Shivanand Gowda
Serial Peripheral Interface (SPI) Serial Single IO NOR Flash Memory Interfacing 1Gb
Fork of
S25FL256S
by 
Shivanand Gowda
S70FL01GS.h
- Committer:
- shivanandgowdakr
- Date:
- 2018-05-21
- Revision:
- 6:b3c242976f7e
File content as of revision 6:b3c242976f7e:
// S70FL01GS.h
#ifndef S70FL01GS_H
#define S70FL01GS_H
#include "mbed.h"
#include <string>
#define SPI_FREQ 5000000 //Change SPI Frequency Here
#define SPI_MODE 0 // SPI Mode can be 0 or 3 . see data sheet
#define SPI_NBIT 8 // Number of bits 8.
#define DUMMY_ADDR 0x00
#define WAIT_TIME 1
#define ADDR_BMASK3 0xff000000
#define ADDR_BMASK2 0x00ff0000
#define ADDR_BMASK1 0x0000ff00
#define ADDR_BMASK0 0x000000ff
#define ADDR_BSHIFT3 24
#define ADDR_BSHIFT2 16
#define ADDR_BSHIFT1 8
#define ADDR_BSHIFT0 0
#define RDSR1 0x05 // 6th bit P_ERR Program Error-->1, NO error 0
//5th bit E_ERR Program Error-->1, No ERROR 0
//0th WIP --> 1 indicates Busy Writing, 0--> Free, Done
// read Bits 6,5,0
#define READ_ID 0x90 // Read Electronic Manufacturer Signature
#define RDID 0x9F //Read ID (JEDEC Manufacturer ID and JEDEC CFI)
#define RES 0xAB // Read Electronic Signature
//4 Byte Address4PP 12h)
#define FOUR_FAST_READ 0x0C //Read Fast (4-byte Address) 0C
#define FOUR_READ 0x13 //Read (4-byte Address)
#define FOUR_DOR 0x3C //Read Dual Out (FOUR_-byte Address) 3C
#define FOUR_QOR 0x6C //Read Quad Out (FOUR_-byte Address)
#define FOUR_DIOR 0xBC // Dual I/O Read (FOUR_-byte Address) BC
#define FOUR_QIOR 0xEC //FOUR_QIOR Quad I/O Read (FOUR_-byte Address) EC
#define FOUR_DDRFR 0x0E //Read DDR Fast (FOUR_-byte Address)
#define FOUR_DDRDIOR 0xBE // DDR Dual I/O Read (FOUR_-byte Address) BE
#define FOUR_DDRQIOR 0xEE
#define FOUR_PP 0x12 // FOUR_PP Page Program (FOUR_-byte Address) 12
#define FOUR_QPP 0x34 //Quad Page Program (FOUR_-byte Address)
#define FOUR_P4E 0x21 // Parameter 4-kB Erase (4-byte Address) 21
#define FOUR_SE 0xDC // Erase 64/256 kB (4-byte Address) DC
//3 Byte Address
#define READ 0x03 //READ Read (3-byte Address) 03
#define FAST_READ 0x0B //FAST_READ Read Fast (3-byte Address) 0B
#define DOR 0x3B //DOR Read Dual Out (3-byte Address) 3B
#define Q0R 0x6B //QOR Read Quad Out (3-byte Address) 6B
#define DIOR 0xBB //DIOR Dual I/O Read (3-byte Address) BB
#define QIOR 0xEB //QIOR Quad I/O Read (3-byte Address) EB
#define DDRFR 0x0D //DDRFR Read DDR Fast (3-byte Address) 0D
#define DDRDIOR 0xBD //DDRDIOR DDR Dual I/O Read (3-byte Address) BD
#define DDRQIOR 0xED //DDRQIOR DDR Quad I/O Read (3-byte Address) ED
#define PP 0x02 //PP Page Program (3-byte Address) 02
#define Qpp 0x32 //QPP Quad Page Program (3-byte Address) 32
#define P4E 0x20 //P4E Parameter 4-kB Erase (3-byte Address) 20
#define SE 0xD8 //SE Erase 64 / 256 kB (3-byte Address) D8
#define BE 0x60 // Erase Entire Chip.
#define RDSR1 0x05 //RDSR1 Read Status Register-1 05
#define RDSR2 0x07 //RDSR2 Read Status Register-2 07
#define RDCR 0x35 //RDCR Read Configuration Register-1 35
#define WRR 0x01 //Write Register (Status-1, Configuration-1)
#define WRDI 0x04 //Write Disable 04
#define WREN 0x06 //WREN Write Enable 06
#define CLSR 0x30 //CLSR Clear Status Register-1 - Erase/Prog. Fail Reset 30
#define ECCRD 0x18 //ECCRD ECC Read (4-byte address) 18
#define ABRD 0x14 //ABRD AutoBoot Register Read 14
#define ABWR 0x15 //AutoBoot Register Write 15
#define BRRD 0x16 //Bank Register Read 16
#define BRWR 0x17 //Bank Register Write 17
#define BRAC 0xB9 //BRAC Bank Register Access (Legacy Command formerly used for Deep Power Down) B9
#define DLPRD 0x41 //DLPRD Data Learning Pattern Read 41
#define PNVDLR 0x43 //PNVDLR Program NV Data Learning Register 43
#define WVDLR 0x4A //Write Volatile Data Learning Register 4A
#define PGSP 0x85 //Program Suspend 85
#define PGRS 0x8A //Program Resume 8A
#define ERSP 0x75 //Erase Suspend 75
#define ERRS 0x7A //Erase Resume 7A
#define OTPP 0x42 //OTP Program 42
#define OTPR 0x4B //OTP Read 4B
//Advanced Sector Protection
#define DYBRD 0xE0 //DYB Read E0 133
#define DYBWR 0xE1 //DYB Write E1 133
#define PPBRD 0xE2 //PPB Read E2 133
#define PPBP 0xE3 //PPB Program E3 133
#define PPBE 0xE4 //PPB Erase E4 133
#define ASPRD 0x2B //ASP Read 2B 133
#define ASPP 0x2F //ASP Program 2F 133
#define PLBRD 0xA7 //PPB Lock Bit Read A7 133
#define PLBWR 0xA6 //PPB Lock Bit Write A6 133
#define PASSRD 0xE7 //Password Read E7 133
#define PASSP 0xE8 //Password Program E8 133
#define PASSU 0xE9 //Password Unlock E9 133
#define DUMMY 0x00 // Dummy write to read
//Reset
#define RESET 0xF0 //Software Reset F0 133
#define MBR 0xFF //Mode Bit Reset FF 133
#define DUMMYBYTE 0x00 //Dummy byte for Read Operation
class S70FL01GS: public SPI {
public:
S70FL01GS(PinName mosi, PinName miso, PinName sclk, PinName cs);
int readByte(int addr); // takes a 32-bit (4 bytes) address and returns the data (1 byte) at that location
void readStream(int addr, char* buf, int count); // takes a 32-bit address, reads count bytes, and stores results in buf
void writeByte(int addr, int data); // takes a 32-bit (4 bytes) address and a byte of data to write at that location
void writeStream(int addr, char* buf, int count); // write count bytes of data from buf to memory, starting at addr
void writeString(int add, string str);
void sectorErase(int addr);
void chipErase(); //erase all data on chip
uint8_t readRegister();
uint8_t checkIfBusy(); // Check if IC is bury writing or erasing
void writeRegister(uint8_t regValue); // Write status register or configuration register
void reset(void); // Reset Chip
void clearRegister(); // Clear Status Register
void Read_Identification(uint8_t *buf);
long raedLong(int address); // Read long int number
void writeLong(int addr, long value); // Write Long Integer Number
private:
void writeEnable(); // write enable
void writeDisable(); // write disable
void chipEnable(); // chip enable
void chipDisable();
// chip disable
// SPI _spi;
DigitalOut _cs;
};
#endif