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Texas Instruments |
Multicore Fixed and Floating-Point Digital Signal Processor and Description 1.1 Features • Four TMS320C66x™ DSP Core Subsystems (C66x CorePacs), Each with – 1.0 GHz or 1.25 GHz C66x Fixed/Floating-Point CPU Core › 40 GMAC/Core for Fixed Point @ 1.25 GHz › 20 GFLOP/Core for Floating Point @ 1.25 GHz – Memory |
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Texas Instruments |
Microcontrollers • High-efficiency 32-bit CPU (TMS320C28x) – 60MHz (16.67ns cycle time) – 16 × 16 and 32 × 32 MAC operations – 16 × 16 dual MAC – Harvard bus architecture – Atomic operations – Fast interrupt response and processing – Unified memory programming model |
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Texas Instruments |
Fixed-Point Digital Signal Processor 12 • High-Performance, Low-Power, TMS320C55x™ Fixed-Point Digital Signal Processor – 16.67-, 13.33-, 10-, 8.33-, 6.66-ns Instruction Cycle Time – 60-, 75-, 100-, 120-, 150-MHz Clock Rate – One/Two Instructions Executed per Cycle – Dual Multipliers [U |
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Texas Instruments |
CONTROLLER REMOTE ACCESS IDENTIFICATION 1 – Up to 8-kbit/s LF Uplink Data Rate •2 Wide Supply Voltage Range: 1.8 V to 3.6 V – 5-/3-Byte Challenge/Response Algorithm • Ultralow Power Consumption – Fast Authentication Within 42 ms – CPU Active Mode: 200 μA/MHz at 2.2 V – Fast Mutual A |
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Texas Instruments |
Microcontrollers • High-efficiency 32-bit CPU (TMS320C28x) – 60MHz (16.67ns cycle time) – 16 × 16 and 32 × 32 MAC operations – 16 × 16 dual MAC – Harvard bus architecture – Atomic operations – Fast interrupt response and processing – Unified memory programming model |
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Texas Instruments |
Embedded V.90 Modem DSP , high-performance modem technology, intended for use in embedded systems and similar applications. This highly integrated solution implements a complete modem using only two chips: the TMS320C54V90 DSP with on-chip RAM and ROM, and the Si3016 line-s |
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Texas Instruments |
Real-Time Microcontrollers • High-efficiency 32-bit CPU (TMS320C28x) – 60MHz (16.67ns cycle time) – 16 × 16 and 32 × 32 MAC operations – 16 × 16 dual MAC – Harvard bus architecture – Atomic operations – Fast interrupt response and processing – Unified memory programming model |
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Texas Instruments |
Fixed-Point Digital Signal Processor − Byte-Addressable (8-/16-/32-/64-Bit Data) − 8-Bit Overflow Protection − Bit-Field Extract, Set, Clear − Normalization, Saturation, Bit-Counting D Host-Port Interface (HPI) − User-Configurable Bus Width (32-/16-Bit) D 32-Bit/33-MHz, 3.3-V PCI Maste |
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ETC |
MS3320 |
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Texas Instruments |
8-BIT MICROCONTROLLER – Low-Power Modes: STANDBY and HALT – Commercial, Industrial, and Automotive Temperature Ranges – Clock Options – Divide-by-4 (0.5 MHz – 5 MHz SYSCLK) – Divide-by-1 (2 MHz – 5 MHz SYSCLK) Phase-Locked Loop (PLL) – Supply Voltage (VCC): 5 V ± 10% D Ei |
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Texas Instruments |
8-BIT MICROCONTROLLER – Low-Power Modes: STANDBY and HALT – Commercial, Industrial, and Automotive Temperature Ranges – Clock Options – Divide-by-1 (2 MHz – 5 MHz SYSCLK) PLL – Divide-by-4 (0.5 MHz – 5 MHz SYSCLK) – Supply Voltage (VCC) 5 V ±10% D 16-Bit General-Purpose T |
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Texas Instruments |
Microcontrollers • High-efficiency 32-bit CPU (TMS320C28x) – 60 MHz (16.67-ns cycle time) – 50 MHz (20-ns cycle time) – 40 MHz (25-ns cycle time) – 16 × 16 and 32 × 32 MAC operations – 16 × 16 dual MAC – Harvard bus architecture – Atomic operations – Fast interrupt r |
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ETC |
Washer 8 .894 167 I .003 I .024 169 1.1?9 !.153 I 69 1.254 I .280 170 1.379 I .M8 171 I .504 I .534 WASHER SECIION (%] “AK .,72 ,?09 .250 .293 .334 .487 .583 .680 .776 .8s9 .96$ 1.073 1.265 !.~ss ,.656 1.847 2.036 2.219 ‘1.419 Wh “IN .035 |
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Texas Instruments |
Fixed-Point Digital Signal Processor 12 • High-Performance Fixed-Point DSP (C6454) – 1.39-, 1.17-, and 1-ns Instruction Cycle Time – 720-MHz, 850-MHz, and 1-GHz Clock Rate – Eight 32-Bit Instructions/Cycle – 8000 MIPS/MMACS (16-Bits) – Commercial Temperature [0°C to 90°C] – Extended Tem |
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Texas Instruments |
Real-Time Microcontrollers • TMS320C28x 32-bit CPU – 100 MHz – IEEE 754 single-precision Floating-Point Unit (FPU) – Trigonometric Math Unit (TMU) • 3×-cycle to 4×-cycle improvement for common trigonometric functions versus software libraries • 13-cycle Park transform – Viterb |
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ETC |
HMS30C7202 32-bit ARM7TDMI RISC static CMOS CPU core : Running up to 70 MHz 8Kbytes combined instruction/data cache Memory management unit Supports Little Endian operating system 2Kbytes SRAM for internal buffer memory On-chip peripherals with indiv |
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ETC |
HMS30C7202 32-bit ARM7TDMI RISC static CMOS CPU core : Running up to 70 MHz 8Kbytes combined instruction/data cache Memory management unit Supports Little Endian operating system 2Kbytes SRAM for internal buffer memory On-chip peripherals with indiv |
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ETC |
(HMS38112 / HMS39112) 4-BIT SINGLE CHIP MICROCOMPUTERS The HMS38112 offers the following optional features. These options are masked. • I/O terminals having pull-up resistor : R2 ~ R3 • Input terminals having STOP release mode : K0 ~ K3, R0 ~ R3 • Output form at STOP mode : D4 ~D5 pins “L” or keep before |
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Texas Instruments |
Real-Time Microcontrollers • High-performance static CMOS technology – Up to 150 MHz (6.67-ns cycle time) – 1.9-V/1.8-V core, 3.3-V I/O design • High-performance 32-bit CPU (TMS320C28x) – IEEE 754 single-precision Floating-Point Unit (FPU) (F2833x only) – 16 × 16 and 32 × 32 M |
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Texas Instruments |
Microcontrollers 1 • TMS320C28x 32-Bit CPU – 200 MHz – IEEE 754 Single-Precision Floating-Point Unit (FPU) – Trigonometric Math Unit (TMU) – Viterbi/Complex Math Unit (VCU-II) • Programmable Control Law Accelerator (CLA) – 200 MHz – IEEE 754 Single-Precision Floating |
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Desde 2024. D4U Semiconductor.
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