Transmission line probes are a special type of passive probe designed for use at very high frequencies. They replace the high impedance probe cable found in a traditional passive probe with a precision transmission line, with a characteristic impedance that matches the oscilloscope input (50 Ohm). This greatly reduces the input capacitance to a fraction of a picofarad, minimizing the loading of high frequency signals. A matching network at the tip increases the DC input resistance. While they have lower DC input resistance than a traditional passive probe (usually 500 Ohm) to 1kOhm), the input impedance of these probes remains nearly constant over their entire frequency range. A traditional /10 passive probe will have a 10 MOhm) input impedance at DC, however this impedance drops rapidly with frequency, passing below the input impedance of a transmission line probe at less than 100 MHz.

• Up to 4 GHz Bandwidth 
• ±60 V Offset Capability 
• ±800 mV Dynamic Range 
• 50 kΩ DC Input Impedance 
• 1.2x Attenuation for low additive noise 
• MCX terminated cable with wide variety of connections: 
  • Solder-in (4 GHz) 
  • Coaxial Cable to U.FL receptacle (3 GHz) 
  • MCX PCB Mount (4 GHz) 
  • Browser (500 MHz) 
• ProBus Interface

ProPhotonix designs and manufactures easy to use, plug and play laser diode modules for a wide range of laser applications including uniform laser lines and DOE patterns for machine vision and rugged laser modules for industrial alignment applications. ProPhotonix also partners with leading manufacturers to develop laser modules for life science applications, scientific instrumentation, particle measurement, 3D printing and more.

Diode laser modules are available in a wide variety of wavelengths, output powers, beam shapes and with a variety of electronic functionality and form factors. Wavelengths from 405nm laser to 1300nm laser are available with maximum output power up to 2W. Circular and elliptical spot, Gaussian and uniform lines and various diffractive optical patterns are also available. In terms of electronics, ProPhotonix can offer CW, pulsed or TTL modulation options. Temperature stabilized (TE cooled) laser modules are also possible.

To find the laser module range that best suits your application, try the Laser Module Selector below. Simply enter your specification criteria to see suitable laser modules. Click on the results to go to that specific page where you can download relevant datasheets.

• Ideal for GaN and SiC devices
• Highest system accuracy
• Fastest rise time
• High CMRR - 160 dB

• Highly precise and stable laser projection
• Optimized for projection on 3D objects
• Excellent beam performance by the fiber-coupled laser source
• Large aperture (up to 80° x 80°) enables large working areas
• Data transmission via ethernet adapter
• Easy integration into multi projection systems
• Intuitive graphical user interface ZLPSuite
• Advanced programming interface (API) for C++, C#, Python
• Client-/Server architecture
• PLC-Gateway (Siemens S7)

The ZLP2 is a powerful laser projector equipped with a fiber-coupled Z-FIBER laser source to deliver outstanding beam quality. With an accuracy of 0.25 mm per meter of working distance, it is ideal for precise projections in traditional applications such as woodworking and stone processing, as well as demanding composite material tasks. Operation is simple via the intuitive ZLP-Suite software with graphical user interface or through the integrated programming interface (API). In addition, native control via TCP/IP-enabled PLC systems is supported, allowing seamless integration into automated workflows. The ZLP2 thus provides a flexible, expandable, and reliable solution for industrial applications where precision and efficiency are critical.

Exterior Bottle Mount Liquid Level Sensors offer a reliable and hygienic solution for monitoring fluid levels in sealed or transparent containers. These sensors attach externally, eliminating the need for direct contact with the fluid, ideal for applications where contamination, leakage, or internal access is a concern. With flexible integration options and compatibility across various container materials, they are well-suited for use in medical devices, laboratory equipment, food processing systems, and industrial fluid management. Their non-intrusive design ensures easy installation and maintenance while delivering consistent performance.

AI, cloud computing, and hyperscalers are accelerating the demand for ultra-high-speed, low-latency connectivity, taking us past Gigabit Ethernet and into the era of Terabit Ethernet.

Teledyne LeCroy’s Terabit Ethernet solutions are engineered to help you take full advantage of this new technology cycle. The Xena Ethernet Test Platform gives developers of semiconductor, NEMs, and hyperscalers the solutions they need to validate next-gen silicon, network devices, and interconnects with confidence.

From Layer 1 signal integrity and Layer 2 traffic generation and analysis, we have the solutions you need to simulate, stress, and certify real-world performance. Support for 224Gbps electrical lanes, advanced FEC, and PCS diagnostics ensure readiness for tomorrow’s networks. Compact, desktop-friendly hardware combined with intuitive software and powerful automation ensure seamless lab-to-production workflows.

Whether you’re path-finding 1.6T or optimizing 800G deployments, Xena can fast-track your innovation cycle. Test smarter, deploy faster and reap the rewards.

• Up to 65 GHz 
• Up to 80 Channels @ 36 GHz 
• Up to 160 GS/s 
• Up to 512 Mpts/Ch 
• 50 fs rms Sample Clock (Intrinsic) Jitter 
• Jitter Between All Channels of <130 fs rms

The ZS Series probes provide high impedance and an extensive set of probe tips and ground accessories to handle a wide range of probing scenarios. The high 1 MΩ input resistance and low 0.9 pF input capacitance means this probe is ideal for all frequencies. The ZS Series probes provide full system bandwidth with all Teledyne LeCroy oscilloscopes with bandwidths of 4 GHz and lower.