DVIA-ULF Series

Modular. Low Profile.Total Active Control.

Name: DVIA-ULF
Brand: DAEIL SYSTEMS
Availability: InStock

DVIA-ULF Modular Active Vibration Isolation System

91 mm height. Up to 100 N actuator force.
Slide in from the side. No crane. No air. Just control.

91mm

Isolator height

114N

Combined actuator force

6DOF

Every axis controlled

0.5Hz

Active bandwidth starts

Tech Specs Request Quote

Modular design.
Your microscope decides.

Introducing the DVIA-ULF: a groundbreaking active vibration isolation platform engineered to meet the exacting demands of today's most sensitive instruments—such as electron microscopes and other precision research tools.

Lowest height ever designed
Microscope height remains the same.

The all-new DVIA-ULF isolator height is unbelievably low, slim and light enough to fit under a microscope's base frame. The DVIA-ULF isolator does not raise the microscope height.

Lowest height ever designedMicroscope height remains the same.

The all-new DVIA-ULF isolator height is unbelievably low, slim and light enough to fit under

a microscope's base frame. The DVIA-ULF isolator does not raise the microscope height.

The DVIA-ULF model that is the lowest active vibration isolator DAEIL SYSTEMS has ever designed.

Straightforward Installation.
No heavy lifting.

The DVIA-ULF isolators feature a low-profile design, with an overall height of only 91 mm, allowing direct placement under microscope bases. This side-access design eliminates the need for cranes, forklifts, or other rigging equipment during installation. Each isolator is slim enough to fit directly under the microscope's frame, allowing side insertion with minimal clearance.

Straightforward Installation.No heavy lifting.

ULF Installation Video

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Custom modular design solution
for every microscope.

The modular design of the DVIA-ULF allows seamless scalability. Users can effortlessly add units tailored precisely to their microscope's dimensions and weight, from compact research SEMs to large-scale TEMs. Each setup can be individually optimized according to specific weight and geometric requirements. Installation requires no extensive site preparation, making it ideal for modern cleanrooms and space-constrained laboratories. Its streamlined design integrates effortlessly into existing configurations, delivering exceptional vibration isolation even in challenging low-frequency environments.

Custom modular design solutionfor every microscope.

Engineered for the world's
most sensitive instruments.

The DVIA-ULF supports SEMs, nanoscale imaging tools, and precision
metrology systems across five application domains. Each configuration
is engineered to the specific measurement requirements of the instrument.

Scanning Electron Microscopy

Nanoscale imaging without drift.

Floor vibrations blur electron beam images above 50,000× magnification. The DVIA-ULF
slides beneath the base frame at 91 mm and cancels disturbances from 0.5 Hz. No change
to microscope height. No compromise in clarity.

Supported ManufacturersThermo Fisher · Zeiss · JEOL · Tescan · Hitachi · CIQTEK

Laser Spectroscopy

Coherent beams. Stable paths.

Laser interferometry and alignment systems depend on
sub-micron optical path stability. Low-frequency floor
motion corrupts phase measurement and beam pointing.
The DVIA-ULF holds the optical bench steady in all axes.

Supported ManufacturersLeonardo DRS · Horiba · Bruker · Coherent

Surface Metrology

Profile precision at every scale.

3D profilometers and white-light interferometers
resolve sub-nanometer surface features. Imperceptible
floor vibration degrades Z-axis resolution. The DVIA-ULF
removes the noise floor before it reaches the probe.

Supported ManufacturersZeiss · Sensofar · Nanovea · Keyence · Evident

Atomic Force Microscopy

Picometer contact. Absolute stillness.

AFM tip–sample interactions measure forces at the atomic
scale. Any floor disturbance translates directly into measurement
noise. The DVIA-ULF delivers sub-micron translational and
sub-microradian angular stability across the full bandwidth.

Supported ManufacturersBruker · Semilab · Oxford Instruments

X-Ray Metrology

Precision diffraction. Clean peaks.

X-ray diffraction, reflectometry, and fluorescence all require
vibration-free sample positioning. Low-frequency vibrations
broaden diffraction peaks and distort thin-film measurements.
The DVIA-ULF restores data integrity.

Supported ManufacturersBruker · Zeiss

So much power. Absolute vibration control.So much power.
Absolute vibration control.

The DVIA-ULF delivers up to 100 N of combined actuator force, directly countering floor vibrations in the 1–10 Hz range where precision instruments are most sensitive. Consistent isolation, even on challenging floors like VC-A.The DVIA-ULF delivers up to 100 N of combined actuator force, directly countering floor vibrations in the 1–10 Hz range where precision instruments are most sensitive. Consistent isolation, even on challenging floors like VC-A.

Transmissibility vs. frequency graph showing DVIA-ULF achieving 70–90% isolation at 1 Hz and 90–99% at 2 Hz, outperforming passive isolation systems

Isolation from 0.5 Hz.

Up to90% Isolation at 2 Hz.

Feedback corrects. Feedforward anticipates.

Feedback measures vibration on the isolated mass and counters it in real time. Feedforward reads the floor and cancels disturbances before they arrive. Together, they deliver exceptional low-frequency isolation. Your instruments operate as if the vibration doesn't exist.

DVIA-ULF Series Isolation Dynamics

How it works

Passive Isolation (Spring & Damper):

Without active controls, the spring (k) and damper try to absorb shocks. However, at low frequencies, they can actually amplify the floor disturbance (d), causing the mass to resonate.

Feedforward Control:

Leverages ground sensor data to proactively command the actuators, nullifying floor vibrations before they reach the isolated mass.

Feedback Control:

Continuously measures the isolated mass's residual vibration (y) and uses the actuators to counteract it in real time.

Together, these advanced control mechanisms significantly enhance isolation performance, keeping the mass nearly perfectly still!

System Controls

Toggle to observe how feedback and feedforward mechanisms counteract low-frequency floor vibrations.

Active

Floor Disturbance

Simulate low-frequency vibration

Feedforward Control

Proactive floor sensing

Feedback Control

Reactive mass correction

Every detail. One purpose.

Detection from 0.3 Hz.

A hardware amplifier boosts low-frequency gain.
A digital filter refines the signal. Together, they extend
accurate detection and isolation down to 0.3 Hz.

Responds before you notice.

A floating-point DSP delivering 1800 MFLOPS
processes vibration data in real time.
Response time: 0.5 ms. By the time vibrations reach
your microscope, it's already been cancelled.

Detects the imperceptible.

11 Geophone velocity sensors with 2.55 V/in/s sensitivity and just 0.15% distortion. They capture low frequency vibrations other systems miss entirely so the DVIA-ULF can cancel what it can't ignore.

Six axes. Zero compromise.

The DVIA-ULF controls all six degrees of freedom independently. Its algorithm decouples each axis, eliminating cross-coupling. Sub-micron translational and sub-microradian angular stability, maintained simultaneously.

Magnetically silent.

Less than 0.05 μT magnetic field. Electron beams are sensitive to the smallest magnetic interference. The DVIA-ULF is engineered to be magnetically silent — your beam stays true, your images stay sharp.

User Interface. Monitor. Log. Verify data.

The DVIA-ULF UI displays real-time vibration levels, actuator response, and sensor output across all six axes. Every data can be automatically logged. Review historical trends, export reports, or verify isolation performance at any time. No hidden processes. No black-box algorithms. Your facility team sees exactly what the system is doing, why it's responding, and how it's performing against specification.

Transmissibility Curve

Auto Spectrum

VC Curves

Sensors & Actuators

Custom Platforms. Tailored to Your Tool.

The DVIA-ULF isolators integrate into two platform configurations, each engineered to your metrology tool's specifications. Both platforms share the same isolation performance. Same 91 mm isolators. Same 6DOF active control. Same feedback and feedforward algorithms. The platform adapts to your tool. The isolation stays constant.

Desk Platform

A tabletop-height workstation with isolators built into the structure. Designed for compact SEMs and nanoscale imaging tools where operator ergonomics and workspace integration matter. Height, depth, and cable routing configured to your facility layout.

Base Platform

A floor-standing structure that houses the isolators beneath the instrument. Designed for heavier SEMs and dual-beam systems where direct floor mounting is required. Custom dimensions, load paths, and mounting interfaces configured per tool model.

Specifications

Every Spec. Published.

	DVIA-ULF350	DVIA-ULF700	DVIA-ULF1000	DVIA-ULF1500
Isolator Quantity	2 per system
Dimensions (W×D×H)	W: ≥ 690 mm D: 200 mm H: 91–101 mm	W: ≥ 690 mm D: 240 mm H: 91–101 mm	W: ≥ 730 mm D: 240 mm H: 91–101 mm	W: ≥ 730 mm D: 240–270 mm H: 91–101 mm
Max Load	400 kg	800 kg	1,200 kg	1,600 kg
Control Method	Feedback + Feedforward Active Control
Degrees of Freedom	6 (X, Y, Z, θx, θy, θz)
Active Bandwidth	0.5 – 200 Hz
Isolation at 1 Hz	70 – 90%
Isolation at 2 Hz	90 – 99%
Actuator Force	V: 40 N / H: 40 N	V: 80 N / H: 80 N	V: 80 N / H: 114 N	V: 80 N / H: 114 N
Sensors	Velocity · 100.4 V/m/s ± 10%
Response Time	< 0.5 ms
Magnetic Field	< 0.05 μT
Controller	External
Certifications	CE · TÜV
Power Supply	100 – 240 V AC · 50/60 Hz
Operating Environment	5 – 50 °C · 20 – 90% RH

DVIA-ULF350

Dimensions (W×D×H): W: ≥ 690 mm
D: 200 mm
H: 91–101 mm
Max Load: 400 kg
Actuator Force: V: 40 N / H: 40 N

DVIA-ULF700

Dimensions (W×D×H): W: ≥ 690 mm
D: 240 mm
H: 91–101 mm
Max Load: 800 kg
Actuator Force: V: 80 N / H: 80 N

DVIA-ULF1000

Dimensions (W×D×H): W: ≥ 730 mm
D: 240 mm
H: 91–101 mm
Max Load: 1,200 kg
Actuator Force: V: 80 N / H: 114 N

DVIA-ULF1500

Dimensions (W×D×H): W: ≥ 730 mm
D: 240–270 mm
H: 91–101 mm
Max Load: 1,600 kg
Actuator Force: V: 80 N / H: 114 N

Common Specs· all models

Isolator Quantity: 2 per system
Control Method: Feedback + Feedforward Active Control
Degrees of Freedom: 6 (X, Y, Z, θx, θy, θz)
Active Bandwidth: 0.5 – 200 Hz
Isolation at 1 Hz: 70 – 90%
Isolation at 2 Hz: 90 – 99%
Sensors: Velocity · 100.4 V/m/s ± 10%
Response Time: < 0.5 ms
Magnetic Field: < 0.05 μT
Controller: External
Certifications: CE · TÜV
Power Supply: 100 – 240 V AC · 50/60 Hz
Operating Environment: 5 – 50 °C · 20 – 90% RH

◆

Verified on-site. All performance claims are measured under controlled conditions and confirmed during installation. Maximum load capacity scales with additional isolators. Width and depth customizable per instrument.

Case Studies

Proven in the field. Installed in the world's most advanced semiconductor, aerospace, and research facilities.
Every system measured and verified on-site.

ARCHE Semilab AFM-2000 DVIA-UB350 Inspection Report

|Installation Report|DVIA-ULF Series

2023-11-21

ARCHE Semilab AFM-2000 DVIA-UB350 Inspection Report

DVIA-UB350 (S/N 220621R1) active vibration isolation platform inspection report for Semilab AFM-2000 installed at ARCHE (147, Annyeong-gil, Byeongjeom-gu, Hwaseong-si, Gyeonggi-do). Z / X / Y-axis Transmissibility and VC-Curve measurements taken in idle state and with AFM in operation. All three axes achieve VC-G on the DVIA-UB350 in idle; X-axis shows suspected 60 Hz electrical noise during AFM operation.

DVIA-ULF SeriesInspection ReportARCHE+2

Semilab AFM-2000 DVIA-ULFB350 Installation Report

|Installation Report|DVIA-ULF Series

2026-03-10

Semilab AFM-2000 DVIA-ULFB350 Installation Report

DVIA-ULFB350 (S/N 250414R2) active vibration isolation platform installation report for Semilab Automated AFM (AFM-2000). Vertical / Left-to-Right / Front-to-Back VC Curves, Autospectrum, and Transmissibility measured with equipment turned on/IDLE. All three axes achieve VC-G on the DVIA-ULFB350.

DVIA-ULF SeriesInstallation ReportSemilab+1

ELP Vision Inspection System DVIA-ULFB350 Installation Report

|Installation Report|DVIA-ULF Series

2025-07-30

ELP Vision Inspection System DVIA-ULFB350 Installation Report

DVIA-ULFB350 (S/N 250617R4) installation report for an ELP vision inspection system in the ELP cleanroom (Building A). Vertical, left-to-right, and front-to-back VC curves, autospectra, and transmissibility with the equipment installed and turned off.

DVIA-ULF SeriesInstallation ReportELP+1