M287497 八、新型說明: 【新型所屬之技術領域】 本創作係關於一種有線與無線平臺之檢波器結構,主要的部件包括:一個 天線部、一個發射信號與一個發射信號輸出端,其中包含··一個第一接腳,一 個第二接腳、一個第三接腳。一個檢波單元包含一個積體電路,而具有至少三 個接觸端,其中第一接腳、第二接腳、第三接腳分別與其對應的一個接觸端, 形成電性連接;藉由檢波器單元的濾波與/或檢波,消除不必要的電磁波源,使 )天線部輸出之信號,能因此得到增進整體的檢波效果。 【先前技術】 天線主要功能是將信號藉由在天線端產生感應電流,以大氣為介值呈輻射 狀傳遞’信號的強弱依在天線端產生感應電流大小而定;感應電流大小決定於 發射/接收機輸出/輸入推動功率(手機的天線端或基地台)瓦特數,其放大率一般 以分貝(db)為通用單位,然而天線在空氣中大幅度或小幅度移動與大氣摩擦產生 的靜電聚集於天線表面形成一種寬頻段干擾雜訊,一旦經收發器放大後,藉由 )天線將累積的電荷傳遞出备,如此產生新的放電路徑也是干擾源之一種。天線 基礎理論就是一種能量傳遞的媒介,而大氣是介質放大器就屬催化劑加速地將 RF轉為電的信號,在將電轉為語音等的信號,與高頻變壓器原理一致。依目前 全球無線基地台及手機收發天線端設計,皆以此能量傳遞的法則為基礎,·甚至 各式無線通訊裝置理論是相容的。相對地在真空狀態下,以上情形是不存在的, 各式天線功能都是相同的,天線大小與長短取決於所要攔截頻寬之波長,例: 900/1800/1900Mhz,但不在本案討論範圍,天線卻是傳遞電磁波之最佳途徑,·也 是傳送與接收信號必經路徑,RF傳遞與接地無關而放電現象零電位就顯得重要。 M287497 本案中濾波器採波封檢波法,關鍵在復原原始的基頻;也就是收到載波時, 檢出真正的信號,同時將真正信號以外的信號予濾除,稱之為高通濾波器,其 直流將被隔離,濾波的時間常數就顯得重要,不但阻斷了直流成分(影響射頻放 大率的非常信號),放電速度足夠慢到使其正信號,不會再載波峰值之間下降太 多,但要足夠大到追得上波封電壓下降的最快速率;下降的太慢造成失真,時 間常數太短,真正信號緊隨載波就很難檢出基頻,所以波封檢波的功能已顯現, 可惜的是依據高頻變壓器能量傳遞理論,所有經放大的信號都會釋放出去,功 率越南能篁越低,傳遞距離遠,穿透力差,易受阻播。低頻部分隨著信號放大 以後,尋求放電路徑,越接近手機的目標物,將是放電最佳路徑,由於放電的 速度與電子運動速度相同,具穿透力(足得局部細胞做細運動)簡稱電磁 波”皮封檢波遽波器,兼具檢波與渡波功能,本案中所用的波封檢波渡波器, 主要目的在於檢出基頻(不管發射或接枚)且消除電磁波;且不改變原有結構,改 以遽波模組取代傳統式直接收發。濾波模組最大的特點是,除了將正確的即信 號收發外,所有放電作㈣紐器處理^拜半導體技術進步所賜,波封檢波渡 波器臨界電壓(Vs)由〇·6降到〇·3伏特;也就是信號高於〇·3〜〇 6伏特都會被濾 除,但是收發的錢-定先經過檢波,優點是可錄發更明_錢,也就是 低雜訊同補、除電磁波;始用手_同時,不再干擾周邊精密電子裝置,如在 飛機上醫院···等(雖然法律明文規定禁令)缺點是半導體臨界電應上再Μ伏特, 最低值當接近波封的零電壓部份,幾乎百分之百調變的波封檢波,遽除程度無 法百分之百’但㈣低於鮮之下,相信在絲錢科技進步巾,將可達到百 分之百。值得-提的是現有世上未裝置波封檢麟波器之手機,若距離基地台 太近,容易造成手機當機甚至損毁電路板,就是因為不斷回售放大雜訊(包含電 M287497 磁波)之故,因此本案適用於基地台改良,還原沒有電磁波空間,只有濾波器的 規格隨著收發功率增加而加大,理由只有一個··处是無關接地,而雜訊(包含電 磁波)會影響電路正常動作就因為有極性,且會有與信號相同相位的時候。對人 體而言,就是有極性不斷地對人體快速放電,此時波封檢波濾波器就顯的重要 了;除了正常通信外,對内對外又肩負保護功能,這就是本案及立設計思考的 方向。至於檢波方面有分正相與負相檢波,本案為了消除電磁波蔡負相檢波, 以避開放大器放大後的正相電流(信號)流入濾波器,正好與發射接收原理之飛輪 )洩放功能不謀而合,也就是能消除電磁波的依據。 消除電磁波的方法不外乎有兩種:一為隔離,再則導除。是波源決定,若 波源在外者,採隔離方式;波源在内(本身會產生電磁波)者,採導除方式,稱為 斬草除根法。本案針對手機及基地台設計,當然採取導除方式,換言之,電磁 波雖呈輻射狀’游離路徑卻是單向性(由高電位往低電位釋放);也就是不像磁鐵 般需要一感應物,構成封閉迴路。本案中只要會吸附電子的導體,如人體將是 最佳放電路徑,使用者的頭部首當其衝,既堅強卻最脆弱。本案基於斬草除根 )理念,設計成濾波器模組零件方式,利於安裝於電路板上,而波源在外者在此 將不說明,特此申請專利。 第一圖為濾波器模組方塊圖,詳細說明於後·· 一、收發天線及載波 舉凡所有無線通訊裝置其信號之傳遞與攔截,頻藉著發射/接收機之天線, 而會讓天線感應信號電流者稱為載波,載波能量大小決定收發信號靈敏度,也 就是將信號以900Mhz/1800Mhz頻寬的載波(頻道channel)發送出去,此時載波 就包含信號及信號以外的雜訊等等·,約非900Mhz/1800Mhz的信號將隨著天線 M287497 也被傳送出去,只因為這些低頻信號波長較大,傳遞不遠,能量越強放電的能 力就越強。 在未安裝濾波器模組之前,發射/接收機之天線將是信號進出的管道,此時 載波就包含信號及信號以外雜訊等等的信號將隨著天線也傳送出去,沒有天線 時收發信號將障礙,因為感應電流太弱;但安裝濾波器模組之後,再將天線裝 上,此時的載波將是真正的信號。 二、RF信號放大器 > RFWg號放大器並不在濾波器模組之内,卻是信號進出的必經之地,在所有 無線通訊裝置裡,屬必要的部份,肩負天線感應信號電流,放大成為可以為處 理的信號,當然要發射的信號也是經放大以後,由天線感應傳遞出去。而即信 號放大器,不管放大的是高頻或低頻信號或雜訊,目的就是放大電流,所以他 就是電磁波源,本案就針對此來源製作一濾波器,傳遞真正的載波到天線端, 並非修改放大器,只因放大器的輸出入以金屬導線連結,稱之為天線,濾波器 就是橋樑。 )三、基頻恢復 本區塊是波封檢波的功能所在,其目的在恢復箕正信號的基頻,誰來恢復原 來的基頻,當然就是濾波器,只是功能分開來說明而已,依賴波封檢波器檢波 的功能檢出,再利用濾波器功能將非高頻部份予濾除,因此電磁波就是如此消 除的,所以在本級輸出的叫真正信號的載波。 四、濾波高頻檢波 高通濾波器本身就有隔直流功能,就在低頻區不被檢波者,不會變成雜信而 流入放大器中被放大,歷經一小段時間常數後,洩放完畢就消失,高頻檢波部 M287497 分彩負相檢波法,依據變壓器能量傳遞原理,能量傳遞結束的剎那間,產生對 等能量的反向波,一旦進入放大器放大後就是電磁波源,這就有極性,對於負 相波檢而言正好是順向抵銷,也就是使低頻部份消失,缺點是依目前半導體技 術,臨界電壓尚停留在〇·3〜0.6V之間,這還是會被放大,但無妨,一定會在低於 標準乏下,故還有改良空間,若將來有新的科技材料取代。 五、 洩放時間常數 洩放時間常數關係到波封的調變,即檢波後的信號不像載波變化那麼快,調 )變控制利用洩放時間常數,檢出最高基頻,其中與外在條件有關的是,輸入電 壓要足夠大,使得波封電壓一楚要超越臨界電壓,否則會失真,但洩放時間常 數太長,又追不是波封下降時間,基頻波就會變形,也是失真,所以濾波器的 洩放時間常數也要慎選。 六、 電池零電位 RF信號與接地無關,與金屬導體的威應電流有關,但是電磁波源這就有極 性,其零電位就是電池零電位,經由放大器的關係,因此波封檢波器的位準, )也是在此,於是消除電磁波源,波封檢波濾波器最恰當。 由此可見,上述習用物品仍有諸多缺失,實非一良善之設計者,而亟待加 以改良。 本案創作人鑑於上述習用有線與無線平臺之檢波器結構所衍生的各項缺 點,乃亟思加以改良創新,並經多年苦心孤詣潛心研究後,終於成功研發完成 本件有線與無線平臺之檢波器結構。 【新型内容】 本創作有檢波與濾波的功能,.主要在於檢測出基頻,並消除干擾之電磁波 M287497 的部件包括:一個天線部3、一個發射信號(未圖示)與一個發射信號輸出端22 , 其中發射信號(未圖示)必定經發射信號輸出端22而到達天線部32,之間的重要 結構,請參閱第四圖,包含:一個第一接腳14,第一接腳14具有兩端,其中之 一端係與電池零位面1,形成電性連接。一個第二接腳24,第二接腳24具有兩 端,其中之一端係與發射信號輸出端22,形成電性連接。一個第三接腳34 ,第 二接腳34具有兩端,其中之一端係與天線部3,形成電性連接。一個檢波器單 元4 ’檢波器單元4包含一個積體電路4〇,而具有至少三個接觸端,其中第一 丨接腳14、第二接腳24及第三接腳34分別與其他對應的一個接觸端,形成電性 連接,藉由檢波器單元4的濾波與\或檢波,消除不必要的電磁波源,使天線部 32輸出之信號,能因此得到增進整體的檢波效果。 在第四圖根據本創作一種有線與無線平臺之檢波器結構的檢波器單元4實 施例,第一接腳14的材料具導電性,第二接腳24的材料具導電性,第三接腳 34的材料具導電性。 上列詳細說明係針對本創作之一可行實施例之具體說明,惟該實施例並非 )用以限制本創作之專利範圍,凡未脫離本創作技藝精神所為之等效實施或變 更,均應包含於本案之專利範圍中。 綜上所述,本案不但在空間型態上確屬創新,並能較習用物品增進上述多 項功效,應已充分符合新穎性及進步性之法定創作專利要件,爰依法提出申請, 懇請貴局核准本件創作專利申請案,以勵創作,至感德便。 【圖式簡單說明】 圖一為濾波器模組方塊圖; 圖一為習知技藝一種有線與無線平臺之檢波器結構的實施例; η M287497 圖三為根據本創作一種有線與無線平臺之檢波器結構實施例;以及 圖四為根據本創作一種有線與無線平臺之檢波器結構的檢波器單元實施 例。 【主要元件符號說明】 L零位面 12.零位面端 14.第一接腳 ) 2·輸出端 >> 20.導線通道 22.信號輸出端 24.第二接腳 3.天線部 32.天線部端 M·第三接腳 ) 4.檢波器單元 40.積體電路 12M287497 VIII. New description: [New technical field] This creation is about a detector structure for wired and wireless platforms. The main components include: an antenna unit, a transmitting signal and a transmitting signal output, including A first pin, a second pin, and a third pin. A detecting unit comprises an integrated circuit having at least three contact ends, wherein the first pin, the second pin and the third pin respectively form an electrical connection with a corresponding one of the contact ends; by the detector unit The filtering and/or detection eliminates the unnecessary electromagnetic wave source, so that the signal output from the antenna unit can improve the overall detection effect. [Prior Art] The main function of the antenna is to generate an induced current at the antenna end and radiate in the form of the atmosphere. The strength of the signal depends on the magnitude of the induced current generated at the antenna; the magnitude of the induced current depends on the emission/ Receiver output / input push power (mobile phone antenna or base station) wattage, its magnification is generally in decibels (db) as a general unit, but the antenna in the air in large or small amplitude movement and static friction generated by atmospheric friction A wide-band interference noise is formed on the surface of the antenna. Once amplified by the transceiver, the accumulated charge is transferred out by the antenna, so that a new discharge path is also a kind of interference source. Antenna The basic theory is a medium for energy transfer, and the atmosphere is a medium amplifier that is a signal that accelerates the conversion of RF into electricity. The signal that converts electricity to speech is consistent with the principle of high-frequency transformers. According to the current global wireless base station and mobile phone transceiver antenna design, this is based on the law of energy transmission, and even the various wireless communication device theory is compatible. Relatively under vacuum, the above situation does not exist. The functions of various antennas are the same. The size and length of the antenna depend on the wavelength of the bandwidth to be intercepted. For example: 900/1800/1900Mhz, but not in the scope of this case. The antenna is the best way to transmit electromagnetic waves. It is also a necessary path for transmitting and receiving signals. It is important that the RF transmission is independent of ground and the zero potential of the discharge phenomenon. M287497 In this case, the filter adopts the wave detection method, the key is to restore the original fundamental frequency; that is, when the carrier is received, the real signal is detected, and the signal other than the real signal is filtered out, which is called a high-pass filter. The DC will be isolated, and the time constant of the filter will be important. It not only blocks the DC component (an extraordinary signal that affects the RF amplification), but also discharges slowly enough to make it positive, and will not drop too much between the peaks of the carrier. However, it should be large enough to catch up with the fastest rate of voltage drop; the delay is too slow to cause distortion, the time constant is too short, and the true signal is difficult to detect the fundamental frequency immediately following the carrier, so the function of wave seal detection has been It is unfortunate that according to the theory of high-frequency transformer energy transfer, all amplified signals will be released. The power of Vietnam can be lower, the transmission distance is far, the penetration is poor, and it is easy to be blocked. After the low frequency part is amplified with the signal, the discharge path is sought. The closer to the target of the mobile phone, the best path for the discharge. Since the speed of the discharge is the same as the speed of the electron movement, the penetration force (sufficient local cells to do fine motion) is abbreviated. "Electromagnetic wave" skin seal detection chopper, both with detection and wave function, the wave seal detection wave waver used in this case, the main purpose is to detect the fundamental frequency (regardless of transmission or pick-up) and eliminate electromagnetic waves; and do not change the original structure The chopper module replaces the traditional direct transceiving. The biggest feature of the filter module is that in addition to the correct signal transmission and reception, all the discharges are processed by the semiconductor technology, and the wave seal detection wave is provided. The threshold voltage (Vs) is reduced from 〇·6 to 〇·3 volts; that is, the signal is filtered out above 〇·3~〇6 volts, but the money sent and received is first detected, and the advantage is that it can be recorded more clearly. _ money, that is, low noise with the complement, in addition to electromagnetic waves; start with the hand _ at the same time, no longer interfere with the surrounding precision electronic devices, such as in the hospital on the plane ... (although the law expressly prohibits the ban) shortcomings are semiconductors The boundary should be re-volts, the lowest value is close to the zero-voltage part of the wave seal, almost 100% modulation of the wave seal detection, the degree of removal can not be 100% 'but (four) below the fresh, I believe in the silk money technology progress towel It will be 100%. It is worth mentioning that the mobile phone that has not installed the wave seal detector in the world is too close to the base station, which may cause the mobile phone to crash or even damage the circuit board, because it is constantly selling back the amplified noise ( Including the electric M287497 magnetic wave), this case is applicable to the base station improvement, and there is no electromagnetic wave space in the reduction. Only the specification of the filter increases with the increase of the transmission and reception power. The reason is that only one is not related to the grounding, and the noise (including Electromagnetic waves) will affect the normal operation of the circuit because of the polarity, and there will be the same phase as the signal. For the human body, it is the polarity of the body to quickly discharge, at this time the wave seal detection filter is important; In addition to normal communication, it also protects the internal and external. This is the direction of this case and the design thinking. As for the detection, there are positive and negative phases. Wave, in this case, in order to eliminate the electromagnetic wave Cai negative phase detection, to avoid the amplifier's amplified positive phase current (signal) flowing into the filter, coincides with the emission and receiving principle of the flywheel) bleed function, that is, the electromagnetic wave can be eliminated. There are two ways to eliminate electromagnetic waves: one is isolation, and then the other is guided. It is determined by the wave source. If the wave source is outside, the isolation method is adopted; if the wave source is inside (the electromagnetic wave itself will be generated), the method of removing the guide is adopted. This method is called the grass root removal method. This case is designed for mobile phones and base stations. Of course, the method of deduction is adopted. In other words, although the electromagnetic wave is radial, the free path is unidirectional (released from high potential to low potential); that is, unlike magnets. Generally, a sensor is needed to form a closed loop. In this case, as long as the conductor of the electron is adsorbed, for example, the human body will be the best discharge path, the user's head bears the brunt, which is strong but the most vulnerable. The case is based on the idea of removing the roots and is designed to be filtered. The module module part method is convenient for installation on the circuit board, and the wave source is not described here, and the patent is hereby claimed. The first picture shows the block diagram of the filter module, which is described in detail in the following. 1. Transmitting antenna and carrier. All the wireless communication devices transmit and intercept their signals. The antenna transmits the antenna through the transmitter/receiver. The signal current is called the carrier. The carrier energy determines the sensitivity of the transmission and reception signal, that is, the signal is transmitted at 900Mhz/1800Mhz carrier (channel channel). At this time, the carrier contains noises other than signals and signals. The signal of about 900Mhz/1800Mhz will also be transmitted along with the antenna M287497. Because these low-frequency signals have large wavelengths and are not far away, the stronger the energy, the stronger the ability to discharge. Before the filter module is installed, the antenna of the transmitter/receiver will be the pipe for the signal to enter and exit. At this time, the carrier will contain the signal and the signal other than the signal, and the signal will be transmitted along with the antenna. The obstacle will be because the induced current is too weak; but after installing the filter module, the antenna will be installed and the carrier at this time will be the real signal. Second, the RF signal amplifier> RFWg amplifier is not in the filter module, but it is the necessary place for the signal to enter and exit, in all wireless communication devices, is a necessary part, shoulder antenna sensing signal current, amplification becomes It can be a processed signal, of course, the signal to be transmitted is also amplified and transmitted by the antenna. That is, the signal amplifier, regardless of the amplification of high-frequency or low-frequency signals or noise, is intended to amplify the current, so he is the electromagnetic wave source. In this case, a filter is made for this source, and the true carrier is transmitted to the antenna end, not modifying the amplifier. Only because the output of the amplifier is connected by a metal wire, it is called an antenna, and the filter is a bridge. Third, the fundamental frequency recovery This block is the function of wave seal detection, its purpose is to restore the fundamental frequency of the 箕 positive signal, who will restore the original fundamental frequency, of course, is the filter, but the function is separate to explain, relying on the wave The function of detecting the wave detector detects the function, and then the filter function is used to filter out the non-high frequency portion, so the electromagnetic wave is thus eliminated, so the carrier of the true signal is output at the present stage. Fourth, the filter high-frequency detection high-pass filter itself has a DC-blocking function, it will not be detected in the low-frequency region, will not become a noise and flow into the amplifier to be amplified, after a short period of time constant, the venting will disappear, High-frequency detection part M287497 color-segment negative phase detection method, according to the principle of transformer energy transfer, the end of the energy transfer, the reverse wave of the equal energy is generated. Once the amplifier is amplified, it is the electromagnetic wave source, which has polarity, for negative In terms of phase-wave detection, it is just the offset in the forward direction, that is, the low-frequency part disappears. The disadvantage is that according to the current semiconductor technology, the threshold voltage is still between 〇·3~0.6V, which will still be amplified, but it does not matter. It will definitely be below the standard, so there is room for improvement, if there is new technology material to replace it in the future. V. The bleeder time constant bleed time constant is related to the modulation of the wave seal, that is, the signal after the detection is not as fast as the carrier change, and the variable control uses the bleed time constant to detect the highest fundamental frequency, which is external The condition is related to the input voltage should be large enough, so that the wave-blocking voltage must exceed the threshold voltage, otherwise it will be distorted, but the bleeder time constant is too long, and the chasing time is not the wave-sealing fall time, the fundamental frequency wave will be deformed. Distortion, so the filter's bleed time constant should also be carefully selected. 6. The zero-potential RF signal of the battery is independent of the grounding, and is related to the current of the metal conductor. However, the electromagnetic wave source has polarity, and its zero potential is the zero potential of the battery. Therefore, the level of the wave-blocking detector is determined by the relationship of the amplifier. ) is also here, so the electromagnetic wave source is eliminated, and the wave-sealed detection filter is most appropriate. It can be seen that there are still many shortcomings in the above-mentioned items, which is not a good designer, but needs to be improved. In view of the above-mentioned shortcomings arising from the above-mentioned detector structure of wired and wireless platforms, the creators of this case have improved and innovated, and after years of painstaking research, they finally successfully developed the detector structure of this wired and wireless platform. [New content] This creation has the function of detection and filtering. It mainly detects the fundamental frequency and eliminates the electromagnetic wave of interference. The components of M287497 include: an antenna part 3, a transmitting signal (not shown) and a transmitting signal output end. 22, wherein the transmitting signal (not shown) must pass through the transmitting signal output terminal 22 to reach the antenna portion 32, and the important structure between them, please refer to the fourth figure, comprising: a first pin 14, the first pin 14 has At both ends, one of the ends is electrically connected to the battery zero plane 1. A second pin 24 has two ends, one of which is electrically connected to the output signal output terminal 22. A third pin 34 has a second end, one of which is electrically connected to the antenna portion 3. A detector unit 4 'the detector unit 4 comprises an integrated circuit 4 〇 having at least three contact ends, wherein the first splicing pin 14 , the second pin 24 and the third pin 34 respectively correspond to the other A contact end is electrically connected, and by filtering and/or detecting the detector unit 4, an unnecessary electromagnetic wave source is eliminated, and the signal output from the antenna unit 32 can be improved to improve the overall detection effect. In the fourth embodiment, according to the embodiment of the detector unit 4 of the detector structure of the wired and wireless platform, the material of the first pin 14 is electrically conductive, the material of the second pin 24 is electrically conductive, and the third pin is The material of 34 is electrically conductive. The detailed description above is a detailed description of one of the possible embodiments of the present invention, and the embodiment is not intended to limit the scope of the patents, and the equivalent implementations or modifications that are not departing from the spirit of the present invention should include In the scope of the patent in this case. In summary, this case is not only innovative in terms of space type, but also can enhance the above-mentioned multiple functions compared with the customary items. It should fully comply with the statutory creation patent requirements of novelty and progressiveness, and apply for it according to law. This article creates a patent application, in order to create a creative, to the sense of virtue. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a block diagram of a filter module; FIG. 1 is an embodiment of a detector structure of a wired and wireless platform according to the prior art; η M287497 FIG. 3 is a detection of a wired and wireless platform according to the present invention. Embodiments of the structure; and FIG. 4 is an embodiment of a detector unit in accordance with a detector structure of a wired and wireless platform. [Main component symbol description] L zero plane 12. Zero plane end 14. First pin) 2· Output terminal >> 20. Wire channel 22. Signal output terminal 24. Second pin 3. Antenna portion 32. Antenna terminal M·third pin) 4. Detector unit 40. Integrated circuit 12