CN108736126A - Flexible conformal double frequency-band capsule antenna - Google Patents

Abstract

The invention discloses a kind of conformal double frequency-band capsule antennas of flexibility, include the Capsules being made of flexible media, the inside capsule wall is attached with metal floor, and the metal floor offers the line of rabbet joint of terminal open circuit, and the capsule outer walls are equipped with the feeder line in bending structure.The present invention compensates for the vacancy of conformal double frequency-band capsule antenna flexible, and theoretical and simulation result shows effectiveness of the invention；Antenna is small in the space that capsule occupies；Radiating aperture is big.

Description

Flexible conformal dual-band capsule antenna

technical field

The invention relates to a capsule-type implanted antenna for wireless communication inside and outside the human body, in particular to a flexible conformal dual-band capsule antenna.

Background technique

The implanted antenna applied inside the human body can transmit the monitored internal data of the human body to the body surface or outside the body in real time, which shows great application value and research significance in the field of health care. Since the volume of the implanted device is limited by the special application environment of the human body, all kinds of devices in the device are required to be miniaturized as much as possible. on the wall of the device to minimize the space it occupies. One of the typical applications of flexible antennas is the wireless capsule endoscopy system, which allows clinicians to directly observe the images of the human digestive tract. It has shown important research significance and application value in the field of diagnosis and treatment of road diseases.

Many literatures have studied conformal capsule antennas. For example, in 2010, S. Yun proposed to build a broadband loop antenna on the outer wall of the capsule; in 2015, Y.X. Guo’s team proposed a broadband dipole structure built on the inner wall of the capsule; until recently, In 2017, D.Nikolayev et al. proposed a miniaturized capsule antenna with a capsule diameter of 7mm, in which the capsule wall thickness is 0.5mm. In this paper, the ladder impedance resonance technology was used to resonate the antenna design at 434MHz, and then the antenna was attached in a conformal form. On the inner wall of the capsule to achieve miniaturization. However, the above-mentioned antennas are all single-band resonant capsule antennas. In addition, broadband antennas have also been researched by scholars. For example, in 2015, Rula S. Alrawashdeh et al. proposed an ultra-wideband conformal capsule antenna, introducing a complementary split-ring resonant structure, and the working frequency band covers the MedRadio frequency band and multiple ISM frequency bands.

However, no flexible conformal dual-band capsule antenna has been reported yet.

Contents of the invention

Purpose of the invention: The present invention provides a flexible conformal dual-band capsule antenna, which makes up for the vacancy of the flexible conformal dual-band capsule antenna.

Technical solution: The flexible conformal dual-band capsule antenna of the present invention includes a hollow capsule made of a flexible medium, a metal floor is attached to the inner wall of the capsule, and a slot line with an open end is provided on the metal floor, and the outer wall of the capsule is provided with There is a feeder with a bent structure.

In order to make the antenna occupy very little space inside the capsule, a flexible dielectric substrate is used as the capsule wall and antenna dielectric base.

Wherein, the capsule is cylindrical, and based on the consideration that the working environment of the capsule is inside the human body, combined with the size of the existing capsule endoscope, the diameter of the capsule is 9-12mm, preferably 10mm or 11mm.

Combined with the special environment of the capsule, when the flexible medium is processed into a cylindrical shape as the capsule wall, the metal floor is attached to the surface of the flexible medium and is in direct contact with the air medium; the feeder is located on the outer wall of the flexible medium and is in direct contact with human tissue, and the energy is coupled into the tank through the feeder Lines form radiation.

Wherein, the groove line is in the shape of "q". The antenna energy is mainly radiated from the slot line slot.

The feeder is bent to extend the length of the feeder in a limited area to extend the current path, thereby achieving the miniaturization effect of the antenna.

Wherein, the end of the feeder is provided with a metal short-circuit nail connecting the feeder and the metal floor. The position of the metal shorting stud is located on the edge of the slot line to enhance energy coupling, so as to obtain better impedance matching and achieve broadband performance.

The flexible medium is a biocompatible medium, preferably one or more of polyimide, polyamide, polytetrafluoroethylene and polyether ether ketone, and its dielectric constant ε _r is 3-3.3, preferably 3.15 ; The thickness is 0.1-0.14mm, preferably 0.12mm.

Wherein, the feeder adopts a microstrip feeder, and the port impedance of the microstrip feeder is 47-53Ω, preferably 50Ω. The energy is coupled into the ground slot line through the microstrip feeder line, and the length of the microstrip feeder line and the length of the "q"-shaped slot line with an open end jointly determine the resonant frequency point of the antenna.

Beneficial effects: 1. The present invention makes up for the vacancy of the flexible conformal dual-band capsule antenna, and both theoretical and simulation results show the effectiveness of the present invention; 2. The space occupied by the antenna inside the capsule is small; 3. The radiation aperture is large; 4. , It can meet the special needs of the capsule antenna according to the capsule environment; 5. Bending the microstrip coupling feed, and introducing short-circuit nails to enhance energy coupling to achieve better impedance matching; The feeders together determine the resonant frequency.

Description of drawings

Fig. 1 is a structural representation and a simulation environment diagram of the present invention;

Fig. 2 is a schematic diagram of a tiling structure of the present invention;

Fig. 3 is the floor schematic diagram of loading "q" shaped groove line of the present invention;

Fig. 4 is an S-parameter simulation diagram of the present invention.

Detailed ways

Referring to Fig. 1, Fig. 2 and Fig. 3, the flexible conformal dual-band capsule antenna according to an embodiment of the present invention includes a hollow capsule 1 made of a flexible medium, a metal floor 2 is attached to the inner wall of the capsule 1, and the metal floor 2 is provided with a The end of the groove line 3 is open, and the outer wall of the capsule 1 is provided with a feeder 4 in a bent structure, and the end of the feeder 4 is provided with a metal shorting nail 5 connecting the feeder 4 and the metal floor 2 .

The capsule 1 is in the shape of a cylinder with a diameter of 10mm, and the feeder 4 is a microstrip feeder with a port impedance of 50Ω.

It is suitable for the human body environment, combined with the special structure of the capsule 1, a flexible medium with a dielectric constant ε _r of 3.15 and a thickness of 0.12mm is used as the capsule wall to form a cylindrical structure.

The metal floor 2 is built on the inner wall of the capsule 1, and is in direct contact with the air medium 6 inside the capsule 1; the metal floor 2 is provided with a "q"-shaped groove line 3, and the width of each part of the groove line 3 is the same, and the end is open.

The microstrip feeder is built on the outer wall of the capsule 1 and adopts a bent structure. The microstrip feeder is in direct contact with the external human tissue 7 of the capsule 1 .

The metal shorting nail 5 is located at the end of the microstrip feeder, connecting the microstrip feeder and the metal floor 2, and the metal shorting nail 5 is placed close to the edge of the "q"-shaped groove line 3.

The working principle of the present invention is as follows:

Figure 4 shows the simulated S-parameter diagram of the antenna. The antenna of the invention has good dual-band performance, the MedRadio frequency band bandwidth reaches 16.1%, and the frequency band covers 0.366 to 0.430 GHz; the ISM frequency band bandwidth reaches 47%, and the frequency band covers 0.756 to 1.22 GHz.

During the simulation process, the capsule 1 surrounded by the flexible medium has a diameter of 10 mm, which is consistent with the size of the existing capsule 1 endoscope; the human tissue 7 is set with the dielectric coefficient and conductivity of skin tissue, and the parameters change continuously with the frequency; the human tissue 7 The size is set to 180mm×180mm×60mm (length×width×height) to simulate the human chest; the length of the slot line 3 and the microstrip feeder determines the resonant frequency point of the antenna; decisive role.

Claims (9)

1. A flexible conformal dual-band capsule antenna, characterized in that: comprising a hollow capsule (1) made of flexible medium, the capsule (1) inner wall is attached with a metal floor (2), the metal floor (2) A groove line (3) with an open end is provided, and a feeder line (4) in a bent structure is provided on the outer wall of the capsule (1). 2. The flexible conformal dual-band capsule antenna according to claim 1, characterized in that: the end of the feeder (4) is provided with a metal shorting nail (5) connecting the feeder (4) and the metal floor (2). 3. The flexible conformal dual-band capsule antenna according to claim 1, characterized in that: the capsule (1) is cylindrical. 4. The flexible conformal dual-band capsule antenna according to claim 1, characterized in that: the diameter of the capsule (1) is 9-12mm. 5. The flexible conformal dual-band capsule antenna according to claim 1, wherein the flexible medium is a biocompatible medium. 6. The flexible conformal dual-band capsule antenna according to claim 5, characterized in that: the dielectric constant ε _r of the flexible medium is 3-3.3, and the thickness is 0.1-0.14mm. 7. The flexible conformal dual-band capsule antenna according to claim 1, characterized in that: the slot line (3) is in the shape of a "q". 8. The flexible conformal dual-band capsule antenna according to claim 1 or 2, characterized in that: the feeder (4) is a microstrip feeder. 9. The flexible conformal dual-band capsule antenna according to claim 8, wherein the impedance of the microstrip feeder port is 47-53Ω.