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Microchip Technology 89LP series Microcontrollers

Introduction, stock information and FAQs of 89LP series Microcontrollers

In this post, you will learn features, applications, PDF datasheets, substitute products and the latest stock and pricing information of Microchip Technology 89LP series Microcontrollers.

Applications

Industrial transport (non-car & non-light truck)
Lighting
Medical

Associated Products

Part Number	Description	Stock	RFQ
AT89LP51RD2-20AAU	MCU 8-bit AT89 8051 CISC 64KB Flash 2.5V/3.3V/5V 44-Pin LQFP Tray	8	RFQ
AT89LP51ID2-20JU	8-bit Microcontrollers - MCU 64KB 20MHz 2.4V-5.5V	32	RFQ
AT89LP51ED2-20PU	8-bit Microcontrollers - MCU 64KB 20MHz 2.4V-5.5V	0	BUY
AT89LP51ED2-20MU	8-bit Microcontrollers - MCU 64KB 20MHz 2.4V-5.5V	7	RFQ
AT89LP52-20PU	8-bit Microcontrollers - MCU Single-Cycle 8051 8K ISP Flash MCU	2	RFQ
AT89LP213-20XU	8-bit Microcontrollers - MCU SINGLE CYCLE 2K ISP FLASH 2.4-5.5V	9	BUY
AT89LP2052-20PU	MCU, 8BIT, 8051, 2K FLASH, 20PDIP	2430	RFQ
AT89LP4052-20SU	MCU, 8BIT, 8051, 4K FLASH, 20SOIC	730	RFQ
AT89LP428-20PU	MCU 8051 4K FLASH SPI 28PDIP	496	RFQ
AT89LP428-20AU	MCU 8051 4K FLASH SPI 32TQFP	38	RFQ
AT89LP2052-20SU	MCU, 8BIT, 8051, 2K FLASH, 20SOIC	31	RFQ
AT89LP3240-20JU	IC MCU 8BIT 32KBFLASH 44PLCC	38	RFQ
AT89LP51IC2-20MU	IC MCU 8BIT 32KB FLASH 44VQFN	49	BUY
AT89LP6440-20PU	IC MCU 8BIT 64KB FLASH 40PDIP	36	RFQ
AT89LP3240-20PU	IC MCU 8BIT 32KBFLASH 40DIP	36	RFQ
AT89LP51RC2-20MU	IC MCU 8BIT 32KB FLASH 44VQFN	20	RFQ
AT89LP51RC2-20AU	8-bit Microcontrollers - MCU Single-Cycle 805132K ISP Flash,2.4-5.5V	49	RFQ
AT89LP51ED2-20AAU	8-bit Microcontrollers - MCU 64KB 20MHz 2.4V-5.5V	20	RFQ
AT89LP4052-16PI	IC MCU 8BIT 4KB FLASH 20DIP	0	RFQ
AT89LP4052-16PU	IC MCU 8BIT 4KB FLASH 20DIP	0	RFQ

Technical Documents

Description

The Microchip Technology 89LP series microcontrollers are a family of 8-bit microcontrollers designed for low-power applications. They feature a wide range of peripherals, including analog-to-digital converters, pulse-width modulation, and serial communication interfaces. The 89LP series is designed to provide a low-cost, low-power solution for embedded applications. The 89LP series is available in a variety of packages, including DIP, SOIC, and QFN, and is supported by a wide range of development tools.

Features

• 8-bit core with up to 32K Flash program memory

• Up to 2K RAM

• Up to 32 I/O pins

• Up to 8 channels of 10-bit A/D converter

• Up to 4 channels of 8-bit PWM

• Up to 4 channels of 16-bit timer/counter

• Up to 4 channels of UART

• Up to 4 channels of SPI

• Up to 4 channels of I2C

• Up to 4 channels of CAN

• Up to 4 channels of LIN

• Up to 4 channels of USB

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Frequently Asked Questions

What are the Alternative Products of Microchip Technology 89LP series Microcontrollers?

1. Atmel AVR ATmega Series Microcontrollers 2. NXP LPC Series Microcontrollers 3. STMicroelectronics STM32 Series Microcontrollers 4. Texas Instruments MSP430 Series Microcontrollers 5. Renesas RX Series Microcontrollers 6. Silicon Labs EFM32 Series Microcontrollers 7. Cypress PSoC Series Microcontrollers 8. Freescale Kinetis Series Microcontrollers 9. Infineon XMC Series Microcontrollers 10. Microchip PIC Series Microcontrollers

What are the differences between the types of Microchip Technology 89LP series Microcontrollers?

The Microchip Technology 89LP series Microcontrollers are available in three different types: 8-bit, 16-bit, and 32-bit.   The 8-bit microcontrollers are the most basic and are designed for low-cost, low-power applications. They are typically used in consumer electronics, automotive, and industrial applications. They have a limited amount of memory and are not suitable for more complex applications.  The 16-bit microcontrollers are more powerful than the 8-bit microcontrollers and are designed for more complex applications. They have more memory and are capable of running more complex algorithms. They are typically used in industrial, medical, and automotive applications.  The 32-bit microcontrollers are the most powerful of the three types and are designed for high-performance applications. They have the most memory and are capable of running complex algorithms. They are typically used in industrial, medical, and automotive applications.