● Easy connected to the video printer / inkjet printer / laserjet printer
● Display mode: B, 2B, 4B, B/M, M
● Image gray scale: 256
● Monitor: 10.1 inch TFT LCD
● Display depth: 240 mm
● Zoom: 0.9, 1.0, 1.1, 1.2, 1.3, 1.5, 2.0
● Cine loop: 600 frames
● Image storage: 2048 frames
● Body mark: 43
● Focus: The number and position can be adjustable.
● Software: Obstetrics, gynaecology, cardiology, urology, small parts
● Assistant tool: Puncture guide and histogram
● Interface: USB, Video, VGA
● Dimension: 292 mm×232 mm×45 mm
● Weight: 1.8 kg
● Support Chinese, English language interface display and input.
● The management interface menu, Chinese and English operating systems, image processing default and a key function of optimization.
● Measurement formula can be set up differently according to the different race.
● Character display: Date, time, name, hospital,number, frame rate, depth, gain, dynamic range, frame correlation, frequency etc.
● Image processing: Controllable frame correlation, gamma correction, histogram
● Image conversion: Up and down, left and right, black and white
● Obstetrics, gynaecology, cardiology, small parts, urology etc. can generate reports automatically
● Measurement: Distance, circumference, area, volume,angle, ratio, slope etc.
● Tissue harmonic imaging
● Support USB storage
● Obstetrics: BPD, CRL, GS, HC, AC, FL, APAD, TAD, FTA, HUMERUS, OFD, THD, TIBIA, ULNA ,AFI, LMP, BBT and FBP
● Cardiology: AOD, LAD, IVSTd, LVIDd, LAD/AOD, LVPWd, LVIDs, EF, EF SLP, CA/CE, MVCF, CO, CI, LVMWI, FS, ACV, ET, SV, SI, LVMW.
● Gynaecology: uterus radial line, intima thickness, ovary volume, dominant follicle, cervix major diameter, corpus cervix and so on.
● Urology: remnants samples of urine, prostate.
● Small parts: thyroid gland and hip joint.
- The device which adopts linux embedded operating system has well compatibility, transplantable character, and flexible expansibility.
- Ultrawideband dynamic frequency scanning technique can apply to different sufferers and inspection sites, so that can obtain appropriate resolution and ultrasound images.
- Real time dynamic receiving focusing technology: It realizes high-definition real time dynamic focusing, effectively improves degree of uniformity for far and near field pixel, and obviously improves organic fine analysis of rate.
- Real time dynamic receiving apodization technology: As the changes of strength for echo signal of different depth, it changes the width of acoustic beam real-time continuously, to ensure longitudinal uniformity of image.
- Tissue harmonic imaging technology: According to the strength of echo to optimum harmonic frequency range automatically for imaging, to obtain the optimum ultrasound images which possess high definition and high penetrating power.