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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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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Probe positioners placed inside vacuum chamber
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Short and stable probe arms
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Joystick controller
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Manual probe positioners with rotary feed-throughs
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Software control of chuck for fast step-and-repeat testing of the entire wafer
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Fast step-and-repeat testing of the whole wafer
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User-centered design minimizes training costs and enhances efficiency
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DC-40 GHz bandwidth
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10 ps rise time
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Low insertion and return loss
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2 mils of tip-to-tip compliance
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High probing angle and clearance
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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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Comprehensive I/O connections: Standard setup of up to 24 RF lines (up to 20 GHz) and 48 DC lines, with extensions to higher I/O connections possible.
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Non-magnetic construction: Capable of characterizing qubits below 50 mK without magnetic interference when required.
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Sample size: Proven with chips up to 10×10 mm in size.
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Pressure-based contact: Connect test and measurement I/O to DUT pads using pressure only. No permanent connection required.
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Superior field confinement reduces unwanted couplings to nearby devices and transmission modes
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Superior measurement accuracy and repeatability
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Small scrub minimizes damage to aluminum pad
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Typical contact resistance < 0. 05 Ω on Al, <0.02Ω on Au
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Save valuable wafer space and reduce pad parasitics by being able to shrink pad geometries to 25 x 35 µ m (best case)
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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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Probe positioners placed inside vacuum chamber
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Short and stable probe arms
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Intuitive, manual drives
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Front loading capability through load door
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Software control of chuck for fast step-and-repeat testing of the entire wafer
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Fast step-and-repeat testing of the whole wafer
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Infinity Probe: best for Al (Si)
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ACP Probe: best for AU (III-Vs)
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|Z| Probe: robust solution (long lifetime)
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RF chuck ±3 μm surface planarity
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Unique 500 μm platen contact/ separation stroke with ≤± 1 μm accuracy for repeatable contact
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Exclusive 1-, 2-, 3-, and 4-port on-wafer calibration algorithms
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Automated calibration monitoring
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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
The low frequency tuners are a unique product technology using MPT algorithms for low frequency wideband tuning. Three or more cascaded tuning sections use series transmission cables and parallel rotary capacitors.
The length of the cables and number of tuning sections are optimized for maximum tuning range over a given bandwidth. HLFT tuners use 6 tuning sections allowing second harmonic frequency tuning.
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