Percutaneous closed-loop control charging device for implantation type medical treatment instrument

An implantable medical and closed-loop control technology is applied in the field of percutaneous closed-loop control charging devices to achieve the effects of prolonging service life, reducing pain and economic burden, and avoiding the problem of internal heating

Active Publication Date: 2011-02-23
TSINGHUA UNIV +1
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  • Abstract
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  • Claims
  • Application Information

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Problems solved by technology

[0005] In view of the deficiencies in the prior art, the purpose of the present invention is to provide a safe and reliable percutaneous wireless closed-loop control charging device that can meet the requirements of implantable medical instruments such as deep brain stimulators. The hollow coil realizes charging from outside the body to the medical instrument impla...

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  • Percutaneous closed-loop control charging device for implantation type medical treatment instrument
  • Percutaneous closed-loop control charging device for implantation type medical treatment instrument
  • Percutaneous closed-loop control charging device for implantation type medical treatment instrument

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Embodiment Construction

[0040] The implementation of the percutaneous wireless charging device for implantable medical instruments of the present invention will be described in detail below with reference to the accompanying drawings.

[0041] Such as figure 1 As shown, the percutaneous closed-loop control charging device for implantable medical instruments of the present invention is composed of an external charger and an internal implantable medical instrument 14; wherein the external charger is composed of a charging part 10 and an antenna part 39. The antenna part 39 includes an external communication coil 11, an external energy transmitting coil 13, and a magnetic core 12 shared by the external communication coil and the external energy transmitting coil; Control circuit 17, rechargeable battery 18, etc.

[0042] The external energy transmitting coil 13 and the internal energy receiving coil 16 with the built-in magnetic core 12 realize the transmission of electromagnetic energy through the ski...

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Abstract

The invention discloses a percutaneous closed-loop control charging device for implantation type medical treatment instrument and belongs to the technical field of implantation medical instrument. The percutaneous closed-loop control charging device for implantation type medical treatment instrument comprises an external charger and an internal implantation type medical instrument. An external energy transmitting coil is a large-size flat magnetic core coil, and an internal energy receiving coil is a hollow coil; the external energy transmitting coil transmits electromagnetic energy by adopting a resonance electromagnetic coupling manner with parallel central shafts; and the electrical energy obtained by the internal energy receiving coil charges an internal rechargeable battery through an internal charge control circuit. The closed-loop control charging device communicates in a pulse position modulation manner for closed-loop control to ensure the energy received by the implantation medical instrument in different charging phases to be within the normal range, effectively control the heating and increase the safety; the closed-loop control charging device calculates the efficiency by the internal feedback parameter to realize counterpoint prompt and increase the charging efficiency. The percutaneous wireless charging method can charge the implantation type medical instrument by a titanium casing, is safe and reliable in charging, and can be applied to all types of implantation type medical instruments equivalent to a deep brain stimulator in power level.

Description

technical field [0001] The invention relates to a percutaneous closed-loop control charging device for implantable medical instruments, belonging to the technical field of implantable medical instruments. Background technique [0002] There are many types of implantable medical devices, and their application range is also very wide, such as cardiac pacemakers, brain pacemakers, muscle stimulators, cochlear implants, etc. All kinds of implantable medical devices are generally expensive, but most of them have a short lifespan. The main factor limiting the life of implantable medical devices is the capacity of the battery. Most of the existing implantable medical devices are powered by lithium primary batteries with high energy density. Generally, implantable medical devices only have a lifespan of about 3 to 5 years. Once the battery energy is exhausted, the patient has to undergo surgery again and replace the implanted medical device, which not only causes physical trauma t...

Claims

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Application Information

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IPC IPC(8): H02J7/02
Inventor 李路明王伟明郝红伟马伯志胡春华李青峰陈少波
Owner TSINGHUA UNIV
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