FormFactor - Cascade Multiline TRL Cal Substrates - Multiline TRL substrates for T-Wave probes
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Substrate material: High-resistivity silicon
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Substrate thickness: 275 µm
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Dielectric constant: 11.8
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Nominal Z0: 50 Ω
Millimeter- and submillimeter-wave calibration substrates, optimized for T-Wave™ probes. The multiline TRL calibration substrates offer CPW standards including reflect (short), thru and two lines and are recommended to use with WinCal XE™ calibration software. Some off-set short and off-set open structures are included for additional measurements.
Impedance Standard Substrate Maps
Part Number | Description | Pitch (μm) |
Multi-line TRL Substrate, WR1.0, WR2.2, WR3.4, WR4.3, WR5.1 |
25 | |
Multi-line TRL Substrate, WR2.2, WR3.4, WR4.3, WR5.1 | 50 | |
Multi-line TRL Substrate, WR3.4, WR4.3, WR5.1 | 75 and 100 |
More Product Information
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High power – 66 W at 2.4 GHz and 43 W at 5 GHz
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Extremely low insertion loss of ≤ 0.4 dB (typical) up to 40 GHz
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Excellent contact control and low contact resistance
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High performance on any pad material (Al or Au)
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Longest lifetime – typically one million (1,000,000) touchdowns
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Light-tight version and EMI-shielded version for low noise and light-sensitive measurements
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Application flexibility, ideal for use in high frequency applications
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Sized to accommodate thermal chucks, laser cutter, and video equipment on the probe system
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Suitable for integration with vibration isolating tables
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Ideal for a wide range of applications such as RF, mm-Wave and sub-THz characterization, FA, DWC, MEMS, optoelectronic tests and WL
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Re-configurable and upgradable as requirements grow
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Minimizes setup times with no loss in performance or accuracy
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Seamless integration of various measurement instruments
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Solid station frame
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Built-in vibration-isolation solution for superior vibration attenuation
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Rigid microscope bridge
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Compact and rigid mechanical design
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Highly accurate measurement results
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Incorporates best-known methods
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Ergonomic and straightforward design for comfortable and easy operation
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Low-profile design
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Simple microscope operation
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Quick and ergonomic change of DUT through pull-out stage
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Minimize training efforts
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Fast time to data
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Convenient operation
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Load-lock chamber: Cycle devices 10X faster in a cryogenic environment
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High-density electrical interface at cryogenic temperatures: More pins on the device enables more test structures to be probed with a single cooldown
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Base temperature of < 2K or < 4K with high cooling power: Test devices at the temperatures that matter most for pre- screening and evaluating device performance
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Low vibration: Stable contact with the device under test and enables low noise measurements
Customized Solutions for a Variety of Challenging Applications
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Fully isolated experiment space for true 4K temperatures during probing
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Cryogenic positioners to provide large travel ranges without warming up the device
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Flexible thermal jumpers to ensure high thermal conductance and low mechanical transmission
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A soft vacuum bellows provides a compliant mounting interface for the cryocooler
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Quick release vacuum feedthroughs for easy configurability
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A large rectangular port for high signal capacity
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Pulse tube cryocooler for cryogen free 4K temperatures
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He-3 sorption cooler for high power intercept and launch stage for ADR
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Single stage ADR provides solid state cooling down to 25mK
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Sample stage mounting at both 300mK and 30mK
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Multiple stage feedthroughs for thermally intercepting the signals
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Two large electrical bread boards for more configurable space
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Rapid cool options for faster cooldowns
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DC, AC and RF/microwave device characterization, 1/f, WLR, FA and design debug
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Full thermal range of -60°C to +300°C
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Reliable and repeatable contact
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Moisture-free, light-tight and EMI-shielded test environment with MicroChamber® technology
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Enables full access to the chuck and the auxiliary sites
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Intuitive, and precise movement of chuck in X, Y, and Z-direction
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High thermal stability components
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On-axis probe-to-pad alignment
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Flexibility from hot only to full thermal range of -60°C to +300°C
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Thermally induced drift can be automatically re-aligned for 30 μm pads in a temperature range from -40°C to 150°C (the effective temperature range depends on pad size, probe card holder and probe card)
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3 performance level configurations (fully-shielded / shielded / open)
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Test automation out-of-cassette for higher test cell efficiency for over-night/over-weekend operation
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User-centered design minimizes training costs and enhances efficiency
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32 GT/s, PCIe 5.0 data rate operation. Fully compatible with other PCIe data rates of 2.5, 5.0, 8.0 and 16.0GTps
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Link widths up to 8-lanes
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Memory segmentation for capture of multiple traces
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Simultaneous two-link, dual port capture is allowed by multiple users
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Host-Client connection for remote debugging using Ethernet, or local debugging using USB
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Decodes all PCIe and NVMe traffic at all layers of the stack including the TLP, DLLP, and PHY layer logic sub-blocks
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Trigger and Search events include training sequences, ordered sets, queue pairs, PRPs, Scatter/ Gather Lists (SGL) etc.
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Cascade up to four Xgig captures into a single trace view
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Full support of LTSSM for analysis
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Field replaceable modular fan and power supply assemblies
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LED’s give quick indicators of power and status
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Works with the VIAVI Xgig software tool suite: Trace Control, Trace View, Expert™, Serialytics™
FormFactor, Inc.
FormFactor, Inc. (NASDAQ:FORM) is a leading provider of essential test and measurement technologies along the full IC life cycle – from characterization, modeling, reliability, and design de-bug, to qualification and production test.
We constantly strive to help our customers solve the advanced test and measurement challenges of the broader semiconductor industry. Our focus on customer partnership, innovation, agility and operational excellence allows us to earn sustainable business every day.
Contact Details
FormFactor, Inc. Corporate Headquarters
7005 Southfront Road, Livermore, CA 94551, USA
Phone: 925-290-4000