FormFactor - Cascade Multiline TRL Cal Substrates - Multiline TRL substrates for T-Wave probes
- Substrate material: High-resistivity silicon
- Substrate thickness: 275 µm
- Dielectric constant: 11.8
- 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™ calibration software. Some off-set short and off-set open structures are included for additional measurements.
Models
|
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
High flexibility
- Re-configurable for DC, RF, mmW, FA, WLR and more
- Thermal range: -60˚C to 300˚C available
- Upgrade path to meet your future needs
- Stable and repeatable measurements over a wide thermal range
See "Specifications & Details" tab for more key features
- Ultra-low, fA-level current and fF-level capacitance measurements from -65 °C to + 300 °C
- Guarantees fully-guarded measurements to fA and fF levels
- Individual connectors provide force-sense connection for quasi-Kelvin and CV measurements
- Allows probing of different pad materials and sizes
- Fast replacement of worn probes without the need for tools
Cryogenic Temperatures
- Fully isolated experiment space for true 4K temperatures during probing
- Cryogenic positioners to provide large travel ranges without warming up the device
- Integrated helium pot for high temperature stability of the device under test
- Fully dry cryogen-free cooler eliminates the need for expensive helium circulation systems
- Rapid cool liquid nitrogen option for faster cool down times
See "Specifications & Details" tab for more key features
SlimVue Microscope
- Combined eye-pieces and CCD camera mount
- 3x zoom and quick lens exchange
- Quick lens exchange
- 1 um optical resolution
- Minimized scope footprint
- Fast change from navigation optics to high-resolution optics
- Resolving ‹ 50 μm pads
- Simple integration with any mmW modules
Application Specific Sigma Kits
- Engraved guides on mmW platen
- Supports broadband, load pull, coax RF and banded waveguide configuration
- Optical feedback on platen position (gauge)
- Adaptable to any mmW/sub-THz applications
- Seamless integration with any mmW modules and tuners
- Fast mounting and setup change
THz measurement capability
- Rock-solid mechanical design
- Submicron stage accuracy
- Optical feedback on platen and probe position (gauge)
- Motorized positioner
- <+-1 um separation repeatability
- Micrometer-accurate and repeatable probe placement and overtravel
- Highly-precise and stable THz measurements
Superior Mechanics
- Highly stable granite base
- Independent, coarse movement of X and Y axes, combined with easy fine adjustments
- Excellent measurement accuracy and repeatability
- Fast navigation and high-precision probe positioning
See "Specifications & Details" tab for more key features
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
See "Specifications & Details" tab for more key features
- High performance power bypassing provides low-impedance and resonant-free connections to 20 GHz
- RF bandwidth to 500 MHz
- Long probe life: > 250,000 contacts
- Beryllium-copper tips for gold pads or tungsten for aluminum pads
- Oscillation-free testing of wide-bandwidth analog circuits
- Use with ACP series probes to provide functional at-speed testing for known-good-die
- Mix multiple contact types: Ground, Power (Standard or Eye-Pass), Logic/Signal
- Low and repeatable contact resistance on aluminum pads ( < 0.25 Ω on Al, < 0.01 Ω on Au)
-
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
-
High performance on any pad material (Al or Au)
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Longest lifetime – typically one million (1,000,000) touchdowns
PureLine 3 Technology
- Provides an effectively noise free environment around the device under test (DUT)
- First automated probe station to achieve -190dB spectral noise*
- Up to 32x lower noise (1kHz), for improved device characterization and modelling at the 7/5/2 nm technology nodes targeted for 5G and beyond applications
- Eliminates over 97% of the environmental noise experienced in previous probe systems
- Extensive collection of FormFactor patents, electrical design knowledge, and measurement system IP
Plug In and Go
- 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)
- Eliminates all ground-loop induced TestCell noise
- Low field emissions
- Provides fully managed and filtered AC power to the entire system, prober and instruments
See "Specifications & Details" tab for more key features
FormFactor, Inc.
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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.
