Difference between revisions of "FFT Spectrum Analyzer Multipurpose"

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__NOTOC__
__NOTOC__
[[File:O4_range Gamme O4 + OR10 + OR35 + OR36 + OR38.png|frame|left|FFT analyzers|alt=Multichannel acoustic and vibration analyzer]]
[[File:O4_range Gamme O4 + OR10 + OR35 + OR36 + OR38.png|frame|left|FFT analyzers|alt=Analyzer acoustic vibration multichannel]]
The OROS series multi-function FFT analyzer is PC-based, high-performance, reliable, and easy to operate.
The OROS series multi-function FFT analyzer is PC-based, high-performance, high reliability and easy to operate.  


We have further increased the arithmetic processing speed and real-time analysis capacity to more than 16 times that of conventional models. An Ethernet LAN interface is used for high-speed connectivity.
We have further increased the arithmetic processing speed and increased the real-time analysis capacity to more than 16 times that of the conventional model (OR20 series). An ethernet LAN cable is used as the interface.  


In addition, the number of simultaneous recording channels in the frequency range (40 kHz) has been expanded to a maximum of 1000 channels, and the dynamic range has been improved to 140 dB. These improvements allow users to measure time signals over a wide frequency range simultaneously on multiple channels.
In addition, the number of simultaneous recording channels in the frequency range (40 kHz) has been expanded to a maximum of 1000 channels and the dynamic range has been improved to 140 dB. These improvements allow a user to measure time signals over a wide frequency range simultaneously on multiple channels.


{|class="wikitable" style="width:100%;"
 
|style="background: #0000A0; text-align:center;"|<big>[https://www.oros.com/demo-request/ <span style="color:white;">Schedule a demo]</span></big>
{|class="wikitable" style="width:100%;"  
|style="background: red; text-align:center;"|<big>[https://www.oros.com/quote-request-form/ <span style="color:white;">Get a quotation]</span></big>
|style="background: #0000A0; text-align:center;"|<big>[https://www.oros.com/demo-request/ <span style="color:white;">Schedule a demo]</big>
|style="background: green; text-align:center;"|<big>[[FFT_Spectrum_Analyzer_Multipurpose#Full_technical_support|<span style="color:white;">Contact support]</span>]</big>
|style="background: red; text-align:center;"|<big>[https://www.oros.com/quote-request-form/ <span style="color:white;"> Get a quotation]</big>
|style="background: green; text-align:center;"|<big>[[FFT_Spectrum_Analyzer_Multipurpose#Full_technical_support|<span style="color:white;">Contact support]]</big>
|}
|}


<gallery mode="packed-hover" align="left">
 
<gallery gallery="" mode="packed-hover" align="left">
File:TWanalyzer2.jpg|alt=Vibration measurement up to 1000 channels|Analyzer Cascade mode
File:TWanalyzer2.jpg|alt=Vibration measurement up to 1000 channels|Analyzer Cascade mode
File:Situation auto hammer pc.jpg|alt=Hammer test on automotive in anechoic room|Modal FRF measurement
File:Situation auto hammer pc.jpg|alt=Hammer test on automotive in anechoic room|Modal FRF measurement
Line 27: Line 29:
File:Turbo orbit.JPG|alt=Turbomachinery orbit vibration measurement|Vibration on turbomachinery
File:Turbo orbit.JPG|alt=Turbomachinery orbit vibration measurement|Vibration on turbomachinery
File:Or34 situation.jpg|alt=NVH measurement on a car|NVH automotive measurement
File:Or34 situation.jpg|alt=NVH measurement on a car|NVH automotive measurement
File:Airfrance.jpg|alt=Acoustic measurement with octave analyzer in a plane|In-flight measurement
File:Airfrance.jpg|alt=Acoutic measurement with octave analyzer in a plane|In flight measurement
</gallery>
</gallery>


== Main Features ==


* From 2 to 32 channels
 
* Synchronous measurements up to 1000 channels possible by combining multiple analyzers (*)
==Main Features==
* Compact and lightweight (4-ch model: 1.5kg, 10-ch model: 3.0kg)
 
* High-speed communication with PC through an Ethernet LAN interface
 
* Equipped with an output channel as standard
* From 2-32 channels
* Built-in internal battery as standard
* Synchronous measurements up to 1000ch is possible by combining multiple analyzers (*)
* Simultaneous recording, FFT analysis, octave analysis, and tracking analysis
* Compact and lightweight (4ch model 1.5kg, 10ch model 3.0kg)  
* Real-time measurements and post-analysis on the same software platform ([[NVGate]])
* Achieves high-speed communication with a PC through an ethernet LAN interface
* Simultaneous measurement of sound, vibration, strain, and temperature using XPODS (**)
* Equipped with an output channel as a standard  
* Built-in internal battery as a standard
* Record, Fast Fourier Transform analysis, octave analysis, and tracking analysis can be performed simultaneously at high sampling frequencies
* Realtime measurements and post-analysis can be performed with the same software platform ([[NVGate]])
* In addition to sound and vibration, strain and temperature can be measured at the same time using XPODS (**)
* CAN-bus module compatible (***)
* CAN-bus module compatible (***)
* Standalone recording mode or PC-connected (****)
* Recording is possible with analyzer in standalone mode or in conjunction with a PC (****)
 
 
(*) Synchronous measurements that combine multiple analyzers is possible only for TW OR35 / TW OR36 / TW OR38.
 
(**) The strain / temperature module(XPOD) can be installed only on TW OR35 / TW OR36 / TW OR38.
 
(***) CAN-bus module can be installed only on OR10/ TW OR35 / TW OR36 / TW OR38.
 
(****) Stand-alone measurements are possible only with SSD-equipped models OR10 / TW OR35 / TW OR36 / TW OR38.
 
==Introducing the hardware==
[[File:hardware.png|right|Spectrum analyzer|alt=OROS instrument analyzer for noise and vibration]]
===Small and lightweight===
 
 
OR10-8ch model: 0.8kg
 
O4: 4ch model: 0.5kg
 
OR35 TW: 10ch model: 3.0kg
 
OR36 TW: 16ch model: 5.2kg
 
OR38 TW: 32ch model: 8.2kg
<br>
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<br>
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<br>
<br>
 
===Ethernet LAN interface===
[[image:laninterface.PNG|right|FFT analyzer ethernet|alt=Back of FFT analyzer : ethernet connection for PC]]
Achieves high-speed communication with a PC through an ethernet LAN interface
<br>
<br>
<br>
<br>
<br>
<br>
 
===Built-in battery===
OR10/ OR35/ TW OR36 / TW OR38: Models have a built-in battery.
 
OR10 can be operated by battery for 4hours
 
OR35 can be operated by battery for 3 hours.
 
TW OR36 / TW OR38 can be operated by battery for 2 hours.
 
04 operate with battery PC.
 
===External battery===
[[File:external battery.PNG|200px|right|external battery on analyzer|alt=External battery on spetrum analyzer]]
 
We provide a compact and lightweight external battery that can be installed on all models.
 
Can be used for up to 8 hours with one external battery.
 
Can be stored in a "PC integrated carrying case".
<br>
 
<br>
 
<br>
<br>
 
<br>
 
===Synchronous Measurement Of Up To 1000 Channels is Possible by Combining Multiple Analyzers===
(TW OR35 / TW OR36 / TW OR38 only)
 
High-precision synchronous measurements (0.2 ° @ 20kHz) are possible by simply connecting each analyzer using a general-purpose LAN cable. Function measurements can be taken with the hammer connected to the third unit in the chain and the accelerometers connected to each unit. Tracking analysis can be completed with the accelerometers connected to each unit while using a tachometer connected to the second unit in the chain.
 
[[File:teamworkanalyzer.png|700px|cascade mode]]
 
=== Measure From Sound / Vibration and Strain Gauge / Temperature ===
(OR35 / TW OR36 / TW OR38 only)
[[File:Usersmanual_32.jpg|200px|right|Conditioner on analyzer|alt=Temperature and straing conditionner]]
By mounting a [[XPod_Bridge_-_Strain_gauge|strain gauge conditioner]] and [[NVGate_X-Pod:_Temperature_probe_conditioner|thermocouple conditioner]] on the Oros FFT analyzer, it is possible to measure strain and temperature data in addition to sound and vibration data.
 
Thermocouple amplifier: Supports types J, K, T, N, E (with temperature compensation)
<br>
<br>
<br>
<br>
 
===CAN-bus Module Available ===
[[File:Can_Bus.jpg|150px|right|Can bus measurement|alt=Can bus to add on OROS instrument]]
(OR10/ TW OR35 / TW OR36 / TW OR38 only)
 
By using the [[NVGate_Can_BUS|CAN-bus module]], tracking analysis can be performed using information such as the engine speed flowing from the CAN-bus. By using this function, tracking analysis can be performed without using a tachometer.
<br>
<br>
 
===Recording is possible without the use of a PC by using the FFT analyzer in stand alone mode ===
(OR35 / TW OR36 / TW OR38 only)
 
[[File:d_rec.PNG|150px|right|Data acquisition recorder|alt=Vibration time signal Measurement without PC]]
The FFT analyzer is equipped with a [[NVGate_D-Rec|record-only button]]. Simply select a predefined measurement setup and press the record button to record onto the FFT analyzer alone without the use of a PC.
 
<br>
<br>
<br>
<br>
 
 
 
In addition, the back of the Fast Fourier Transform Spectrum Analyzer Multipurpose is equipped with an audio terminal and power supply. It is possible to record audio data while also measuring the time signal. The analyzer also can supply power to required sensors, such as proximity probes, tachometers and DC sensors. 
 
[[File:FFT_analyzer.jpg|600px|Back of the hardware|alt=all the plug available on the backside of instrment]]
<br>
<br>
<br>
 
==Software Introduction==
 
*Easy-to-use interface
*Real-time measurement / post-analysis can be performed with the same software platform (NVGate)
*One-click report creation function
 
===Start the Measurement Quickly and Easily===
 
 
You can start measuring immediately by using the quick function provided in the  OROS FFT analyzer mult function. This is completed by defining the number of input channels in the channel field and the measurement/analysis content in the show results area.
 
 
 
The Oros series FFT spectrum analyzer multifunction uses an interface similar to the ribbon interface used by Microsoft Office. All menus are accessible via the ribbon interface, making it easy to change measurement settings.
 
[[File:home3.PNG|800px|software ribbon|alt=NVgate ribbon technology]]
 
===One-click Setting Function===
With the Oros series multi-purpose FFT analyzer, you can display related measurement condition settings by double-clicking on the measurement screen. For example, if you double-click on the FFT analysis screen, the dialog for setting the measurement conditions for FFT analysis will be displayed on the screen as shown below.
 
 
[[File:FFT_analyzer_spectrum.png|500px|FFT spectrum|alt=Parameters easy to change]]
 
===Control Panel===
In addition, the OROS FFT spectrum analyzer is equipped with a control panel function that allows users to save frequently used measurement settings for quick access. By using this function, all settings can be changed on the [[NVGate_Control_Panel|control panel]]. For example, the following is the setting screen for a hammer test. By saving the input settings, threshold settings, and FFT analysis settings to the control panel as shown below, it is possible to make all the necessary settings quickly by only using the control panel.
 
[[File:control panel_test.png|700px|Software FFT settings|alt=Control easily the software]]
 
===Various filters can be applied to recorded signals & FFT analysis results===
Four types of filters: Low-pass filter, high-pass filter, band-bus filter, and band-stop filter, can be applied to the results of recorded signal and FFT analysis. By using a [[NVGate_Filter_Builder|filter]], it is possible to remove abnormal noise components from the recorded signal and perform processing such as reproducing the extracted abnormal noise components.
 
[[File:filter_fft.png|600px|Filter analyzer]]
 
===Extract arbitrary order components from the color spectrum graph in real time===
 
Any order component can be extracted in real time from the color spectrum graph.
 
[[File:extraction.jpg|Synchronous order analysis extraction|alt=order extraction on vibration software]]


<small>
Easy-to-read Layout
(*) Synchronous measurements are possible only for TW OR35 / OR36 / OR38.
(**) XPOD modules can be installed on TW OR35 / OR36 / OR38.
(***) CAN-bus module is compatible with OR10 / TW OR35 / OR36 / OR38.
(****) Standalone measurements are possible with SSD-equipped models: OR10 / TW OR35 / OR36 / OR38.
</small>


== Introducing the Hardware ==
The area for arranging windows is called a layout.
[[File:hardware.png|right|Spectrum analyzer|alt=OROS noise and vibration analyzer instrument]]
The OROS multi function FFT analyzer can create up to 16 layouts per project. You can easily arrange your windows by using the layout function. And your windows will open the same way each time.
=== Small and Lightweight ===


* **OR10-8ch**: 0.8kg
It is possible to display up to 32 screens in one layout.
* **O4-4ch**: 0.5kg
* **OR35 TW-10ch**: 3.0kg
* **OR36 TW-16ch**: 5.2kg
* **OR38 TW-32ch**: 8.2kg


=== Ethernet LAN Interface ===
Up to 512 windows (= 16 x 32) can be displayed.
[[image:laninterface.PNG|right|FFT analyzer ethernet|alt=Back of FFT analyzer: Ethernet connection for PC]]
Achieves high-speed communication with a PC through a reliable Ethernet LAN interface.


=== Built-in Battery ===
OR10, OR35, TW OR36, and TW OR38 models include a built-in battery:
* **OR10**: up to 4 hours
* **OR35**: up to 3 hours
* **TW OR36 / OR38**: up to 2 hours
* **O4**: powered by the PC battery


=== External Battery ===
<big>'''Layout utilization example:'''</big>
[[File:external battery.PNG|200px|right|external battery on analyzer|alt=External battery on spectrum analyzer]]
A compact and lightweight external battery is available for all models, providing up to 8 hours of autonomy. It can be conveniently stored in the "PC integrated carrying case."


=== Synchronous Measurement (Up to 1000 Channels) ===
(TW OR35 / OR36 / OR38 only)


High-precision synchronous measurements (0.2° @ 20kHz) are achieved by daisy-chaining analyzers with standard LAN cables. This setup is ideal for large-scale modal analysis or complex tracking measurements.
'''Layout 1''': Record waveform, FFT analysis result, order ratio analysis result displayed


[[File:teamworkanalyzer.png|700px|center|Cascade mode setup]]
[[File:Fft_extraction_data.jpg|Order extraction|alt=Recorder and FFT together]]


=== Sound, Vibration, Strain, and Temperature ===
(OR35 / OR36 / OR38 only)
[[File:Usersmanual_32.jpg|200px|right|Conditioner on analyzer|alt=Temperature and strain conditioner]]
By adding a [[XPod_Bridge_-_Strain_gauge|strain gauge]] or [[NVGate_X-Pod:_Temperature_probe_conditioner|thermocouple]] conditioner, the OROS FFT analyzer becomes a complete multi-physics acquisition system.


=== CAN-bus Module ===
'''Layout 2''': Display 3D frequency analysis results and 3D order ratio analysis results
[[File:Can_Bus.jpg|150px|right|Can bus measurement|alt=Can-bus module for OROS instrument]]
(OR10 / TW OR35 / OR36 / OR38 only)
The [[NVGate_Can_BUS|CAN-bus module]] allows for tracking analysis using engine speed (RPM) or other parameters directly from the vehicle's bus, eliminating the need for external tachometers.


=== Standalone Recording (D-Rec) ===
[[File:waterfall_extract_order.jpg|3d display order spectrum |alt=NVGate software on line measurement]]
(OR35 / OR36 / OR38 only)
[[File:d_rec.PNG|150px|right|Data acquisition recorder|alt=Vibration time signal measurement without PC]]
The [[NVGate_D-Rec|D-Rec]] feature allows for recording signals without a PC. Simply select a predefined setup and use the physical record button on the instrument.


The hardware is also equipped with audio terminals and power supplies for proximity probes, tachometers, and DC sensors.


[[File:FFT_analyzer.jpg|600px|center|Back view of the hardware with available connectors]]


== Software Introduction ==


* **Easy-to-use**: Intuitive Ribbon interface.
'''Layout 3''': Display 3D '''octave analyzer''' analysis results
* **Unified Platform**: Real-time and post-analysis in the same software (NVGate).
 
* **Automation**: One-click report creation and batch processing.
[[File:octave waterfall.jpg|Octave acoustic measurement 3d display|alt=Acoustic measurement with octave]]
 
===Easy operation <Graph layout selection button>===
 
 
You can easily arrange windows just by selecting the grid menu.
 
[[File:gridwindows_PNG.PNG|NVGate icon|alt=Grid icon]]
 
 
Batch copy of measurement data with one menu. Numerical data can be transferred to Excel all at once.
 
[[File:excel_report.jpg|400px|FFT spectrum Report function|alt=export your data]]
 
 
Data measured at different times can be overwritten by dragging which allows for easily comparing measurement data.
 
[[File:drag_drop_report.jpg|Software NVGate]]
 
===One-click report creation function===
 
 
Simply click the report button located on the ribbon interface to create a [[NVGate_Report|report]] file containing the current measurement results.
 
[[File:allwindows_.PNG|NVGate report|alt=report all windows]]
 
• The content of the report is customizable. Customize it to the format that best suits your needs.
 
[[File:report-customize.jpg|500px|customize FFT analyzer software report|alt=Post analysis vibration software]]
 
===Measurement data search function===
[[File:pc cloud.PNG|right|Data stored|alt=cloud vibration data]]
Various information (meta-data) can be added when saving measurement data.
You then can search for measurement data and projects based on the added information.  
 
Filter:
* Project name
* Measurement date  and time
* Measurement conditions
* Measurement target
* Measurement site
* User
[[File:filter_project.PNG|550px|meta data on noise and vibration software NVGate|alt=Acoustic and vibration search function]]
 
===Fail judgment function as standard===
The [https://youtu.be/kx2HbcvfG_w pass / fail feature] of NVGate can be performed automatically after setting the desired bounds.
 
In the example below, a dialog is displayed when the product fails, but it is also possible to output a contact signal instead of the dialog.
 
[[File:fail_test.JPG|Pass/fail test on resonnance frequency impact hammer test|alt=Failed pass test on resonnance frequency test]]
 
===Automate post-analysis processing===
 
The same processing can be continuously performed for record files measured multiple times. By using this function, it is possible to automate the generation of reports, and it is possible to generate the same number of post-analysis results and EXCEL-based reports as record files with one click. Processing that used to take more than a week can now be done in a few hours.
 
 
[[File:BPP2.jpg|Post processing acoustic measurement batch |alt=Offline measurement]]
 
==specification==
===Main specifications===
 
{| class=wikitable style="width:100%;" style="text-align:center;"
! style="width:16%|
! style="width:21%|O4
! style="width:21%|OR35
! style="width:21%|OR36
! style="width:21%|OR38
|-
!colspan=6 style="text-align:center;" | Dynamical Input channel
|-
! Number of analysis channels
| 2, 4
| 6,  10 <br>  (Select Analysis or tachometer on 2 channels)
| 4, 8, 12, 16
| 8, 16, 24, 32
|-
! Terminal shape
| colspan=5| BNC
|-
!Input coupling and sensor support
|colspan=5| Compatible with AC, DC / ICP (sensor with built-in amplifier) ​​and TEDS
|-
!Cutoff frequency
|colspan=5| - 3dB at AC cutoff frequency 0.35Hz
|-
! Input voltage range
|colspan=5| +/- 100mV to +/- 40V (auto range function)
|-
! Maximum voltage
|colspan=5| 60V
|-
!Anti-Aliasing filter
|colspan=5| 400dB / OCT
|-
!Input impedance
|colspan=5| 1MΩ <100pF
|-
!A / D converter
|colspan=5| 24-bit
|-
!Dynamic range
|colspan=5| >140dB
|-
!Channels-to-channels phase accuracy
|colspan=5| ± 0.02 ° (10V, 20kHz range)
|-
!Input filter
|colspan=5| Acoustic A, C, Z, low pass, high pass, band pass, integrator, differentiator, time axis integration function
|-
!Sampling frequency of the signal
|colspan=5|Select from 13 ranges between 102.4kHz and 2.048kHz.
|-
!colspan=6| Tachometer channel (Ext synch channels)
|-
!Number of input channels
|colspan=2|2 channels
|colspan=2|2 channels (up to 6 channels as an option)
|-
!Sampling frequency
|colspan=5|6.4MHz (counter method)
|-
!Voltage range
|colspan=4|+/- 300mV  40V
|-
!colspan=6| DC input
|-
!number of input channels
|colspan=1|none
|colspan=3|Analysis channel can be switched and used
|-
!Voltage range
|colspan=1|none
|colspan=3|22 bits, ± 40V, offset DC 100μV or less
|-
!Sampling frequency
|colspan=1|none
|colspan=3|15Hz or 12.5Hz
|-
!colspan=6|Calibration function
|-
!Calibration method
|colspan=5| Automatic sensitivity calculation by numerical input or reference signal (for position and standard vibration oscillatory meter)
|-
!How to use at the time of measurement
|colspan=5|Select by registered sensor name such as model name and machine number
|-
!colspan=6|Trigger function
|-
!Trigger type
|colspan=5|Edge, period, △ RPM, △ level, manual, multi (A or B, A and B, A after B)
|-
!Trigger delay
|colspan=5|Pre- and post-trigger functions
|-
!Trigger signal
|colspan=5|Select from any input channel
|-
!colspan=6|Record function
|-
!Sampling frequency
|colspan=5|13 ranges from 102.4kHz to 2.048kHz  possible to select 2 types of range together
|-
!A / D converter resolution
|colspan=5| 24-bit or 16-bit
|-
!Hard drive size
|PC hard drive
|colspan=1|64 GB SSD
|colspan=2|128 GB removable SSD hard drive (256GB or 512 GB optional)
|-
!colspan=6|FFT analysis performance
|-
!Analysis frequency range
|colspan=1|0.8Hz-100kHz
|colspan=4|0.8Hz-40kHz
|-
!FFT block size
|colspan=5|256, 512, 1024, 2048, 4096, 8192, 1638
|-
!Number of analysis lines
|colspan=5|101, 201, 401, 801, 1601, 3201, 6401
|-
!Zoom analysis
|colspan=5|2 to 128 times (all channels at the same time)
|-
!Overlap setting
|colspan=5|0-99.99%
|-
!Window function
|colspan=5|Flat Top, Hanning, Humming, Kaiser Vessel, Rectangular, Force / Response
|-
!Average mode
|colspan=5|Time, frequency, fdsa / linear, exponential, peak hold
|-
!colspan=6|Analysis / display function
|-
!Time series
|colspan=5|Real-time waveform, record waveform, DC, Max, Min, RMS
|-
!FFT analysis
|colspan=5|Linear power spectrum, average spectrum, PSD, cross spectrum,
transfer function (H1, H2), copying function
|-
!Display color
|colspan=5|Display color: Arbitrary specification of trace, cursor, background, and grid display colors
 
|-
|-
!colspan=6|Options:
|-
 
!colspan=6|Time domain analysis (ORNV-TDA)
|-
!Analysis items
|colspan=5|Monitor display for arbitrary time (msec to day), effective value for arbitrary section, Min, Max, Peak,
Peak / Peak, RMS, DC, crest factor, Skew, Kurtosis
|-
!colspan=6| 1/n octave analysis (ORNV-OCT)
|-
!method
|colspan=5|Digital filter operation on time domain
|-
!Analysis band
|colspan=5|1/1, 1/3, 1/12, 1/24 octave (IEC1260: 1995 Class 1, ANSI S1.11-1986)
|-
!Analysis frequency
|colspan=5|Simultaneous analysis of all channels at 20kHz is possible (DSP option may be required)
|-
!Average
|colspan=5|Fast, Slow, lmpulse, LEQ, constantBT, linear repeat,exponential
|-


=== Quick and Easy Setup ===
Start measuring immediately using the "Quick function". Define your channels and analysis parameters, and you are ready to go. The OROS software uses a Ribbon interface similar to Microsoft Office for maximum familiarity.


[[File:home3.PNG|800px|center|NVGate software Ribbon interface]]


=== Interactive Control & Analysis ===
!colspan=6| Multi-sound level meter [ORNV-OVA]
* **One-click Settings**: Double-click any graph to open its specific settings (FFT parameters, etc.).
|-
* **Control Panel**: Save and access frequently used settings quickly via the [[NVGate_Control_Panel|Control Panel]].
!Operation method
* **Advanced Filtering**: Apply Low-pass, High-pass, Band-pass, or Band-stop [[NVGate_Filter_Builder|filters]] to real-time or recorded signals.
|colspan=6|Time series signal digital operation
|-
!Acoustic weighting
|colspan=6|Linear, A, C
|-
!Measurement
|colspan=6|Leq, Fast, Slow, lmpulse, average, Peak, Max, Min
|-
!Average
|colspan=6|Fast, Slow, lmpulse, LEQ, constantBT, linear repeat,exponential
|-


[[File:control pannel_test.png|700px|center|NVGate Control Panel for hammer test]]


=== Advanced Visualization ===
!colspan=6| Synchronous Order tracking analysis [ORNV-ORD]
* **Order Extraction**: Extract specific order components from color spectrums in real-time.
|-
* **Layout Management**: Create up to 16 layouts per project, each displaying up to 32 windows.
!Analysis function
* **Smart Comparison**: Compare data by simply dragging and dropping different measurements onto the same graph.
|colspan=5| Instantaneous and average spectrum,phase, order profile and overall.
|-
!Maximum rotation speed
|colspan=5|1,200,000 RPM
|-
!Max analysis ordersetting
|colspan=5|6.25, 12.5, 25, 50, 100, 200, 400
|-
!Number of analysis lines
|colspan=5|25-800
|-
!Analysis bandwidth
|colspan=5|resampling method and fixed sampling method
|-
!display
|colspan=5|Simultaneous display of 3D display and tracking order, simultaneous display of time signal
|-


[[File:waterfall_extract_order.jpg|center|800px|3D waterfall display with order tracking]]
!colspan=6| Rotational torsion analysis [ORNV-IVC]
|-
!Operation method
|colspan=5| Digital Frequency Voltage converter
|-
!Number of analysis channels
|colspan=2|2ch
|colspan=3|2ch (up to 6ch as an option)
|-


=== Reporting & Data Management ===
|-
* **One-click Reports**: Generate customizable Word or Excel [[NVGate_Report|reports]] instantly.
!colspan=6| Rotation diagnosis function [ORNV-FFTDiag]
* **Data Search**: Easily find projects using metadata (Project name, date, site, user, etc.).
|-
* **Pass/Fail Judgment**: Automatic monitoring of bounds with visual or signal alerts.
!Analysis items
|colspan=5| Envelope analysis, cepstrum, self-cross function, MAX, MIN, peak detection from block data, simulated tach,
|-


[[File:excel_report.jpg|400px|FFT spectrum report function|alt=Data export to Excel]]
!colspan=6| Output Channel
|-
!Number of output channels
|colspan=1| 1ch (lemo conector, include)
|colspan=1| 2ch
|colspan=2| 2ch (up to 6ch as an option)
|-
!Output waveform
|colspan=1|Sinus, step sinus, sweep sinus, chirp, multi-sinus, random (pink and white), DC voltage, record signal
|colspan=3|Sinus, step sinus, sweep sinus, chirp, multi-sinus, random (pink and white), DC voltage, record signal
|-
!Digital / Analogic converter
|colspan=1|24 bits
|colspan=3|24 bits


== Specifications ==
|-
!Output voltage
|colspan=1|+/- 10V
|colspan=3|+/- 10V


{| class="wikitable" style="width:100%; text-align:center;"
! style="width:16%"|
! style="width:21%"|O4
! style="width:21%"|OR35
! style="width:21%"|OR36
! style="width:21%"|OR38
|-
|-
! colspan="5" | Dynamic Input Channels
!Output Impedance
|colspan=1|50 Ω
|colspan=3|50 Ω
|-
!Frequency range
|colspan=1|~ 100kHz
|colspan=3|~ 40kHz
|-
!Sweep mode
|colspan=1|Sweep and step, analyze, trigger and sync, linear and log
|colspan=3|Sweep and step, analyze, trigger and sync, linear and log
 
|-
|-
! Number of channels
!Synchronization with the analysis
| 2, 4
|colspan=1|Synchronization and free run
| 6, 10
|colspan=3|Synchronization and free run
| 4 to 16
| 8 to 32
|-
|-
! Resolution / Range
!Output protection
| colspan="4" | 24-bit / 140 dB dynamic range / ± 40V max
|colspan=1|Stabilization with time specification and forced stop button
|colspan=3|Stabilization with time specification and forced stop button
|-
|-
! Features
| colspan="4" | AC/DC/ICP/TEDS support, Anti-aliasing filter (400dB/oct)
|-
|-
! colspan="5" | FFT Analysis Performance
!colspan=6|Data
|-
|-
! Frequency Range
!Image and print
| 0.8Hz - 100kHz
|colspan=5|Image, printing for Windows and user template creation function for Word and Excel
| colspan="3" | 0.8Hz - 40kHz
|-
|-
! Lines / Overlap
!File
| colspan="4" | Up to 6401 lines / 0-99.99% overlap
|colspan=5| TXT, UFF, MATLAB, WAV (OROS and Audio) SDF, binary, ATFX (optional)
|-
|-
! colspan="5" | Options & Modules
!Data entry
|colspan=5|WAV, TXT, UFF and OR20 series AE2
|-
|-
! Analysis Modes
| colspan="4" | FFT, Octave (1/n), Order Tracking, Time Domain, Modal, Sound Power
|-
|-
! Output Channels
!colspan=6|Dimensions / weight
| 1-ch (Lemo)
| 2-ch (BNC)
| colspan="2" | 2-ch to 6-ch (BNC)
|-
|-
! colspan="5" | Physical Specifications
!Dimensions (width x height x depth mm)
|35 x 110 x 185
|56 × 246 × 222
|102 x 260 x 311
|102 x 364 x 311
|-
|-
! Weight
!Weight
| 0.5 kg
| 0.5kg
| 2.8 kg
| 2.8kg
| 5.2 kg
| 5.2 kg
| 8.2 kg
| 8.2 kg
|-
|-
! Power / Battery
!colspan=6|Power supply
| USB powered
|-
| 3h battery
!AC
| 2h battery
|colspan=5|AC 100V-240V
| 2h battery
|-
!DC
| USB 3.0 type C 5V
| 10V-28V, 20VA
| 10V-28V, 60VA
| 10V-28V, 100VA
|-
!DC battery internal operating time (built-in)
| NA : using PC battery
| 3h
| 2h
| 2h
|-
!Recommended operating temperature range
|colspan=1| 0 ℃ ~ 40 ℃
|colspan=3| 0 ℃ ~ 50 ℃
|-
!cooling fan
|colspan=1|Fan less
|colspan=3|Automatic control by built-in temperature sensor, forced stop possible (however, forced ON when the temperature rises above 50 ° C)
|}<br>
 
===PC requirement===
 
 
{| class=wikitable style="width:100%;" style="text-align:center;"
|-
!Connections
|Type: '''Ethernet''', Connector: '''RJ45'''<br>
 
|-
!Operating systems
|Windows 7  / '''Windows 10''' / '''Windows 11'''
 
|-
!Recommended
|'''CPU : Quad core processor''' (Desktop : Intel Core i3 or Ryzen 3, Laptop : Intel Core i5 or Ryzen 5)<br>
'''RAM : 6 GB'''<br>
'''Storage : SSD''', 1 GB free <nowiki>+</nowiki> storage for signals
|}
|}


== Functions & Solutions ==


<div style="display: flex; gap: 20px; flex-wrap: wrap;">
<br>
{| class="wikitable"
 
==Function==
 
 
<li style="display: inline-table;">
{| class="wikitable"  
|-
|-
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_Overall_Acoustic_-_Sound_Level_meter|Sound Level Meter]]
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_Overall_Acoustic_-_Sound_Level_meter|Sound Level Meter]]
|-
|-
| [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_13.png]] [[NVGate_Waterfall|Waterfall analysis (3D display)]]
| [[File:REF-MAN_VOL1_Analyzer_Settings_Browser_wiki_partA_13.png]] [[NVGate_Waterfall|Waterfall analysis (three-dimensional display)]]
|-
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 10.png]] [[NVGate_Recorder|Signal record and post analysis]]
|-
|-
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 10.png]] [[NVGate_Recorder|Signal recording]]
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_FFT|Resonance frequency by impact hammer]]
|-
|-
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_FFT|Impact Hammer testing]]
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[ORBIGate|Vibration on rotordynamics (orbit,...)]]
|}
|-
{| class="wikitable"
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]]  [[Modal|Modal Analysis]]
|-
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]]  [[Sound_Power|Sound Power]]
|} </li>
 
<li style="display: inline-table;">
 
{| class="wikitable"  
|-
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_FFT|Frequency analysis, spectrum analysis]]
|-
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_Octave_Analyzer|Noise / acoustic analysis]]
|-
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 10.png]] [[NVGate_D-Rec|Time series analysis (data logger)]]
|-
|-
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_Octave_Analyzer|Acoustic Analysis]]
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_Synchronous_Order_Analysis|Vibration  of rotating machines]]
|-
|-
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_Synchronous_Order_Analysis|Order Tracking]]
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[NVGate_Ribbons:_Automation|Customization (ex: automatic measurement)]]
|-
|-
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[ORBIGate|Turbomachinery Orbit]]
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[Sound_Quality_Lite|Sound Quality]]
|-
|-
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[Modal|Modal Analysis]]
| [[File:REF-MAN VOL1 Analyzer Settings Browser wiki partA 12.png]] [[Monitoring_Solution|Monitoring]]
|}
|} </li>
</div>
 
 
 
===Catalog download===
[[File:download_brochure.jpg|left|250px|noise and vibration catalog download]]
<br>
<br>
<br>
<br>
<br>
 
[https://www.oros.com/wp-content/uploads/2020/08/m002-103-10_oros_range_brochure.pdf Download]
<br>
<br>
<br>
<br>
<br>
<br>
<br>
<br>
<br>
<br>
<br>
<br>
 
===Applications/ Case study===
 
 
'''Main application and commonly used functions:'''
 
FFT analyzers are used in research and development, quality control, inspection, service departments, etc.
 
'''Improvements in vehicle quietness, ride quality, comfort, maneuverability, etc.'''
 
[[File:car_NVH.PNG|right|Automotive noise and vibration]]
 
* [https://www.oros.com/solutions/data-acquisition-and-signal-processing/narrow-band-spectral-analysis/ Frequency analysis]
* [https://www.oros.com/solutions/acoustics/1-n-octave-analysis/ 1 / N octave analysis]
* [https://www.oros.com/solutions/structural-dynamics/frequency-response-function-frf-acquisitions/ Resonance frequency measurement by vibration]
* [https://www.oros.com/solutions/structural-dynamics/modal-analysis/ Experimental mode analysis]
 
 
'''Responding to quality problems caused by vibration and noise of vehicles and rotating equipment'''
 
[[File:rotating.PNG|right|rotating machine vibration]]
 
*[https://www.oros.com/solutions/acoustics/sound-level-meter/ Overall measurement]
*[https://www.oros.com/solutions/data-acquisition-and-signal-processing/narrow-band-spectral-analysis/ Frequency analysis]
*[https://www.oros.com/solutions/rotating-analysis/turbomachinery-vibration-and-rotordynamics/ Turbomachinery Analysis]
*[https://www.oros.com/solutions/rotating-analysis/order-tracking-analysis/ Rotation order ratio / RPM tracking analysis]
*[https://www.oros.com/solutions/rotating-analysis/torsion-twist/ Rotational torsional vibration analysis]
*[https://www.oros.com/solutions/structural-dynamics/frequency-response-function-frf-acquisitions/ Resonance frequency measurement by vibration]
 
 
'''Environmental problems caused by noise from construction machinery, office machines, home appliances, etc.'''
 
[[File:machinery.PNG|right|Acoustic and vibration application]]
*[https://www.oros.com/solutions/acoustics/sound-level-meter/ Overall measurement]
*[https://www.oros.com/solutions/data-acquisition-and-signal-processing/narrow-band-spectral-analysis/ Frequency analysis]
*[https://www.oros.com/solutions/acoustics/1-n-octave-analysis/ 1/N octave analysis]
 
 
'''Problems with processing accuracy due to minute vibrations in microscopes, machine tools, semiconductor manufacturing equipment, etc'''.
 
[[File:accuracy.PNG|right| Accuracy measurement]]
*[https://www.oros.com/solutions/data-acquisition-and-signal-processing/narrow-band-spectral-analysis/ Frequency analysis]
*[https://www.oros.com/solutions/structural-dynamics/frequency-response-function-frf-acquisitions/ Resonance frequency measurement by vibration]
*[https://www.oros.com/solutions/structural-dynamics/modal-analysis/ Experimental modal analysis]
 
 
'''A collection of application examples using the OROS FFT analyzer OROS series'''
 
Introducing solution examples that can be provided by various functions unique to OROS FFT analyzers.
 
 
*'''Vibration measurement of cutting machine'''
 
[[File:cutting tools machine.jpg|150px|left|Vibration measurement of cutting machine]]
 
 
Introducing what approach can be taken using the OROS FFT Analyzer to identify mechanical resonance problems due to changes in cutting conditions.
<br>
[https://my.oros.com/categories/application-notes/ Download on my.oros.com (need register)]
<br>
<br>
<br>
<br>
 
 
*'''Monitoring of wind power generation equipment and abnormality diagnosis'''
 
[[File:eolienne.PNG|left|Monitoring vibration]]
 
Measuring vibration noise generated from rotating machines (gearboxes, generators, etc.) in wind power generation equipment is indispensable for equipment maintenance and longevity. In addition to the real-time analysis capability of rotating machinery, which is the strength of the OROS FFT analyzer, remote control / monitoring and stand-alone functions can be used to more efficiently diagnose equipment for wind power generation equipment.
<br>
[https://my.oros.com/categories/application-notes/ Download on my.oros.com (need to register)]
<br>
<br>
 
*'''Diesel engine camshaft rotational twist measurement'''
[[File:danielson torsional.PNG|left|Diesel engine camshaft rotational twist]]
 
In the prototype of a small diesel engine, there is a problem that the rotational torsional vibration of the timing belt and the camshaft resonates, causing a large vibration. By measuring rotational fluctuations and rotational twists with high accuracy using the six tachometer channels mounted on the OROS FFT analyzer, it is clarified which rotational order is dominant for vibration.<br>
<br>
[https://my.oros.com/categories/application-notes/ Download on my.oros.com (need register)]
<br>
 
*'''Much more Application note on [https://my.oros.com/ my.oros.com]'''
 
<gallery gallery="" mode="packed-hover" align="left">
File:End of line turbine test.jpg|alt=Gear box measurement with accelerometers|Allen Gears: gear box rotating vibration
File:In flight helicopter vibration measurement.PNG|alt=motor vibration order extraction|Conrad: On helicopter vibration measurement
File:Mecalac sound power.jpg|alt=Octave and sound level meter with microphone|Mecalac: Sound power acoustic measurement
File:In-porsche.JPG|alt=Automotive octave waterfall analyzer with order extraction|Porsche: acoustic sound quality measurement
File:Sound power2.jpg|alt=Acoustic room with microphone |Bosch: Sound power acoustic measurement on anechoic chamber
File:Vibration on block press.jpg|alt=Shock test measurement|IFF Weimar: Vibration on block press
File:Blade vibration.jpg|alt=Spectrum analyzer on the field|Blade vibration
File:Elevator shaft vibration.jpg|alt=accelerometer and microphone analysis|Sicor: Elevator motor vibration
File:DBVib 01.JPG|alt=Orbit shaft center line and fluid film bearing vibration|dBVib: On site measurement on turbomachinery
File:Equilibrage 005.jpg|alt=Acceleromters on each side of the plan|BSCA: Vibration balancing test
File:Washingmachine.jpg|alt=Bump test geometry with modal software|Washing machine FRF resonance frequency test
File:Master at work.jpg|alt=team watching overall value of accelerometer|Vibration measurement
File:Windturbine.jpg|alt=Motor of wind turbine analysis|GDF SUEZ: Windturbine monitoring measurement
File:3 OR38.JPG|alt=multichannel analyzer portable  |3 analyzers working together
File:Turbine.JPG|alt=hydro vibration measurement|Alstom: Measurement on turbine
</gallery>
 
 
 
 
'''Some references:'''
 
[[File:reference.PNG|800px|Analyzer reference|alt=airplane automotive energy measurement]]
 
===Full technical support===
 
 
* '''Hotline dedicated'''
 
[[File:Custcare team2 web-1.jpg|right|150px|support FFT analyzer|alt=expert on noise and vibration]]
Responsiveness is the key to offer the best level of services. OROS relies on a powerful network of subsidiaries, offices, resellers, maintenance centers and qualified partners. They are the first steps of efficiency.
 
Tel: +33.4.76.90.52.40<br>
Email: [http://customer.care@oros.com customer.care@oros.com]
 
[https://www.oros.com/find-us/ Your local distributor]<br>
<br>
 
* '''User training course'''
OROS proposes training specially dedicated to customers every year for free (depending on countries). This is an opportunity to take advantage of your analyzer system capabilities, to get premium information on OROS range evolution, to discuss with your peers, and for OROS, to listen to your product enhancement desires.
<br>
[[File:user_day.jpg|Acoustic and vibration training|alt=Korean vibration camp]]
<br>
<br>
 
* '''Worldwide presence and accredited maintenance center'''
 
With a worldwide coverage of distributor network and maintenance center (China, Europe, India, Japan, Saudi Arabia, South Korea, USA), OROS is in close proximity to its customers, reducing maintenance downtime.
<br>
[[File:map_world_distributor.JPG|Spectrum analyzer worldwide seller|alt=maintenance center]]<br>
[https://www.oros.com/find-us/ Find Your local distributor]
[[File:repair.jpg|200px|right|repair hardware analyzer|alt=calibration repair metrologic instrument]]
<br>
<br>
Technicians are certified on a regular basis by OROS specialists, enabling them to repair, calibrate and upgrade all OROS systems.
 
 
 
*'''Premium contract'''


=== Applications & Case Studies ===
1, 2 or 4 years renewable [https://www.oros.com/services/contracts/ contracts] to extend your warranty.
OROS FFT analyzers are used worldwide for:
* **Automotive NVH**: Vehicle quietness, ride quality, and component testing.
* **Rotating Machinery**: Abnormality diagnosis, balancing, and torsional vibration.
* **Environmental Noise**: Construction machinery and home appliance acoustics.
* **Precision Manufacturing**: Machine tool vibration and semiconductor equipment monitoring.


[https://www.oros.com/wp-content/uploads/2020/08/m002-103-10_oros_range_brochure.pdf >> Download the OROS Range Brochure]
* Access to the latest software version.
* Full coverage on your instrument (calibration and maintenance)
* Guaranteed turn around time (4 days) for hardware repairs and calibration
* Privileged access to extended services at a preferential rate: urgent loan within 1 day.


== Full Technical Support ==
===Video content ===


* **Dedicated Hotline**: +33.4.76.90.52.40 | [mailto:customer.care@oros.com customer.care@oros.com]
We have released videos such as product introductions and demonstrations.
* **Worldwide Presence**: Accredited maintenance centers in China, Europe, India, Japan, USA, and more.
* **Training**: Annual user courses to master your analyzer's capabilities.
* **Premium Contracts**: Extended warranty, software updates, and guaranteed turnaround times.


[[File:map_world_distributor.JPG|center|800px|OROS worldwide support network]]
[https://www.youtube.com/user/OROSanalyzers/videos Click here for the youtube video content page]
<br>


{|class="wikitable" style="width:100%;"
{|class="wikitable" style="width:100%;"  
|style="background: #0000A0; text-align:center;"|<big>[https://www.oros.com/demo-request/ <span style="color:white;">Schedule a demo]</span></big>
|style="background: #0000A0; text-align:center;"|<big>[https://www.oros.com/demo-request/ <span style="color:white;">Schedule a demo]</big>
|style="background: red; text-align:center;"|<big>[https://www.oros.com/quote-request-form/ <span style="color:white;">Get a quotation]</span></big>
|style="background: red; text-align:center;"|<big>[https://www.oros.com/quote-request-form/ <span style="color:white;"> Get a quotation]</big>
|style="background: green; text-align:center;"|<big>[[FFT_Spectrum_Analyzer_Multipurpose#Full_technical_support|<span style="color:white;">Contact support]</span>]</big>
|style="background: green; text-align:center;"|<big>[[FFT_Spectrum_Analyzer_Multipurpose#Full_technical_support|<span style="color:white;">Contact support]]</big>
|}
|}

Latest revision as of 14:12, 4 May 2026



The OROS series multi-function FFT analyzer is PC-based, high-performance, high reliability and easy to operate.

Analyzer acoustic vibration multichannel
FFT analyzers

We have further increased the arithmetic processing speed and increased the real-time analysis capacity to more than 16 times that of the conventional model (OR20 series). An ethernet LAN cable is used as the interface.

In addition, the number of simultaneous recording channels in the frequency range (40 kHz) has been expanded to a maximum of 1000 channels and the dynamic range has been improved to 140 dB. These improvements allow a user to measure time signals over a wide frequency range simultaneously on multiple channels.


Schedule a demo Get a quotation Contact support


  • Vibration measurement up to 1000 channels

    Analyzer Cascade mode

  • Hammer test on automotive in anechoic room

    Modal FRF measurement

  • Sound intensity measurement in anechoic room

    Acoustic Sound intensity

  • Turbomachinery orbit vibration measurement

    Vibration on turbomachinery

  • NVH measurement on a car

    NVH automotive measurement

  • Acoutic measurement with octave analyzer in a plane

    In flight measurement


Main Features

  • From 2-32 channels
  • Synchronous measurements up to 1000ch is possible by combining multiple analyzers (*)
  • Compact and lightweight (4ch model 1.5kg, 10ch model 3.0kg)
  • Achieves high-speed communication with a PC through an ethernet LAN interface
  • Equipped with an output channel as a standard
  • Built-in internal battery as a standard
  • Record, Fast Fourier Transform analysis, octave analysis, and tracking analysis can be performed simultaneously at high sampling frequencies
  • Realtime measurements and post-analysis can be performed with the same software platform (NVGate)
  • In addition to sound and vibration, strain and temperature can be measured at the same time using XPODS (**)
  • CAN-bus module compatible (***)
  • Recording is possible with analyzer in standalone mode or in conjunction with a PC (****)


(*) Synchronous measurements that combine multiple analyzers is possible only for TW OR35 / TW OR36 / TW OR38.

(**) The strain / temperature module(XPOD) can be installed only on TW OR35 / TW OR36 / TW OR38.

(***) CAN-bus module can be installed only on OR10/ TW OR35 / TW OR36 / TW OR38.

(****) Stand-alone measurements are possible only with SSD-equipped models OR10 / TW OR35 / TW OR36 / TW OR38.

Introducing the hardware

 

Small and lightweight

OR10-8ch model: 0.8kg

O4: 4ch model: 0.5kg

OR35 TW: 10ch model: 3.0kg

OR36 TW: 16ch model: 5.2kg

OR38 TW: 32ch model: 8.2kg





Ethernet LAN interface

 

Achieves high-speed communication with a PC through an ethernet LAN interface





Built-in battery

OR10/ OR35/ TW OR36 / TW OR38: Models have a built-in battery.

OR10 can be operated by battery for 4hours

OR35 can be operated by battery for 3 hours.

TW OR36 / TW OR38 can be operated by battery for 2 hours.

04 operate with battery PC.

External battery

 

We provide a compact and lightweight external battery that can be installed on all models.

Can be used for up to 8 hours with one external battery.

Can be stored in a "PC integrated carrying case".





Synchronous Measurement Of Up To 1000 Channels is Possible by Combining Multiple Analyzers

(TW OR35 / TW OR36 / TW OR38 only)

High-precision synchronous measurements (0.2 ° @ 20kHz) are possible by simply connecting each analyzer using a general-purpose LAN cable. Function measurements can be taken with the hammer connected to the third unit in the chain and the accelerometers connected to each unit. Tracking analysis can be completed with the accelerometers connected to each unit while using a tachometer connected to the second unit in the chain.

 

Measure From Sound / Vibration and Strain Gauge / Temperature

(OR35 / TW OR36 / TW OR38 only)

 

By mounting a strain gauge conditioner and thermocouple conditioner on the Oros FFT analyzer, it is possible to measure strain and temperature data in addition to sound and vibration data.

Thermocouple amplifier: Supports types J, K, T, N, E (with temperature compensation)



CAN-bus Module Available

 

(OR10/ TW OR35 / TW OR36 / TW OR38 only)

By using the CAN-bus module, tracking analysis can be performed using information such as the engine speed flowing from the CAN-bus. By using this function, tracking analysis can be performed without using a tachometer.

Recording is possible without the use of a PC by using the FFT analyzer in stand alone mode

(OR35 / TW OR36 / TW OR38 only)

 

The FFT analyzer is equipped with a record-only button. Simply select a predefined measurement setup and press the record button to record onto the FFT analyzer alone without the use of a PC.






In addition, the back of the Fast Fourier Transform Spectrum Analyzer Multipurpose is equipped with an audio terminal and power supply. It is possible to record audio data while also measuring the time signal. The analyzer also can supply power to required sensors, such as proximity probes, tachometers and DC sensors.

 


Software Introduction

  • Easy-to-use interface
  • Real-time measurement / post-analysis can be performed with the same software platform (NVGate)
  • One-click report creation function

Start the Measurement Quickly and Easily

You can start measuring immediately by using the quick function provided in the OROS FFT analyzer mult function. This is completed by defining the number of input channels in the channel field and the measurement/analysis content in the show results area.


The Oros series FFT spectrum analyzer multifunction uses an interface similar to the ribbon interface used by Microsoft Office. All menus are accessible via the ribbon interface, making it easy to change measurement settings.

 

One-click Setting Function

With the Oros series multi-purpose FFT analyzer, you can display related measurement condition settings by double-clicking on the measurement screen. For example, if you double-click on the FFT analysis screen, the dialog for setting the measurement conditions for FFT analysis will be displayed on the screen as shown below.


 

Control Panel

In addition, the OROS FFT spectrum analyzer is equipped with a control panel function that allows users to save frequently used measurement settings for quick access. By using this function, all settings can be changed on the control panel. For example, the following is the setting screen for a hammer test. By saving the input settings, threshold settings, and FFT analysis settings to the control panel as shown below, it is possible to make all the necessary settings quickly by only using the control panel.

Software FFT settings

Various filters can be applied to recorded signals & FFT analysis results

Four types of filters: Low-pass filter, high-pass filter, band-bus filter, and band-stop filter, can be applied to the results of recorded signal and FFT analysis. By using a filter, it is possible to remove abnormal noise components from the recorded signal and perform processing such as reproducing the extracted abnormal noise components.

 

Extract arbitrary order components from the color spectrum graph in real time

Any order component can be extracted in real time from the color spectrum graph.

 

Easy-to-read Layout

The area for arranging windows is called a layout. The OROS multi function FFT analyzer can create up to 16 layouts per project. You can easily arrange your windows by using the layout function. And your windows will open the same way each time.

It is possible to display up to 32 screens in one layout.

Up to 512 windows (= 16 x 32) can be displayed.


Layout utilization example:


Layout 1: Record waveform, FFT analysis result, order ratio analysis result displayed

 


Layout 2: Display 3D frequency analysis results and 3D order ratio analysis results

 



Layout 3: Display 3D octave analyzer analysis results

 

Easy operation <Graph layout selection button>

You can easily arrange windows just by selecting the grid menu.

 


Batch copy of measurement data with one menu. Numerical data can be transferred to Excel all at once.

 


Data measured at different times can be overwritten by dragging which allows for easily comparing measurement data.

 

One-click report creation function

Simply click the report button located on the ribbon interface to create a report file containing the current measurement results.

 

• The content of the report is customizable. Customize it to the format that best suits your needs.

 

Measurement data search function

 

Various information (meta-data) can be added when saving measurement data. You then can search for measurement data and projects based on the added information.

Filter:

  • Project name
  • Measurement date and time
  • Measurement conditions
  • Measurement target
  • Measurement site
  • User

 

Fail judgment function as standard

The pass / fail feature of NVGate can be performed automatically after setting the desired bounds.

In the example below, a dialog is displayed when the product fails, but it is also possible to output a contact signal instead of the dialog.

 

Automate post-analysis processing

The same processing can be continuously performed for record files measured multiple times. By using this function, it is possible to automate the generation of reports, and it is possible to generate the same number of post-analysis results and EXCEL-based reports as record files with one click. Processing that used to take more than a week can now be done in a few hours.


 

specification

Main specifications

O4 OR35 OR36 OR38
Dynamical Input channel
Number of analysis channels 2, 4 6, 10
(Select Analysis or tachometer on 2 channels) 		4, 8, 12, 16 8, 16, 24, 32
Terminal shape BNC
Input coupling and sensor support Compatible with AC, DC / ICP (sensor with built-in amplifier) ​​and TEDS
Cutoff frequency - 3dB at AC cutoff frequency 0.35Hz
Input voltage range +/- 100mV to +/- 40V (auto range function)
Maximum voltage 60V
Anti-Aliasing filter 400dB / OCT
Input impedance 1MΩ <100pF
A / D converter 24-bit
Dynamic range >140dB
Channels-to-channels phase accuracy ± 0.02 ° (10V, 20kHz range)
Input filter Acoustic A, C, Z, low pass, high pass, band pass, integrator, differentiator, time axis integration function
Sampling frequency of the signal Select from 13 ranges between 102.4kHz and 2.048kHz.
Tachometer channel (Ext synch channels)
Number of input channels 2 channels 2 channels (up to 6 channels as an option)
Sampling frequency 6.4MHz (counter method)
Voltage range +/- 300mV 40V
DC input
number of input channels none Analysis channel can be switched and used
Voltage range none 22 bits, ± 40V, offset DC 100μV or less
Sampling frequency none 15Hz or 12.5Hz
Calibration function
Calibration method Automatic sensitivity calculation by numerical input or reference signal (for position and standard vibration oscillatory meter)
How to use at the time of measurement Select by registered sensor name such as model name and machine number
Trigger function
Trigger type Edge, period, △ RPM, △ level, manual, multi (A or B, A and B, A after B)
Trigger delay Pre- and post-trigger functions
Trigger signal Select from any input channel
Record function
Sampling frequency 13 ranges from 102.4kHz to 2.048kHz possible to select 2 types of range together
A / D converter resolution 24-bit or 16-bit
Hard drive size PC hard drive 64 GB SSD 128 GB removable SSD hard drive (256GB or 512 GB optional)
FFT analysis performance
Analysis frequency range 0.8Hz-100kHz 0.8Hz-40kHz
FFT block size 256, 512, 1024, 2048, 4096, 8192, 1638
Number of analysis lines 101, 201, 401, 801, 1601, 3201, 6401
Zoom analysis 2 to 128 times (all channels at the same time)
Overlap setting 0-99.99%
Window function Flat Top, Hanning, Humming, Kaiser Vessel, Rectangular, Force / Response
Average mode Time, frequency, fdsa / linear, exponential, peak hold
Analysis / display function
Time series Real-time waveform, record waveform, DC, Max, Min, RMS
FFT analysis Linear power spectrum, average spectrum, PSD, cross spectrum,

transfer function (H1, H2), copying function

Display color Display color: Arbitrary specification of trace, cursor, background, and grid display colors
Options:
Time domain analysis (ORNV-TDA)
Analysis items Monitor display for arbitrary time (msec to day), effective value for arbitrary section, Min, Max, Peak,

Peak / Peak, RMS, DC, crest factor, Skew, Kurtosis

1/n octave analysis (ORNV-OCT)
method Digital filter operation on time domain
Analysis band 1/1, 1/3, 1/12, 1/24 octave (IEC1260: 1995 Class 1, ANSI S1.11-1986)
Analysis frequency Simultaneous analysis of all channels at 20kHz is possible (DSP option may be required)
Average Fast, Slow, lmpulse, LEQ, constantBT, linear repeat,exponential
Multi-sound level meter [ORNV-OVA]
Operation method Time series signal digital operation
Acoustic weighting Linear, A, C
Measurement Leq, Fast, Slow, lmpulse, average, Peak, Max, Min
Average Fast, Slow, lmpulse, LEQ, constantBT, linear repeat,exponential
Synchronous Order tracking analysis [ORNV-ORD]
Analysis function Instantaneous and average spectrum,phase, order profile and overall.
Maximum rotation speed 1,200,000 RPM
Max analysis ordersetting 6.25, 12.5, 25, 50, 100, 200, 400
Number of analysis lines 25-800
Analysis bandwidth resampling method and fixed sampling method
display Simultaneous display of 3D display and tracking order, simultaneous display of time signal
Rotational torsion analysis [ORNV-IVC]
Operation method Digital Frequency Voltage converter
Number of analysis channels 2ch 2ch (up to 6ch as an option)
Rotation diagnosis function [ORNV-FFTDiag]
Analysis items Envelope analysis, cepstrum, self-cross function, MAX, MIN, peak detection from block data, simulated tach,
Output Channel
Number of output channels 1ch (lemo conector, include) 2ch 2ch (up to 6ch as an option)
Output waveform Sinus, step sinus, sweep sinus, chirp, multi-sinus, random (pink and white), DC voltage, record signal Sinus, step sinus, sweep sinus, chirp, multi-sinus, random (pink and white), DC voltage, record signal
Digital / Analogic converter 24 bits 24 bits
Output voltage +/- 10V +/- 10V
Output Impedance 50 Ω 50 Ω
Frequency range ~ 100kHz ~ 40kHz
Sweep mode Sweep and step, analyze, trigger and sync, linear and log Sweep and step, analyze, trigger and sync, linear and log
Synchronization with the analysis Synchronization and free run Synchronization and free run
Output protection Stabilization with time specification and forced stop button Stabilization with time specification and forced stop button
Data
Image and print Image, printing for Windows and user template creation function for Word and Excel
File TXT, UFF, MATLAB, WAV (OROS and Audio) SDF, binary, ATFX (optional)
Data entry WAV, TXT, UFF and OR20 series AE2
Dimensions / weight
Dimensions (width x height x depth mm) 35 x 110 x 185 56 × 246 × 222 102 x 260 x 311 102 x 364 x 311
Weight 0.5kg 2.8kg 5.2 kg 8.2 kg
Power supply
AC AC 100V-240V
DC USB 3.0 type C 5V 10V-28V, 20VA 10V-28V, 60VA 10V-28V, 100VA
DC battery internal operating time (built-in) NA : using PC battery 3h 2h 2h
Recommended operating temperature range 0 ℃ ~ 40 ℃ 0 ℃ ~ 50 ℃
cooling fan Fan less Automatic control by built-in temperature sensor, forced stop possible (however, forced ON when the temperature rises above 50 ° C)


PC requirement

Connections Type: Ethernet, Connector: RJ45
Operating systems Windows 7 / Windows 10 / Windows 11
Recommended CPU : Quad core processor (Desktop : Intel Core i3 or Ryzen 3, Laptop : Intel Core i5 or Ryzen 5)

RAM : 6 GB
Storage : SSD, 1 GB free + storage for signals



Function

  •   Sound Level Meter
      Waterfall analysis (three-dimensional display)
      Signal record and post analysis
      Resonance frequency by impact hammer
      Vibration on rotordynamics (orbit,...)
      Modal Analysis
      Sound Power
  •   Frequency analysis, spectrum analysis
      Noise / acoustic analysis
      Time series analysis (data logger)
      Vibration of rotating machines
      Customization (ex: automatic measurement)
      Sound Quality
      Monitoring


    • Catalog download

     






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    Applications/ Case study

    Main application and commonly used functions:

    FFT analyzers are used in research and development, quality control, inspection, service departments, etc.

    Improvements in vehicle quietness, ride quality, comfort, maneuverability, etc.

     


    Responding to quality problems caused by vibration and noise of vehicles and rotating equipment

     


    Environmental problems caused by noise from construction machinery, office machines, home appliances, etc.

     


    Problems with processing accuracy due to minute vibrations in microscopes, machine tools, semiconductor manufacturing equipment, etc.

     


    A collection of application examples using the OROS FFT analyzer OROS series

    Introducing solution examples that can be provided by various functions unique to OROS FFT analyzers.


    • Vibration measurement of cutting machine
     


    Introducing what approach can be taken using the OROS FFT Analyzer to identify mechanical resonance problems due to changes in cutting conditions.
    Download on my.oros.com (need register)




    • Monitoring of wind power generation equipment and abnormality diagnosis
     

    Measuring vibration noise generated from rotating machines (gearboxes, generators, etc.) in wind power generation equipment is indispensable for equipment maintenance and longevity. In addition to the real-time analysis capability of rotating machinery, which is the strength of the OROS FFT analyzer, remote control / monitoring and stand-alone functions can be used to more efficiently diagnose equipment for wind power generation equipment.
    Download on my.oros.com (need to register)

    • Diesel engine camshaft rotational twist measurement
    Diesel engine camshaft rotational twist

    In the prototype of a small diesel engine, there is a problem that the rotational torsional vibration of the timing belt and the camshaft resonates, causing a large vibration. By measuring rotational fluctuations and rotational twists with high accuracy using the six tachometer channels mounted on the OROS FFT analyzer, it is clarified which rotational order is dominant for vibration.

    Download on my.oros.com (need register)

    • Allen Gears: gear box rotating vibration

    • In flight helicopter vibration measurement.PNG

      Conrad: On helicopter vibration measurement

    • Mecalac: Sound power acoustic measurement

    • Porsche: acoustic sound quality measurement

    • Bosch: Sound power acoustic measurement on anechoic chamber

    • IFF Weimar: Vibration on block press

    • Blade vibration

    • Sicor: Elevator motor vibration

    • dBVib: On site measurement on turbomachinery

    • BSCA: Vibration balancing test

    • Washing machine FRF resonance frequency test

    • Vibration measurement

    • GDF SUEZ: Windturbine monitoring measurement

    • 3 analyzers working together

    • Alstom: Measurement on turbine



    Some references:

     

    Full technical support

    • Hotline dedicated
     

    Responsiveness is the key to offer the best level of services. OROS relies on a powerful network of subsidiaries, offices, resellers, maintenance centers and qualified partners. They are the first steps of efficiency.

    Tel: +33.4.76.90.52.40
    Email: customer.care@oros.com

    Your local distributor

    • User training course

    OROS proposes training specially dedicated to customers every year for free (depending on countries). This is an opportunity to take advantage of your analyzer system capabilities, to get premium information on OROS range evolution, to discuss with your peers, and for OROS, to listen to your product enhancement desires.
     

    • Worldwide presence and accredited maintenance center

    With a worldwide coverage of distributor network and maintenance center (China, Europe, India, Japan, Saudi Arabia, South Korea, USA), OROS is in close proximity to its customers, reducing maintenance downtime.
     
    Find Your local distributor

     



    Technicians are certified on a regular basis by OROS specialists, enabling them to repair, calibrate and upgrade all OROS systems.


    • Premium contract

    1, 2 or 4 years renewable contracts to extend your warranty.

    • Access to the latest software version.
    • Full coverage on your instrument (calibration and maintenance)
    • Guaranteed turn around time (4 days) for hardware repairs and calibration
    • Privileged access to extended services at a preferential rate: urgent loan within 1 day.

    Video content

    We have released videos such as product introductions and demonstrations.

    Click here for the youtube video content page

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