From 11608814fbf186c22444b7a9fefa489ae802b851 Mon Sep 17 00:00:00 2001 From: Niklas Boese Date: Thu, 15 Jun 2023 12:46:26 +0000 Subject: [PATCH 1/4] =?UTF-8?q?=E2=80=9EAmpelansteuerung/rgb=5Fled=5Ftop.s?= =?UTF-8?q?v=E2=80=9C=20l=C3=B6schen?= MIME-Version: 1.0 Content-Type: text/plain; charset=UTF-8 Content-Transfer-Encoding: 8bit --- Ampelansteuerung/rgb_led_top.sv | 70 --------------------------------- 1 file changed, 70 deletions(-) delete mode 100644 Ampelansteuerung/rgb_led_top.sv diff --git a/Ampelansteuerung/rgb_led_top.sv b/Ampelansteuerung/rgb_led_top.sv deleted file mode 100644 index 1501b14..0000000 --- a/Ampelansteuerung/rgb_led_top.sv +++ /dev/null @@ -1,70 +0,0 @@ -module led_top ( -input wire clk12M, -input wire rst, -input wire [1:0] color_sel, -input wire RGB_Blink_En, -output reg REDn, -output reg BLUn, -output reg GRNn, -output reg RED, -output reg BLU, -output reg GRN -); - -wire red_pwm; -wire grn_pwm; -wire blu_pwm; - -//parameter on_hi = 2'b10; -//parameter on_lo = 2'b01; -//parameter off = 2'b00; -//parameter LED_OFF = 2'b00; -//parameter RAMP_UP = 2'b01; -//parameter LED_ON = 2'b10; -//parameter RAMP_DOWN = 2'b11; -//parameter on_max_cnt = 28'h16E35ED; // 1 sec steady -//parameter [3:0] Brightness=4'b0111; //50% Brightness -//parameter [3:0] BreatheRamp=4'b0110; //2x -//parameter [3:0] BlinkRate=4'b0101; //1sec -//parameter string RGB0_CURRENT = "0b111111"; -//parameter string RGB1_CURRENT = "0b111111"; -//parameter string RGB2_CURRENT = "0b111111"; -defparam U1.on_hi = 2'b10; -defparam U1.on_lo = 2'b01; -defparam U1.off = 2'b00; -defparam U1.LED_OFF = 2'b00; -defparam U1.RAMP_UP = 2'b01; -defparam U1.LED_ON = 2'b10; -defparam U1.RAMP_DOWN = 2'b11; -defparam U1.on_max_cnt = 28'h16E35ED; // 1 sec steady -defparam U1.Brightness = 4'b0111; // 50% Brightness -defparam U1.BreatheRamp = 4'b0110; // 2x -defparam U1.BlinkRate = 4'b0101; // 1 sec -defparam U2.RGB0_CURRENT = "0b111111"; -defparam U2.RGB1_CURRENT = "0b111111"; -defparam U2.RGB2_CURRENT = "0b111111"; - -LED_control1 U1 (.clk12M(clk12M),.rst(rst),.color_sel(color_sel),.RGB_Blink_En(RGB_Blink_En),.red_pwm(red_pwm),.blu_pwm(blu_pwm),.grn_pwm(grn_pwm)); - - -RGB U2 (.CURREN('b1),.RGB0PWM(blu_pwm),.RGB1PWM(grn_pwm),.RGB2PWM(red_pwm),.RGBLEDEN('b1),.RGB0(BLUn),.RGB1(GRNn),.RGB2(REDn)); - -assign RED = red_pwm; -assign GRN = grn_pwm; -assign BLU = blu_pwm; - -endmodule - - - - - - - - - - - - - - From 6f34badb25fe49b51f37783f45f489b568e017d3 Mon Sep 17 00:00:00 2001 From: Niklas Boese Date: Thu, 15 Jun 2023 12:46:33 +0000 Subject: [PATCH 2/4] =?UTF-8?q?=E2=80=9EAmpelansteuerung/LED=5Fcontrol.sv?= =?UTF-8?q?=E2=80=9C=20l=C3=B6schen?= MIME-Version: 1.0 Content-Type: text/plain; charset=UTF-8 Content-Transfer-Encoding: 8bit --- Ampelansteuerung/LED_control.sv | 498 -------------------------------- 1 file changed, 498 deletions(-) delete mode 100644 Ampelansteuerung/LED_control.sv diff --git a/Ampelansteuerung/LED_control.sv b/Ampelansteuerung/LED_control.sv deleted file mode 100644 index 4fc7b0a..0000000 --- a/Ampelansteuerung/LED_control.sv +++ /dev/null @@ -1,498 +0,0 @@ -// ================================================================== -// >>>>>>>>>>>>>>>>>>>>>>> COPYRIGHT NOTICE <<<<<<<<<<<<<<<<<<<<<<<<< -// ------------------------------------------------------------------ -// Copyright (c) 2017 by Lattice Semiconductor Corporation -// ALL RIGHTS RESERVED -// ------------------------------------------------------------------ -// -// Permission: -// -// Lattice SG Pte. Ltd. grants permission to use this code -// pursuant to the terms of the Lattice Reference Design License Agreement. -// -// -// Disclaimer: -// -// This VHDL or Verilog source code is intended as a design reference -// which illustrates how these types of functions can be implemented. -// It is the user's responsibility to verify their design for -// consistency and functionality through the use of formal -// verification methods. Lattice provides no warranty -// regarding the use or functionality of this code. -// -// -------------------------------------------------------------------- -// -// Lattice SG Pte. Ltd. -// 101 Thomson Road, United Square #07-02 -// Singapore 307591 -// -// -// TEL: 1-800-Lattice (USA and Canada) -// +65-6631-2000 (Singapore) -// +1-503-268-8001 (other locations) -// -// web: http://www.latticesemi.com/ -// email: techsupport@latticesemi.com -// -// -------------------------------------------------------------------- -// -// Project: iCE5UP 5K RGB LED Tutorial -// File: LED_control.v -// Title: LED PWM control -// Description: Creates RGB PWM per control inputs -// -// -// -------------------------------------------------------------------- -// -//------------------------------------------------------------ -// Notes: -// -// -//------------------------------------------------------------ -// Development History: -// -// __DATE__ _BY_ _REV_ _DESCRIPTION___________________________ -// 04/05/17 RK 1.0 Initial tutorial design for Lattice Radiant -// -//------------------------------------------------------------ -// Dependencies: -// -// -// -//------------------------------------------------------------ - - -module LED_control1 ( - // inputs - input wire clk12M, // 12M clock - input wire rst, //Asynchronous reset - input wire [1:0] color_sel, // for selecting color using switches - input wire RGB_Blink_En, //Enabling Blink - //outputs - output reg red_pwm, // Red - output reg blu_pwm, // Blue - output reg grn_pwm // Green - ); - - -//------------------------------ -// INTERNAL SIGNAL DECLARATIONS: -//------------------------------ -// parameters (constants) -parameter on_hi = 2'b10; -parameter on_lo = 2'b01; -parameter off = 2'b00; - -parameter LED_OFF = 2'b00; -parameter RAMP_UP = 2'b01; -parameter LED_ON = 2'b10; -parameter RAMP_DOWN = 2'b11; - -parameter on_max_cnt = 28'h16E35ED; // 1 sec steady - -parameter Brightness=4'b0111; //50% Brightness -parameter BreatheRamp=4'b0111; //4x -parameter BlinkRate=4'b0101; //1sec - - -// wires (assigns) -wire [3:0]RGB_color; -wire [4:0] red_intensity; -wire [4:0] grn_intensity; -wire [4:0] blu_intensity; -wire clk24M; -wire LOCK; - -// regs (always) -reg [1:0] clk_div_cnt; // - -reg [3:0] RGB_color_s; // sample values from SPI i/f -reg [3:0] Brightness_s; -reg [3:0] BreatheRamp_s; -reg [3:0] BlinkRate_s; - -reg [1:0] red_set; // hi/lo/off -reg [1:0] grn_set; -reg [1:0] blu_set; - -reg [31:0] red_peak; // LED 'on' peak intensity (high precision) -reg [31:0] grn_peak; -reg [31:0] blu_peak; - -reg [27:0] off_max_cnt; // LED off duration -reg [3:0] step_shift; // scaling calculation aid - -reg [27:0] ramp_max_cnt; // LED ramp up/down duration -reg [31:0] red_intensity_step; // LED intensity step when ramping -reg [31:0] grn_intensity_step; -reg [31:0] blu_intensity_step; - -reg [1:0] blink_state; // state variable -reg [27:0] ramp_count; // counter for LED on/off duration -reg [27:0] steady_count; // counter for LED ramp up/down duration - -reg [31:0] red_accum; // intensity accumulator during ramp -reg [31:0] grn_accum; -reg [31:0] blu_accum; - -reg [17:0] curr_red; // current LED intensity ( /256 = PWM duty cycle) -reg [17:0] curr_grn; -reg [17:0] curr_blu; - -reg [17:0] pwm_count; // PWM counter - -reg [7:0] count = 8'b0; - -//------------------------------ -// PLL Instantiation -//------------------------------ -//Block to reset the PLL initially - -pll_24M __(.ref_clk_i(clk12M ), .rst_n_i(~rst), .lock_o(LOCK), .outcore_o( ), .outglobal_o(clk24M)); - -//Selecting color using "color_sel" -assign RGB_color = {2'b0,color_sel}; - -// Capture stable parameters in local clock domain -always @ (posedge clk24M or posedge rst) - if (rst) begin - RGB_color_s <= 4'b0000; - Brightness_s <= 4'b0111; - BreatheRamp_s <= 4'b0000; - BlinkRate_s <= 4'b0101; - end else if(!RGB_Blink_En) begin - RGB_color_s <= RGB_color ; - Brightness_s <= Brightness ; - BreatheRamp_s <= 4'b0000 ; - BlinkRate_s <= 4'b0000 ; - end else begin - RGB_color_s <= RGB_color ; - Brightness_s <= Brightness ; - BreatheRamp_s <= BreatheRamp ; - BlinkRate_s <= BlinkRate ; - end - - -// interpret 'brightness' setting -assign red_intensity = Brightness_s + 1'b1; -assign grn_intensity = Brightness_s + 1'b1; -assign blu_intensity = Brightness_s + 1'b1; - - -// interpret 'color' setting -always @ (RGB_color_s) - case (RGB_color_s) - 4'b0000: begin red_set <= on_hi; grn_set <= off; blu_set <= off; end //Red - 4'b0001: begin red_set <= on_hi; grn_set <= on_lo; blu_set <= off; end //Orange - 4'b0010: begin red_set <= off; grn_set <= on_hi; blu_set <= off; end //Green - 4'b0011: begin red_set <= off; grn_set <= on_hi; blu_set <= on_hi; end //Cyan - 4'b0100: begin red_set <= off; grn_set <= on_hi; blu_set <= on_lo; end //SpringGreen - 4'b0101: begin red_set <= on_hi; grn_set <= on_hi; blu_set <= off; end //Yellow - 4'b0110: begin red_set <= on_lo; grn_set <= on_hi; blu_set <= off; end //Chartreuse - 4'b0111: begin red_set <= off; grn_set <= on_lo; blu_set <= on_hi; end //Azure - 4'b1000: begin red_set <= off; grn_set <= off; blu_set <= on_hi; end //Blue - 4'b1001: begin red_set <= on_lo; grn_set <= off; blu_set <= on_hi; end //Violet - 4'b1010: begin red_set <= on_hi; grn_set <= off; blu_set <= on_hi; end //Magenta - 4'b1011: begin red_set <= on_hi; grn_set <= off; blu_set <= on_lo; end //Rose - 4'b1111: begin red_set <= on_hi; grn_set <= on_hi; blu_set <= on_hi; end //White - default: begin red_set <= off; grn_set <= off; blu_set <= off; end //2'b00 - endcase - -// set peak values per 'brightness' and 'color' -// when color setting is 'on_lo', then peak intensity is divided by 2 -always @ (posedge clk24M or posedge rst) - if (rst) begin - red_peak <= 32'b0; - end else begin - case (red_set) - on_hi: red_peak <= {red_intensity, 27'h000}; // 100% - on_lo: red_peak <= {1'b0,red_intensity, 26'h000}; // 50% - default: red_peak <= 32'h00000; - endcase - end - -always @ (posedge clk24M or posedge rst) - if (rst) begin - grn_peak <= 32'b0; - end else begin - case (grn_set) - on_hi: grn_peak <= {grn_intensity, 27'h000}; // 100% - on_lo: grn_peak <= {1'b0,grn_intensity, 26'h000}; // 50% - default: grn_peak <= 32'h00000; - endcase - end - -always @ (posedge clk24M or posedge rst) - if (rst) begin - blu_peak <= 32'b0; - end else begin - case (blu_set) - on_hi: blu_peak <= {blu_intensity, 27'h000}; // 100% - on_lo: blu_peak <= {1'b0,blu_intensity, 26'h000}; // 50% - default: blu_peak <= 32'h00000; - endcase - end - -// interpret 'Blink rate' setting -// 'off_max_cnt' is time spent in 'LED_OFF' states -// 'step_shift' is used to scale the intensity step size. -// Stated period is blink rate with no ramp. Ramping adds to the period. -always @ (posedge clk24M or posedge rst) - if (rst) begin - off_max_cnt <= 28'h0 - 1; - //step_shift <= 4'b0; - end else begin - case (BlinkRate_s) - 4'b0001: begin off_max_cnt <= 28'h016E35F; end // 1/16sec - 4'b0010: begin off_max_cnt <= 28'h02DC6BE; end // 1/8 sec - 4'b0011: begin off_max_cnt <= 28'h05B8D7B; end // 1/4 sec - 4'b0100: begin off_max_cnt <= 28'h0B71AF6; end // 1/2 sec - 4'b0101: begin off_max_cnt <= 28'h16E35ED; end // 1 sec - 4'b0110: begin off_max_cnt <= 28'h2DC6BDA; end // 2 sec - 4'b0111: begin off_max_cnt <= 28'h5B8D7B3; end // 4 sec - - - default: begin off_max_cnt <= 28'h0; end // - endcase - end - - -// interpret 'Breathe Ramp' setting -// 'ramp_max_cnt' is time spent in 'RAMP_UP', RAMP_DOWN' states -// '***_intensity_step' is calculated to add to color accumulators each ramp step -always @ (posedge clk24M or posedge rst) - if (rst) begin - ramp_max_cnt <= 28'b0; - red_intensity_step <= 28'b0; - grn_intensity_step <= 28'b0; - blu_intensity_step <= 28'b0; - end else begin - case (BreatheRamp_s) - 4'b0001: begin - ramp_max_cnt <= 28'h016E35F; // 1/16sec - red_intensity_step <= red_peak >> (21) ; - grn_intensity_step <= grn_peak >> (21) ; - blu_intensity_step <= blu_peak >> (21) ; - end - 4'b0010: begin - ramp_max_cnt <= 28'h02DC6BE; // 1/8 sec - red_intensity_step <= red_peak >> (22) ; - grn_intensity_step <= grn_peak >> (22) ; - blu_intensity_step <= blu_peak >> (22) ; - end - 4'b0011: begin - ramp_max_cnt <= 28'h05B8D7B; // 1/4 sec - red_intensity_step <= red_peak >> (23) ; - grn_intensity_step <= grn_peak >> (23) ; - blu_intensity_step <= blu_peak >> (23) ; - end - 4'b0100: begin - ramp_max_cnt <=28'h0B71AF6; - red_intensity_step <= red_peak >> (24) ;//1/2 - grn_intensity_step <= grn_peak >> (24) ; - blu_intensity_step <= blu_peak >> (24) ; - end - 4'b0101: begin - ramp_max_cnt <= 28'h16E35ED; // 1 sec - red_intensity_step <= red_peak >> (25) ; - grn_intensity_step <= grn_peak >> (25) ; - blu_intensity_step <= blu_peak >> (25) ; - - end - 4'b0110: begin - ramp_max_cnt <= 28'h2DC6BDA; - red_intensity_step <= red_peak >> (26) ; //2 sec - grn_intensity_step <= grn_peak >> (26) ; - blu_intensity_step <= blu_peak >> (26) ; - - end - 4'b0111: begin - ramp_max_cnt <= 28'h5B8D7B3; // 4 sec - red_intensity_step <= red_peak >> (27) ; - grn_intensity_step <= grn_peak >> (27) ; - blu_intensity_step <= blu_peak >> (27) ; - end - default: begin - ramp_max_cnt <= 28'd0; - red_intensity_step <= 28'b0; - grn_intensity_step <= 28'b0; - blu_intensity_step <= 28'b0; - end - endcase - end - -// state machine to create LED ON/OFF/RAMP periods -// state machine is held (no cycles) if LED is steady state on/off -// state machine is reset to LED_ON state whenever parameters are updated. -always @ (posedge clk24M or posedge rst) - if (rst) begin - blink_state <= LED_OFF; - ramp_count <= 28'b0; - steady_count <= 28'b0; - end else begin - if(BlinkRate_s == 4'b0000) begin - blink_state <= LED_ON; - ramp_count <= 0; - steady_count <= 0; - end else if (BlinkRate_s == 4'b1000) begin - blink_state <= LED_OFF; - ramp_count <= 0; - steady_count <= 0; - end else begin - case (blink_state) - LED_OFF: begin - if(steady_count >= off_max_cnt) begin - ramp_count <= 0; - steady_count <= 0; - blink_state <= RAMP_UP; - end else begin - steady_count <= steady_count + 1; - end - end - RAMP_UP: begin - if(ramp_count >= ramp_max_cnt) begin - ramp_count <= 0; - steady_count <= 0; - blink_state <= LED_ON; - end else begin - ramp_count <= ramp_count + 1; - end - end - LED_ON: begin - if(steady_count >= on_max_cnt) begin - ramp_count <= 0; - steady_count <= 0; - blink_state <= RAMP_DOWN; - end else begin - steady_count <= steady_count + 1; - end - end - RAMP_DOWN: begin - if(ramp_count >= ramp_max_cnt) begin - ramp_count <= 0; - steady_count <= 0; - blink_state <= LED_OFF; - end else begin - ramp_count <= ramp_count + 1; - end - end - default: begin - blink_state <= LED_OFF; - ramp_count <= 28'b0; - steady_count <= 28'b0; - end - endcase - end - end - - -// RampUP/DN accumulators -always @ (posedge clk24M or posedge rst) - if (rst) begin - red_accum <= 32'b0; - grn_accum <= 32'b0; - blu_accum <= 32'b0; - end else begin - case (blink_state) - LED_OFF: begin - red_accum <= 0; - grn_accum <= 0; - blu_accum <= 0; - end - LED_ON: begin -// red_accum <= red_accum; -// grn_accum <= grn_accum; -// blu_accum <= blu_accum; - red_accum <= red_peak; - grn_accum <= grn_peak; - blu_accum <= blu_peak; - end - RAMP_UP: begin - red_accum <= red_accum + red_intensity_step; - grn_accum <= grn_accum + grn_intensity_step; - blu_accum <= blu_accum + blu_intensity_step; - end - RAMP_DOWN: begin - red_accum <= red_accum - red_intensity_step; - grn_accum <= grn_accum - grn_intensity_step; - blu_accum <= blu_accum - blu_intensity_step; - end - default: begin - red_accum <= 0; - grn_accum <= 0; - blu_accum <= 0; - end - endcase - end - - -// set PWM duty cycle. 8-bit resolution 0x100 is 100% on -always @ (posedge clk24M or posedge rst) - if (rst) begin - curr_red <= 18'b0; - curr_grn <= 18'b0; - curr_blu <= 18'b0; - end else begin - case (blink_state) - LED_ON: begin - curr_red <= red_peak[31:14]; // there should be no discrepancy between _peak and _accum in this state - curr_grn <= grn_peak[31:14]; - curr_blu <= blu_peak[31:14]; - end - RAMP_UP: begin - curr_red <= red_accum[31:14]; - curr_grn <= grn_accum[31:14]; - curr_blu <= blu_accum[31:14]; - end - RAMP_DOWN: begin - curr_red <= red_accum[31:14]; - curr_grn <= grn_accum[31:14]; - curr_blu <= blu_accum[31:14]; - end - LED_OFF: begin - curr_red <= 0; - curr_grn <= 0; - curr_blu <= 0; - end - default: begin - curr_red <= 0; - curr_grn <= 0; - curr_blu <= 0; - end - endcase - end - -// generate PWM outputs -always @ (posedge clk24M or posedge rst) - if (rst) begin - pwm_count <= 18'b0; - red_pwm <= 0; - grn_pwm <= 0; - blu_pwm <= 0; - end else begin - if(pwm_count < 131071) - pwm_count <= pwm_count + 1; - else - pwm_count <= 0; - - if(pwm_count < curr_red) - red_pwm <= 1; - else - red_pwm <= 0; - - if(pwm_count < curr_grn) - grn_pwm <= 1; - else - grn_pwm <= 0; - - if(pwm_count < curr_blu) - blu_pwm <= 1; - else - blu_pwm <= 0; - - end - - -endmodule // LED_control - - From 0fc4fee4b30626a3a4dbb4e8737211e7181fa610 Mon Sep 17 00:00:00 2001 From: Niklas Boese Date: Thu, 15 Jun 2023 12:46:37 +0000 Subject: [PATCH 3/4] =?UTF-8?q?=E2=80=9EAmpelansteuerung/testbench.sv?= =?UTF-8?q?=E2=80=9C=20l=C3=B6schen?= MIME-Version: 1.0 Content-Type: text/plain; charset=UTF-8 Content-Transfer-Encoding: 8bit --- Ampelansteuerung/testbench.sv | 130 ---------------------------------- 1 file changed, 130 deletions(-) delete mode 100644 Ampelansteuerung/testbench.sv diff --git a/Ampelansteuerung/testbench.sv b/Ampelansteuerung/testbench.sv deleted file mode 100644 index 10c83b5..0000000 --- a/Ampelansteuerung/testbench.sv +++ /dev/null @@ -1,130 +0,0 @@ -// ================================================================== -// >>>>>>>>>>>>>>>>>>>>>>> COPYRIGHT NOTICE <<<<<<<<<<<<<<<<<<<<<<<<< -// ------------------------------------------------------------------ -// Copyright (c) 2017 by Lattice Semiconductor Corporation -// ALL RIGHTS RESERVED -// ------------------------------------------------------------------ -// -// Permission: -// -// Lattice SG Pte. Ltd. grants permission to use this code -// pursuant to the terms of the Lattice Reference Design License Agreement. -// -// -// Disclaimer: -// -// This VHDL or Verilog source code is intended as a design reference -// which illustrates how these types of functions can be implemented. -// It is the user's responsibility to verify their design for -// consistency and functionality through the use of formal -// verification methods. Lattice provides no warranty -// regarding the use or functionality of this code. -// -// -------------------------------------------------------------------- -// -// Lattice SG Pte. Lt++++++++++++++++d. -// 101 Thomson Road, United Square #07-02 -// Singapore 307591 -// -// -// TEL: 1-800-Lattice (USA and Canada) -// +65-6631-2000 (Singapore) -// +1-503-268-8001 (other locations) -// -// web: http://www.latticesemi.com/ -// email: techsupport@latticesemi.com -// -// -------------------------------------------------------------------- -// -// Project: iCE5UP 5K RGB LED Tutorial -// File: testbench.v -// Title: LED PWM control -// Description: Creates RGB PWM per control inputs -// -// -// -------------------------------------------------------------------- -// -//------------------------------------------------------------ -// Notes: -// -// -//------------------------------------------------------------ -// Development History: -// -// __DATE__ _BY_ _REV_ _DESCRIPTION___________________________ -// 04/05/17 RK 1.0 Initial tutorial design for Lattice Radiant -// -//------------------------------------------------------------ -// Dependencies: -// -// -// -//------------------------------------------------------------ - - - -//------------------------------------------------------------ -// -// -// Testbench -// -//------------------------------------------------------------ -`timescale 1ns/1ps -module tb; - -//GSR GSR_INST ( .GSR(1)); -//PUR PUR_INST ( .PUR(1)); - - - -reg clk12M; -reg rst; -reg [1:0]color_sel; -reg RGB_Blink_En; -wire REDn; -wire BLUn; -wire GRNn; -wire RED; -wire BLU; -wire GRN; - -led_top dut(.clk12M(clk12M), - .rst(rst), - .color_sel(color_sel), - .RGB_Blink_En(RGB_Blink_En), - .REDn(REDn), - .BLUn(BLUn), - .GRNn(GRNn), - .RED(RED), - .BLU(BLU), - .GRN(GRN) - ); - -initial -begin - clk12M=1'b0; -end - -always - #41.666666 clk12M=~clk12M; //clock generation - - - initial - begin - rst=1'b1; - color_sel=2'b01; - RGB_Blink_En=1'b0; - #1000 - rst=1'b0; - #3000000 - color_sel=2'b11; - #3000000 - $stop; - end - - initial - begin - $monitor("time=%t,RGB_Blink_En=%d,rst=%d,color_sel=%2d, REDn=%d, BLUn=%d, GRNn=%d",$time,RGB_Blink_En,rst,color_sel,REDn,BLUn,GRNn); - end - -endmodule \ No newline at end of file From 4e14cf9bf6f972c7ab2966b6a6004b6bead215d7 Mon Sep 17 00:00:00 2001 From: Niklas Boese Date: Thu, 15 Jun 2023 12:47:05 +0000 Subject: [PATCH 4/4] =?UTF-8?q?Dateien=20hochladen=20nach=20=E2=80=9EAmpel?= =?UTF-8?q?ansteuerung=E2=80=9C?= MIME-Version: 1.0 Content-Type: text/plain; charset=UTF-8 Content-Transfer-Encoding: 8bit --- Ampelansteuerung/LED_control.sv | 498 ++++++++++++++++++++++++++++++++ Ampelansteuerung/steuerung.sv | 63 ++++ 2 files changed, 561 insertions(+) create mode 100644 Ampelansteuerung/LED_control.sv create mode 100644 Ampelansteuerung/steuerung.sv diff --git a/Ampelansteuerung/LED_control.sv b/Ampelansteuerung/LED_control.sv new file mode 100644 index 0000000..f4bc431 --- /dev/null +++ b/Ampelansteuerung/LED_control.sv @@ -0,0 +1,498 @@ +// ================================================================== +// >>>>>>>>>>>>>>>>>>>>>>> COPYRIGHT NOTICE <<<<<<<<<<<<<<<<<<<<<<<<< +// ------------------------------------------------------------------ +// Copyright (c) 2017 by Lattice Semiconductor Corporation +// ALL RIGHTS RESERVED +// ------------------------------------------------------------------ +// +// Permission: +// +// Lattice SG Pte. Ltd. grants permission to use this code +// pursuant to the terms of the Lattice Reference Design License Agreement. +// +// +// Disclaimer: +// +// This VHDL or Verilog source code is intended as a design reference +// which illustrates how these types of functions can be implemented. +// It is the user's responsibility to verify their design for +// consistency and functionality through the use of formal +// verification methods. Lattice provides no warranty +// regarding the use or functionality of this code. +// +// -------------------------------------------------------------------- +// +// Lattice SG Pte. Ltd. +// 101 Thomson Road, United Square #07-02 +// Singapore 307591 +// +// +// TEL: 1-800-Lattice (USA and Canada) +// +65-6631-2000 (Singapore) +// +1-503-268-8001 (other locations) +// +// web: http://www.latticesemi.com/ +// email: techsupport@latticesemi.com +// +// -------------------------------------------------------------------- +// +// Project: iCE5UP 5K RGB LED Tutorial +// File: LED_control.v +// Title: LED PWM control +// Description: Creates RGB PWM per control inputs +// +// +// -------------------------------------------------------------------- +// +//------------------------------------------------------------ +// Notes: +// +// +//------------------------------------------------------------ +// Development History: +// +// __DATE__ _BY_ _REV_ _DESCRIPTION___________________________ +// 04/05/17 RK 1.0 Initial tutorial design for Lattice Radiant +// +//------------------------------------------------------------ +// Dependencies: +// +// +// +//------------------------------------------------------------ + + +module LED_control1 ( + // inputs + input wire clk12M, // 12M clock + input wire rst, // Asynchronous reset + input wire [1:0] color_sel, // for selecting color using switches + input wire rw, // read or write select switch + //outputs + output reg red_pwm, // Red + output reg blu_pwm, // Blue + output reg grn_pwm // Green + ); + + +//------------------------------ +// INTERNAL SIGNAL DECLARATIONS: +//------------------------------ +// parameters (constants) +parameter on_hi = 2'b10; +parameter on_lo = 2'b01; +parameter off = 2'b00; + +parameter LED_OFF = 2'b00; +parameter RAMP_UP = 2'b01; +parameter LED_ON = 2'b10; +parameter RAMP_DOWN = 2'b11; + +parameter on_max_cnt = 28'h16E35ED; // 1 sec steady + +parameter Brightness=4'b0111; //50% Brightness +parameter BreatheRamp=4'b0111; //4x +parameter BlinkRate=4'b0101; //1sec + + +// wires (assigns) +wire [3:0]RGB_color; +wire [4:0] red_intensity; +wire [4:0] grn_intensity; +wire [4:0] blu_intensity; +wire clk24M; +wire LOCK; + +// regs (always) +reg [1:0] clk_div_cnt; // + +reg [3:0] RGB_color_s; // sample values from SPI i/f +reg [3:0] Brightness_s; +reg [3:0] BreatheRamp_s; +reg [3:0] BlinkRate_s; + +reg [1:0] red_set; // hi/lo/off +reg [1:0] grn_set; +reg [1:0] blu_set; + +reg [31:0] red_peak; // LED 'on' peak intensity (high precision) +reg [31:0] grn_peak; +reg [31:0] blu_peak; + +reg [27:0] off_max_cnt; // LED off duration +reg [3:0] step_shift; // scaling calculation aid + +reg [27:0] ramp_max_cnt; // LED ramp up/down duration +reg [31:0] red_intensity_step; // LED intensity step when ramping +reg [31:0] grn_intensity_step; +reg [31:0] blu_intensity_step; + +reg [1:0] blink_state; // state variable +reg [27:0] ramp_count; // counter for LED on/off duration +reg [27:0] steady_count; // counter for LED ramp up/down duration + +reg [31:0] red_accum; // intensity accumulator during ramp +reg [31:0] grn_accum; +reg [31:0] blu_accum; + +reg [17:0] curr_red; // current LED intensity ( /256 = PWM duty cycle) +reg [17:0] curr_grn; +reg [17:0] curr_blu; + +reg [17:0] pwm_count; // PWM counter + +reg [7:0] count = 8'b0; + +//------------------------------ +// PLL Instantiation +//------------------------------ +//Block to reset the PLL initially + +pll_24M __(.ref_clk_i(clk12M ), .rst_n_i(~rst), .lock_o(LOCK), .outcore_o( ), .outglobal_o(clk24M)); + +//Selecting color using "color_sel" +assign RGB_color = {2'b0,color_sel}; + +// Capture stable parameters in local clock domain +always @ (posedge clk24M or posedge rst) + if (rst) begin + RGB_color_s <= 4'b0000; + Brightness_s <= 4'b0111; + BreatheRamp_s <= 4'b0000; + BlinkRate_s <= 4'b0101; + //end else if(!RGB_Blink_En) begin //TODO ReadWrite Difference + //RGB_color_s <= RGB_color ; + //Brightness_s <= Brightness ; + //BreatheRamp_s <= 4'b0000 ; + //BlinkRate_s <= 4'b0000 ; + end else begin + RGB_color_s <= RGB_color ; + Brightness_s <= Brightness ; + BreatheRamp_s <= 4'b0000 ; + BlinkRate_s <= 4'b0000 ; + end + + +// interpret 'brightness' setting +assign red_intensity = Brightness_s + 1'b1; +assign grn_intensity = Brightness_s + 1'b1; +assign blu_intensity = Brightness_s + 1'b1; + + +// interpret 'color' setting +always @ (RGB_color_s) + case (RGB_color_s) + 4'b0000: begin red_set <= on_hi; grn_set <= off; blu_set <= off; end //Red + 4'b0001: begin red_set <= on_hi; grn_set <= on_lo; blu_set <= off; end //Orange + 4'b0010: begin red_set <= off; grn_set <= on_hi; blu_set <= off; end //Green + 4'b0011: begin red_set <= off; grn_set <= on_hi; blu_set <= on_hi; end //Cyan + 4'b0100: begin red_set <= off; grn_set <= on_hi; blu_set <= on_lo; end //SpringGreen + 4'b0101: begin red_set <= on_hi; grn_set <= on_hi; blu_set <= off; end //Yellow + 4'b0110: begin red_set <= on_lo; grn_set <= on_hi; blu_set <= off; end //Chartreuse + 4'b0111: begin red_set <= off; grn_set <= on_lo; blu_set <= on_hi; end //Azure + 4'b1000: begin red_set <= off; grn_set <= off; blu_set <= on_hi; end //Blue + 4'b1001: begin red_set <= on_lo; grn_set <= off; blu_set <= on_hi; end //Violet + 4'b1010: begin red_set <= on_hi; grn_set <= off; blu_set <= on_hi; end //Magenta + 4'b1011: begin red_set <= on_hi; grn_set <= off; blu_set <= on_lo; end //Rose + 4'b1111: begin red_set <= on_hi; grn_set <= on_hi; blu_set <= on_hi; end //White + default: begin red_set <= off; grn_set <= off; blu_set <= off; end //2'b00 + endcase + +// set peak values per 'brightness' and 'color' +// when color setting is 'on_lo', then peak intensity is divided by 2 +always @ (posedge clk24M or posedge rst) + if (rst) begin + red_peak <= 32'b0; + end else begin + case (red_set) + on_hi: red_peak <= {red_intensity, 27'h000}; // 100% + on_lo: red_peak <= {1'b0,red_intensity, 26'h000}; // 50% + default: red_peak <= 32'h00000; + endcase + end + +always @ (posedge clk24M or posedge rst) + if (rst) begin + grn_peak <= 32'b0; + end else begin + case (grn_set) + on_hi: grn_peak <= {grn_intensity, 27'h000}; // 100% + on_lo: grn_peak <= {1'b0,grn_intensity, 26'h000}; // 50% + default: grn_peak <= 32'h00000; + endcase + end + +always @ (posedge clk24M or posedge rst) + if (rst) begin + blu_peak <= 32'b0; + end else begin + case (blu_set) + on_hi: blu_peak <= {blu_intensity, 27'h000}; // 100% + on_lo: blu_peak <= {1'b0,blu_intensity, 26'h000}; // 50% + default: blu_peak <= 32'h00000; + endcase + end + +// interpret 'Blink rate' setting +// 'off_max_cnt' is time spent in 'LED_OFF' states +// 'step_shift' is used to scale the intensity step size. +// Stated period is blink rate with no ramp. Ramping adds to the period. +always @ (posedge clk24M or posedge rst) + if (rst) begin + off_max_cnt <= 28'h0 - 1; + //step_shift <= 4'b0; + end else begin + case (BlinkRate_s) + 4'b0001: begin off_max_cnt <= 28'h016E35F; end // 1/16sec + 4'b0010: begin off_max_cnt <= 28'h02DC6BE; end // 1/8 sec + 4'b0011: begin off_max_cnt <= 28'h05B8D7B; end // 1/4 sec + 4'b0100: begin off_max_cnt <= 28'h0B71AF6; end // 1/2 sec + 4'b0101: begin off_max_cnt <= 28'h16E35ED; end // 1 sec + 4'b0110: begin off_max_cnt <= 28'h2DC6BDA; end // 2 sec + 4'b0111: begin off_max_cnt <= 28'h5B8D7B3; end // 4 sec + + + default: begin off_max_cnt <= 28'h0; end // + endcase + end + + +// interpret 'Breathe Ramp' setting +// 'ramp_max_cnt' is time spent in 'RAMP_UP', RAMP_DOWN' states +// '***_intensity_step' is calculated to add to color accumulators each ramp step +always @ (posedge clk24M or posedge rst) + if (rst) begin + ramp_max_cnt <= 28'b0; + red_intensity_step <= 28'b0; + grn_intensity_step <= 28'b0; + blu_intensity_step <= 28'b0; + end else begin + case (BreatheRamp_s) + 4'b0001: begin + ramp_max_cnt <= 28'h016E35F; // 1/16sec + red_intensity_step <= red_peak >> (21) ; + grn_intensity_step <= grn_peak >> (21) ; + blu_intensity_step <= blu_peak >> (21) ; + end + 4'b0010: begin + ramp_max_cnt <= 28'h02DC6BE; // 1/8 sec + red_intensity_step <= red_peak >> (22) ; + grn_intensity_step <= grn_peak >> (22) ; + blu_intensity_step <= blu_peak >> (22) ; + end + 4'b0011: begin + ramp_max_cnt <= 28'h05B8D7B; // 1/4 sec + red_intensity_step <= red_peak >> (23) ; + grn_intensity_step <= grn_peak >> (23) ; + blu_intensity_step <= blu_peak >> (23) ; + end + 4'b0100: begin + ramp_max_cnt <=28'h0B71AF6; + red_intensity_step <= red_peak >> (24) ;//1/2 + grn_intensity_step <= grn_peak >> (24) ; + blu_intensity_step <= blu_peak >> (24) ; + end + 4'b0101: begin + ramp_max_cnt <= 28'h16E35ED; // 1 sec + red_intensity_step <= red_peak >> (25) ; + grn_intensity_step <= grn_peak >> (25) ; + blu_intensity_step <= blu_peak >> (25) ; + + end + 4'b0110: begin + ramp_max_cnt <= 28'h2DC6BDA; + red_intensity_step <= red_peak >> (26) ; //2 sec + grn_intensity_step <= grn_peak >> (26) ; + blu_intensity_step <= blu_peak >> (26) ; + + end + 4'b0111: begin + ramp_max_cnt <= 28'h5B8D7B3; // 4 sec + red_intensity_step <= red_peak >> (27) ; + grn_intensity_step <= grn_peak >> (27) ; + blu_intensity_step <= blu_peak >> (27) ; + end + default: begin + ramp_max_cnt <= 28'd0; + red_intensity_step <= 28'b0; + grn_intensity_step <= 28'b0; + blu_intensity_step <= 28'b0; + end + endcase + end + +// state machine to create LED ON/OFF/RAMP periods +// state machine is held (no cycles) if LED is steady state on/off +// state machine is reset to LED_ON state whenever parameters are updated. +always @ (posedge clk24M or posedge rst) + if (rst) begin + blink_state <= LED_OFF; + ramp_count <= 28'b0; + steady_count <= 28'b0; + end else begin + if(BlinkRate_s == 4'b0000) begin + blink_state <= LED_ON; + ramp_count <= 0; + steady_count <= 0; + end else if (BlinkRate_s == 4'b1000) begin + blink_state <= LED_OFF; + ramp_count <= 0; + steady_count <= 0; + end else begin + case (blink_state) + LED_OFF: begin + if(steady_count >= off_max_cnt) begin + ramp_count <= 0; + steady_count <= 0; + blink_state <= RAMP_UP; + end else begin + steady_count <= steady_count + 1; + end + end + RAMP_UP: begin + if(ramp_count >= ramp_max_cnt) begin + ramp_count <= 0; + steady_count <= 0; + blink_state <= LED_ON; + end else begin + ramp_count <= ramp_count + 1; + end + end + LED_ON: begin + if(steady_count >= on_max_cnt) begin + ramp_count <= 0; + steady_count <= 0; + blink_state <= RAMP_DOWN; + end else begin + steady_count <= steady_count + 1; + end + end + RAMP_DOWN: begin + if(ramp_count >= ramp_max_cnt) begin + ramp_count <= 0; + steady_count <= 0; + blink_state <= LED_OFF; + end else begin + ramp_count <= ramp_count + 1; + end + end + default: begin + blink_state <= LED_OFF; + ramp_count <= 28'b0; + steady_count <= 28'b0; + end + endcase + end + end + + +// RampUP/DN accumulators +always @ (posedge clk24M or posedge rst) + if (rst) begin + red_accum <= 32'b0; + grn_accum <= 32'b0; + blu_accum <= 32'b0; + end else begin + case (blink_state) + LED_OFF: begin + red_accum <= 0; + grn_accum <= 0; + blu_accum <= 0; + end + LED_ON: begin +// red_accum <= red_accum; +// grn_accum <= grn_accum; +// blu_accum <= blu_accum; + red_accum <= red_peak; + grn_accum <= grn_peak; + blu_accum <= blu_peak; + end + RAMP_UP: begin + red_accum <= red_accum + red_intensity_step; + grn_accum <= grn_accum + grn_intensity_step; + blu_accum <= blu_accum + blu_intensity_step; + end + RAMP_DOWN: begin + red_accum <= red_accum - red_intensity_step; + grn_accum <= grn_accum - grn_intensity_step; + blu_accum <= blu_accum - blu_intensity_step; + end + default: begin + red_accum <= 0; + grn_accum <= 0; + blu_accum <= 0; + end + endcase + end + + +// set PWM duty cycle. 8-bit resolution 0x100 is 100% on +always @ (posedge clk24M or posedge rst) + if (rst) begin + curr_red <= 18'b0; + curr_grn <= 18'b0; + curr_blu <= 18'b0; + end else begin + case (blink_state) + LED_ON: begin + curr_red <= red_peak[31:14]; // there should be no discrepancy between _peak and _accum in this state + curr_grn <= grn_peak[31:14]; + curr_blu <= blu_peak[31:14]; + end + RAMP_UP: begin + curr_red <= red_accum[31:14]; + curr_grn <= grn_accum[31:14]; + curr_blu <= blu_accum[31:14]; + end + RAMP_DOWN: begin + curr_red <= red_accum[31:14]; + curr_grn <= grn_accum[31:14]; + curr_blu <= blu_accum[31:14]; + end + LED_OFF: begin + curr_red <= 0; + curr_grn <= 0; + curr_blu <= 0; + end + default: begin + curr_red <= 0; + curr_grn <= 0; + curr_blu <= 0; + end + endcase + end + +// generate PWM outputs +always @ (posedge clk24M or posedge rst) + if (rst) begin + pwm_count <= 18'b0; + red_pwm <= 0; + grn_pwm <= 0; + blu_pwm <= 0; + end else begin + if(pwm_count < 131071) + pwm_count <= pwm_count + 1; + else + pwm_count <= 0; + + if(pwm_count < curr_red) + red_pwm <= 1; + else + red_pwm <= 0; + + if(pwm_count < curr_grn) + grn_pwm <= 1; + else + grn_pwm <= 0; + + if(pwm_count < curr_blu) + blu_pwm <= 1; + else + blu_pwm <= 0; + + end + + +endmodule // LED_control + + diff --git a/Ampelansteuerung/steuerung.sv b/Ampelansteuerung/steuerung.sv new file mode 100644 index 0000000..de80e6d --- /dev/null +++ b/Ampelansteuerung/steuerung.sv @@ -0,0 +1,63 @@ +module steuerung ( +bus.steuerung_port b, //b.dip[3:0], b.timer, b.clk, b.spi_read[1:0] +led_if.led_port_top i //i.rgb[2:0], i.rgbn[2:0] +); + +//dip[3:2] -> select colour, dip[1] -> read ~ 1/write ~ 0, dip[0] -> on ~ 1/off ~ 0 + +//input wire clk12M, -> b.clk +//input wire rst, -> b.dip[0] +//input wire [1:0] color_sel, -> b.dip[3:2] +//input wire rw, -> b.dip[1] +//output reg REDn, -> i.rgbn[0] +//output reg BLUn, -> i.rgbn[1] +//output reg GRNn, -> i.rgbn[2] +//output reg RED, -> i.rgb[0] +//output reg BLU, -> i.rgb[1] +//output reg GRN -> i.rgb[2] + + +wire red_pwm; +wire grn_pwm; +wire blu_pwm; + + +defparam U1.on_hi = 2'b10; +defparam U1.on_lo = 2'b01; +defparam U1.off = 2'b00; +defparam U1.LED_OFF = 2'b00; +defparam U1.RAMP_UP = 2'b01; +defparam U1.LED_ON = 2'b10; +defparam U1.RAMP_DOWN = 2'b11; +defparam U1.on_max_cnt = 28'h16E35ED; // 1 sec steady +defparam U1.Brightness = 4'b0111; // 50% Brightness +defparam U1.BreatheRamp = 4'b0110; // 2x +defparam U1.BlinkRate = 4'b0101; // 1 sec +defparam U2.RGB0_CURRENT = "0b111111"; +defparam U2.RGB1_CURRENT = "0b111111"; +defparam U2.RGB2_CURRENT = "0b111111"; + +LED_control1 U1 (.clk12M(b.clk),.rst(b.dip[0]),.color_sel(b.dip[3:2]),.rw(b.dip[1]),.red_pwm(red_pwm),.blu_pwm(blu_pwm),.grn_pwm(grn_pwm)); + + +RGB U2 (.CURREN('b1),.RGB0PWM(blu_pwm),.RGB1PWM(grn_pwm),.RGB2PWM(red_pwm),.RGBLEDEN('b1),.RGB0(i.rgbn[1]),.RGB1(i.rgbn[2]),.RGB2(rgbn[0])); + +assign i.rgb[0] = red_pwm; +assign i.rgb[2] = grn_pwm; +assign i.rgb[1] = blu_pwm; + +endmodule + + + + + + + + + + + + + +