No. | Partie # | Fabricant | Description | Fiche Technique |
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ATMEL Corporation |
Programmable FIR Filter |
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ATMEL Corporation |
High- Performance Digital Camera Processor • • • • • • • • • • • • • • • • • • • • • • • • DSP Functions for CCD/CMOS Image Processing Baseline JPEG Compression/Decompression MPEG-1 Encode/Decode at 24 fps QVGA Compatible with Various Types of Display Devices Video Encoder Including Line Driv |
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ATMEL Corporation |
Chip Set Solution for Watt-Hour Meters • Fulfills IEC 1036, Class 1 Accuracy Requirements • Fulfills IEC 687, Class 0.5 and Class 0.2 Accuracy, with External Temperature • • • • • • • • • • • Compensated Voltage Reference Simultaneous Active, Reactive and Apparent Power and Energy Measure |
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ATMEL Corporation |
Chip Set Solution for Watt-Hour Meters • Fulfills IEC 1036, Class 1 Accuracy Requirements • Fulfills IEC 687, Class 0.5 and Class 0.2 Accuracy, with External Temperature • • • • • • • • • • • Compensated Voltage Reference Simultaneous Active, Reactive and Apparent Power and Energy Measure |
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ATMEL Corporation |
Smart Internet Appliance Processor • ARM7TDMI® ARM® Thumb® Processor Core – In-Circuit Emulator, 40 MHz operation • 16-bit Fixed-point OakDSPCore® • • • • • • • • • • • • – Up to 60 MHz operations – 104K bytes of Integrated Fast RAM, Codec Interface Ethernet Bridge – Dual Ethernet 10 |
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ATMEL Corporation |
DVD/CD Read Channel • • • • Operating Supply Range 3.0V to 3.6V Power Dissipation 1W Max Low-power Sleep Mode (<0.5 mW) RF Data Channel – Automatic Gain Control or Programmable Gain Mode – Wide Bandwidth VGA – VGA Accepts Inputs from 30 –300 mV Peak-to-peak Differential |
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ATMEL Corporation |
FingerChip Thermal Fingerprint Sweep Sensor • • • • • • • • • • • • • • Thermal Sensitive Layer Over a 0.35 µm CMOS Array Image Zone: 0.4 x 11.6 mm Image Array: 8 × 232 = 1856 Pixels Pixel Pitch: 50 × 50 µm = 500 dpi Resolution On-chip 8-bit Analog to Digital Converter Serial Peripheral Interf |
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ATMEL Corporation |
4-port Layer 2 Unmanaged Switched Ethernet Controller • • • • • • • • • • 4 10/100M Ethernet MII Ports Meet Fast Ethernet Requirements Provides Packets Switching Function Between 4 Ethernet Ports Crossbar Switching Engine Performs Switching at Wire Speed Full/Half Duplex Mode Interface Supported Flow Co |
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ATMEL Corporation |
Spindle/VCM Motor Controller/Drivers • • • • • • • • • • Operates from Single Supply: 3.3V Small Footprint 64-Pin TQFP Package or Flip Chip Precision Low-voltage Monitor Circuitry for the Power Supply Master Power on Reset Serial Port Interface with Read-back Capability Over-temperature |
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ATMEL Corporation |
High-speed (48 MHz) AVR- based Bridging Device • Advanced RISC Architecture, 130 Powerful Instructions, Most Single Clock Cycle Execution • JTAG (IEEE Std. 1149.1 Compliant) Interface – Boundary-scan Capabilities According to the JTAG Standard – Extensive On-chip Debug Support • Clock Generator |
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ATMEL Corporation |
DVD/CD Servo • Servo Processing Unit (SPU), Using Dedicated 16-bit Instruction Cycle AVR® RISC • • • • • • • • • • • • • • • • • • • • • Cores (3), Giving 120 MIPS Maximum Processing Power with 40 MHz SYSCLK SPU Includes 17 x 17 Single-clock Cycle MAC On-chip Deb |
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ATMEL |
Power Management • • • • • • • DC to DC Converter 1.9V / 2.5V (DCDC1) LDO Regulator 2.7V / 2.8V (LDO1) LDO Regulator 2.8V (LDO2) LDO Regulator 2.8V (LDO3) LDO Regulator 2.47V / 2.66 (LDO4) - Backup Battery Supply LDO Regulator 1.72V / 2.66 (LDO5) - RTC Supply Reset G |
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ATMEL |
Power Management and Analog Companions • DCw/DwCw.SDtaetapS-uhepeCt4oUn.cvoemrter (BOOST) 3.3V to 5.2V, 1A, up to 90% Efficiency. Can be Used as BUCK/BOOST in SEPIC Configuration • DC/DC Step-down (BUCK) Synchronous Converter 0.9V to 3.4V, 500mA, up to 90% Efficiency, Pulse Skipping Capab |
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ATMEL |
Power Management and Analog Companions • DCw/DwCw.SDtaetapS-uhepeCt4oUn.cvoemrter (BOOST) 3.3V to 5.2V, 1A, up to 90% Efficiency. Can be Used as BUCK/BOOST in SEPIC Configuration • DC/DC Step-down (BUCK) Synchronous Converter 0.9V to 3.4V, 500mA, up to 90% Efficiency, Pulse Skipping Capab |
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ATMEL |
Power Management and Analog Companions • DCw/DwCw.SDtaetapS-uhepeCt4oUn.cvoemrter (BOOST) 3.3V to 5.2V, 1A, up to 90% Efficiency. Can be Used as BUCK/BOOST in SEPIC Configuration • DC/DC Step-down (BUCK) Synchronous Converter 0.9V to 3.4V, 500mA, up to 90% Efficiency, Pulse Skipping Capab |
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ATMEL |
Power Management and Analog Companions • DCw/DwCw.SDtaetapS-uhepeCt4oUn.cvoemrter (BOOST) 3.3V to 5.2V, 1A, up to 90% Efficiency. Can be Used as BUCK/BOOST in SEPIC Configuration • DC/DC Step-down (BUCK) Synchronous Converter 0.9V to 3.4V, 500mA, up to 90% Efficiency, Pulse Skipping Capab |
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ATMEL |
Power Management and Analog Companions • DCw/DwCw.SDtaetapS-uhepeCt4oUn.cvoemrter (BOOST) 3.3V to 5.2V, 1A, up to 90% Efficiency. Can be Used as BUCK/BOOST in SEPIC Configuration • DC/DC Step-down (BUCK) Synchronous Converter 0.9V to 3.4V, 500mA, up to 90% Efficiency, Pulse Skipping Capab |
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ATMEL |
Power Management and Analog Companions • DCw/DwCw.SDtaetapS-uhepeCt4oUn.cvoemrter (BOOST) 3.3V to 5.2V, 1A, up to 90% Efficiency. Can be Used as BUCK/BOOST in SEPIC Configuration • DC/DC Step-down (BUCK) Synchronous Converter 0.9V to 3.4V, 500mA, up to 90% Efficiency, Pulse Skipping Capab |
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ATMEL |
Power Management and Analog Companions • DCw/DwCw.SDtaetapS-uhepeCt4oUn.cvoemrter (BOOST) 3.3V to 5.2V, 1A, up to 90% Efficiency. Can be Used as BUCK/BOOST in SEPIC Configuration • DC/DC Step-down (BUCK) Synchronous Converter 0.9V to 3.4V, 500mA, up to 90% Efficiency, Pulse Skipping Capab |
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ATMEL |
Power Management and Analog Companions • DCw/DwCw.SDtaetapS-uhepeCt4oUn.cvoemrter (BOOST) 3.3V to 5.2V, 1A, up to 90% Efficiency. Can be Used as BUCK/BOOST in SEPIC Configuration • DC/DC Step-down (BUCK) Synchronous Converter 0.9V to 3.4V, 500mA, up to 90% Efficiency, Pulse Skipping Capab |
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