OptoVue

• Revolutionary technology advancement for wafer and die-level photonics probing
• Real-time in-situ calibrations
• Singulated die testing
• True die-level edge coupling
• In-situ power measurements
• Advanced calibration technologies
• Enables autonomous measurements

Horizontal Die-Level Edge Coupling

• Highest accuracy in test results
• Lowest coupling loss
• Repeatable measurement results due to exclusive automated fiber-to-facet alignment technology
• Reduced risk of damaging fibers with collision avoidance technology
• Ease of use for less experienced users
• Enables close simulation of real-world conditions with device performance closest to the final application

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• Enables wafer probing up to 100 A pulsed and 10A DC
• Innovative multi-fingertip design provides even distribution of current
• Supports up to 500 V
• Replaceable Tungsten probe tips
• Temperature range of -60°C to 300°C
• Minimal contact resistance at the pad-tip junction to reduce heating during measurements, with fewer probe marks
• Prevents against thermal runaway
• Measure devices on wafer at higher currents than ever before
• Small scrub minimizes damage to aluminum pad
• Small footprint – tip fits on a 1 mm pad

Superior Mechanics

• Highly stable granite base
• Independent, coarse movement of X and Y axes, combined with easy fine adjustments down to submicron ranges
• 1 µm repeatable separation stroke
• Excellent measurement accuracy and repeatability
• Fast navigation and high-precision probe positioning

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• Customizable configuration up to 25 contacts: RF, Eye-Pass power, ground, logic
• Lithographically-defined tips allow automated over temperature measurement on pads as small as 30 µm x 50 µm
• Low and repeatable contact resistance on aluminum pads (< 0.05 Ω) ensures accurate results
• Durable probe structure ensures more than 250,000 contacts
• Able to measure from -40°C to +125°C without compromising performance or accuracy of specifications

Flexibility

• Different substrate carriers for wafers up to 200 mm or single dies
• Probe cards and/or up to eight positioners
• Optional thermal chuck (-60°C to 300°C) and pressure regulation
• Accessories available, such as black bodies and optical motion analysis tools
• Optional upgrade for 300 mm wafer
• Designed for industrial environments
• Covers wide range of measurements (I-V, C-V, RF, MEMS, OPTO)
• Ideal for small structures

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T-Wave Waveguide Banded Probes

• Low insertion loss
• Low contact resistance
• 140 GHz – 1.1 THz versions
• Probe pitch as narrow as 25 μm
• Lithographically-defined probe tip
• Nickel contacts

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• Ideal for multiport RF/Microwave and high-speed digital signal testing
• Mix DC and RF/Microwave signals on one probe
• Long lifetime – typically over one million (1,000,000) touchdowns
• Excellent performance in temperatures ranging from 10 K to 200°C
• Probe on any pad material with no damage

Gold-plated TESLA High-power MicroVac™ Chucks

• Prevent thin wafers from curling and breaking
• Advanced MicroVac chuck surface for minimum contact resistance between wafer and chuck
• Accurate Rds(on) measurement at high current
• Accurate UIS measurements at high temperature