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    AN3101 Datasheets Context Search

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    pseudorandom white noise generator

    Abstract: 6 tap FIR Filter c code 4 bit LFSR white noise generator 48000Hz pink noise generator XCM 12 probability distribution function AN3101 code 4 bit LFSR
    Text: AN3101-11 Pseudorandom Numbers Application Note AN3101-12: Pseudorandom Numbers by Shultz Wang Introduction In many applications, a source of random numbers is useful for processing purposes or as inputs. A white noise or pink noise source, for example, requires such a source. Since the


    Original     		PDF AN3101-11 AN3101-12: pseudorandom white noise generator 6 tap FIR Filter c code 4 bit LFSR white noise generator 48000Hz pink noise generator XCM 12 probability distribution function AN3101 code 4 bit LFSR

    AN3101-04 Unusual Clocking

    Abstract: AN3101
    Text: AN3101-04 Unusual Clocking Application Note AN3101-04: Unusual Clocking for DSP-1KM by Chris Maple Introduction The DSP-1KM is designed to run off a 48kHz WORDCLK. In some applications a 48kHz reference frequency may not be available, but a high frequency clock 48kHz x 1024 = 49.152


    Original     		PDF AN3101-04 AN3101-04: 48kHz 48kHz AN3101-04 Unusual Clocking AN3101

    AN2868

    Abstract: rev counter Frequency Measurement rc Oscillator AN3101
    Text: AN3101 Application note STM8L15x internal RC oscillator calibration Introduction The STM8L15x microcontrollers offer the possibility of using internal RC oscillators HSI High-speed internal factory trimmed oscillator of 16 MHz, typically or LSI (Low-speed


    Original     		PDF AN3101 STM8L15x STM8L15x AN2868 rev counter Frequency Measurement rc Oscillator AN3101

    AN3101-08 Two-Phase Quadrature Oscillator

    Abstract: quadrature oscillator AN3101 AN3101-08 XCM f dc-ds SINE COSINE OSCILLATOR sine oscillator Wavefront Semiconductor
    Text: AN3101-08 Two-Phase Quadrature Oscillator Application Note AN3101-08: Two-Phase Quadrature Oscillator by Shultz Wang Introduction This application note presents an algorithm for a simple sine wave generator. The generated sine waves may be outputted as pure test signals, used as inputs for other calculations, or used


    Original     		PDF AN3101-08 AN3101-08: AN3101-08 Two-Phase Quadrature Oscillator quadrature oscillator AN3101 AN3101-08 XCM f dc-ds SINE COSINE OSCILLATOR sine oscillator Wavefront Semiconductor

    AN3101-05 Compressor and Expander

    Abstract: AN3101
    Text: AN3101-05 Compressor and Expander Application Note AN3101-05: Compressor and Expander by Shultz Wang Introduction This application note provides the algorithm for a basic compression/expansion curve. Algorithm When doing calculations with audio data, the amplitude scale used is decibels. Since decibels is


    Original     		PDF AN3101-05 AN3101-05: AN3101-05 Compressor and Expander AN3101

    ADAT

    Abstract: appnote 411
    Text: AN3101-09 S/Mux Transmitter for ADAT Protocol AppNote AN3101-09: S/Mux Transmitter for ADAT® Optical Protocol By Shultz Wang Introduction The ADAT® Optical protocol allows the transmission of eight 24-bit channels at a sample rate of 48kHz down a single connection. With the advent of 96kHz sampling rates, it became necessary


    Original     		PDF AN3101-09 AN3101-09: 24-bit 48kHz 96kHz ADAT appnote 411

    transistor k31

    Abstract: 0x409 0x401
    Text: AN3101-06 Four Channel 1-Bit D/A Application Note AN3101-06: Four Channel 1-Bit D/A by Pete Celi Introduction This paper describes an unconventional application for the DSP-1K. By directly writing to the serial output lines every 64 ticks, a 16X over-sampling 1-Bit D/A converter may be realized. The


    Original     		PDF AN3101-06 AN3101-06: 15KHz -25dB transistor k31 0x409 0x401

    AN3101

    Abstract: 0x003FFFF 0X400
    Text: We make the parts that set creative people free Application Note AN3101-03: Log and Exponent for 1KM by Chris Maple The examples shown below are for educational purposes only and are not guaranteed to work in your application. The log and exponent instructions in the 1KM are piecewise linear approximations to log base


    Original     		PDF AN3101-03: 16-to-a-power 16-entry AN3101-03-0702 AN3101 0x003FFFF 0X400

    AN3101

    Abstract: 0X0000002 0x0000200
    Text: We make the parts that set creative people free Application Note AN3101-01: 1KM as an AES/EBU transmitter By Chris Maple The AES/EBU standard describes a digital serial method of stereo audio data transmission. The physical transmission medium is a differential pair. The format provides many error checks


    Original     		PDF AN3101-01: 0x421 0x000040 0x406 0x00FF000 0xFF40000 acc-192- 0x0100000 AN3101 0X0000002 0x0000200

    STM8L

    Abstract: AN3101 16612 ADC calibration HSITRIMR
    Text: AN3101 Application note STM8L15x internal RC oscillator calibration Introduction The STM8L15x microcontrollers offer the possibility of using internal RC oscillators HSI High-speed internal factory trimmed oscillator of 16 MHz, typically or LSI (Low-speed


    Original     		PDF AN3101 STM8L15x STM8L15x STM8L AN3101 16612 ADC calibration HSITRIMR

    48KHz

    Abstract: AN3101 CH1R0 ADAT Wavefront Semiconductor
    Text: AN3101-10 S/Mux Receiver for ADAT Protocol AppNote AN3101-09: S/Mux Receiver for ADAT® Optical Protocol By Shultz Wang Introduction The ADAT® Optical protocol allows the transmission of eight 24-bit channels at a sample rate of 48kHz down a single connection. With the advent of 96kHz sampling rates, it became necessary


    Original     		PDF AN3101-10 AN3101-09: 24-bit 48kHz 96kHz AN3101 CH1R0 ADAT Wavefront Semiconductor

    AN3101

    Abstract: al3101 0x409 0X002 0x033 transistor k31 0x2000000 0x130 s1ac 0x40B
    Text: We make the parts that set creative people free Application Note AN3101-06: Four Channel 1-Bit D/A by Pete Celi This paper describes an unconventional application for the AL3101.By directly writing to the serial output lines every 64 ticks, a 16X over-sampling 1-Bit D/A converter can be realized. The


    Original     		PDF AN3101-06: AL3101 15KHz -25dB AN3101-06-0702 AN3101 0x409 0X002 0x033 transistor k31 0x2000000 0x130 s1ac 0x40B

    20 channel GRAPHIC EQUALIZER

    Abstract: AN3101 20 band equalizer alesis ALESIS SEMICONDUCTOR AN3101-07 parametric equalizer parametric equalizer analog SEMI GRAPHIC 8 channel equalizer
    Text: We make the parts that set creative people free Application Note AN3101-07: 1KM as a 20-Band 8-Channel Equalizer by Jeff Rothermel This application note describes a method to implement graphic or parametric equalization on the 1KM. The method is based on the second-order analog parametric equalizer, represented by the


    Original     		PDF AN3101-07: 20-Band AN3101-07-0702 20 channel GRAPHIC EQUALIZER AN3101 20 band equalizer alesis ALESIS SEMICONDUCTOR AN3101-07 parametric equalizer parametric equalizer analog SEMI GRAPHIC 8 channel equalizer

    AN3101

    Abstract: appnote 411
    Text: AN3101-10 S/Mux Receiver for ADAT Protocol AppNote AN3101-10: S/Mux receiver for ADAT optical protocol By Shultz Wang Introduction The ADAT optical protocol allows the transmission of eight 24-bit channels at a sample rate of 48kHz down a single connection. With the advent of 96kHz sampling rates, it became necessary


    Original     		PDF AN3101-10 AN3101-10: 24-bit 48kHz 96kHz AN3101 appnote 411

    STM8L15x

    Abstract: AN3101 crystal 3.2768 Mhz STM8l STM32F10x
    Text: AN3101 Application note STM8L15x internal RC oscillator calibration Introduction The STM8L15x microcontrollers offer the possibility of using internal RC oscillators HSI High-speed internal factory trimmed oscillator of 16 MHz, typically or LSI (Low-speed


    Original     		PDF AN3101 STM8L15x STM8L15x AN3101 crystal 3.2768 Mhz STM8l STM32F10x

    AN3101-07 20-Band 8-Channel Equalizer

    Abstract: AN3101-07 AN3101 z transform 8 channel equalizer 20 band equalizer parametric equalizer -digital FIVE band graphic equalizer manipulate
    Text: AN3101-07 20-Band 8-Channel Equalizer Application Note AN3101-07: DSP-1K as a 20-Band 8-Channel Equalizer by Jeff Rothermel Introduction This application note describes a method to implement graphic or parametric equalization on the DSP-1K. Algorithm The method is based on the second-order analog parametric equalizer, represented by the


    Original     		PDF AN3101-07 20-Band AN3101-07: AN3101-07 20-Band 8-Channel Equalizer AN3101-07 AN3101 z transform 8 channel equalizer 20 band equalizer parametric equalizer -digital FIVE band graphic equalizer manipulate

    AN3101-11 Soft Mute

    Abstract: AN3101
    Text: AN3101-11 Soft Mute Application Note AN3101-11: Soft Mute By Shultz Wang Introduction Oftentimes, when switching between different programs in the DSP-1K, it is desirable to gently mute the output in order to avoid spurious noise, and then gently unmute after the program


    Original     		PDF AN3101-11 AN3101-11: AN3101-11 Soft Mute AN3101

    16-to-a-power

    Abstract: 0x400 x0015625
    Text: AN3101-03 Logarithm and Exponent Application Note AN3101-03: Logarithm and Exponent for DSP-1K by Chris Maple Introduction The examples shown below are for educational purposes only and are not guaranteed to work in your application. For applications where a high accuracy in the logarithm and exponent functions of the DSP-1K


    Original     		PDF AN3101-03 AN3101-03: 16-to-a-power 0x400 x0015625

    EBU transmitter

    Abstract: 1df diode AN3101 IN 407
    Text: AN3101-01 AES/EBU Transmitter Application Note AN3101-01: 1KM as an AES/EBU transmitter By Chris Maple Introduction The AES/EBU standard describes a digital serial method of stereo audio data transmission, using a physical transmission medium of a differential pair. The format provides many errorchecking capabilities, including three precise preambles, transitions at every bit boundary,


    Original     		PDF AN3101-01 AN3101-01: 20-bit EBU transmitter 1df diode AN3101 IN 407

    EBU receiver

    Abstract: AES DSP application AN3101-02 0x0000040 AN3101 B Register
    Text: AN3101-02 AES/EBU Receiver Application Note AN3101-02: DSP-1K as an AES/EBU receiver by Chris Maple Introduction The AES/EBU standard describes a digital serial method of stereo audio data transmission, using a physical transmission medium of a differential pair. The format provides many errorchecking capabilities, including three precise preambles, transitions at every bit boundary,


    Original     		PDF AN3101-02 AN3101-02: 20-bit EBU receiver AES DSP application AN3101-02 0x0000040 AN3101 B Register

    STM8L051F3

    Abstract: STM32L15x STM8L051 IR 519A STM8L i2c STM8L CPU programming manual bj 950 131- 6 023-465 STM32L STM8L I2C Example
    Text: STM8L051F3 Value Line, 8-bit ultralow power MCU, 8-KB Flash, 256-byte data EEPROM, RTC, timers, USART, I2C, SPI, ADC Datasheet  production data Features • Operating conditions – Operating power supply: 1.8 V to 3.6 V Temperature range: 40 °C to 85 °C


    Original     		PDF STM8L051F3 256-byte STM8L051F3 STM32L15x STM8L051 IR 519A STM8L i2c STM8L CPU programming manual bj 950 131- 6 023-465 STM32L STM8L I2C Example

    Untitled

    Abstract: No abstract text available
    Text: STM8L151x8 STM8L152x8 STM8L151R6 STM8L152R6 8-bit ultralow power MCU, up to 64 KB Flash + 2 KB data EEPROM, RTC, LCD, timers, USARTs, I2C, SPIs, ADC, DAC, comparators Datasheet − production data Features • ■ Operating conditions – Operating power supply: 1.65 to 3.6 V


    Original     		PDF STM8L151x8 STM8L152x8 STM8L151R6 STM8L152R6

    AN3101

    Abstract: No abstract text available
    Text: STM8L151x8 STM8L152x8 STM8L151R6 STM8L152R6 8-bit ultralow power MCU, up to 64 KB Flash + 2 KB data EEPROM, RTC, LCD, timers, USARTs, I2C, SPIs, ADC, DAC, comparators Datasheet - production data Features • Operating conditions – Operating power supply: 1.65 to 3.6 V


    Original     		PDF STM8L151x8 STM8L152x8 STM8L151R6 STM8L152R6 DocID17943 AN3101

    STM8L052

    Abstract: No abstract text available
    Text: STM8L052C6 Value Line, 8-bit ultralow power MCU, 32-KB Flash, 256-byte data EEPROM, RTC, LCD, timers, USART, I2C, SPI, ADC Datasheet − production data Features • Operating conditions – Operating power supply: 1.8 V to 3.6 V – Temperature range: -40 °C to 85 °C


    Original     		PDF STM8L052C6 32-KB 256-byte STM8L052