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| Ultra-High Accuracy Bandgap Reference in 130 nm (VBRS1000NT130) | By Quotes | None | None | 130 nm |  |
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| ACCUREF™ Bandgap Reference (Silicon-proven 40 nm, low-power, low-noise, ultra-precise single-digit mV accuracy, no external components required) ACCUREF™ Voltage and Current References: This series of low-power, low-noise IP cores generates a precise, adjustable reference voltage with single-digit millivolt (mV) accuracy over a wide temperature range without external components. With their unique design that improves upon current products by allowing the systems to operate with ultra-low levels of power consumption without sacrificing accuracy or noise performance, our family of ACCUREF™ voltage and current reference IP cores support a broad range of industry applications with improved efficiency and remarkable area savings overall. | Introduction | |||||
| Ultra-low Power Voltage Reference in 40 nm (VVR060LT040) | By Quotes | None | None | 40 nm | |
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| Voltage Reference for Integrated PMU (Silicon-proven 40 nm, low-power for IoT with quiescent current of <0.9 μA) This series of fully-integrated low power voltage references generates a 0.6 V output voltage and supports an input from 2.8 to 4.2 V. They operate at an ultra-low quiescent current of < 0.9 μA. These voltage references are silicon-proven in a 40 nm process and are a part of our 40 nm integrated power management unit (PMU) IP core series that has been optimized for integration into Application Specific Integrated Circuits (ASICs) or Systems-on-a-Chip (SoCs), including radio frequency (RF), wireless, and narrowband Internet of Things (NB-IoT) applications. | Introduction | |||||
| 10/100/1000 Gigabit Ethernet Transceiver | By Quotes | None | None | None | |
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| The MIPG PHY is part of the A family of devices - which includes the MIPG PHY-031, MIPG PHY-033, and the MIPG PHY. It is A company’ 4th generation, single port 10/100/1000 Mbps Tri-speed Ethernet PHY. It supports RGMII interface to the MAC.™ The MIPG PHY provides a low power, low BOM (Bill of Materials) cost solution for comprehensive applications including consumer, enterprise, carrier and home networks such as PC, HDTV, Gaming machines, Blue-ray players, IPTV STB, Mdia Players, IP Cameras, NAS, Printers, Digital Photo Frames, MoCA/Homeplug (Powerline)/EoC/ adapters and Home Router & Gateways, etc. | Introduction | |||||
| MIPI M-PHY Gear 4 IP in TSMC 12nm FFC | By Quotes | None | 11 GHz | 12 nm | |
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| MIPI M-PHY Gear 4 IP is compliant with the latest MIPI. Alliance M-PHY v4.1 Specification, UniPro v1.8 Specification, and Universal Flash Storage (UFS) v3.0 Specification. A serial interface technology with high bandwidth capabilities and supports HS Gear4 rates up to 11.6Gbps, which is particularly developed for mobile applications to obtain low pin count combined with very good power efficiency. The MIPI M-PHY Gear 4 IP compliant to the RMMI interface which allows UniPro controller and UFS Controller. | Introduction | |||||
| MIPI M-PHY Gear 4 IP in TSMC 28nm HPC+ | By Quotes | None | 11 GHz | 28 nm | |
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| MIPI M-PHY Gear 4 IP is compliant with the latest MIPI. Alliance M-PHY v4.1 Specification, UniPro v1.8 Specification, and Universal Flash Storage (UFS) v3.0 Specification. A serial interface technology with high bandwidth capabilities and supports HS Gear4 rates up to 11.6Gbps, which is particularly developed for mobile applications to obtain low pin count combined with very good power efficiency. The MIPI M-PHY Gear 4 IP compliant to the RMMI interface which allows UniPro controller and UFS Controller. | Introduction | |||||
| PCI Express Gen4 PHY IP in TSMC 12nm FFC | By Quotes | None | 25 MHz | 12 nm | |
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| The Peripheral Component Interconnect Express (PCIe) x4 PHY is compliant with PCIe 4.0 Base Specification with support of PIPE v4.4 inter- face spec. Lower power consumption is achieved due to support of addition- al PLL control, reference clock control, and embedded power gating control. Also, since aforementioned low power mode setting is configurable, the PHY is widely applicable for various scenarios under different consideration of power consumption. | Introduction | |||||
| PCI Express Gen4 PHY IP in 28nm HPC+ | By Quotes | None | 25 MHz | 28 nm | |
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| The Peripheral Component Interconnect Express (PCIe) x4 PHY is compliant with PCIe 4.0 Base Specification with support of PIPE v4.4 inter- face spec. Lower power consumption is achieved due to support of addition- al PLL control, reference clock control, and embedded power gating control. Also, since aforementioned low power mode setting is configurable, the PHY is widely applicable for various scenarios under different consideration of power consumption. | Introduction | |||||
| DSP-BASED ETHERNET TRANSCEIVER in UMC 28nm HPC+ | By Quotes | None | 25 MHz | 28 nm | |
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| A 28nm DPS-based Gigabit Ethernet transceiver. Highly intergrated 1000BASE-T, 100BASE-TX, 100BASE-FX and 10BASE-Te. Fully compliant with 100BASE-FX IEEE 802.2u standard | Introduction | |||||
| USB 3.2 G EN 1 OTG T RANSCEIVER | By Quotes | None | 12 MHz | 28 nm | |
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| MIP300HJ0C │ MIP300NSHJ0C_SB are USB transceivers that provide a complete range of the host and peripheral functions. They are fully compliant with the USB 3.1 Gen1 and USB 2.0 OTG specifications. In the SuperSpeed mode, this transceiver is capable of transmitting or receiving data at 5.0 Gbps. When operating in the High-Speed mode, this transceiver is capable of transmitting or receiving data at 480 Mbps. | Introduction | |||||
| MIPI PHY | By Quotes | None | None | None | |
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| This product offers complete debug facilities to validate Application processors with MIPI interfaces, MIPI Cameras and MIPI displays. | Introduction | |||||
| μIP | Price | Logic Gate Count | Clock Rate | Technology | Ratings | |
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