;======================================================================= ;======================================================================= ; SERIAL PERIPHERAL INTERFACE (SPI) VIRTUAL PERIPHERALS ; SPIM (Authentic SPI Master) Virtual Peripheral Demo Program ; Revision 1.02, 07.21.98 ; Developed by Authentic Engineering for Scenix Semiconductor, Inc. ; Authentic Engineering // http://www.authenticeng.com // ak@silcom.com ;======================================================================= ; ; ; ; Authentic SPIM (SPI Master) Virtual Peripheral ; ; SPIM is a part of the Authetic SPI virtual peripherals for SX micro. ; This VP provides simple and efficient way to send/get one word of ; data to/from SPI compatible Slave device. ; ; SPIM Clock rate can be selected starting from 1.72 MHz (max). ; Corresponding minimum clock period is 580 ns. Clock period can be ; incremented with 160 nsec increment. It is possible to achive faster ; data transfer rates sacrifising the rate programmability. Maximum ; clock rate of 2.5MHz can be achived by removing part of the program, ; responsible for programmable clock rate. Minimum clock rate is ; prctically unlimited, however, for clock rates lower than 500KHz ; we recommend to use Authentic SPIML (low rate SPI Master VP). ; ; Word length can be set to anywhere from 1 to 16 bits. Longer word ; lengths could be easily implemented if needed. ; ; Clock polarity is configurable by using the appropriate command byte. ; ; Four I/O signal lines are associated with any SPI communication: ; ; Master-Out-Slave-In MOSI signal line ; Master-In-Slave_Out MISO signal line ; Serial Clock SCLK signal line ; Slave Select SS signal line ; ; SPIM does not make any diffenece between read and write cycles. ; The data is clocked in and out simultaneously. ; ; If necessary, user may want to add more sophistication to the data ; transfer by adding Read/Write and handshaking signals. All that ; can be easily implemented without affecting the core SPIM program. ; ; SPIM controlls MOSI; MISO; SCLK lines. User program must provide ; appropriate control for SS lines. ; ; Arbitrary pins of the SX-28/SX-18 can be assigned for SPIM. ; ; To initialize SPIM user must: disable the interrupts; initilize ; SX I/O ports (calling SPIM_INIT); place the outgoing data into ; the I/O buffer, set SS signal and call SPIM_EXECUTE. Since SPIM ; is not using any interrupts, it will transfer the data and return ; control to user program. ; ; The two-byte (16 bits) send/receive buffer is allocated in ; memory as SPIM_LSB and SPIM_MSB. Data are shifted starting ; from the most significant bit. ; In case of less than 16-bit long data word, the SPIM will ; automatically align the MSBit of the word to the MSBit of ; the buffer before shifting. No user intervention is required. ; The contents of SPIM_LSB and SPIM_MSB are not preserved ; during the driver operation since the bits are always shifted in. ; ; -- SPIM control, status and I/O DATA registers -- ; ; SPIM_RATE. This byte defines the clock rate. When set to 1 it ; defines maximum clock rate of 1.72 MHz (580 nsec period). ; The actual clock period can be calculated as 420 nsec plus ; 160 nsec, multiplied by the SPIM_RATE. SPIM_RATE equal to ; zero will define maximun clock period of 41.380 usec. ; ; SPIM_PORT must be defined by user to point to the SX Port ; - A,B or C, which will generate SPI Clock signal. ; For instance: spim_port = rb. ; ; SPIM_PORTA_MASK, SPIM_PORTB_MASK, SPIM_PORTC_MASK. These ; bytes are the images of SX I/O ports direction registers. ; They are written to corresponding ports direction registers ; during the initialisation of SPIM. ; ; SPIM_CLK_MASK defines the SPI Clock pin. The pin is defined by ; setting corresponding bit of SPIM_CLK_MASK. ; For instance: ; spim_portc_mask = $fd ; spim_port = rc ; spim_clk_mask = $02 ; will define rc.1 as SPI Clock pin. ; ; SPIM_CMD - command and configuration byte. This byte defines: ; - SPI Clock polarity ; - direction (Read/Write) ; - number of bits to send/receive ; ; SPIM supports 4 commands, specified by the 4 MSBits of the ; SPIM_CMD byte ; ; $3 - GET WORD in MASTER FAST mode, define FALLING edge; ; $7 - GET WORD in MASTER FAST mode, define RISING edge; ; $B - SEND WORD in MASTER FAST mode, define FALLING edge; ; $F - SEND WORD in MASTER FAST mode, define RISING edge. ; ; Practically there is no difference between the GET and SEND commands. ; When the I/O buffer is shifted out, the input data is always ; shifted in. The different commands are provided for user convinience ; and confusion. The contents of SPIM_LSB and SPIM_MSB are ; not preserved during the driver operation since the bits are ; always shifted in even if they don't make any sense. ; ; Four LSBits of the command byte define the word length. ; $00 sets the length to 16 bits ; $01 sets the length to 1 bit ; ... ; $0F sets the length to 15 bits ; ; The SPIM_CMD byte also serves as a ready flag. SPIM will clear this ; byte upon the success of data transfer. ; ; SPIM_STATUS byte provides the error status information to the user ; program. It has 1 error flag: ; bit 4 - set to 1 when the SPIS_CMD byte contains an unsupported command ; ; -- SPIS ENTRY POINTS -- ; ; SPIM_INIT - Initialization subroutine. It provides appropriate configuration ; for SX I/O ports ports ; ; SPIM_EXECUTE - This is the actual VP entry point which may be ; called either from the interrupt service routine or from MAIN program. ; ; SPIM_SS_SET - user defined subroutine to set active level on SS pin. ; SPIM_SS_RESET - user defined subroutine to set passive level on SS pin. ; In the case of multiple devices on SPI bus, user must provide appropriate ; control over SS signals. ; ; SPI_ORG. This is the base address of SPIM VP. Typically it will be ; next ROM location, after the user program. ; ; -- How to use SPIM from the user program -- ; ; 1. Make sure that no interrupt is allowed during execution of SPIM. ; ; 2. Verify that the execution parameters are configured properly: ; SPIM_RATE ; SPIM_PORT_A_MASK ; SPIM_PORT_B_MASK ; SPIM_PORT_C_MASK ; SPIM_PORT ; SPIM_CLK_MASK ; SPIM_CMD ; ; 3. Configure I/O ports by calling SPIM_INIT. ; ; 4. Verify that SPIM is ready for execution by testing the SPIM_CMD byte. ; ; 5. Place the outgoing data into SPIM_LSB and SPIM_MSB ; ; 6. Call SPIM_EXECUTE from the interrupt. ; ; 7. Test SPIM_CMD for completion and SPIM_STATUS for errors. ; Unload the data from SPIM_LSB and SPIM_MSB ; ; Your SPIM is now ready for reuse. Repeat from step 4. ; ;======================================================================= ;**************************** CODE START ******************************* ;;recommended SX device confoguration ; device pins28, pages4,banks8,oschs ;This is the SX-28 device configuration ; device turbo, stackx, optionx ;data which should be used to run this VP ; id 'DEMO3M' ; ;reset reset_entry ; ;***************************** I/O PINS ******************************** ;;example of SX pin assingment ;spim_port = rb ;SPI port for clock pin ; ;spim_clk_pin = rb.0 ;SPI clock line ;spim_out_pin = rb.1 ;master_in slave_out line ;spim_in_pin = rb.2 ;master_out slave_in line ;spim_MCU_cs_pin = rb.3 ;slave select/slave request micro ; ;************************ SS CONTROL SUBROUTINES ********************** ;;user defined subroutines to generate SPI SS signal ;spim_SS_set clrb spim_MCU_cs_pin ;set MCU__SS active (low) ; ret ; ;spim_SS_reset setb spim_MCU_cs_pin ;set MCU__SS passive (high) ; ret ; ;*********************************************************************** ;************************** Authentic SPI MASTER VP ******************** org 10h spim_ram_bank = $ ;SPIM control data spim_cmd ds 1 ;SPIM command byte fast_ON equ spim_cmd.4 ;set to 1 for SPIM mode is used master_ON equ spim_cmd.5 ;set to 1 if MASTER rising_ON equ spim_cmd.6 ;set to 1 if RISING transmit_ON equ spim_cmd.7 ;set to 1 if TRANSMIT spim_clk_mask ds 1 ;defines SPI Clock pin spim_porta_mask ds 1 ;PortA direction register image spim_portb_mask ds 1 ;PortB direction register image spim_portc_mask ds 1 ;PortC direction register image ;SPIM status data spim_status ds 1 ;SPIM status byte spim_cmd_error equ spim_status.4 ;error - unsupported comand ;SPIS I/O buffer spim_msb ds 1 ;I/O data buffer spim_lsb ds 1 ;SPIS private data spim_shift_counter ds 1 ;I/O shift counter spim_bits_total ds 1 ;number of bits to transfer spim_shifts_init ds 1 ;number of bits for initial shift spim_rate ds 1 ;clock rate factor spim_rate_counter ds 1 ;clock rate delay counter org spi_org ;defined in user program ;********************* SPIM INITIALIZATION ROUTINE ********************* spim_init mov m,#$0f ;set up data direction registers mov !rb,spim_portb_mask ;configure ports mov !ra,spim_porta_mask mov !rc,spim_portc_mask ret ;************************* SPIM DATA TRANSFER ************************** spim_execute bank spim_ram_bank ;set SPIM RAM bank snb master_ON jb fast_ON,spim_cmd_proc ;begin decoding SPIM_CMD setb spim_cmd_error ;unsupported command spim_exit clr spim_cmd ;SPIM exit ret ;decode SPIM_CMD spim_cmd_proc sb rising_ON ;set the SPI_CLK polarity clrb spim_clk_pin snb rising_ON setb spim_clk_pin mov w,spim_cmd ;set number of bits to transfer and w,#$0f ;decode four LSBits of SPIM_CMD mov spim_bits_total,w test spim_bits_total snz mov spim_bits_total,#$10 mov spim_shift_counter,spim_bits_total ;set shift bit counter mov spim_shifts_init,#$10 sub spim_shifts_init,spim_bits_total ;set initial shifts counter call spim_SS_set ;activate user defined SS lines test spim_shifts_init ;initial shift needed? jz :spim ;prepare data for transfer :set_bit_position clc ;initial shift for the data < 16 bit long rl spim_lsb rl spim_msb djnz spim_shifts_init,:set_bit_position ;data transfer :spim test spim_shift_counter jz :spim_execute_exit ;shift bit out mov spim_rate_counter,spim_rate ;define transfer rate djnz spim_rate_counter,$ ;in shift data out cycle movb spim_out_pin,spim_msb.7 ;shift data out xor spim_port,spim_clk_mask ;change SPI Clock state dec spim_shift_counter rl spim_lsb rl spim_msb ;shift bit in mov spim_rate_counter,spim_rate ;define transfer rate djnz spim_rate_counter,$ ;in shift data in cycle movb spim_lsb,spim_in_pin ;shift bit in xor spim_port,spim_clk_mask ;change SPI clock state jmp :spim :spim_execute_exit call spim_SS_reset ;disable SS jmp spim_exit ;exit ret ;TO CLOSE THE LABEL SCOPE ;***************************** END OF SPIM VP **************************
file: /Techref/scenix/spim.src, 10KB, , updated: 1999/2/20 12:23, local time: 2024/11/9 17:33,
52.15.70.136:LOG IN ©2024 PLEASE DON'T RIP! THIS SITE CLOSES OCT 28, 2024 SO LONG AND THANKS FOR ALL THE FISH!
|
©2024 These pages are served without commercial sponsorship. (No popup ads, etc...).Bandwidth abuse increases hosting cost forcing sponsorship or shutdown. This server aggressively defends against automated copying for any reason including offline viewing, duplication, etc... Please respect this requirement and DO NOT RIP THIS SITE. Questions? <A HREF="http://sxlist.com/techref/scenix/spim.src"> scenix spim</A> |
Did you find what you needed? |
Welcome to sxlist.com!sales, advertizing, & kind contributors just like you! Please don't rip/copy (here's why Copies of the site on CD are available at minimal cost. |
Welcome to sxlist.com! |
.