(原創) 如何Real Time產生灰階影像? (SOC) (DE2-70) (TRDB-D5M)

Abstract
本文討論如何在DE2-70平台實現。

Introduction
使用環境：Quartus II 7.2 SP3 + DE2-70 (Cyclone II EP2C70F896C6N) + TRDB-D5M

在(原創) 如何Real Time產生灰階影像? (SOC) (DE2) (TRDB-DC2)，我們討論了real time產生灰階影像的原理架構，並在DE2平台實現，DE2-70與DE2有些許不同：
1.DE2-70提供兩顆32MB SDRAM做frame buffer。
2.DE2-70使用TRDB-D5M這個500萬像素CMOS。
3.DE2-70使用4.3寸800 x 480的LTM。

對於產生灰階影像來說，由於SDRAM與LTM的改變，所以實現上必須稍做調整。

Method 1：
在SDRAM之前

DE2_70.v / Verilog

1 /*
2 (C) OOMusou 2008 http://oomusou.cnblogs.com
3
4 Filename    : DE2_70.v
5 Compiler    : Quartus II 7.2 SP3
6 Description : Demo how to use TRDB-D5M with LTM to make gray before SDRAM on DE2-70
7 Release     : 08/23/2008 1.0
8 */
9
10 module DE2_70 (
11   Clock Input
12   input          iCLK_28,           // 28.63636 MHz
13   input          iCLK_50,           // 50 MHz
14   input          iCLK_50_2,         // 50 MHz
15   input          iCLK_50_3,         // 50 MHz
16   input          iCLK_50_4,         // 50 MHz
17   input          iEXT_CLOCK,        // External Clock
18   Push Button
19   input [3:0]   iKEY,              // Pushbutton[3:0]
20   DPDT Switch
21   input [17:0] iSW,               // Toggle Switch[17:0]
22   7-SEG Dispaly
23   output [6:0]   oHEX0_D,           // Seven Segment Digit 0
24   output         oHEX0_DP,          // Seven Segment Digit 0 decimal point
25   output [6:0]   oHEX1_D,           // Seven Segment Digit 1
26   output         oHEX1_DP,          // Seven Segment Digit 1 decimal point
27   output [6:0]   oHEX2_D,           // Seven Segment Digit 2
28   output         oHEX2_DP,          // Seven Segment Digit 2 decimal point
29   output [6:0]   oHEX3_D,           // Seven Segment Digit 3
30   output         oHEX3_DP,          // Seven Segment Digit 3 decimal point
31   output [6:0]   oHEX4_D,           // Seven Segment Digit 4
32   output         oHEX4_DP,          // Seven Segment Digit 4 decimal point
33   output [6:0]   oHEX5_D,           // Seven Segment Digit 5
34   output         oHEX5_DP,          // Seven Segment Digit 5 decimal point
35   output [6:0]   oHEX6_D,           // Seven Segment Digit 6
36   output         oHEX6_DP,          // Seven Segment Digit 6 decimal point
37   output [6:0]   oHEX7_D,           // Seven Segment Digit 7
38   output         oHEX7_DP,          // Seven Segment Digit 7 decimal point
39   //// LED ////
40   output [8:0]   oLEDG,             // LED Green[8:0]
41   output [17:0] oLEDR,             // LED Red[17:0]
42   //// UART ////
43   output         oUART_TXD,         // UART Transmitter
44   input          iUART_RXD,         // UART Receiver
45   output         oUART_CTS,         // UART Clear To Send
46   input          iUART_RTS,         // UART Requst To Send
47   //// IRDA ////
48   output         oIRDA_TXD,         // IRDA Transmitter
49   input          iIRDA_RXD,         // IRDA Receiver
50   /// SDRAM Interface
51   inout   [31:0] DRAM_DQ,           // SDRAM Data bus 32 Bits
52   output [12:0] oDRAM0_A,          // SDRAM0 Address bus 13 Bits
53   output [12:0] oDRAM1_A,          // SDRAM1 Address bus 13 Bits
54   output         oDRAM0_LDQM0,      // SDRAM0 Low-byte Data Mask
55   output         oDRAM1_LDQM0,      // SDRAM1 Low-byte Data Mask
56   output         oDRAM0_UDQM1,      // SDRAM0 High-byte Data Mask
57   output         oDRAM1_UDQM1,      // SDRAM1 High-byte Data Mask
58   output         oDRAM0_WE_N,       // SDRAM0 Write Enable
59   output         oDRAM1_WE_N,       // SDRAM1 Write Enable
60   output         oDRAM0_CAS_N,      // SDRAM0 Column Address Strobe
61   output         oDRAM1_CAS_N,      // SDRAM1 Column Address Strobe
62   output         oDRAM0_RAS_N,      // SDRAM0 Row Address Strobe
63   output         oDRAM1_RAS_N,      // SDRAM1 Row Address Strobe
64   output         oDRAM0_CS_N,       // SDRAM0 Chip Select
65   output         oDRAM1_CS_N,       // SDRAM1 Chip Select
66   output [1:0] oDRAM0_BA,         // SDRAM0 Bank Address
67   output [1:0] oDRAM1_BA,         // SDRAM1 Bank Address
68   output         oDRAM0_CLK,        // SDRAM0 Clock
69   output         oDRAM1_CLK,        // SDRAM1 Clock
70   output         oDRAM0_CKE,        // SDRAM0 Clock Enable
71   output         oDRAM1_CKE,        // SDRAM1 Clock Enable
72   Flash Interface
73   inout   [14:0] FLASH_DQ,          // FLASH Data bus 15 Bits (0 to 14)
74   inout          FLASH_DQ15_AM1,    // FLASH Data bus Bit 15 or Address A-1
75   output [21:0] oFLASH_A,          // FLASH Address bus 26 Bits
76   output         oFLASH_WE_N,       // FLASH Write Enable
77   output         oFLASH_RST_N,      // FLASH Reset
78   output         oFLASH_WP_N,       // FLASH Write Protect /Programming Acceleration
79   input          iFLASH_RY_N,       // FLASH Ready/Busy output
80   output         oFLASH_BYTE_N,     // FLASH Byte/Word Mode Configuration
81   output         oFLASH_OE_N,       // FLASH Output Enable
82   output         oFLASH_CE_N,       // FLASH Chip Enable
83   SRAM Interface
84   inout   [31:0] SRAM_DQ,           // SRAM Data Bus 32 Bits
85   inout   [3:0] SRAM_DPA,          // SRAM Parity Data Bus
86   output [18:0] oSRAM_A,           // SRAM Address bus 21 Bits
87   output         oSRAM_ADSC_N,      // SRAM Controller Address Status
88   output         oSRAM_ADSP_N,      // SRAM Processor Address Status
89   output         oSRAM_ADV_N,       // SRAM Burst Address Advance
90   output [3:0] oSRAM_BE_N,        // SRAM Byte Write Enable
91   output         oSRAM_CE1_N,       // SRAM Chip Enable
92   output         oSRAM_CE2,         // SRAM Chip Enable
93   output         oSRAM_CE3_N,       // SRAM Chip Enable
94   output         oSRAM_CLK,         // SRAM Clock
95   output         oSRAM_GW_N,        // SRAM Global Write Enable
96   output         oSRAM_OE_N,        // SRAM Output Enable
97   output         oSRAM_WE_N,        // SRAM Write Enable
98   //// ISP1362 Interface
99   inout   [15:0] OTG_D,             // ISP1362 Data bus 16 Bits
100   output [1:0] oOTG_A,            // ISP1362 Address 2 Bits
101   output         oOTG_CS_N,         // ISP1362 Chip Select
102   output         oOTG_OE_N,         // ISP1362 Read
103   output         oOTG_WE_N,         // ISP1362 Write
104   output         oOTG_RESET_N,      // ISP1362 Reset
105   inout          OTG_FSPEED,        // USB Full Speed,    0 = Enable, Z = Disable
106   inout          OTG_LSPEED,        // USB Low Speed,     0 = Enable, Z = Disable
107   input          iOTG_INT0,         // ISP1362 Interrupt 0
108   input          iOTG_INT1,         // ISP1362 Interrupt 1
109   input          iOTG_DREQ0,        // ISP1362 DMA Request 0
110   input          iOTG_DREQ1,        // ISP1362 DMA Request 1
111   output         oOTG_DACK0_N,      // ISP1362 DMA Acknowledge 0
112   output         oOTG_DACK1_N,      // ISP1362 DMA Acknowledge 1
113   //// LCD Module 16X2 ////
114   inout   [7:0] LCD_D,             // LCD Data bus 8 bits
115   output         oLCD_ON,           // LCD Power ON/OFF
116   output         oLCD_BLON,         // LCD Back Light ON/OFF
117   output         oLCD_RW,           // LCD Read/Write Select, 0 = Write, 1 = Read
118   output         oLCD_EN,           // LCD Enable
119   output         oLCD_RS,           // LCD Command/Data Select, 0 = Command, 1 = Data
120   //// SD Card Interface
121   inout          SD_DAT,            // SD Card Data
122   inout          SD_DAT3,           // SD Card Data 3
123   inout          SD_CMD,            // SD Card Command Signal
124   output         oSD_CLK,           // SD Card Clock
125   I2C ////
126   inout          I2C_SDAT,          // I2C Data
127   output         oI2C_SCLK,         // I2C Clock
128   PS2 ////
129   inout          PS2_KBDAT,         // PS2 Keyboard Data
130   inout          PS2_KBCLK,         // PS2 Keyboard Clock
131   inout          PS2_MSDAT,         // PS2 Mouse Data
132   inout          PS2_MSCLK,         // PS2 Mouse Clock
133   VGA ////
134   output         oVGA_CLOCK,        // VGA Clock
135   output         oVGA_HS,           // VGA H_SYNC
136   output         oVGA_VS,           // VGA V_SYNC
137   output         oVGA_BLANK_N,      // VGA BLANK
138   output         oVGA_SYNC_N,       // VGA SYNC
139   output [9:0] oVGA_R,            // VGA Red[9:0]
140   output [9:0] oVGA_G,            // VGA Green[9:0]
141   output [9:0] oVGA_B,            // VGA Blue[9:0]
142   //// Ethernet Interface ////
143   inout   [15:0] ENET_D,            // DM9000A DATA bus 16Bits
144   output         oENET_CMD,         // DM9000A Command/Data Select, 0 = Command, 1 = Data
145   output         oENET_CS_N,        // DM9000A Chip Select
146   output         oENET_IOW_N,       // DM9000A Write
147   output         oENET_IOR_N,       // DM9000A Read
148   output         oENET_RESET_N,     // DM9000A Reset
149   input          iENET_INT,         // DM9000A Interrupt
150   output         oENET_CLK,         // DM9000A Clock 25 MHz
151   //// Audio CODEC ////
152   inout          AUD_ADCLRCK,       // Audio CODEC ADC LR Clock
153   input          iAUD_ADCDAT,       // Audio CODEC ADC Data
154   inout          AUD_DACLRCK,       // Audio CODEC DAC LR Clock
155   output         oAUD_DACDAT,       // Audio CODEC DAC Data
156   inout          AUD_BCLK,          // Audio CODEC Bit-Stream Clock
157   output         oAUD_XCK,          // Audio CODEC Chip Clock
158   //// TV Devoder   ////
159   input          iTD1_CLK27,        // TV Decoder1 Line_Lock Output Clock
160   input   [7:0] iTD1_D,            // TV Decoder1 Data bus 8 bits
161   input          iTD1_HS,           // TV Decoder1 H_SYNC
162   input          iTD1_VS,           // TV Decoder1 V_SYNC
163   output         oTD1_RESET_N,      // TV Decoder1 Reset
164   input          iTD2_CLK27,        // TV Decoder2 Line_Lock Output Clock
165   input   [7:0] iTD2_D,            // TV Decoder2 Data bus 8 bits
166   input          iTD2_HS,           // TV Decoder2 H_SYNC
167   input          iTD2_VS,           // TV Decoder2 V_SYNC
168   output         oTD2_RESET_N,      // TV Decoder2 Reset
169   GPIO ////
170   inout   [31:0] GPIO_0,            // GPIO Connection 0 I/O
171   input          GPIO_CLKIN_N0,     // GPIO Connection 0 Clock Input 0
172   input          GPIO_CLKIN_P0,     // GPIO Connection 0 Clock Input 1
173   inout          GPIO_CLKOUT_N0,    // GPIO Connection 0 Clock Output 0
174   inout          GPIO_CLKOUT_P0,    // GPIO Connection 0 Clock Output 1
175   inout   [31:0] GPIO_1,            // GPIO Connection 1 I/O
176   input          GPIO_CLKIN_N1,     // GPIO Connection 1 Clock Input 0
177   input          GPIO_CLKIN_P1,     // GPIO Connection 1 Clock Input 1
178   inout          GPIO_CLKOUT_N1,    // GPIO Connection 1 Clock Output 0
179   inout          GPIO_CLKOUT_P1     // GPIO Connection 1 Clock Output 1
180 );
181
182 // CCD
183 wire [11:0] CCD_DATA;
184 wire          CCD_SDAT;
185 wire          CCD_SCLK;
186 wire          CCD_FLASH;
187 wire          CCD_FVAL;
188 wire          CCD_LVAL;
189 wire          CCD_PIXCLK;
190 wire          CCD_MCLK; // CCD Master Clock
191
192 wire [15:0] Read_DATA1;
193 wire [15:0] Read_DATA2;
194 wire          VGA_CTRL_CLK;
195 wire [11:0] mCCD_DATA;
196 wire          mCCD_DVAL;
197 wire          mCCD_DVAL_d;
198 wire [15:0] X_Cont;
199 wire [15:0] Y_Cont;
200 wire [9:0]   X_ADDR;
201 wire [31:0] Frame_Cont;
202 wire          DLY_RST_0;
203 wire          DLY_RST_1;
204 wire          DLY_RST_2;
205 wire          Read;
206 reg   [11:0] rCCD_DATA;
207 reg           rCCD_LVAL;
208 reg           rCCD_FVAL;
209 wire [11:0] sCCD_R;
210 wire [11:0] sCCD_G;
211 wire [11:0] sCCD_B;
212 wire          sCCD_DVAL;
213 reg   [1:0]   rClk;
214 wire          sdram_ctrl_clk;
215
216 // Touch panel signal
217 wire [7:0] ltm_r;    // LTM Red Data 8 Bits
218 wire [7:0] ltm_g;    // LTM Green Data 8 Bits
219 wire [7:0] ltm_b;    // LTM Blue Data 8 Bits
220 wire        ltm_nclk; // LTM Clcok
221 wire        ltm_hd;
222 wire        ltm_vd;
223 wire        ltm_den;
224 wire        adc_dclk;
225 wire        adc_cs;
226 wire        adc_penirq_n;
227 wire        adc_busy;
228 wire        adc_din;
229 wire        adc_dout;
230 wire        adc_ltm_sclk;
231 wire        ltm_grst;
232
233 // LTM Config
234 wire      ltm_sclk;
235 wire      ltm_sda;
236 wire      ltm_scen;
237 wire      ltm_3wirebusy_n;
238
239 assign CCD_DATA[0]     = GPIO_1[11];
240 assign CCD_DATA[1]     = GPIO_1[10];
241 assign CCD_DATA[2]     = GPIO_1[9];
242 assign CCD_DATA[3]     = GPIO_1[8];
243 assign CCD_DATA[4]     = GPIO_1[7];
244 assign CCD_DATA[5]     = GPIO_1[6];
245 assign CCD_DATA[6]     = GPIO_1[5];
246 assign CCD_DATA[7]     = GPIO_1[4];
247 assign CCD_DATA[8]     = GPIO_1[3];
248 assign CCD_DATA[9]     = GPIO_1[2];
249 assign CCD_DATA[10]    = GPIO_1[1];
250 assign CCD_DATA[11]    = GPIO_1[0];
251 assign GPIO_CLKOUT_N1 = CCD_MCLK;
252 assign CCD_FVAL        = GPIO_1[18];
253 assign CCD_LVAL        = GPIO_1[17];
254 assign CCD_PIXCLK      = GPIO_CLKIN_N1;
255 assign GPIO_1[15]      = 1'b1; // tRIGGER
256 assign GPIO_1[14]      = DLY_RST_1;
257
258 assign oLEDR           = iSW;
259 assign oLEDG           = Y_Cont;
260
261 assign oTD1_RESET_N    = 1'b1;
262 assign oVGA_CLOCK      = ~VGA_CTRL_CLK;
263
264 assign CCD_MCLK        = rClk[0];
265 assign oUART_TXD       = iUART_RXD;
266
267 assign adc_penirq_n    = GPIO_CLKIN_N0;
268 assign adc_dout        = GPIO_0[0];
269 assign adc_busy        = GPIO_CLKIN_P0;
270 assign GPIO_0[1]       = adc_din;
271 assign GPIO_0[2]       = adc_ltm_sclk;
272 assign GPIO_0[3]       = ltm_b[3];
273 assign GPIO_0[4]       = ltm_b[2];
274 assign GPIO_0[5]       = ltm_b[1];
275 assign GPIO_0[6]       = ltm_b[0];
276 assign GPIO_0[7]       =~ltm_nclk;
277 assign GPIO_0[8]       = ltm_den;
278 assign GPIO_0[9]       = ltm_hd;
279 assign GPIO_0[10]      = ltm_vd;
280 assign GPIO_0[11]      = ltm_b[4];
281 assign GPIO_0[12]      = ltm_b[5];
282 assign GPIO_0[13]      = ltm_b[6];
283 assign GPIO_CLKOUT_N0 = ltm_b[7];
284 assign GPIO_0[14]      = ltm_g[0];
285 assign GPIO_CLKOUT_P0 = ltm_g[1];
286 assign GPIO_0[15]      = ltm_g[2];
287 assign GPIO_0[16]      = ltm_g[3];
288 assign GPIO_0[17]      = ltm_g[4];
289 assign GPIO_0[18]      = ltm_g[5];
290 assign GPIO_0[19]      = ltm_g[6];
291 assign GPIO_0[20]      = ltm_g[7];
292 assign GPIO_0[21]      = ltm_r[0];
293 assign GPIO_0[22]      = ltm_r[1];
294 assign GPIO_0[23]      = ltm_r[2];
295 assign GPIO_0[24]      = ltm_r[3];
296 assign GPIO_0[25]      = ltm_r[4];
297 assign GPIO_0[26]      = ltm_r[5];
298 assign GPIO_0[27]      = ltm_r[6];
299 assign GPIO_0[28]      = ltm_r[7];
300 assign GPIO_0[29]      = ltm_grst;
301 assign GPIO_0[30]      = ltm_scen;
302 assign GPIO_0[31]      = ltm_sda;
303
304 assign ltm_grst         = iKEY[0];
305 assign adc_ltm_sclk     = ltm_sclk;
306
307 Reset_Delay reset0 (
308   .iCLK(iCLK_50),
309   .iRST(iKEY[0]),
310   .oRST_0(DLY_RST_0),
311   .oRST_1(DLY_RST_1),
312   .oRST_2(DLY_RST_2)
313 );
314
315 CCD_Capture capture0 (
316   .oDATA(mCCD_DATA),
317   .oDVAL(mCCD_DVAL),
318   .oX_Cont(X_Cont),
319   .oY_Cont(Y_Cont),
320   .oFrame_Cont(Frame_Cont),
321   .iDATA(rCCD_DATA),
322   .iFVAL(rCCD_FVAL),
323   .iLVAL(rCCD_LVAL),
324   .iSTART(!iKEY[3]),
325   .iEND(!iKEY[2]),
326   .iCLK(CCD_PIXCLK),
327   .iRST(DLY_RST_2)
328 );
329
330 RAW2RGB rgb0 (
331   .iCLK(CCD_PIXCLK),
332   .iRST_n(DLY_RST_1),
333   .iData(mCCD_DATA),
334   .iDval(mCCD_DVAL),
335   .oRed(sCCD_R),
336   .oGreen(sCCD_G),
337   .oBlue(sCCD_B),
338   .oDval(sCCD_DVAL),
339   .iMIRROR(iSW[17]),
340   .iX_Cont(X_Cont),
341   .iY_Cont(Y_Cont)
342 );
343
344 SEG7_LUT_8 seg0 (
345   .oSEG0(oHEX0_D),
346   .oSEG1(oHEX1_D),
347   .oSEG2(oHEX2_D),
348   .oSEG3(oHEX3_D),
349   .oSEG4(oHEX4_D),
350   .oSEG5(oHEX5_D),
351   .oSEG6(oHEX6_D),
352   .oSEG7(oHEX7_D),
353   .iDIG(Frame_Cont[31:0])
354 );
355
356 vga_pll vga_pll0 (
357   .inclk0(iCLK_50_2),
358   .c0(ltm_nclk)
359 );
360
361 sdram_pll sdram_pll0 (
362   .inclk0(iCLK_50_3),
363   .c0(sdram_ctrl_clk),
364   .c1(oDRAM0_CLK),
365   .c2(oDRAM1_CLK)
366 );
367
368 Sdram_Control_4Port sdram0 (
369   // HOST Side
370   .REF_CLK(iCLK_50),
371   .RESET_N(1'b1),
372   .CLK(sdram_ctrl_clk),
373   // FIFO Write Side 1
374   .WR1_DATA({6'h00, sCCD_G[11:2]}),
375   .WR1(sCCD_DVAL),
376   .WR1_ADDR(0),
377   .WR1_MAX_ADDR(800*480),
378   .WR1_LENGTH(9'h100),
379   .WR1_LOAD(!DLY_RST_0),
380   .WR1_CLK(CCD_PIXCLK),
381   // FIFO Read Side 1
382   .RD1_DATA(Read_DATA1),
383   .RD1(Read),
384   .RD1_ADDR(0),
385   .RD1_MAX_ADDR(800*480),
386   .RD1_LENGTH(9'h100),
387   .RD1_LOAD(!DLY_RST_0),
388   .RD1_CLK(~ltm_nclk),
389   // SDRAM Side
390   .SA(oDRAM0_A[11:0]),
391   .BA(oDRAM0_BA),
392   .CS_N(oDRAM0_CS_N),
393   .CKE(oDRAM0_CKE),
394   .RAS_N(oDRAM0_RAS_N),
395   .CAS_N(oDRAM0_CAS_N),
396   .WE_N(oDRAM0_WE_N),
397   .DQ(DRAM_DQ[15:0]),
398   .DQM({oDRAM0_UDQM1,oDRAM0_LDQM0})
399 );
400
401 I2C_CCD_Config ccd_config0 (
402   // Host Side
403   .iCLK(iCLK_50),
404   .iRST_N(DLY_RST_1),
405   .iEXPOSURE_ADJ(iKEY[1]),
406   .iEXPOSURE_DEC_p(iSW[0]),
407   .iMIRROR_SW(iSW[17]),
408   // I2C Side
409   .I2C_SCLK(GPIO_1[20]),
410   .I2C_SDAT(GPIO_1[19])
411 );
412
413 touch_tcon tcon0 (
414   .iCLK(ltm_nclk),
415   .iRST_n(DLY_RST_2),
416   // sdram side
417   .iREAD_DATA1(Read_DATA1),
418   .iREAD_DATA2(Read_DATA2),
419   .oREAD_SDRAM_EN(Read),
420   // lcd side
421   .oLCD_R(ltm_r),
422   .oLCD_G(ltm_g),
423   .oLCD_B(ltm_b),
424   .oHD(ltm_hd),
425   .oVD(ltm_vd),
426   .oDEN(ltm_den)
427 );
428
429 lcd_3wire_config wire0 (
430   // Host Side
431   .iCLK(iCLK_50),
432   .iRST_n(DLY_RST_0),
433   // 3 wire Side
434   .o3WIRE_SCLK(ltm_sclk),
435   .io3WIRE_SDAT(ltm_sda),
436   .o3WIRE_SCEN(ltm_scen),
437   .o3WIRE_BUSY_n(ltm_3wirebusy_n)
438 );
439
440 always@(posedge iCLK_50)
441   rClk    <= rClk + 1;
442
443 always@(posedge CCD_PIXCLK) begin
444   rCCD_DATA <= CCD_DATA;
445   rCCD_LVAL <= CCD_LVAL;
446   rCCD_FVAL <= CCD_FVAL;
447 end
448
449 endmodule

368行

Sdram_Control_4Port sdram0 (
// HOST Side
.REF_CLK(iCLK_50),
.RESET_N(1'b1),
.CLK(sdram_ctrl_clk),
// FIFO Write Side 1
.WR1_DATA({6'h00, sCCD_G[11:2]}),
.WR1(sCCD_DVAL),
.WR1_ADDR(0),
.WR1_MAX_ADDR(800*480),
.WR1_LENGTH(9'h100),
.WR1_LOAD(!DLY_RST_0),
.WR1_CLK(CCD_PIXCLK),
// FIFO Read Side 1
.RD1_DATA(Read_DATA1),
.RD1(Read),
.RD1_ADDR(0),
.RD1_MAX_ADDR(800*480),
.RD1_LENGTH(9'h100),
.RD1_LOAD(!DLY_RST_0),
.RD1_CLK(~ltm_nclk),
// SDRAM Side
.SA(oDRAM0_A[11:0]),
.BA(oDRAM0_BA),
.CS_N(oDRAM0_CS_N),
.CKE(oDRAM0_CKE),
.RAS_N(oDRAM0_RAS_N),
.CAS_N(oDRAM0_CAS_N),
.WE_N(oDRAM0_WE_N),
.DQ(DRAM_DQ[15:0]),
.DQM({oDRAM0_UDQM1,oDRAM0_LDQM0})
);

在(原創) 如何Real Time產生灰階影像? (SOC) (DE2) (TRDB-DC2)曾提過，寫在SDRAM之前的優點是節省SDRAM空間，節省頻寬，由於DE2-70有兩顆32MB SDRAM，在空間上不是問題，在DE2_70_D5M_LTM範例中，已經將G、B放在第1顆SDRAM，G、R放在第2顆SDRAM，這樣的優點是SDRAM頻寬可以加倍。由於灰階只需要G，在DE2-70只要1顆SDRAM即可，另外一顆SDRAM完全不須使用，一樣可以省下一半的SDRAM空間，不過因為一樣是1 read 1 write，所以並沒有省下頻寬。

touch_tcon.v / Verilog

1 /*
2 (C) OOMusou 2008 http://oomusou.cnblogs.com
3
4 Filename    : touch_tcon.v
5 Compiler    : Quartus II 7.2 SP3
6 Description : Demo how to use TRDB-D5M with LTM to make gray before SDRAM on DE2-70
7 Release     : 08/23/2008 1.0
8 */
9
10 module touch_tcon (
11   input             iCLK,             // LCD display clock
12   input             iRST_n,           // systen reset
13   // SDRAM SIDE
14   input [15:0]      iREAD_DATA1,      // R and G color data form sdram
15   input [15:0]      iREAD_DATA2,      // B color data form sdram
16   output            oREAD_SDRAM_EN,   // read sdram data control signal
17   //LCD SIDE
18   output reg       oHD,              // LCD Horizontal sync
19   output reg       oVD,              // LCD Vertical sync
20   output reg       oDEN,             // LCD Data Enable
21   output reg [7:0] oLCD_R,           // LCD Red color data
22   output reg [7:0] oLCD_G,           // LCD Green color data
23   output reg [7:0] oLCD_B            // LCD Blue color data
24 );
25
26 parameter H_LINE = 1056;
27 parameter V_LINE = 525;
28 parameter Hsync_Blank = 216;
29 parameter Hsync_Front_Porch = 40;
30 parameter Vertical_Back_Porch = 35;
31 parameter Vertical_Front_Porch = 10;
32
33 reg   [10:0] x_cnt;
34 reg   [9:0]   y_cnt;
35 wire [7:0]   read_red;
36 wire [7:0]   read_green;
37 wire [7:0]   read_blue;
38 wire          display_area;
39 reg           mhd;
40 reg           mvd;
41 reg           mden;
42
43 // This signal control reading data form SDRAM , if high read color data form sdram .
44 assign oREAD_SDRAM_EN = ( (x_cnt>Hsync_Blank-2)&&
45                            (x_cnt<(H_LINE-Hsync_Front_Porch-1))&&
46                            (y_cnt>(Vertical_Back_Porch-1))&&
47                            (y_cnt<(V_LINE - Vertical_Front_Porch))
48                          )? 1'b1 : 1'b0;
49
50 // This signal indicate the lcd display area .
51 assign display_area = ((x_cnt>(Hsync_Blank-1)&& //>215
52                         (x_cnt<(H_LINE-Hsync_Front_Porch))&& //< 1016
53                         (y_cnt>(Vertical_Back_Porch-1))&&
54                         (y_cnt<(V_LINE - Vertical_Front_Porch))
55                        )) ? 1'b1 : 1'b0;
56
57 assign read_red    = display_area ? iREAD_DATA1[9:2] : 8'b0;
58 assign read_green = display_area ? iREAD_DATA1[9:2] : 8'b0;
59 assign read_blue   = display_area ? iREAD_DATA1[9:2] : 8'b0;
60
61 / x y counter and lcd hd generator //
62 always@(posedge iCLK or negedge iRST_n) begin
63   if (!iRST_n) begin
64     x_cnt <= 11'd0;
65     mhd   <= 1'd0;
66   end
67   else if (x_cnt == (H_LINE-1)) begin
68     x_cnt <= 11'd0;
69     mhd   <= 1'd0;
70   end
71   else begin
72     x_cnt <= x_cnt + 11'd1;
73     mhd <= 1'd1;
74   end
75 end
76
77 always@(posedge iCLK or negedge iRST_n) begin
78   if (!iRST_n)
79     y_cnt <= 10'd0;
80   else if (x_cnt == (H_LINE-1)) begin
81     if (y_cnt == (V_LINE-1))
82       y_cnt <= 10'd0;
83     else
84       y_cnt <= y_cnt + 10'd1;
85   end
86 end
87
88 // touch panel timing //
89 always@(posedge iCLK or negedge iRST_n) begin
90   if (!iRST_n)
91     mvd <= 1'b1;
92   else if (y_cnt == 10'd0)
93     mvd <= 1'b0;
94   else
95     mvd <= 1'b1;
96 end
97
98 always@(posedge iCLK or negedge iRST_n) begin
99   if (!iRST_n)
100     mden <= 1'b0;
101   else if (display_area)
102     mden <= 1'b1;
103   else
104     mden <= 1'b0;
105 end
106
107 always@(posedge iCLK or negedge iRST_n) begin
108   if (!iRST_n) begin
109     oHD     <= 1'd0;
110     oVD     <= 1'd0;
111     oDEN    <= 1'd0;
112     oLCD_R <= 8'd0;
113     oLCD_G <= 8'd0;
114     oLCD_B <= 8'd0;
115   end
116   else begin
117     oHD     <= mhd;
118     oVD     <= mvd;
119     oDEN    <= mden;
120     oLCD_R <= read_red;
121     oLCD_G <= read_green;
122     oLCD_B <= read_blue;
123   end
124 end
125
126 endmodule

不同於DE2，在DE2-70連touch_tcon.v也要小改，touch_tcon.v相當於DE2_CCD的VGA_Controller.v的地位。

57行

assign read_red = display_area ? iREAD_DATA1[9:2] : 8'b0;
assign read_green = display_area ? iREAD_DATA1[9:2] : 8'b0;
assign read_blue = display_area ? iREAD_DATA1[9:2] : 8'b0;

由於現在SDRAM只有G，也就是只有iREAD_DATA1，所以R、G、B的輸出完全用G取代。

Method 2：
在SDRAM之後

DE2_70.v / Verilog

1 /*
2 (C) OOMusou 2008 http://oomusou.cnblogs.com
3
4 Filename    : DE2_70.v
5 Compiler    : Quartus II 7.2 SP3
6 Description : Demo how to use TRDB-D5M with LTM to make gray on DE2-70 after SDRAM
7 Release     : 08/23/2008 1.0
8 */
9
10 module DE2_70 (
11   Clock Input
12   input          iCLK_28,           // 28.63636 MHz
13   input          iCLK_50,           // 50 MHz
14   input          iCLK_50_2,         // 50 MHz
15   input          iCLK_50_3,         // 50 MHz
16   input          iCLK_50_4,         // 50 MHz
17   input          iEXT_CLOCK,        // External Clock
18   Push Button
19   input [3:0]   iKEY,              // Pushbutton[3:0]
20   DPDT Switch
21   input [17:0] iSW,               // Toggle Switch[17:0]
22   7-SEG Dispaly
23   output [6:0]   oHEX0_D,           // Seven Segment Digit 0
24   output         oHEX0_DP,          // Seven Segment Digit 0 decimal point
25   output [6:0]   oHEX1_D,           // Seven Segment Digit 1
26   output         oHEX1_DP,          // Seven Segment Digit 1 decimal point
27   output [6:0]   oHEX2_D,           // Seven Segment Digit 2
28   output         oHEX2_DP,          // Seven Segment Digit 2 decimal point
29   output [6:0]   oHEX3_D,           // Seven Segment Digit 3
30   output         oHEX3_DP,          // Seven Segment Digit 3 decimal point
31   output [6:0]   oHEX4_D,           // Seven Segment Digit 4
32   output         oHEX4_DP,          // Seven Segment Digit 4 decimal point
33   output [6:0]   oHEX5_D,           // Seven Segment Digit 5
34   output         oHEX5_DP,          // Seven Segment Digit 5 decimal point
35   output [6:0]   oHEX6_D,           // Seven Segment Digit 6
36   output         oHEX6_DP,          // Seven Segment Digit 6 decimal point
37   output [6:0]   oHEX7_D,           // Seven Segment Digit 7
38   output         oHEX7_DP,          // Seven Segment Digit 7 decimal point
39   //// LED ////
40   output [8:0]   oLEDG,             // LED Green[8:0]
41   output [17:0] oLEDR,             // LED Red[17:0]
42   //// UART ////
43   output         oUART_TXD,         // UART Transmitter
44   input          iUART_RXD,         // UART Receiver
45   output         oUART_CTS,         // UART Clear To Send
46   input          iUART_RTS,         // UART Requst To Send
47   //// IRDA ////
48   output         oIRDA_TXD,         // IRDA Transmitter
49   input          iIRDA_RXD,         // IRDA Receiver
50   /// SDRAM Interface
51   inout   [31:0] DRAM_DQ,           // SDRAM Data bus 32 Bits
52   output [12:0] oDRAM0_A,          // SDRAM0 Address bus 13 Bits
53   output [12:0] oDRAM1_A,          // SDRAM1 Address bus 13 Bits
54   output         oDRAM0_LDQM0,      // SDRAM0 Low-byte Data Mask
55   output         oDRAM1_LDQM0,      // SDRAM1 Low-byte Data Mask
56   output         oDRAM0_UDQM1,      // SDRAM0 High-byte Data Mask
57   output         oDRAM1_UDQM1,      // SDRAM1 High-byte Data Mask
58   output         oDRAM0_WE_N,       // SDRAM0 Write Enable
59   output         oDRAM1_WE_N,       // SDRAM1 Write Enable
60   output         oDRAM0_CAS_N,      // SDRAM0 Column Address Strobe
61   output         oDRAM1_CAS_N,      // SDRAM1 Column Address Strobe
62   output         oDRAM0_RAS_N,      // SDRAM0 Row Address Strobe
63   output         oDRAM1_RAS_N,      // SDRAM1 Row Address Strobe
64   output         oDRAM0_CS_N,       // SDRAM0 Chip Select
65   output         oDRAM1_CS_N,       // SDRAM1 Chip Select
66   output [1:0] oDRAM0_BA,         // SDRAM0 Bank Address
67   output [1:0] oDRAM1_BA,         // SDRAM1 Bank Address
68   output         oDRAM0_CLK,        // SDRAM0 Clock
69   output         oDRAM1_CLK,        // SDRAM1 Clock
70   output         oDRAM0_CKE,        // SDRAM0 Clock Enable
71   output         oDRAM1_CKE,        // SDRAM1 Clock Enable
72   Flash Interface
73   inout   [14:0] FLASH_DQ,          // FLASH Data bus 15 Bits (0 to 14)
74   inout          FLASH_DQ15_AM1,    // FLASH Data bus Bit 15 or Address A-1
75   output [21:0] oFLASH_A,          // FLASH Address bus 26 Bits
76   output         oFLASH_WE_N,       // FLASH Write Enable
77   output         oFLASH_RST_N,      // FLASH Reset
78   output         oFLASH_WP_N,       // FLASH Write Protect /Programming Acceleration
79   input          iFLASH_RY_N,       // FLASH Ready/Busy output
80   output         oFLASH_BYTE_N,     // FLASH Byte/Word Mode Configuration
81   output         oFLASH_OE_N,       // FLASH Output Enable
82   output         oFLASH_CE_N,       // FLASH Chip Enable
83   SRAM Interface
84   inout   [31:0] SRAM_DQ,           // SRAM Data Bus 32 Bits
85   inout   [3:0] SRAM_DPA,          // SRAM Parity Data Bus
86   output [18:0] oSRAM_A,           // SRAM Address bus 21 Bits
87   output         oSRAM_ADSC_N,      // SRAM Controller Address Status
88   output         oSRAM_ADSP_N,      // SRAM Processor Address Status
89   output         oSRAM_ADV_N,       // SRAM Burst Address Advance
90   output [3:0] oSRAM_BE_N,        // SRAM Byte Write Enable
91   output         oSRAM_CE1_N,       // SRAM Chip Enable
92   output         oSRAM_CE2,         // SRAM Chip Enable
93   output         oSRAM_CE3_N,       // SRAM Chip Enable
94   output         oSRAM_CLK,         // SRAM Clock
95   output         oSRAM_GW_N,        // SRAM Global Write Enable
96   output         oSRAM_OE_N,        // SRAM Output Enable
97   output         oSRAM_WE_N,        // SRAM Write Enable
98   //// ISP1362 Interface
99   inout   [15:0] OTG_D,             // ISP1362 Data bus 16 Bits
100   output [1:0] oOTG_A,            // ISP1362 Address 2 Bits
101   output         oOTG_CS_N,         // ISP1362 Chip Select
102   output         oOTG_OE_N,         // ISP1362 Read
103   output         oOTG_WE_N,         // ISP1362 Write
104   output         oOTG_RESET_N,      // ISP1362 Reset
105   inout          OTG_FSPEED,        // USB Full Speed,    0 = Enable, Z = Disable
106   inout          OTG_LSPEED,        // USB Low Speed,     0 = Enable, Z = Disable
107   input          iOTG_INT0,         // ISP1362 Interrupt 0
108   input          iOTG_INT1,         // ISP1362 Interrupt 1
109   input          iOTG_DREQ0,        // ISP1362 DMA Request 0
110   input          iOTG_DREQ1,        // ISP1362 DMA Request 1
111   output         oOTG_DACK0_N,      // ISP1362 DMA Acknowledge 0
112   output         oOTG_DACK1_N,      // ISP1362 DMA Acknowledge 1
113   //// LCD Module 16X2 ////
114   inout   [7:0] LCD_D,             // LCD Data bus 8 bits
115   output         oLCD_ON,           // LCD Power ON/OFF
116   output         oLCD_BLON,         // LCD Back Light ON/OFF
117   output         oLCD_RW,           // LCD Read/Write Select, 0 = Write, 1 = Read
118   output         oLCD_EN,           // LCD Enable
119   output         oLCD_RS,           // LCD Command/Data Select, 0 = Command, 1 = Data
120   //// SD Card Interface
121   inout          SD_DAT,            // SD Card Data
122   inout          SD_DAT3,           // SD Card Data 3
123   inout          SD_CMD,            // SD Card Command Signal
124   output         oSD_CLK,           // SD Card Clock
125   I2C ////
126   inout          I2C_SDAT,          // I2C Data
127   output         oI2C_SCLK,         // I2C Clock
128   PS2 ////
129   inout          PS2_KBDAT,         // PS2 Keyboard Data
130   inout          PS2_KBCLK,         // PS2 Keyboard Clock
131   inout          PS2_MSDAT,         // PS2 Mouse Data
132   inout          PS2_MSCLK,         // PS2 Mouse Clock
133   VGA ////
134   output         oVGA_CLOCK,        // VGA Clock
135   output         oVGA_HS,           // VGA H_SYNC
136   output         oVGA_VS,           // VGA V_SYNC
137   output         oVGA_BLANK_N,      // VGA BLANK
138   output         oVGA_SYNC_N,       // VGA SYNC
139   output [9:0] oVGA_R,            // VGA Red[9:0]
140   output [9:0] oVGA_G,            // VGA Green[9:0]
141   output [9:0] oVGA_B,            // VGA Blue[9:0]
142   //// Ethernet Interface ////
143   inout   [15:0] ENET_D,            // DM9000A DATA bus 16Bits
144   output         oENET_CMD,         // DM9000A Command/Data Select, 0 = Command, 1 = Data
145   output         oENET_CS_N,        // DM9000A Chip Select
146   output         oENET_IOW_N,       // DM9000A Write
147   output         oENET_IOR_N,       // DM9000A Read
148   output         oENET_RESET_N,     // DM9000A Reset
149   input          iENET_INT,         // DM9000A Interrupt
150   output         oENET_CLK,         // DM9000A Clock 25 MHz
151   //// Audio CODEC ////
152   inout          AUD_ADCLRCK,       // Audio CODEC ADC LR Clock
153   input          iAUD_ADCDAT,       // Audio CODEC ADC Data
154   inout          AUD_DACLRCK,       // Audio CODEC DAC LR Clock
155   output         oAUD_DACDAT,       // Audio CODEC DAC Data
156   inout          AUD_BCLK,          // Audio CODEC Bit-Stream Clock
157   output         oAUD_XCK,          // Audio CODEC Chip Clock
158   //// TV Devoder   ////
159   input          iTD1_CLK27,        // TV Decoder1 Line_Lock Output Clock
160   input   [7:0] iTD1_D,            // TV Decoder1 Data bus 8 bits
161   input          iTD1_HS,           // TV Decoder1 H_SYNC
162   input          iTD1_VS,           // TV Decoder1 V_SYNC
163   output         oTD1_RESET_N,      // TV Decoder1 Reset
164   input          iTD2_CLK27,        // TV Decoder2 Line_Lock Output Clock
165   input   [7:0] iTD2_D,            // TV Decoder2 Data bus 8 bits
166   input          iTD2_HS,           // TV Decoder2 H_SYNC
167   input          iTD2_VS,           // TV Decoder2 V_SYNC
168   output         oTD2_RESET_N,      // TV Decoder2 Reset
169   GPIO ////
170   inout   [31:0] GPIO_0,            // GPIO Connection 0 I/O
171   input          GPIO_CLKIN_N0,     // GPIO Connection 0 Clock Input 0
172   input          GPIO_CLKIN_P0,     // GPIO Connection 0 Clock Input 1
173   inout          GPIO_CLKOUT_N0,    // GPIO Connection 0 Clock Output 0
174   inout          GPIO_CLKOUT_P0,    // GPIO Connection 0 Clock Output 1
175   inout   [31:0] GPIO_1,            // GPIO Connection 1 I/O
176   input          GPIO_CLKIN_N1,     // GPIO Connection 1 Clock Input 0
177   input          GPIO_CLKIN_P1,     // GPIO Connection 1 Clock Input 1
178   inout          GPIO_CLKOUT_N1,    // GPIO Connection 1 Clock Output 0
179   inout          GPIO_CLKOUT_P1     // GPIO Connection 1 Clock Output 1
180 );
181
182 // CCD
183 wire [11:0] CCD_DATA;
184 wire          CCD_SDAT;
185 wire          CCD_SCLK;
186 wire          CCD_FLASH;
187 wire          CCD_FVAL;
188 wire          CCD_LVAL;
189 wire          CCD_PIXCLK;
190 wire          CCD_MCLK; // CCD Master Clock
191
192 wire [15:0] Read_DATA1;
193 wire [15:0] Read_DATA2;
194 wire          VGA_CTRL_CLK;
195 wire [11:0] mCCD_DATA;
196 wire          mCCD_DVAL;
197 wire          mCCD_DVAL_d;
198 wire [15:0] X_Cont;
199 wire [15:0] Y_Cont;
200 wire [9:0]   X_ADDR;
201 wire [31:0] Frame_Cont;
202 wire          DLY_RST_0;
203 wire          DLY_RST_1;
204 wire          DLY_RST_2;
205 wire          Read;
206 reg   [11:0] rCCD_DATA;
207 reg           rCCD_LVAL;
208 reg           rCCD_FVAL;
209 wire [11:0] sCCD_R;
210 wire [11:0] sCCD_G;
211 wire [11:0] sCCD_B;
212 wire          sCCD_DVAL;
213 reg   [1:0]   rClk;
214 wire          sdram_ctrl_clk;
215
216 // Touch panel signal
217 wire [7:0] ltm_r;    // LTM Red Data 8 Bits
218 wire [7:0] ltm_g;    // LTM Green Data 8 Bits
219 wire [7:0] ltm_b;    // LTM Blue Data 8 Bits
220 wire        ltm_nclk; // LTM Clcok
221 wire        ltm_hd;
222 wire        ltm_vd;
223 wire        ltm_den;
224 wire        adc_dclk;
225 wire        adc_cs;
226 wire        adc_penirq_n;
227 wire        adc_busy;
228 wire        adc_din;
229 wire        adc_dout;
230 wire        adc_ltm_sclk;
231 wire        ltm_grst;
232
233 // LTM Config
234 wire      ltm_sclk;
235 wire      ltm_sda;
236 wire      ltm_scen;
237 wire      ltm_3wirebusy_n;
238
239 assign CCD_DATA[0]     = GPIO_1[11];
240 assign CCD_DATA[1]     = GPIO_1[10];
241 assign CCD_DATA[2]     = GPIO_1[9];
242 assign CCD_DATA[3]     = GPIO_1[8];
243 assign CCD_DATA[4]     = GPIO_1[7];
244 assign CCD_DATA[5]     = GPIO_1[6];
245 assign CCD_DATA[6]     = GPIO_1[5];
246 assign CCD_DATA[7]     = GPIO_1[4];
247 assign CCD_DATA[8]     = GPIO_1[3];
248 assign CCD_DATA[9]     = GPIO_1[2];
249 assign CCD_DATA[10]    = GPIO_1[1];
250 assign CCD_DATA[11]    = GPIO_1[0];
251 assign GPIO_CLKOUT_N1 = CCD_MCLK;
252 assign CCD_FVAL        = GPIO_1[18];
253 assign CCD_LVAL        = GPIO_1[17];
254 assign CCD_PIXCLK      = GPIO_CLKIN_N1;
255 assign GPIO_1[15]      = 1'b1; // tRIGGER
256 assign GPIO_1[14]      = DLY_RST_1;
257
258 assign oLEDR           = iSW;
259 assign oLEDG           = Y_Cont;
260
261 assign oTD1_RESET_N    = 1'b1;
262 assign oVGA_CLOCK      = ~VGA_CTRL_CLK;
263
264 assign CCD_MCLK        = rClk[0];
265 assign oUART_TXD       = iUART_RXD;
266
267 assign adc_penirq_n    = GPIO_CLKIN_N0;
268 assign adc_dout        = GPIO_0[0];
269 assign adc_busy        = GPIO_CLKIN_P0;
270 assign GPIO_0[1]       = adc_din;
271 assign GPIO_0[2]       = adc_ltm_sclk;
272 assign GPIO_0[3]       = ltm_b[3];
273 assign GPIO_0[4]       = ltm_b[2];
274 assign GPIO_0[5]       = ltm_b[1];
275 assign GPIO_0[6]       = ltm_b[0];
276 assign GPIO_0[7]       =~ltm_nclk;
277 assign GPIO_0[8]       = ltm_den;
278 assign GPIO_0[9]       = ltm_hd;
279 assign GPIO_0[10]      = ltm_vd;
280 assign GPIO_0[11]      = ltm_b[4];
281 assign GPIO_0[12]      = ltm_b[5];
282 assign GPIO_0[13]      = ltm_b[6];
283 assign GPIO_CLKOUT_N0 = ltm_b[7];
284 assign GPIO_0[14]      = ltm_g[0];
285 assign GPIO_CLKOUT_P0 = ltm_g[1];
286 assign GPIO_0[15]      = ltm_g[2];
287 assign GPIO_0[16]      = ltm_g[3];
288 assign GPIO_0[17]      = ltm_g[4];
289 assign GPIO_0[18]      = ltm_g[5];
290 assign GPIO_0[19]      = ltm_g[6];
291 assign GPIO_0[20]      = ltm_g[7];
292 assign GPIO_0[21]      = ltm_r[0];
293 assign GPIO_0[22]      = ltm_r[1];
294 assign GPIO_0[23]      = ltm_r[2];
295 assign GPIO_0[24]      = ltm_r[3];
296 assign GPIO_0[25]      = ltm_r[4];
297 assign GPIO_0[26]      = ltm_r[5];
298 assign GPIO_0[27]      = ltm_r[6];
299 assign GPIO_0[28]      = ltm_r[7];
300 assign GPIO_0[29]      = ltm_grst;
301 assign GPIO_0[30]      = ltm_scen;
302 assign GPIO_0[31]      = ltm_sda;
303
304 assign ltm_grst         = iKEY[0];
305 assign adc_ltm_sclk     = ltm_sclk;
306
307 assign ltm_r = ltm_g;
308 assign ltm_b = ltm_g;
309
310 Reset_Delay reset0 (
311   .iCLK(iCLK_50),
312   .iRST(iKEY[0]),
313   .oRST_0(DLY_RST_0),
314   .oRST_1(DLY_RST_1),
315   .oRST_2(DLY_RST_2)
316 );
317
318 CCD_Capture capture0 (
319   .oDATA(mCCD_DATA),
320   .oDVAL(mCCD_DVAL),
321   .oX_Cont(X_Cont),
322   .oY_Cont(Y_Cont),
323   .oFrame_Cont(Frame_Cont),
324   .iDATA(rCCD_DATA),
325   .iFVAL(rCCD_FVAL),
326   .iLVAL(rCCD_LVAL),
327   .iSTART(!iKEY[3]),
328   .iEND(!iKEY[2]),
329   .iCLK(CCD_PIXCLK),
330   .iRST(DLY_RST_2)
331 );
332
333 RAW2RGB rgb0 (
334   .iCLK(CCD_PIXCLK),
335   .iRST_n(DLY_RST_1),
336   .iData(mCCD_DATA),
337   .iDval(mCCD_DVAL),
338   .oRed(sCCD_R),
339   .oGreen(sCCD_G),
340   .oBlue(sCCD_B),
341   .oDval(sCCD_DVAL),
342   .iMIRROR(iSW[17]),
343   .iX_Cont(X_Cont),
344   .iY_Cont(Y_Cont)
345 );
346
347 SEG7_LUT_8 seg0 (
348   .oSEG0(oHEX0_D),
349   .oSEG1(oHEX1_D),
350   .oSEG2(oHEX2_D),
351   .oSEG3(oHEX3_D),
352   .oSEG4(oHEX4_D),
353   .oSEG5(oHEX5_D),
354   .oSEG6(oHEX6_D),
355   .oSEG7(oHEX7_D),
356   .iDIG(Frame_Cont[31:0])
357 );
358
359 vga_pll vga_pll0 (
360   .inclk0(iCLK_50_2),
361   .c0(ltm_nclk)
362 );
363
364 sdram_pll sdram_pll0 (
365   .inclk0(iCLK_50_3),
366   .c0(sdram_ctrl_clk),
367   .c1(oDRAM0_CLK),
368   .c2(oDRAM1_CLK)
369 );
370
371 Sdram_Control_4Port sdram0 (
372   // HOST Side
373   .REF_CLK(iCLK_50),
374   .RESET_N(1'b1),
375   .CLK(sdram_ctrl_clk),
376   // FIFO Write Side 1
377   .WR1_DATA({sCCD_G[11:7], sCCD_B[11:2]}),
378   .WR1(sCCD_DVAL),
379   .WR1_ADDR(0),
380   .WR1_MAX_ADDR(800*480),
381   .WR1_LENGTH(9'h100),
382   .WR1_LOAD(!DLY_RST_0),
383   .WR1_CLK(CCD_PIXCLK),
384   // FIFO Read Side 1
385   .RD1_DATA(Read_DATA1),
386   .RD1(Read),
387   .RD1_ADDR(0),
388   .RD1_MAX_ADDR(800*480),
389   .RD1_LENGTH(9'h100),
390   .RD1_LOAD(!DLY_RST_0),
391   .RD1_CLK(~ltm_nclk),
392   // SDRAM Side
393   .SA(oDRAM0_A[11:0]),
394   .BA(oDRAM0_BA),
395   .CS_N(oDRAM0_CS_N),
396   .CKE(oDRAM0_CKE),
397   .RAS_N(oDRAM0_RAS_N),
398   .CAS_N(oDRAM0_CAS_N),
399   .WE_N(oDRAM0_WE_N),
400   .DQ(DRAM_DQ[15:0]),
401   .DQM({oDRAM0_UDQM1,oDRAM0_LDQM0})
402 );
403
404 Sdram_Control_4Port sdram1 (
405   // HOST Side
406   .REF_CLK(iCLK_50),
407   .RESET_N(1'b1),
408   .CLK(sdram_ctrl_clk),
409   // FIFO Write Side 1
410   .WR1_DATA({sCCD_G[6:2], sCCD_R[11:2]}),
411   .WR1(sCCD_DVAL),
412   .WR1_ADDR(0),
413   .WR1_MAX_ADDR(800*480),
414   .WR1_LENGTH(9'h100),
415   .WR1_LOAD(!DLY_RST_0),
416   .WR1_CLK(CCD_PIXCLK),
417   // FIFO Read Side 1
418   .RD1_DATA(Read_DATA2),
419   .RD1(Read),
420   .RD1_ADDR(0),
421   .RD1_MAX_ADDR(800*480),
422   .RD1_LENGTH(9'h100),
423   .RD1_LOAD(!DLY_RST_0),
424   .RD1_CLK(~ltm_nclk),
425   // SDRAM Side
426   .SA(oDRAM1_A[11:0]),
427   .BA(oDRAM1_BA),
428   .CS_N(oDRAM1_CS_N),
429   .CKE(oDRAM1_CKE),
430   .RAS_N(oDRAM1_RAS_N),
431   .CAS_N(oDRAM1_CAS_N),
432   .WE_N(oDRAM1_WE_N),
433   .DQ(DRAM_DQ[31:16]),
434   .DQM({oDRAM1_UDQM1,oDRAM1_LDQM0})
435 );
436
437 I2C_CCD_Config ccd_config0 (
438   // Host Side
439   .iCLK(iCLK_50),
440   .iRST_N(DLY_RST_1),
441   .iEXPOSURE_ADJ(iKEY[1]),
442   .iEXPOSURE_DEC_p(iSW[0]),
443   .iMIRROR_SW(iSW[17]),
444   // I2C Side
445   .I2C_SCLK(GPIO_1[20]),
446   .I2C_SDAT(GPIO_1[19])
447 );
448
449 touch_tcon tcon0 (
450   .iCLK(ltm_nclk),
451   .iRST_n(DLY_RST_2),
452   // sdram side
453   .iREAD_DATA1(Read_DATA1),
454   .iREAD_DATA2(Read_DATA2),
455   .oREAD_SDRAM_EN(Read),
456   // lcd side
457   .oLCD_G(ltm_g),
458   .oHD(ltm_hd),
459   .oVD(ltm_vd),
460   .oDEN(ltm_den)
461 );
462
463 lcd_3wire_config wire0 (
464   // Host Side
465   .iCLK(iCLK_50),
466   .iRST_n(DLY_RST_0),
467   // 3 wire Side
468   .o3WIRE_SCLK(ltm_sclk),
469   .io3WIRE_SDAT(ltm_sda),
470   .o3WIRE_SCEN(ltm_scen),
471   .o3WIRE_BUSY_n(ltm_3wirebusy_n)
472 );
473
474 always@(posedge iCLK_50)
475   rClk    <= rClk + 1;
476
477 always@(posedge CCD_PIXCLK) begin
478   rCCD_DATA <= CCD_DATA;
479   rCCD_LVAL <= CCD_LVAL;
480   rCCD_FVAL <= CCD_FVAL;
481 end
482
483 endmodule

449行

touch_tcon tcon0 (
.iCLK(ltm_nclk),
.iRST_n(DLY_RST_2),
// sdram side
.iREAD_DATA1(Read_DATA1),
.iREAD_DATA2(Read_DATA2),
.oREAD_SDRAM_EN(Read),
// lcd side
.oLCD_G(ltm_g),
.oHD(ltm_hd),
.oVD(ltm_vd),
.oDEN(ltm_den)
);

在(原創) 如何Real Time產生灰階影像? (SOC) (DE2) (TRDB-DC2)，我們是在VGA Controller之前處理灰階，不過在DE2-70，在VGA Controller之前處理較麻煩，我們改到VGA Controller之後才處理灰階，只讓touch_tcon輸出ltm_g，而ltm_r與ltm_b並沒有輸出，因為R與B我們打算用G取代。

307行

assign ltm_r = ltm_g;
assign ltm_b = ltm_g;

我們自己來處理ltm_r與ltm_g。

完整程式碼下載
DE2_70_D5M_LTM_before_SDRAM.7z
DE2_70_D5M_LTM_after_SDRAM.7z

Conclusion
談完在DE2與DE2-70實現灰階的方法後，我們將利用此灰階影像，實現Real Time的Sobel Edge Detection。

See Also
(原創) 如何Real Time產生灰階影像? (SOC) (DE2) (TRDB-DC2)
(原創) 如何實現Real Time的Sobel Edge Detector? (SOC) (Verilog) (Image Processing) (DE2-70) (TRDB-D5M)
(原創) 如何實現Real Time的Sobel Edge Detector? (SOC) (Verilog) (Image Processing) (DE2) (TRDB-DC2)

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(原創) 如何Real Time產生灰階影像? (SOC) (DE2-70) (TRDB-D5M)

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