T2M IP Complex Semiconductor Silicon IP Cores Company

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Showing posts with the label BLE RF Transceiver IP Cores

中国芯片设计企业获得Wi-Fi 6 (AX)/BLE/15.4 22 nm纳米组合射频 IP

June 15, 2022

全球独立的半导体 IP 核供应商和技术专业公司 T2M IP 高兴地宣布，其合作伙伴之一 ( 22ULL ) 的 Wi-Fi 6 (AX) + BLE v5.3 + 15.4 组合射频收发器 IP 核已授权给某头部中国半导体公司，配合无线数字 IP 供应商的 Wi-Fi IOT STA 提供完整的物联网 SoC 解决方案。目标市场包括物联网、智能灯、智能家居、工业应用、医疗监测、建筑自动化等。 Wi-Fi 6 (AX) + BLE v5.3 + 15.4 组合射频收发器 IP 核完全符合 Wi-Fi 联盟的 IEEE 802.11ax (Wi-Fi 6) 标准、 IEEE 802.15.4 标准和蓝牙 LE (BLE) v5.3 标准，并集成了 +20dBm 功率放大器、 Tx/Rx 2.4GHz 20/40Mhz 带宽、 PMU 和接口等功能模块。支持 WiFi 和蓝牙的系统共存，允许对流量进行管理将干扰最小化。 IP 核多规格射频通道的共存性为可穿戴设备、物流、智能家居、智能照明、传感器、家用电器等物联网应用提供了强大的无线电性能，并降低了功耗且提高了安全性能。该架构支持 WiFi 和蓝牙低功耗 (BLE) 的安全功能，包括硬件加密、安全启动、应用级安全和空中安全 (OTA) 等，可进一步增强了安全性。如要了解许可选项、可交付成果和价格的更多信息，请提出请求 T2M 广泛的无线 IP 核还包括 22ULL 的蓝牙双模 v5.3 射频收发器 IP 核、 BLE v5.2 / 15.4 (0.5mm2) 射频收发器 IP 核（ 40ULP 和 SMIC 55/40nm ）、 NB-IoT/Cat M/GNSS UE 射频收发器 IP 核 (40ULP) 、 5G 射频收发器 IP 核， GNSS L1/2/5 接收器射频 IP 核都可以根据客户要求移植到其他节点和代工厂，以及 BLE v5.3 控制器链接层 IP ， BLE 和 BT DM SW 栈和配置文件， ZigBee 3 协议栈 SW ， NB-IOT PS SW 等。可用性：这些半导体接口 IP 核可立即获得许可，既可独立使用，也可与预集成的控制器和 PHY 一起使用。如需了解更多关于许可选

T2M WiFi ax, BLE15.4 22nm RF Silicon Proven IP Core

June 13, 2022

T2M IP , the global independent semiconductor IP Cores provider & Technology expert, is pleased to announce that one of its partner’s Wi-Fi 6 (AX) + BLE v5.3 + 15.4 Combo RF Transceiver IP Core in 22ULL has been licensed to a leading Chinese Semiconductor Company coupled with Wi-Fi IOT STA from leading wireless Digital IP supplier to provide a complete IoT SoC solution. The target market includes IOT, Smart Lights, Smart home, industrial applications, medical monitoring, building automations, etc. The Wi-Fi 6 (AX) + BLE v5.3 + 15.4 Combo RF Transceiver IP Core is fully compliant with Wi-Fi Alliance IEEE 802.11ax (Wi-Fi 6) standard, IEEE 802.15.4 standard & the Bluetooth LE (BLE) v5.3 standard, integrating all functional blocks including +20dBm PA, Tx/Rx 2.4GHz 20/40MHz Bandwidth, PMU & Interfaces. The WiFi and Bluetooth operate concurrently with the system’s Co-Existence feature allowing the traffic to be managed for minimum interference. The Co-existence in the