: 40 kHz–20 MHz RPA2: 2–20 MHz RPA3: 200 MHz–1 GHz FCU2: 100 MHz–1800 MHz |
| Synchronisation / HVM – Frequency | 20–510 Hz (automatic) / 0.02–510 Hz (manual) |
| Maximum Voltage | 200 Vpeak (140 V RMS), 100 V RMS nominal |
| Input Impedance | 10 MΩ |
| A/D Converter | ±15 bits |
| Measurement Uncertainty | Typical < 1.5% |
| Spectrum Function – Input Sensitivity | < 5 μV RMS / 0.5 pC (270 kHz bandwidth) < 1 μV RMS / 2 pC (9 kHz bandwidth) |
| Spectrum Function – Max Input Voltage | 120 mV RMS (300 kHz, SPEC mode) 5 mV RMS (9 kHz, SPEC mode) 2.5 mV RMS (RIV measurement) |
| Spectrum Function – Frequency Range | 10 kHz – 10 MHz (in steps of 10 kHz) |
| Spectrum Function – Bandwidth | 9 kHz or 270 kHz |
| Spectrum Function – Measurement Uncertainty | Typical < 5% |
| PD Location Within Cables | Trigger: 0–100% (steps of 3.125%) A/D converter: ±7 bits Samples: 100 Msamples/s (Tsample = 10 ns) Reduced sample rates: 50 MS, 25 MS Displayed time window: 200–8000 samples (2–80 μs @100 MS) Specimen cable length: 10–5000 m (localisation > 3000 m not possible) Localisation precision: 1 m + 0.1% of cable length |
| Acoustic Fault Location | Trigger: 0–100% (steps of 3.125%) A/D converter: ±7 bits Samples: 100 Msamples/s (Tsample = 10 ns) Reduced sample rates: 50 MS, 25 MS, 10 MS, 5 MS, 1 MS Displayed time window: 200–8000 samples (2–80 μs at 100 MS / 200–8000 μs at 1 MS) Maximum location distance: 11.2 m (for 8000 μs, voil=1400 m/s) |
| Available Communication Interfaces | USB, GPIB, LAN |
Datasheet
Datasheet
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