Philips iU22 Ultrasound Machine
Application training for the Philips iU22
KPI’s on-staff sonographer can provide onsite applications training or remote training via videoconference at a set price plus travel costs. A pre-recorded video training course is included in the sale, lease or rental of the Philips iU22 from KPI ultrasound.
Philips iU22 Service options
Free technical support is available from KPI during installation and over the course of the standard limited warranty. Technical support is available after the warranty period at an hourly cost per issue.
Philips iU22 Maintenance
KPI recommends the use of a surge protector along with a dedicated power outlet. Probes should be disinfected after every use with a disinfectant wipe proven not to damage the lens (KPI recommends SonoWipes for this.) KPI recommends one PM visit (preventative maintenance) every year.
Philips iU22 Dimensions & Weight
Height: (adjustable, maximum) 1626 mm (64 in), (minimum) 1397 mm (55 in)
Width: 559 mm (22.0 in)
Depth: 1092 mm (43 in)
Weight: (no Peripherals) 156.8 kg (345 lbs.), approx. 480 lbs with packaging
Philips xSTREAM imageformer architecture
Up to 442,176 total digital channels (xMATRIX configuration), 57,000 total digital channels (non xMATRIX configuration)
Displayed Imaging Depth: 1 – 39 cm (transducer dependent)
Up to 180 dB system dynamic range
Philips iU22 Electrical power
Voltage 100V-127V, 220V-240V
Frequency 50/60 Hz
Power consumption: 750VA – 900VA depending on system configuration
Philips iU22 revisions: A cart – C cart
Philips first launched the iU22 in 2004 as their new premium shared service ultrasound machine, replacing older units like the HDI 5000. This first version of hardware was designated an “A-cart.” This first version had dual motherboards and dual power supplies and a huge amount of problems with both. The iU22 B-cart improvements were to circuit boards, cables, power supply assembly, and USB ports. The iU222 C-cart brought a new 20” LCD monitor and articulating arm as well as new circuit boards. The R-cart is a refurbished A,B, or C-cart with hardware and software upgrades to G4.0 software.
Philips iU22: D cart – F cart
The iU22 D-cart was launched in 2007 and finally fixed the problems with the dual motherboards by using a unified motherboard. D.1 and D.2 included minor hardware updates. The iU22 E-cart made upgrades to the cart, wheels and locking mechanism. E.1 was a minor hardware & software update. E.2 added major power supply improvements to support Matrix transducers. E.3 was a minor update to the way the iU22 was manufactured. The iU22 F-cart was a major upgrade that added Type III channel boards. F.1 was a minor manufacturing update. F.2 upgraded the video card. F.3 upgraded to a new SATA DVD drive.
Philips iU22: G cart
The iU22 G-cart was launched in 2010 and is the latest version of the iU22. This revision added a new channel board and a 21” widescreen monitor. The iU22 G.1 revised the control panel and added larger touch screens. KPI recommends buying D-cart and up as most hardware problems with the iU22 were fixed by this revision and D-carts can be updated to the latest software
Philips iU22 Vision software updates
The software of an iU22 can be updated to a point limited by the hardware cart. Each major revision of the software was designated with the year and “Vision” in the name. “Vision 2012” was the last major release of the software. Very early A-C cart had software that was named simply “system update” with a number. System update 1.0-2.0 have almost all been upgraded over the years and system 3.0 is the lowest version still commonly found on used iU22s.
The Philips iU22 Vision 2007 software update included support for the new L15-7io intraoperative linear transducer and the V6-2 4D convex probe. Features added were Qlab’s iSlice, STIC, TCD (transcranial Doppler) imaging, TCD TSI, and Color compare imaging. Improvements were made to workflow, and image quality on a number of existing transducers.
The Philips iU22 Vision 2008 software update included support the new Purewave C5-1 convex transducer. Features added were TMQ (tissue motion quantification) in Qlab, Viewforum stand alone image viewing platform, improved needle visualization, and contrast capabilities.
The Philips iU22 Vision 2009 software update included support for the new VL13-5 4D linear probe. Features added were tissue aberration correction, contrast enhanced ultrasound, and smartexam automation software.
The Vision 2010 software update on the Philips iU22 added xMatrix including support for the new Purewave xMatrix X6-1 sector transducer, Live xPlane imaging, and support for any PACS. (R-carts can have this update, but cannot support the X6-1 transducer.)
The Philips iU22 Vision 2011 software update added support for the X5-1 xMatrix sector transducer. Qlab was upgraded with CMQ-Stress replacing TMQ, and with the additions of the Auto Volume tool, GI 3DQ trending, iCrop, and Elevation compounding. Options with Vision 2011 include the xMatrix performance bundle, and Live 3D. (R-carts can have this update, but cannot support the X5-1 transducer.)
The Vision 2012 software on the Philips iU22 adds support for Auto Doppler, Fetal Heart Navigator, and Vascular Plaque Quantification (VPQ), and GYN Elastography.
All revisions of the Philips iU22:
Philips iU22 (A.0) with system update 3.0 – Vision 2010 software
Philips iU22 (B.0) with system update 3.0 – Vision 2010 software
Philips iU22 (C.0) with system update 3.0 – Vision 2010 software
Philips iU22 (R.0) with Vision 2007-Vision 2011 software (limited)
Philips iU22 (D.0) with Vision 2007 – Vision 2012 software
Philips iU22 (D.1) with Vision 2007 – Vision 2012 software
Philips iU22 (D.2) with Vision 2007 – Vision 2012 software
Philips iU22 (E.0) with Vision 2007 – Vision 2012 software
Philips iU22 (E.1) with Vision 2007 – Vision 2012 software
Philips iU22 (E.2) with Vision 2007 – Vision 2012 software
Philips iU22 (E.3) with Vision 2007 – Vision 2012 software
Philips iU22 (F.0) with Vision 2007 – Vision 2012 software
Philips iU22 (F.1) with Vision 2007 – Vision 2012 software
Philips iU22 (F.2) with Vision 2007 – Vision 2012 software
Philips iU22 (F.3) with Vision 2007 – Vision 2012 software
Philips iU22 (G.0) with Vision 2011 or Vision 2012 software
Philips iU22 (G.1) with Vision 2011 or Vision 2012 software
All Philips iU22 Probes / Transducers
Linear L9-3 [ 3 – 9 MHz ] 160 elements, 38mmR
Linear L12-5 50 mm [ 5 – 12 MHz ] 256 elements, 50mmR
Linear L17-5 [ 5 – 17 MHz ] 288 elements, 38.9mmR
Intraoperative Linear L15-7io [ 7 – 15 MHz ] 128 elements, 23mmR
Convex C5-1 [ 1 – 5 MHz ] 160 elements, 96° field of view, PureWave Crystal Technology
Convex C5-2 [ 2 – 5 MHz ] 128 elements, 115° field of view
Microconvex C8-5 [ 5 – 8 MHz ] 128 elements, 120° field of view, Pediatric imaging
Convex C9-4 [ 4 – 9 MHz ] 192 elements, 108° field of view
Endovaginal C8-4v [ 4 – 8 MHz ] End-fire sector, 128 elements, 11mmR, 160° field of view
Endocavitary C9-5ec [ 5 – 9 MHz ] End-fire sector, 128 elements, 8mmR, 173° field of view
Endovaginal C10-3v [ 3 – 10 MHz ] End-fire sector, 128 elements, 11.5mmR, 164° field of view
Cardiac Sector S3-1 [ 1 – 3 MHz ] 96 elements, 90° field of view, adult cardiac sector
Cardiac Sector S4-1 [ 1 – 4 MHz ] 96 elements, 90° field of view, adult cardiac sector
Cardiac Sector S5-1 [ 1 – 5 MHz ] 80 elements, 90° field of view, PureWave crystal technology
TEE S7-2omni [ 2 – 7 MHz ] 64 elements, 90° field of view, Transesophageal TEE
TEE S7-2 [ 2 – 7 MHz ] 64 elements, 90° field of view, Transesophageal TEE
xMATRIX X3-1 [ 1 – 3 MHz ] 2,400 element/.s, 90° field of view
xMATRIX X5-1 [ 1 – 5 MHz ] 3,040 elements, 100° field of view, PureWave crystal technology
xMATRIX X6-1 [ 1 – 6 MHz ] 9,212 elements, 100° field of view, PureWave crystal technology
xMATRIX X7-2 [ 2 – 7 MHz ] 2,500 elements, 90° field of view, PureWave crystal technology
xMATRIX TEE X7-2t [ 2 – 7 MHz ] 2,500 elements, 90° field of view, PureWave crystal technology
Pedoff (PW Transducer) D2TCC [ 2 MHz ] Transcranial Doppler applications
Pedoff (CW Transducer) D2CWC [ 2 MHz ] Adult cardiology applications
Pedoff (CW Transducer) D5CWC [ 5 MHz ] Deep venous and arterial applications
Advanced Philips iU22 Transducers: 4D and Matrix
The Philips iU22 not only offers six different PureWave single crystal transducers, but five xMatrix probes. xMatrix not only improves image quality and penetration like a PureWave transucer, but also allows for real-time scanning of multiple planes and 4D without needing a typical mechanical 4D probe. This speeds the acquisition of 4D data over a 4D mechanical probe. C-plane resolution is also improved over a typical 4D mechanical probe. The [ 1 – 6 MHz ] X6-1, and [ 1 – 5 MHz ] X5-1 transducers for the iU22 represent the apex of xMatrix design and can image anything from the heart, to a 4D OB/GYN exam. The [ 1 – 3 MHz ] X3-1 and [ 2 – 7 MHz ] X7-2 are early xMatrix probes, while the [ 2 – 7 MHz ] X7-2t is a TEE probe with xMatrix technology and represents the pinnacle of transesephegeal technology. In addition, the iU22 has 3 traditional 4D transducers including the [ 5 – 13 MHz ] VL13-5 4D linear.
X6-1 xMatrix probe https://www.youtube.com/
Popular Philips iU22 Transducers
The most popular transducers for the iU22 are the [ 1 – 5 MHz ] C5-1 PureWave convex which greatly enhances image quality at higher penetration where patients are heavier and would otherwise be difficult to image. The [ 3 – 10 MHz ] C10-3v PureWave endovaginal which also uses single crystal PureWave technology to improve image quality with difficult-to-image patients. The most popular linear for the Philips iU22 is the [ 5 – 12 MHz ] L12-5 50 mm offers excellent vascular imaging as well as having a large enough scan head for effecient breast imaging. The most popular cardiac sector transducer is the [ 1 – 5 MHz ] S5-1 another PureWave transducer offering better than normal image clarity even at deep penetration. The most popular 4D mechanical transducers on the Philips iU22 are the [ 2 – 6 MHz ] V6-2 4D convex, and the [ 3 – 9 MHz ] 3D9-3v 4D endovaginal transducer. 4D probes are superior to 2D transducers because they capture an entire exam’s worth of data in a few seconds of scanning rather than many minutes. There are also views of the internal structures, such as the coronary view or C-plane of the uterus that are only viewable in 3D/4D on an ultrasound and cannot be imaged at all with a 2D version of the probe.