JTS83102G0-1V1B - 10-bit 2 GSPS ADCthis State-of-the-art 10-bit 2 GSPS Converter Offers an Unprecedented Bandwidth of 3.3 GHZ and Excellent Band Flatness, Allowing to Directly Digitize Very High if Signals (2nd and 3rd Nyquist Zones) With High Linearity : The SFDR Remains in The -55 DBFS Range at 2 GSPS / 2 GHZ Input Frequency. Along With Atmel TS81102G0 Demultiplexer it is The Perfect Solution For Upgrading Radars, Wide-band Receivers or High-end Instrumentation Systems.
MMC9-65608EV-30 - Rad. Tolerant 128K x 8 Very Low Power 5V CMOS SRAM
MMC9-65608EV-30-E - Rad. Tolerant 128K x 8 Very Low Power 5V CMOS SRAM
MMC9-65608EV-45 - Rad. Tolerant 128K x 8 Very Low Power 5V CMOS SRAM
MMDJ-65608EV-30 - Rad. Tolerant 128K x 8 Very Low Power 5V CMOS SRAM
MMDJ-65608EV-30-E - Rad. Tolerant 128K x 8 Very Low Power 5V CMOS SRAM
MMDJ-65608EV-45 - Rad. Tolerant 128K x 8 Very Low Power 5V CMOS SRAM
MMFR-29C516E-31SB - 16 Bit Flow Through EDAC Error Detection and Correction unit
MMK2-67025EV-30 - Rad. Tolerant High Speed 8 Kb x 16 Dual Port RAM
MMK2-67025EV-30-E - Rad. Tolerant High Speed 8 Kb x 16 Dual Port RAM
MMK2-67025EV-45 - Rad. Tolerant High Speed 8 Kb x 16 Dual Port RAM
MMKR-29C516E-31SB - 16 Bit Flow Through EDAC Error Detection and Correction unit
OAKDSPCORE - Embedded Digital Signal Processing Core
Ordering - 8-bit Microcontroller with 256K Bytes In-System Programmable FlashFeatures• High Performance, Low Power AVR® 8-Bit Microcontroller• Advanced RISC Architecture– 135 Powerful Instructions – Most Single Clock Cycle Execution– 32 x 8 General Purpose Working Registers– Fully Static Operation– Up to 16 MIPS Throughput at 16 MHz– On-Chip 2-cycle Multiplier• Non-volatile Program and Data Memories– 64K/128K/256K Bytes of In-System Self-Programmable FlashEndurance: 10,000 Write/Erase Cycles– Optional Boot Code Sectio
PC7447A - 32-bit Risc Microprocessor, 1300 MHZ The PC7447A Host Processor isA High-performance, Low-power, 32-bit Implementationsof The Powerpc Reduced Instruction Set Computer (RISC) Architecture Combined WithA Full 128-bit Implementation of Motorola S Altivec Technology.this Microprocessor is Ideal For Leading-edge Embedded Computing and Signal Processingapplications. The PC7447A Features 512 KB of On-chip L2 Cache. The PC7447A Microprocessor Has no Backside L3 Cache, Allowing ForA Smaller Package Designed as a
RE023 - Embedded Asic Macrocell: Power Management For Mobile Terminals (pm), Re023 Fixed 2.6v 160 Ma Ldo Voltage Regulator
RE024 - a Dual Mode Low Drop Out (LDO) Voltage Regulator Macrocell WithA Fixed 2.8V Output Voltage, Rated For Loads of up to 160 ma and as Low as 5 MA.A Typical Application is Radio Section Supply in Mobile Terminals.
RE025 - a Low Drop Out (LDO) Voltage Regulator Macrocell With Programmable 2.8V or 2.9V Output Voltages, Rated For Loads of up to 30 MA.A Typical Application is Radio Section Supply in Mobile Terminals.
RE027 - a Low Drop Out (LDO) Voltage Regulator Macrocell WithA Fixed 2.8V Output Voltage, Rated For Loads of up to 130 MA.A Typical Application is Radio Section Supply in Mobile Terminals.
RE028 - The RE028 isA Low Drop Out (LDO) Voltage Regulator Macrocell WithA Fixed 4.5V Output Voltage, Rated For Loads up to 300 MA. it is Designed to Supply Radio Frequency Synthesizers and Used asA Controller For The Antenna Switch.
RE029 - a Dual Mode Low Drop Out (LDO) Voltage Regulator Macrocell WithA Fixed 1.8V Output Voltage, Rated For Loads of up to 80 ma and as Low as 5 MA.A Typical Application is Baseband Memory in Mobile Terminals.
RE030 - isA Dual Mode Low Drop Out (LDO) Voltage Regulator Macrocell With Programmable Output Voltage Ranging From 1.75V to 2.1V, Rated For Loads up to 180 ma in Full Power Mode and 5 ma in Low Power Mode. it is Designed to be Integrated With Other Analog Cells, Digital Logic, Microcontrollers, DSP Cores and Memory Blocks Into System-on-chip Products.
RE031 - a Dual Mode Low Drop Out (LDO) Voltage Regulator Macrocell WithA Fixed 2.5V Output Voltage, Rated For Loads of up to 5 MA.A Typical Application is Real-time Clock, Backup Battery Supply in Mobile Terminals.