| ATmega88 Automotive |
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8K byte self-programming Flash Program Memory, 1K Byte SRAM, 256 Byte EEPROM, 8 Channel 10-bit A/D-converter(TQFP/MLF). debugWIRE On-chip Debug System. Up to 16 MIPS throughput at 16 MHz.
See datasheet for automotive ordering codes.
4Kbyte version: ATmega48 Automotive
16Kbyte version: ATmega168 Automotive
Note: all our kits are using industrial product versions.
Industrial Versions
ATmega48
ATmega88
ATmega168
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| Flash (Kbytes) |
8 |
| EEPROM (Kbytes) |
0.5 |
| SRAM (Bytes) |
1024 |
| Max I/O Pins |
23 |
| F.max (MHz) |
16 |
| Vcc (V) |
2.7 - 5.5 |
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TQFP 32
VQFN (Sawn) 32
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More |
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Appendix B - ATmega88 Automotive Specification at 1.8V Preliminary
(10 pages, revision B, updated 07/09)
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ATmega48/88/168 Automotive
(341 pages, revision H, updated 2/09)
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ATmega88/168 Automotive - 150°C Specification - Appendix A
(19 pages, revision G, updated 7/09)
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ATA6824 and ATmega88
(13 pages, revision A, updated 8/07)
DC Motor Control in High Temperature Environment
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ATA6831/ATA6832 Fully Integrated BLDC Motor Control from the Signal Generation to the Full BLDC Moto
(17 pages, revision A, updated 3/07)
The purpose of this document is to explain the theory and application of Atmel’s integrated
BLDC driver solution.
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AVR191: Anti-Pinch Algorithm for AVR 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.
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AVR042: AVR Hardware Design Considerations
(14 pages, revision F, updated 4/08)
This Application Note covers the most common problems encountered when switching to a new microcontroller architecture like the AVR. Solutions and considerations for the most common design challenges are covered.
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AVR181: Automotive Grade0 - PCB and Assembly Recommendations
(8 pages, revision A, updated 09/07)
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.
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AVR140: ATmega48/88/168 family run-time calibration of the Internal RC oscillator
(12 pages, revision A, updated 09/06)
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, synchronizing a slave node to a master node at the
beginning of every message frame.
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 Other Related Application Notes |
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ATAVRAUTO102 |
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AVR JTAGICE mkII |
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See more FAQs |
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ATA6612/13 LIN System-in-Package Solution with LIN Transceiver, Voltage Regulator, Watchdog, and AVR
(Flyer, 2 pages, revision A, updated 2/08)
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Atmel Motor Driver Solutions
(Brochure, 16 pages, revision A, updated 10/08)
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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:
- Device family description
- Key features
- Device selection guides
- Application oriented device families
- Tools offer
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AVR Instruction Set
(User Guide, 155 pages, revision H, updated 7/09)
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AVR Microcontrollers for Automotive
(Brochure, 12 pages, revision F, updated 10/08)
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Switch Matrix Module Design Using LIN SiPs ATA6612/13
(Article, 4 pages, updated 10/09)
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Touch Solutions
