Cortex-M4 mmu
Abstract: cortex-m4 cortexm4 0xE000ED2C 0xE000ED38 0xE000E
Text: Application Note 209 Using Cortex-M3 and Cortex-M4 Fault Exceptions Abstract The Cortex-M processors implement an efficient exception model that also traps illegal memory accesses and several incorrect program conditions. This application note describes the Cortex-M fault exceptions from the programmers view and
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ARM LPC1768 instruction set
Abstract: mbed LPC1768 ARM cortex R7 processor LPC3154 cmsis lpc1768 knight rider stripboard instruction set for PIC18 series using c compiler LPC1768 MSP430F5438
Text: Get Better Code Density than 8/16 bit MCU’s NXP LPC1100 Cortex M0 Oct 2009 Outline Introduction ARM Cortex-M0 processor Why processor bit width doesn’t matter – Code size – Performance – Cost Conclusions 2 ARM Cortex-M Processors Cortex-M family optimised for deeply embedded
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LPC1100
32-bit
16-bit
ARM LPC1768 instruction set
mbed LPC1768
ARM cortex R7 processor
LPC3154
cmsis lpc1768
knight rider
stripboard
instruction set for PIC18 series using c compiler
LPC1768
MSP430F5438
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PFUZE100
Abstract: arm cortex a9
Text: conga-QMX6 Formfactor Qseven Rev. 1.20, 70x70 mm CPU Freescale i.MX6 Solo ARM Cortex A9 up to 1.0 GHz, 512B L2 cache Freescale® i.MX6 Dual Lite ARM Cortex A9 up to 1.0 GHz, 512KB L2 cache Freescale® i.MX6 Dual ARM Cortex A9 up to 1.0GHz, 1MB L2 cache Freescale® i.MX6 Quad ARM Cortex A9 up to 1.0GHz, 1MB L2 cache
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70x70
512KB
533MHz
PFUZE100
arm cortex a9
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Untitled
Abstract: No abstract text available
Text: NXP 204 MHz, 32-bit Cortex-M4 /Cortex-M0 DSC LPC4300 series First asymmetrical, dual-core digital signal controller featuring Cortex-M4 & Cortex-M0 A dual-core architecture and a unique set of configurable peripherals make it possible to develop DSP and MCU applications within a single architecture and development environment.
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32-bit
LPC4300
32-bit
10/100T
LQFP208,
BGA256,
BGA180
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C6748 EDMA
Abstract: OMAP-L138 setup USB interrupts of arm9 TMDXOSKL138BET UART Program Examples ARM edma3 c6748 OMAP-L138 arm sata nand control OMAP-L138 arm9 c674x floating point dsp 32-KBL1D
Text: Texas Instruments OMAPL1x—based on ARM9 Low Power SoCs TI embedded processors ARM DSP C6000 Multi-core C64x DM644x Performance Power Cortex A8 DM646x OMAP4 OMAP35x ARM9 Cortex A8 C5000 C67x/C64x C674x C2000 MSP430 Cortex M3 ARM Core Code Compatibility ISA
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C6000
DM644x
DM646x
OMAP35x
C5000
C67x/C64x
C674x
C2000
MSP430
C6748 EDMA
OMAP-L138 setup USB
interrupts of arm9
TMDXOSKL138BET
UART Program Examples ARM
edma3 c6748
OMAP-L138
arm sata nand control
OMAP-L138 arm9 c674x floating point dsp
32-KBL1D
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LPC1300
Abstract: HVQFN33 uart for lpc1343 LPC1313 cortex cpu LPC1100 LQFP48 LPC1311 LPC1342 LPC1343
Text: NXP 70-MHz, 32-bit Cortex-M3 microcontrollers LPC1300 Industry’s lowest power Cortex-M3 based microcontrollers NXP brings a new level of power performance to the ARM architecture with the LPC1300 series, the industry’s lowest-power Cortex-M3 MCUs. These new MCUs consume approximately 200 µA/MHz,
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70-MHz,
32-bit
LPC1300
LPC1300
16/32-bit
70-MHz
LQFP48,
HVQFN33
HVQFN33
uart for lpc1343
LPC1313
cortex cpu
LPC1100
LQFP48
LPC1311
LPC1342
LPC1343
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ADC 12BIT I2C NXP
Abstract: LPC1700 i2c LPC1700 baud rate CONVERTER FOR RS 485 TO ETHERNET I2C Peripherals rs-485 modem LPC1768 LQFP80 LQFP100 LPC176x
Text: 100 MHz, 32-bit Microcontrollers with Cortex-M3 core, LPC1700 series Cortex-M3 based microcontrollers with Ethernet, USB, CAN and 12-bit ADC The LPC1700 series of low power cost-effective Cortex-M3 microcontrollers feature bestin-class peripheral support such as Ethernet, USB 2.0 Host/OTG/Device, and CAN 2.0B.
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32-bit
LPC1700
12-bit
10-bit
ADC 12BIT I2C NXP
LPC1700 i2c
baud rate CONVERTER FOR RS 485 TO ETHERNET
I2C Peripherals
rs-485 modem
LPC1768
LQFP80
LQFP100
LPC176x
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mbed LPC1768
Abstract: LPC1754 lpc1769 LPC1768 NXP LPC1768 DMA LQFP80 lpc1756 LPC1759 LPC175x NXP LPC1768
Text: 120 MHz, 32-bit Microcontrollers with Cortex-M3 core, LPC1700 series Cortex-M3 based microcontrollers with Ethernet, USB, CAN and 12-bit ADC The LPC1700 series of low power cost-effective Cortex-M3 microcontrollers feature bestin-class peripheral support such as Ethernet, USB 2.0 Host/OTG/Device, and CAN 2.0B.
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32-bit
LPC1700
12-bit
10-bit
mbed LPC1768
LPC1754
lpc1769
LPC1768
NXP LPC1768 DMA
LQFP80
lpc1756
LPC1759
LPC175x
NXP LPC1768
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LPC1700 i2c
Abstract: NXP LPC1768 LPC1768 lpc1769 LPC1759 mbed LPC1768 LQFP100 lqfp80 CAN lpc17xx LPC175x
Text: 120 MHz, 32-bit Microcontrollers with Cortex-M3 core, LPC1700 series Cortex-M3 based microcontrollers with Ethernet, USB, CAN and 12-bit ADC The LPC1700 series of low power cost-effective Cortex-M3 microcontrollers feature bestin-class peripheral support such as Ethernet, USB 2.0 Host/OTG/Device, and CAN 2.0B.
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32-bit
LPC1700
12-bit
10-bit
UpLPC1700Leaflet
LPC1700 i2c
NXP LPC1768
LPC1768
lpc1769
LPC1759
mbed LPC1768
LQFP100
lqfp80
CAN lpc17xx
LPC175x
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can bootloader LPC11C14
Abstract: LPC11C14 LPC11Cx LPC11C14f lpc11c14fbd48 LPC11C12FBD48 LQFP48 canopen object dictionary LPC11* bootloader
Text: LPC11C12/C14 32-bit ARM Cortex-M0 microcontroller; 16/32 kB flash, 8 kB SRAM; C_CAN Rev. 1 — 21 September 2010 Product data sheet 1. General description 32-bit ARM Cortex-M0 microcontroller The LPC11C12/C14 are an ARM Cortex-M0 based, low-cost 32-bit MCU family, designed
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LPC11C12/C14
32-bit
LPC11C12/C14
8/16-bit
RS-485/EIA-485
can bootloader LPC11C14
LPC11C14
LPC11Cx
LPC11C14f
lpc11c14fbd48
LPC11C12FBD48
LQFP48
canopen object dictionary
LPC11* bootloader
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HVQFN33
Abstract: lpc1114 LPC1114FHN33 lpc1111fhn33 LPC1100 LPC111 LPC1114FBD48 LPC1114FBD48/301 LPC111x LPC1112
Text: NXP 50-MHz, 32-bit Cortex-M0 microcontrollers LPC1100 Cortex-M0 based microcontrollers with industry-leading power and efficiency Built around the new Cortex-M0 architecture, the smallest, lowest power, and most energy-efficient ARM core ever developed, these MCUs are ideally equipped for use in many traditional 8/16-bit
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50-MHz,
32-bit
LPC1100
8/16-bit
HVQFN33
LQFP48
PLCC44
HVQFN33
lpc1114
LPC1114FHN33
lpc1111fhn33
LPC1100
LPC111
LPC1114FBD48
LPC1114FBD48/301
LPC111x
LPC1112
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LPC1100
Abstract: Cortex-M0
Text: NXP 50-MHz, 32-bit Cortex-M0 microcontrollers LPC1100 Cortex-M0 based microcontrollers with industry-leading power and efficiency Built around the new Cortex-M0 architecture, the smallest, lowest power, and most energy-efficient ARM core ever developed, these MCUs are ideally equipped for use in battery-powered consumer
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50-MHz,
32-bit
LPC1100
50-MHz
002aae600
LPC1100
Cortex-M0
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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
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AM5K2E04,
AM5K2E02
SPRS864Bâ
AM5K2E04/02
Cortex-A15
Cortex-A15
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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
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AM5K2E04,
AM5K2E02
SPRS864Bâ
AM5K2E04/02
Cortex-A15
Cortex-A15
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Untitled
Abstract: No abstract text available
Text: i.MX515 ARM Cortex-A8 Tower Computer Module TWR1650 Features The TWR1650 is an i.MX515 evaluation module boasting a subset of features common to an industrial-grade single board computer. Featuring an 800MHz ARM Cortex-A8 CPU, the TWR1650 delivers the performance
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MX515
TWR1650
800MHz
512MB
10/100BASE-T
10/100BASE-T
TWR1650
800MHz
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sample c code for LPC1227
Abstract: 555 TIMER APPLICATIONS
Text: LPC12D27 32-bit ARM Cortex-M0 microcontroller; 128 kB flash and 8 kB SRAM; 40 segment x 4 LCD driver Rev. 1 — 20 September 2011 Product data sheet 1. General description The LPC12D27 are ARM Cortex-M0 based microcontrollers for embedded applications featuring a high level of integration and low power consumption. The ARM Cortex-M0 is a
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LPC12D27
32-bit
LPC12D27
LPC1227
PCF8576D
100-pin
sample c code for LPC1227
555 TIMER APPLICATIONS
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Untitled
Abstract: No abstract text available
Text: SPEAr1310 Dual-core Cortex A9 embedded MPU for communications Data brief Features • CPU subsystem: – 2x ARM Cortex A9 cores, up to 600 MHz – Supporting both symmetric SMP and asymmetric (AMP) multiprocessing – 32+32 KB L1 Instructions/Data cache per
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SPEAr1310
64-bit
DDR2-800/DDR3-1066
16/32y
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Untitled
Abstract: No abstract text available
Text: SPEAr1310 Dual-core Cortex A9 embedded MPU for communications Data brief Features • CPU subsystem: – 2x ARM Cortex A9 cores, up to 600 MHz – Supporting both symmetric SMP and asymmetric (AMP) multiprocessing – 32+32 KB L1 Instructions/Data cache per
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SPEAr1310
64-bit
DDR2-800/DDR3-1066
16/32y
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cortex a9 specification
Abstract: Cortex A9 instruction set Dual-core ARM Cortex-A9 CPU spear1310 led matrix 16X32 china cortex a9 arm cortex a9 ARM v7 cortex a9 block diagram led matrix 16X32 axi compliant ddr3 controller
Text: SPEAr1310 Dual-core Cortex A9 embedded MPU for communications Data brief Features • CPU subsystem: – 2x ARM Cortex A9 cores, up to 600 MHz – Supporting both symmetric SMP and asymmetric (AMP) multiprocessing – 32+32 KB L1 Instructions/Data cache per
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SPEAr1310
64-bit
DDR2-800/DDR3-1066
cortex a9 specification
Cortex A9 instruction set
Dual-core ARM Cortex-A9 CPU
spear1310
led matrix 16X32 china
cortex a9
arm cortex a9
ARM v7 cortex a9 block diagram
led matrix 16X32
axi compliant ddr3 controller
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Untitled
Abstract: No abstract text available
Text: LPC12D27 32-bit ARM Cortex-M0 microcontroller; 128 kB flash and 8 kB SRAM; 40 segment x 4 LCD driver Rev. 1 — 20 September 2011 Product data sheet 1. General description The LPC12D27 are ARM Cortex-M0 based microcontrollers for embedded applications featuring a high level of integration and low power consumption. The ARM Cortex-M0 is a
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LPC12D27
32-bit
LPC12D27
LPC1227
PCF8576D
100-pin
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TMPM333FDFG
Abstract: No abstract text available
Text: August 2010 TX03 Series 32-bit / 100-pin TMPM333FDFG TMPM333FYFG TMPM333FWFG High-performance microcontrollers based on ARM's Cortex -M3 core, featuring a high-speed low-power FLASH-ROM, a 10-bit AD converter, various interfaces and timers. Features ARM Cortex-M3 CPU Core
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32-bit
100-pin
TMPM333FDFG
TMPM333FYFG
TMPM333FWFG
10-bit
16-bit
TMPM333FDFG
TMPM333FYFG
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TMPM332FWUG
Abstract: Toshiba TMPM332FWUG TMPM3
Text: August 2010 TX03 Series 32-bit / 64-pin TMPM332FWUG 32-bit high-functionality, low-power microcontroller based on Cortex -M3 core with built-in CEC and remote control signal preprocessor ideal for controlling digital AV equipment Features ARM Cortex™-M3 CPU Core
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32-bit
64-pin
TMPM332FWUG
10-bit
16-bit
TMPM332FWUG
Toshiba TMPM332FWUG
TMPM3
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Untitled
Abstract: No abstract text available
Text: STM32F427xx STM32F429xx ARM Cortex-M4 32b MCU+FPU, 225DMIPS, up to 2MB Flash/256+4KB RAM, USB OTG HS/FS, Ethernet, 17 TIMs, 3 ADCs, 20 comm. interfaces, camera & LCD-TFT Datasheet - production data Features &"'! • Core: ARM 32-bit Cortex -M4 CPU with FPU,
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STM32F427xx
STM32F429xx
225DMIPS,
Flash/256
32-bit
64-KB
DocID024030
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STM32F429N
Abstract: STM32F429Ni
Text: STM32F427xx STM32F429xx ARM Cortex-M4 32b MCU+FPU, 225DMIPS, up to 2MB Flash/256+4KB RAM, USB OTG HS/FS, Ethernet, 17 TIMs, 3 ADCs, 20 comm. interfaces, camera & LCD-TFT Datasheet - production data Features &"'! • Core: ARM 32-bit Cortex®-M4 CPU with FPU,
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STM32F427xx
STM32F429xx
225DMIPS,
Flash/256
32-bit
64-KB
DocID024030
STM32F429N
STM32F429Ni
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