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/System09/trunk/rtl/Verilog/rgb2hdmi_encode.v
0,0 → 1,74
// RGB2HDMI_encoder |
// Derived from HDMI_test.v https://www.fpga4fun.com/HDMI.html |
// (c) fpga4fun.com & KNJN LLC 2013 |
|
//////////////////////////////////////////////////////////////////////// |
module RGB2HDMI_encoder( |
input pixclk, // 25MHz |
input vSync, |
input hSync, |
input DrawArea, |
input [7:0] red, |
input [7:0] green, |
input [7:0] blue, |
output [2:0] TMDSp, TMDSn, |
output TMDSp_clock, TMDSn_clock |
); |
//////////////////////////////////////////////////////////////////////// |
wire [9:0] TMDS_red, TMDS_green, TMDS_blue; |
TMDS_encoder encode_R(.clk(pixclk), .VD(red ), .CD(2'b00) , .VDE(DrawArea), .TMDS(TMDS_red)); |
TMDS_encoder encode_G(.clk(pixclk), .VD(green), .CD(2'b00) , .VDE(DrawArea), .TMDS(TMDS_green)); |
TMDS_encoder encode_B(.clk(pixclk), .VD(blue ), .CD({vSync,hSync}), .VDE(DrawArea), .TMDS(TMDS_blue)); |
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//////////////////////////////////////////////////////////////////////// |
wire clk_TMDS, DCM_TMDS_CLKFX; // 25MHz x 10 = 250MHz |
DCM_SP #(.CLKFX_MULTIPLY(10)) DCM_TMDS_inst(.CLKIN(pixclk), .CLKFX(DCM_TMDS_CLKFX), .RST(1'b0)); |
BUFG BUFG_TMDSp(.I(DCM_TMDS_CLKFX), .O(clk_TMDS)); |
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//////////////////////////////////////////////////////////////////////// |
reg [3:0] TMDS_mod10=0; // modulus 10 counter |
reg [9:0] TMDS_shift_red=0, TMDS_shift_green=0, TMDS_shift_blue=0; |
reg TMDS_shift_load=0; |
always @(posedge clk_TMDS) TMDS_shift_load <= (TMDS_mod10==4'd9); |
|
always @(posedge clk_TMDS) |
begin |
TMDS_shift_red <= TMDS_shift_load ? TMDS_red : TMDS_shift_red [9:1]; |
TMDS_shift_green <= TMDS_shift_load ? TMDS_green : TMDS_shift_green[9:1]; |
TMDS_shift_blue <= TMDS_shift_load ? TMDS_blue : TMDS_shift_blue [9:1]; |
TMDS_mod10 <= (TMDS_mod10==4'd9) ? 4'd0 : TMDS_mod10+4'd1; |
end |
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OBUFDS OBUFDS_red (.I(TMDS_shift_red [0]), .O(TMDSp[2]), .OB(TMDSn[2])); |
OBUFDS OBUFDS_green(.I(TMDS_shift_green[0]), .O(TMDSp[1]), .OB(TMDSn[1])); |
OBUFDS OBUFDS_blue (.I(TMDS_shift_blue [0]), .O(TMDSp[0]), .OB(TMDSn[0])); |
OBUFDS OBUFDS_clock(.I(pixclk), .O(TMDSp_clock), .OB(TMDSn_clock)); |
endmodule |
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//////////////////////////////////////////////////////////////////////// |
module TMDS_encoder( |
input clk, |
input [7:0] VD, // video data (red, green or blue) |
input [1:0] CD, // control data |
input VDE, // video data enable, to choose between CD (when VDE=0) and VD (when VDE=1) |
output reg [9:0] TMDS = 0 |
); |
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wire [3:0] Nb1s = VD[0] + VD[1] + VD[2] + VD[3] + VD[4] + VD[5] + VD[6] + VD[7]; |
wire XNOR = (Nb1s>4'd4) || (Nb1s==4'd4 && VD[0]==1'b0); |
wire [8:0] q_m = {~XNOR, q_m[6:0] ^ VD[7:1] ^ {7{XNOR}}, VD[0]}; |
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reg [3:0] balance_acc = 0; |
wire [3:0] balance = q_m[0] + q_m[1] + q_m[2] + q_m[3] + q_m[4] + q_m[5] + q_m[6] + q_m[7] - 4'd4; |
wire balance_sign_eq = (balance[3] == balance_acc[3]); |
wire invert_q_m = (balance==0 || balance_acc==0) ? ~q_m[8] : balance_sign_eq; |
wire [3:0] balance_acc_inc = balance - ({q_m[8] ^ ~balance_sign_eq} & ~(balance==0 || balance_acc==0)); |
wire [3:0] balance_acc_new = invert_q_m ? balance_acc-balance_acc_inc : balance_acc+balance_acc_inc; |
wire [9:0] TMDS_data = {invert_q_m, q_m[8], q_m[7:0] ^ {8{invert_q_m}}}; |
wire [9:0] TMDS_code = CD[1] ? (CD[0] ? 10'b1010101011 : 10'b0101010100) : (CD[0] ? 10'b0010101011 : 10'b1101010100); |
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always @(posedge clk) TMDS <= VDE ? TMDS_data : TMDS_code; |
always @(posedge clk) balance_acc <= VDE ? balance_acc_new : 4'h0; |
endmodule |
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//////////////////////////////////////////////////////////////////////// |