Products

High-performance analyzer for compliance testing to EN61000-3-2 and EN61000-3-3 with real-time harmonic and waveform data display.

Key Features:

• Complies with EN61000-3-2 and EN61000-3-3 standards
• Measures rms/peak voltage & current, power, PF, phase
• Histogram display for 40 harmonics
• Voltage & current waveform visualization
• Real-time graphical updates for live analysis
• High-contrast 320 x 240 pixel LCD
• USB, RS232, and printer interfaces
• HA-PC-Link+ software included for full PC control
• Available with UK, Schuko, or US sockets

HDA125 High-Speed Digital Analyzer brings advanced logic analysis capabilities to your existing Teledyne LeCroy oscilloscopes. Compact, accurate, and versatile.

Key Features:

• 12.5 GS/s sample rate for high-speed digital capture
• Supports up to 18 digital channels
• Compatible with WaveMaster/SDA 8 Zi-B and LabMaster 10Zi-A oscilloscopes
• QuickLink Probe System for fast, low-impact signal access
• 3 GHz bandwidth and 80 ps timing accuracy
• Command bus decoding for in-depth DDR/LPDDR memory debugging
• Minimal signal loading with 110 kΩ, 0.12 pF tip impedance
• Cost-effective QuickLink solder-in tips simplify multi-point testing
• Ideal for mixed-signal, high-speed, and memory interface debugging

A high-speed, high-precision LCR meter ideal for low-ESR and impedance testing in advanced electronic components like polymer capacitors, inductors, and piezoelectric elements.

Key Features:

• Continuous LCR/DCR/sweep measurements with one instrument
• Ultra-fast testing speeds: 1.5 ms (1 kHz), 0.5 ms (100 kHz)
• High accuracy: ±0.08% basic accuracy for Z parameter
• Ideal for low-ESR measurement of functional polymer capacitors
• Suitable for resonance testing of piezoelectric elements
• Accurate DCR and L-Q testing of inductors, coils, and transformers

The Hioki IM7580A is a compact, high-speed impedance analyzer for 1 MHz to 300 MHz testing, ideal for both production and R&D. It works seamlessly with the IM9201 SMD fixture for reliable component testing.

Key Features:

• 1 MHz to 300 MHz frequency range
• 0.5 ms test speed
• ±0.72% basic accuracy
• Compact half-rack size with palm-sized test head
• Reliable contact check functions
• Frequency, level, and time sweeps in Analyzer Mode
• RF I-V method for precise measurement

The Hioki IM7581 is a compact, high-speed impedance analyzer designed for accurate testing from 100 kHz to 300 MHz. It’s ideal for both production and development environments.

Key Features:

• 100 kHz to 300 MHz frequency range
• 0.5 ms fastest test speed
• ±0.72% basic accuracy
• Compact half-rack size, palm-sized test head
• Reliable contact check via DCR, Hi-Z reject, or waveform judgment
• Supports frequency, level, and time sweeps in Analyzer Mode
• Uses RF I-V method for precise measurement

The Hioki Impedance Analyzer IM7587 3 GHz provides precision, speed, and versatility for impedance measurements from 1 MHz to 3 GHz, ideal for both R&D and mass production applications in electronic component testing.

Key Features:

• Frequency range: 1 MHz to 3 GHz
• Test speed: 0.5 ms
• Measurement variability: 0.07%
• Basic accuracy: ±0.65% reading
• RF I-V measurement technique
• Compact half-rack design with palm-sized test head
• Robust contact check capabilities
• Analyzer mode: frequency and level sweeps, time interval measurements

The Teledyne T3SA Series Spectrum Analyzers deliver high-performance signal analysis from 9 kHz to 3.2 GHz in a compact, easy-to-use design. Ideal for R&D, education, production, and pre-compliance testing, it features a large touchscreen and advanced digital IF technology.

Key Features:

• All Digital IF technology10.1”
• WVGA (1024 x 600) touchscreen display
• Frequency range from 9 kHz to 3.2 GHz
• -161 dBm/Hz displayed average noise level (typical)
• -98 dBc/Hz @ 10 kHz offset phase noise (typical)
• Total amplitude accuracy < 0.7 dB
• 1 Hz minimum resolution bandwidth (RBW)
• Built-in preamplifier for improved sensitivity

Typical Applications

● Research Laboratory
● Development Laboratory
● Repair and Maintenance
● Calibration Laboratory
● Automatic Production Test
● General bench-top use

The T3VNA Series from Teledyne Test Tools is a powerful, compact solution for engineers who demand precision and versatility in RF and spectrum analysis.

Key Features:

• Vector Network Analysis from 10 MHz to 3.2 GHz
• Spectrum Analysis from 9 kHz to 3.2 GHz
• All-digital IF technology for clean signal processing
• Built-in tracking generator (up to 1.5 GHz)
• Advanced features like Distance-to-Fault, OBW, ACPR
• -156 dBm/Hz typical displayed average noise level
• -98 dBc/Hz @ 10 kHz offset phase noise
• 1 Hz minimum RBW for high-resolution measurements
• 10.1″ WVGA display for smooth operation
• High accuracy with <1.2 dB amplitude error

• High Accuracy & Precision – Achieves ±30 ηA accuracy on multi-current range channels, ensuring reliable and consistent results.
• Scalable Configurations – Choose from 1 to 16 channels across three series configurations, providing flexibility to expand as testing needs grow.
• Compact & Space-Efficient Design – Desktop form factor saves space while maintaining full testing capabilities.
• Comprehensive Data Collection – Log current, voltage, time, temperature, and other critical parameters with high-speed data acquisition.
• Versatile Applications – Ideal for cell and battery testing, fuel cell testing, super-capacitor testing, thermal battery testing, qualification testing, and more.
• Turn-Key System – Pre-configured software and hardware bundles ensure quick deployment and easy setup.
• Advanced Software Integration – Seamlessly integrates with Maccor’s proprietary software for automated testing, data analysis, and reporting.
• Safety & Reliability – Designed with built-in safety features to protect both users and equipment.
• High-Speed Data Logging – Collects high-resolution data for in-depth performance analysis and characterization.
• Multiple Test Modes & Sequences – Supports constant current, power, resistance, pulse, and custom waveforms for comprehensive testing scenarios.

The Maccor Cell, Battery, and Module Test Systems are perfect for:

• Battery and Cell Testing
• Module and Pack Testing
• Fuel Cell & Super-Capacitor Testing
• Research & Development
• Quality Control & Manufacturing

• Electrical energy is returned to the AC grid during discharge
• 100% duty cycle standard – No system power limit, test channel rated for continuous operation at full power, allows use in testing very high power storage batteries and EV systems
• Drive Cycle Simulation – Waveforms can be imported into the test procedure to increase test efficiency and reduce potential operator error
• Local emergency cut-off switch, automatic shutdown on loss of AC power, reverse voltage protection, internal circuit breakers – Provides a high level of safety
• Automatic scaling of data in W/kg or C-rate for drive cycle simulation programs and other test procedures – Reduces operator workload
• Real-time data and graphics – Allows battery performance to be visually monitored at any time as the test progresses

• Addressable Chamber Controllers allow multiple chambers to be controlled on a single Maccor test system.
• Chamber Temperature Set Points are set directly from Maccor’s Test System Software as a step in the test procedure.
• The compact design allows the chamber to easily fit onto a benchtop.
• If bench top and floor space are limited, the 7U height and compact design make it possible to stack up to four chambers in a standard 19” industrial rack cabinet.
• Electrical feedthroughs allow electrical connections inside the chamber while maintaining a maximum seal.
• Optional interface board can be installed inside the chamber to allow a plug-in interface that can accommodate Maccor’s molded Kelvin and coin cell holders.
• Large 3” (76 mm) diameter cable portal on the right side of the chamber.
• Non-Conducting Powder Coated Interior.

• High-Density Testing – Up to 192 test positions per rack or 32 positions per desktop unit, ensuring high-throughput testing.
• Independent Operation – Each test position operates independently, enabling simultaneous testing of multiple cells under different conditions.
• User-Programmable Multi-Step Testing – Configure constant current, power, voltage, or resistance test sequences with easy-to-use software.
• Precise Data Logging & Analysis – Logs current, voltage, time, temperature, and other critical parameters with high-speed data acquisition.
• Real-Time Monitoring & Control – Data can be viewed, plotted, and analyzed in real-time, providing instant insights into cell performance.
• Compact & Scalable Design – Available in desktop models (32 positions) and rack-mounted configurations (up to 192 positions per rack).
• Seamless Integration – Powered by Maccor’s standard test system software, ensuring consistent performance and compatibility with existing systems.
• Turn-Key Solution – Supplied as a complete system with PC and software, ensuring quick deployment and easy setup.
• Advanced Safety Features – Includes automatic shutdown on power loss, reverse voltage protection, and internal circuit breakers for safe operation.
• Versatile Applications – Suitable for single-cell testing, R&D, quality control, battery performance evaluation, and cycle life testing.

• Advanced Formation Schedules – Supports up to 18 test steps with subroutines, allowing complex formation programs for Lithium-Ion and Lithium Polymer cells.
• High Channel Density – Configurable with 512 to 2048 test channels, supporting large-scale production and pilot line testing.
• Accurate Data Logging & Analysis – Logs Voltage, Current, Time, Capacity, Energy, and Cycle with high-speed data acquisition at 200 data points per second.
• Flexible Test Modes – Supports Constant Current, Constant Voltage, Constant Power, and Constant Resistance operating modes.
• Seamless Transition from Constant Current to Constant Voltage – Ensures smooth and accurate formation with no interruptions or spikes.
• High Accuracy & Resolution –
  • Voltage Measurement Range: 0 to 5V
  • Voltage Accuracy: ±5 mV
  • Voltage Resolution: 16-bit
  • Current Resolution: 16-bit
• Intelligent Cell Grading – Customizable grade profiles allow cell grading based on performance, ensuring consistent quality control.
• High Scalability & Flexibility – Combine channels in parallel to increase current capability, supporting dynamic testing requirements.
• Advanced Safety Features – Includes automatic shutdown on power failure, status recovery, and reverse voltage protection for safe operation.
• Turn-Key Solution – Complete system with PC computer and software, ensuring quick deployment and easy setup.
• Comprehensive Data Management – Automatic report generation, data backup, and processing with the MIMS Server Application.

• Enterprise-class server.
• Maximum system uptime
• Designed to run 24×7, 365 days a year
• M7© – Hosts up to 7 virtual machines representing 7 desktop computers
• M22 © – Hosts up to 22 virtual machines representing 22 desktop computers
• Server OS hosted on 2 Enterprise-grade SATA-SSD drives, RAID1
• Virtual Machines hosted on shared array qty of eight (14TB) Enterprise-grade SAS-3 hard drives, RAID6
• 2 Enterprise-grade PSU’s, 2 fans, 2 SATA Drives, 8 SAS-3 drives, all of which are hot-swappable CRU’s (customer replaceable units)

Efficient and Precise Cell Balancing

The Maccor Cell Balancer is engineered to:

• Independently charge and discharge each cell within a string, maintaining equal voltage levels across all cells.
• Optimize battery pack performance by preventing cell overcharging or over-discharging, ensuring longer cycle life and enhanced safety.
• Balance up to 8 cells per unit, with the ability to expand to larger battery packs by connecting multiple balancers in series.

Seamless Integration with Maccor Test Systems

The Maccor Cell Balancer is designed to integrate seamlessly with Maccor’s Mactest32.exe software, allowing users to:

• Incorporate cell balancing steps directly into their test procedures.
• Control and monitor cell balancing with real-time data visualization and automated data logging.
• Customize balancing parameters, including charge and discharge currents, ensuring precision and flexibilityfor different battery chemistries and configurations.