Ultrasound equipment

美 [ˈʌltrəsaʊnd ɪˈkwɪpmənt]英 [ˈʌltrəsaʊnd ɪˈkwɪpmənt]
  • 网络超声设备;超声波设备
Ultrasound equipmentUltrasound equipment
  1. The spine was visualized from cervical to sacral region without evidence for a neural tube defect or other abnormality within the resolution of the ultrasound equipment .

    可视化的脊柱是由颈椎到骶区域没有证据的神经管缺陷或其他异常的决议的超声波设备。

  2. Thus , we have developed algorithm that is based on two-dimensional ultrasound equipment and general computer , real-time , and free hand .

    于是,我们开发了基于普通二维超声设备、配合一般计算机就可以完成的、实时的自由臂重建算法。

  3. China Wuhan Quality Supervision & Testing Center for Medical Ultrasound Equipment

    国家武汉医用超声波仪器质量监督检测中心

  4. Analysis and assessment of modern diagnostic ultrasound equipment performance

    现代超声诊断设备性能的分析与评估

  5. Definition and measurement of thermal and mechanical indices on diagnostic ultrasound equipment

    超声诊断设备的热指数、机械指数的定义和测量方法

  6. Application of Color Doppler Ultrasound Equipment in Wrist Arteries Damaged by Electric Burn

    彩色多普勒超声在腕部电损伤动脉检查中的应用

  7. This method is used for infants less than one year of age when ultrasound equipment is not available .

    在没有超声波仪器时,用本法测量未满周岁婴儿的血压。

  8. A study on Doppler ultrasound equipment to locate puncture area for dialysis patients with internal fistula for the first time

    多普勒超声仪对透析病人首次内瘘穿刺部位定位的研究

  9. Medison has a particular strength in cheap ultrasound equipment for developing markets such as Brazil , China and Africa .

    麦迪逊公司在便宜的超声设备上尤有优势,并且拥有像巴西,中国,非洲这些市场不断壮大。

  10. Ultrasound equipment is less expensive than CT and MRI scanners and more affordable for smaller hospitals and clinics .

    比起CT和MRI扫描仪来,超声设备是十分便宜的,大多数小医院和诊所等都可以拥有。

  11. With the benefits to major improvements in contrast media and ultrasound equipment , myocardial contrast echocardiography ( MCE ) has advanced rapidly .

    随着对超声造影剂及成像技术的深入研究,心肌声学造影(MCE)取得了极大的发展。

  12. The new generation portable digital ultrasound equipment based on embedded hardware platform and embedded operating system . This equipment can cost less , burn less power and achieve significantly higher performance than conventional equipments .

    便携式数字超声诊断仪基于嵌入式硬件平台和嵌入式操作系统,与传统的超声诊断仪相比,它的成本低、功耗低,并能获得更高的性能。

  13. Before and after the HBO treatment , using the hepatic rheometer , Doppler B-mode ultrasound equipment , the contractive wave of hepatic blood flow graph and blood flow of right portal vein were tested .

    治疗前后用肝血流图仪和多普勒B超测定肝血流图收缩波和门静脉右支血流量,行肝穿刺活检术。

  14. Method From April 1987 to April 1999 , the brain of 880 high risk neonates delivered were examined by high resolution ultrasound equipment . The fetal brain were observed carefully at prenatal ultrasonography for high risk fetus .

    方法对1987年4月至1999年4月间在我院出生的高危新生儿880例用高分辨力超声仪行颅脑检查,对高危妊娠患者产前超声检查时着重观察胎儿颅内结构。

  15. The technical progress of ultrasound imaging equipment Equipment Manufacturing

    超声成像设备的技术简述名牌加国产化:我国装备制造业的发展之路

  16. Continuous Wave Doppler Design Challenges in Compact Ultrasound Imaging Equipment

    超声成像系统连续波多普勒设计的挑战

  17. Full digital B-mode ultrasound diagnosis equipment is the current mainstream of development .

    而全数字B超是当前发展的主流。

  18. This dissertation mainly studies the high-performance digital scan conversion system applied in the digital ultrasound diagnostic equipment .

    论文主要研究应用于全数字超声诊断设备中的高性能数字扫描变换系统。

  19. And the frequency bandwidth of the imaging system is the key factor to determine the axial resolution of B mode ultrasound diagnostic equipment .

    成像系统的频带宽度是决定B超仪纵向(轴向)分辨力的关键因素。

  20. The ultrasound diagnostic equipment using the technologies of digital scan conversion and digital beam forming is defined as the digital ultrasound diagnostic equipment .

    采用数字扫描变换技术和数字声束形成技术的超声诊断设备被称为全数字超声诊断设备。

  21. In the past 20 years , the imaging technique of ultrasound imaging equipment has made much progress in harmonic imaging , coherent imaging , Doppler imaging and frequency spectra analysis .

    近20年来,超声成像设备在电脑超声成像技术,谐波成像技术,相干处理成像技术,多普勒频移成像技术,回波频谱分析技术等方面取得了重大进展。

  22. B-mode ultrasound diagnosis equipment spread to hospitals , because of its non-invasive , high sensitivity , low cost , wide application , easy operation , and become an important symbol of hospital modernization .

    B型超声仪因其所具备的无创伤、灵敏度高、成本低、操作方便等优点而普及各大医院,并成为医院现代化水平的一个重要标志。

  23. Ultrasound clean equipment , autoclave , hot-air steriliser and IR heater , etc. Whenever unsterilized foreign material penetrates a wound , microorganisms will certainly be introduced .

    可有超声波清洗设备、压灭菌设备、烤灭菌箱、外烤箱等。未灭菌的异物进入伤口都会带进微生物。

  24. The resolution for the image of B mode ultrasound diagnostic equipment is one of the most important performance parameters . The various factors affecting on the spatial resolution of ultasound image were analysed in this paper .

    B超仪的图像分辨力是仪器的主要性能参数之一,本文主要分析了影响超声图像的空间分辨力的各种因素。

  25. Medical ultrasound imaging equipment has many advantages , such as real-time , non-destructive , inexpensive , high sensitivity . So , clinicians commonly used in the medical profession medical ultrasound image as an important basis of the clinical diagnosis .

    由于医学超声成像设备具有实时、无损、廉价、高灵敏度等优点,在医学界中临床医师们普遍采用医学超声图像作为临床诊断的重要依据。

  26. The acoustical system is an important component of the ultrasound processing equipment , the advantage and disadvantage of its function can show if machining equipment can operate regularly , and affect seriously processing productivity , processing precision and quality of workpiece .

    声学系统是超声加工设备的重要组成部分,其性能优劣决定着加工设备能否正常工作,严重影响着工件加工效率、加工精度和表面质量。

  27. The main advantages of B Flow are as follow : ① Extending the wideband resolution and high frame rate . And the frequency bandwidth of the imaging system is the key factor to determine the axial resolution of B mode ultrasound diagnostic equipment .

    BFlow显像的主要优点是:①提高了图像帧频和轴向分辨力;成像系统的频带宽度是决定B超仪纵向(轴向)分辨力的关键因素。

  28. The utility model belongs to ultrasound energy transducing equipment .

    本发明属超声换能设备。

  29. The Application of Ultrasound Technology in Ground Equipment of Launch Field

    超声波技术在某航天发射场地面设备中的应用

  30. The development of ultrasound Doppler error detection equipment

    基于MCS-51单片机的多普勒超声诊断仪计量检测装置的研制