Hello,
In the download-index is a new Kernel XIPVYB_CE6Core_V2.9_181009 available.
Hello,
In the download-index is a new Kernel XIPVYB_CE6Core_V2.9_181009 available.
PicoCOMA9X Windows Release V1.10
After a while, we released a new standard access for the Board PicoCOMA9X.
NBoot: nbootimx6sx_32.bin
EBoot: ebootIMX6SX_13.nb0
Kernel: W13: XIPiMX6SX_C8E_V110_180131.bin W7: XIPiMX6SX_C7E_V1 10_180124.bin
Fixed bugs from parent Version
We tested different port and there availability
CAN
We tested the availability with a test program named CanCheck.
With that program, we sent and received CAN notification with different IDs and data.
ETHERNET
To check if the Ethernet works correctly, we copied a file with different data inside, from Desktop PC to the root directory via FTP.
I2C
With a specific I2C test program, we sent different instructions to the board.
Those instructions turned the LEDs on the I2C Extension Kit on and off.
We tested the I2C with three different frequencies: 50000, 100000 and 400000.
I2S
To test the I2S functionality, we heard some soundfiles and wav-data from the board.
Also we set the volume on the board.
LCD
We controlled with a visual check, if the color and position of the screen are right.
PWM
With a program we adjust the PWM in different periods: 500ns, 1ms and 2ms.
We tested it with a mark-space ratio from 1%, 25%, 50%, 75% and 99%.
PWM (BL_CTRL)
The PWM BL_CTRL is responsible for the background light.
With “contrast set” we set different brightness on the display.
RTC
To test the RTC, we set the board to a different time and date.
After that we saved the new time setting and put the board away from his electric circuit.
A few minutes later, we pulled the board on his electric circuit back and checked if the time and date doesn’t changed.
SD CARD
With a program, we wrote some text data on the SD Card and copy it to the Desktop PC.
We compare both data (SD Card and FTP) and checked if they are the same.
SPI
By testing the SPI, we put together the MISO and MOSI Pin.
With a test program we sent and received data.
Every data had a different frequency and mode.
UART
We connected RxD and TxD together, so we can send and receive data with a test program.
The transmitted and received data should have the same number of bytes.
USB HOST
With a program, we wrote some text data on the USB Stick and copy it to the Desktop PC.
We compare both data (USB Stick and FTP) and checked if they are the same.
FSVYBRID Windows 7 Release V2.8
For a while, we released a new standard access for the Board PicoCOMA5.
NBoot: nbootvyb_14.bin
EBoot: EBOOTVYB_15.nb0
Kernel: XIPVYB_C7E_V2.8_171206.bin
Fixed bugs from parent Version
We tested different port and there availability
CAN
We tested the availability with a test program named CanCheck.
With that program, we sent and received CAN notification with different IDs and data.
ETHERNET
To check if the Ethernet works correctly, we copied a file with different data inside, from Desktop PC to the root directory via FTP.
I2C
With a specific I2C test program, we sent different instructions to the board.
Those instructions turned the LEDs on the I2C Extension Kit on and off.
We tested the I2C with three different frequencies: 50000, 100000 and 400000.
I2S
To test the I2S functionality, we heard some soundfiles and wav-data from the board.Also we set the volume on the board.
LCD
We controlled with a visual check, if the color and position of the screen are right.
PWM
With a program we adjust the PWM in different periods: 500ns, 1ms and 2ms.
We tested it with a mark-space ratio from 1%, 25%, 50%, 75% and 99%.
PWM (BL_CTRL)
The PWM BL_CTRL is responsible for the background light.
With “contrast set” we set different brightness on the display.
RTC
To test the RTC, we set the board to a different time and date.
After that we saved the new time setting and put the board away from his electric circuit.
A few minutes later, we pulled the board on his electric circuit back and checked if the time and date doesn’t changed.
SD CARD
With a program, we wrote some text data on the SD Card and copy it to the Desktop PC.
We compare both data (SD Card and FTP) and checked if they are the same.
SPI
By testing the SPI, we put together the MISO and MOSI Pin.
With a test program we sent and received data.
Every data had a different frequency and mode.
UART
We connected RxD and TxD together, so we can send and receive data with a test program.
The transmitted and received data should have the same number of bytes.
USB HOST
With a program, we wrote some text data on the USB Stick and copy it to the Desktop PC.
We compare both data (USB Stick and FTP) and checked if they are the same.
FSVYBRID Windows 7 Release V2.8
For a while, we released a new standard access for the Board NetDCUA5.
NBoot: nbootvyb_14.bin
EBoot: EBOOTVYB_15.nb0
Kernel: XIPVYB_C7E_V2.8_171206.bin
Fixed bugs from parent Version
We tested different port and there availability
CAN
We tested the availability with a test program named CanCheck.
With that program, we sent and received CAN notification with different IDs and data.
ETHERNET
To check if the Ethernet works correctly, we copied a file with different data inside, from Desktop PC to the root directory via FTP.
I2C
With a specific I2C test program, we sent different instructions to the board.
Those instructions turned the LEDs on the I2C Extension Kit on and off.
We tested the I2C with three different frequencies: 50000, 100000 and 400000.
I2S
To test the I2S functionality, we heard some soundfiles and wav-data from the board.
Also we set the volume on the board.
LCD
We controlled with a visual check, if the color and position of the screen are right.
PWM
With a program we adjust the PWM in different periods: 500ns, 1ms and 2ms.
We tested it with a mark-space ratio from 1%, 25%, 50%, 75% and 99%.
PWM (BL_CTRL)
The PWM BL_CTRL is responsible for the background light.
With “contrast set” we set different brightness on the display.
RTC
To test the RTC, we set the board to a different time and date.After that we saved the new time setting and put the board away from his electric circuit.
A few minutes later, we pulled the board on his electric circuit back and checked if the time and date doesn’t changed.
SD CARD
With a program, we wrote some text data on the SD Card and copy it to the Desktop PC.
We compare both data (SD Card and FTP) and checked if they are the same.
SPI
By testing the SPI, we put together the MISO and MOSI Pin.
With a test program we sent and received data.
Every data had a different frequency and mode.
UART
We connected RxD and TxD together, so we can send and receive data with a test program.
The transmitted and received data should have the same number of bytes.
USB HOST
With a program, we wrote some text data on the USB Stick and copy it to the Desktop PC.
We compare both data (USB Stick and FTP) and checked if they are the same.
FSVYBRID Windows 7 Release V2.8
For a while, we released a new standard access for the Board armStoneA5.
NBoot: nbootvyb_14.bin
EBoot: EBOOTVYB_15.nb0
Kernel: XIPVYB_C7E_V2.8_171206.bin
Fixed bugs from parent Version
We tested different port and there availability
CAN
We tested the availability with a test program named CanCheck.
With that program, we sent and received CAN notification with different IDs and data.
ETHERNET
To check if the Ethernet works correctly, we copied a file with different data inside, from Desktop PC to the root directory via FTP.
I2C
With a specific I2C test program, we sent different instructions to the board.
Those instructions turned the LEDs on the I2C Extension Kit on and off.
We tested the I2C with three different frequencies: 50000, 100000 and 400000.
I2S
To test the I2S functionality, we heard some soundfiles and wav-data from the board.
Also we set the volume on the board.
LCD
We controlled with a visual check, if the color and position of the screen are right.
PWM
With a program we adjust the PWM in different periods: 500ns, 1ms and 2ms.
We tested it with a mark-space ratio from 1%, 25%, 50%, 75% and 99%.
PWM (BL_CTRL)
The PWM BL_CTRL is responsible for the background light.
With “contrast set” we set different brightness on the display.
RTC
To test the RTC, we set the board to a different time and date.
After that we saved the new time setting and put the board away from his electric circuit.
A few minutes later, we pulled the board on his electric circuit back and checked if the time and date doesn’t changed.
SD CARD
With a program, we wrote some text data on the SD Card and copy it to the Desktop PC.
We compare both data (SD Card and FTP) and checked if they are the same.
SPI
By testing the SPI, we put together the MISO and MOSI Pin.
With a test program we sent and received data.
Every data had a different frequency and mode.
UART
We connected RxD and TxD together, so we can send and receive data with a test program.
The transmitted and received data should have the same number of bytes.
USB HOST
With a program, we wrote some text data on the USB Stick and copy it to the Desktop PC.
We compare both data (USB Stick and FTP) and checked if they are the same.
efusA9X Windows Release V1.10
Some time ago, we released a new standard access for the Board efusA9X.
NBoot: nbootimx6sx_32.bin
EBoot: ebootIMX6SX_13.nb0
Kernel: W13: XIPiMX6SX_C8E_V110_180131.bin W7: XIPiMX6SX_C7E_V1 10_180124.bin
Fixed bugs from parent Version
We tested different port and there availability
CAN
We tested the availability with a test program named CanCheck.
With that program, we sent and received CAN notification with different IDs and data.
ETHERNET
To check if the Ethernet works correctly, we copied a file with different data inside, from Desktop PC to the root directory via FTP.
I2C
With a specific I2C test program, we sent different instructions to the board.
Those instructions turned the LEDs on the I2C Extension Kit on and off.
We tested the I2C with three different frequencies: 50000, 100000 and 400000.
I2S
To test the I2S functionality, we heard some soundfiles and wav-data from the board.
Also we set the volume on the board.
LCD
We controlled with a visual check, if the color and position of the screen are right.
PWM
With a program we adjust the PWM in different periods: 500ns, 1ms and 2ms.
We tested it with a mark-space ratio from 1%, 25%, 50%, 75% and 99%.
PWM (BL_CTRL)
The PWM BL_CTRL is responsible for the background light.
With “contrast set” we set different brightness on the display.
RTC
To test the RTC, we set the board to a different time and date.
After that we saved the new time setting and put the board away from his electric circuit.
A few minutes later, we pulled the board on his electric circuit back and checked if the time and date doesn’t changed.
SD CARD
With a program, we wrote some text data on the SD Card and copy it to the Desktop PC.
We compare both data (SD Card and FTP) and checked if they are the same.
SPI
By testing the SPI, we put together the MISO and MOSI Pin.
With a test program we sent and received data.
Every data had a different frequency and mode.
UART
We connected RxD and TxD together, so we can send and receive data with a test program.
The transmitted and received data should have the same number of bytes.
USB HOST
With a program, we wrote some text data on the USB Stick and copy it to the Desktop PC.
We compare both data (USB Stick and FTP) and checked if they are the same.