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 HD4096 technology provides 12-bit resolution up to 8 GHz and 20 GS/s Up to 5 Gpts of acquisition memory enables detailed viewing of long events 15.6" 1900 x 1080 Full HD capacitive touchscreen
High Power Density: Up to 15 kW in 3U, 30kW in a 6U chassis Wide Voltage Range: 0-10V up to 0-1000V, from 4 to 30 kW Fast Load Transient Response: Protection from undesired voltage excursions Low Ripple and Noise
High power density in 1U / 2U / 4U / 14U chassis up to 18kVA Intuitive touch panel control Innovative iX2™ current doubling technology Multi-language display for global operation
Solve applications rather than develop underlying tools by leveraging a toolkit with a more than 25-year history of reliable performance Tackle applications with utmost confidence using field-proven tools for analyzing, classifying, locating, measuring, reading and verifying Base analysis on monochrome and color 2D images as well as 3D profiles, depth maps and point clouds Harness the full power of today's hardware through optimizations exploiting SIMD, multi-core CPU and multi-CPU technologies Support platforms ranging from smart cameras to HPCs via a single consistent and intuitive API
The fourth generation of Ai’s popular Inline Control System.  High Output Power: Capable of delivering 2.1 amps of continuous output and up to 8 amps in overdrive strobe at 24V, outperforming all other inline controllers on the market.  Compact & Rugged: Sleek enough to fit through wiring conduit with its compact anodized aluminum housing and sealed to IP68 standards for prolonged liquid immersion and complete dust protection.  Plug-and-Play Functionality: Enabled with SignaTech™, allowing for simplicity when overdriving, without risk of damage to the lighthead.
Only BSDL files required to get the board up and running  Set up pin states – e.g. low, high, toggling  Trace shorts, opens and other signals  Easy low-level access to device pins/busses  Clear display of the pins/balls with variable zoom levels and split screen  View JTAG chain data as waveforms  Quickly find and monitor changing pins  Program devices with SVF and STAPL files  Real-time interaction  XJIntegration (use XJAnalyser functionality from other software)
Improves your QA through configurable logging  Allows you to retain power of control on how boards are tested by third parties  User-friendly environment reduces your training costs for production operatives  Ability to test multiple boards, simultaneously, by using multiple XJLinks
Reduce your time spent debugging boards due to high precision fault isolation  Improve your time to market and reduce project risk by early design verification  Reduce your test development time by reusing tests from prototype/design in manufacturing and field support  Ongoing time savings by test reuse across projects
Repair-focused environment for XJDeveloper / XJRunner tests.  Full Connection test.  RAM, Flash and other non-JTAG device tests.  Flash, FPGA, CPLD and EEPROM programming.  Layout Viewer* to show the physical location of faulty nets, pins and components.  Schematic Viewer* to show the circuit design around faults.  Direct control of the pins/balls of JTAG devices.  View pin states graphically in real time or capture them in the Waveform Viewer.  Trace signals to identify shorts, opens and other faults.
Reduce flash programming times  SPI, QSPI, parallel NOR flash devices supported  Support for NAND flash devices available on request  Shortened development cycles  No need for additional equipment  Can be used for fast firmware upgrade  No FPGA development required
Fast flash programming  Increases UUT test coverage with additional interface connectivity  Easy integration with XJTAG test systems
Small, lightweight, portable design: ideal for lab and field work  Self-contained licence so you can use the XJTAG system on multiple PCs  Re-configurable unit for multiple UUTs saving costs