Please enter a valid full or partial manufacturer part number with a minimum of 3 letters or numbers

    CORTEX A15 CORE Search Results

    CORTEX A15 CORE Result Highlights (5)

    Part ECAD Model Manufacturer Description Download Buy
    TMPM3HMFYAFG Toshiba Electronic Devices & Storage Corporation Arm Cortex-M3 Core Based Microcontroller/32bit/P-LQFP80-1212-0.50-003 Visit Toshiba Electronic Devices & Storage Corporation
    TMPM3HPFYADFG Toshiba Electronic Devices & Storage Corporation Arm Cortex-M3 Core Based Microcontroller/32bit/P-LQFP128-1420-0.50-001 Visit Toshiba Electronic Devices & Storage Corporation
    TMPM3HLFYAUG Toshiba Electronic Devices & Storage Corporation Arm Cortex-M3 Core Based Microcontroller/32bit/P-LQFP64-1010-0.50-003 Visit Toshiba Electronic Devices & Storage Corporation
    TMPM3HNFZAFG Toshiba Electronic Devices & Storage Corporation Arm Cortex-M3 Core Based Microcontroller/32bit/P-LQFP100-1414-0.50-002 Visit Toshiba Electronic Devices & Storage Corporation
    TMPM3HLFZAUG Toshiba Electronic Devices & Storage Corporation Arm Cortex-M3 Core Based Microcontroller/32bit/P-LQFP64-1010-0.50-003 Visit Toshiba Electronic Devices & Storage Corporation

    CORTEX A15 CORE Datasheets Context Search

    Catalog Datasheet MFG & Type PDF Document Tags

    Untitled

    Abstract: No abstract text available
    Text: AM5K2E04, AM5K2E02 SPRS864B—June 2013—Revised January 2014 Multicore ARM KeyStone II System-on-Chip SoC 1 AM5K2E04/02 Features and Description • ARM Cortex -A15 MPCore™ CorePac – Up to Four ARM Cortex-A15 Processor Cores at up to 1.4-GHz – 4MB L2 Cache Memory Shared by all Cortex-A15


    Original     		PDF AM5K2E04, AM5K2E02 SPRS864Bâ AM5K2E04/02 Cortex-A15 Cortex-A15

    Untitled

    Abstract: No abstract text available
    Text: AM5K2E04, AM5K2E02 SPRS864B—June 2013—Revised January 2014 Multicore ARM KeyStone II System-on-Chip SoC 1 AM5K2E04/02 Features and Description • ARM Cortex -A15 MPCore™ CorePac – Up to Four ARM Cortex-A15 Processor Cores at up to 1.4-GHz – 4MB L2 Cache Memory Shared by all Cortex-A15


    Original     		PDF AM5K2E04, AM5K2E02 SPRS864Bâ AM5K2E04/02 Cortex-A15 Cortex-A15

    Untitled

    Abstract: No abstract text available
    Text: 66AK2E05, 66AK2E02 SPRS865B—June 2013—Revised January 2014 Multicore DSP+ARM KeyStone II System-on-Chip SoC 1 66AK2E05/02 Features and Description • ARM Cortex -A15 MPCore™ CorePac – Up to Four ARM Cortex-A15 Processor Cores at up to 1.4-GHz


    Original     		PDF 66AK2E05, 66AK2E02 SPRS865Bâ 66AK2E05/02 Cortex-A15 Cortex-A15 TMS320C66xâ

    Untitled

    Abstract: No abstract text available
    Text: 66AK2E05, 66AK2E02 SPRS865B—June 2013—Revised January 2014 Multicore DSP+ARM KeyStone II System-on-Chip SoC 1 66AK2E05/02 Features and Description • ARM Cortex -A15 MPCore™ CorePac – Up to Four ARM Cortex-A15 Processor Cores at up to 1.4-GHz


    Original     		PDF 66AK2E05, 66AK2E02 SPRS865Bâ 66AK2E05/02 Cortex-A15 Cortex-A15 TMS320C66xâ

    OMAP5430

    Abstract: No abstract text available
    Text: phyCORE -OMAP5 System on Module - PRODUCT BRIEF phyCORE-OMAP5 Product Highlights: EASIER // Seamless upgrade path from phyCORE-OMAP4 Building a new embedded // Dual ARM Cortex -A15 cores device from the ground up is an enormous challenge and risk. // Dual ARM Cortex™-M4 processors


    Original     		PDF SGX544-MPx 1080p60 phyCORE-OMAP5430 OMAP5430 RS-232)

    SGX544

    Abstract: OMAP5430
    Text: EPP-Pico-OMAP5430 Who says that great things don’t come in small packages? Pico-ITX solution based on OMAP 5 platform from Texas Instruments Incorporated TI • High-performance, dual-core ARM Cortex™-A15 foundation • Compact form factor: 100 x 72 mm


    Original     		PDF EPP-Pico-OMAP5430 EPP-Pico-OMAP5430 SGX544 OMAP5430

    Untitled

    Abstract: No abstract text available
    Text: TCI6630K2L SPRS893B—June 2013—Revised March 2014 Multicore DSP+ARM KeyStone II System-on-Chip SoC 1 TCI6630K2L Features and Description 1.1 Features • ARM CorePac – Two ARM Cortex -A15 MPCore™ Processors at Up To 1.4 GHz – 1MB L2 Cache Memory Shared by Two ARM Cores


    Original     		PDF TCI6630K2L SPRS893Bâ TCI6630K2L

    PMIC

    Abstract: DA9063
    Text: DA9063 Product Brief System PMIC for Single, Dual or Quad-core Applications Processors The DA9063 is a powerful system PMIC for the next generation of single, dual and quad-core application processors based on the ARM Cortex A9 and A15 architecture. The PMIC follows a scalable approach of output currents and rails to supply the entire system and is capable of delivering a total of up to 12A from


    Original     		PDF DA9063 PMIC

    bootloader

    Abstract: 10MHZCLK SPRS825
    Text: F28M36P63B2, F28M36P63C2 F28M36P53B2, F28M36P53C2, F28M36P33B2, F28M36P33C2 www.ti.com SPRS825 – OCTOBER 2012 Concerto Microcontrollers 1 F28M36x Concerto MCUs 1.1 Features • Master Subsystem — ARM Cortex™-M3 – 125 MHz – Cortex™-M3 Core Hardware Logic Built-in


    Original     		PDF F28M36P63B2, F28M36P63C2 F28M36P53B2, F28M36P53C2, F28M36P33B2, F28M36P33C2 SPRS825 F28M36x TMS320C28xTM 32-Bit bootloader 10MHZCLK SPRS825

    ba7f

    Abstract: PS1G TMS320f F28M36P63 470-nF PM4G UTM ceramic RESISTOR 216-3 pa4g EPIHB16CFG c28s
    Text: F28M36P63B2, F28M36P63C2 F28M36P53B2, F28M36P53C2, F28M36P33B2, F28M36P33C2 www.ti.com SPRS825 – OCTOBER 2012 Concerto Microcontrollers 1 F28M36x Concerto MCUs 1.1 Features • Master Subsystem — ARM Cortex™-M3 – 125 MHz – Cortex™-M3 Core Hardware Logic Built-in


    Original     		PDF F28M36P63B2, F28M36P63C2 F28M36P53B2, F28M36P53C2, F28M36P33B2, F28M36P33C2 SPRS825 F28M36x TMS320C28xTM 32-Bit ba7f PS1G TMS320f F28M36P63 470-nF PM4G UTM ceramic RESISTOR 216-3 pa4g EPIHB16CFG c28s

    SGX544

    Abstract: Jacinto ivahd ARM Cortex-A15 SPRT659 GC320 bb2d Jacinto6 Cortex-M4 mmu sgx5 DRA74
    Text: DRA74x OMAP Automotive Applications Processors Technical Brief SPRT659 – January 2013 – Revised June 2013 Introduction This chapter introduces the features, subsystems, and architecture of the DRA74x Jacinto 6 family of high-performance infotainment processors.


    Original     		PDF DRA74x SPRT659 DRA74x 28-nm SGX544 Jacinto ivahd ARM Cortex-A15 SPRT659 GC320 bb2d Jacinto6 Cortex-M4 mmu sgx5 DRA74

    DRA746

    Abstract: SGX544 Jacinto Jacinto6 PowerVR cortex-a15 SPRT659 TI Jacinto omap block diagram of floating point dsp processors
    Text: DRA746, DRA74x www.ti.com SPRT659 – JANUARY 2013 DRA74x OMAP Automotive Applications Processors Technical Brief 1 Introduction This chapter introduces the features, subsystems, and architecture of the DRA74x Jacinto 6 family of high-performance infotainment processors.


    Original     		PDF DRA746, DRA74x SPRT659 DRA74x 28-nm SGX544 GC320 DRA746 Jacinto Jacinto6 PowerVR cortex-a15 SPRT659 TI Jacinto omap block diagram of floating point dsp processors

    ivahd

    Abstract: No abstract text available
    Text: TDA2 www.ti.com SPRT680 – OCTOBER 2013 ADAS Applications Processor TDA2x System-on-Chip Technical Brief 1 Advanced Driver Assistance System ADAS TDA2x System-on-Chip 1.1 Features • Architecture Designed for ADAS Applications – Best-in-Class CPU Performance


    Original     		PDF SPRT680 1920x1080p, 16-bit ivahd

    F28M36P63C

    Abstract: H33B 40010FFF T5 MARKING CODE 5PIN h53C k1913 PS1G PM4G SPRUHE8 SPRZ375
    Text: F28M36P63C, F28M36P53C F28M36H53C, F28M36H53B, F28M36H33C, F28M36H33B www.ti.com SPRS825A – OCTOBER 2012 – REVISED APRIL 2013 Concerto Microcontrollers Check for Samples: F28M36P63C 1 F28M36x Concerto MCUs 1.1 Features • Master Subsystem — ARM Cortex™-M3


    Original     		PDF F28M36P63C, F28M36P53C F28M36H53C, F28M36H53B, F28M36H33C, F28M36H33B SPRS825A F28M36P63C F28M36x TMS320C28xTM F28M36P63C H33B 40010FFF T5 MARKING CODE 5PIN h53C k1913 PS1G PM4G SPRUHE8 SPRZ375

    Untitled

    Abstract: No abstract text available
    Text: F28M35H20B1, F28M35H20C1 F28M35H22B1, F28M35H22C1, F28M35H32B1, F28M35H32C1 F28M35H50B1, F28M35H50C1, F28M35H52B1, F28M35H52C1 www.ti.com SPRS742D – JUNE 2011 – REVISED AUGUST 2012 Concerto Microcontrollers 1 F28M35x Concerto MCUs 1.1 Features • Master Subsystem — ARM Cortex™-M3


    Original     		PDF F28M35H20B1, F28M35H20C1 F28M35H22B1, F28M35H22C1, F28M35H32B1, F28M35H32C1 F28M35H50B1, F28M35H50C1, F28M35H52B1, F28M35H52C1

    UTM ceramic RESISTOR 212-3

    Abstract: free ic tester circut in form C28-CPU C28F password based dc motor control using picks micro 4001 silicon diode die C28x spruh22 adc 0804 interfacing with 8051 microcontroller ba80 dc motor
    Text: F28M35H20B1, F28M35H20C1 F28M35H22B1, F28M35H22C1, F28M35H32B1, F28M35H32C1 F28M35H50B1, F28M35H50C1, F28M35H52B1, F28M35H52C1 www.ti.com SPRS742D – JUNE 2011 – REVISED AUGUST 2012 Concerto Microcontrollers 1 F28M35x Concerto MCUs 1.1 Features • Master Subsystem — ARM Cortex™-M3


    Original     		PDF F28M35H20B1, F28M35H20C1 F28M35H22B1, F28M35H22C1, F28M35H32B1, F28M35H32C1 F28M35H50B1, F28M35H50C1, F28M35H52B1, F28M35H52C1 UTM ceramic RESISTOR 212-3 free ic tester circut in form C28-CPU C28F password based dc motor control using picks micro 4001 silicon diode die C28x spruh22 adc 0804 interfacing with 8051 microcontroller ba80 dc motor

    Untitled

    Abstract: No abstract text available
    Text: F28M35H52C, F28M35H22C F28M35M52C, F28M35M22C, F28M35M20B F28M35E20B www.ti.com SPRS742F – JUNE 2011 – REVISED APRIL 2013 Concerto Microcontrollers Check for Samples: F28M35H52C 1 F28M35x Concerto MCUs 1.1 Features • Master Subsystem — ARM Cortex™-M3


    Original     		PDF F28M35H52C, F28M35H22C F28M35M52C, F28M35M22C, F28M35M20B F28M35E20B SPRS742F F28M35H52C F28M35x 512KB

    Concerto F28M35x

    Abstract: adc 0804 interfacing with 8051 microcontroller crystal oscillator marking 400d SPRS742F IC cs 4852 circuit diagrams ep 1780 dac 0808 interfacing with 8051 microcontroller 5B00 ba7f tms320lf
    Text: F28M35H52C, F28M35H22C F28M35M52C, F28M35M22C, F28M35M20B F28M35E20B www.ti.com SPRS742F – JUNE 2011 – REVISED APRIL 2013 Concerto Microcontrollers Check for Samples: F28M35H52C 1 F28M35x Concerto MCUs 1.1 Features • Master Subsystem — ARM Cortex™-M3


    Original     		PDF F28M35H52C, F28M35H22C F28M35M52C, F28M35M22C, F28M35M20B F28M35E20B SPRS742F F28M35H52C F28M35x TMS320C28xTM Concerto F28M35x adc 0804 interfacing with 8051 microcontroller crystal oscillator marking 400d SPRS742F IC cs 4852 circuit diagrams ep 1780 dac 0808 interfacing with 8051 microcontroller 5B00 ba7f tms320lf

    Untitled

    Abstract: No abstract text available
    Text: F28M35H52C, F28M35H22C F28M35M52C, F28M35M22C, F28M35M20B F28M35E20B www.ti.com SPRS742F – JUNE 2011 – REVISED APRIL 2013 Concerto Microcontrollers Check for Samples: F28M35H52C 1 F28M35x Concerto MCUs 1.1 Features • Master Subsystem — ARM Cortex™-M3


    Original     		PDF F28M35H52C, F28M35H22C F28M35M52C, F28M35M22C, F28M35M20B F28M35E20B SPRS742F F28M35H52C F28M35x 512KB

    SPRS742E

    Abstract: adc 0804 interfacing with 8051 microcontroller I-71 dac 0808 interfacing with 8051 microcontroller M22-C e20b 772C
    Text: F28M35H52C1, F28M35H22C1 F28M35M52C1, F28M35M22C1, F28M35M20B1 F28M35E20B1 www.ti.com SPRS742E – JUNE 2011 – REVISED MARCH 2013 Concerto Microcontrollers Check for Samples: F28M35H52C1 1 F28M35x Concerto MCUs 1.1 Features • Master Subsystem — ARM Cortex™-M3


    Original     		PDF F28M35H52C1, F28M35H22C1 F28M35M52C1, F28M35M22C1, F28M35M20B1 F28M35E20B1 SPRS742E F28M35H52C1 F28M35x TMS320C28xTM SPRS742E adc 0804 interfacing with 8051 microcontroller I-71 dac 0808 interfacing with 8051 microcontroller M22-C e20b 772C

    Untitled

    Abstract: No abstract text available
    Text: F28M35H52C, F28M35H22C F28M35M52C, F28M35M22C, F28M35M20B F28M35E20B www.ti.com SPRS742F – JUNE 2011 – REVISED APRIL 2013 Concerto Microcontrollers Check for Samples: F28M35H52C 1 F28M35x Concerto MCUs 1.1 Features • Master Subsystem — ARM Cortex™-M3


    Original     		PDF F28M35H52C, F28M35H22C F28M35M52C, F28M35M22C, F28M35M20B F28M35E20B SPRS742F F28M35H52C F28M35x 512KB

    Untitled

    Abstract: No abstract text available
    Text: F28M35H52C, F28M35H22C F28M35M52C, F28M35M22C, F28M35M20B F28M35E20B www.ti.com SPRS742F – JUNE 2011 – REVISED APRIL 2013 Concerto Microcontrollers Check for Samples: F28M35H52C 1 F28M35x Concerto MCUs 1.1 Features • Master Subsystem — ARM Cortex™-M3


    Original     		PDF F28M35H52C, F28M35H22C F28M35M52C, F28M35M22C, F28M35M20B F28M35E20B SPRS742F F28M35H52C F28M35x 512KB

    Untitled

    Abstract: No abstract text available
    Text: F28M35H52C, F28M35H22C F28M35M52C, F28M35M22C, F28M35M20B F28M35E20B www.ti.com SPRS742F – JUNE 2011 – REVISED APRIL 2013 Concerto Microcontrollers Check for Samples: F28M35H52C 1 F28M35x Concerto MCUs 1.1 Features • Master Subsystem — ARM Cortex™-M3


    Original     		PDF F28M35H52C, F28M35H22C F28M35M52C, F28M35M22C, F28M35M20B F28M35E20B SPRS742F F28M35H52C F28M35x 512KB

    Untitled

    Abstract: No abstract text available
    Text: F28M36P63C, F28M36P53C F28M36H53C, F28M36H53B, F28M36H33C, F28M36H33B www.ti.com SPRS825B – OCTOBER 2012 – REVISED SEPTEMBER 2013 Concerto Microcontrollers Check for Samples: F28M36P63C, F28M36P53C, F28M36H53C, F28M36H53B, F28M36H33C, F28M36H33B 1 F28M36x Concerto MCUs


    Original     		PDF F28M36P63C, F28M36P53C F28M36H53C, F28M36H53B, F28M36H33C, F28M36H33B SPRS825B F28M36P53C,