| Product
Series Number, Name and Family
|
Product
Description |
Features |
Benefits |
Technical
Specifications |
Applications |
|
S100
Nanomanipulator System
|
Manipulator system
used with a scanning electron microscope for micro- and nanoscale
research. |
Up to 4 positioners
for probing, grasping and positioning.
5 electrical channels per positioner.
Modular design.
PC-based Windows® System.
Unique parameters for each user.
Custom joystick.
Compatible with Zyvex Nano-Effector Micro-grippers and Probes. |
Add new capabilities
and functionality to existing and next generation SEMs.
Interfaces with standard test equipment.
Short learning curve. |
Vacuum compatible
to 10-6 Torr.
Operates in atmosphere and vacuum.
12 mm range of motion in x, y, and z axes.
Three degree-of-freedom positioners with 5 nm resolution. |
Mechanical and
electrical characterization.
Device quality
failure analysis.
Nanostructure nanomaterial
nanointerconnect R&D. |
F100
Nanomanipulator System
|
Manipulator system
used with a focused ion beam instrument for micro- and nanoscale
research. |
Up to 4 posi-tioners
for probing, grasping and positioning.
5 electrical channels per positioner.
Modular design.
PC-based Windows® System.
Unique parameters for each user.
Custom joystick.
Compatible with Zyvex Nano-Effector Micro-grippers and Probes. |
Add new capabilities
and function-ality to exis-ting and next generation FIBs.
Interfaces with standard test equipment.
Short learning curve.
|
Vacuum compatible
to 10-6 Torr.
Operates in atmosphere and vacuum.
12 mm range of motion in x, y, and z axes.
Three degree-of-freedom positioners with 5 nm resolution.
|
TEM sample lift
out
Mechanical and electrical characterization.
Integrated circuit quality/failure analysis.
Part separation and cutting.
Nano welding.
Nanostructure/ nanomaterial/ nanointerconnect R&D. |
L200
Nanomanipulator System
|
Manipulation
and testing platform used with a variety of microscopes for
Life Science research. |
Up to 4 positioners
for probing, grasping and positioning.
5 electrical channels per positioner.
Modular design.
PC-based Windows® System.
Unique parameters for each user.
Custom joystick.
Compatible with Zyvex Nano-Effector Micro-grippers and Probes.
|
Compatible
with scanning electron, confocal, standard upright, and inverted
optical microscopes.
|
Vacuum
compatible to
10-6 Torr.
Operates in atmosphere and vacuum.
12 mm range of motion in x, y, and z axes and 95 deg. rotation
about y axis.
Two, four degree-of-freedom positioners with 100 nm and 1.3
micro radians resolution.
One, three degree-of-freedom positioners with 100 nm (5 nm optional)
resolution.
|
Patch-clamp and
microinjection.
Collagen fiber loop test.
Mechanical characterization of micro- and nanoscale biomaterials.
2-3 point probe resistivity and bioimpedance. |
KZ100
Test and Measurement System
|
Fully integrated
S100 nanomani-pulation system and Keithley 4200 semiconductor
characterization system. |
Zyvex data acquisition
software and offline data viewer.
Up to 4 positioners for probing, grasping and positioning.
5 electrical channels per positioner.
Modular design.
PC-based Windows® System.
Unique parameters for each user.
Custom joystick.
Compatible with Zyvex Nano-Effector Micro-grippers and Probes.
|
Enables nanoprobing
integrated circuits in an SEM or FIB. |
Vacuum compatible
to 10-6 Torr.
Operates in atmosphere and vacuum.
12 mm range of motion in x, y, and z axes.
Three degree-of-freedom positioners with 5 nm resolution.
|
DC
charac-terization of semiconductor components, bulk and nanoscale
materials.
Failure Analysis of integrated circuits at the contact level.
|
A100
Assembly System
|
Manipulation
and assembly tool of microscale MEMS components using Zyvex
Micro-grippers. |
PC-based Windows®
System.
Unique parameters for each user.
Custom joystick.
Compatible with Zyvex Nano-Effector Micro-grippers and Probes.
|
Compatible with
electron and optical microscopes. |
1
three degree-of-freedom (x, y, and z) posi-tioners with 100
nm (5 nm optional) resolution.
1 four degree-of-freedom (x, y, z, and Øy) positioner
with 100 nm and 1.3 micro radians resolution.
|
Assembly of microscale
components and MEMS components.
Electrical characterization of microscale assemblies.
Precision assembly of (± 1µm) meso- and microscale
components. |
mDriver™
1000 MEMS Driving Station
|
Multifunctional
MEMS driving and testing system for developmentand characterization
of ative MEMS devices. |
GUI
software allows users to specify output waveforms.
Select from a library of waveforms or create your own. |
Each
of the station’s four channels can be drivenfrom a high
voltage, low voltage, or current source driver.
|
See
technical specifications page here.
|
Prototyping
and testing of voltage or current-driven thermal and electrostatic
MEMS, such as linear actuators, rotary actuators, grippers,
and MEMS mirrors.
Actuate MEMS components in and SEM with the Zyvex S100 Nanomanipulator. |
tDriver™
1600 MEMS Driving Station
|
Synchronized
driving of up to sixteen thermallya ctuated MEMS systems. |
GUI
software allows users to specify output waveforms.
Select from a library of waveforms or create your own.
Driving station hardware used pulse-width-modulation outputs
in order to decrease size and efficiency.
|
Hardware
can be controlled from the PC or it can be detached and used
in stand-alone mode.
Modular hardware can be configured with 2-16 channels (in multiples
of 2).
|
See
technical specifications page here.
|
Control
thermal MEMS such as linear actuators, rotary actuators, grippers
and MEMS mirrors.
Control shape memory alloy.
Actuate MEMS components in and SEM with the Zyvex S100 Nanomanipulator. |
NanoEffector™
Probes
|
Electrochemically
etched tungsten polycrystalline wires used for electrical probing
and manipulation. |
Ultra
sharp tips.
|
Clean
tips ready to use. |
Enables
nanoprobing integrated circuits in an SEM or FIB.
Probes are packaged in dry nitrogen to increase shelf-life.
Custom wire diameters and lengths are available. |
Electrical
probing IC devices at the contact level.
Electrical characterization of nanoscale materials (nanotubes,
nanowires).
Scanning Tunneling Microscopy.
Field emission electron sources.
Spintronics research. |
NanoEffector™
Microgrippers
Product
#
BB-10-PO
BB-30-PO
BB-36-PO
BB-50-PO
BB-60-PO
BB-80-PO
BB-100-PO
BB-120-PO
BB-150-PO
BB-180-PO
BB-500-PO
SM-BB-0-PO
SM-BB-2-PO
SM-BB-5-PC
|
|
Micromachined
silicon grippers systems for micro- and nanoscale research.
|
Power
open.
Power close.
Operate in vacuum and ambient conditions.
Compatible with Zyvex Nanomanipulation Systems. |
Low
voltage analog control permits the most delicate of micro-assembly
operations.
Available in a range of in-stock tip openings and thickness.
Custom tips available. |
BB-
Microgrippers Material : Single crystal silicon
Thickness: 50 micrometers
Max gripping force: 0.55 mN
Peak driving voltage: 10 volts
Peak driving current: 80 mA
SM-BB Microgrippers Material : Single crystal silicon
Thickness: 5 micrometers
Max gripping force: 0.21 mN
Peak driving voltage: 6 volts
Peak driving current: 10 mA |
TEM
sample lift out for TEM analysis.
Microassembly operations.
Micro- and nanoparticle manipulation for analysis.
Optical component manipulation. |
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| ©
Copyright 2008, Zyvex Instruments. All Rights Reserved. |
Zyvex and the Zyvex logo are registered trademarks; NanoEffector,
NanoSolve, and NanoWorks are trademarks of Zyvex Corporation.
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