2026-03-10
最新消息
【 📣二月份專利獲證清單資料,共6件✨ 】
| 技術領域 | 專利名稱/國別 |
發明人 |
證書號/取證日 | 摘要 |
|---|---|---|---|---|
| 半導體 | 提升元件高頻增益之電路技術/US | 許恒通,曹逸凡 |
US 12,562,761 B2/2026-02-24
|
A power amplifier includes an amplifying circuit, a feedback circuit and a grounding capacitor. The amplifier circuit includes at least a first transistor and a second transistor. A control terminal of the first transistor is configured to receive an input signal, a first terminal of the second transistor is coupled to the first transistor, and a second terminal of the second transistor is configured to generate an output signal. The feedback circuit is coupled to the control terminal of the first transistor and the second terminal of the second tran-sistor. The ground capacitor is configured to couple the control terminal of the second transistor to ground. When a frequency of the input signal is between a first band and a second band, an amplification gain of the output signal relative to the input signal is substantially the same. |
| 半導體 / 通訊 | 高速傳輸接收機及數位訊號處理單元/TW | 涂祐誠,陳巍仁,郭睿鏞 |
I915915/2026-02-21
|
本發明提出一種高速傳輸接收機,其包括類比前端電路、前饋式等化器、決策回饋等化器、雜 訊比估計電路及通道量測電路。類比前端電路將通道接收信號進行預先補償及數位化處理,前饋式 等化器進一步接收類比前端電路量化後之信號,並進行等化,而決策回饋等化器用來接收前饋式等 化器之輸出結果,以進一步消除通道後置指標的影響。通道量測電路將依據類比前端電路數位化後 之信號與決策迴授等化器的輸出信號,進行傳輸通道響應的特性擷取。訊雜比估計電路依據決策迴 授等化器的輸出與輸入的誤差,進行接收機的雜訊評估。其中通道量測電路的輸出結果將可作為傳 輸端及接收端等化器最佳化設定的依據,其中訊號對符元干擾的殘值比可作為接收端資源分配的依 據,以維持在要求的誤碼率下。 |
| 生醫 | 一種癌症處理及診斷用之胜肽組合物/TW | 李易展,林旻穎,吳駿一,呂志得 | I915036/2026-02-11 | 本發明揭露一種仿內源性切絲蛋白-1的胜肽序列,其包括穿膜胺基酸序列,用以促進細胞胜肽藥物的吸收。當切絲蛋白胜肽藥物進入細胞後,其可影響細胞遷移及侵襲能力。此外,該胜肽序列可與螯合劑綴合用於癌症診斷。 |
| 生醫/奈米醫學 | NANOCOMPOSITE PARTICLE AND USES THEREOF /US |
詹明賢,陳稷康,劉如熹,蕭宏昇
|
US 12,539,278 B2/2026-02-03 | Disclosed herein is a nanocomposite particle comprising a core-shell-shell nanoparticle, an encapsulated nanorod linked with the core-shell-shell nanoparticle, and a lipid layer encapsulating the core-shell-shell nanoparticle and the encapsulated nanorod. The core-shell nanoparticle comprises a phosphor core, an inner shell layer, an outer shell layer, and a cationic polymer. The encapsulated nanorod comprises a nanorod, and a mesoporous scaffold. According to embodiments of the present disclosure, the encapsulated nanorod is linked with the core-shell-shell nanoparticle via an electrostatic interaction between the cationic polymer and the mesoporous scaffold. Also disclosed are the uses of the nanocomposite in treating diseases, for example, cancers. |
| 半導體 | SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD THEREOF /US | 張翼,翁祐晨,高旻祿 | US 12,557,315 B2/2026-02-17 | A semiconductor device includes a substrate, a channel layer, a first barrier layer, a source/drain contact, and a gate layer. The channel layer is on the substrate. The first barrier layer is on the channel layer and the thickness of the first barrier layer is less than 6 nm. The source/drain contact is on the first barrier layer and is directly contact with the first barrier layer. The gate layer is over the first barrier layer. |
| 生醫 | 用於提高靶向細胞和組織的轉導能力和重編程效率的系統和方法/TW | 邱士華,邱光裕,簡千栩 | I914702/2026-02-11 | 本發明提供一種用於增強目標細胞或組織的基因傳遞及/或重編程效率的系統,包括組裝在一12孔培養盤中的一磁場產生裝置以及磁鐵組件以產生磁場,以及磁珠,該磁珠係用於標記目標細胞或組織或摻入瓊脂糖凝膠中。本發明還提供使用該系統的方法。 |
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