| This project uses the GDC API for communication and interaction with the Lime controller. |
91460_template_91460s_gdc_lime-v10.zip
|
| This is a project template for the MB91461r. |
91460_template_91461r-v17.zip
|
| This is a project template for the MB91463C. |
91460_template_91463c-v12.zip
|
| This is a project template for the MB91463NP. |
91460_template_91463n-v12.zip
|
| This is a project template for the MB91464A. |
91460_template_91464a-v21.zip
|
| This is a project template for the MB91464h. |
91460_template_91464h-v15.zip
|
| Template project for MB91465B |
91460_template_91465b-v13.zip
|
| This is a project template for the MB91465C. |
91460_template_91465c-v12.zip
|
| Template project for MB91465D |
91460_template_91465d-v11.zip
|
| Template project for MB91465K |
91460_template_91465k-v19.zip
|
| This is a project template for the MB91465P. |
91460_template_91465p-v21.zip
|
| This is a project template for the MB91465X. |
91460_template_91465x-v19.zip
|
| Template project for MB91466H |
91460_template_91466h-v11.zip
|
| Template project for MB91467B |
91460_template_91467b-v18.zip
|
| This project uses the GDC API for communication and interaction with the Lime controller. |
91460_template_91467b_gdc_lime-v12.zip
|
| This is a project template for the MB91467c. |
91460_template_91467c-v19.zip
|
| This is a project template for the MB91467D. |
91460_template_91467d-v29.zip
|
| This project uses the GDC API for communication and interaction with the jasmin controller. |
91460_template_91467d_gdc_jasmine-v17.zip
|
| This is a project template for the MB91467D. |
91460_template_91467d_gdc_lime-v19.zip
|
| This is a project template for the MB91467M. |
91460_template_91467m-v13.zip
|
| This is a project template for the MB91467P. |
91460_template_91467p-v13.zip
|
| This is a project template for the MB91467r. |
91460_template_91467r-v17.zip
|
| This is a project template for the MB91467S. |
91460_template_91467s-v22.zip
|
| This is a project template for the MB91467T. |
91460_template_91467t-v20.zip
|
| This is a project template for the MB91469g. |
91460_template_91469g-v22.zip
|
| This is a project template for the MB91469q. |
91460_template_91469q-v17.zip
|
| This Example converts two ADC channels with 10 Bit resolution. The values are transfered with DMA. |
91460_adc10_dma_irq-v12.zip
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| This Example converts the Value at AN0 to a digital value with 10 Bit resolution. |
91460_adc10_uart_async-v13.zip
|
| This example initializes the analog converter channel 0 and 1 for continuous conversion and direct memory access. |
91460_adc8_dma-v14.zip
|
| This Example converts the Value at AN0 to a digital value with 8 Bit resolution. |
91460_adc8_uart_async-v13.zip
|
| This Example converts the Value at AN0 to a digital value with 8 Bit resolution. |
91460_adc8_uart_async_91465p-v11.zip
|
| This Example converts the Value at AN0 to a digital value with 8 Bit resolution. |
91460_adc8_uart_async_91467b-v11.zip
|
| This Example converts the Value at AN0 to a digital value with 8 Bit resolution. |
91460_adc8_uart_async_91467s-v10.zip
|
| This Example converts the Value at AN0 to a digital value with 8 Bit resolution. |
91460_adc8_uart_async_91467t-v10.zip
|
| ADC0 is initialised with interrupt and ADC conversion is triggered by ReloadTimer7. |
91460_adc_rlt-v10.zip
|
| This Project uses Alarm Comparator 0 with AVDD and AVSS as reference voltages. |
91460_alarmcomp-v10.zip
|
| c_can interrupt handling |
91460_c_can_isr_91469g-v12.zip
|
| The basic usage of CAN module is shown. The CAN interface is setup for 100kBaud (100k_20_70_4) CAN buffer 1 is prepared as full CAN receive object for standard ID 0x002. |
91460_can-v10.zip
|
| This demo shows how to setup C_CAN application using interrupt service routine for TX, RX and error handling. Connect the MCU UART2 to a terminal program (9600 Baud 8N1) to see the output of this demo. |
91460_can_isrs-v10.zip
|
| Simple CAN Demo |
91460_can_start_91467d-v10.zip
|
| This example uses a CAN and UART0 interface. Each character received by the UART will be echoed and will be sent to the CAN. Each data received by the CAN will be sent to the UART. |
91460_can_uart_async-v13.zip
|
| The CAN_UART example show functionality of the CAN-controller (CAN0). The program is controlled by a PC-terminal-program via UART1 (9600Baud) |
91460_can_uart_terminal-v11.zip
|
| CAN wake up feature of mb91460 series |
91460_can_wake_up_91469g-v10.zip
|
| TThis example sets the real time clock (RTC) and displays the time via UART5 (19200 Baud). ClockMeasure() function is called after every 60s to calibrate the RC clock. RLT0 interrupt is used for the same. |
91460_clock_cal-v10.zip
|
| This project sets clock Modulator ON and OFF at the key press corresponding to INT2. |
91460_clock_modulator-v10.zip
|
| This example shows how to change the clock settings (PLL and prescalers). |
91460_clock_setting-v10.zip
|
| This project is for Clock supervisor. Base clock is out put to MONCLK and Content of Clock supervisor control register is displayed on Port 16. When program is running it toggles Port 25. |
91460_clock_supervisor-v10.zip
|
| This software example demonstrates how to configure the MPU for the data protection. Here the memory protection exception would occur when the main function would try to access the elements from 25 onwards of the data_hit[] array. In the ISR the bit 0 of port 16 is toggled. The message would also be sent to UART2 indicating the exact operand and intsruction address which caused the break. |
91460_edsu_mem_protection-v10.zip
|
| This is a demo project implementing a EEPROM Emulation concept descriped in the Appnote 'EEPROM Emulation on Single Bank FLASH'. |
91460_eeprom_emulation_demo_mb91f465k-v10.zip
|
| This is a demo project implementing a EEPROM Emulation concept descriped in the Appnote 'EEPROM Emulation on Single Bank FLASH'. |
91460_eeprom_emulation_demo_mb91f467d-v10.zip
|
| This example uses DMA burst and block mode to transfer 1 MByte of data from the external flash to the external SRAM or SDRAM. |
91460_extbus_dma-v12.zip
|
| The project erases the flash memory, writes a test pattern at a specific address range and verifies the data. |
91460_extbus_flash-v15.zip
|
| The project erase the external flash memory on SK-MB91460S-176PMC, writes a test pattern at a specific address range and verify the data. UART5 is initialized to 19200, 8N1 to output status messages and to get input commands. |
91460_extbus_flash_91467s-v10.zip
|
| This project uses the GDC API for communication and interaction with the jasmin controller (bmp). |
91460_extbus_gdc_jasmine_bmp-v13.zip
|
| This project uses the GDC API for communication and interaction with the jasmin controller (clut). |
91460_extbus_gdc_jasmine_clut-v12.zip
|
| This project reuqires the Jasmine graphic controller sub-board. As an example it shows an industrial graphic for process control. |
91460_extbus_gdc_jasmine_industrial-v14.zip
|
| This project uses the GDC API for communication and interaction with the jasmin controller (Layer). |
91460_extbus_gdc_jasmine_layer-v13.zip
|
| This project uses the GDC API for communication and interaction with the jasmin controller (Metrics). |
91460_extbus_gdc_jasmine_metrics-v13.zip
|
| This project uses the GDC API for communication and interaction with the jasmin controller (Ortho). |
91460_extbus_gdc_jasmine_ortho-v13.zip
|
| This project uses the GDC API for communication and interaction with the jasmin controller (Text). |
91460_extbus_gdc_jasmine_text-v12.zip
|
| This project writes a test pattern at a specific address range of the SRAM and the SDRAM of the evaluation board SK-MB91460-Main and verifies the data. |
91460_extbus_sram_sdram-v14.zip
|
| This is a demo project shows how to use FLASH Hardware CRC on MB91F469G. |
91460_flash_crc_91469g-v10.zip
|
| This is a demo project showing the usage of FLASH Auto Algrithms on MB91F465K. |
91460_flash_programming_demo_mb91465k-v10.zip
|
| This is a demo project showing the usage of FLASH Auto Algrithms on MB91F467D. |
91460_flash_programming_demo_mb91467d-v16.zip
|
| This is a demo project shows how to place code in the General Purpose RAM of MB91460 series MCUs. |
91460_flash_ram_copy_91467d-v10.zip
|
| This example shows the usage of Input Capture Units and Output compare Units. Input Capture and Output Compare sample with independent calculating for Output Compare 0 and Output Compare 1. Every rising flag of the Input Capture port 0 is setting the timer for both the Output Compare registers. The Input Capture signal is generated by a Reload Timer. Connect pin 10 (P00_0) with pin 122 (ICU 0 Input) of MB91F467D series. Function is monitored on Port P00_0. |
91460_frt_icu_frt_ocu-v10.zip
|
| This project gives an introduction of initializing the i2c interface for 400kHz transmission. |
91460_i2c_400khz-v11.zip
|
| This project gives an introduction of initializing the i2c interface for 400kHz transmission using i2c interrupts. |
91460_i2c_400khz_irq-v10.zip
|
| This example shows how to setup MB91F467D as I2C slave. |
91460_i2c_400khz_irq_slave-v10.zip
|
| This example shows who to measure the frequency with an ICU |
91460_icu-v11.zip
|
| This example shows who to measure the frequency with an ICU |
91460_icu_91465p-v11.zip
|
| This example shows how to relocate the interrupt table. The new table section starts at address 0x00140000. Reload Timer 0 is used for interrupts. Functionality is moinitored with toggling pin state at P25_D0. Please see modified vectors.c file for settings. |
91460_intvect-v10.zip
|
| This project simply counts an internal variable and outputs the counter value to port16. |
91460_io-v12.zip
|
| The delayed interrupt is requested in the interrupt service routine of an external interrupt. |
91460_irq_delayed-v10.zip
|
| An external interrupts control the LEDs of the evaluation board. |
91460_irq_ext-v13.zip
|
| An external interrupts control the LEDs of the evaluation board. |
91460_irq_ext_91465p-v10.zip
|
| This example shows how to use the external interrupts. INT0 and INT1 are used. On interrupt event port25 altenate its level on bit#0 for INT0 and bit#1 for INT1. |
91460_irq_ext_91467d-v10.zip
|
| An external interrupts control the LEDs of the evaluation board. |
91460_irq_ext_91467s-v10.zip
|
| An external interrupts control the LEDs of the evaluation board. |
91460_irq_ext_91467t-v10.zip
|
| The following example shows how External Interrupts can be used to request a stop mode and can wake up the MCU from this mode. External Interrupt 0 is used to wake up the MCU and External Interrupt 1 is used to request a stop mode. Before stop mode "0x0F" is written to Port25, during run mode this Port is counting. |
91460_irq_ext_stop_wakeup-v10.zip
|
| This example demonstrates the usage of a HD44780 compatible LC Display with the SK-91F467d-208PFV or SK-91F467-FLEXRAY Starterkit. |
91460_lcd-v11.zip
|
| This project gives an introduction of initializing the stop mode. |
91460_lpm_stop-v12.zip
|
| This project gives an introduction of initializing the stop mode. The real time clock wakes up the controller periodically. |
91460_lpm_stop_rtc-v13.zip
|
| Demo of the MB91460 Monitor Clock feature |
91460_monclk-v10.zip
|
| The projects enables debugging the mcu with external SRAM. The SWB Monitor Debugger is placed in an external Flash |
91460_mondeb_uart0_mb91461r_v10.zip
|
| The projects enables debugging the mcu replacing the internal Flash with external SRAM. The SWB Monitor Debugger is placed in an external Flash |
91460_mondeb_uart4_extbus_flash_sram-v13.zip
|
| The projects enables debugging the mcu replacing the internal Flash with external SRAM. |
91460_mondeb_uart4_extbus_sram-v13.zip
|
| The projects enables debugging the mcu replacing the internal Flash with external SRAM. The SWB Monitor Debugger is placed in an external Flash |
91460_mondeb_uart4_mb91465p_extbus_flash_sram_16bit-v11.zip
|
| The projects enables debugging the mcu replacing the internal Flash with external SRAM. |
91460_mondeb_uart4_mb91465p_extbus_sram_16bit-v11.zip
|
| The projects enables debugging the mcu replacing the internal Flash with external SRAM. The SWB Monitor Debugger is placed in an external Flash |
91460_mondeb_uart4_mb91467b_extbus_flash_sram_16bit-v10.zip
|
| The projects enables debugging the mcu replacing the internal Flash with external SRAM. |
91460_mondeb_uart4_mb91467b_extbus_sram_16bit-v10.zip
|
| The projects enables debugging the mcu replacing the internal Flash with external SRAM. The SWB Monitor Debugger is placed in an external Flash |
91460_mondeb_uart4_mb91467r_extbus_flash_sram_16bit-v10.zip
|
| The projects enables debugging the mcu replacing the internal Flash with external SRAM. |
91460_mondeb_uart4_mb91467r_extbus_sram_16bit-v10.zip
|
| The projects enables debugging the mcu replacing the internal Flash with external SRAM. The SWB Monitor Debugger is placed in an external Flash |
91460_mondeb_uart4_mb91467s_extbus_flash_sram_16bit-v10.zip
|
| The projects enables debugging the mcu replacing the internal Flash with external SRAM. |
91460_mondeb_uart4_mb91467s_extbus_sram_16bit-v10.zip
|
| The projects enables debugging the mcu replacing the internal Flash with external SRAM. The SWB Monitor Debugger is placed in an external Flash |
91460_mondeb_uart4_mb91467t_extbus_flash_sram_16bit-v10.zip
|
| The projects enables debugging the mcu replacing the internal Flash with external SRAM. |
91460_mondeb_uart4_mb91467t_extbus_sram_16bit-v10.zip
|
| OpenTCP for MB91460 Series MCUs (ADA-FR-ETHERNET) |
91460_opentcp-v10.zip
|
| This example initializes the puls frequency modulator with no interrupt handling. |
91460_pfm-v12.zip
|
| his project demonstrates functionality of PFM module. Here PFM CH 0 is configured to produce 20ms High pulse and PFM1 is configured to produce 100ms. |
91460_pfm2-v10.zip
|
| This example initializes two PPGs with the same period but different duty cycles. |
91460_ppg-v12.zip
|
| This is a PPG4+RLT2-Trigger-project for the MB91467D Series. It initializes Reload Timer 2 and PPG4 in Single Shot Mode. RLT2 triggers PPG4. The Main function sets new Reload Values to show frequency change of the PPG4. |
91460_ppg4_rlt2_trg-v10.zip
|
| ADC0 is initialised with interrupt and ADC conversion is triggered by ReloadTimer7. In ADC0 interrupt routine LEDs are lit. |
91460_ppg_rlt_adc_dma-v10.zip
|
| This Example is for readout of reset cause with R4 or 0x2E500. |
91460_reset_cause-v10.zip
|
| This Example initializes the Reload Timer Project with interrupt handling. |
91460_rlt-v12.zip
|
| This Example initializes the Reload Timer Project with interrupt handling. |
91460_rlt_91465p-v10.zip
|
| This Example initializes the Reload Timer Project with interrupt handling. |
91460_rlt_91467b-v11.zip
|
| This Example initializes the Reload Timer Project with interrupt handling. |
91460_rlt_91467s-v10.zip
|
| This Example initializes the Reload Timer Project with interrupt handling. |
91460_rlt_91467t-v10.zip
|
| 91460_rlt_event_counter Project simply initializes ReloadTimer0 and ReloadTimer 1 ReloadTimer0 is initialised with interrupt handling. Within the of ReloadTimer0 Interrupt service routine active edges counted by ReloadTimer1 is measured. The values is output through UART5 interface. Using a terminal program on PC it is possible to recieve the values. Used UArt settings (19200bd, 8N1). |
91460_rlt_event_counter-v10.zip
|
| This Example uses Reloadtimer and Interrupts to generate a PWM signal. |
91460_rlt_irq-v12.zip
|
| This example sets the real time clock (RTC) and displays the time after every second via UART5 (19200 Baud). The interrupt of the RTC is used. |
91460_rtc_clk_cal_uart_async-v10.zip
|
| This example demonstrates how to initialize the Real Time Clock and how to read the time value in an application without the usage of interrupts. |
91460_rtc_init_read-v10.zip
|
| This example sets the real time clock and displays the time after every second. |
91460_rtc_uart_async-v12.zip
|
| This project shows how to use the stepper motor controller. |
91460_smc-v13.zip
|
| This example shows the control of a stepper motor. |
91460_smc2-v10.zip
|
| This project shows how to use the soundgenerator. |
91460_sound_1-v11.zip
|
| This project shows how to use the soundgenerator. |
91460_sound_2-v12.zip
|
| This example describes how to communicate via SPI using the MB91467-USART with a serial EEPROM. In this note a NM93CS46 EEPROM from National Semiconductor is used. |
91460_spi_eeprom-v10.zip
|
| This is a demo project showing how to enter sub clock run mode. |
91460_subclock_run_mode_91469g-v10.zip
|
| Usage of printf and scanf function |
91460_sw_printf-v10.zip
|
| Accessing the PS register via C-module. |
91460_sw_ps-v11.zip
|
| Relocating the interrupt vecot table by software |
91460_sw_vectortable-v10.zip
|
| This is a project makes used of time base timer to generate interrupt at regular interval. Timer is initialised in such a way that it generated interrupt at every ~65ms. |
91460_tbt_tbc-v10.zip
|
| The following example code shows how to configure the DMAC with the UART2. The DMAC channel 0 is configured in the block transfer 2-cycle mode. Each block transfer would have 1-byte transferred. If the data is received on UART2 receive buffer RDR02 then the DMA channel 0 transfers the same data to the UART2 transmit buffer TDR02. The transfer takes places unless 50 receptions (since the DTC is set as 0x32) or if there is any error in the reception. After DMAC interrupt gets generated and in the ISR DMAC interrupt flag is cleared with 0xFF output to port 16. |
91460_uart2_dma-v10.zip
|
| The following example code shows how to configure the DMAC with the UART2 RECEIVE interrupt. |
91460_uart2_rx_dma-v10.zip
|
| The following example code shows how to configure the DMAC with the UART2 transmit interrupt. |
91460_uart2_tx_dma-v10.zip
|
| This project demonstrates how to configure LIN USART4 TX and RX FIFO. |
91460_uart4_fifo-v10.zip
|
| This is a test application which sends a welcome string via a UART and echoes all received characters. The UART is selectable. |
91460_uart_async-v13.zip
|
| This is a test application which sends a welcome string via a UART and echoes all received characters. The UART is selectable. |
91460_uart_async_91465p-v10.zip
|
| This is a test application which sends a welcome string via a UART and echoes all received characters. The UART is selectable. |
91460_uart_async_91467b-v11.zip
|
| This is a test application which sends a welcome string via a UART and echoes all received characters. The UART is selectable. |
91460_uart_async_91467s-v10.zip
|
| This is a test application which sends a welcome string via a UART and echoes all received characters. The UART is selectable. |
91460_uart_async_91467t-v10.zip
|
| This example shows basic functionality of LIN-Master bus operations with the LIN-UART. |
91460_uart_lin_master-v12.zip
|
| This example shows basic functionality of LIN-Slave bus operations with the LIN-UART. |
91460_uart_lin_slave-v12.zip
|
| This is a SPI Daisy chain (polling master mode) project for the MB91F467D Series. As Slave DS1806 Potentiometer devices are used. |
91460_uart_spi_master_daisychain_ds1806-v10.zip
|
| This is a SPI Daisy chain (polling master mode) project for the MB91F467D Series. As Slave MAX5232 DAC devices are used. |
91460_uart_spi_master_daisychain_max5232-v10.zip
|
| This project gives an introduction of initializing the uart interface for synchronous transmission in master mode. |
91460_uart_spi_master_irq-v13.zip
|
| This project describes the use of the synchronous uart interface (SPI) in master mode with direct memory access. |
91460_uart_spi_master_irq_dma-v13.zip
|
| This project shows how to communicate with a NM93Cs46-EEPROM via UART SPI. |
91460_uart_spi_master_nm93cs46-v13.zip
|
| This project gives an introduction of initializing the uart interface for synchronous transmission with polling master mode. |
91460_uart_spi_master_polling-v13.zip
|
| This project gives an introduction of initializing the uart interface for synchronous transmission. Master and Slave are initialized. |
91460_uart_spi_master_slave-v11.zip
|
| This project gives an introduction of initializing the uart interface for synchronous transmission in slave mode. |
91460_uart_spi_slave_irq-v12.zip
|
| This project describes the use of the synchronous uart interface (SPI) in slave mode with direct memory access. |
91460_uart_spi_slave_irq_dma-v12.zip
|
| Updown Counter 0 is initialised for 8bit Mode. At external interrupt 0 and 1 are configured to generate pulse at AIN and BIN pins using P16_0 and P16_1. And external interrupt 2 is used to toggle ZIN pin using P16_2. Connect AIN to P16_0, BIN to P16_1 and ZIN to P16_2. |
91460_updown_counter-v10.zip
|
