-40%
ThorLabs Optical Table Supports, Active Vibration Isolation PTS603, Set of four
$ 871.2
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Description
ThorLabs Optical Table Supports, Active Vibration Isolation PTS603, Qty 4. Condition is Lightly Used.CONTACT SELLER FOR ACTUAL FREIGHT COST BASED ON SHIPPING DESTINATION
Optical Table Supports: Active Vibration Isolation
Excellent Vertical and Horizontal Isolation
Extremely Low Resonant Frequency
Self-Leveling for Constant Height
Heights: 450 mm (17.7"), 600 mm (23.6"), and 700 mm (27.5")
PTS602
600 mm Tall
PTS603
700 mm Tall
PTS601
450 mm Tall
Application Idea
Active Isolation Legs Being Used to Support an Optical Table
Related Items
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Nexus
®
Optical Tables
Optical Table Frames
Optical Table Supports
Vibration Accessories
Optical Table Accessories
Earthquake Restraints
Nonmagnetic Optical Tables
ScienceDesks
Optomechanics
Benchtop Organizers
Overview
Specs
Design
Feedback
Selection Guide
Active Vibration Isolator Specifications
a
Item #
PTS601
PTS602
PTS603
Leg Height
450 mm
(17.7")
600 mm
(23.6")
700 mm
(27.5")
Vertical Resonant Frequency
1.25 Hz
Horizontal Resonant Frequency
1.0 Hz
Vertical Transmissibility at Resonance
10 dB
Horizontal Transmissibility at Resonance
12 dB
Vertical Transmissibility at 5 Hz
-20 dB (90% Isolation)
Vertical Transmissibility at 10 Hz
-32.5 dB (97.5% Isolation)
Horizontal Transmissibility at 5 Hz
-24 dB (94% Isolation)
Horizontal Transmissibility at 10 Hz
-30 dB (97% Isolation)
Maximum Load Capacity (set of four)
2500 kg (5500 lbs)
Height Adjustment Range
-13 mm, +5 mm (-0.51", +0.2")
Self Leveling Repeatability
0.5 mm (±0.02")
Air Pressure (Maximum)
80 psi (551 kPa)
Finish
Black Paint
The specification data above was measured under a 600 kg load (24% of maximum).
Vibration Sources and Their Approximate Contributions
Types
Frequency (Hz)
Typical Amplitude (inches)
Air Compressors
4 – 20
10
-2
Handling Equipment
5 – 40
10
-3
Pumps
5 – 25
10
-3
Building Services
7 – 40
10
-4
Foot Traffic
0.5 – 6
10
-5
Elevators
Up to 40
10
-3
to 10
-5
Building Motion
46/Height in meters
10
-1
Building Pressure Waves
1 – 5
10
-5
Railroad
a
5 - 20
+/-0.15g dB
Highway Traffic
a
5 - 100
+/-0.001g dB
These amplitudes are reported in dB using the acceleration due to gravity as the reference acceleration.
Vertical Transmissibility Plot
Transmissibility
An optical table system is subjected to continuous vibrational impulses from the laboratory floor. These vibrations may be caused by large machinery within the building or even by wind or traffic-excited building resonances (swaying). Transmissibility is a measure of the isolators efficiency at damping out these vibrations and is defined as the ratio of the amplitude of the transmitted vibration to that of the forcing vibration.
Other common ways to represent this ratio are:
Percent of isolation
= (1 - transmissibility ratio) x 100 or
Isolation in dB
= 20 x log(transmissibility ratio).
At resonance, the system amplifies the input vibration so that the transmissibility ratio is greater than one. The transmissibility ratio is dependent on several factors; for instance the ratio will be dependent on the load placed on the isolators. Remember that the isolators only damp vibrations transmitted through the legs of the frame from the floor; air handling systems are often a significant source of vibration that is transmitted to the work surface through the air. As a result, in applications particularly sensitive to vibrations a comprehensive evaluation of the environment is recommended before choosing a vibration isolation platform. For more information on this topic please see our
Vibration Isolation Tutorial
.
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