8:4 Matrix Multiplexer
Fork of max14661 by
This is an untested driver for the MAX14724.
max14661.h
- Committer:
- j3
- Date:
- 2014-12-05
- Revision:
- 5:58f3bbd30777
- Parent:
- 4:45fa0192f66d
- Child:
- 7:1d4e59ec0fba
File content as of revision 5:58f3bbd30777:
/******************************************************************//** * @file max14661.h * * @author Justin Jordan * * @version 0.0 * * Started: 11NOV14 * * Updated: * * @brief Header file for MAX14661 class * *********************************************************************** * * @copyright * Copyright (C) 2013 Maxim Integrated Products, Inc., All Rights Reserved. * * 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 MAXIM INTEGRATED 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. * * Except as contained in this notice, the name of Maxim Integrated * Products, Inc. shall not be used except as stated in the Maxim Integrated * Products, Inc. Branding Policy. * * The mere transfer of this software does not imply any licenses * of trade secrets, proprietary technology, copyrights, patents, * trademarks, maskwork rights, or any other form of intellectual * property whatsoever. Maxim Integrated Products, Inc. retains all * ownership rights. **********************************************************************/ #ifndef MAX14661_H #define MAX14661_H #include "mbed.h" /** * max14661_i2c_adrs_t - enumerated MAX14661 I2C Addresses */ typedef enum { MAX14661_I2C_ADRS0 = 0x4C, MAX14661_I2C_ADRS1, MAX14661_I2C_ADRS2, MAX14661_I2C_ADRS3 }max14661_i2c_adrs_t; /** * max14661_regs_t - enumerated MAX14661 register addresses */ typedef enum { DIR0, //Switches 8A–1A direct read/write access DIR1, //Switches 16A–9A direct read/write access DIR2, //Switches 8B–1B direct read/write access DIR3, //Switches 16B–9B direct read/write access SHDW0 = 0x10, //Switches 8A–1A shadow read/write access SHDW1, //Switches 16A–9A shadow read/write access SHDW2, //Switches 8B–1B shadow read/write access SHDW3, //Switches 16B–9B shadow read/write access CMD_A, //Set mux A command (reads 0x00) CMD_B //Set mux B command (reads 0x00) }max14661_regs_t; /** * max14661_cmds_t - enumerated MAX14661 commands */ typedef enum { ENABLE_SW01, //enables sw1 on bank only ENABLE_SW02, //enables sw2 on bank only ENABLE_SW03, //enables sw3 on bank only ENABLE_SW04, //enables sw4 on bank only ENABLE_SW05, //enables sw5 on bank only ENABLE_SW06, //enables sw6 on bank only ENABLE_SW07, //enables sw7 on bank only ENABLE_SW08, //enables sw8 on bank only ENABLE_SW09, //enables sw9 on bank only ENABLE_SW10, //enables sw10 on bank only ENABLE_SW11, //enables sw11 on bank only ENABLE_SW12, //enables sw12 on bank only ENABLE_SW13, //enables sw13 on bank only ENABLE_SW14, //enables sw14 on bank only ENABLE_SW15, //enables sw15 on bank only ENABLE_SW16, //enables sw16 on bank only DISABLE_BANK, //opens all switches on bank COPY_SHADOW, //copies both shadow registers for bank NO_CHANGE, }max14661_cmds_t; /** * max14661_sw_t - enumerated MAX14661 switch bitmasks */ typedef enum { SW01 = (1 << 0), SW02 = (1 << 1), SW03 = (1 << 2), SW04 = (1 << 3), SW05 = (1 << 4), SW06 = (1 << 5), SW07 = (1 << 6), SW08 = (1 << 7), SW09 = (1 << 8), SW10 = (1 << 9), SW11 = (1 << 10), SW12 = (1 << 11), SW13 = (1 << 12), SW14 = (1 << 13), SW15 = (1 << 14), SW16 = (1 << 15) }max14661_sw_t; /******************************************************************//** * Max14661 Class **********************************************************************/ class Max14661 : public I2C { uint8_t w_adrs, r_adrs; public: /**********************************************************//** * Constructor for Max14661 Class * * On Entry: * @param[in] sda - sda pin of I2C bus * @param[in] scl - scl pin of I2C bus * @param[in] i2c_adrs - 7-bit slave address of MAX14661 * * On Exit: * @return none * * Example: * @code * * //declare mux object * Max14661 mux(D14, D15, MAX14661_I2C_ADRS0); * * @endcode **************************************************************/ Max14661(PinName sda, PinName scl, max14661_i2c_adrs_t i2c_adrs); /******************************************************************//** * Writes given commands to CMD_A and CMD_B * * On Entry: * @param[in] cmdA - command for CMD_A * @param[in] cmdB - command for CMD_B * * On Exit: * @return return value = 0 on success, non-0 on failure * * Example: * @code * * //declare mux object * Max14661 mux(D14, D15, MAX14661_I2C_ADRS0); * * uint16_t rtn_val; * * rtn_val = mux.wrt_cmd_registers(DISABLE_BANK, DISABLE_BANK); * * @endcode **********************************************************************/ uint16_t wrt_cmd_registers(max14661_cmds_t cmdA, max14661_cmds_t cmdB); /******************************************************************//** * Writes bankA and bankB to coresponding shadow registers * * On Entry: * @param[in] bankA - binary representation of switch states * @param[in] bankB - binary representation of switch states * * On Exit: * @return return value = 0 on success, non-0 on failure * * Example: * @code * * //declare mux object * Max14661 mux(D14, D15, MAX14661_I2C_ADRS0); * * uint16_t bankA = (SW12 | SW02); //example only * uint16_t bankB = (SW11 | SW01); * uint16_t rtn_val; * * //wite shadow registers * rtn_val = mux.wrt_shadow_registers(bankA, bankB); * * @endcode **********************************************************************/ uint16_t wrt_shadow_registers(uint16_t bankA, uint16_t bankB); /******************************************************************//** * Writes bankA and bankB to coresponding direct access registers * * On Entry: * @param[in] bankA - binary representation of switch states * @param[in] bankB - binary representation of switch states * * On Exit: * @return return value = 0 on success, non-0 on failure * * Example: * @code * * //declare mux object * Max14661 mux(D14, D15, MAX14661_I2C_ADRS0); * * uint16_t bankA = (SW12 | SW02); //example only * uint16_t bankB = (SW11 | SW01); * uint16_t rtn_val; * * //wite shadow registers * rtn_val = mux.wrt_dir_registers(bankA, bankB); * * @endcode **********************************************************************/ uint16_t wrt_dir_registers(uint16_t bankA, uint16_t bankB); /******************************************************************//** * Writes bankA and bankB to coresponding shadow register and then * issues copy command for both banks * * On Entry: * @param[in] bankA - binary representation of switch states * @param[in] bankB - binary representation of switch states * * On Exit: * @return return value = 0 on success, non-0 on failure * * Example: * @code * * //declare mux object * Max14661 mux(D14, D15, MAX14661_I2C_ADRS0); * * uint16_t bankA = (SW12 | SW02); //example only * uint16_t bankB = (SW11 | SW01); * uint16_t rtn_val; * * //wite shadow registers * rtn_val = mux.set_switches(bankA, bankB); * * @endcode **********************************************************************/ uint16_t set_switches(uint16_t bankA, uint16_t bankB); /**********************************************************//** * Reads data from direct access registers starting at DIR0 and * stores it in byte array pointed at by 'data' * * On Entry: * @param[in] data - pointer to byte array for storing data * * On Exit: * @param[out] data - data buffer now contains data read * from dir registers * @return return value = 0 on success, non-0 on failure * * Example: * @code * * //declare mux object * Max14661 mux(D14, D15, MAX14661_I2C_ADRS0); * * uint16_t rtn_val; * uint8_t data[4]; * * //read direct access registers * rtn_val = mux.rd_dir_registers(data); * * @endcode **********************************************************************/ uint16_t rd_dir_registers(uint8_t* data); /**********************************************************//** * Reads data from shadow registers starting at SHDW0 and stores * it in byte array pointed at by 'data' * * On Entry: * @param[in] data - pointer to byte array for storing data * * On Exit: * @param[out] data - data buffer now contains data read * from shadow registers * @return return value = 0 on success, non-0 on failure * * Example: * @code * * //declare mux object * Max14661 mux(D14, D15, MAX14661_I2C_ADRS0); * * uint16_t rtn_val; * uint8_t data[4]; * * //read shadow registers * rtn_val = mux.rd_shadow_registers(data); * * @endcode **************************************************************/ uint16_t rd_shadow_registers(uint8_t* data); }; #endif /* MAX14661_H*/