Hitachi S-4800 SEM on a three-isolator
Customers that prefer to make the platform themselves can
purchase the design, the SM-1 Minus K negative-stiffness vibration
isolators and build the platform locally to save fabrication
and shipping costs.
WITH MINUS K VIBRATION ISOLATION
This is a horizontal only FP-1 for a JEOL JEM 1400 TEM on a 5th floor.
JEOL JEM-1400 TEM within spec with Minus K's FP-1
The FP-1 consists of a large platform, two or three Minus K® SM-1 negative-stiffness vibration isolators, outriggers which connect the platform to the isolators, isolator floor and jack screw plates which help to spread the load on the floor and ballast weights.
The FP-1 platform is a heavy steel plate which typically weighs nearly as much as the microscope itself. One reason for this design is to lower the overall system center of gravity to the level of the isolator tilt mechanism, so as to avoid horizontal-tilt coupling, which occurs when horizontal vibrations cause both a horizontal and tilting response of the column. With the system CG at the level of the isolator tilt mechanism, the vibrations are decoupled and better isolation control is achieved. Another reason for the massive platform is that the large total mass of the system helps to diminish any effects from stiff cables and hoses connected to the microscope.
LEO 1550 SEM on a two-isolator floor platform
For SEMs and some TEMs only the column console is isolated.
In some cases the column, display and other components are
isolated on the platform.
The system can achieve natural frequencies of 0.5 Hz or less, vertical and horizontal, with all external line, hoses and cables disconnected from the isolated payload and the internal isolators locked out. (with most microscopes the external lines, hoses and cables have a relatively small effect on the isolation system performance)
WITHOUT MINUS K VIBRATION ISOLATION
JEOL JEM-1400 TEM out of spec before Minus K's FP-1