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NS9750 - Training Hardware

NS9750 - Training Hardware. Serial Controller - UART. 4 Serial Controller Channels (A,B,C,D) External GPIO connections via TXD, RXD, RTS, CTS, DTR, DSR, DCD, RI. UART Overview. UART Hardware. Based upon NS7520 Serial Controller design with minor enhancements and bug fixes.

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NS9750 - Training Hardware

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  1. NS9750 - Training Hardware

  2. Serial Controller - UART

  3. 4 Serial Controller Channels (A,B,C,D) External GPIO connections via TXD, RXD, RTS, CTS, DTR, DSR, DCD, RI UART Overview

  4. UART Hardware • Based upon NS7520 Serial Controller design with minor enhancements and bug fixes. • Improved data capture and status reporting for Receive Buffer Closed conditions, for example. • Bit-Rate generation from internal or external clocking source, supporting baud rates from 75 to 1,843,200 (x8 mode only) • Data support via DMA or BBus Interrupt

  5. UART Hardware • Four 8-bit Character Match registers • SW/HW Initiated XON/XOFF based on Character Match for Flow Control • Flow Control Force Register • to disable transmit state machine • to transmit specified Character while TX_IDLE • Error detection: • FIFO overrun, Break, Parity or Frame Errors

  6. UART Configuration • Initialize per-channel Bit Rate Register to • Enable EBIT • Set TMODE = 1 and TCDR=RCDR (x8, x16, or x32) for asynchronous operation • Set ClkMux to select the oscillator as the source • Set N-value for desired Baud Rate (refer to Hardware Ref. Manual) • Initialize Character Gap or Buffer Gap Timers

  7. UART Configuration • Initialize Control Register A for • Channel Enable, Word Size, Stop Bits, Parity Enable, Break, RTS, DTR, Rx/Tx Interrupt or DMA Enables • Initialize Control Register B for • UART Mode, Char. Match, Enable Character or Buffer Gap Timers, RTS Flow Control • Initialize BBus Utility GPIO Config registers to enable desired UART interface pins

  8. Serial Controller SPI

  9. 4 Serial Controller Channels (A,B,C,D) External GPIO connections via TXD, RXD, SPI Enable, SPI Clk SPI Overview

  10. SPI Hardware • Based upon NS7520 Serial Controller design with minor enhancements and bug fixes. • All four SPI Clocking modes are functional as opposed to only Clk0 and Clk1 in the NS7520, for example • Bit-Rate generation from internal or external clocking source • Data support via DMA or BBus Interrupt

  11. SPI Hardware • Four 8-bit Character Match registers • Flow Control Force Register • to disable transmit state machine • to transmit specified Character while TX_IDLE • Error detection: • FIFO overrun • SPI-EEPROM Boot from SDRAM following powerup (Serial ChanA only.)

  12. SPI Master Configuration • Initialize per-channel Bit Rate Register to • Enable EBIT • Set TMODE=1 and TCDR=RCDR=0 for synchronous (x1) operation • Enable TXEXT to drive transmit clock via GPIOs • Set ClkMux to select BCLK as the source • Set SPCPOL, RXCINV, TXCINV to select the desired SPI Clock Mode (refer to Hardware Ref. Manual) • Set N-value for desired Bit Rate (refer to Hardware Ref. Manual)

  13. SPI Master Configuration • Initialize Control Register A for • Channel Enable, Word Size, Rx/Tx Interrupt or DMA Enables • Initialize Control Register B for • SPI Master Mode, SPI Enable Polarity, Bit Order, Character Match, and Character or Buffer Gap Timers Enables • Initialize Character Gap or Buffer Gap Timers • Initialize BBus Utility GPIO Config registers to enable desired SPI Master interface pins

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