document

Abstract:
This document describes how to put the MCU into Power-down mode to save power and provides one example to wake up the MCU via USB activity.

Abstract:
This application note describes the CAN controller hardware application programming interface driver routines for the CAN controller of Philips LPC2000. Also provides the demo project developed under KEIL uVision3 with ARM tools ADS1.2, using evaluation board MCB210. This demo used UART0 for communication with PC, and print CAN communication information with Hyper terminal.

Provides initialization steps, hints for reducing power consumption and code examples that would get the LPC2000 device ready for the target application

Abstract:
Provides information on reducing current consumption from Vbat while the ARM7 core is in the active mode of operation.

Abstract: Philips Semiconductors family of bus controllers is detailed in this application note. PCA9564 device operation, software and hardware methodology and typical applications are discussed.

Abstract 8-bit tri-color LED demonstration board description, features and operation modes are discussed. Source code in C language, containing
communication routines between an 80C51-core microcontroller + PCA9564 and the I2C slave devices is provided: keypad control, LED control / color mixing.

Abstract: The operation and description of the UART serial interface through USB is discussed in this application note. In addition, the firmware application code in C language, containing communication routines of the UART serial interface through USB is provided.

Abstract: The article describes the design of the fan controller, which adopts P89LPC917 design to control five fans. The controller may independently or simultaneously control the operation of several fans according to the environmental temperature, promising to provide intelligent and flexible responsive control over the abnormality of multiple kinds of operation. The PWM and AD functions of P89LPC917 make it able to realize multiple control curves precisely hence applicable to multiple control environment.

Abstract: Low battery measurement with the LPC900 using the comparators.

Abstract: This appnote describes how to use the 2-wire debug interface on the LPC952 for programming and emulation. The LPC952 is programmed on an MCB950 development board using the FS2 System Navigator debugger. The information that is needed to accomplish the programming and debugging are described step by step in detail in this appnote.