The maximum operating temperature range for the LPC1113FBD48/302 is -40°C to +85°C, as specified in the datasheet. However, it's recommended to operate within the recommended operating temperature range of -20°C to +70°C for optimal performance and reliability.
The clock settings for the LPC1113FBD48/302 can be configured using the SYSCON registers. The internal RC oscillator can be used as the clock source, or an external clock source can be used. The clock frequency can be divided using the clock divider registers. Refer to the datasheet and the LPC11xx user manual for more information.
The maximum current consumption of the LPC1113FBD48/302 depends on the operating frequency, voltage, and peripherals used. According to the datasheet, the maximum current consumption is around 13.5 mA at 48 MHz with all peripherals enabled. However, this value can be reduced by using power-saving modes and optimizing the system design.
The ADC on the LPC1113FBD48/302 is a 10-bit successive approximation ADC. It can be configured using the ADC registers. The ADC can be triggered using a software trigger or an external trigger. The ADC conversion result can be read from the ADC result registers. Refer to the datasheet and the LPC11xx user manual for more information.
Yes, the LPC1113FBD48/302 can be used with an external crystal oscillator. The external crystal oscillator can be connected to the XTALIN and XTALOUT pins. The crystal oscillator frequency can be set using the SYSCON registers. Refer to the datasheet and the LPC11xx user manual for more information.
LPC1113FBD48/302 datasheet
by NXP Semiconductors
