Advanced Ultrasound Scanner

The ultrasound scanner chosen by the best universities and healthcare professionals looking for superior performance, high frame-rate, compactness and a wide range of multifrequency probes.

Portable ArtUs EXT Ultrasound scanner displaying sonographic images obtained with the convex probe on a tablet.
ArtUs Scanner

In Brief

Compact and Powerful

Windows-based with Parallel Beamforming technology for precise and detailed imaging of anatomical structures at a high frame rate.

High-Density Probes

The system can drive high-density and high-frequency transducers from 1 to 18 MHz, delivering detailed, rich, and wide dynamic range images.

Software Excellence

The Echo Wave II software is designed to offer a comprehensive suite of diagnostic tools and is available for free updates.

SDK & Research Options

The ArtUs offers optional advanced features for research and development, including a software development kit, RF module, I/O module, and strain elastography.

Next-Generation Ultrasound

High-speed USB 3.0 interface to a PC

Equipped with a high-speed USB 3.0 interface, it allows for increased scanning speed without compromising image quality and enables real-time transfer of ultrasound RF data to a PC.

Spatial Compound, Parallel beamforming, Harmonics

Enhanced spatial compounding for linear and convex transducers, parallel beamforming, harmonics, and B-steer imaging.

Ecografo portatile innovativo Artus EXT-2H con due sonde collegato a un computer.
Ecografo Portatile ArtUs EXT che mostra le immagini ecografiche ottenute con la sonda convex su un tablet.
Ecografo Portatile con Color Doppler e Sonda Lineare ad Alta Frequenza connesso ad un tablet
Ecografo ArtUs EXT-2H con modulo I/O per sincronizzazione con altre strumentazioni.
Pure, Raw Ultrasound Images Acquisition

With the ArtUs, researchers can collect raw, unfiltered ultrasound images, preserving crucial details often lost in processing.

New WideView mode

The new ‘WideView’ imaging mode maximises the viewing area for linear, convex and endocavity transducers.

ArtUs in action.

With parallel beamforming, 192-element piezoelectric probes and advanced scanning modes, the ArtUs combines the high performance of wheeled systems with high frame rate and exceptional image quality.

Ultrasound image with Color doppler Abdomen ultrasound using ArtUs system Ultrasound Image of a vesses with color doppler Abdomen ultrasound image WideView Mode ArtUs ArtUs Strain Elastography Mode carotid ultrasound artus ArtUs Beamformed RF Data Access Vessel Color Doppler
Strain Elastography mode ArtUs ArtUs PWD mode Carotid Color Doppler ultrasound imaging Superficial Face Vein Triplex ArtUs CFM Abdomen Blive+Blive MSK ultrasound images ArtUs Triplex 15 MHz RF Data Artus ArtUs superficial vein face cfm ArtUs Vein


ArtUs EXT-1H

ArtUs EXT-2H

Probes connector



Product support

ArtUs: 2 Years – Probes:1 Year

ArtUs: 2 Year – Probes: 1 Year

Tissue Harmonic Imaging (THI – iTHI)
Scanning Modes
B-Mode / M-Mode
Live B+B from 2 connected probes
Color / Power Doppler
Pulsed-Wave Doppler
Directional Power Doppler
B+PWD (Duplex)
Scanning Software 
Echo Wave II – Ultrasound Software
Echo Wave II – Touch GUI
Research and Development Tools
SDK – Software Developement Kit

Require NDA

Require NDA

Real-time Imaging for the Research

I/O Module and software



RF Module



Strain Elastography module



ArtUs RF Data Control

RF Module Required

RF Module Required

ArtUs RF Tools Package

RF Module Required

RF Module Required

Python scripts package

RF Module Required

RF Module Required



Discover our wide range of available probes


Type: Linear
Frequency range: 5.0 – 12.0 MHz

Field Of View: 38.4 mm

Applications: Vascular, Small Parts, MSK/Neurol., Pediatrics, Vascular Access 


Type: Linear
Frequency range: 7.0 – 15.0 MHz

Field Of View: 38.4 mm

Elementi: Alta densità di cristalli
Applications: Vascular, Small Parts, MSK/Neurol., Pediatrics, Vascular Access 


Type: Linear
Frequency range: 7.0 – 18.0 MHz
Field Of View: 30 mm
Elementi: Alta densità di cristalli
Applications: Vascular, Small Parts, MSK/Neurol., Pediatrics, Vascular Access 


Type: Convex
Frequency range: 2.0 – 5.0 MHz

Field Of View: 60.5°

Elementi: Alta densità di cristalli
Applications: Abdomen, OB/GYN, Pediatrics


Type: Micro Convex
Frequency range: 1.0 – 6.0 MHz

Field Of View: 69.3°

Elementi: Cristallo Singolo
Applications: Abdomen, OB/GYN, Pediatrics


Type: End-Fire / Micro Convex
Frequency range: 5.0 – 9.0 MHz

Field Of View: 151°

Applications: Transrectal, Transvaginal


Type: Linear
Frequency range: 5.0 – 9.0 MHz

Field Of View: 64 mm

Applications: MSK/Neurol.


Type: Linear
Frequency range: 5.0 – 11.0 MHz

Field Of View: 54.6 mm

Applications: MSK/Neurol.


Type: Phased Array
Frequency range: 1.0 – 5.0 MHz
Field Of View: 90°
Applications: Abdomen, Cardiology

Intuitive, modular, ready-to-use research tools for optimized setup time

Intuitive tools for the Python, MATLAB, and LabView environments, enhanced by detailed documentation and understandable instructions, thus enabling a significant reduction in the learning curve.

DLL for MATLAB and Python

Dynamic Link Library (DLL) that lets you call up SDK functions and capture data and images in real time from other programs like MATLAB, Python and Labview.

SDK – Software development kit

The ultrasonic scanning software development SDK is a high-level programming library that allows the development of ultrasonic scanning software for all TELEMED ultrasound systems on Windows, while on Android it is available for MicrUs and MicrUs Pro systems.

The SDK package is available free of charge for OEM partners and developers, subject of NDA agreement with the manufacturer.

I/O Module

The ArtUs can be equipped with additional connectors for synchronizing the system with other equipment.

*I/O Module are an optional feature.

Strain Elastography module (optional)

Optional module for the ArtUs that enables strain elastography, allowing non-invasive evaluation of tissue strain and stiffness. It provides crucial information for the identification and characterization of lesions and pathologies.

The mode is supported by specific measurements such as strain ratio, histogram analysis, E/B ratio, and a quality indicator, ensuring reliable images for accurate assessments.
*dedicated for research purposes

ArtUs RF Data Control for C++, Python, MATLAB and LabVIEW

The RF Data Control tool allows you to control most ultrasonic scanning parameters, receive real-time RF data and record RF data to files.

ArtUs RF Tools Package

RF tools and MATLAB scripts for importing and reviewing annotated RF data offline.
It also provides a collection of scripts that illustrate the processing steps of conventional RF signals, typically used in B-mode image formation.

Python scripts package

Python RF Data Viewer (GUI) for importing and reviewing annotated offline RF data.

Technical specifications


ArtUs EXT-1H: one probe port
ArtUs EXT-2H: two probe ports

Imaging Modes

  • B, B+B, 4B, B+M, M
  • B live+B live (two live simultaneous B-streams from two connected transducers), ArtUs EXT-2H only


  1. B-steer for linear probes
  2. Compound for linear and convex probes
  3. Virtual convex for linear probes
  4. Expanded view angle for convex probes
  • Color Doppler (CFM)
  • Power Doppler (PDI)
  • Directional Power Doppler (DPDI)
  • Pulsed Wave Doppler (PWD)
  • B+PWD (Duplex)
  • B+CFM/PDI/DPDI+PWD (Triplex)
  • Inverted Tissue Harmonic Imaging (ITHI)
  • Tissue Harmonic Imaging (THI)
  • Parallel beam forming
  • Beamformed RF data access through SDK library and set of research software (Python, MATLAB, LabView)


  • USB 3.0


Multi-frequency transducers from 1.5 to 18.0 MHz.
Automatic recognition of the transducer

  • Linear
  • Convex
  • Microconvex
  • Phased Array sectorial

Scanning depth: 2 – 40 cm

Color Doppler (CFM/PDI/DPDI)

  • PRF values: 0.5-10 kHz
  • angle steering for linear transducers: up to ±25°
  • gain control: 40 dB
  • wall filter settings: 3 steps (5%, 10%, 15% PRF)
  • real-time spatial filter: 4 values
  • CFM palette: 10 maps
  • B/Color priority control
  • color threshold control
  • CFM baseline control
  • Doppler frequency selection: 2 or 3 frequencies / each transducer
  • color frame averaging: 8 values
  • Transparent Color Mapping (TCM): 10 values

Pulsed Wave Doppler (PWD)

  • PRF values: 1-15 kHz
  • wall filter settings: 16 steps (2%-20% PRF)


  • Transmission: variable, 8 zones.
  • Receiving: Dynamic point/point focusing.

Automatic Image Optimization

Button automatic adjustment of scan parameters:
– Image B-mode: Gain, Dynamic Range, TGC sliders
– Color Doppler: CFM/PDI/DPDI gain
– PWD: PRF, baseline position, invert

Image Processing - controls

  • lines density control for better resolution
  • TGC Control
  • dynamic range
  • overall gain control
  • M – mode sweep speed control
  • acoustic power control
  • variable frame averaging
  • brightness, contrast
  • advanced gamma control, fixed and custom curves
  • scan direction, rotation, up-down controls
  • negative / positive control
  • bi-linear interpolation
  • echo enhancement control
  • noise rejection function
  • speckle reduction and structure improvement PureView, NeatView, QuickView


  • Verification SCU
  • Modality Worklist (MWL) SCU
  • Modality Performed Procedure Step (MPPS) SCU
  • Store SCU (images, video)
  • Print SCU (grayscale, color)

For more information see Echo Wave II Software DICOM Conformance Statement


  • mouse / trackball / keyboard operation

Image and video save / load:

  • AVI
  • MP4
  • JPG
  • BMP
  • PNG
  • TIF
  • XLSX
  • DCM (DICOM uncompressed)
  • TPD (Telemed Picture Data)
  • TVD (Telemed Video Data)
  • unlimited programmable presets for clinically specific imaging
  • vascular puncture guidelines
  • biopsy guidelines
  • brachytherapy/biopsy grids
  • anatomical icons with transducer position indicator
  • direct e-mail sending with image or video attachment via Internet
  • DICOM file push to server
  • printing on system printer
  • TV output via computer display adapter
  • multi-monitor support
  • full screen and window mode
  • LB-2 keyboard (optional) support

User interface

  • the set of predefined skin schemes for software interface
  • the set of predefined buttons images

Multilanguage support, languages:

  • Chinese
  • English
  • French
  • German
  • Italian
  • Korean
  • Lithuanian
  • Magyar
  • Polish
  • Romanian
  • Russian
  • Spanish
  • B+M, B+PW/CW layout position, size
  • ultrasound area size
  • font size

General Measurements & Calculations

B and Color Doppler mode general measurements and calculations:

  • Distance
  • Length (method: 1 trace)
  • Area, Circumference (methods: 1 ellipse, 1 trace, 1 distance)
  • Volume (methods: 1 distance, 2 distances, 3 distances, 1 ellipse)
  • Angle (methods: 2 distances, 3 distances)
  • Stenosis % (methods: 2 distances, 2 ellipse or trace areas)
  • A/B Ratio (methods: 2 distances, 2 ellipse or trace areas, 2 ellipse or trace circumferences)

M mode general measurements and calculations:

  • Distance, Time, Velocity
  • Heart Rate (methods: 1 beat, 2 beats)
  • Stenosis % (method: 2 distances)
  • A/B Ratio (methods: 2 distances, 2 times, 2 velocities)

PW mode general measurements and calculations

One-point PW measurements and calculations:

  • Velocity
  • Pressure Gradient (PG)

Two-points PW measurements and calculations:

  • Velocities difference
  • Pressure Gradients (PG) difference
  • Time interval
  • Acceleration
  • Resistivity Index (RI)
  • Heart Rate (methods: 1 beat, 2 beats)
  • Velocity minimum and maximum
  • Pressure Gradient (PG) minimum and maximum

Trace-based PW measurements and calculations:

  • Trace Time
  • Trace Velocity min, max, mean
  • Trace Pressure Gradient (PG) min, max, mean
  • Velocity Time Integral (VTI)
  • Pulsatility Index (PI)

A/B Ratios of one-point PW measurements:

  • Velocities A/B Ratio
  • Pressure Gradients (PG) A/B Ratio

A/B Ratios of two-point PW measurements:

  • Velocity differences A/B Ratio
  • Pressure Gradient (PG) differences A/B Ratio
  • Time differences A/B Ratio
  • Accelerations A/B Ratio
  • Resistivity Indexes A/B Ratio

A/B Ratios of trace-based PW measurements:

  • Velocity means A/B Ratio
  • Pressure Gradient (PG) means A/B Ratio
  • Pulsatility Indexes A/B Ratio
  • Velocity Time Integrals A/B Ratio

PW Mode Human Cardiology Measurements and Calculations

  • Left Ventricle: LVOT Diam, LVOT VTI, LVOT Vmax, SV (Stroke Volume), SI (Stroke Volume Index), CO (Cardiac Output), CI (Cardiac Index), dP:dt (Delta Pressure : Delta Time), MPI (Left Ventricle Myocardial Performance Index)
  • Mitral Valve: MVA(PHT) (Mitral Valve Area using Pressure Half Time), MVA using Continuity Equation (LVOT Diam, MV VTI; LVOT Diam, MV Vmax), dP:dt, E/A ratio
  • Aortic Valve: AVA (Aortic Valve Area) using Continuity Equation (LVOT Diam, AV VTI; LVOT Diam, AV Vmax), AVI (Aortic Valve Index), DPI (Dimensionless Performance Index), AV PHT (Aortic Valve Pressure Half Time)
  • Right Ventricle: RVOT Diam, RVOT VTI, RVOT Vmax, dP:dt, RV MPI (Right Ventricle Myocardial Performance Index), MPAP (Mean Pulmonary Artery Pressure)
  • Tricuspid Valve: TVA (Tricuspid Valve Area) using Continuity Equation (RVOT Diam, TV VTI; RVOT Diam, TV Vmax); TV E/A ratio, TV PHT
  • Pulmonic Valve: PVA (Pulmonic Valve Area) using Continuity Equation (RVOT Diam, PV VTI; RVOT Diam, PV Vmax), PVI (Pulmonic Valve Index), DPI (Dimensionless Performance Index), PV PHT (Pulmonic Valve Pressure Half Time)
  • Pulmonary Vein: Hepatic Vein
  • Shunts: Qp:Qs (Pulmonary-Systemic Flow Ratio)

Human Measurements and Calculations Package

Human General

  • Measurements: the same as general measurements of different modes (B, M, PW)
  • Calculations: BSA via Height and Weight, BSA via Weight
  • PW mode calculations: HR, SV using Flow Area, SV using Flow Diameter, SI, CO, CI, Area calculation using Continuity Equation (methods: Area and VTI, Area and Velocity, Diameter and VTI, Diameter and Velocity, Velocity Ratio (S/D, D/S), dP:dt, Flow Volume (methods: Diameter, Area), PHT, MVA

Human Musculoskeletal

  • Hip Angles (α, β), Femoral Head Coverage (FHC)

Human Obstetrics / Gynecology (OB / GYN)

  • Measurements: LMP (entered or from calendar), AC, BPD, FL, HC, FTA, AAPD, ATD, TAPD, TTD, CRL, GS, HL, TL, UL, OFD, BOD, Cereb, Clav, Rad, AFI, FHR, NT
  • Doppler mode measurements: Umbilical Artery (UA): RI, PI, PSV, EDV; Middle Cerebral Artery (MCA): RI, PI, PSV; Ductus Arteriosus (DA): Diam, PSV; Main Pulmonary Artery (MPA): Diam, PSV; Uterine Artery (UtA): RI, PI
  • Doppler mode calculations: Umbilical Artery (UA): PSV/EDV; CPR
  • Estimated date of birth (EDD) calculations: EDD(LMP), EDD(GA), EDD(AUA)
  • Ratios: FL / AC, FL / HC, FL / BPD, HC / AC, CI
  • Selected EFW values are used for calculation of Average EFW
  • Gestational Age (GA) calculations: GA(AC), GA(BPD), GA(CRL), GA(FL), GA(GS), GA(HC), GA(HL), GA(OFD), GA(TL), GA(UL), GA(HC/AC), GA(FTA),GA(ATD), GA(TAPD), GA(TTD), GA(BOD), GA(Cereb), GA(Clav)
  • Fetal Growth estimation (trending): AC(GA), BPD(GA), CRL(GA), FL(GA), GS(GA), HC(GA), HL(GA), OFD(GA), TL(GA), UL(GA), [FL/AC](GA), [FL/HC](GA), [HC/AC](GA), EFW(GA), AAPD(GA), ATD(GA), TAPD(GA), TTD(GA), BOD(GA), Cereb(GA), Rad(GA), Clav(GA), AFI(GA), FHR(GA), NT(CRL)
  • Doppler mode Fetal Growth estimation (trending): UA_RI(GA), UA_PI(GA), UA_RATIO_S_D(GA), MCA_RI(GA), MCA_PI(GA), MCA_PSV(GA), CPR(GA), DA_DIAM(GA), DA_PSV(GA), MPA_DIAM(GA), MPA_PSV(GA), UTA_RI(GA), UTA_PI(GA)
  • Selected Growth Tables are visualized as Fetal Growth Curves
  • Software supports unlimited number of user-defined Growth Tables

Human Gynecology (GYN)

  • Measurements: length, height, width of uterus, cervix, ovaries, renals, follicles
  • Calculations: volumes of uterus, cervix, ovaries, renals, follicles

Human Abdominal

  • Liver: Volume (CC, AP, LL diameters)
  • Gallbladder: Volume, Wall Thickness, Extrahepatic Bile Duct (EBD), Common Bile Duct (CBD), Common Hepatic Duct (CHD)
  • Pancreas: Head Diameter, Body Diameter, Tail Diameter, Pancreatic Duct Head, Pancreatic Duct Body
  • Spleen: Volume (length, width, thickness)
  • Gastrointestinal Tract: Appendix Wall Thickness, Appendix Diameter, Bowel Wall Thickness (at Stomach, Small Bowel, Large Bowel)
  • Urinary Bladder: Volume (length, height, width)
  • Right / Left Kidney: Volume (length, height, width), Pelvis Diameter

Human Urology

  • Measurements: length, height, width of kidneys, bladder, prostate, testes
  • Calculations: volumes of kidneys, bladder, prostate, testes; RUV (Residual Urine Volume); PSAD (PSA Density)

Human Endocrinology

  • Measurements: length, width, thickness of thyroid lobes
  • Calculations: volumes thyroid lobes; volume of thyroid

Human Vascular

  • Distance and area -based stenosis calculations at left (right) Subclavian, CCA (Common Carotid Artery), Bulb, ICA (Internal Carotid Artery), ECA (External Carotid Artery), Vertebral vessels at proximal, middle, distal locations
  • PSV/EDV (Peak Systole Velocity / End Diastole Velocity) ratios for each vessel and location
  • Ratios of velocities ICA PSV/CCA PSV, ICA EDV/CCA EDV, ICA PSV/CCA EDV, ECA PSV/CCA PSV, ECA EDV/CCA EDV, ECA PSV/CCA EDV at Rt. (Lt.) Prox. (Mid., Dist.) locations

Human Cardiology

  • Software supports the following measurements of Left Ventricle, Aortic Valve, Left Atrial: IVSd (Interventricular Septal Thickness, diastole), LVIDd (Left Ventricle Internal Diameter, diastole), LVPWd (Left Ventricle Posterior Wall Thickness, diastole), AOd (Aortic Root Dimension, diastole), IVSs (Interventricular Septal Thickness, systole), LVIDs (Left Ventricle Internal Diameter, systole), LVPWs (Left Ventricle Posterior Wall Thickness, systole), LADs (Left Atrial Dimension, systole).
  • Calculations: HR (Heart Rate), BSA (Body surface Area), Left ventricle volume (methods: Cubed, Teichholz, Gibson, Simpson’s LVAM-LVAP, Simpson’s single plane, Simpson’s biplane, Bullet, Ellipsoid single plane, Ellipsoid biplane), SV (Stroke Volume), SI (Stroke Volume Index), EF (Ejection Fraction), CO (Cardiac Output), CI (Cardiac Index), STIVS (Interventricular Shortening), FS (Fractional Shortening), STPW (Posterior Wall Shortening), LVM (Left Ventricle Cardiac Mass), CMI (Cardiac Mass Index), LA/AO Ratio

Veterinary Calculations Package

Canine OB

  • Measurements: GS, CRL, HD, BD
  • Gestational Age (GA) calculations: GA(BD), GA(CRL), GA(GS), GA(HD)

Feline OB

  • Measurements: HD, BD
  • Gestational Age (GA) calculations: GA(BD), GA(HD)

Ovine OB

  • Measurements: CRL
  • Gestational Age (GA) calculations: GA(CRL)

Bovine OB

  • Measurements: BD, CRL, HD, UD
  • Gestational Age (GA) calculations: GA(BD), GA(CRL), GA(HD), GA(UD)

Equine OB

  • Measurements: AOD, BPD, CRL, EOD, GS
  • Gestational Age (GA) calculations:

Lama OB

  • Measurements: BPD
  • Gestational Age (GA) calculations: GA(BPD)

Goat OB

  • Measurements: BPD
  • Gestational Age (GA) calculations: GA(BPD) for different species

Animal Cardiology

  • Left Ventricle, Aortic Valve, Left Atrial measurements: IVSd, LVIDd, LVPWd, AOd, IVSs, LVIDs, LVPWs, LADs, ET
  • Calculations: HR, LV volume (Cubed, Teichholz, Gibson), SV, EF, CO, STIVS, FS, STPW, LA/AO, VCF


The software includes the program of reporting and storage data, images, and videos, with the creation of the patient folder, storing, storing, printing, sending with direct-email of the report.
Operator programming of the report model with patient data, diagnostic images, measurements and calculations, curves and diagrams, comments, templates, etc.

Power supply

  • External power supply, 100-240V AC, 50-60 Hz

Size and weight

ArtUs EXT-1H:
aluminium enclosure
dimensions W x D x H, mm: 136 x 200 x 34
weight, kg: 0.77

ArtUs EXT-2H:
aluminium enclosure
dimensions W x D x H, mm: 140 x 204.5 x 62
weight, kg: 1.12

Ultrasound software

  • Echo Wave II scanning software / Echo Wave II touch GUI (Windows 32/64 bit)

Free downloadable updates.

Research and Developement Tools

Hardware tools:

  • I/O Module – optional modules for synchronizing the scanner with other signals or instruments such as ECG, EMG, EEG.
  • RF Module –  optional module that allows to receive RF data in real-time

Software tools:

  • SDK – Software Developement Kit (available with agreement).
  • Real-time imaging for the research (DLL) – allows to call TELEMED SDK functions to perform real-time ultrasound image data acquisition and imaging from the other programming platforms such as MATLAB, Python etc.
  • ArtUs Synchronisation Package – utility for configuring of ArtUs synchronisation input/output signals
  • ArtUs RF Data Control for C++ – control majority of ultrasound scanning parameters, receive RF data in real-time and record RF data to file
  • ArtUs RF Data Control for Python, MATLAB and LabVIEW – control majority of ultrasound scanning parameters, receive RF data in real-time and record RF data to file
  • ArtUs RF Tools Package – RF tools, MATLAB scripts for import and revision of annotated RF data offline. Collection of scripts illustrating conventional RF signal processing steps, which are typically used in the B mode image formation engine is provided as well.
  • Python scripts package – Python RF data viewer (GUI) for import and review of annotated RF data offline.

Recommended configuration

  • Windows® based computer
  • HD/Full HD screen resolution, IPS technology
  • CPU i5/i7/i9 2.0 GHz or faster
  • 8 Gb RAM or more
  • 256 Gb internal Solid State Drive (SSD)
  • ArtUs: USB 3.0, other systems: USB 2.0/USB 3.0
  • Windows® 8/10/11 (all versions 32/64-bit)

Customer Care & Warranty

Remote technical support in real time.


  • Artus Beamformer: 2 years
  • Probes: 1 year

ArtUs EXT include:

  • ArtUs EXT-1H or ArtUs EXT-2H beamformer
  • ultrasound transducer (optional)
  • Micro-B to Type-A USB 3.0 cable
  • 100~240 VAC, 50~60 Hz power supply (EN60601-1)
  • AC power cable
  • software, assembly and set-up manual, operation manual (supplied on USB memory stick)
  • I/O module (optional)
  • RF module (optional)

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