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| Video and Audio develop platform | By Quotes | None | None | None |  |
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| Single Chip Solution 32-bit RISC MCU SPI/UART/I2C/GPIO Video Process Engine Video DAC/Audio DAC USB 2.0 Video Scaler DDR4 Easy Integrated Customer’s Logic Application DVR and POS DVR ATM machine surveillance Home stay monitoring Multiple channel IP camera | Introduction | |||||
| Binary FSK Demodulator | By Quotes | None | 200 MHz | None | |
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| This IP is a precision Binary-FSK Demodulator IP Core based on a non-coherent receiver design. The demodulator is fully programmable, allowing for a varied range of symbol rates and mark/space tone frequencies. Input data samples may be either complex or real for support of either passband or baseband signals. The module allows easy connectivity to an external ADC with up to 16-bit signed input samples. Applications: Short range telemetry Software radio | 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 | |||||
| High-speed FIR Filter with symmetry | By Quotes | None | 500 MHz | None | |
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| This IP is an FIR filter IP Core with symmetrical coefficients and an even or odd number of filter taps. The architecture exploits the symmetry of the coefficients using half the number of multipliers compared to a normal FIR implementation. The result is a filter with a reduced area footprint while still maintaining the capacity for high sample rates. Application High-speed filter applications where resources are limited General purpose FIR filters with symmetrical coefficients | Introduction | |||||
| IIR filter Second-Order | By Quotes | None | 150 MHz | None | |
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| This IP is a second order IIR filter sometimes referred to as a 'bi-quad'. Internally, it has a fully pipelined architecture permitting the highest possible sample rates for IIR filtering. Values are sampled on the rising clock-edge of clk when EN is high. The latency of the IIR filter between the first input sample and the first output sample is 7 clock cycles. Applicaion IIR filtering in higher sample-rate applications General purpose high-pass, band-pass and low-pass filters | Introduction | |||||
| Color-space Converter | By Quotes | None | 400 MHz | None | |
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| This IP is a fully pipelined color-space converter that converts pixels between the RGB and YCbCr color spaces. In total, the IP Core package contains two distinct modules – one module that converts from 24-bit RGB to 30-bit 4:4:4 YCbCr and the other that performs the reciprocal operation from 4:4:4 YCbCr to RGB. Application Digital video and image processing | Introduction | |||||
| ITU-R BT.656 video decoder | By Quotes | None | 300 MHz | None | |
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| DEC_BT656 is a digital video decoder with integrated colour-space converter. It's function is to extract the valid pixels from a BT.656 video stream and convert them to 24-bit RGB for subsequent processing. Pixels are extracted from the BT.656 input stream and converted to RGB888 format. Application BT.656 input video capture and processing PAL & NTSC SDTV interlaced format conversion | Introduction | |||||
| ITU-R BT.656 video encoder | By Quotes | None | 200 MHz | None | |
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| ITU-R_BT is a digital video encoder with integrated colour-space converter. The encoder accepts 24-bit RGB pixels from sequential odd and even fields. These pixels are then mapped to the YCbCr colour-space and formatted correctly into a BT output stream. The output of the encoder generates an industry standard ITU-R BT.656 format video stream together with a video_val signal that is asserted with the first valid byte of the output stream. Applications BT.656 output video generation PAL & NTSC SDTV video format conversion | Introduction | |||||
| Video Frame Buffer | By Quotes | None | 300 MHz | None | |
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| VID_FB is a high-speed multi-format video frame buffer that asynchronously samples an input video stream and buffers it in an external memory. Output pixels are read out of the buffer and synchronised to the system clock domain. The VID_FB will automatically adapt to different input and output frame rates. If the input frame rate is too high, then the VID_FB will cleanly drop or 'skip' an input frame. Likewise, if the output frame rate is higher than the input frame rate, then frames will be repeated 3 . The result is a system that seamlessly adapts to the different frame rates at the input and output of the VID_FB. Applications Buffering video frames in external memory Real-time digital video applications Genlocking of multiple video sources | Introduction | |||||
| Financial Information Security | By Quotes | None | None | None | |
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| This Platform can decrease timing for develop. Single Chip Solution 32-bit RISC MCU SPI/UART/I2C/GPIO Crypto Engine PCIE Gen2/Gen3 USB 2.0 Flash Controller DDR4 Easy Integrated Customer’s Logic Applications Security Network Financial Information Security | Introduction | |||||
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