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ATMEGA128-16AU Microcontrollers: Datasheet, Pinout, Circuit [FAQ]

  • Contents

Product Overview

The Atmel® AVR® core combines a rich instruction set with 32 general purpose working registers. All the 32 registers are directly connected to the Arithmetic Logic Unit (ALU), allowing two independent registers to be accessed in one single instruction executed in one clock cycle. The resulting architecture is more code efficient while achieving throughputs up to ten times faster than conventional CISC microcontrollers.

 

This blog will introduce ATMEGA128-16AU systematically from its features, pinout to its specifications, applications, also including ATMEGA128-16AU datasheet and so much more.

 

Catalog

Product Overview

ATMEGA128-16AU Features

ATMEGA128-16AU Pinout

ATMEGA128-16AU CAD Models

ATMEGA128-16AU Circuit Diagram

ATMEGA128-16AU Block Diagram

ATMEGA128-16AU Package

ATMEGA128-16AU Specification

ATMEGA128-16AU Manufacturer

ATMEGA128-16AU Datasheet

Using Warnings

ATMEGA128-16AU FAQ

 

ATMEGA128-16AU Features

  • High-performance, Low-power Atmel®AVR®8-bit Microcontroller
  • Advanced RISC Architecture

– 133 Powerful Instructions – Most Single Clock Cycle Execution

– 32 x 8 General Purpose Working Registers + Peripheral Control Registers

– Fully Static Operation

– Up to 16MIPS Throughput at 16MHz

– On-chip 2-cycle Multiplier

  • High Endurance Non-volatile Memory segments

– 128Kbytes of In-System Self-programmable Flash program memory

– 4Kbytes EEPROM

– 4Kbytes Internal SRAM

– Write/Erase cycles: 10,000 Flash/100,000 EEPROM

– Data retention: 20 years at 85°C/100 years at 25°C(1)

– Optional Boot Code Section with Independent Lock Bits

In-System Programming by On-chip Boot Program

True Read-While-Write Operation

– Up to 64Kbytes Optional External Memory Space

– Programming Lock for Software Security

– SPI Interface for In-System Programming

  • QTouch® library support

– Capacitive touch buttons, sliders and wheels

– QTouch and QMatrix acquisition

– Up to 64 sense channels

  • JTAG (IEEE std. 1149.1 Compliant) Interface

– Boundary-scan Capabilities According to the JTAG Standard

– Extensive On-chip Debug Support

– Programming of Flash, EEPROM, Fuses and Lock Bits through the JTAG Interface

  • Peripheral Features

– Two 8-bit Timer/Counters with Separate Prescalers and Compare Modes

– Two Expanded 16-bit Timer/Counters with Separate Prescaler, Compare Mode and Capture Mode

– Real Time Counter with Separate Oscillator

– Two 8-bit PWM Channels

– 6 PWM Channels with Programmable Resolution from 2 to 16 Bits

– Output Compare Modulator

– 8-channel, 10-bit ADC

8 Single-ended Channels

7 Differential Channels

2 Differential Channels with Programmable Gain at 1x, 10x, or 200x

– Byte-oriented Two-wire Serial Interface

– Dual Programmable Serial USARTs

– Master/Slave SPI Serial Interface

– Programmable Watchdog Timer with On-chip Oscillator

– On-chip Analog Comparator

  • Special Microcontroller Features

– Power-on Reset and Programmable Brown-out Detection

– Internal Calibrated RC Oscillator

– External and Internal Interrupt Sources

– Six Sleep Modes: Idle, ADC Noise Reduction, Power-save, Power-down, Standby, and Extended Standby

– Software Selectable Clock Frequency

– ATmega103 Compatibility Mode Selected by a Fuse

– Global Pull-up Disable

  • I/O and Packages

– 53 Programmable I/O Lines

– 64-lead TQFP and 64-pad QFN/MLF

  • Operating Voltages

– 2.7 - 5.5V ATmega128L

– 4.5 - 5.5V ATmega128

  • Speed Grades

– 0 - 8MHz ATmega128L

– 0 - 16MHz ATmega128

 

ATMEGA128-16AU Pinout

The following figure is the diagram of ATMEGA128-16AU pinout.

 

ATMEGA128-16AU Pinout

ATMEGA128-16AU Pinout

 

ATMEGA128-16AU CAD Models

The following are ATMEGA128-16AU Symbol, Footprint, and 3D Model.

 

ATMEGA128-16AU Symbol

ATMEGA128-16AU Symbol

 

ATMEGA128-16AU Footprint

ATMEGA128-16AU Footprint

 

ATMEGA128-16AU 3D Model

ATMEGA128-16AU 3D Model

 

ATMEGA128-16AU Circuit Diagram

The following is the circuit diagram of ATMEGA128-16AU.

 

ATMEGA128-16AU Circuit Diagram

ATMEGA128-16AU Circuit Diagram

 

ATMEGA128-16AU Block Diagram

The following figure shows the block diagram of ATMEGA128-16AU

 

ATMEGA128-16AU Block Diagram

ATMEGA128-16AU Block Diagram

 

ATMEGA128-16AU Package

The following diagram shows the ATMEGA128-16AU package.

 

ATMEGA128-16AU Package

ATMEGA128-16AU Package

 

ATMEGA128-16AU Specification

Product Attribute Attribute Value
Manufacturer: Microchip
Product Category: 8-bit Microcontrollers - MCU
Series: ATmega128
Mounting Style: SMD/SMT
Package / Case: TQFP-64
Core: AVR
Program Memory Size: 128 kB
Data Bus Width: 8 bit
ADC Resolution: 10 bit
Maximum Clock Frequency: 16 MHz
Number of I/Os: 53 I/O
Data RAM Size: 4 kB
Supply Voltage - Min: 4.5 V
Supply Voltage - Max: 5.5 V
Minimum Operating Temperature: - 40 C
Maximum Operating Temperature: + 85 C
Packaging: Tray
Analog Supply Voltage: 2.7 V to 5.5 V
Brand: Microchip Technology / Atmel
Data RAM Type: SRAM
Data ROM Size: 4 kB
Data ROM Type: EEPROM
Height: 1 mm
I/O Voltage: 2.7 V to 5.5 V
Interface Type: I2C, JTAG, SPI, USART
Length: 14 mm
Moisture Sensitive: Yes
Number of ADC Channels: 8 Channel
Number of Timers/Counters: 4 Timer

 

ATMEGA128-16AU Manufacturer

Atmel Corporation is a global leader in designing, manufacturing and marketing advanced semiconductors including microcontroller (MCU), programmable logic, and nonvolatile memory. By combining these core technologies, Atmel meets the evolving and growing needs of today's electronic system design engineer through the production of general purpose and application specific system level integrated chips. Atmel's world class expertise and wealth of experience in system-level integration enable all of Atmel's products to be developed from their constituent blocks with minimum delay and risk.

 

ATMEGA128-16AU Datasheet

You can download ATMEGA128-16AU datasheet from the link given below:

ATMEGA128-16AU Datasheet

 

Using Warnings

Note: Please check their parameters and pin configuration before replacing them in your circuit.

 

ATMEGA128-16AU FAQ

What are 8-bit microcontrollers used for?

8-bit MCUs can implement an ultra-low-power platform that includes the complete signal chain for applications such as personal blood pressure monitors, pulsoximeters, and heart rate monitors. Remote patient monitoring is also a growing trend, using devices with integrated RF/ZigBee or Wi-Fi interfaces and transceivers.

 

What is an 8-bit microcontroller?

The term “8-bit” generally refers to the bit-width of the CPU; thus, an 8-bit microcontroller contains an 8-bit CPU. This means that internal operations are done on 8-bit numbers, stored variables are in 8-bit blocks, and external I/O (inputs/outputs) is accessed via 8-bit busses.

 

What is difference between 8bit and 16bit microcontroller?

8-bit microcontrollers have lower clock speeds but are more reliable. 16-bit microcontrollers offer double the clock speed but are less reliable. 8-bit microcontrollers are less efficient than 16-bit microcontrollers. Compared to 8-bit microcontrollers, 16-bit microcontrollers are more efficient.

 

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