The LPC1500 microcontroller series are optimized for fast, easy, and high-precision motor control and incorporate all the features required for high-accuracy sensored and sensorless motor control, enabling simultaneous control of two motors in highly flexible configurations. Based on the ARM Cortex-M3 processor, the LPC1500 microcontroller series has two 12-bit, 12-channel, 2 Msps ADCs and an on-chip quadrature encoder interface (QEI) to enable highly accurate control of both sensored and sensorless motor combinations. Four on-chip comparators enable fast-response over-current/voltage monitoring and protection; and four flexible SCTimer/PWM timers provide up to 28 PWM channels in a tightly coupled analog and timing subsystem, with minimal load on the CPU. Ideal for use with a wide range of brushless DC (BLDC) motors, permanent-magnet synchronous motors (PMSM), and AC induction motors (ACIM) commonly found in products such as large home appliances, HVAC, industrial pumps and generators, and more. They are also well suited for industrial applications requiring high-precision data sampling and real-time control, such as digital power and instrumentation. The LPC1500 series of microcontrollers are fully supported by the LPC software ecosystem and an extensive collection of tools, drivers and middleware. With ultra-efficient motor control firmware, easy-to-use GUI-based tuning tools, and two new motor control solution kits, NXP LPC1500 microcontrollers simplify evaluation and development of motor control applications, without requiring deep motor control experience.
ARM Cortex-M3 processor, running at frequencies of up to 72 MHz.
ARM Cortex-M3 built-in Nested Vectored Interrupt Controller (NVIC).
System tick timer.
Serial Wire Debug (SWD) with four breakpoints and two watchpoints.
Single-cycle multiplier supported.
Memory Protection Unit (MPU) included.
Up to 256 kB on-chip flash programming memory with 256 Byte page write anderase.
Up to 36 kB SRAM
4 kB EEPROM.
ROM API support:
Boot loader with boot options from flash or external source via USART, C_CAN, orUSB
Power profiles and power mode configuration with low-power mode configurationoption
Flash In-Application Programming (IAP) and In-System Programming (ISP).
Simple DMA engine with 18 channels and 20 programmable input triggers.
High-speed GPIO interface with up to 44 General-Purpose I/O (GPIO) pins withconfigurable pull-up/pull-down resistors, open-drain mode, input inverter, andprogrammable digital glitch filter.
GPIO interrupt generation capability with boolean pattern-matching feature on eightexternal inputs.
Two GPIO grouped port interrupts.
Switch matrix for flexible configuration of each I/O pin function.
Quadrature Encoder Interface (QEI).
Configurable PWM/timer/motor control subsystem:
Up to four 32-bit counter/timers or up to eight 16-bit counter/timers or combinationsof 16-bit and 32-bit timers.
Up to 28 match outputs and 22 configurable capture inputs with input multiplexer.
Dither engine for improved average resolution of pulse edges.
Four State Configurable Timers (SCTimers) for highly flexible, event-driven timingand PWM applications.
SCT Input Pre-processor Unit (SCTIPU) for processing timer inputs and immediatehandling of abort situations
Integrated with ADC threshold compare interrupts, temperature sensor, and analogcomparator outputs for motor control feedback using analog signals.
Special-application and simple timers:
24-bit, four-channel, multi-rate timer (MRT) for repetitive interrupt generation at upto four programmable, fixed rates.
Repetitive interrupt timer for general purpose use and use with debugtime-stamping.
Windowed Watchdog timer (WWDT).
High-resolution 32-bit Real-time clock (RTC) with selectable 1 s or 1 ms timeresolution running in the always-on power domain. RTC can be used for wake-upfrom all low power modes including Deep power-down.
Two 12-bit ADC with up to 12 input channels per ADC and with multiple internaland external trigger inputs and sample rates of up to 2 Msamples/s. Each ADCsupports two independent conversion sequences. ADC conversion clock can bethe system clock or an asynchronous clock derived from one of the three PLLs.
One 12-bit DAC.
Integrated temperature sensor and band gap internal reference voltage.
Four comparators with external and internal voltage references (ACMP0 to 3).Comparator outputs are internally connected to the SCTimer/PWMs and ADCs andexternally to pins. Each comparator output contains a programmable glitch filter.
Three USART interfaces with DMA, RS-485 support, autobaud, and withsynchronous mode and 32 kHz mode for wake-up from Deep-sleep andPower-down modes. The USARTs share a fractional baud-rate generator.
Two SPI controllers.
One I²C-bus interface supporting fast mode and Fast-mode Plus with data rates ofup to 1Mbit/s and with multiple address recognition and monitor mode.