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品牌:Microchip Atmel
类别:ATmega系列单片机
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品牌:Microchip Atmel
类别:ATmega系列单片机
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品牌:Microchip Atmel
类别:ATmega系列单片机
-
品牌:Microchip Atmel
类别:ATmega系列单片机
-
品牌:Microchip Atmel
类别:ATmega系列单片机
ATMEGA164P-A15AZ
- 品牌:Microchip Atmel
- 包装:Tape & Reel (TR)
- 无铅情况/ROHS: 有铅
- 经营商:科通芯城自营
- 描述:8-bit Automotive AVR Microcontroller, 16KB ISP Flash
- 封装:TQFP ML 44
- 类别:ATmega系列单片机
| 参数 | 数值 |
|---|---|
| 核心处理器 | AVR |
| Temp. Sensor | No |
| ADC Speed (ksps) | 15 |
| External Bus Interface | 0 |
| Input Capture Channels | 1 |
| FPU | No |
| Crypto Engine | No |
| CPU | 8-bit AVR |
| Output Compare channels | 6 |
| PWM Channels | 6 |
| 32kHz RTC | Yes |
| Video Decoder | No |
| ADC channels | 8 |
| Calibrated RC Oscillator | Yes |
| 系列 | AVR® ATmega |
| NAND Interface | No |
| 芯体尺寸 | 8-Bit |
| 速度 | 16MHz |
| RAM容量 | 1K x 8 |
| 程序存储器类型 | FLASH |
| 程序存储器容量 | 16KB (16K x 8) |
| EEPROM 大小 | 512 x 8 |
| 输入/输出数 | 32 |
| 振荡器型 | Internal |
| 数据转换器 | A/D 8x10b |
| 连通性 | I²C, SPI, UART/USART |
| 工作电压 | 2.7 V ~ 5.5 V |
| 工作温度 | -40°C ~ 125°C |
| 周边设备 | Brown-out Detect/Reset, POR, PWM, WDT |
| Pin Count | 44 |
| DAC Resolution (bits) | 0 |
| UART | 2 |
| SPI | 3 |
| Ext Interrupts | 32 |
| Self Program Memory | YES |
| picoPower | Yes |
| Timers | 3 |
| I/O Supply Class | 2.7 to 5.5 |
| ADC Resolution (bits) | 10 |
| # of Touch Channels | 16 |
| DRAM Memory | No |
| USB Interface | No |
| Hardware QTouch Acquisition | No |
| Resistive Touch Screen | No |
| Operating Voltage (Vcc) | 2.7 to 5.5 |
| Analog Comparators | 1 |
| Temp. Range (deg C) | -40 to 125 |
| Camera Interface | No |
| Graphic LCD | No |
| Max. Operating Frequency | 16 MHz |
| EEPROM (Bytes) | 512 |
| Flash (Kbytes) | 16 Kbytes |
| TWI (I2C) | 1 |
| MPU / MMU | no / no |
| SRAM (Kbytes) | 1 |
| Max I/O Pins | 32 |
| USB Speed | No |
The high-performance, low-power Atmel AVR RISC-based CMOS 8-bit microcontroller combines 16K ISP flash memory with read-while-write capabilities, 512B EEPROM, 1KB SRAM, 32 general purpose I/O lines, 32 general purpose working registers, real time counter, three flexible timer/counters with compare modes and PWM, 2 USARTs, a byte oriented 2-wire serial interface, an 8-channel/10-bit A/D converter with optional differential input stage with programmable gain, programmable watchdog timer with internal oscillator, SPI serial port, a JTAG (IEEE 1149.1 compliant) test interface for on-chip debugging and programming, and six software selectable power saving modes. By executing powerful instructions in a single clock cycle, the device achieves throughputs approaching 1 MIPS per MHz, balancing power consumption and processing speed.
| 序号 | 描述 | |
|---|---|---|
| 1 | 文档(Document) | BLDC Motor Control: Using Atmel AVR Microcontrollers |
| 2 | 文档(Document) | AVR32: High-throughput 32-bit Microcontroller Architecture Addresses the Automotive Challenge of Tom |
| 3 | 文档(Document) | BLDC Motor Control for High-temperature Applications |
| 4 | 文档(Document) | Development Platform Evaluation Kit for Automotive Applications |
| 5 | 文档(Document) | LED Automotive Lighting |
| 6 | 文档(Document) | Micro Stepping: A Smoother Way of Life |
| 7 | 文档(Document) | RF Design Considerations for Passive Entry Systems |
| 8 | 文档(Document) | The Atmel FlexRay Evaluation and Development Platform |
| 9 | 文档(Document) | BLDC Motor Control: Using Atmel AVR Microcontrollers |
| 10 | 文档(Document) | AVR32: High-throughput 32-bit Microcontroller Architecture Addresses the Automotive Challenge of Tom |
| 11 | 文档(Document) | BLDC Motor Control for High-temperature Applications |
| 12 | 文档(Document) | Development Platform Evaluation Kit for Automotive Applications |
| 13 | 文档(Document) | LED Automotive Lighting |
| 14 | 文档(Document) | Micro Stepping: A Smoother Way of Life |
| 15 | 文档(Document) | RF Design Considerations for Passive Entry Systems |
| 16 | 文档(Document) | The Atmel FlexRay Evaluation and Development Platform |
| 序号 | 描述 | |
|---|---|---|
| 1 | 文档(Document) | ATmega32M1 on MC320 BLDC/BLAC Motor Control Using a Sinus Moulated PWM Algorithm with Atmel ATmega32M1 |
| 2 | 文档(Document) | Atmel AVR32027: Mixing Assembly and C with AVRGCC This application note describes how to mix both C and assembly code in an AVRGCC project using Studio 6 IDE. The application note is written from the perspective that C is the language of choice and assembly language is included in situations where it is either necessary or convenient. |
| 3 | 文档(Document) | AVR191: Anti-Pinch Algorithm Adaptation Procedure The purpose of this document is to explain how to adapt an anti-pinch algorithm to a specified powered window. |
| 4 | 文档(Document) | AVR505: Migration from ATmega16/32 to ATmega164P/324P/644(P) This Application Note describes differences to be aware of when migrating from the ATmega16/32 to the ATmega164P/324P/644(P) Microcontroller. |
| 5 | 文档(Document) | AVR926: Using ATmega88 and ATA6824 for DC motor control in high temperature environment DC Motor Control in High Temperature Environment |
| 6 | 文档(Document) | AVR927: Using ATmega88 and ATA6832 for BLDC motor control in high temperature environment The purpose of this document is to explain the theory and application of Atmel's integrated BLDC driver solution. |
| 7 | 文档(Document) | AVR105: Power efficient high endurance parameter storage in tinyAVR and megaAVR devices Flash memory This application note describes how to implement a high endurance parameter storage method in Flash memory using the self-programming feature of the AVR. |
| 8 | 文档(Document) | AVR230: DES Bootloader on tinyAVR and megaAVR devices This application note describes how firmware can be updated securely on microcontrollers with bootloader capabilities, using the Data Encryption Standard (DES) or triple DES to encrypt the firmware. |
| 9 | 文档(Document) | AVR244: UART as ANSI Terminal Interface This application note describes some basic routines to interface an AVR microcontroller to a terminal window using the UART (hardware or software). |
| 10 | 文档(Document) | AVR307: Half Duplex UART Using the USI Module on tinyAVR and megaAVR devices The Universal Serial Interface (USI) present in 8-bit AVR devices like the ATtiny26, ATtiny2313, and ATmega169, is a communication module designed for TWI and SPI communication, but can also be used for UART communication as well. |
| 11 | 文档(Document) | ATmega32M1 on MC320 BLDC/BLAC Motor Control Using a Sinus Moulated PWM Algorithm with Atmel ATmega32M1 |
| 12 | 文档(Document) | Atmel AVR32027: Mixing Assembly and C with AVRGCC This application note describes how to mix both C and assembly code in an AVRGCC project using Studio 6 IDE. The application note is written from the perspective that C is the language of choice and assembly language is included in situations where it is either necessary or convenient. |
| 13 | 文档(Document) | AVR191: Anti-Pinch Algorithm Adaptation Procedure The purpose of this document is to explain how to adapt an anti-pinch algorithm to a specified powered window. |
| 14 | 文档(Document) | AVR505: Migration from ATmega16/32 to ATmega164P/324P/644(P) This Application Note describes differences to be aware of when migrating from the ATmega16/32 to the ATmega164P/324P/644(P) Microcontroller. |
| 15 | 文档(Document) | AVR926: Using ATmega88 and ATA6824 for DC motor control in high temperature environment DC Motor Control in High Temperature Environment |
| 16 | 文档(Document) | AVR927: Using ATmega88 and ATA6832 for BLDC motor control in high temperature environment The purpose of this document is to explain the theory and application of Atmel's integrated BLDC driver solution. |
| 17 | 文档(Document) | AVR105: Power efficient high endurance parameter storage in tinyAVR and megaAVR devices Flash memory This application note describes how to implement a high endurance parameter storage method in Flash memory using the self-programming feature of the AVR. |
| 18 | 文档(Document) | AVR230: DES Bootloader on tinyAVR and megaAVR devices This application note describes how firmware can be updated securely on microcontrollers with bootloader capabilities, using the Data Encryption Standard (DES) or triple DES to encrypt the firmware. |
| 19 | 文档(Document) | AVR244: UART as ANSI Terminal Interface This application note describes some basic routines to interface an AVR microcontroller to a terminal window using the UART (hardware or software). |
| 20 | 文档(Document) | AVR307: Half Duplex UART Using the USI Module on tinyAVR and megaAVR devices The Universal Serial Interface (USI) present in 8-bit AVR devices like the ATtiny26, ATtiny2313, and ATmega169, is a communication module designed for TWI and SPI communication, but can also be used for UART communication as well. |
| 序号 | 描述 | |
|---|---|---|
| 1 | 文档(Document) | ATmega164P, ATmega324P, ATmega644P Automotive Complete |
| 2 | 文档(Document) | ATmega164P, ATmega324P, ATmega644P Automotive Complete |
| 序号 | 描述 | |
|---|---|---|
| 1 | 文档(Document) | Automotive Compilation |
| 2 | 文档(Document) | Automotive Solutions |
| 3 | 文档(Document) | Automotive Solutions (Chinese Version) |
| 4 | 文档(Document) | AVR Microcontrollers for Automotive |
| 5 | 文档(Document) | Automotive Compilation |
| 6 | 文档(Document) | Automotive Solutions |
| 7 | 文档(Document) | Automotive Solutions (Chinese Version) |
| 8 | 文档(Document) | AVR Microcontrollers for Automotive |
| 序号 | 描述 | |
|---|---|---|
| 1 | 文档(Document) | AVR and AVR32 - Quick Reference Guide Introduction of the product range of AVR and AVR32 microcontrollers and application processors:
|
| 2 | 文档(Document) | AVR and AVR32 - Quick Reference Guide Introduction of the product range of AVR and AVR32 microcontrollers and application processors:
|
| 序号 | 描述 | |
|---|---|---|
| 1 | 文档(Document) | Innovative Techniques for Extremely Low Power Consumption with 8-bit Microcontrollers This white paper highlight some of the challenges of modern microcontroller design and how the new picoPower™ techniques used in the AVR microcontroller is addressing them. |
| 2 | 文档(Document) | Next-Generation IDE: Maximizing IP Reuse |
| 3 | 文档(Document) | Innovative Techniques for Extremely Low Power Consumption with 8-bit Microcontrollers This white paper highlight some of the challenges of modern microcontroller design and how the new picoPower™ techniques used in the AVR microcontroller is addressing them. |
| 4 | 文档(Document) | Next-Generation IDE: Maximizing IP Reuse |
Automotive: 微控制器, 网络连接
