KR100314291B1 - Receiver Speaker of Cellular Phone With Shielding Effect - Google Patents

Abstract

PURPOSE: A speaker of a receiving part for a cellular phone having an electromagnetic wave shield function is provided to shield an electromagnetic wave in a component stage and thus effectively cut off an electromagnetic wave generated from a speaker of a receiving part for a cellular phone. CONSTITUTION: A speaker of a receiving part for a cellular phone having an electromagnetic wave shield function includes an assembly of a metal frame(22) and a grill(21). The metal frame(22) and the grill(21) surround a magnet/coil unit. A metal material(23) such as lead or silver is soldered between the metal frame(22) and the grill(21). The metal frame(22) and the grill(21) forms a series of electric-contact relations by means of the soldered lead or silver, thereby forming a wide field-screening block. The magnet/coil unit surrounded by the metal frame(22) and the grill(21) forms a structure which is captured by the series of electric field shield blocks. When the magnet/coil which is a main source of an electromagnetic wave of the speaker is caught by the field-screening block, the electromagnetic wave suffers a drastic increase of reflection loss due to the activity of the field-screening block. Therefore, the speaker has a superior capability of shielding an electromagnetic wave.

Description

Receiver Speaker of Cellular Phone With Shielding Effect

The present invention relates to a receiver speaker of a mobile phone having an electromagnetic shielding function.

Conventionally, a receiver speaker of a mobile phone generally used is composed of a frame 12 and a grill 11 surrounding a magnet / coil unit (not shown), as shown in FIGS. 1A and 1B. In this case, the frame 12 and the grill 11 remain electrically shorted. Various methods of shielding the electromagnetic waves of the mobile phone, while the damage caused by the electromagnetic interference caused by the recent use of the mobile phone is seriously raised. Are being presented.

However, most conventional electromagnetic shielding methods are methods for blocking electromagnetic waves at the external stage of a product, and a method in which a system composed of various components in which electromagnetic waves are generated is entirely surrounded by an electromagnetic shielding material.

This conventional method is a very passive shielding method because it is a shielding method for the entire system rather than a shielding method for each component. In particular, it is important to effectively block the electromagnetic waves generated from the receiver speaker of the mobile phone because the aforementioned speaker of the mobile phone is most closely in contact with the human body.

The present invention is to provide a receiver speaker of the mobile phone that can shield the electromagnetic waves in the component stage constituting the system in order to effectively block the electromagnetic waves generated from the receiver speaker of the mobile phone.

1A and 1B illustrate a frame and a grille of a speaker of a receiver of a mobile phone according to the prior art;

2A and 2B are views illustrating a frame and a grille of a speaker of a receiver of a mobile phone having an electromagnetic shielding function according to a first embodiment of the present invention;

3 is a view showing a frame and a grille of a speaker of a receiver of a mobile phone having an electromagnetic shielding function according to a second embodiment of the present invention;

In order to achieve the above object, in the present invention, for example, by soldering lead or silver between the metal frame and the grill so that the metal frame and the grill is in electrical contact, the electromagnetic wave output from the magnet / coil unit can be shielded. In another embodiment, the present invention is coated with a series of conductive polymer film on the outer surface of the resin frame, and the synthetic resin frame and the grill so as to be in electrical contact with, for example, a 'c' shaped clip In connection with the present invention, a receiver speaker capable of shielding electromagnetic waves output from a magnet / coil unit is disclosed.

Hereinafter, with reference to the accompanying drawings, a speaker of the receiver of the mobile phone having an electromagnetic shielding function according to the present invention in more detail as follows. As shown in Figures 2a and 2b, according to an embodiment of the present invention The receiver speaker of the cellular phone having the electromagnetic shielding function is composed of a combination of a metal frame 22 and a grill 21 surrounding the magnet / coil unit. In this case, as shown in the drawing, the metal frame 22 and Between the grills 21, a metal 23 such as lead or silver is soldered. In this case, the metal frame 22 and the grille 21 form a series of electrical contact relationships through soldered lead or silver to form a wide field shielding block tied to one electric field. The magnet / coil unit enclosed by the metal frame 22 and the grille 21 has a structure similar to that captured by a series of electric shielding blocks. Thus, the magnet / coil, which is the main source of electromagnetic waves of the receiver speaker, When trapped by the field shielding blocks of the metal frame 22 and the grille 21, the electromagnetic waves output from the magnet / coil may be affected by a significant increase in the reflection loss due to the action of the field shielding block. As a result, the receiver speaker of the present invention can have excellent electromagnetic shielding ability. Hereinafter, the theoretical basis for the above-described effects of the present invention can be obtained. The return loss "will be described in detail mainly.

Usually, the electromagnetic shielding effect SE (dB) of the housing which accommodates arbitrary electromagnetic wave generation sources is defined by following <Equation 1>.

Here, K represents the ratio (WI / CI) between the wave impedance (WI) of the electromagnetic wave incident into the housing and the characteristic impedance (CI: Characteristic impedance) of the housing, and γ represents the electromagnetic wave output from the electromagnetic wave source. Represents the propagation constant, α represents the attenuation constant of the electromagnetic wave, and t represents the thickness of the housing.

In general, in Equation 1, the first term in large parentheses is called penetration loss or absorption loss (AdB), and the second term is reflection loss (RdB). The third term is called multireflection correction (BdB). That is, the electromagnetic shielding effect SE (dB) of the housing is determined by the absorption loss A _{dB of} the electromagnetic wave incident into the housing, the reflection loss R _dB of the electromagnetic wave incident into the housing, and the multiple reflection B _dB between the media interface defined by the housing. It is defined as the sum. This can be summarized as in Equation 2 below.

Considering Equation 2 above, for example, when increasing the absorption loss A _dB of the electromagnetic wave incident into a specific housing or increasing the reflection loss R _dB of the electromagnetic wave, the electromagnetic shielding effect SE (dB) of the specific housing is increased. ) Can naturally increase accordingly. Among the above-mentioned items, the return loss R _dB of the electromagnetic wave can be expressed by Equation 3 below.

Of course, in the above equation, K denotes the ratio (WI / CI) between the wave impedance WI of the electromagnetic wave incident into the housing and the characteristic impedance CI of the housing, as mentioned above. As determined by the electrical properties of the housing, for example, when the electrical conductivity of the housing is improved, the CI exhibits a characteristic that the value decreases. In contrast, when the electrical conductivity of the housing decreases, the CI is Considering Equation 3 above, if the electrical conductivity of the housing is improved, the characteristic impedance CI of the housing is reduced, thereby increasing the reflection loss of electromagnetic waves. R _dB are possible to the value proportional to K, after all, so the electromagnetic wave shielding effect of SE (dB) of the housing can be increased smoothly in accordance with the increase of R _dB For example, a layer having excellent electrical conductivity is coated on one surface of a housing surrounding an arbitrary electromagnetic wave source, thereby improving electrical conductivity of the housing, thereby reducing the characteristic impedance CI of the housing, which is proportional thereto. Therefore, the value of K increases, and in proportion to the increase of the value of K, the return loss of electromagnetic wave R _dB also increases, so that the electromagnetic shielding effect SE (dB) of the housing is R _dB . In the present invention, the lead or silver is soldered between the metal frame 22 and the grill 21, and, accordingly, the metal frame 22 and By allowing the grill 21 to form a series of electrical contacts, this in turn leads to an overall 'electrical conductivity improvement' of the metal frame 22 and the grill 21 assembly, As a result, the characteristic impedance CI of the metal frame / grill assembly surrounding the magnet / coil unit is significantly reduced compared to the conventional art. Thus, when the characteristic impedance CI of the frame 22 / grill 21 assembly according to the present invention is reduced, In proportion, the value of K increases, and in proportion to the increase of the value of K, the reflection loss R _dB of the electromagnetic wave that uses the magnet / coil unit as the output source also increases, and eventually, the frame 22 The electromagnetic shielding effect SE (dB) of the / grill 21 assembly can naturally increase with the increase of the R _dB , and as a result, the receiver speaker of the present invention can have excellent electromagnetic shielding ability.

At this time, in the present invention, the metal frame 22 is selected by selecting the material of the grill 21 described above as a material having excellent electrical conductivity, for example, a mu-metal material, a mu-ferro material, or the same metal material as the metal frame. And further improve the overall electrical conductivity of the grill 21 assembly, thereby further reducing the characteristic impedance CI of the metal frame 22 / grill 21 assembly surrounding the magnet / coil unit. (21) Maximize the electromagnetic shielding effect SE (dB) of the assembly.

On the other hand, as shown in Figure 3, the receiver speaker of the mobile phone having an electromagnetic shielding function according to another embodiment of the present invention is made of a combination of the synthetic resin frame 32 and the grill 31 surrounding the magnet / coil unit. At this time, as shown in the figure, in the present invention, in addition to coating a series of conductive polymer film 34 on the outer surface of the synthetic resin frame 32, the conductive polymer film 34 coated with the synthetic resin frame 32 and the grill ( 31) is connected to, for example, a 'c' shaped clip 33. In this case, the synthetic resin frame 32 and the grill 31 form a series of electrical contact relationships through the 'c'-shaped clip 33, thereby forming a wide field shielding block bound to one electric field. In the end, the magnet / coil unit wrapped by the synthetic resin frame 32 and the grill 31 has a structure as if captured by a series of electric field shielding blocks.

In the case of the other embodiment of the present invention, like the previous embodiment, the 'c' shaped clip 33 so that a series of electrical contact relationship can be formed between the resin frame 32 and the grill 31 Since the 'synthetic resin frame 33 / grill 32 assembly' can obtain the effect that the overall electrical conductivity is significantly improved compared to the prior art, the characteristic impedance CI is significantly reduced. As such, when the characteristic impedance CI of the frame 32 / grill 31 assembly according to another embodiment of the present invention decreases, in proportion to this, K increases in value, and this K increases. In proportion to the increase in value, the return loss R _dB of the electromagnetic wave from the magnet / coil unit as an output source also increases, so that the electromagnetic shielding effect SE (dB) of the frame / grill assembly is R _dB . It is possible to increase naturally in accordance with the increase, as a result, the receiver speaker according to another embodiment of the present invention can have excellent electromagnetic shielding ability similar to the previous embodiment.

As described above, in the present invention, by electrically connecting the grill and the frame, which are currently electrically shorted, it is possible to effectively shield the electromagnetic waves in the component units constituting the system.

Claims (5)

A receiver of a mobile phone having a metal frame and a grille enclosing a magnet / coil unit, And a lead or silver soldered between the metal frame and the grill so that the metal frame and the grill are electrically contacted to shield electromagnetic waves output from the magnet / coil unit. Claim 2 has been deleted. The receiver of claim 1, wherein the grill is made of a mu-metal or a mu-ferro material. The receiver of claim 1, wherein the grill is made of the same material as the metal frame. In the speaker of the receiver of the mobile phone having a plastic frame and grille surrounding the magnet / coil unit, Electromagnetic waves output from the magnet / coil unit by coating a series of conductive polymer films on the outer surface of the synthetic resin frame and connecting the synthetic resin frame and the grill with a 'c'-shaped clip so as to make electrical contact with the synthetic resin frame and the grill. Receiver of the mobile phone having an electromagnetic shielding function, characterized in that shielding.