demo sample to drive PCU9955 and PCA9629

Dependencies:   mbed I2C_slaves PCU9669 parallel_bus

Fork of mini_board_PCU9669 by InetrfaceProducts NXP

What is this?

This is a sample code to operate PCU9955 (16ch constant-current LED controller) and PCA9629 (intelligent stepper motor controller) through PCU9669 (3 channels (UltraFast mode * 2ch, FastModePlus *1ch) I2C bus controller).

This demo is written based on mini_board_PCU9669 sample code library and its API.
http://mbed.org/users/nxp_ip/code/mini_board_PCU9669/

Demo will shows how the LED controllers and stepper motor controllers works.
It uses a mini_board_PCU9669 board with mbed, 8 of PCU9955s and 5 PCA9629s.

/media/uploads/nxp_ip/dsc_0414ss.png
Demo setup
(left-top: PCU9955 boards, left-bottom: mini-board PCU9669 with mbed, right: PCA9629 x5 board)

/media/uploads/nxp_ip/demo-config-ss.png
Board connections and device addresses

Reference:

User manual of PCU9669 demo board: Mini board PCU9669

http://www.nxp.com/documents/user_manual/UM10580.pdf

sample code : mbed programs

Import programmini_board_PCU9669

mini board PCU9669 (and PCA9665) sample code

Import programPCA9955_Hello

PCA9955 16 channel current drive(sink) LED driver sample code

Import programPCA9955_simple

very simple sample code for PCA9955 (16 channel current control LED driver)

Import programPCA9629_Hello

Sample code for PCA9629 operation

device infomation

PCU9669 (Parallel bus to 1 channel Fm+ and 2 channel UFm I2C-bus controller)
PCU9955 (16-channel UFm I²C-bus 57 mA constant current LED driver)
PCA9955 (16-channel Fm+ I²C-bus 57 mA constant current LED driver)
PCU9629 (Fm+ I2C-bus stepper motor controller)

Committer:
nxp_ip
Date:
Wed Mar 21 02:18:02 2012 +0000
Revision:
2:401c24301f60
Parent:
1:709e2c8e789a
Child:
4:c50d5596cb47
9669 without 9629

Who changed what in which revision?

UserRevisionLine numberNew contents of line
nxp_ip 0:de9a15767563 1 /** A sample code for "mini board PCU9669/PCA9665"
nxp_ip 0:de9a15767563 2 *
nxp_ip 0:de9a15767563 3 * @author Tedd OKANO, NXP Semiconductors
nxp_ip 0:de9a15767563 4 * @version 0.9
nxp_ip 0:de9a15767563 5 * @date 14-Feb-2011
nxp_ip 0:de9a15767563 6 *
nxp_ip 0:de9a15767563 7 * Released under the MIT License: http://mbed.org/license/mit
nxp_ip 0:de9a15767563 8 *
nxp_ip 0:de9a15767563 9 * An operation sample of PCU9669/PCA9665 I2C bus controller.
nxp_ip 0:de9a15767563 10 * The mbed accesses the bus controller's parallel port (8/2 bit address and 8 bit data) by bit-banging.
nxp_ip 0:de9a15767563 11 * The bit-banging is poerformed by PortInOut function of mbed library.
nxp_ip 0:de9a15767563 12 *
nxp_ip 0:de9a15767563 13 * To make the code porting easier, all codes are partitioned into layers to abstract other parts.
nxp_ip 0:de9a15767563 14 * The mbed specific parts are concentrated in lowest layer: "hardware_abs.*".
nxp_ip 0:de9a15767563 15 * This module may need to be modified for the porting.
nxp_ip 0:de9a15767563 16 *
nxp_ip 0:de9a15767563 17 * All other upper layers are writen in standard-C.
nxp_ip 0:de9a15767563 18 *
nxp_ip 0:de9a15767563 19 * base code is written from 05-Sep-2011 to 09-Sep-2011.
nxp_ip 0:de9a15767563 20 * And demo code has been build on 11-Sep-2011.
nxp_ip 0:de9a15767563 21 * Debug and code adjustment has been done on 08-Sep-2011.
nxp_ip 0:de9a15767563 22 * Small sanitization for main.cpp. All mbed related codes are moved in to "hardware_abs.*". 13-Oct-2011
nxp_ip 0:de9a15767563 23 * hardware_abs are moved into parallel_bus library folder, 3 LED driver operation sample 13-Feb.-2012
nxp_ip 0:de9a15767563 24 * PCU9669 and PCA9665 codes are packed in a project 14-Feb-2012.
nxp_ip 0:de9a15767563 25 *
nxp_ip 0:de9a15767563 26 * Before builidng the code, please edit the file mini_board_PCU9669/config.h
nxp_ip 0:de9a15767563 27 * Uncomment the target name what you want to target.
nxp_ip 0:de9a15767563 28 */
nxp_ip 0:de9a15767563 29
nxp_ip 0:de9a15767563 30 /** @note Application layer module of PCU9669
nxp_ip 0:de9a15767563 31 *
nxp_ip 0:de9a15767563 32 * This code is made to explain basic PCU9669 operation.
nxp_ip 0:de9a15767563 33 * And also, it demonstrates 3 channels of I2C operation with several slaves on those buses.
nxp_ip 0:de9a15767563 34 *
nxp_ip 0:de9a15767563 35 * The ch0 is an Fm+ bus that has a PCA9955 as slave device
nxp_ip 0:de9a15767563 36 * The ch1 and ch2 are UFm buses. Each bus has a PCU9955 as slave devices.
nxp_ip 0:de9a15767563 37 */
nxp_ip 0:de9a15767563 38
nxp_ip 0:de9a15767563 39 #include "config.h"
nxp_ip 0:de9a15767563 40
nxp_ip 0:de9a15767563 41 #include "transfer_manager.h" // abstracting the access of PCU9669 internal buffer
nxp_ip 0:de9a15767563 42 #include "PCU9669_access.h" // PCU9669 chip access interface
nxp_ip 0:de9a15767563 43 #include "hardware_abs.h" // to use install_ISR() and wait_sec() functions
nxp_ip 0:de9a15767563 44 #include "PCx9955_reg.h" // slave specific definitions
nxp_ip 0:de9a15767563 45 #include "PCA9629_reg.h"
nxp_ip 0:de9a15767563 46 #include "utility.h" //
nxp_ip 0:de9a15767563 47 //#include "mbed.h" // this header is required only when printf() is used.
nxp_ip 0:de9a15767563 48
nxp_ip 0:de9a15767563 49 #if defined( CODE_FOR_PCU9669 ) || defined( CODE_FOR_PCA9663 )
nxp_ip 0:de9a15767563 50
nxp_ip 0:de9a15767563 51 #ifdef CODE_FOR_PCU9669
nxp_ip 0:de9a15767563 52 #define TARGET_CHIP_ID PCU9669_ID
nxp_ip 0:de9a15767563 53 #endif
nxp_ip 0:de9a15767563 54
nxp_ip 0:de9a15767563 55 #ifdef CODE_FOR_PCA9663
nxp_ip 0:de9a15767563 56 #define TARGET_CHIP_ID PCA9663_ID
nxp_ip 0:de9a15767563 57 #endif
nxp_ip 0:de9a15767563 58
nxp_ip 0:de9a15767563 59 /**
nxp_ip 0:de9a15767563 60 * register settings for PCx9955
nxp_ip 0:de9a15767563 61 */
nxp_ip 0:de9a15767563 62
nxp_ip 0:de9a15767563 63 char PCx9955_reg_data[] = {
nxp_ip 0:de9a15767563 64 0x80, // Strat register address with AutoIncrement bit
nxp_ip 0:de9a15767563 65 0x00, 0x05, // MODE1, MODE2
nxp_ip 0:de9a15767563 66 0xAA, 0xAA, 0xAA, 0xAA, // LEDOUT[3:0]
nxp_ip 0:de9a15767563 67 0x80, 0x00, // GRPPWM, GRPFREQ
nxp_ip 0:de9a15767563 68 PWM_INIT, PWM_INIT, PWM_INIT, PWM_INIT, // PWM[3:0]
nxp_ip 0:de9a15767563 69 PWM_INIT, PWM_INIT, PWM_INIT, PWM_INIT, // PWM[7:4]
nxp_ip 0:de9a15767563 70 PWM_INIT, PWM_INIT, PWM_INIT, PWM_INIT, // PWM[11:8]
nxp_ip 0:de9a15767563 71 PWM_INIT, PWM_INIT, PWM_INIT, PWM_INIT, // PWM[15:12]
nxp_ip 0:de9a15767563 72 IREF_INIT, IREF_INIT, IREF_INIT, IREF_INIT, // IREF[3:0]
nxp_ip 0:de9a15767563 73 IREF_INIT, IREF_INIT, IREF_INIT, IREF_INIT, // IREF[7:4]
nxp_ip 0:de9a15767563 74 IREF_INIT, IREF_INIT, IREF_INIT, IREF_INIT, // IREF[11:8]
nxp_ip 0:de9a15767563 75 IREF_INIT, IREF_INIT, IREF_INIT, IREF_INIT, // IREF[15:12]
nxp_ip 0:de9a15767563 76 0x08 // OFFSET: 1uS offsets
nxp_ip 0:de9a15767563 77 };
nxp_ip 0:de9a15767563 78
nxp_ip 0:de9a15767563 79 char PCx9629_reg_data[] = { // This sample data performs ramp-up/down with rotation=2 in 1 second
nxp_ip 0:de9a15767563 80 0x80, // Strat register address with AutoIncrement bit
nxp_ip 0:de9a15767563 81 0x20, 0xE2, 0xE4, 0xE6, 0xE0, 0xFF, 0x10, // for registers MODE - WDCNTL (0x00 - 0x06
nxp_ip 0:de9a15767563 82 0x00, 0x00, // for registers IP and INTSTAT (0x07, 0x08)
nxp_ip 0:de9a15767563 83 0x0F, 0x03, 0x0C, 0x0F, 0x03, 0x00, 0x03, 0x03, 0x01, // for registers OP - INT_AUTO_CLR (0x09 - 0x11)
nxp_ip 0:de9a15767563 84 0x03, 0x00, 0x30, 0x00, 0x1D, 0x07, 0x1D, 0x07, // for registers SETMODE - CCWPWH (0x12 - 0x19)
nxp_ip 0:de9a15767563 85 0x2F, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, // for registers CWSCOUNTL - CCWRCOUNTH (0x1A - 0x21)
nxp_ip 0:de9a15767563 86 0x08, 0x08, // for registers EXTRASTEPS0 and EXTRASTEPS1 (0x22, 0x23)
nxp_ip 0:de9a15767563 87 0x38, 0x00, 0x80 // for registers RMPCNTL - MCNTL (0x24 - 0x26)
nxp_ip 0:de9a15767563 88 };
nxp_ip 0:de9a15767563 89
nxp_ip 0:de9a15767563 90
nxp_ip 0:de9a15767563 91 char PCx9955_reg_read_start_address = 0x80;
nxp_ip 0:de9a15767563 92
nxp_ip 1:709e2c8e789a 93 char read_buffer[ 41 ];
nxp_ip 0:de9a15767563 94
nxp_ip 0:de9a15767563 95 transaction ufm_transactions[] = {
nxp_ip 0:de9a15767563 96 { PCx9955_ADDR0, PCx9955_reg_data, sizeof( PCx9955_reg_data ) }
nxp_ip 0:de9a15767563 97 };
nxp_ip 0:de9a15767563 98
nxp_ip 0:de9a15767563 99 transaction fm_plus_transactions[] = {
nxp_ip 0:de9a15767563 100 { PCx9955_ADDR0, PCx9955_reg_data, sizeof( PCx9955_reg_data ) },
nxp_ip 2:401c24301f60 101 { PCx9955_ADDR0, &PCx9955_reg_read_start_address, 1 },
nxp_ip 2:401c24301f60 102 { PCx9955_ADDR0 | 0x01, read_buffer, sizeof( read_buffer ) }
nxp_ip 1:709e2c8e789a 103 // { 0x4A, PCx9629_reg_data, sizeof( PCx9629_reg_data ) }
nxp_ip 0:de9a15767563 104 };
nxp_ip 0:de9a15767563 105
nxp_ip 0:de9a15767563 106 char read_done = 0;
nxp_ip 0:de9a15767563 107
nxp_ip 0:de9a15767563 108 void interrupt_handler( void );
nxp_ip 0:de9a15767563 109
nxp_ip 0:de9a15767563 110 int main() {
nxp_ip 0:de9a15767563 111 char clear[ 16 ] = { 0 };
nxp_ip 0:de9a15767563 112 int count = 0;
nxp_ip 0:de9a15767563 113 int i;
nxp_ip 0:de9a15767563 114 int j;
nxp_ip 0:de9a15767563 115
nxp_ip 0:de9a15767563 116 // printf( "\r\nPCU9669 simple demo program on mbed\r\n build : %s (UTC), %s \r\n\r\n", __TIME__, __DATE__ );
nxp_ip 0:de9a15767563 117
nxp_ip 0:de9a15767563 118 hardware_initialize(); // initializing bit-banging parallel port
nxp_ip 0:de9a15767563 119 reset(); // assert hardware /RESET sgnal
nxp_ip 0:de9a15767563 120
nxp_ip 0:de9a15767563 121 if ( start_bus_controller( TARGET_CHIP_ID ) ) // wait the bus controller ready and check chip ID
nxp_ip 0:de9a15767563 122 return 1;
nxp_ip 0:de9a15767563 123
nxp_ip 0:de9a15767563 124 write_ch_register( CH_FM_PLUS, INTMSK, 0x30 ); // set bus controller to ignore NAK return from Fm+ slaves
nxp_ip 0:de9a15767563 125 install_ISR( &interrupt_handler ); // interrupt service routine install
nxp_ip 0:de9a15767563 126
nxp_ip 0:de9a15767563 127 setup_transfer( CH_FM_PLUS, fm_plus_transactions, sizeof( fm_plus_transactions ) / sizeof( transaction ) );
nxp_ip 0:de9a15767563 128 setup_transfer( CH_UFM1, ufm_transactions, sizeof( ufm_transactions ) / sizeof( transaction ) );
nxp_ip 0:de9a15767563 129 setup_transfer( CH_UFM2, ufm_transactions, sizeof( ufm_transactions ) / sizeof( transaction ) );
nxp_ip 0:de9a15767563 130
nxp_ip 0:de9a15767563 131 while ( 1 ) {
nxp_ip 0:de9a15767563 132 for ( i = 0; i < 16; i++ ) {
nxp_ip 0:de9a15767563 133 for ( j = 0; j < 256; j += 4 ) {
nxp_ip 0:de9a15767563 134 buffer_overwrite( CH_FM_PLUS, 0, 9 + i, (char *)&j, 1 );
nxp_ip 0:de9a15767563 135 buffer_overwrite( CH_UFM1, 0, 9 + i, (char *)&j, 1 );
nxp_ip 0:de9a15767563 136 buffer_overwrite( CH_UFM2, 0, 9 + i, (char *)&j, 1 );
nxp_ip 0:de9a15767563 137
nxp_ip 0:de9a15767563 138 read_done = 0;
nxp_ip 0:de9a15767563 139
nxp_ip 0:de9a15767563 140 set_n_of_transaction( CH_FM_PLUS, (sizeof( fm_plus_transactions ) / sizeof( transaction )) - ((count % 256) ? 1 : 0) );
nxp_ip 0:de9a15767563 141
nxp_ip 0:de9a15767563 142 start( CH_FM_PLUS );
nxp_ip 0:de9a15767563 143 start( CH_UFM1 );
nxp_ip 0:de9a15767563 144 start( CH_UFM2 );
nxp_ip 0:de9a15767563 145
nxp_ip 0:de9a15767563 146 #if 0
nxp_ip 0:de9a15767563 147 if ( read_done ) {
nxp_ip 0:de9a15767563 148 buffer_read( CH_FM_PLUS, 2, 0, read_buffer, sizeof( read_buffer ) );
nxp_ip 0:de9a15767563 149 dump_read_data( read_buffer, sizeof( read_buffer ) );
nxp_ip 0:de9a15767563 150 read_done = 0;
nxp_ip 0:de9a15767563 151 }
nxp_ip 0:de9a15767563 152 #endif
nxp_ip 0:de9a15767563 153 wait_sec( 0.01 );
nxp_ip 0:de9a15767563 154 count++;
nxp_ip 0:de9a15767563 155 }
nxp_ip 0:de9a15767563 156 }
nxp_ip 0:de9a15767563 157 buffer_overwrite( CH_FM_PLUS, 0, 9, clear, 16 );
nxp_ip 0:de9a15767563 158 buffer_overwrite( CH_UFM1, 0, 9, clear, 16 );
nxp_ip 0:de9a15767563 159 buffer_overwrite( CH_UFM2, 0, 9, clear, 16 );
nxp_ip 0:de9a15767563 160 }
nxp_ip 0:de9a15767563 161 }
nxp_ip 0:de9a15767563 162
nxp_ip 0:de9a15767563 163 void interrupt_handler( void ) {
nxp_ip 0:de9a15767563 164 char global_status;
nxp_ip 0:de9a15767563 165 char channel_status;
nxp_ip 0:de9a15767563 166
nxp_ip 0:de9a15767563 167 global_status = read_data( CTRLSTATUS );
nxp_ip 0:de9a15767563 168
nxp_ip 0:de9a15767563 169 if ( global_status & 0x01 ) { // ch0
nxp_ip 0:de9a15767563 170 channel_status = read_ch_register( 0, CHSTATUS );
nxp_ip 0:de9a15767563 171
nxp_ip 0:de9a15767563 172 if ( channel_status & 0x80 )
nxp_ip 0:de9a15767563 173 read_done = 1;
nxp_ip 0:de9a15767563 174 }
nxp_ip 0:de9a15767563 175 if ( global_status & 0x02 ) {
nxp_ip 0:de9a15767563 176 channel_status = read_ch_register( 1, CHSTATUS );
nxp_ip 0:de9a15767563 177 }
nxp_ip 0:de9a15767563 178 if ( global_status & 0x04 ) {
nxp_ip 0:de9a15767563 179 channel_status = read_ch_register( 2, CHSTATUS );
nxp_ip 0:de9a15767563 180 }
nxp_ip 0:de9a15767563 181 // printf( "ISR channel_status 0x%02X\r\n", channel_status );
nxp_ip 0:de9a15767563 182 }
nxp_ip 0:de9a15767563 183
nxp_ip 0:de9a15767563 184 #endif // CODE_FOR_PCU9669
nxp_ip 0:de9a15767563 185
nxp_ip 0:de9a15767563 186
nxp_ip 0:de9a15767563 187
nxp_ip 0:de9a15767563 188
nxp_ip 0:de9a15767563 189
nxp_ip 0:de9a15767563 190