NANO100_BSP V3.04.002
The Board Support Package for Nano100BN Series
NuEdu-Basic01_SPI_Flash.c
Go to the documentation of this file.
1/**************************************************************************/
12#include <stdio.h>
13#include "Nano100Series.h"
15
29/*---------------------------------------------------------------------------------------------------------*/
30/* Definitons */
31/*---------------------------------------------------------------------------------------------------------*/
32#define SPI_FLASH_PORT SPI0
34
44{
45
46 /* Init GPIO for SPI Flash Port, set PE1, PE2, PE3 and PE4 for SPI0 */
49
50 /* Enable SPI0 IP clock */
51 CLK->APBCLK |= CLK_APBCLK_SPI0_EN_Msk;
52
53 /* Configure SPI_FLASH_PORT as a master, MSB first, clock idle low, TX at falling-edge, RX at rising-edge and 32-bit transaction */
55
56 /* Disable the automatic hardware slave select function. Select the SS pin and configure as low-active. */
57 SPI_FLASH_PORT->SSR = (SPI_FLASH_PORT->SSR & ~SPI_SSR_SSR_Msk);
58
59 /* Set SPI clock rate = HCLK / (20+1) = 42MHz / 21 = 2MHz */
60 SPI_FLASH_PORT->CLKDIV = (SPI_FLASH_PORT->CLKDIV & ~SPI_CLKDIV_DIVIDER1_Msk) | (0x14 << SPI_CLKDIV_DIVIDER1_Pos);
61
62}
63
71unsigned int SpiFlash_ReadMidDid(void)
72{
73 unsigned int au32SourceData;
74 unsigned int au32DestinationData;
75
76 // configure transaction length as 8 bits
77 SPI_FLASH_PORT->CTL = (SPI_FLASH_PORT->CTL & ~SPI_CTL_TX_BIT_LEN_Msk) | (0x08 << SPI_CTL_TX_BIT_LEN_Pos);
78
79 // /CS: active
80 SPI_FLASH_PORT->SSR = (SPI_FLASH_PORT->SSR & ~SPI_SSR_SSR_Msk) | 0x1;
81
82 // send Command: 0x90, Read Manufacturer/Device ID
83 au32SourceData = 0x90;
84 SPI_FLASH_PORT->TX0 = au32SourceData;
85 SPI_FLASH_PORT->CTL |= SPI_CTL_GO_BUSY_Msk;
86
87 // wait
88 while (SPI_FLASH_PORT->CTL & SPI_CTL_GO_BUSY_Msk) {}
89
90 // configure transaction length as 24 bits
91 SPI_FLASH_PORT->CTL = (SPI_FLASH_PORT->CTL & ~SPI_CTL_TX_BIT_LEN_Msk) | (0x18 << SPI_CTL_TX_BIT_LEN_Pos);
92
93 // send 24-bit '0', dummy
94 au32SourceData = 0x0;
95 SPI_FLASH_PORT->TX0 = au32SourceData;
96 SPI_FLASH_PORT->CTL |= SPI_CTL_GO_BUSY_Msk;
97
98 // wait
99 while (SPI_FLASH_PORT->CTL & SPI_CTL_GO_BUSY_Msk) {}
100
101 // configure transaction length as 16 bits
102 SPI_FLASH_PORT->CTL = (SPI_FLASH_PORT->CTL & ~SPI_CTL_TX_BIT_LEN_Msk) | (0x10 << SPI_CTL_TX_BIT_LEN_Pos);
103
104 // receive
105 au32SourceData = 0x0;
106 SPI_FLASH_PORT->TX0 = au32SourceData;
107 SPI_FLASH_PORT->CTL |= SPI_CTL_GO_BUSY_Msk;
108
109 // wait
110 while (SPI_FLASH_PORT->CTL & SPI_CTL_GO_BUSY_Msk) {}
111
112 // /CS: de-active
113 SPI_FLASH_PORT->SSR = (SPI_FLASH_PORT->SSR & ~SPI_SSR_SSR_Msk);
114
115 // dump Rx register
116 au32DestinationData = SPI_FLASH_PORT->RX0;
117
118 return (au32DestinationData & 0xffff);
119
120}
121
128{
129 unsigned int au32SourceData;
130
131 // configure transaction length as 8 bits
132 SPI_FLASH_PORT->CTL = (SPI_FLASH_PORT->CTL & ~SPI_CTL_TX_BIT_LEN_Msk) | (0x08 << SPI_CTL_TX_BIT_LEN_Pos);
133
134 // /CS: active
135 SPI_FLASH_PORT->SSR = (SPI_FLASH_PORT->SSR & ~SPI_SSR_SSR_Msk) | 0x1;
136
137 // send Command: 0x06, Write enable
138 au32SourceData = 0x06;
139 SPI_FLASH_PORT->TX0 = au32SourceData;
140 SPI_FLASH_PORT->CTL |= SPI_CTL_GO_BUSY_Msk;
141
142 // wait
143 while (SPI_FLASH_PORT->CTL & SPI_CTL_GO_BUSY_Msk) {}
144
145 // /CS: de-active
146 SPI_FLASH_PORT->SSR = (SPI_FLASH_PORT->SSR & ~SPI_SSR_SSR_Msk);
147
148 // /CS: active
149 SPI_FLASH_PORT->SSR = (SPI_FLASH_PORT->SSR & ~SPI_SSR_SSR_Msk) | 0x1;
150
151 // send Command: 0xC7, Chip Erase
152 au32SourceData = 0xc7;
153 SPI_FLASH_PORT->TX0 = au32SourceData;
154 SPI_FLASH_PORT->CTL |= SPI_CTL_GO_BUSY_Msk;
155
156 // wait
157 while (SPI_FLASH_PORT->CTL & SPI_CTL_GO_BUSY_Msk) {}
158
159 // /CS: de-active
160 SPI_FLASH_PORT->SSR = (SPI_FLASH_PORT->SSR & ~SPI_SSR_SSR_Msk);
161
162}
163
169unsigned int SpiFlash_ReadStatusReg1(void)
170{
171 unsigned int au32SourceData;
172 unsigned int au32DestinationData;
173
174 // configure transaction length as 16 bits
175 SPI_FLASH_PORT->CTL = (SPI_FLASH_PORT->CTL & ~SPI_CTL_TX_BIT_LEN_Msk) | (0x10 << SPI_CTL_TX_BIT_LEN_Pos);
176
177 // /CS: active
178 SPI_FLASH_PORT->SSR = (SPI_FLASH_PORT->SSR & ~SPI_SSR_SSR_Msk) | 0x1;
179
180 // send Command: 0x05, Read status register 1
181 au32SourceData = 0x0500;
182 SPI_FLASH_PORT->TX0 = au32SourceData;
183 SPI_FLASH_PORT->CTL |= SPI_CTL_GO_BUSY_Msk;
184
185 // wait
186 while (SPI_FLASH_PORT->CTL & SPI_CTL_GO_BUSY_Msk) {}
187
188 // /CS: de-active
189 SPI_FLASH_PORT->SSR = (SPI_FLASH_PORT->SSR & ~SPI_SSR_SSR_Msk);
190
191 // dump Rx register
192 au32DestinationData = SPI_FLASH_PORT->RX0;
193
194 return (au32DestinationData & 0xFF);
195
196}
197
203unsigned int SpiFlash_ReadStatusReg2(void)
204{
205 unsigned int au32SourceData;
206 unsigned int au32DestinationData;
207
208 // configure transaction length as 16 bits
209 SPI_FLASH_PORT->CTL = (SPI_FLASH_PORT->CTL & ~SPI_CTL_TX_BIT_LEN_Msk) | (0x10 << SPI_CTL_TX_BIT_LEN_Pos);
210
211 // /CS: active
212 SPI_FLASH_PORT->SSR = (SPI_FLASH_PORT->SSR & ~SPI_SSR_SSR_Msk) | 0x1;
213
214 // send Command: 0x35, Read status register 2
215 au32SourceData = 0x3500;
216 SPI_FLASH_PORT->TX0 = au32SourceData;
217 SPI_FLASH_PORT->CTL |= SPI_CTL_GO_BUSY_Msk;
218
219 // wait
220 while (SPI_FLASH_PORT->CTL & SPI_CTL_GO_BUSY_Msk) {}
221
222 // /CS: de-active
223 SPI_FLASH_PORT->SSR = (SPI_FLASH_PORT->SSR & ~SPI_SSR_SSR_Msk);
224
225 // dump Rx register
226 au32DestinationData = SPI_FLASH_PORT->RX0;
227
228 return (au32DestinationData & 0xFF);
229
230}
231
238{
239 unsigned int ReturnValue;
240
241 do
242 {
243 ReturnValue = SpiFlash_ReadStatusReg1();
244 ReturnValue = ReturnValue & 1;
245 }
246 while(ReturnValue!=0); // check the BUSY bit
247
248}
249
261void SpiFlash_PageProgram(unsigned char *DataBuffer, unsigned int StartAddress, unsigned int ByteCount)
262{
263 unsigned int au32SourceData;
264 unsigned int Counter;
265
266 // configure transaction length as 8 bits
267 SPI_FLASH_PORT->CTL = (SPI_FLASH_PORT->CTL & ~SPI_CTL_TX_BIT_LEN_Msk) | (0x08 << SPI_CTL_TX_BIT_LEN_Pos);
268
269 // /CS: active
270 SPI_FLASH_PORT->SSR = (SPI_FLASH_PORT->SSR & ~SPI_SSR_SSR_Msk) | 0x1;
271
272 // send Command: 0x06, Write enable
273 au32SourceData = 0x06;
274 SPI_FLASH_PORT->TX0 = au32SourceData;
275 SPI_FLASH_PORT->CTL |= SPI_CTL_GO_BUSY_Msk;
276
277 // wait
278 while (SPI_FLASH_PORT->CTL & SPI_CTL_GO_BUSY_Msk) {}
279
280 // /CS: de-active
281 SPI_FLASH_PORT->SSR = (SPI_FLASH_PORT->SSR & ~SPI_SSR_SSR_Msk);
282
283 // /CS: active
284 SPI_FLASH_PORT->SSR = (SPI_FLASH_PORT->SSR & ~SPI_SSR_SSR_Msk) | 0x1;
285
286 // send Command: 0x02, Page program
287 au32SourceData = 0x02;
288 SPI_FLASH_PORT->TX0 = au32SourceData;
289 SPI_FLASH_PORT->CTL |= SPI_CTL_GO_BUSY_Msk;
290
291 // wait
292 while (SPI_FLASH_PORT->CTL & SPI_CTL_GO_BUSY_Msk) {}
293
294 // configure transaction length as 24 bits
295 SPI_FLASH_PORT->CTL = (SPI_FLASH_PORT->CTL & ~SPI_CTL_TX_BIT_LEN_Msk) | (0x18 << SPI_CTL_TX_BIT_LEN_Pos);
296
297 // send 24-bit start address
298 au32SourceData = StartAddress;
299 SPI_FLASH_PORT->TX0 = au32SourceData;
300 SPI_FLASH_PORT->CTL |= SPI_CTL_GO_BUSY_Msk;
301
302 // wait
303 while (SPI_FLASH_PORT->CTL & SPI_CTL_GO_BUSY_Msk) {}
304
305 // configure transaction length as 8 bits
306 SPI_FLASH_PORT->CTL = (SPI_FLASH_PORT->CTL & ~SPI_CTL_TX_BIT_LEN_Msk) | (0x08 << SPI_CTL_TX_BIT_LEN_Pos);
307
308 for(Counter=0; Counter<ByteCount; Counter++)
309 {
310 // send data to program
311 au32SourceData = DataBuffer[Counter];
312 SPI_FLASH_PORT->TX0 = au32SourceData;
313 SPI_FLASH_PORT->CTL |= SPI_CTL_GO_BUSY_Msk;
314
315 // wait
316 while (SPI_FLASH_PORT->CTL & SPI_CTL_GO_BUSY_Msk) {}
317 }
318
319 // /CS: de-active
320 SPI_FLASH_PORT->SSR = (SPI_FLASH_PORT->SSR & ~SPI_SSR_SSR_Msk);
321
322}
323
335void SpiFlash_ReadData(unsigned char *DataBuffer, unsigned int StartAddress, unsigned int ByteCount)
336{
337 unsigned int au32SourceData;
338 unsigned int au32DestinationData;
339 unsigned int Counter;
340
341 // configure transaction length as 8 bits
342 SPI_FLASH_PORT->CTL = (SPI_FLASH_PORT->CTL & ~SPI_CTL_TX_BIT_LEN_Msk) | (0x08 << SPI_CTL_TX_BIT_LEN_Pos);
343
344 // /CS: active
345 SPI_FLASH_PORT->SSR = (SPI_FLASH_PORT->SSR & ~SPI_SSR_SSR_Msk) | 0x1;
346
347 // send Command: 0x03, Read data
348 au32SourceData = 0x03;
349 SPI_FLASH_PORT->TX0 = au32SourceData;
350 SPI_FLASH_PORT->CTL |= SPI_CTL_GO_BUSY_Msk;
351
352 // wait
353 while (SPI_FLASH_PORT->CTL & SPI_CTL_GO_BUSY_Msk) {}
354
355 // configure transaction length as 24 bits
356 SPI_FLASH_PORT->CTL = (SPI_FLASH_PORT->CTL & ~SPI_CTL_TX_BIT_LEN_Msk) | (0x18 << SPI_CTL_TX_BIT_LEN_Pos);
357
358 // send 24-bit start address
359 au32SourceData = StartAddress;
360 SPI_FLASH_PORT->TX0 = au32SourceData;
361 SPI_FLASH_PORT->CTL |= SPI_CTL_GO_BUSY_Msk;
362
363 // wait
364 while (SPI_FLASH_PORT->CTL & SPI_CTL_GO_BUSY_Msk) {}
365
366 // configure transaction length as 8 bits
367 SPI_FLASH_PORT->CTL = (SPI_FLASH_PORT->CTL & ~SPI_CTL_TX_BIT_LEN_Msk) | (0x08 << SPI_CTL_TX_BIT_LEN_Pos);
368
369 for(Counter=0; Counter<ByteCount; Counter++)
370 {
371 // receive
372 au32SourceData = 0x0;
373 SPI_FLASH_PORT->TX0 = au32SourceData;
374 SPI_FLASH_PORT->CTL |= SPI_CTL_GO_BUSY_Msk;
375
376 // wait
377 while (SPI_FLASH_PORT->CTL & SPI_CTL_GO_BUSY_Msk) {}
378
379 // dump Rx register
380 au32DestinationData = SPI_FLASH_PORT->RX0;
381 DataBuffer[Counter] = (unsigned char) au32DestinationData;
382 }
383
384 // /CS: de-active
385 SPI_FLASH_PORT->SSR = (SPI_FLASH_PORT->SSR & ~SPI_SSR_SSR_Msk);
386
387}
388
389 /* end of group Nano130_Basic01_FUNCTIONS */
391 /* end of group NuEdu-SDK-Nano130_Basic01 */
393 /* end of group NANO100_Library */
395
396/*** (C) COPYRIGHT 2013 Nuvoton Technology Corp. ***/
Nano100 series peripheral access layer header file. This file contains all the peripheral register's ...
#define SPI_CTL_LSB_Msk
#define SPI_CTL_RX_NEG_Msk
#define SPI_CTL_GO_BUSY_Msk
#define SPI_CTL_CLKP_Msk
#define SPI_CTL_TX_BIT_LEN_Msk
#define SPI_CTL_TX_NEG_Msk
#define SPI_CTL_SLAVE_Msk
#define SPI_CTL_TX_BIT_LEN_Pos
#define SPI_CLKDIV_DIVIDER1_Pos
NuEdu-Basic01 SPI Flash driver header file for NuEdu-SDK-Nano130.
#define CLK_APBCLK_SPI0_EN_Msk
#define CLK
Pointer to CLK register structure.
#define SYS
Pointer to SYS register structure.
#define SYS_PE_L_MFP_PE1_MFP_SPI0_SS0
Definition: sys.h:508
#define SYS_PE_L_MFP_PE3_MFP_SPI0_MISO0
Definition: sys.h:501
#define SYS_PE_L_MFP_PE4_MFP_SPI0_MOSI0
Definition: sys.h:498
#define SYS_PE_L_MFP_PE2_MFP_SPI0_SCLK
Definition: sys.h:504
void SpiFlash_PageProgram(unsigned char *DataBuffer, unsigned int StartAddress, unsigned int ByteCount)
This function do the page programming to SPI Flash device.
void Open_SPI_Flash(void)
Open GPIO port for SPI interface and configure this SPI controller as Master, MSB first,...
void SpiFlash_WaitReady(void)
Waiting for the BUSY bit of SPI Flash that be cleared to 0.
unsigned int SpiFlash_ReadMidDid(void)
Read back the Manufacturer ID and Device ID from SPI Flash device.
unsigned int SpiFlash_ReadStatusReg1(void)
Read back the Status Register 1 from SPI Flash device.
void SpiFlash_ChipErase(void)
This function do the chip erasing to SPI Flash device.
unsigned int SpiFlash_ReadStatusReg2(void)
Read back the Status Register 2 from SPI Flash device.
void SpiFlash_ReadData(unsigned char *DataBuffer, unsigned int StartAddress, unsigned int ByteCount)
This function do the data reading from SPI Flash device.