BGA180
Abstract: No abstract text available
Text: NXP 150 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
LQFP208,
BGA256,
BGA180
BGA180
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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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Untitled
Abstract: No abstract text available
Text: NXP 180 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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60x-bus
Abstract: CPM 1 operation manual MPC603E MPC107 MPC8260 bus arbiter
Text: Freescale Semiconductor Application Note AN2335/D Rev. 0, 10/2002 Freescale Semiconductor, Inc. MPC8260 Dual-Bus Architecture and Performance Considerations Eric Bost, NCSG Field Applications, France Paul Wilson, NCSD Applications, Scotland This document describes the dual-bus architecture of the MPC8260 PowerQUICC II and
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AN2335/D
MPC8260
MPC8260
MPC8265AUMAD/D)
60x-bus
CPM 1 operation manual
MPC603E
MPC107
bus arbiter
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60x-bus
Abstract: AN2335 PowerPC 60X Bus Interface controller MPC107 MPC8260 bus arbiter
Text: Freescale Semiconductor, Inc. Application Note AN2335/D Rev. 0, 10/2002 Freescale Semiconductor, Inc. MPC8260 Dual-Bus Architecture and Performance Considerations Eric Bost, NCSG Field Applications, France Paul Wilson, NCSD Applications, Scotland This document describes the dual-bus architecture of the MPC8260 PowerQUICC II and
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AN2335/D
MPC8260
MPC8260
MPC8265AUMAD/D)
60x-bus
AN2335
PowerPC 60X Bus Interface controller
MPC107
bus arbiter
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voip ethernet single chip
Abstract: voip processor voip two ethernet free applications of arm7 processor voip codec chip tdmi features of ARM7 processor arm7 processor VOIP phone schematic STE100P
Text: VolP Processor Powers Cost Effective IP Telephony StradivariusTM integrates dual-core architecture, dual MAC Allowing voice and data to travel simultaneously over a single network, Voice-over-Internet-Protocol VoIP cuts the cost of voice telephony and enables new
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STLC1502
60MHz
16-bit
FLSTRADI/0602
32-bit
voip ethernet single chip
voip processor
voip two ethernet
free applications of arm7 processor
voip codec chip
tdmi
features of ARM7 processor
arm7 processor
VOIP phone schematic
STE100P
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voip codec chip
Abstract: voip ethernet single chip voip two ethernet voip processor VOIP phone schematic Voice Activity Detector D950 RFC2833 STE100P STLC1502
Text: VolP Processor for cost-effective IP telephony Stradivarius integrates dual-core architecture and dual MAC Allowing voice and data to travel simultaneously over a single network, Voice-over-Internet-Protocol VoIP cuts the cost of voice telephony and enables
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STLC1502)
FLSTRADI/0904
voip codec chip
voip ethernet single chip
voip two ethernet
voip processor
VOIP phone schematic
Voice Activity Detector
D950
RFC2833
STE100P
STLC1502
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Untitled
Abstract: No abstract text available
Text: Marvell 88F6323, 88F6322, 88F6321 Dual-Core SoC Family with Sheeva Technology PRODUCT OVERVIEW The Marvell 88F6323/2/1 is a family of dual-core, high-performance, integrated system-on-chips Soc based on Marvell proprietary Sheeva® ARMv5TE-compliant CPU architecture. The 88F6323/2/1 family of devices integrates two
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88F6323,
88F6322,
88F6321
88F6323/2/1
256KB
88F632x-001
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home security system block diagram
Abstract: 88F6323 Marvell 88F6281 marvell flash controller pcie 88F632x-001 88f6281 CPU architecture block diagram PCIE NAND Marvell simple digital home security system block diagram 256kb serial nand flash
Text: Marvell 88F6323, 88F6322, 88F6321 Dual-Core SoC Family with Sheeva Technology PRODUCT OVERVIEW The Marvell 88F6323/2/1 is a family of dual-core, high-performance, integrated system-on-chips Soc based on Marvell proprietary Sheeva® ARMv5TE-compliant CPU architecture. The 88F6323/2/1 family of devices integrates two
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88F6323,
88F6322,
88F6321
88F6323/2/1
256KB
88F632x-001
home security system block diagram
88F6323
Marvell 88F6281
marvell flash controller pcie
88F632x-001
88f6281
CPU architecture block diagram
PCIE NAND Marvell
simple digital home security system block diagram
256kb serial nand flash
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PSD3234A
Abstract: PSD3234 PSD323X PSD3234A-40 ddc protocol
Text: µPSD323X Flash Programmable System Devices with 8032 Microcontroller Core FEATURES SUMMARY The µPSD323X Devices combine a Flash PSD architecture with an 8032 microcontroller core. The µPSD323X Devices of Flash PSDs feature dual banks of Flash memory, SRAM, general
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PSD323X
PSD323X
16-bit
128KByte
256KByte
32KByte
PSD3234A
PSD3234
PSD3234A-40
ddc protocol
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AME5251
Abstract: GTSD32
Text: AME Dual 1A, 1.5MHz Synchronous Step-Down Converter AME5251 n General Description n Features The AME5251 is a high efficiency monolithic synchronous dual buck regulator using a constant frequency, current mode architecture. Capable of delivering 1A output
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AME5251
AME5251
200MIN.
450TYP.
008MIN
018TYP.
1283-DS5251-A
GTSD32
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AME5251A
Abstract: No abstract text available
Text: AME Dual 1A, 1.5MHz Synchronous Step-Down Converter AME5251A n General Description n Features The AME5251A is a high efficiency monolithic synchronous dual buck regulator using a constant frequency, current mode architecture. Capable of delivering 1A output
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AME5251A
AME5251A
DFN-12A
1283-DS5251A-A
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TQFP52
Abstract: TQFP80
Text: µPSD323X Flash Programmable System Devices with 8032 Microcontroller Core FEATURES SUMMARY • The µPSD323X Devices combine a Flash PSD architecture with an 8032 microcontroller core. The µPSD323X Devices of Flash PSDs feature dual banks of Flash memory, SRAM, general
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PSD323X
PSD323X
16-bit
52-lead,
TQFP52
TQFP52
TQFP80
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TQFP52
Abstract: TQFP80 t-con board
Text: µPSD325X Flash Programmable System Devices with 8032 Microcontroller Core FEATURES SUMMARY • The µPSD325X devices combine a Flash PSD architecture with an 8032 microcontroller core. The µPSD325X devices of Flash PSDs feature dual banks of Flash memory, SRAM, general
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PSD325X
PSD325X
16-bit
32KByte
52-lead,
TQFP52
TQFP52
TQFP80
t-con board
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23TI
Abstract: UPS3200 TQFP52 TQFP80 uPSD3253B uPSD3253BV uPSD3254A uPSD3254BV uPSD325X BV-24
Text: uPSD3254A, uPSD3254BV uPSD3253B, uPSD3253BV Flash Programmable System Devices with 8032 Microcontroller Core FEATURES SUMMARY • The uPSD325X devices combine a Flash PSD architecture with an 8032 microcontroller core. The uPSD325X devices of Flash PSDs feature dual banks of Flash memory, SRAM,
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uPSD3254A
uPSD3254BV
uPSD3253B
uPSD3253BV
uPSD325X
16-bit
32KByte
128KBychange
23TI
UPS3200
TQFP52
TQFP80
BV-24
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PSD321
Abstract: No abstract text available
Text: µPSD321X Flash Programmable System Devices with 8032 Microcontroller Core and 16Kbit SRAM FEATURES SUMMARY The µPSD321X Devices combine a Flash PSD architecture with an 8032 microcontroller core. The µPSD321X Devices of Flash PSDs feature dual banks of Flash memory, SRAM, general
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PSD321X
16Kbit
PSD321X
16-bit
64KByte
16KByte
PSD321
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Untitled
Abstract: No abstract text available
Text: µPSD325X Flash Programmable System Devices with 8032 Microcontroller Core and 256Kbit SRAM FEATURES SUMMARY • The µPSD325X devices combine a Flash PSD architecture with an 8032 microcontroller core. The µPSD325X devices of Flash PSDs feature dual banks of Flash memory, SRAM, general
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PSD325X
256Kbit
PSD325X
16-bit
32KByte
52-lead,
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TQFP52
Abstract: TQFP80 uPSD3212C-40T6 uPSD3212C-40U6 uPSD3212CV-24T6 uPSD3212CV-24U6 uPSD321x
Text: µPSD321X Flash Programmable System Devices with 8032 Microcontroller Core and 16Kbit SRAM FEATURES SUMMARY • The µPSD321X Devices combine a Flash PSD architecture with an 8032 microcontroller core. The µPSD321X Devices of Flash PSDs feature dual banks of Flash memory, SRAM, general
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PSD321X
16Kbit
PSD321X
16-bit
52-lead,
TQFP52
TQFP52
TQFP80
uPSD3212C-40T6
uPSD3212C-40U6
uPSD3212CV-24T6
uPSD3212CV-24U6
uPSD321x
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auxillary contacts
Abstract: hysteresis of PT-100 programmable multi pulse waveform generator cpld TQFP80 package TQFP52 TQFP80 uPSD3200 UPSD3212C uPSD3212C-40T6 uPSD3212C-40U6
Text: UPSD3212C UPSD3212CV Flash Programmable System Devices with 8032 Microcontroller Core and 16Kbit SRAM FEATURES SUMMARY • The uPSD321X Devices combine a Flash PSD architecture with an 8032 microcontroller core. The uPSD321X Devices of Flash PSDs feature dual banks of Flash memory, SRAM, general
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UPSD3212C
UPSD3212CV
16Kbit
uPSD321X
16-bit
52-lead,
auxillary contacts
hysteresis of PT-100
programmable multi pulse waveform generator cpld
TQFP80 package
TQFP52
TQFP80
uPSD3200
UPSD3212C
uPSD3212C-40T6
uPSD3212C-40U6
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58AP
Abstract: upsd TQFP52 TQFP80 uPSD3200 uPSD3212C uPSD3212C-40T6 uPSD3212C-40U6 uPSD3212CV uPSD3212CV-24T6
Text: uPSD3212C uPSD3212CV Flash Programmable System Devices with 8032 Microcontroller Core and 16Kbit SRAM FEATURES SUMMARY • The uPSD321X Devices combine a Flash PSD architecture with an 8032 microcontroller core. The uPSD321X Devices of Flash PSDs feature dual banks of Flash memory, SRAM,
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uPSD3212C
uPSD3212CV
16Kbit
uPSD321X
16-bit
64KByte
58AP
upsd
TQFP52
TQFP80
uPSD3200
uPSD3212C-40T6
uPSD3212C-40U6
uPSD3212CV-24T6
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mod 8 ring counter using JK flip flop
Abstract: AI07802 programmable multi pulse waveform generator cpld uPSD TQFP52 TQFP80 220 resistor array
Text: µPSD325X Flash Programmable System Devices with 8032 Microcontroller Core and 256Kbit SRAM FEATURES SUMMARY • The µPSD325X devices combine a Flash PSD architecture with an 8032 microcontroller core. The µPSD325X devices of Flash PSDs feature dual banks of Flash memory, SRAM, general
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PSD325X
256Kbit
PSD325X
16-bit
32KByte
52-lead,
mod 8 ring counter using JK flip flop
AI07802
programmable multi pulse waveform generator cpld
uPSD
TQFP52
TQFP80
220 resistor array
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uPSD3200
Abstract: TQFP52 TQFP80
Text: µPSD323X Flash Programmable System Devices with 8032 Microcontroller Core and 64Kbit SRAM FEATURES SUMMARY • The µPSD323X Devices combine a Flash PSD architecture with an 8032 microcontroller core. The µPSD323X Devices of Flash PSDs feature dual banks of Flash memory, SRAM, general
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PSD323X
64Kbit
PSD323X
16-bit
52-lead,
TQFP52
uPSD3200
TQFP80
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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
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DA9063
PMIC
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Untitled
Abstract: No abstract text available
Text: TMS320VC5420 DIGITAL SIGNAL PROCESSOR • ■ • I • I V 200-Ml PS Dual-Core DSP Consisting of Independent Subsystems A and B • Conditional Store Instructions • Output Control of CLKOUT Each Core Has an Advanced Multibus Architecture With Three Separate 16-Bit
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TMS320VC5420
200-Ml
16-Bit
40-Bit
17-Bit
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