NXP Tech Blog

nxf47831 · ‎01-17-2019

New features update:

SDKGEN-724 Set different log level for "internal" projects.

"Internal" examples, like some library projects, are not released. Therefore some attributes like "brief" and "version" are not required strictly. The generator has downgraded the log level from error to warning. In production mode, they won’t break down the cmd run.

dishapatil14941 · ‎01-14-2019

Using SDK drivers for LPC845 Breakout Board, this project measures the ambient light intensity by using LDR (Light Dependent Resistor). The voltage values from LDR are read through an ADC. The new LPC845 Breakout board has an SDK support which makes it a lot easier to interface an LDR for measuring light intensity compared to the conventional coding style. I have used the MCUXpresso IDE for modifying the pins and clock configuration settings.

DishaPatil · ‎01-14-2019

The new LPC845 breakout board has 3 onboard LEDs- Red, Green, and Blue. The brightness of these LEDs can be controlled using a PWM signal by changing the duty cycle values for each of them. As this board has an SDK support, I have used the SDK drivers to implement this application.

DishaPatil · ‎01-14-2019

I have built an application to interface an accelerometer with the new LPC845 Breakout board using the I2C SDK driver.

The accelerometer acts as an I2C slave device to the LPC845 master device. Colors on the on-board RGB LED change according to the accelerometer position.

The accelerometer is a slave device in this application with slave address: 0x1D. The position of the board is determined by the x,y,z-axis values obtained from this slave device. The change in these x,y,z values detects the movement of the LPC845 Breakout board. I have assigned various patterns to the RGB LEDs for each movement along the y-axis.

dishapatil14941 · ‎01-14-2019

I have built an application to interface an accelerometer with the new LPC845 Breakout board using the I2C SDK driver.

The accelerometer acts as an I2C slave device to the LPC845 master device. Colors on the on-board RGB LED change according to the accelerometer position.

The accelerometer is a slave device in this application with slave address: 0x1D. The position of the board is determined by the x,y,z-axis values obtained from this slave device. The change in these x,y,z values detects the movement of the LPC845 Breakout board. I have assigned various patterns to the RGB LEDs for each movement along the y-axis.

DishaPatil · ‎01-14-2019

Using SDK drivers for LPC845 Breakout Board, this project measures the ambient light intensity by using LDR (Light Dependent Resistor). The voltage values from LDR are read through an ADC. The new LPC845 Breakout board has an SDK support which makes it a lot easier to interface an LDR for measuring light intensity compared to the conventional coding style. I have used the MCUXpresso IDE for modifying the pins and clock configuration settings.

dishapatil14941 · ‎01-14-2019

The new LPC845 breakout board has 3 onboard LEDs- Red, Green, and Blue. The brightness of these LEDs can be controlled using a PWM signal by changing the duty cycle values for each of them. As this board has an SDK support, I have used the SDK drivers to implement this application.

NXP Tech Blog

NXP Tech Blog

Generator Update 1.18

Light intensity measurement using the new LPC845

Controlling LPC845 Breakout Board LED brightness using SDK Drivers

Accelerometer controlled LED for LPC845 Breakout using SDK drivers

Accelerometer controlled LED for new LPC845 using SDK driver

Light intensity measurement using the new LPC845 Breakout Board

Control on-board LED brightness using SDK Drivers

101: Controller Area Network (CAN) standard

PyeIQ - A Python Framework for eIQ on i.MX Processors

Overview of using the MIMXRT1050-EVK(B) with MCUXpresso IDE