• 100 MHz, 200 MHz, 350 MHz, 500 MHz and 1 GHz bandwidths 
• Up to 4 GS/s sample rate 
• Long Memory – up to 20 Mpts 
• 10.1” capacitive touch screen display 
• 16 Digital Channel MSO option 
• MAUI - Most Advanced User Interface 
  • Designed for Touch 
  • Built for Simplicity 
  • Made to Solve 
• Advanced Anomaly Detection 
  • Fast Waveform Update 
  • History Mode - Waveform Playback 
  • WaveScan - Search and Find 
• Multi-Instrument Capabilities 
  • Protocol Analysis - Serial Trigger and Decode 
  • Waveform Generation - Built-in Function Generator 
  • Digital Voltmeter and Frequency Counter 
• Future Proof 
  • Upgradeable Bandwidth 
  • Field Upgradable Software and Hardware Options

UV curing is a photopolymerization process in which UV energy is used to solidify liquids. UV LED curing systems are now the technology of choice across a wide range of applications including printing, 3D printing, coatings, and adhesives due to the inherent value of an LED solution. They offer vastly improved lifetimes, reduced maintenance costs, significant energy savings, and with no ozone emissions or mercury content, offer more benefits than traditional technologies. In addition, the “cold cure” offered by LED-based systems is ideal for heat-sensitive substrates or thin films.

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.

• Our EuroBrite™ lineup outdoes the competition in so many ways. With more features at a competitive price point, there’s no better value in machine vision lighting: 
• Complete built-in control for continuous and strobe modes. 
• Adaptive Power™, a feature of the EuroBrite™ lighting controller, utilizes an onboard thermistor to maximize light output in continuous mode. 
• Adaptive Overdrive,™ another feature of the EuroBrite™ lighting controller, provides a maximal output pulse in strobe mode regardless of the exposure period. 
• IP67 sealed enclosure suitable for washdown environments. 
• Rugged construction that has been tested to withstand over 1000lb. 
• Industrial grade LEDs providing high-intensity illumination of 33klux (working distance of 100mm).

• 2, 4 and 8 channel configurations
• 16-bit vertical resolution
• Sample Rate up to 12.32 GS/s with RF mode
• 16-bit vertical resolution.
• 4 Gpts waveform memory per channel
• Up to 5 Vpp Output Voltage and ±2.5 V Baseline Offset 50 Ohm

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.

• IRIG A & B, NASA 36 and 1 PPS inputs
• HaveQuick sync option
• Propagation delay compensation
• Zero latency time reads
• Match time output
• External event time tags
• Three user programmable rates
• Conduction cooled

• S-parameters DC to 40 GHz, single-ended and mixed-mode
• Impedance Profile with <1 mm resolution, differential and common-mode 
• Internal, automatic OSLT calibration
• USB-connected, small, lightweight
• Flexible display of the measurements
• Remove effects from fixtures, connectors and cables
• Emulate eye diagrams with CTLE, DFE and FFE equalization
• Advanced jitter analysis

• The DF242 is characterized as a Large Low Angle Dark Field ring light. 
• Precisely aimed LEDs provide a very low angle of incidence, radial illumination pattern. 
• A scratch on a sheet of glass is a good example of a defect that can be detected easily with a low-angle dark field illuminator. 
• With a light intensity of 24kLux at a working distance of 1” (25mm), the DF242 is perfect for imaging problems with medium sized fields of view. 
• A 35mm field of view is standard with optional fields of view of 45 and 70mm. 
• Available in a range of wavelengths from UV to IR. 

*Engineered to provide comparable optical characteristics to our previous RL1660.