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[/] [openmsp430/] [trunk/] [fpga/] [actel_m1a3pl_dev_kit/] [rtl/] [verilog/] [dac_spi_if.v] - Blame information for rev 190

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1 80 olivier.gi
//----------------------------------------------------------------------------
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// Copyright (C) 2001 Authors
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//
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// Redistribution and use in source and binary forms, with or without
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// modification, are permitted provided that the following conditions
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// are met:
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//     * Redistributions of source code must retain the above copyright
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//       notice, this list of conditions and the following disclaimer.
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//     * Redistributions in binary form must reproduce the above copyright
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//       notice, this list of conditions and the following disclaimer in the
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//       documentation and/or other materials provided with the distribution.
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//     * Neither the name of the authors nor the names of its contributors
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//       may be used to endorse or promote products derived from this software
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//       without specific prior written permission.
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//
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// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
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// AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
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// IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
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// ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE
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// LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY,
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// OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
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// SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
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// INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
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// CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
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// ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF
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// THE POSSIBILITY OF SUCH DAMAGE
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//
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//----------------------------------------------------------------------------
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//
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// *File Name: dac_spi_if.v
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// 
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// *Module Description:
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//                       SPI interface for National's DAC121S101 12 bit DAC
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//
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// *Author(s):
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//              - Olivier Girard,    olgirard@gmail.com
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//
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//----------------------------------------------------------------------------
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// $Rev: 66 $
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// $LastChangedBy: olivier.girard $
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// $LastChangedDate: 2010-03-07 09:09:38 +0100 (Sun, 07 Mar 2010) $
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//----------------------------------------------------------------------------
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module  dac_spi_if (
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// OUTPUTs
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    cntrl1,                         // Control value 1
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    cntrl2,                         // Control value 2
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    din,                            // SPI Serial Data
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    per_dout,                       // Peripheral data output
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    sclk,                           // SPI Serial Clock
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    sync_n,                         // SPI Frame synchronization signal (low active)
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// INPUTs
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    mclk,                           // Main system clock
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    per_addr,                       // Peripheral address
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    per_din,                        // Peripheral data input
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    per_en,                         // Peripheral enable (high active)
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    per_we,                         // Peripheral write enable (high active)
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    puc_rst                         // Main system reset
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);
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// PARAMETERs
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//============
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parameter           SCLK_DIV  = 0;       // Serial clock divider (Tsclk=Tmclk*(SCLK_DIV+1)*2)
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parameter           BASE_ADDR = 9'h190;  // Registers base address
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// OUTPUTs
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//=========
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output        [3:0] cntrl1;         // Control value 1
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output        [3:0] cntrl2;         // Control value 2
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output              din;            // SPI Serial Data
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output       [15:0] per_dout;       // Peripheral data output
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output              sclk;           // SPI Serial Clock
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output              sync_n;         // SPI Frame synchronization signal (low active)
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// INPUTs
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//=========
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input               mclk;           // Main system clock
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input        [13:0] per_addr;       // Peripheral address
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input        [15:0] per_din;        // Peripheral data input
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input               per_en;         // Peripheral enable (high active)
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input         [1:0] per_we;         // Peripheral write enable (high active)
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input               puc_rst;        // Main system reset
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//=============================================================================
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// 1)  PARAMETER DECLARATION
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//=============================================================================
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// Decoder bit width (defines how many bits are considered for address decoding)
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parameter              DEC_WD      =  3;
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// Register addresses offset
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parameter [DEC_WD-1:0] DAC_VAL     = 'h0,
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                       DAC_STAT    = 'h2,
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                       CNTRL1      = 'h4,
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                       CNTRL2      = 'h6;
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// Register one-hot decoder utilities
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parameter              DEC_SZ      =  2**DEC_WD;
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parameter [DEC_SZ-1:0] BASE_REG    =  {{DEC_SZ-1{1'b0}}, 1'b1};
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// Register one-hot decoder
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parameter [DEC_SZ-1:0] DAC_VAL_D   = (BASE_REG << DAC_VAL),
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                       DAC_STAT_D  = (BASE_REG << DAC_STAT),
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                       CNTRL1_D    = (BASE_REG << CNTRL1),
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                       CNTRL2_D    = (BASE_REG << CNTRL2);
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//============================================================================
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// 2)  REGISTER DECODER
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//============================================================================
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// Local register selection
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wire              reg_sel   =  per_en & (per_addr[13:DEC_WD-1]==BASE_ADDR[14:DEC_WD]);
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// Register local address
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wire [DEC_WD-1:0] reg_addr  =  {per_addr[DEC_WD-2:0], 1'b0};
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// Register address decode
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wire [DEC_SZ-1:0] reg_dec   =  (DAC_VAL_D  &  {DEC_SZ{(reg_addr == DAC_VAL )}})  |
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                               (DAC_STAT_D &  {DEC_SZ{(reg_addr == DAC_STAT)}})  |
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                               (CNTRL1_D   &  {DEC_SZ{(reg_addr == CNTRL1  )}})  |
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                               (CNTRL2_D   &  {DEC_SZ{(reg_addr == CNTRL2  )}});
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// Read/Write probes
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wire              reg_write =  |per_we & reg_sel;
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wire              reg_read  = ~|per_we & reg_sel;
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// Read/Write vectors
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wire [DEC_SZ-1:0] reg_wr    = reg_dec & {DEC_SZ{reg_write}};
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wire [DEC_SZ-1:0] reg_rd    = reg_dec & {DEC_SZ{reg_read}};
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//============================================================================
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// 3) REGISTERS
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//============================================================================
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// DAC_VAL Register
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//------------------   
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reg  [11:0] dac_val;
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reg         dac_pd0;
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reg         dac_pd1;
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wire        dac_val_wr = reg_wr[DAC_VAL];
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always @ (posedge mclk or posedge puc_rst)
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  if (puc_rst)
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    begin
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       dac_val <= 12'h000;
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       dac_pd0 <=  1'b0;
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       dac_pd1 <=  1'b0;
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    end
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  else if (dac_val_wr)
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    begin
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       dac_val <=  per_din[11:0];
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       dac_pd0 <=  per_din[12];
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       dac_pd1 <=  per_din[13];
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    end
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// CNTRL1 Register
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//------------------   
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reg   [3:0] cntrl1;
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wire        cntrl1_wr = reg_wr[CNTRL1];
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always @ (posedge mclk or posedge puc_rst)
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  if (puc_rst)        cntrl1 <=  4'h0;
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  else if (cntrl1_wr) cntrl1 <=  per_din;
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// CNTRL2 Register
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//------------------   
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reg   [3:0] cntrl2;
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wire        cntrl2_wr = reg_wr[CNTRL2];
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always @ (posedge mclk or posedge puc_rst)
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  if (puc_rst)        cntrl2 <=  4'h0;
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  else if (cntrl2_wr) cntrl2 <=  per_din;
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//============================================================================
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// 4) DATA OUTPUT GENERATION
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//============================================================================
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// Data output mux
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wire [15:0] dac_val_rd  = { 2'b00,   dac_pd1, dac_pd0, dac_val} & {16{reg_rd[DAC_VAL]}};
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wire [15:0] dac_stat_rd = {15'h0000, ~sync_n}                   & {16{reg_rd[DAC_STAT]}};
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wire [15:0] cntrl1_rd   = {12'h000,  cntrl1}                    & {16{reg_rd[CNTRL1]}};
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wire [15:0] cntrl2_rd   = {12'h000,  cntrl2}                    & {16{reg_rd[CNTRL2]}};
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wire [15:0] per_dout    =  dac_val_rd   |
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                           dac_stat_rd  |
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                           cntrl1_rd    |
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                           cntrl2_rd;
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//============================================================================
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// 5) SPI INTERFACE
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//============================================================================
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// SPI Clock divider
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reg [3:0] spi_clk_div;
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always @ (posedge mclk or posedge puc_rst)
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  if (puc_rst)             spi_clk_div <=  SCLK_DIV;
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  else if (spi_clk_div==0) spi_clk_div <=  SCLK_DIV;
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  else                     spi_clk_div <=  spi_clk_div-1;
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// SPI Clock generation
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reg       sclk;
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always @ (posedge mclk or posedge puc_rst)
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  if (puc_rst)             sclk        <=  1'b0;
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  else if (spi_clk_div==0) sclk        <=  ~sclk;
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wire      sclk_re = (spi_clk_div==0) & ~sclk;
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// SPI Transfer trigger
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reg       spi_tfx_trig;
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always @ (posedge mclk or posedge puc_rst)
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  if (puc_rst)               spi_tfx_trig <= 1'b0;
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  else if (dac_val_wr)       spi_tfx_trig <= 1'b1;
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  else if (sclk_re & sync_n) spi_tfx_trig <= 1'b0;
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wire      spi_tfx_init = spi_tfx_trig & sync_n;
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// Data counter
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reg [3:0] spi_cnt;
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wire      spi_cnt_done = (spi_cnt==4'hf);
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always @ (posedge mclk or posedge puc_rst)
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  if (puc_rst)               spi_cnt <=  4'hf;
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  else if (sclk_re)
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    if (spi_tfx_init)        spi_cnt <=  4'he;
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    else if (~spi_cnt_done)  spi_cnt <=  spi_cnt-1;
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// Frame synchronization signal (low active)
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reg sync_n;
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always @ (posedge mclk or posedge puc_rst)
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  if (puc_rst)               sync_n  <=  1'b1;
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  else if (sclk_re)
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    if (spi_tfx_init)        sync_n  <=  1'b0;
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    else if (spi_cnt_done)   sync_n  <=  1'b1;
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// Value to be shifted_out
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reg  [15:0] dac_shifter;
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always @ (posedge mclk or posedge puc_rst)
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  if (puc_rst)        dac_shifter <=  16'h000;
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  else if (sclk_re)
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    if (spi_tfx_init) dac_shifter <=  {2'b00, dac_pd1, dac_pd0, dac_val[11:0]};
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    else              dac_shifter <=  {dac_shifter[14:0], 1'b0};
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assign din = dac_shifter[15];
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endmodule // dac_spi_if
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