|X-Ray tube anode material||Mo|
|X-ray release options||Hand switch|
|Generator Type ||Constant Potential, high Frequency, Inverter|
|kV Range ||20-39 kV, Increments of 1 kV|
|mAs Range ||3-500 mAs|
|Time Range, Sec. ||0.4-5 sec|
|AEC Detector ||Solid-state|
|Parameters Controlled ||Automatic time, Automatic kV, Automatic Filter|
We are among the reputed organizations, highly engaged in offering an optimum quality range of Siemens Mammography Workstation.
This system is available in various technical specifications as per the demands of our precious clients. The provided system is made using quality approved components and ultra-modern technology. The offered system is used to examine the human breast. Moreover, this system is available at reasonable prices. Mammography is the process of using low-energy-X-rays (usually around 30 kVp) to examine the human breast and is used as a diagnostic and a screening tool. The goal of mammography is the early detection of breast cancer, typically through detection of characteristic masses and/or microcalcification. Like all x-rays, mammograms use doses of ionizing radiation to create images. Radiologists then analyze the image for any abnormal findings. It is normal to use lower energy X-rays (typically Mo-K) than those used for radiography of bones. Ultrasound, ductography, positron emission mammography (PEM), and magnetic resonance imaging are adjuncts to mammography. Ultrasound is typically used for further evaluation of masses found on mammography or palpable masses not seen on mammograms. Ductograms are still used in some institutions for evaluation of bloody nipple discharge when the mammogram is non-diagnostic.
- High performance
- Long working life
- Minimum maintenance