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

Floating Action Buttons

• Easy and fast setup of camera views
• Go to Light and Image Settings of the selected camera view with only one mouse click

Workflow Wizard

• Guided workflows for wafer setups, alignment tools and Autonomous Assistants
• Workflow wizard shows task-relevant settings and options only
• Wizard settings can be corrected anytime – no need to restart the wizard
• Wizard helps with intelligent solutions in case of error

See "Specifications & Details" tab for more key features

• Designed for use with specific Probe Systems
• Tables to suit all facility requirements and applications
• Stable probing, even in submicron range
• Granite platen ensures rigidity and temperature stability
• Can be combined with the Shield Enclosures

• Choice of Series resistance or Termination (signal line to ground)
• Use of High Performance RF Resistors
• Choice of Resistor values available
• Choice of body styles, Infinity, ACP or FPC
• Can help to stabilize oscillations in high-gain devices
• Impedance match to low dynamic resistance laser diodes
• Custom configured for your application

• Lithographic thin-film construction
• Excellent crosstalk characteristics
• Non-oxidizing nickel alloy tips
• Innovative force delivery mechanism
• 40GHz, 50GHz, 67GHz, 110GHz and 145GHz connectors available
• GSG, SG, GS, GSGSG, GSSG, SGS configurations
• 50 to 250 µm pitches (other pitches available on request)
• High current version (2 A) available

Advantages

• Superior field confinement reduces unwanted couplings to nearby devices and transmission modes
• Superior measurement accuracy and repeatability
• Small scrub minimizes damage to aluminum pad
• Typical contact resistance < 0. 05 Ω on Al, <0.02Ω on Au
• Save valuable wafer space and reduce pad parasitics by being able to shrink pad geometries to 25 x 35 µ m (best case)

• 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

Optimized Measurement Setup

• Multi-purpose SIGMA instrument integration kit
• Shorter cabling and universal chuck connection
• Triax probe with protected guard
• Optimized signal path
• Safe probe tip exchange
• Seamless integration of various analyzers

High Power Chuck

• Triax design for low-leakage measurements up to 3 kV
• Special chuck surface coating
• High-isolation ready
• High-current measurement up to 100 A with lowest contact resistance
• Optional upgrade for 10 kV (coax) operating voltage
• Thin wafer handling capability

Safe Operation

• Arcing protection
• Shield Enclosure with interlock
• Advanced grounding concept
• Maximum protection from high-voltage shock for users and devices
• Common ground protection for all instruments
• EMI/light-tight shielded environment