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| USB 3.1 GEN1 DUAL-ROLE CONTROLLER | By Quotes | None | 30 MHz | None |  |
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| This is an USB 3.1 Gen1 dual-role controller, which is compliant to USB 2.0/USB 3.1 Gen1 specifications. The controller can act as a standard host or peripheral for easy system implementation. The role can be selected via static pin selection. | 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 | |||||
| Bluetooth 5.2 Dual | By Quotes | None | None | 22 nm | |
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| This bluebooth is of the lowest power consumption. | Introduction | |||||
| Bluetooth 5.2 | By Quotes | None | None | 22 nm | |
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| It's ultra-low-power RF transceiver IP and is designed to meet 2.4 GHz standards. | Introduction | |||||
| Power Controller | By Quotes | 0.165 μm^2 | None | 90 nm | |
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| It is a configurable core that is configured for each specific SoC, delivering all the necessary auxiliary supply, monitoring and protection. | Introduction | |||||
| RC Oscillator | By Quotes | 0.970 μm^2 | 10.2 Hz | 3 nm | |
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| The digitally controlled RC oscillators optimized for ultra low power applications. Application: • Hand held devices • Wireless Power devices • Battery powered stand-by devices | Introduction | |||||
| Rapid IO PHY in 65nm | By Quotes | 2.295 μm^2 | 25 MHz | 65 nm | |
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| The IP is designed for chips that perform high bandwidth data communication while operating at low power consumption. It can also be used in any serial interface where timing and electrical specification can be satisfied. This IP has four individual Transmitter (TX) and Receiver (RX) channels, and one common phase lock loop (PLL). | Introduction | |||||
| Clock divider by 3 | 100 Points | 52.000 Gates | 370 MHz | 130 nm | |
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| There are 2 types of circuits in digital logic world. One is combinational, and the other is sequential. The difference between them is that the latter one has storage (memory) while the former one does not. Thus, in contrast to combinational circuits, whose output depends only on the current values of its inputs, the output of sequential circuits depends not only on the current values of its inputs but also on the past values of them. Based on the characteristic of sequential circuits, we can build counters. In addition, we can further build clock dividers with the counters we designed | Introduction | |||||
| Low power oscillator | 12000 Points | 100.100 μm^2 | 32 KHz | 40 nm | |
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| OSC32K is designed for 40nm advance process with 1.2v to 3.3v wide power(VDD) range. | Introduction | |||||
| PLL 800M UMC 28 nm logic and Mixed-Mode HPC process | By Quotes | 230.000 μm^2 | 800 MHz | 28 nm | |
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| It is a 28-nm low-power spread spectrum clock generator that supports an operating frequency ranging from 400 MHz to 800 MHz and from 200 MHz to 400 MHz. This SSCG is programmable to perform the frequency synthesis and spread-spectrum function for the Electro Magnetic Interference (EMI) reduction in various ASIC designs. | Introduction | |||||
| μIP | Price | Logic Gate Count | Clock Rate | Technology | Ratings | |
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