M369598 八、新型說明: 【新型所屬之技術領域】 本新型涉及無線通訊領域,尤其涉及一種支 '援多頻段共存之無線通訊裝置。 •【先前技術】 隨著無線通訊技術的發展,帶有無線通訊功 能之裝置往往需要工作於複數不同頻段,如同時 具有無線區域網(Wireless Local Area Network, _ WLAN ) 與微波存取全球互通 (Worldwide Interoperability for Microwave Access , ' WiMAX )功能之電腦。隨著多天線技術的發展, ' 此類無線通訊裝置往往工作於多個頻段且包括 複數天線,因此需要包括複數訊號傳輸路徑。 然,如何實現此類無線通訊裝置的複數訊號傳輸 路徑共存一直是一個難題。 φ 【新型内容】 有鑒於此,需提供一種無線通訊裝置,可實 現複數訊號傳輸路徑共存。 一種無線通訊裝置,包括收發模組、天線模 組及開關模組。收發模組包括第一收發子模組與 第二收發子模組。天線模組包括至少一第一天 線。開關模組用於切換該天線模組與該收發模組 之間訊號收發之不同路徑,其包括第一切換開 關、第二切換開關、第三切換開關、第四切換開 8 M369598 關及第一雙工器。第一切換開關包括第一擲位、 第二掷位與第三掷位,其中第一掷位與第二掷位 分別連接於至第一收發子模組。第二切換開關包 -括第一掷位、第二掷位與第三掷位,其中第一掷 .位與第二擲位分別連接於至第二收發子模組。第 三切換開關包括第一掷位、第二掷位與第三掷 位,其中第一擲位與第二擲位分別連接於第一切 換開關之第三擲位與第二切換開關之第三擲 馨位。第四切換開關包括第一掷位、第二掷位與第 三擲位,其中第一擲位與第二擲位分別連接至第 二收發子模組。第一雙工器用於分隔公共端接收 * 的不同頻段的訊號,其第一端與第二端分別連接 於第三切換開關之第三擲位與該第四切換開關 之第三擲位,其公共端連接於第一天線。 因本創作的無線通訊裝置係透過開關模組 Φ中多個切換開關與雙工器的組合對天線模組與 收發模組之間訊號收發之不同路徑進行切換,實 現在無線通訊裝置中複數訊號傳輸路徑之共存。 【實施方式】 參閱圖1,所示為本新型無線通訊裝置一實 施方式之電路圖。在本實施方式中,無線通訊裝 置可為同時支援無線區域網(W i r e 1 e s s L 〇 c a 1 Area Network, WLAN) 與微波存取全球互通 (Worldwide Interoperability for Microwave 9 M369598M369598 VIII. New Description: [New Technology Field] This new type relates to the field of wireless communication, especially to a wireless communication device that supports multiple frequency bands. • [Prior Art] With the development of wireless communication technology, devices with wireless communication functions often need to work in multiple frequency bands, such as wireless local area network ( WLAN) and global access to microwave access ( Worldwide Interoperability for Microwave Access, 'WiMAX' feature computer. With the development of multi-antenna technology, 'such wireless communication devices often work in multiple frequency bands and include multiple antennas, so it is necessary to include a complex signal transmission path. However, how to achieve the coexistence of complex signal transmission paths of such wireless communication devices has been a problem. φ [New content] In view of this, it is necessary to provide a wireless communication device for coexistence of complex signal transmission paths. A wireless communication device includes a transceiver module, an antenna module, and a switch module. The transceiver module includes a first transceiver module and a second transceiver module. The antenna module includes at least one first antenna. The switch module is configured to switch different paths of signal transmission and reception between the antenna module and the transceiver module, and includes a first switch, a second switch, a third switch, and a fourth switch switch 8 M369598 and the first Diplexer. The first switch includes a first throw position, a second throw position and a third throw position, wherein the first throw position and the second throw position are respectively connected to the first transceiver submodule. The second switching switch includes a first throwing position, a second throwing position and a third throwing position, wherein the first throwing position and the second throwing position are respectively connected to the second transmitting and receiving submodule. The third switch includes a first throw position, a second throw position and a third throw position, wherein the first throw position and the second throw position are respectively connected to the third throw position of the first switch and the third switch switch Throw a bit of love. The fourth switch includes a first throw position, a second throw position and a third throw position, wherein the first throw position and the second throw position are respectively connected to the second transceiver submodule. The first duplexer is configured to separate signals of different frequency bands of the receiving end* of the common end, and the first end and the second end are respectively connected to the third throwing position of the third switching switch and the third throwing position of the fourth switching switch, respectively. The common end is connected to the first antenna. Because the wireless communication device of the present invention switches the different paths of signal transmission and reception between the antenna module and the transceiver module through the combination of multiple switch switches and duplexers in the switch module Φ, the complex signal is realized in the wireless communication device. Coexistence of transmission paths. [Embodiment] Referring to Figure 1, there is shown a circuit diagram of an embodiment of a novel wireless communication device. In this embodiment, the wireless communication device can simultaneously support the wireless area network (W i r e 1 e s s L 〇 c a 1 Area Network (WLAN) and the global interoperability for Microwave 9 M369598
Access, WiMAX)無線通訊之網卡、手機等, 也可以為同時支援藍芽(Bluetooth,BT)與超寬 頻(Ultra Wideband,UWB)無線通訊之網卡、 * 手機等。其中 WLAN與 BT之工作頻段可為 .2.4GHz,WiMAX 之工作頻段可為 2.3GHz 至 2.5GHz及3.5GHz,UWB之工作頻段可為3.1GHz 至 4.8GHz。在其它實施方式中,無線通訊裝置 亦可為同時支援其它頻段通訊之裝置。 •無線通訊裝置包括收發模組 10、開關模組 2 0及天線模組3 0。 收發模組1 0包括第一收發子模組1 2與第二 收發子模組 14。在本實施方式中,第一收發子 模組12可為支援WLAN無線通訊之單輸入單輸 出(S i n g 1 e I n p u t S i n g 1 e 0 u t p lx t, SISO)晶片, 其包括輸入端 121、輸出端 122、第一控制端 _ 123、第二控制端 124、第三控制端 125及第四 控制端 126。第二收發子模組 14 可為支援 WiMAX 無線通訊之多輸入多輸出 (Multiple Input Multiple Output » ΜΙΜΟ)晶片,其包括 第一輸入端141、第一輸出端142、第一控制端 143、第二控制端144、第二輸入端145、第二輸 出端1 4 6、第三控制端1 4 7及第四控制端1 4 8。 在其他實施方式中,收發模組1 0之第一收發子 模組1 2與第二收發子模組14亦可包括同時支援 10 M369598 BT與UWB之間通訊之晶片。 天線模組3 0包括至少一第一天線3 2。在本 實施方式中,第一天線32可同時工作於WLAN ,與Wi Μ ΑΧ共存的雙頻段,即2.4 GHz附近頻段 .與3.5 GHZ附近頻段。在另一實施方式中,第一 天線32可同時工作於WLAN與Wi MAX分時的 單頻段,即2.3-2.5 GHz,其包括2.4 GHz附近頻 段。在又一實施方式中,第一天線32可同時工 B作於BT與UWB共存的雙頻段,即 2.4GHz與 3.1-4.8GHZ。 開關模組20用於切換收發模組10與天線模 組3 〇之間m號收發之路徑,其包括第一切換開 關21、第二切換開關22、第三切換開關23、第 四切換開關24、第一雙工器25。在本實施例中, 第三切換開關23與第四切換開關24均為單刀雙 >擲開關。 第一切換開關21包括第一擲位212、第二 擲位2 1 3、第三擲位211、第一控制端214及第 二控制端215。第二切換開關2 2包括第一擲位 2 2 2、第二擲位2 2 3、第三擲位2 2 1、第一控制端 224及第二控制端225。第三切換開關23包括第 一擲位2 3 2、第二擲位2 3 3、第三擲位2 31、第 一控制端2 3 4及第二控制端2 3 5。第四切換開關 包括第一擲位 242、第二擲位 243、第三擲位 11 M369598 241、第一控制端244及第二控制端245。 實施方式中,第三切換開關23之第三擲位 與第四切換開關24之第三擲位241為單刀 •開關之公共端。 . 第一切換開關2 1連接於第一收發子模丨 與第三切換開關2 3之間。在本實施方式中 一切換開關2 1之第三擲位211連接於第三 開關23之第一擲位232,第一切換開關21 鲁一擲位2 1 2與第二擲位2 1 3分別連接於該第 發子模組12之輸入端121與輸出端122。 切換開關 21之第一控制端 214與第二控 '2 15分別連接於第一收發子模組1 2之第一 端123與第二控制端124,用於接收第一收 模組1 2所發出之第一控制訊號,以選擇接 一切換開關21之第三擲位211與第一擲位 ^ 或第二擲位21 3。 在本實施方式中,第一控制訊號包括第 發子模組1 2之第一控制端1 23所發送之高 與第二控制端1 2 4所發送之低電平,或包括 控制端 1 2 3所發送之低電平與第二控制端 所發送之高電平。在本實施方式中,若第一 訊號包括第一收發子模組12之第一控制端 所發送之高電平與第二控制端 124所發送 電平,則第一切換開關21之第三擲位211 在本 23 1 雙擲 !且12 ,第 切換 之第 一收 第一 制端 控制 發子 通第 212 一收 電平 第一 124 控制 123 之低 與其 12 M369598 第一擲位21 2接通;若第一控制訊號包括第 發子模組1 2之第一控制端1 23所發送之低 與第二控制端1 24所發送之高電平,則第一 •開關2 1之第三擲位2 11與其第二擲位2 1 3去 • 第二切換開關22連接於第二收發子模 與第三切換開關23之間。在本實施方式中 二切換開關2 2之第三擲位2 21連接於第三 開關23之第二擲位233,第二切換開關22 ® —擲位222與第二擲位223分別連接於該第 發子模組 14之第一輸入端 141與第一輸 14 2。第二切換開關22之第一控制端224與 ' 控制端225分別連接於第二收發子模組14 一控制端143與第二控制端144,用於接收 收發子模組1 4所發出之第三控制訊號,以 接通第二切換開關2 2之第三擲位2 21與第 p位222或第二擲位223。 在本實施方式中,第三控制訊號包括第 發子模組1 4之第一控制端1 4 3所發送之高 與第二控制端1 44所發送之低電平,或包括 控制端 1 4 3所發送之低電平與第二控制端 所發送之高電平。在本實施方式中,若第三 訊號包括第二收發子模組14之第一控制端 所發送之高電平與第二控制端 1 4 4所發送 電平,則第二切換開關2 2之第三擲位2 21 一收 電平 切換 !·通。 組1 4 ,第 切換 之第 二收 出端 第二 之第 第二 選擇 一擲 二收 電平 第一 144 控制 143 之低 與其 13 M369598 第一擲位222接通;若第三控制訊號包括第二收 發子模組1 4之第一控制端1 4 3所發送之低電平 與第二控制端14 4所發送之高電平,則第二切換 開關22之第三擲位221與其第二擲位223接通。 第三切換開關2 3之第三擲位2 3 1連接於第 一雙工器25之第一端252。第三切換開關23之 第一控制端234與第二控制端235分別連接於第 一收發子模組12之第三控制端125與第四控制 端1 26,用於接收第一收發子模組1 2所發出之 第二控制訊號,以選擇接通第三切換開關2 3之 第三擲位231與第一擲位232或第二擲位233。 在本實施方式中,第二控制訊號包括第一收 發子模組1 2之第三控制端1 25所發送之高電平 與第四控制端126所發送之低電平,或包括第三 控制端 125所發送之低電平與第四控制端 126 所發送之高電平。在本實施方式中,若第二控制 訊號包括第一收發子模組12之第三控制端125 所發送之高電平與第四控制端 1 2 6所發送之低 電平,則第三切換開關2 3之第三擲位2 31與其 第一擲位23 2接通;若第二控制訊號包括第一收 發子模組1 2之第三控制端1 25所發送之低電平 與第四控制端126所發送之高電平,則第三切換 開關2 3之第三擲位2 3 1與其第二擲位2 3 3接通。 第四切換開關24之第三擲位241連接於第 14 M369598 一雙工器25之第二端253,其第一擲 第二擲位243分別連接於第二收發子才; 第二輸入端145與第二輸出端146。第 ,關24之第一控制端244與第二控制端 .連接於第二收發子模組14之第三控制 第四控制端 14 8,用於接收第二收發」 所發出之第四控制訊號,以選擇接通第 關24之第三擲位241與第一擲位242 ® 位 24 3。 在本實施方式中,第四控制訊號包 ' 發子模組1 4之第三控制端1 4 7所發送 ' 與第四控制端148所發送之低電平,或 控制端 1 4 7所發送之低電平與第四控 所發送之高電平。在本實施方式中,若 訊號包括第二收發子模組14之第三控 I所發送之高電平與第四控制端 14 7所 電平,則第四切換開關24之第三擲位 第一擲位242接通;若第四控制訊號包 發子模組1 4之第三控制端1 4 7所發送 與第四控制端14 8所發送之高電平,則 開關24之第三擲位24 1與其第二擲位 第一雙工器25之公共端25 1連接 線32,用於分隔接收到的不同頻段的 其中,當第一天線 32 工作於 位242與 寞組14之 四切換開 245分別 端147與 F模組 14 四切換開 或第二擲 括第二收 之高電平 包括第三 制端 148 第四控制 :制端 146 發送之低 241與其 括第二收 之低電平 第四切換 243接通。 於第一天 訊號。 WLAN 與 15 M369598Access, WiMAX) wireless communication network card, mobile phone, etc., can also support Bluetooth (BT) and Ultra Wideband (UWB) wireless communication network card, * mobile phone. The working frequency band of WLAN and BT can be .2.4GHz, the working frequency band of WiMAX can be 2.3GHz to 2.5GHz and 3.5GHz, and the working frequency band of UWB can be 3.1GHz to 4.8GHz. In other embodiments, the wireless communication device can also be a device that simultaneously supports communication in other frequency bands. • The wireless communication device includes a transceiver module 10, a switch module 20, and an antenna module 30. The transceiver module 10 includes a first transceiver sub-module 12 and a second transceiver sub-module 14. In this embodiment, the first transceiver sub-module 12 can be a single-input single-output (S ing 1 e I nput S ing 1 e utp lx t, SISO) chip that supports WLAN wireless communication, and includes an input terminal 121, The output terminal 122, the first control terminal _123, the second control terminal 124, the third control terminal 125 and the fourth control terminal 126. The second transceiver module 14 can be a multiple input multiple output (MIMO) chip supporting WiMAX wireless communication, and includes a first input terminal 141, a first output terminal 142, a first control terminal 143, and a second The control terminal 144, the second input terminal 145, the second output terminal 146, the third control terminal 147, and the fourth control terminal 148. In other embodiments, the first transceiver module 12 and the second transceiver module 14 of the transceiver module 10 may also include a chip that simultaneously supports communication between the 10 M369598 BT and the UWB. The antenna module 30 includes at least one first antenna 32. In this embodiment, the first antenna 32 can work simultaneously on the WLAN, and the dual frequency band coexisting with Wi Μ , that is, the frequency band near 2.4 GHz and the frequency band near 3.5 GHz. In another embodiment, the first antenna 32 can operate simultaneously in a single frequency band of WLAN and WiMAX time division, i.e., 2.3-2.5 GHz, which includes a frequency band in the vicinity of 2.4 GHz. In still another embodiment, the first antenna 32 can be simultaneously operated in a dual band in which BT and UWB coexist, that is, 2.4 GHz and 3.1-4.8 GHz. The switch module 20 is configured to switch the path of the m-transceiver between the transceiver module 10 and the antenna module 3, and includes a first switch 21, a second switch 22, a third switch 23, and a fourth switch 24. The first duplexer 25. In this embodiment, the third changeover switch 23 and the fourth changeover switch 24 are both single pole double > throw switch. The first changeover switch 21 includes a first throw position 212, a second throw position 2 1 3, a third throw position 211, a first control end 214, and a second control end 215. The second changeover switch 2 2 includes a first throw position 2 2 2, a second throw position 2 2 3, a third throw position 2 2 1 , a first control end 224, and a second control end 225. The third changeover switch 23 includes a first throw position 2 3 2, a second throw position 2 3 3, a third throw position 2 31, a first control terminal 2 3 4 and a second control terminal 2 3 5 . The fourth changeover switch includes a first throwing position 242, a second throwing position 243, a third throwing position 11 M369598 241, a first control end 244, and a second control end 245. In the embodiment, the third throw position of the third changeover switch 23 and the third throw position 241 of the fourth changeover switch 24 are common ends of the single pole switch. The first changeover switch 2 1 is connected between the first transceiver submodule and the third changeover switch 23. In the present embodiment, the third throwing position 211 of the changeover switch 2 1 is connected to the first throwing position 232 of the third switch 23, and the first changeover switch 21 is connected to the second throwing position 2 1 2 and the second throwing position 2 1 3 respectively. The input end 121 and the output end 122 of the first sub-module 12 are provided. The first control end 214 and the second control end 214 are respectively connected to the first end 123 and the second control end 124 of the first transceiver submodule 12 for receiving the first receiving module 1 2 The first control signal is sent to select the third throw position 211 of the changeover switch 21 and the first throw position or the second throw position 21 3 . In this embodiment, the first control signal includes a high level sent by the first control end 1 23 of the first sending submodule 12 and a low level sent by the second control end 1 24, or includes a control end 1 2 The low level sent by 3 and the high level sent by the second control terminal. In this embodiment, if the first signal includes the high level sent by the first control end of the first transceiver module 12 and the level sent by the second control terminal 124, the third switch of the first switch 21 Bit 211 is in this 23 1 double throw! And 12, the first switch of the first switch is controlled by the first pass control, the first pass control level 124 is lower than the 12 M369598 first throw position 21 2 If the first control signal includes the low level sent by the first control terminal 1 23 of the first transmitting sub-module 12 and the high level sent by the second control terminal 12, the third switch of the first switch 2 1 Bit 2 11 and its second throw position 2 1 3 • The second changeover switch 22 is connected between the second transceiver submodule and the third changeover switch 23. In the present embodiment, the third throwing position 2 21 of the two changeover switch 2 2 is connected to the second throwing position 233 of the third switch 23, and the second changeover switch 22 ® - the throwing position 222 and the second throwing position 223 are respectively connected to the The first input end 141 of the first sub-module 14 is coupled to the first input 14 2 . The first control terminal 224 and the control terminal 225 of the second switch 22 are respectively connected to the second transceiver module 14 and the control terminal 143 and the second control terminal 144 for receiving the first transmission and reception sub-module 14 The third control signal is used to turn on the third throw bit 2 21 of the second changeover switch 2 2 and the p-th bit 222 or the second throw position 223. In this embodiment, the third control signal includes a high level sent by the first control end 1 4 3 of the first sending sub-module 14 and a low level sent by the second control end 1 44, or includes a control end 14 The low level sent by 3 and the high level sent by the second control terminal. In this embodiment, if the third signal includes the high level sent by the first control end of the second transceiver submodule 14 and the level sent by the second control end 14 4, the second switch 2 2 The third throw position 2 21 is a level switch! Group 1 4, the second of the second switching ends of the second selection, the second selection, the throwing level, the first level 144, the lower of the control 143, and the 13 M369598 first throwing position 222; if the third control signal includes the second The low level sent by the first control terminal 144 of the transceiver module 14 and the high level sent by the second control terminal 14 4, the third throw 221 of the second switch 22 and the second throw Bit 223 is turned on. The third throw bit 2 3 1 of the third changeover switch 23 is coupled to the first end 252 of the first duplexer 25. The first control terminal 234 and the second control terminal 235 of the third switch 23 are respectively connected to the third control terminal 125 and the fourth control terminal 126 of the first transceiver module 12 for receiving the first transceiver module. The second control signal is sent to the third switching position 231 of the third switching switch 23 and the first throwing position 232 or the second throwing position 233. In this embodiment, the second control signal includes a high level sent by the third control terminal 125 of the first transceiver module 12 and a low level sent by the fourth control terminal 126, or includes a third control. The low level sent by terminal 125 and the high level sent by fourth control terminal 126. In this embodiment, if the second control signal includes a high level sent by the third control terminal 125 of the first transceiver module 12 and a low level sent by the fourth control terminal 1 26, the third switch The third throwing position 2 31 of the switch 2 3 is turned on with the first throwing position 23 2 ; if the second control signal includes the low level and the fourth sent by the third control terminal 158 of the first transceiver submodule 1 2 The high level sent by the control terminal 126 is such that the third throw position 2 3 1 of the third changeover switch 2 3 is turned on with the second throw position 2 3 3 . The third throwing position 241 of the fourth changeover switch 24 is connected to the second end 253 of the 14th M369598 duplexer 25, and the first throwing second throwing position 243 is respectively connected to the second transceiver; the second input end 145 And a second output 146. The first control terminal 244 and the second control terminal of the second switch 24 are connected to the third control fourth control terminal 14 8 of the second transceiver submodule 14 for receiving the fourth control signal sent by the second transceiver. To select the third throw position 241 of the second switch 24 and the first throw position 242 ® position 24 3 . In this embodiment, the fourth control signal packet 'transmitted by the third control terminal 148 of the sub-module 14 4' and the low level sent by the fourth control terminal 148, or sent by the control terminal 147 The low level and the high level sent by the fourth control. In this embodiment, if the signal includes the level sent by the third control I of the second transceiver module 14 and the level of the fourth control terminal 14 7 , the third switch of the fourth switch 24 The throwing position 242 is turned on; if the third control terminal of the fourth control signal packet transmitting module 14 transmits the high level sent by the fourth control terminal 14 8 , the third throw of the switch 24 Bit 24 1 and its second throwing first duplexer 25 have a common terminal 25 1 connecting line 32 for separating the received different frequency bands, when the first antenna 32 operates at the position 242 and the 寞 group 14 Switching on 245 respectively 147 and F module 14 is switched on or the second throwing is second. The high level includes the third terminal 148. The fourth control: the terminal 146 sends the low 241 and the second is low. The level fourth switch 243 is turned on. On the first day of the signal. WLAN with 15 M369598
WiMAX共存的雙頻段,即 2.4GHz附近頻段與 3.5 GHZ附近頻段時,第一雙工器 25的第一端 252與第二端252分別輸入/輸出2.4 GHz附近頻 •段與3.5 G Η Z附近頻段。當第一天線3 2工作於 • WLAN與WiMAX分時的單頻段,即2.3-2.5GHZ 附近頻段,其包括2.4GHz附近頻段時,第一雙 工器 25的第一端252輸入/輸出 2.3-2.5GHz附 近頻段,其包括2.4GHz附近頻段。當第一天線 春32工作於BT與UWB共存的雙頻段,即2.4GHz 附近頻段與3.1-4.8 GHz附近頻段時,第一雙工 器25的第一端252與第二端253分別輸入/輸出 • 2.4GHz附近頻段與3.1-4.8GHz附近頻段。在其 它實施方式中,第一雙工器25亦可用於分隔其 它頻段的訊號。 圖 2為本新型之無線通訊裝置另一實施方 _式之電路圖。本實施例中無線通訊裝置與圖 1 中無線通訊裝置相似,差別僅在於:天線模組 30進一步包括第二天線34,第一收發子模組12 進一步包括第五控制端127與第六控制端128, 開關模組20進一步包括第五切換開關26。 第五切換開關2 6包括第一擲位2 6 2、第二 擲位263、公共端261、第一控制端264及第二 控制端265。第五切換開關26之公共端261連 接於第一雙工器25之公共端25 1,第五切換開 16 M369598 關2 6之第一擲位2 6 2與第二擲位2 6 3分別連接 於第一天線32與第二天線34。第五切換開關26 之第一控制端264與第二控制端265分別連接於 •第一收發子模組12之第五控制端1 2 7與第六控 -制端12 8,用於接收第一收發子模組12所發出 之第五控制訊號,以選擇接通第五切換開關 2 6 之公共端261與第一擲位262或第二擲位263。 在本實施方式中,第五控制訊號包括第一收 ®發子模組1 2之第五控制端1 27所發送之高電平 與第六控制端128所發送之低電平,或包括第五 控制端 127所發送之低電平與第六控制端 128 ' 所發送之高電平。在本實施方式中,若第五控制 訊號包括第一收發子模組1 2之第五控制端1 2 7 所發送之高電平與第六控制端 1 2 8所發送之低 電平,則第五切換開關2 6之公共端2 6 1與其第 φ —擲位2 6 2接通;若第五控制訊號包括第一收發 子模組1 2之第五控制端1 2 7所發送之低電平與 第六控制端1 2 8所發送之高電平,則第五切換開 關26之公共端261與其第二擲位263接通。 圖 3為本新型之無線通訊裝置又一實施方 式之電路圖。本實施例中無線通訊裝置與圖 1 中無線通訊裝置相似,差別僅在於:天線模組 3 0進一步包括第二天線3 4,開關模組2 0進一步 包括第二雙工器27,且第三切換開關23、與第四 17 M369598 切換開關24'均為雙刀雙擲開關,且分別包括第 四擲位2 3 6、與第四擲位2 4 6、。 在本實施方式中,第二天線3 4的工作頻段 •與第一天線3 2的工作頻段相同。 • 第二雙工器27之公共端271連接於第二天 線 34,用於分隔接收到的不同頻段的訊號。在 本實施方式中,第二雙工器27對訊號的處理及 輸入/輸出與第一雙工器25相同。 > 第三切換開關2 3、之第一擲位2 3 2、與第二擲 位2 3 3'的連接關係同圖1中第三切換開關2 3之 第一擲位232與第二擲位233的連接關係相同, 其第三擲位23 1、與第四擲位236、分別連接於第 一雙工器25之第一端25 2及第二雙工器27之第 一端 272。 在本實施例中,若第一收發子模組1 2發送 >之第二控制訊號包括第三控制端 1 2 5發送的高 電平與第四控制端1 2 6發送之低電平,則第三切 換開關 23、之第三擲位 231、與第一擲位 232、接 通,同時其第四擲位236、與第二擲位233、接通; 若第一收發子模組1 2發送之第二控制訊號包括 第三控制端1 25發送的低電平與第四控制端1 2 6 發送之高電平,則第三切換開關2 3、之第三擲位 231、與第二擲位232、接通,同時其第四擲位236、 與第一擲位2 3 2、接通。 18 M369598 第四切換開關24、之第一擲位242、與第二擲 位243、的連接關係同圖1中第四切換開關24之 第一擲位242與第二擲位243,其第三擲位241、 •與第四擲位246、分別連接於第一雙工器25之第 • 二端253及第二雙工器27之第二端273。 在本實施例中,若第二收發子模組14發送 之第四控制訊號包括第三控制端 1 4 7發送的高 電平與第四控制端148發送之低電平,則第四切 >換開關 24、之第三擲位 241、與第一擲位 242、接 通,同時其第四擲位246、與第二擲位243、接通; 若第二收發子模組1 4發送之第四控制訊號包括 第三控制端127發送的低電平與第四控制端128 發送之高電平,則第四切換開關24、之第三擲位 241、與第二擲位242、接通,同時其第四擲位246、 與第一擲位242'接通。 > 應當注意的是,本創作並不僅限於圖1 - 3所 呈現之特定佈局方式,熟悉本案技藝之人士,依 本案發明精神可作適當修飾或變化。需要說明的 是,一般情況下,若單刀雙擲開關或雙刀雙擲開 關之兩個控制端同時接收高電平或同時接收低 電平,則單刀雙擲開關或雙刀雙擲開關處於不導 通狀態。例如,第二切換開關2 2之第一控制端 2 24與第二控制端225同時從第二收發子模組14 接收高電平訊號或低電平訊號,則第二切換開關 19 M369598 22處於不導通狀態。 綜上所述,本創作符合新型專利要件,爰依 法提出專利申請。惟,以上所述僅為本創作之較 *佳實施例,舉凡熟悉本案技藝之人士,在爰依本 .創作精神所作之等效修飾或變化,皆應涵蓋於以 下之申請專利範圍内。 【圖式簡單說明】 圖 1為本新型之無線通訊裝置一實施方式 >之電路圖; 圖 2為本新型之無線通訊裝置另一實施方 式之電路圖;及 圖 3為本新型之無線通訊裝置又一實施方 式之電路圖。 【主要元件符號說明】 收 發 模 組 10 第 一 收 發 子 模 組 12 第 一 收 發 子 模 組 之 輸 入 端 121 第 一 收 發 子 模 組 之 輸 出 端 122 第 一 收 發 子 模 組 之 第 一 控 制 端 123 第 — 收 發 子 模 組 之 第 二 控 制 端 124 第 一 收 發 子 模 組 之 第 二 控 制 端 125 第 一 收 發 子 模 組 之 第 四 控 制 端 126 第 收 發 子 模 組 之 第 五 控 制 端 127 第 _ 一 收 發 子 模 組 之 第 六 控 制 端 128 20 M369598When the WiMAX coexists in the dual frequency band, that is, the frequency band near 2.4 GHz and the frequency band near 3.5 GHz, the first end 252 and the second end 252 of the first duplexer 25 respectively input/output near the frequency band of 2.4 GHz and near 3.5 G Η Z Frequency band. When the first antenna 3 2 operates in a single frequency band of WLAN and WiMAX time division, that is, a frequency band near 2.3-2.5 GHz, which includes a frequency band near 2.4 GHz, the first terminal 252 of the first duplexer 25 inputs/outputs 2.3. A band near -2.5 GHz, which includes a frequency band near 2.4 GHz. When the first antenna spring 32 operates in a dual frequency band in which BT and UWB coexist, that is, a frequency band near 2.4 GHz and a frequency band near 3.1-4.8 GHz, the first end 252 and the second end 253 of the first duplexer 25 are respectively input / Output • Bands around 2.4GHz and bands around 3.1-4.8GHz. In other embodiments, the first duplexer 25 can also be used to separate signals from other frequency bands. 2 is a circuit diagram of another embodiment of the wireless communication device of the present invention. The wireless communication device in this embodiment is similar to the wireless communication device in FIG. 1 except that the antenna module 30 further includes a second antenna 34. The first transceiver module 12 further includes a fifth control terminal 127 and a sixth control. End 128, switch module 20 further includes a fifth switch 26. The fifth changeover switch 26 includes a first throw position 2 6 2, a second throw position 263, a common end 261, a first control end 264, and a second control end 265. The common terminal 261 of the fifth switch 26 is connected to the common terminal 25 of the first duplexer 25, and the fifth switch-off 16 M369598 is connected to the first throw bit 2 6 2 and the second throw bit 2 6 3 respectively. The first antenna 32 and the second antenna 34 are provided. The first control terminal 264 and the second control terminal 265 of the fifth switch 26 are respectively connected to the fifth control terminal 1 27 and the sixth control terminal 12 of the first transceiver module 12 for receiving the first The fifth control signal sent by the transceiver module 12 is selected to turn on the common terminal 261 of the fifth switch 206 and the first throw 262 or the second throw 263. In this embodiment, the fifth control signal includes a high level sent by the fifth control terminal 127 of the first transceiver module 12 and a low level sent by the sixth control terminal 128, or includes the first The low level sent by the fifth control terminal 127 and the high level sent by the sixth control terminal 128'. In this embodiment, if the fifth control signal includes the high level sent by the fifth control terminal 1 2 7 of the first transceiver module 12 and the low level sent by the sixth control terminal 128, then The common terminal 2 6 1 of the fifth switch 2 6 is turned on with its φ-throw bit 2 6 2; if the fifth control signal includes the low sent by the fifth control terminal 1 2 7 of the first transceiver module 1 2 The level and the high level sent by the sixth control terminal 128, the common terminal 261 of the fifth switching switch 26 is turned on with its second throwing position 263. Fig. 3 is a circuit diagram showing still another embodiment of the wireless communication device of the present invention. The wireless communication device in this embodiment is similar to the wireless communication device in FIG. 1 except that the antenna module 30 further includes a second antenna 34, and the switch module 20 further includes a second duplexer 27, and The three switch 23 and the fourth 17 M369598 switch 24' are double-pole double-throw switches, and respectively include a fourth throw 2 3 6 and a fourth throw 2 4 6 . In the present embodiment, the operating frequency band of the second antenna 34 is the same as the operating frequency band of the first antenna 32. • The common terminal 271 of the second duplexer 27 is connected to the second antenna 34 for separating signals received in different frequency bands. In the present embodiment, the processing and input/output of the signal by the second duplexer 27 are the same as those of the first duplexer 25. > The third switching switch 2 3, the first throwing position 2 3 2, the connection relationship with the second throwing position 2 3 3' is the same as the first throwing position 232 and the second throwing of the third switching switch 23 in FIG. The connection relationship of the bits 233 is the same, and the third throw position 23 1 and the fourth throw position 236 are respectively connected to the first end 25 2 of the first duplexer 25 and the first end 272 of the second duplexer 27 . In this embodiment, if the second control signal sent by the first transceiver sub-module 12 includes a high level sent by the third control terminal 1 2 5 and a low level sent by the fourth control terminal 1 26, Then, the third switch 23, the third throw 231, and the first throw 232 are turned on, and the fourth throw 236 and the second throw 233 are turned on; if the first transceiver module 1 is The second control signal sent by the second control terminal includes a low level sent by the third control terminal 125 and a high level sent by the fourth control terminal 1 2 6 , and then the third switch switch 2 3 , the third throw position 231 , and the third The second throw bit 232 is turned on, while its fourth throw bit 236 is turned on with the first throw bit 2 3 . 18 M369598 The fourth switching switch 24, the first throwing position 242, and the second throwing position 243, the first switching position 242 and the second throwing position 243 of the fourth switching switch 24 in FIG. The throwing position 241, and the fourth throwing position 246 are respectively connected to the second end 253 of the first duplexer 25 and the second end 273 of the second duplexer 27. In this embodiment, if the fourth control signal sent by the second transceiver sub-module 14 includes the high level sent by the third control terminal 147 and the low level sent by the fourth control terminal 148, the fourth slice > Change switch 24, third throw position 241, and first throw position 242, turn on, while its fourth throw position 246, and second throw position 243, turn on; if the second transceiver sub-module 1 4 sends The fourth control signal includes a low level sent by the third control terminal 127 and a high level sent by the fourth control terminal 128, and the fourth switching switch 24, the third throwing position 241, and the second throwing position 242 are connected. At the same time, its fourth throw position 246 is connected to the first throw position 242'. > It should be noted that the present invention is not limited to the particular layout shown in Figures 1-3, and those skilled in the art can make appropriate modifications or variations in accordance with the spirit of the invention. It should be noted that, in general, if the two control terminals of the single-pole double-throw switch or the double-pole double-throw switch simultaneously receive a high level or receive a low level at the same time, the single-pole double-throw switch or the double-pole double-throw switch is not On state. For example, the first control terminal 2 24 of the second switch 2 and the second control terminal 225 receive a high level signal or a low level signal from the second transceiver submodule 14 at the same time, and the second switch 19 M369598 22 is Non-conducting state. In summary, the creation complies with the new patent requirements and submits a patent application in accordance with the law. However, the above is only a better example of the present invention. Those who are familiar with the skill of the present invention should be included in the scope of the patent application below. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a circuit diagram of an embodiment of a wireless communication device of the present invention; FIG. 2 is a circuit diagram of another embodiment of a wireless communication device of the present invention; and FIG. 3 is a schematic diagram of a wireless communication device of the present invention; A circuit diagram of an embodiment. [Description of main component symbols] The transceiver module 10 The first transceiver module 12 The input end of the first transceiver module 121 The output end of the first transceiver module 122 The first control terminal 123 of the first transceiver module - the second control terminal 124 of the transceiver module, the second control terminal 125 of the first transceiver module, the fourth control terminal 126 of the first transceiver module, the fifth control terminal 127 of the transceiver module, the first transceiver The sixth control terminal of the sub-module 128 20 M369598
第 二 收 發 子 模 組 14 第 二 收 發 子 模 組 之 第 一 輸 入 端 141 第 二 收 發 子 模 組 之 第 一 輸 出 端 142 第 二 收 發 子 模 組 之 第 一 控 制 端 143 第 二 收 發 子 模 組 之 第 二 控 制 端 144 第 二 收 發 子 模 組 之 第 二 箱1| 入 端 145 第 二 收 發 子 模 組 之 第 二 輸 出 端 146 第 二 收 發 子 模 組 之 第 二 控 制 端 147 第 二 收 發 子 模 組 之 第 四 控 制 端 148 開 關 模 組 20 第 — 切 換 開 關 21 第 - 切 換 開 關 之 第 三 擲 位 211 第 一 切 換 開 關 之 第 一 擲 位 212 第 - 切 換 開 關 之 第 二 擲 位 213 第 一 切 換 開 關 之 第 一 控 制 端 214 第 — 切 換 開 關 之 第 二 控 制 端 215 第 二 切 換 開 關 22 第 二 切 換 開 關 之 第 二 擲 位 221 第 二 切 換 開 關 之 第 一 擲 位 222 第 二 切 換 開 關 之 第 二 擲 位 223 第 二 切 換 開 關 之 第 '— 控 制 端 224 第 二 切 換 開 關 之 第 二 控 制 端 225 第 二 切 換 開 關 23、23' 第 警一一 切 換 開 關 之 第 二 擲 位 231、231v 21 M369598 第三切換開關之第一 第三切換開關之第二 第三切換開關之第一 第三切換開關之第二 第三切換開關之第四 第四切換開關 第四切換開關之第一 第四切換開關之第二 第四切換開關之第一 第四切換開關之第二 第四切換開關之第三 第四切換開關之第四 第一雙工器 第一雙工器之公共端 第一雙工器之第一端 第一雙工器之第二端 第五切換開關 第五切換開關之公共 第五切換開關之第一 第五切換開關之第二 第五切換開關之第一 第五切換開關之第二 第二雙工器 第二雙工器之公共端 擲 位 232、232' 擲 位 233 ' 233' 控 制 端 234、234~ 控 制 端 235 ' 235v 擲 位 236^ 24、24' 擲 位 242 ' 242v 擲 位 243、243v 控 制 端 244 ' 244v 控 制 端 245、245~ 擲 位 241 > 241' 擲 位 246v 25 25 1 252 253 26 端 261 擲 位 262 擲 位 263 控 制 端 264 控 制 端 265 27 271 22 M369598 第 二雙 工 器 之第- -端 272 第 二雙 工 器 之第二 二端 273 天 線模 組 30 第 一天 線 32 第 二天 線 34The second input and output sub-module 14 is the first input end 141 of the second transceiver sub-module, the first output end 142 of the second transceiver sub-module, the first control end 143 of the second transceiver sub-module, the second transceiver sub-module The second control terminal 144, the second transceiver 1 of the second transceiver module, the second terminal 146 of the second transceiver module, the second control terminal 147 of the second transceiver module, and the second transceiver module The fourth control terminal 148, the switch module 20, the first switch, the first switch, the first switch 212, the first switch 212, the second switch, the second switch 213, the first switch The first control terminal 214 - the second control terminal 215 of the switch, the second switch 22, the second switch 221 of the second switch 221, the first throw position of the second switch 222, the second throw of the second switch 223, the second switching switch, the second switching switch 23, 23', the second switching switch 23, 23', the second switching position of the alarm switch 231, 231v 21 M369598, the third switching switch The second third switch of the first and third switch switches, the fourth switch of the third switch, the fourth switch of the fourth switch, and the second switch of the fourth switch of the fourth switch The fourth fourth switch of the fourth switch of the fourth switch, the fourth switch of the third switch of the fourth switch, the first end of the first duplexer of the first duplexer, the first end of the first duplexer The second end of the duplexer, the fifth switch, the fifth switch, the fifth switch of the fifth switch, the second switch of the fifth switch, the second switch of the first switch of the fifth switch Common second throw of the second duplexer 232, 232' throw position 233 '233' control end 234, 234~ control end 235 ' 235v throw 236 ^ 24, 24' throw 242 ' 242v Bits 243, 243v Console 244 '244v Console 245, 245~ Throw 241 > 241' Throw 246v 25 25 1 252 253 26 End 261 Throw 262 Throw 263 Control 264 Control 265 27 271 22 M369598 The second end of the second duplexer 272 the second duplex end of the second duplexer 273 the antenna module 30 the first antenna 32 the second antenna 34
23twenty three