// // File: adc_driver_sample.v // Date: 07-Nov-05 // Author: I. Chuang // // Sample code for the MIT 6.111 labkit, demonstrating FPGA control of an // analog to digital converter (National Semiconductor ADCS7476). // // This specific demo is made to drive the Digilent ADC peripheral module, // which has two ADCS7476 chips. See http://www.digilentinc.com // // Connect the board as follows: // // CS = User 3 D3 (user3[3]) // D0 = User 3 D2 (user3[2]) // D1 = User 3 D1 (user3[1]) // CLK = User 3 D0 (user3[0]) // VCC = 3.3V // // Voltages for the two channels are displayed in the hex dot display. // A good way to test this is to hook up a variable potentiometer to // provide an input voltage betwen 0 and 3.3V to sample at the ADC inputs. `include "display_16hex.v" `include "adc_driver.v" /////////////////////////////////////////////////////////////////////////////// // // Pushbutton Debounce Module // /////////////////////////////////////////////////////////////////////////////// module debounce (reset, clock_65mhz, noisy, clean); input reset, clock_65mhz, noisy; output clean; reg [19:0] count; reg new, clean; always @(posedge clock_65mhz) if (reset) begin new <= noisy; clean <= noisy; count <= 0; end else if (noisy != new) begin new <= noisy; count <= 0; end else if (count == 650000) clean <= new; else count <= count+1; endmodule ///////////////////////////////////////////////////////////////////////////// // top level module module adc_driver_sample( beep, audio_reset_b, ac97_sdata_out, ac97_sdata_in, ac97_synch, ac97_bit_clock, vga_out_red, vga_out_green, vga_out_blue, vga_out_sync_b, vga_out_blank_b, vga_out_pixel_clock, vga_out_hsync, vga_out_vsync, tv_out_ycrcb, tv_out_reset_b, tv_out_clock, tv_out_i2c_clock, tv_out_i2c_data, tv_out_pal_ntsc, tv_out_hsync_b, tv_out_vsync_b, tv_out_blank_b, tv_out_subcar_reset, tv_in_ycrcb, tv_in_data_valid, tv_in_line_clock1, tv_in_line_clock2, tv_in_aef, tv_in_hff, tv_in_aff, tv_in_i2c_clock, tv_in_i2c_data, tv_in_fifo_read, tv_in_fifo_clock, tv_in_iso, tv_in_reset_b, tv_in_clock, ram0_data, ram0_address, ram0_adv_ld, ram0_clk, ram0_cen_b, ram0_ce_b, ram0_oe_b, ram0_we_b, ram0_bwe_b, ram1_data, ram1_address, ram1_adv_ld, ram1_clk, ram1_cen_b, ram1_ce_b, ram1_oe_b, ram1_we_b, ram1_bwe_b, clock_feedback_out, clock_feedback_in, flash_data, flash_address, flash_ce_b, flash_oe_b, flash_we_b, flash_reset_b, flash_sts, flash_byte_b, rs232_txd, rs232_rxd, rs232_rts, rs232_cts, mouse_clock, mouse_data, keyboard_clock, keyboard_data, clock_27mhz, clock1, clock2, disp_blank, disp_data_out, disp_clock, disp_rs, disp_ce_b, disp_reset_b, disp_data_in, button0, button1, button2, button3, button_enter, button_right, button_left, button_down, button_up, switch, led, user1, user2, user3, user4, daughtercard, systemace_data, systemace_address, systemace_ce_b, systemace_we_b, systemace_oe_b, systemace_irq, systemace_mpbrdy, analyzer1_data, analyzer1_clock, analyzer2_data, analyzer2_clock, analyzer3_data, analyzer3_clock, analyzer4_data, analyzer4_clock); output beep, audio_reset_b, ac97_synch, ac97_sdata_out; input ac97_bit_clock, ac97_sdata_in; output [7:0] vga_out_red, vga_out_green, vga_out_blue; output vga_out_sync_b, vga_out_blank_b, vga_out_pixel_clock, vga_out_hsync, vga_out_vsync; output [9:0] tv_out_ycrcb; output tv_out_reset_b, tv_out_clock, tv_out_i2c_clock, tv_out_i2c_data, tv_out_pal_ntsc, tv_out_hsync_b, tv_out_vsync_b, tv_out_blank_b, tv_out_subcar_reset; input [19:0] tv_in_ycrcb; input tv_in_data_valid, tv_in_line_clock1, tv_in_line_clock2, tv_in_aef, tv_in_hff, tv_in_aff; output tv_in_i2c_clock, tv_in_fifo_read, tv_in_fifo_clock, tv_in_iso, tv_in_reset_b, tv_in_clock; inout tv_in_i2c_data; inout [35:0] ram0_data; output [18:0] ram0_address; output ram0_adv_ld, ram0_clk, ram0_cen_b, ram0_ce_b, ram0_oe_b, ram0_we_b; output [3:0] ram0_bwe_b; inout [35:0] ram1_data; output [18:0] ram1_address; output ram1_adv_ld, ram1_clk, ram1_cen_b, ram1_ce_b, ram1_oe_b, ram1_we_b; output [3:0] ram1_bwe_b; input clock_feedback_in; output clock_feedback_out; inout [15:0] flash_data; output [23:0] flash_address; output flash_ce_b, flash_oe_b, flash_we_b, flash_reset_b, flash_byte_b; input flash_sts; output rs232_txd, rs232_rts; input rs232_rxd, rs232_cts; input mouse_clock, mouse_data, keyboard_clock, keyboard_data; input clock_27mhz, clock1, clock2; output disp_blank, disp_clock, disp_rs, disp_ce_b, disp_reset_b; input disp_data_in; output disp_data_out; input button0, button1, button2, button3, button_enter, button_right, button_left, button_down, button_up; input [7:0] switch; output [7:0] led; inout [31:0] user1, user2, user3, user4; inout [43:0] daughtercard; inout [15:0] systemace_data; output [6:0] systemace_address; output systemace_ce_b, systemace_we_b, systemace_oe_b; input systemace_irq, systemace_mpbrdy; output [15:0] analyzer1_data, analyzer2_data, analyzer3_data; output [15:0] analyzer4_data; output analyzer1_clock, analyzer2_clock, analyzer3_clock, analyzer4_clock; //////////////////////////////////////////////////////////////////////////// // // I/O Assignments // //////////////////////////////////////////////////////////////////////////// // Audio Input and Output assign beep= 1'b0; assign audio_reset_b = 1'b0; assign ac97_synch = 1'b0; assign ac97_sdata_out = 1'b0; // ac97_sdata_in is an input // VGA Output assign vga_out_red = 10'h0; assign vga_out_green = 10'h0; assign vga_out_blue = 10'h0; assign vga_out_sync_b = 1'b1; assign vga_out_blank_b = 1'b1; assign vga_out_pixel_clock = 1'b0; assign vga_out_hsync = 1'b0; assign vga_out_vsync = 1'b0; // Video Output assign tv_out_ycrcb = 10'h0; assign tv_out_reset_b = 1'b0; assign tv_out_clock = 1'b0; assign tv_out_i2c_clock = 1'b0; assign tv_out_i2c_data = 1'b0; assign tv_out_pal_ntsc = 1'b0; assign tv_out_hsync_b = 1'b1; assign tv_out_vsync_b = 1'b1; assign tv_out_blank_b = 1'b1; assign tv_out_subcar_reset = 1'b0; // Video Input assign tv_in_i2c_clock = 1'b0; assign tv_in_fifo_read = 1'b0; assign tv_in_fifo_clock = 1'b0; assign tv_in_iso = 1'b0; assign tv_in_reset_b = 1'b0; assign tv_in_clock = 1'b0; assign tv_in_i2c_data = 1'bZ; // tv_in_ycrcb, tv_in_data_valid, tv_in_line_clock1, tv_in_line_clock2, // tv_in_aef, tv_in_hff, and tv_in_aff are inputs // SRAMs assign ram0_data = 36'hZ; assign ram0_address = 19'h0; assign ram0_adv_ld = 1'b0; assign ram0_clk = 1'b0; assign ram0_cen_b = 1'b1; assign ram0_ce_b = 1'b1; assign ram0_oe_b = 1'b1; assign ram0_we_b = 1'b1; assign ram0_bwe_b = 4'hF; assign ram1_data = 36'hZ; assign ram1_address = 19'h0; assign ram1_adv_ld = 1'b0; assign ram1_clk = 1'b0; assign ram1_cen_b = 1'b1; assign ram1_ce_b = 1'b1; assign ram1_oe_b = 1'b1; assign ram1_we_b = 1'b1; assign ram1_bwe_b = 4'hF; assign clock_feedback_out = 1'b0; // clock_feedback_in is an input // Flash ROM assign flash_data = 16'hZ; assign flash_address = 24'h0; assign flash_ce_b = 1'b1; assign flash_oe_b = 1'b1; assign flash_we_b = 1'b1; assign flash_reset_b = 1'b0; assign flash_byte_b = 1'b1; // flash_sts is an input // RS-232 Interface assign rs232_txd = 1'b1; assign rs232_rts = 1'b1; // rs232_rxd and rs232_cts are inputs // PS/2 Ports // mouse_clock, mouse_data, keyboard_clock, and keyboard_data are inputs // LED Displays // assign disp_blank = 1'b1; // assign disp_clock = 1'b0; // assign disp_rs = 1'b0; // assign disp_ce_b = 1'b1; // assign disp_reset_b = 1'b0; // assign disp_data_out = 1'b0; // disp_data_in is an input // Buttons, Switches, and Individual LEDs // assign led = 8'hFF; // button0, button1, button2, button3, button_enter, button_right, // button_left, button_down, button_up, and switches are inputs // User I/Os assign user1 = 32'hZ; assign user2 = 32'hZ; assign user3[31:4] = 28'hZ; assign user4 = 32'hZ; // Daughtercard Connectors assign daughtercard = 44'hZ; // SystemACE Microprocessor Port assign systemace_data = 16'hZ; assign systemace_address = 7'h0; assign systemace_ce_b = 1'b1; assign systemace_we_b = 1'b1; assign systemace_oe_b = 1'b1; // systemace_irq and systemace_mpbrdy are inputs // Logic Analyzer assign analyzer1_data = 16'h0; assign analyzer1_clock = 1'b1; assign analyzer2_data = 16'hA5A5; assign analyzer2_clock = 1'b1; assign analyzer3_data = 16'h0; assign analyzer3_clock = 1'b1; assign analyzer4_data = 16'hA5A; assign analyzer4_clock = 1'b1; // adc driver sample test wire clk; BUFG vclk3(.O(clk),.I(clock_27mhz)); // assign clk = clock_27mhz; wire power_on_reset; SRL16 reset_sr (.D(1'b0), .CLK(clk), .Q(power_on_reset), .A0(1'b1), .A1(1'b1), .A2(1'b1), .A3(1'b1)); defparam reset_sr.INIT = 16'hFFFF; wire user_reset; debounce dbreset(1'b0,clk,button_enter,user_reset); wire reset = power_on_reset | user_reset; wire b0,b1; debounce db0(1'b0,clk,~button0,b0); debounce db1(1'b0,clk,~button1,b1); // adc driver wire [11:0] v0, v1; wire rdy; wire adc_cs_b, adc_clk, adc_data0, adc_data1; assign user3[0] = switch[0] ? b0 : adc_clk; assign user3[1] = 1'hZ; assign user3[2] = 1'hZ; assign user3[3] = switch[0] ? b1 : adc_cs_b; assign adc_data0 = user3[2]; assign adc_data1 = user3[1]; adc_driver ad1(clk,adc_cs_b,adc_clk,adc_data0,adc_data1,v0,v1,rdy); // debug assign led = ~{v0[7:4],adc_data0,adc_data1,user3[0],user3[3]}; wire [63:0] dispdata = {v0,40'b0,v1}; display_16hex hexdisp1(1'b0, clk, dispdata, disp_blank, disp_clock, disp_rs, disp_ce_b, disp_reset_b, disp_data_out); endmodule