New & Used X-ray Generator
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Please Note: Search results for this device do not include the following devices, please select the relevant device if it is of interest to you: Rad Room, Analog,Rad Room, Digital,Chest X-ray
- Complete Systems (55)
- Parts (8,848)
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Year manufactured

Quick Look
Device: X-ray Generator
Manufacturer: Philips
Model: Maximus C850
Manufacturer: Philips
Model: Maximus C850
Location: Mexico, Durango
2,000


1983

Quick Look
Device: X-ray Generator
Manufacturer: Philips
Model: Optimus 50
Manufacturer: Philips
Model: Optimus 50
Location: Portugal, Porto
10,182


1997

Quick Look
Device: X-ray Generator
Manufacturer: Shimadzu
Model: UD150L-30E
Manufacturer: Shimadzu
Model: UD150L-30E
Location: Sri Lanka, Colombo
18,000
2005

Quick Look
Device: X-ray Generator
Manufacturer: Continental Trex
Model: TM-30
Manufacturer: Continental Trex
Model: TM-30
Location: United States, Arizona
7,000


1998

Quick Look
Device: X-ray Generator
Manufacturer: CPI
Model: Indico 100 50 kW
Manufacturer: CPI
Model: Indico 100 50 kW
Location: United States, New York
Negotiable
-

Quick Look
Device: X-ray Generator
Manufacturer: CPI
Model: Indico 100 65 kW
Manufacturer: CPI
Model: Indico 100 65 kW
Location: Turkey, Ankara
7,000
2004

Quick Look
Device: X-ray Generator
Manufacturer: Emd Technologies
Model: Compact 60
Manufacturer: Emd Technologies
Model: Compact 60
Location: Netherlands, Zuid-Holland
7,700


2005

Quick Look
Device: X-ray Generator
Manufacturer: Bennett X-ray
Model: HFQ-4500P
Manufacturer: Bennett X-ray
Model: HFQ-4500P
Location: United States, California
5,000


1999

Quick Look
Device: X-ray Generator
Manufacturer: Transworld
Model: 325V
Manufacturer: Transworld
Model: 325V
Location: United States, Washington
2,500
1980

Quick Look
Device: X-ray Generator
Manufacturer: Raytheon
Model: RMS 325
Manufacturer: Raytheon
Model: RMS 325
Location: Colombia, Distrito Capital
Negotiable

-

Quick Look
Device: X-ray Generator
Manufacturer: Philips
Model: Optimus 50
Manufacturer: Philips
Model: Optimus 50
Location: Puerto Rico
40,000
2002

Quick Look
Device: X-ray Generator
Manufacturer: Transworld
Model: 325V
Manufacturer: Transworld
Model: 325V
Location: United States, California
2,500


1984

Quick Look
Device: X-ray Generator
Manufacturer: Continental Trex
Model: TM-30
Manufacturer: Continental Trex
Model: TM-30
Location: United States, Florida
Negotiable
1998

Quick Look
Device: X-ray Generator
Manufacturer: Toshiba
Model: KXO-50
Manufacturer: Toshiba
Model: KXO-50
Location: Malaysia, Selangor
7,000


-

Quick Look
Device: Rad Room, Analog
Manufacturer: Summit
Model: L500-3
Manufacturer: Summit
Model: L500-3
Location: United States, New Jersey
Negotiable
2008
X-ray Generator may also be referred to as :
Radiographic-Tomographic System, Linear | Radiographic/Fluoroscopic Unit Accessories | Radiographic/Fluoroscopic System, General-Purpose, Camera, Radiographic Photospot | Radiographic/Fluoroscopic System, Angiographic/Interventional, Cardiovascular | Radiographic System, Film/Digital (CR) | Radiographic Generator | Fluoroscopic GeneratorTips for buying X-ray Generator
- Facilities should select power rating and timing capabilities based on the types of examinations to be performed and the operating technique factors required with the type of x-ray generator selected.
- Power setting is the main factor when dealing with these x-ray generator units.
- Low power x-ray generators are capable of the full range of x-ray exposures.
- Shorter exposure times can be used with higher power. With shorter exposure times there is less chance of movement artifacts.
- A 50 kW-generator is sufficient if the generator is used predominantly for extremity and chest imaging.
- When large patients are expected, particularly in Radiographic/Fluoroscopic system applications, higher power generators are needed.
- If a heavy workload of abdominal imaging is expected, then an 80 kW generator should be considered.
- When choosing a Radiographic-Tomographic system unit, facilities should consider the secondary waveform type, timing capabilities, and compatibility with other system components.
- The secondary waveform type determines the efficiency of x-ray production, including the magnitude of ripple and the ratio of average to peak x-ray tube voltage.
- Secondary waveforms that are single-phase, full-wave rectified provide the least efficient production of x-rays, which results in longer radiographic exposure times and higher patient radiation exposure.
- Single-phase x-ray generators cause increased x-ray tube anode heating, and therefore restrict small focal spot examinations and reduce tube life.
- Three-phase x-ray generators allow higher mA exposures at shorter exposure times, reduce motion un-sharpness, and produce higher-quality radiographs for many examinations.
- Facilities should add power installation costs to the project budget if three-phase power service is not available at the planned location.
- A procedure using a three-phase or high frequency x-ray generator needs lower kVp and/or mAs than the same one using a single-phase x-ray generator.
- Routine radiographic, angiographic, fluoroscopic, and tomographic procedures vary in their kVp and mAs requirements, so all features of Radiographic-Tomographic Systems and Radiographic/Fluoroscopic Systems must be taken into consideration.
- Putting the x-ray generator too far away from the x-ray tube may cause distortions in voltage waveforms and timing responses caused by capacitance in excessively long high-voltage cables.
- Facilities must select x-ray generator components for compatibility as an integrated system. It is specifically critical to choose compatible x-ray tubes and generators to fully utilize all features of both components.
Read more valuable tips on the Medical Equipment Buying Guide by MedWOW >>