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| Rapid IO PHY in 65nm | 参考报价 | 2.295 μm^2 | 25 Hz | 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). | 概述 | |||||
| Dual-Channel 12-bit 80 MSPS ADC IP in UMC 65 nm | 参考报价 | 450.000 μm^2 | 0.8 MHz | 65 nm | |
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| ADC X is an ultra-compact and very low power analog-to-digital converter (ADC) IP. The 12-bit 80 MSPS Dual ADC includes an internal custom bandgap voltage reference. It is capable of supplying bias currents to other parallel ADCs. IP architecture is robust and can be ported to other 65 nm processes.The ADC uses fully differential pipeline architecture with custom low-disturbance digital correction technique which allows single supply bus for both digital and analog. | 概述 | |||||
| The TDM-Rx-Pro is part of proven audio interface cores featuring a configurable multi-channel audio | 参考报价 | 无资料 | 192 KHz | 65 nm | |
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| The TDM-Rx-Pro is part of proven audio interface cores featuring a configurable multi-channel audio interface designed to input serial (TDM) digital audio streams from various manufacturers. The TDM-Rx-Pro front-end also supports the well known stereo formats: Philips I2S, Left-Justified or Right-Justified. The TDM-Rx-Pro backend is supplied with a choice of AMBA®, CoreConnect™ or a flexible parallel interface. | 概述 | |||||
| WiFi Frequency Synthesizer IP In 2.4GHz Band | 100000 点 | 200.000 K μm^2 | 3.2 GHz | 55 nm | |
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| The frequency synthesizer uses a single 1.25V power supply. Good noise immunity allows this IP to be integrated in a noisy SOC environment. The synthesizer operates at 1.5X WiFi 2.4GHz band for wireless application. | 概述 | |||||
| ASRC-Pro : 24-bit -130dB THD+N Multi-Channel Audio Sample Rate Converter | 参考报价 | 无资料 | 8.192 MHz | 45 nm | |
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| The ASRC-pro is part of multi-channel Asynchronous Audio Sample Rate Converters (ASRC). This core can be used to interface digital audio equipments operating at different sample rates. It has been designed for systems requiring very high quality in terms of low harmonic distortion and noise, tolerance and rejection of input jitter. The ASRC-pro can perform common sample rate conversions with less than -130 dB of Total Harmonic Distortion plus Noise (THD+N) and has a Dynamic range of 131 dB, supporting input data processing of up to 24-bit resolution. The ASRC series are implemented to support several key industry interfaces: TDM parallel, TDM serial, Parallel, I2S, SPDIF-AES3. We offers a broad range of asynchronous sample rate converters targeted for variety of audio applications. Application: Set-top boxes, professional and hi-fi audio Home Theater Systems Automotive Audio Systems Digital Audio Effects Processors Digital Audio Broadcast Equipment | 概述 | |||||
| ASRC-Lite : 16-bit -90dB THD+N Multi-Channel Audio Sample | 参考报价 | 无资料 | 192 KHz | 45 nm | |
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| The ASRC-lite is part of multi-channel asynchronous Audio Sample Rate Converter (ASRC). This core can be used to interface digital audio equipments operating at different sample rates. It has been designed for systems that require a low-cost solution, maintaining low harmonic distortion and noise, and a high tolerance and rejection of input jitter. The ASRC-lite can perform common sample rate conversions with less than -90 dB of Total Harmonic Distortion plus Noise (THD+N) and has a Dynamic range of 92 dB, supporting input data of 16-bit resolution. The ASRC series are implemented to support several key industry interfaces: TDM parallel, TDM serial, Parallel, I2S, SPDIF-AES3. We offers a broad range of asynchronous sample rate converters targeted for variety of audio applications Application : Set-top boxes, professional and hi-fi audio Home Theater Systems Automotive Audio Systems Digital Audio Effects Processors Digital Audio Broadcast Equipment | 概述 | |||||
| Low power oscillator | 12000 点 | 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. | 概述 | |||||
| USB2.0 OTG PHY in 40 nm | 80000 点 | 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. | 概述 | |||||
| BRAINS | 50000 点 | 5.250 K Gates | 1.2 GHz | 40 nm | |
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| With improvement of technology node and IC design is geting more complex, the ratio of embedded memory in SoCs have been exceeding 50%. The fault types of memory are getting complex. The Memory BIST (Built-In Self-Test) is generated for efficient controlling IC cost. The traditional BIST method is inserted along with single memory. If there are many memories in SoCs, the area and testing time of SoCs are expanded a lot due to insertion of BIST. Therefore the SoCs' cost will increase rapidly because memory testing time is too long. We devoted in developing SRAM testing solutions for a long time. BRAINS is based on memory testing patents to reduce testing time and increase yield rate. In addition, BRAINS has many unique features to increase SoCs' reliability and stability. | 概述 | |||||
| HEART(High Efficient Accumulative Repairing Technical) | 50000 点 | 5.250 K Gates | 2.2 GHz | 40 nm | |
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| HEART can efficient repair faulty SRAM after using BRAINS. SoCs can mantain correctness of functions and avoid fatal error of system reault in SRAM's defect through SRAM's repairing technical. HEART is SRAM accumulative repairing technical, and it combines advantages of Soft-repair and Hard-repair. HEART supports internal registers of SoCs and external storages of SoCs to record SRAM's faulty information. Once SoCs have new SRAM's defect after using them for a long time, users can repeated repair SRAM's defect through HEART. In addtion, HEART also support "On-Demad" testing and repairing requirement. It means that users can enable system registers of SoCs or signal of HEART to test and repair SRAM at one when SoCs have fatal error situations. | 概述 | |||||
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