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| USB 3.0 PHY in 110nm | By Quotes | 1.000 M μm^2 | 25 MHz | 110 nm |  |
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| The IP is a high speed SERDES macro which complies with USB3.0 electrical interface specification. This macro can be easily fabricated to form multiple lanes and implemented in USB systems design, both Host and Device.The IP is supported USB3.0 Super Speed (5Gbps) protocol and data rate. | 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 | |||||
| Oscillator - RC22MHz | By Quotes | None | 22 MHz | 180 nm | |
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| The RC_OSC22M is a low power consumption internal Resistor/Capacitor oscillator with trimming operating frequency. This OSC needs input Bandgap reference voltage to maintain stable operating frequency and decrease power supply effects. The RC-oscillator cell is useful for applications that require an oscillator that utilizes non-external components and has a relaxed frequency tolerance. An enable / disable mode is provided to disable the oscillator. When the oscillator is in the disable mode, the output (CLK22M) goes to a logic level low. It is processed using SMIC’s 0.35μm logic process with an operating supply voltage range of 2.0V ~ 5.5V and a junction temperature range of -40˚ ~ 125˚C. | Introduction | |||||
| 2.4G PLL(UMC 28nm HPC) | By Quotes | 24.000 K μm^2 | 2.4 GHz | 28 nm | |
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| Clock output 2.4GHz Input clock 10 ~ 50MHz Current consumption: < 4mA Supply: 1.8V / 0.9V UMC 28nm HPC | Introduction | |||||
| ASK/OOK Transmitter (R433) | By Quotes | None | None | None | |
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| The IP is a high performance, easy to use, ASK Transmitter IP for remote wireless applications in the 300 to 450MHz frequency band. This transmitter IP is a true “data-in, antenna-out” monolithic device. R433 has three strong attributes: power delivery, operating voltage and operating temperature. In terms of power, the R433 is capable of delivering +10 dBm into a 50Ω load. This power level enables a small form factor transmitter (lossy antenna) such as a key fob transmitter to operate near the maximum limit of transmission regulations. In terms of operating voltage, the R433 operates from 1.8V to 3.6V. Application Garage Door Openers Remote Controls Home Automation Sensor Networks Security System Fan Controllers | Introduction | |||||
| 1024X8 Flash | By Quotes | None | None | None | |
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| Nor Flash can be used for code storage and data storage with general purpose MCUs and touch panel controller applications.Application in embedded system. No additional Mask required on Standard CMOS process | Introduction | |||||
| 8-Bit 7 GSPS SAR ADC | By Quotes | 300.000 K μm^2 | 7 GHz | 16 nm | |
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| This IP is compact and low power 8-bit Time interleaved SAR analog-to-digital converter silicon IP.This ADC uses fully differential SAR architecture optimized for low power and small silicon area. APPLICATIONS Serdes Receiver Coherent Transceivers Data acquisition | Introduction | |||||
| USB2.0 UTMI Device PHY(non-oscillator) | 100000 Points | 280.000 K μm^2 | 30.6 MHz | 40 nm | |
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| The USB PHY is an UTMI compatible USB2.0 device PHY IP which does not require external oscillator reference. It is comprised of both USB1.1 and USB2.0 transceivers and it is also comprised of digital logic needed to convert USB serial data to 8 or 16 bit parallel data. | Introduction | |||||
| USB2.0 OTG PHY in 40 nm | 80000 Points | 257.556 K μm^2 | 30.6 MHz | 40 nm | |
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| The IP is an UTMI+ Level 3 compatible USB2.0 OTG function transceiver IP. It is comprised of both USB1.1 and USB2.0 transceivers; itis comprised of digital logic needed to convert USB serial data to 8 or 16 bit parallel data for high speed and full speed. It is also support full speed and low speed serial mode. | Introduction | |||||
| 12-Bit 800KSPS Low Power SAR-ADC | By Quotes | None | 25 MHz | 180 nm | |
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| The SAR-ADC is a low power ADC that is implemented in Successive Approximation architecture. It can provide 12-bit resolution capability with only 3V supply voltage. It accepts an analog input range from 0 to VCC and digitizes the input at a maximum sampling frequency rate of 800KHz at 5V supply voltage. This ADC also includes MUX design to select 0 of 7 analog inputs. The power dissipation is less than 5mW with 5V power supply. This SAR-ADC is implemented in SMIC 0.18μm generic CMOS technology. | Introduction | |||||
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