磁共振小组/磁共振兼容/Experimental setup for transfer function measurement to assess RF heating of medical leads in MRI: Validation in the case of a single wire:修订间差异
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Methods: The transfer function was measured by mean of an excitation probe and a receiving probe, both connected to a two-port vector network analyzer. The experimental results were compared with the simulated results, reproducing the excitation scheme. This procedure was applied to two different cables with different geometrical and insulation properties to test the robustness of the setup. | Methods: The transfer function was measured by mean of an excitation probe and a receiving probe, both connected to a two-port vector network analyzer. The experimental results were compared with the simulated results, reproducing the excitation scheme. This procedure was applied to two different cables with different geometrical and insulation properties to test the robustness of the setup. | ||
Results: It is possible to touch the cable electrode with the excitation probe without inducing an error in the measured transfer function, which solves the direct coupling problem. There is a good agreement between the measured and simulated transfer function for both tested cables. | Results: It is possible to touch the cable electrode with the excitation probe without inducing an error in the measured transfer function, which solves the direct coupling problem. There is a good agreement between the measured and simulated transfer function for both tested cables. | ||
Conclusions: A valid transfer function measurement bench is described.|DetaialsDM=射频致热-射频致热评估-传递函数测量}} | Conclusions: A valid transfer function measurement bench is described.|DetaialsDM=射频致热-射频致热评估-传递函数测量|Citation_=25}} | ||
2024年1月18日 (四) 22:34的版本
推荐理由
简单有效的传递函数测量方法
| 文章简介 | |
|---|---|
| 期刊 | Magnetic resonance in medicine |
| 发表年份 | 2018 |
| DOI | 10.1002/mrm.26773 |
| 类型 | 研究性工作 |
| 领域 | 磁共振兼容 |
| 引用量 | 25 |
| 推荐信息 | |
|---|---|
| 推荐人 | 龙天罡 |
| 审核 | 姜老师 |
| 推荐小组 | 磁共振小组 |
摘要
Purpose: The measurement of the transfer function is a good tool to evaluate the radiofrequency heating of complex conductive wires, such as pacemaker leads. The aim is to describe precisely the design of a transfer function bench and compare the measurements to simulations. Methods: The transfer function was measured by mean of an excitation probe and a receiving probe, both connected to a two-port vector network analyzer. The experimental results were compared with the simulated results, reproducing the excitation scheme. This procedure was applied to two different cables with different geometrical and insulation properties to test the robustness of the setup. Results: It is possible to touch the cable electrode with the excitation probe without inducing an error in the measured transfer function, which solves the direct coupling problem. There is a good agreement between the measured and simulated transfer function for both tested cables. Conclusions: A valid transfer function measurement bench is described.
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