ATmega168 Automotive
| Flash (Kbytes): | 16 |
| EEPROM (Bytes): | 512 |
| SRAM (Bytes): | 1024 |
| Max I/O Pins: | 23 |
| F.max (MHz): | 16 |
| Vcc (V): | 2.7 - 5.5 |
| : | TQFP 32 VQFN (Sawn) 32 |
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16KB self-programming Flash Program Memory, 1024 byte SRAM, 512 Byte EEPROM, 8 Channel 10-bit A/D-converter(TQFP/MLF). debugWIRE On-chip Debug System. Up to 16 MIPS throughput at 16 MHz.
4KB version: ATmega48 Automotive
8KB version: ATmega88 Automotive
32KB version: ATmega328P Automotive
Note: all of our kits use industrial product versions.
Industrial Versions: ATmega48PA,
ATmega88PA,
ATmega168PA,
ATmega328P
 | Appendix A - ATmega88/168 Auto spec at 150°C (19 pages, revision H, updated 2/10) | |
| ATmega48/88/168 Automotive (340 pages, revision I, updated 2/10) | |
| AVR191: Anti-Pinch Algorithm Adaptation Procedure (10 pages, revision A, updated 11/06) The purpose of this document is to explain how to adapt an anti-pinch algorithm to a specified powered window. | |
|  | AVR447:Sinusoidal driving of three-phase permanent magnet motor using ATmega48/88/168 (26 pages, revision A, updated 6/06) This application note describes the implementation of sinusoidal driving for threephase brushless DC motors with hall sensors. The implementation can easily be modified to use other driving waveforms such as sine wave with third harmonic injected. |
| | AVR480: Anti-Pinch System for Power Window using tinyAVR and megaAVR devices (19 pages, revision B, updated 12/06) This application note provides an example of how to create an anti-pinch system for power windows. Based on Speed and Current parameters measured out of the window DC motor, it supports the FMVSS118 and 20/64/ECC standards. |
| AVR181: Automotive Grade0 - PCB and Assembly Recommendations (8 pages, revision A, updated 9/07) This paper is a collection of technical advice aiming at providing automotive electronic designers elements to manage high temperature constraints when addressing the PCB development. | |
| AVR140: ATmega48/88/168 family run-time calibration of the Internal RC oscillator (12 pages, revision A, updated 9/06) This application note describes how to calibrate the internal RC oscillator via the UART. The method used is based on the calibration method used in the Local Inteconnect Network (LIN) protocol. | |
| | AVR317: Using the USART on the ATmega48/88/168 as a SPI master (10 pages, revision A, updated 9/04) Some applications might need more than one SPI module. This can be achieved using the new Master SPI Mode of the ATmega48/88/168 USART. |
Other Related Application Notes | Atmel Motor Driver Solutions (Brochure, 16 pages, revision A, updated 10/08) | |
| Automotive Solutions (Brochure, 20 pages, revision H, updated 3/10) | |
| Automotive Solutions (Chinese Version) (Brochure, 20 pages, revision H, updated 3/10) | |
| AVR and AVR32 - Quick Reference Guide (Overview, 68 pages, revision I, updated 5/09) Introduction of the product range of AVR and AVR32 microcontrollers and application processors:
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| AVR Microcontrollers for Automotive (Brochure, 14 pages, revision G, updated 2/10) | |
| AVR Microcontrollers for Automotive (Chinese Version) (Brochure, 14 pages, revision G, updated 2/10) | |
| Development Platform Evaluation Kit for Automotive Applications (Article, 4 pages, updated 10/09) | |
| Switch Matrix Module Design Using LIN SiPs ATA6612/13 (Article, 4 pages, updated 10/09) | |
Debugger: | AVR JTAGICE mkII |
| AVRAUTO102 | |
Design Software: | AVR Studio 4 |
Evaluation Kit: | ATAVRAUTOEK1 |
Mature: | Mature AVR ISP In-System Programmer |
Starter Kit: | STK500 |
| STK600 | |
Software Files: | Vector LIN 2.1 Stack for AVR devices |
Related Applications |
Automotive |
