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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Full-radius, nickel-plated tungsten needles
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Power bypass inductance: 16 nH
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Supports collinear and non-standard needle configurations
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Support up to a maximum of 12 ceramic blades DC needles / contacts
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Ideal for probing the entire circuit for functional test
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DC probes can provide power or slow logic to circuit under test
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Provides an effectively noise free environment around the device under test (DUT)
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World’s first probe station with integrated TestCell Power Management (a TestCell is a connected set of equipment, including test software, instruments, probe station, thermal system, and related measurement accessories such as cables and on-wafer probes)
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Up to 4x faster flicker noise thermal testing on 30 μm pads
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Provides dark and dry environment for measuring light sensitive transistors, and devices at negative temperatures (<= -60°C) with frost free operation
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Provides fully managed and filtered AC power to the entire system – prober and instruments
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Filters harmful noise generated by external thermal control systems
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Reduced “antenna effect” injection of unwanted RF noise into the measurement path
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Provide up to 100dB attenuation (50Hz to 80Mhz) with 100mA max DC current handling
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Ultra-low, fA-level current and fF-level capacitance measurements from -65 °C to + 300 °C
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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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User-centered design minimizes training costs and enhances efficiency
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Test automation out-of-cassette for higher test cell efficiency for over-night/over-weekend operation
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Revolutionary technology advancement for wafer and die-level photonics probing
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Highest accuracy in test results
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New innovative combination of hardware and software features to align and optimize fibers/arrays in a wafer-level trench
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Minimized coupling losses with minimal trench dimensions
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Industry standard for vertical coupling to wafer-level grating couplers
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Positioning hardware is precisely calibrated to the probe station and ready to perform die-to-die optical optimizations in minutes
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Dark, shielded and frost-free
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-40°C to +125°C
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Leveraging considerable expertise through an innovative engineering team
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Pioneering set of automated functions that perform critical calibrations of the optical positioning system to the probe station
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Exclusive FormFactor-developed automated test methodology
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Automates manual tasks by integrating probe station machine vision capability with optical positioning and test equipment
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FormFactor-developed graphical user interface to manually control the optical positioning system
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Configurable between single fibers, fiber arrays and edge coupling holders
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Different substrate carriers for wafers up to 200 mm or single dies
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Probe cards and/or up to eight positioners
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Ice- and condensation-free probing down to 77 K (liquid nitrogen) or below 20 K (liquid helium)
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Probe positioners placed inside vacuum chamber
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Joystick controller
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Manual probe positioners with rotary feed-throughs
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User-centered design minimizes training costs and enhances efficiency
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Comprehensive alignment functions – from simple wafer alignment and mapping to automated alignment and test of multiple singulated chips, like IR – Focal Plane Arrays
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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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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
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Ultra-low, fA-level current and fF-level capacitance measurements from -65 °C to + 300 °C
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Guarantees fully-guarded measurements to fA and fF levels
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Individual connectors provide force-sense connection for quasi-Kelvin and CV measurements
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Allows probing of different pad materials and sizes
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Fast replacement of worn probes without the need for tools
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Customizable configuration up to 25 contacts: RF, Eye-Pass power, ground, logic
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Lithographically-defined tips allow automated over temperature measurement on pads as small as 30 µm x 50 µm
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Low and repeatable contact resistance on aluminum pads (< 0.05 Ω) ensures accurate results
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Durable probe structure ensures more than 250,000 contacts
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Able to measure from -40°C to +125°C without compromising performance or accuracy of specifications
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