Product Features
Modular & Scalable Design
- Supports 30+ modules, including DC sources, electronic loads, bidirectional power supplies, and SMU modules
- Up to 8 modules can be installed (depending on power), with independent control and full channel isolation
- Supports master-slave parallel connection between 2 modules to extend power (IT27814/IT27814E parallel connection only in CC mode)
Flexible Operation & Programming
- Graphical operation interface with guided menus for intuitive use
- Supports LIST programming, sequence editing, battery testing/emulation, user-defined waveforms, and correction scanning
- Built-in EIS (Electrochemical Impedance Spectroscopy) capability with IT2705 + IT27814 SMU module
- Integrated Ah/Wh statistics, automatically recording regenerative energy
Display & Monitoring
- Flexible display modes: Meter / Scope / Data Logger
- Minimum data logging interval: 20 μs
- Web control supported for full functionality via a standard browser
Connectivity & Software
- Standard interfaces: USB, LAN, CAN, Digital I/O
- Free control software PV2700 included
8-Channel Modular Power Analysis Platform
The IT2705 is a high-performance modular power analyzer designed for flexibility and efficiency. It supports installation of up to 8 modules, including DC sources, bidirectional sources, regenerative loads, and SMU modules, all within a single frame.
Key Advantages
- Real-time monitoring via a full-color touchscreen
- Supports multiple meter view modes: View1, View4, and View8
- Synchronous operation of all modules for unified control of input, output, and load
- Eliminates the complexity of combining multiple bench-top instruments
- Ideal for DC-DC module testing, integrating source, load, measurement, and data acquisition in one unit
- Modular design allows flexible replacement and upgrades to meet evolving testing needs
- Maximizes R&D efficiency and long-term ROI
With its modular architecture, the IT2705 platform enables streamlined testing workflows while providing precise measurement and flexible system configuration, making it a powerful solution for advanced power analysis applications.
Scope view
All IT2705 modules are equipped with a scope sampling rate of up to 200 kHz, supporting high-bandwidth, real-time monitoring of DUT’s voltage, current, and power waveforms. No external current probes, current clamps, or voltage probes are required, allowing complete capture of power-on/off transients, load switching, and interferences. This significantly simplifies the testing and improve analysis efficiency. Additionally, the IT2705 front panel is equipped with scope control keys (including trigger, single capture, run/stop, time base adjustment, etc.), making debugging more intuitive and efficient.
Arb Mode
The IT271XX, IT273XX, IT275XX, and IT278XX modules feature high-performance Arbitrary Waveform (ARB) output, enabling users to define voltage, current, power, or resistance profiles that vary over time for precise testing sequences.
Key Features
- Accurate simulation of dynamic behaviors at the DUT input, including:
- Voltage transients
- Dropout events
- Load pulses
- Supports a variety of built-in waveform types: sine, pulse, trapezoid, exponential, step, ramp, staircase, and user-defined waveforms (up to 128-point data import)
- Ideal for:
- Battery operating condition simulation
- DC-DC stability testing
- Communication device activation behavior analysis
With ARB capability, these modules provide flexible, precise, and repeatable dynamic signal generation, allowing engineers to simulate complex real-world conditions reliably and efficiently.
Battery Simulation
The IT273XX and IT278XX modules provide precise battery simulation, accurately replicating the voltage-current behavior of real batteries across different states of charge (SOC).
Key Features
- Users can configure key battery parameters such as:
- Open-circuit voltage (Voc)
- Internal resistance
- Capacity
- The system dynamically adjusts output voltage according to the DUT’s current demand, faithfully simulating real charge and discharge cycles
- Compared to real batteries, the simulator offers higher repeatability and consistency
Applications
- Development and testing of battery-powered devices
- Validation of power management ICs
- Any scenario requiring reliable and repeatable battery behavior simulation
With these modules, the IT2705 / IT278XX platform provides realistic, flexible, and repeatable battery simulation, ensuring accurate test results while avoiding the variability and limitations of actual batteries.
