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PXA Modules
.aspx) T320: Marvell Xscale PXA320 System on Module
Embedded Computing with TRITON 320: The TRITON 320 (T320) is a complete computer, implemented on a board smaller than a credit card, and ready to be designed into your embedded system. TRITON 320 includes a Intel® / Marvell PXA320 processor, SDRAM and Flash memory. The integrated LCD-controller enables direct connection of a LCD screen, and the standard PCMCIA interface permits simple extension and integration into a target system.
The TRITON 320 is specifically targeted at embedded applications where size, high cpu-performance and low power consumption are critical factors.
Board Highlights:
- World's smallest PXA320 system on module
- Lowest power solution, down to 2 mW in sleep mode
- Marvell PXA320 806 MHz CPU (B2 stepping)
- 64 MB mobile SDRAM mobile DDR-SDRAM
- 128 MB NAND Flash
- RTC controller (DS1339)
- Glueless connection to Ethernet controller
- U-Boot firmware
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- LCD controller
- 16-bit A/A/D multiplexed ext. memory interface
- Programmable core voltage
- Single 3.3V to 5V power supply
- Connector: DIMM 200 low profile
- Operating temperature range -25°C..85°C
- Small size: 67.6 x 26 x 4.2 mm
- RoHS compliant (lead free)
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3x UART / RS232, I2C, 2xAC97, I2S, Synchronous Serial Port (SSP), IrDA, Bluetooth, SD-Card / SDIO (4-bit), MMC / Compact Flash (incl. IDE mode), USB Host/Device.
* other PXA320 interfaces such as QCI, USIM, MSL, etc via headers |
" Using less than 2mW in sleep mode, the TRITON-320 PXA320 module is specifically targeted at embedded applications where size, high cpu-performance and low power consumption are critical factors. "
T270: Marvell XScale PXA270 System on Module
The TRITON-270 SBC is a DIMM200 format based on the new Marvell XScale PXA270 cpu. Smaller than a credit-card, the TRITON-270 has been designed as an embedded CPU module that you can easily integrate into your new product designs. By using the TRITON-270, you benefit from volume prices and reduced design times.
- PXA270 520 MHz CPU
- 64 / 128 Mb mobile SDRAM
- 16 / 32 / 64 Mb NOR flash
- RTC DS1339 Real Time Clock
- Buffered 32-bit external memory interface
- Full speed USB 1.1 Host/Client
- LCD Controller
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- Camera interface
- Single 3,3V power supply
- Connector: DIMM 200 low profile
- Small size: 67.6 x 31 x 4.2 mm
- Operating temperature range -25°C..85°C
- RedBoot bootloader
- RoHS compliant (lead free)
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3x UART, SDIO, AC97/I2S, I2C, 3x SSP, Keypad, Compact Flash |
" The TRITON-270 was the world's first PXA270 System On Module (SOM) and started shipping the first week of October 2004. "
TK71: Marvell Kirkwood System on Module
 The Marvell® 88F6281 SoC with Sheeva™ embedded CPU technology, is a high-performance integrated controller. It integrates the Marvell Sheeva CPU core which is fully ARMv5TE-compliant with a 256KB L2 Cache. The 88F6281 builds upon Marvell’s innovative Feroceon® family of processors, improves
performance, and adds new features to reduce bill of materials (BOM) costs.
The 88F6281 is suitable for a wide range of applications such as routers, gateway, media server, storage, set-top-box, networking, point of service and printer products. The 88F6281 offers unparalleled integration that makes system design simple and cost efficient.
- 1,2GHz ARM compliant Marvell 88F6281
- High-performance ARMv5TE-compliant CPU
- Up to 1.2 Ghz operating speed
- RAM 256Mb / 512 Mb DDR2-SDRAM
- 16-bit DDR2 memory interface
- 256KB unified 4-way, set-associative L2 cache
- ROM 128MB NAND Flash
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- Two Gigabit Ethernet MACs, one on-board PHY, 2nd port available on Qseven interface
- Precise Timing Protocol and Audio Video Bridging
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- Single PCI-Express port
- 7 Port USB Hub SMSC USB2517
- USB 2.0 hub with 7 downstream ports
- Two SATA 2.0 ports with integrated PHYs
- Network security engine with various encryption algorithm support
- Power supply Single 5V
- Size Qseven 70mm x 70mm
- Temp.-Range 0°C..70°C (-40°..85°C)
- UBoot bootloader
- RoHS compliant (lead free)
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" The innovative, on-chip crossbar architecture with any-to-any connectivity enables concurrent transactions among multiple units that results in high system throughput allowing system designers to create high-performance scalable systems. Tightly integrated CPU and memory controller significantly improves application performance"
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