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Yusheng-final_project_robot
Code for robot
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Diff: MRF24J40/MRF24J40.cpp
- Revision:
- 6:ae3e6aefe908
--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/MRF24J40/MRF24J40.cpp Thu Nov 10 19:20:55 2016 +0000 @@ -0,0 +1,253 @@ +/* mbed MRF24J40 (IEEE 802.15.4 tranceiver) Library + * Copyright (c) 2011 Jeroen Hilgers + * + * Permission is hereby granted, free of charge, to any person obtaining a copy + * of this software and associated documentation files (the "Software"), to deal + * in the Software without restriction, including without limitation the rights + * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell + * copies of the Software, and to permit persons to whom the Software is + * furnished to do so, subject to the following conditions: + * + * The above copyright notice and this permission notice shall be included in + * all copies or substantial portions of the Software. + * + * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR + * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, + * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE + * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER + * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, + * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN + * THE SOFTWARE. + */ + +#include "MRF24J40.h" + +// MRF20J40 Short address control register mapping. +#define RXMCR 0x00 +#define PANIDL 0x01 +#define PANIDH 0x02 +#define SADRL 0x03 +#define SADRH 0x04 +#define EADR0 0x05 +#define EADR1 0x06 +#define EADR2 0x07 +#define EADR3 0x08 +#define EADR4 0x09 +#define EADR5 0x0a +#define EADR6 0x0b +#define EADR7 0x0c +#define RXFLUSH 0x0d + +#define TXNMTRIG 0x1b +#define TXSR 0x24 + +#define ISRSTS 0x31 +#define INTMSK 0x32 +#define GPIO 0x33 +#define TRISGPIO 0x34 + +#define RFCTL 0x36 + +#define BBREG2 0x3A + +#define BBREG6 0x3E +#define RSSITHCCA 0x3F + +// MRF20J40 Long address control register mapping. +#define RFCTRL0 0x200 + +#define RFCTRL2 0x202 +#define RFCTRL3 0x203 + +#define RFCTRL6 0x206 +#define RFCTRL7 0x207 +#define RFCTRL8 0x208 + +#define CLKINTCR 0x211 +#define CLCCTRL 0x220 + +MRF24J40::MRF24J40(PinName mosi, PinName miso, PinName sck, PinName cs, PinName reset) ://, PinName irq, PinName wake) : + mSpi(mosi, miso, sck), // mosi, miso, sclk + mCs(cs), + mReset(reset) +// mIrq(irq), +// mWake(wake) +{ + mSpi.format(8, 0); // 8 bits, cpol=0; cpha=0 + mSpi.frequency(500000); + Reset(); +} + +/* +void MRF24J40::DebugDump(Serial &ser) +{ + ser.printf("MRF24J40 registers:\r"); + ser.printf("RXMCR=0x%X\r", MrfReadShort(RXMCR)); + ser.printf("RXFLUSH=0x%X\r", MrfReadShort(RXFLUSH)); + ser.printf("TXNMTRIG=0x%X\r", MrfReadShort(TXNMTRIG)); + ser.printf("TXSR=0x%X\r", MrfReadShort(TXSR)); + ser.printf("ISRSTS=0x%X\r", MrfReadShort(ISRSTS)); + ser.printf("INTMSK=0x%X\r", MrfReadShort(INTMSK)); + ser.printf("GPIO=0x%X\r", MrfReadShort(GPIO)); + ser.printf("TRISGPIO=0x%X\r", MrfReadShort(TRISGPIO)); + ser.printf("RFCTL=0x%X\r", MrfReadShort(RFCTL)); + ser.printf("BBREG2=0x%X\r", MrfReadShort(BBREG2)); + ser.printf("BBREG6=0x%X\r", MrfReadShort(BBREG6)); + ser.printf("RSSITHCCA=0x%X\r", MrfReadShort(RSSITHCCA)); + + + ser.printf("RFCTRL0=0x%X\r", MrfReadLong(RFCTRL0)); + ser.printf("RFCTRL2=0x%X\r", MrfReadLong(RFCTRL2)); + ser.printf("RFCTRL3=0x%X\r", MrfReadLong(RFCTRL3)); + ser.printf("RFCTRL6=0x%X\r", MrfReadLong(RFCTRL6)); + ser.printf("RFCTRL7=0x%X\r", MrfReadLong(RFCTRL7)); + ser.printf("RFCTRL8=0x%X\r", MrfReadLong(RFCTRL8)); + ser.printf("CLKINTCR=0x%X\r", MrfReadLong(CLKINTCR)); + ser.printf("CLCCTRL=0x%X\r", MrfReadLong(CLCCTRL)); + ser.printf("\r"); +} +*/ + +void MRF24J40::Reset(void) +{ + mCs = 1; + // Pulse hardware reset. + mReset = 0; + wait_us(100); + mReset = 1; + wait_us(100); + + // Reset RF module. + WriteShort(RFCTL, 0x04); + WriteShort(RFCTL, 0x00); + + WriteShort(RFCTL, 0x00); + + WriteShort(PANIDL, 0xAA); + WriteShort(PANIDH, 0xAA); + WriteShort(SADRL, 0xAA); + WriteShort(SADRH, 0xAA); + + // Flush RX fifo. + WriteShort(RXFLUSH, 0x01); + + // Write MAC addresses here. We don't care. + + WriteLong(RFCTRL2, 0x80); // Enable RF PLL. + + WriteLong(RFCTRL3, 0x00); // Full power. + WriteLong(RFCTRL6, 0x80); // Enable TX filter (recommended) + WriteLong(RFCTRL8, 0x10); // Enhanced VCO (recommended) + + WriteShort(BBREG2,0x78); // Clear Channel Assesment use carrier sense. + WriteShort(BBREG6,0x40); // Calculate RSSI for Rx packet. + WriteShort(RSSITHCCA,0x00);// RSSI threshold for CCA. + + WriteLong(RFCTRL0, 0x00); // Channel 11. + + WriteShort(RXMCR, 0x01); // Don't check address upon reception. +// MrfWriteShort(RXMCR, 0x00); // Check address upon reception. + + // Reset RF module with new settings. + WriteShort(RFCTL, 0x04); + WriteShort(RFCTL, 0x00); +} + +void MRF24J40::Send(uint8_t *data, uint8_t length) +{ + uint8_t i; + + WriteLong(0x000, 0); // No addresses in header. + WriteLong(0x001, length); // 11 bytes + for(i=0; i<length; i++) + WriteLong(0x002+i, data[i]); + + WriteShort(TXNMTRIG, 0x01); +} + +uint8_t MRF24J40::Receive(uint8_t *data, uint8_t maxLength) +{ + uint8_t i, length; + uint8_t lqi, rssi; + + if(ReadShort(ISRSTS)& 0x08) + { + length = ReadLong(0x300); + lqi = ReadLong(0x301 + length); + rssi = ReadLong(0x302 + length); + for(i=0; i<length; i++) + if(i<maxLength) + *data++ = ReadLong(0x301 + (uint16_t)i); + else + ReadLong(0x301 + (uint16_t)i); + if(length < maxLength) + return length; + } + return 0; +} + +uint8_t MRF24J40::ReadShort (uint8_t address) +{ + uint8_t value; + mCs = 0; + wait_us(1); + mSpi.write((address<<1) & 0x7E); + wait_us(1); + value = mSpi.write(0xFF); + wait_us(1); + mCs = 1; + wait_us(1); + return value; +} + +void MRF24J40::WriteShort (uint8_t address, uint8_t data) +{ + mCs = 0; + wait_us(1); + mSpi.write(((address<<1) & 0x7E) | 0x01); + wait_us(1); + mSpi.write(data); + wait_us(1); + mCs = 1; + wait_us(1); +} + +uint8_t MRF24J40::ReadLong (uint16_t address) +{ + uint8_t value; + mCs = 0; + wait_us(1); + mSpi.write((address>>3) | 0x80); + wait_us(1); + mSpi.write((address<<5) & 0xE0); + wait_us(1); + value = mSpi.write(0xFF); + wait_us(1); + mCs = 1; + wait_us(1); + return value; +} + +void MRF24J40::WriteLong (uint16_t address, uint8_t data) +{ + mCs = 0; + wait_us(1); + mSpi.write((address>>3) | 0x80); + wait_us(1); + mSpi.write(((address<<5) & 0xE0) | 0x10); + wait_us(1); + mSpi.write(data); + wait_us(1); + mCs = 1; + wait_us(1); +} + +void MRF24J40::SetChannel(uint8_t channel) +{ + WriteLong(RFCTRL0, (channel & 0x0F)<<4 | 0x03); // Set channel, leave RFOPT bits at recommended + + //Reset the board by first writing a 4 to RFCTL, then writing a 0 + WriteShort(RFCTL, 0x04); + WriteShort(RFCTL, 0x00); + wait(0.5); +}