With the rising prevalence of cardiovascular, orthopedic, and other chronic conditions, and an increase in the number of patients needing care, the demand for implantable medical devices continues to increase.
Today, many medical implantable devices are limited by the lifetime of their primary battery. That power is finite, and battery replacement can be inconvenient, costly, and painful for patients. Wired sources aren’t a suitable alternative due to safety concerns, including increased risk for infections and disease. Devices like pacemakers, neural stimulators, cochlear implants, retinal implants and drug delivery systems all benefit from safe, effective means of wireless charging.
The growing popularity of resonant wireless power transfer (RWPT) is a confluence of three trends in the medical implantable device space:
RWPT is known for efficiency and the ability to transfer power over longer distances with minimal loss. In implantable devices, RWPT eliminates the need for wires, enhances device longevity and reduces the risk of infection.
RWPT systems are designed to leverage the oscillating magnetic fields between the TX and RX coils to transfer power wirelessly. In terms of components, the transmitter, consisting of the battery, inverter, DC-to-DC converter and TX coil, is located outside the body. The receiver, which includes the RX coil, rectifier, DC-to-DC converter and load, is inside the body.
When RF signals are received, they’re converted into usable direct current (DC) power, which can be stored or used to power the implantable device. The transmitter and receiver are tuned to the same frequency to maximize that energy transfer. This technique is resonant by nature, which minimizes energy loss during transfer and ensures the implantable device receives adequate power.
Inherently, RWPT accommodates compact design and efficient receiving coils because the receiver coil and associated electronics are integrated into the device itself. This also ensures energy transmission even if the TX and RX coils aren’t perfectly aligned or are farther away.
Capacitors play a crucial role in maintaining system resonance and efficiency. In association with the RX coil, resonant capacitors are used in the resonant tank circuit to fine-tune the resonant frequency. Further, bypass and decoupling capacitors filter out noise and smooth voltage fluctuations to stabilize the voltage supply. A variety of other capacitors perform filtering functions to keep the signal smooth too.
Ceramic capacitors are well-positioned to fill these roles because of their:
Knowles Precision Devices has a long history of testing and screening military-grade reliability specifications (MIL-SPECS) for defense and military applications, and we apply the same rigor to medical applications, including implantable medical devices. Continuing to innovate around implantable medical devices calls for a commitment to innovation in wireless charging, and we’re devoted to providing high-quality components to serve as the foundation of your design.
Reach out to Knowles Precision Devices to learn more about our top-tier capacitor solutions.