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ATMEL |
AT91SAM ARM-based Embedded MPU the frequently demanded combination of user interface functionality and high data rate connectivity, including LCD controller, resistive touchscreen, camera interface, audio, Ethernet 10/100 and high speed USB and SDIO. With the processor running at |
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ATMEL |
USB DFU Bootloader • USB Protocol – Based on the USB DFU class – Autobaud (8/16 MHz crystal) • In-System Programming – Read/Write Flash and EEPROM on-chip memories – Read Device ID – Full chip Erase – Start application command • In-Application Programming – Software En |
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ATMEL |
Three-wire Serial EEPROM • Low-voltage and Standard-voltage Operation – 2.7 (VCC = 2.7V to 5.5V) – 1.8 (VCC = 1.8V to 5.5V) • User-selectable Internal Organization – 2K: 256 x 8 or 128 x 16 – 4K: 512 x 8 or 256 x 16 • Three-wire Serial Interface • Sequential Read Operation • |
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ATMEL |
Three-wire Serial EEPROM • Low-voltage and Standard-voltage Operation – 2.7 (VCC = 2.7V to 5.5V) – 1.8 (VCC = 1.8V to 5.5V) • User-selectable Internal Organization – 2K: 256 x 8 or 128 x 16 – 4K: 512 x 8 or 256 x 16 • Three-wire Serial Interface • Sequential Read Operation • |
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ATMEL |
Microcontroller • High performance, low power AVR® 8-bit Microcontroller • Advanced RISC architecture – 135 powerful instructions – most single clock cycle execution – 32 × 8 general purpose working registers – Fully static operation – Up to 16MIPS throughput at 16M |
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ATMEL Corporation |
8-Bit Microcontroller • High-performance and Low-power AVR® 8-bit RISC Architecture – 118 Powerful Instructions – Most Single Cycle Execution – 32 x 8 General Purpose Working Registers – Up to 8 MIPS Throughput at 8 MHz • Data and Non-volatile Program Memory – 4K Bytes of |
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ATMEL |
Microcontroller • Utilizes the AVR® RISC Architecture • AVR – High-performance and Low-power RISC Architecture – 89 Powerful Instructions – Most Single Clock Cycle Execution – 32 x 8 General Purpose Working Registers – Up to 12 MIPS Throughput at 12 MHz • Data and N |
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ATMEL Corporation |
Secure Microcontroller General • High-performance, Low-power secureAVR Core Enhanced RISC Architecture • • • • • • • – 135 Powerful Instructions (Most Executed in a Single Clock Cycle) Bond Pad Locations Conforming to ISO 7816-2 ESD Protection to ± 6000V Operating Ranges: |
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ATMEL Corporation |
Secure Microcontroller General • • • • • • • High-performance, Low-power secure AVR® Enhanced RISC Architecture – 135 Powerful Instructions (Most Executed in a Single Clock Cycle) Low Power Idle and Power-down Modes Bond Pad Locations Conforming to ISO 7816-2 ESD Protectio |
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ATMEL |
Trusted Platform Module Compliant to the Trusted Computing Group (TCG) Trusted Platform Module (TPM) Version 1.2 Specification Single-chip Turnkey Solution Hardware Asymmetric Crypto Engine Atmel AVR® RISC Microprocessor Internal EEPROM Storage for RSA Keys 400k |
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ATMEL Corporation |
8-Bit Microcontroller • High-performance and Low-power AVR® 8-bit RISC Architecture – 118 Powerful Instructions – Most Single Cycle Execution – 32 x 8 General Purpose Working Registers – Up to 8 MIPS Throughput at 8 MHz • Data and Non-volatile Program Memory – 4K Bytes of |
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ATMEL |
8-bit Microcontroller • AVR® – High-performance and Low-power RISC Architecture – 118 Powerful Instructions – Most Single Clock Cycle Execution – 32 x 8 General-purpose Working Registers – Up to 8 MIPS Throughput at 8 MHz • Data and Nonvolatile Program Memories – 8K Bytes |
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ATMEL |
8-bit Microcontroller • AVR® – High-performance and Low-power RISC Architecture – 118 Powerful Instructions – Most Single Clock Cycle Execution – 32 x 8 General-purpose Working Registers – Up to 8 MIPS Throughput at 8 MHz • Data and Nonvolatile Program Memories – 8K Bytes |
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ATMEL |
8-bit Microcontroller • AVR® - High-performance and Low-power RISC Architecture – 118 Powerful Instructions - Most Single Clock Cycle Execution – 32 x 8 General Purpose Working Registers – Up to 8 MIPS Throughput at 8 MHz • Data and Nonvolatile Program Memories – 4K/8K By |
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ATMEL |
Microcontroller • High performance, low power AVR® 8-bit Microcontroller • Advanced RISC architecture – 135 powerful instructions – most single clock cycle execution – 32 × 8 general purpose working registers – Fully static operation – Up to 16MIPS throughput at 16M |
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ATMEL |
Secure 5K - 40K Gates of AT40K FPGA • Multichip Module Containing Field Programmable System Level Integrated Circuit (FPSLIC®) and Secure Configuration EEPROM Memory • 512 Kbits to 1 Mbit of Configuration Memory with Security Protection and In-System Programming (ISP) • Field Programma |
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ATMEL |
Secure 5K - 40K Gates of AT40K FPGA • Multichip Module Containing Field Programmable System Level Integrated Circuit (FPSLIC®) and Secure Configuration EEPROM Memory • 512 Kbits to 1 Mbit of Configuration Memory with Security Protection and In-System Programming (ISP) • Field Programma |
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ATMEL |
5K - 40K Gates of AT40K FPGA • Monolithic Field Programmable System Level Integrated Circuit (FPSLIC®) – AT40K SRAM-based FPGA with Embedded High-performance RISC AVR® Core, Extensive Data and Instruction SRAM and JTAG ICE • 5,000 to 40,000 Gates of Patented SRAM-based AT40K FPG |
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ATMEL Corporation |
8-Bit Microcontroller • Utilizes the AVR® RISC Architecture • AVR – High-performance and Low-power RISC Architecture – 118 Powerful Instructions – Most Single Clock Cycle Execution – 32 x 8 General Purpose Working Registers – Up to 10 MIPS Throughput at 10 MHz • Data and |
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ATMEL Corporation |
8-Bit Microcontroller with 8K bytes In-System Programmable Flash • Utilizes the AVR® RISC Architecture • AVR – High-performance and Low-power RISC Architecture – 118 Powerful Instructions – Most Single Clock Cycle Execution – 32 x 8 General-purpose Working Registers – Up to 8 MIPS Throughput at 8 MHz Data and Nonv |
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Desde 2024. D4U Semiconductor.
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