4. • Industry’s lowest power floating-point DSP
• Power management software
• Dynamic voltage frequency scaling
OMAP-L1x: Unmatched connectivity options with
power-efficient ARM9 and optional C674x DSP Core
• Fixed- & floating-point with C674x core
• C67x+ & C64x+ code reuse
• Pin-to-pin compatibility
Development
made easier
Optimize your
system for
performance and
power
• SATA, uPP, EMAC, USB PHY
• System cost savings in the range of 15%
Flexible system
interfaces &
networking
5. OMAP-L1x Roadmap—Under $15 (10Ku)
Applications
Software
Compatibility
DSP
Processing
Pin
for
pin
Compatible
C674x
300+ Mhz
ARM9
300+ MHz
C674x
300+ Mhz
ARM9
300+ MHz
C674x
300+ Mhz
ARM9
300+ MHz
Audio CoP
OMAP ARM9
300+ MHz
OMAP-L108
C674x
300+ Mhz
Pin
for
pin
Compatible
CoProcessor
EMIF (SDRAM and flash)
McASP, Ethernet etc
Standby Power – 60mW
Total Power - 465mW
mDDR/DDR2,
McASP/McBSP,
SATA,UPP, VPIF
- DFVS -
Standby Power – 12mW
Total Power - 420mW
C674x –DSP only
OMAP-L13x – ARM + Floating-Point DSP
OMAP-L118 – ARM + Co-Processor
OMAP-L10x – ARM only
ARM9
300+ MHz
OMAP-L118
C6748/6/2
OMAP-L138
C6747/5/3
OMAP-L107
OMAP-L137
6. TI’s OMAP-L1x Applications Processors
are ideal for:
• Highly integrated SoC
• Unique peripheral
combinations
• Low power for portable
apps: 12mW – 465mW*
• Support for various
high- level OSs
Design requirements
* For typical use case scenarios
Applications such as
SDR
Portable
medical
Bar code
scanners
Sonar
Medical
monitoring
Industrial
monitoring
Test and
measurement
7. CPU core
• ARM926E-JS™ up to 300 MHz
• Memory
• ARM: 16K L1D, 16K L1P, 64K ROM, 128 KB
L3 RAM
• Power (1.2V core, 1.8/3.3V IOs)
• Active < 490 mW @ 300MHz/1.2V/70C
• Standby < 60 mW @ 300MHz/1.2V/25C
• Package
• 17 x17mm BGA (1.0mm pitch)
• Pin-to-pin compatible with OMAP-L137,
C6743/5/7
• Temperature ranges
• Commercial Temp Devices
– Junction Temp, TJ: 0 – 90 C
– Ambient Temp, TA: 0 – 70 C
• Automotive Temp Devices
– Junction Temp, TJ: -40 – 125 C
– Ambient Temp, TA: -40 – 105 C
• Pricing: $7.85 @ 1Ku
OMAP-L107 Processor (ARM9)—Preliminary
Schedule: TMX – Oct 09; TMS – 1Q10
Rich user
interface
Buttons
and Knobs
Internet
VGA LCD Large
on-chip
memory
8. OMAP-L137 processor (C674x DSP + ARM9)
Schedule: TMX – Now; TMS – 1Q10
Rich user
interface
Buttons
and Knobs
VGA LCD Large
on-chip
memory
Internet
CPU core
• ARM926E-JS™ up to 300 MHz
• C674x DSP core up to 300 MHz
• Memory
• ARM: 16K L1D, 16K L1P, 64K ROM
• DSP: 32 KB L1D, 32 KB L1P, 256 KB L2
• Shared: 128 KB RAM
• Power (1.2V core, 1.8/3.3V IOs)
• Active < 465 mW @ 300MHz/1.2V/70C
• Standby < 60 mW @ 300MHz/1.2V/25C
• Package
• 17 x17mm BGA (1.0mm pitch)
• Pin-to-pin compatible with C6743/7
• Temperature ranges
• Commercial Temp Devices
– Junction Temp, TJ: 0 – 90 C
– Ambient Temp, TA: 0 – 70 C
• Automotive Temp Devices
– Junction Temp, TJ: -40 – 125 C
– Ambient Temp, TA: -40 – 105 C
• Pricing: $16.35 @ 1Ku
9. OMAP-L108 Processor (ARM9)—Preliminary
Schedule: TMX – Oct 09; TMS – 1Q10
Rich user
interface
Internet
qVGA LCD
High Speed ADC
or FPGA
or DSP interface
Large
on-chip
memory
High
Capacity
Storage
Power
(1.0-1.2V Core, 1.8/3.3V IOs)
• Total Power < 440 mW @
300Mhz, 1.2V, 25C
• Standby Power
< 15mW @ 1.0V/ 25C;
< 20mW @ 1.2V/25C
• Package Options
• 13 x13mm nFBGA (65nm)
• 16x16mm BGA (0.8mm)
• Pin to pin compatible with OMAP-L138,L118,
C6748/6/2
• Applications
• SDR, Portable Catalog, Bar Code Scanners,
Portable Communications, Portable Medical,
Portable Audio
• Temperature ranges
– Commercial Temp Devices
– Junction Temp, TJ: 0 – 90 C
– Ambient Temp, TA: 0 – 70 C
• Automotive Temp Devices
– Junction Temp, TJ: -40 – 125 C
– Ambient Temp, TA: -40 – 105 C
• Pricing: $9.00 @ 1Ku
10. NEW OMAP-L138 (ARM9 + C674x DSP)
Schedule: TMX – Now; TMS – 1Q10
EVM Available July ‘09
Rich user
interface
Internet
qVGA LCD
High Speed ADC
or FPGA
or DSP interface
Large
on-chip
memory
High
Capacity
Storage
Power
(1.0-1.2V Core, 1.8/3.3V IOs)
• Total Power < 440 mW @
300Mhz, 1.2V, 25C
• Standby Power
< 12mW @ 1.0V/ 25C;
< 20mW @ 1.2V/25C
• Package Options
• 13 x13mm nFBGA (65nm)
• 16x16mm BGA (0.8mm)
• Pin to pin compatible with OMAP-L118/108,
C6748/6/2
• Applications
• SDR, Portable Catalog, Bar Code Scanners,
Portable Communications, Portable Medical,
Portable Audio
• Temperature ranges
– Commercial Temp Devices
– Junction Temp, TJ: 0 – 90 C
– Ambient Temp, TA: 0 – 70 C
• Automotive Temp Devices
– Junction Temp, TJ: -40 – 105 C
– Ambient Temp, TA: -40 – 85 C
• Pricing: $18.60 @ 1Ku
11. OMAP-L137/TMS320C6747 Floating Point Starter Kit
Use for Development on: OMAP-L137, OMAP-L107, C6747, C6745 & C6743
Software
• OMAP-L137 – ARM9 + C674x DSP
• 24-bit stereo CODEC
• Four 3.5 millimeter audio jacks
• 64Mb SPI Flash memory
• 512Mb SDRAM
• ETH MAC, USB 2.0, USB 1.1, MMC/SD, LCDc
• HPI, McASP & I2C interface header emulation
• On-board standard JTAG interface
• Embedded JTAG support via USB
• +5V universal power supply
• Expansion ports for plug-in modules
Hardware
Part Number: TMDXOSKL137BET
Available Now: $399 $349
• Code Composer StudioTM IDE
• Simulator included
• DSP/BIOSTM RTOS, eXpressDSP, and Monta
Vista Linux Pro 5.0 Software support
• Fast run-time library available
on the web
• MATLAB/Simulink Support (FUTURE)
• LabVIEW for Embedded Applications Support
(FUTURE)
• Quick Start Guide and technical reference
12. OMAP-L138: Tools for varying customer requirements
Use for Development on: OMAP-L138, OMAP-L118, OMAP-L108, C6748, C6746 & C6742
• OMAP-L138 SOM
• 64MB mDDR
• Access to key peripherals:
– SATA, USB, EMAC, Audio
• TPS65070 power management
• DSP/BIOS™ peripheral drivers
• CCStudioTM 3.3
• Community supported
• *Available from TI &
Logic for $149, $99
System-on-Module
• OMAP-L138 processor
• 64 or 128MB mDDR
• Ethernet PHY
*Available from Logic for
~$99
• Full peripheral access:
SATA, uPP, EMAC, USB
2.0/1.1 and MMC/SD, VPIF,
LCDC
Experimenter board
OMAP-L138/C6748 EVM
• Software included
• TI supported
• LCD display option
*Available from TI for $849 $799
Small FF
Confirmed mDDR
design
+
TI PN: TMDXOSKL138BET
TI PN: TMDXL138LOGIGEXP-B
Logic PN: SDK-OMAPL138-10-6408R
PN: SOMOMAPL138-10-1602AHCR
for 128MB mDDR support
PN: SOMOMAPL138-10-1502AHCR
For 64MB mDDR support
Only $149
Open source
Linux peripheral
drivers
2x the memory
w/128MB
Additional
C6748 SOM
Notes de l'éditeur
TI’s Embedded Processing portfolio is shown here Each vector represents a power- / performance-point category, where the vector color indicates which processor (DSP or ARM) is included As expected, the product portfolio offers both high performance and low power DSP solutions, however customer and distributor feedback has encouraged TI to heavily increase investments in products that leverage ARM technology. This includes ARM9, Cortex A8, and future cores As of July ’09, there are four OMAP-3 and two OMAP-L1x devices released to market By the end of 2009, TI will have a total of six OMAP-3 and five OMAP-L1x devices released to market
TI’s Embedded Processing portfolio is shown here Each vector represents a power- / performance-point category, where the vector color indicates which processor (DSP or ARM) is included As expected, the product portfolio offers both high performance and low power DSP solutions, however customer and distributor feedback has encouraged TI to heavily increase investments in products that leverage ARM technology. This includes ARM9, Cortex A8, and future cores As of July ’09, there are four OMAP-3 and two OMAP-L1x devices released to market By the end of 2009, TI will have a total of six OMAP-3 and five OMAP-L1x devices released to market
The C6742, C6746 and C6748 and the OMAP-L138 devices are creating excitement by offering unmatched connectivity. These devices offer: Unmatched connectivity and flexible networking Optimized performance and power Reduced time to market by allowing customers to development in fixed and floating and reuse code development. These products along with TI’s strong analog portfolio are addressing design of today and tomorrow. ARM9 Core: ARM9 enables Linux support today and WinCE is in the plan ARM9 enables systems with a rich GUI ARM9 has broad industry 3rd party tools and software support C674x Floating Point DSP Core: OMAP-L137 and OMAP-L138 include the C674x floating point DSP core (fixed and floating pt instruction support), VLIW 8 MACs per cycle C674x DSP Core standby power is in the 7mW range. Active power as low as 420mW at 300 MHz (2400 MMACs). C674x DSP Core brings low power and portability to audio, medical, industrial and other applications requiring the precision, wide dynamic range and time-to-market benefits of floating-point DSPs. Code written on fixed point C62x, C64x, C64x+, and floating point C67x devices run on the new C74x core. TI has already rolled out a number of C674x DSPs without ARM9 as well (C6748, C6746, C6742, C6747, C6745 & C6743). Pricing starting $6.70 (1ku) for C674x.
The OMAP-L1x family originates from two superset parent devices: OMAP-L137 and OMAP-L138 Devices modeled after OMAP-L137 have odd device numbers, while devices modeled after OMAP-L138 have even device numbers All derivatives are pin-for-pin compatible with their superset device Both superset devices are available today The OMAP-L137 superset includes both ARM and DSP processors operating at 300MHz Faster operating speeds for OMAP-L137 (in the 400-450MHz) range are expected in the near future The peripheral set on OMAP-L137 includes McASP audio ports, an ethernet MAC, and EMIF support for SDRAM, SRAM, and flash. Pricing is below $15 in 10k unit quantities The power consumption is projected to be 65mW in standby and 465mW at full utilization Derivatives of OMAP-L137 include the (ARM-only) OMAP-L107 and three C674x DSP-only offerings The OMAP-L138 superset also has an ARM and DSP processors operating at 300MHz It includes additional connectivity options including mDDR/DDR2, McBSP serial ports, Serial ATA (SATA), universal parallel port (uPP), and a video port interface (VPIF) Dynamic Frequency and Voltage Scaling allows for even lower power consumption with 12mW standby and 420mW at full utilization Derivatives of OMAP-L138 include the (ARM+audio CoP) OMAP-L118, the (ARM-only) OMAP-L108, and three C674x DSP-only offerings Pricing (1Ku) OMAP-L137 $16.35 OMAP-L107 $7.85 C6747 / 5 / 3 $10.10 / $9.00 / $7.80 OMAP-L138 $18.60 C6748 / 6 / 2 $15.00 / $13.50 / $6.70 OMAP-L118 $10.10 OMAP-L108 $9.00
The OMAP-L1x family leverages high system on chip (SoC) integration, unique peripheral combinations, low power, and high-level OS support Ideal applications include bar code scanners, test & measurement, software defined radio (SDR), industrial monitoring, portable medical, medical monitoring, and sonar
ARM9 Core: ARM9 enables Linux support today and WinCE is in the plan ARM9 enables systems with a rich GUI ARM9 has broad industry 3rd party tools and software support C674x Floating Point DSP Core: OMAP-L137 and OMAP-L138 include the C674x floating point DSP core (fixed and floating pt instruction support), VLIW 8 MACs per cycle C674x DSP Core standby power is in the 7mW range. Active power as low as 420mW at 300 MHz (2400 MMACs). C674x DSP Core brings low power and portability to audio, medical, industrial and other applications requiring the precision, wide dynamic range and time-to-market benefits of floating-point DSPs. Code written on fixed point C62x, C64x, C64x+, and floating point C67x devices run on the new C74x core. TI has already rolled out a number of C674x DSPs without ARM9 as well (C6748, C6746, C6742, C6747, C6745 & C6743). Pricing starting $6.70 (1ku).
ARM9 Core: ARM9 enables Linux support today and WinCE is in the plan ARM9 enables systems with a rich GUI ARM9 has broad industry 3rd party tools and software support C674x Floating Point DSP Core: OMAP-L137 and OMAP-L138 include the C674x floating point DSP core (fixed and floating pt instruction support), VLIW 8 MACs per cycle C674x DSP Core standby power is in the 7mW range. Active power as low as 420mW at 300 MHz (2400 MMACs). C674x DSP Core brings low power and portability to audio, medical, industrial and other applications requiring the precision, wide dynamic range and time-to-market benefits of floating-point DSPs. Code written on fixed point C62x, C64x, C64x+, and floating point C67x devices run on the new C74x core. TI has already rolled out a number of C674x DSPs without ARM9 as well (C6748, C6746, C6742, C6747, C6745 & C6743). Pricing starting $6.70 (1ku) for C674x.
OMAP-L108 has the same ARM subsystem as L107, but includes more connectivity options such as: MII Ethernet MAC Support for DDR2/mDDR VPIF uPP SATA ARM9 Core: ARM9 enables Linux support today and WinCE is in the plan ARM9 enables systems with a rich GUI ARM9 has broad industry 3rd party tools and software support
ARM9 Core: ARM9 enables Linux support today and WinCE is in the plan ARM9 enables systems with a rich GUI ARM9 has broad industry 3rd party tools and software support OMAP-L138 includes the same DSP and ARM subsystems has the L137, but includes more connectivity options such as: MII Ethernet MAC Support for DDR2/mDDR VPIF uPP SATA C674x Floating Point DSP Core: OMAP-L137 and OMAP-L138 include the C674x floating point DSP core (fixed and floating pt instruction support), VLIW 8 MACs per cycle C674x DSP Core standby power is in the 7mW range. Active power as low as 420mW at 300 MHz (2400 MMACs). C674x DSP Core brings low power and portability to audio, medical, industrial and other applications requiring the precision, wide dynamic range and time-to-market benefits of floating-point DSPs. Code written on fixed point C62x, C64x, C64x+, and floating point C67x devices run on the new C74x core. TI has already rolled out a number of C674x DSPs without ARM9 as well (C6748, C6746, C6742, C6747, C6745 & C6743). Pricing starting $6.70 (1ku) for C674x.
OMAPL137 development kit including EVMs and Software What’s on EVM 300MHz processor Audio codec with 4 audio input/output channel 64Mb SPI flash storing user boot load, Linux kernel etc. 512 Mb SDRAM JTAG emulation support Expansion connector Software (free) Evaluation version of CCS including core simulator MontaVista Linux toolchain and kernel for ARM DSP/BIOS for DSP Runtime support lib (RTS) Board support library (BSL) Documentation: readme, quick start guide MATLAB/simulink and LabView will be supported in future
We offer are various development tools to support development on the OMAP-L138 platform. Customer can use the eXperimenter board or the full EVM to develop on any of the following platforms: OMAP-L138, C6748, C6746 or C6742. At $149, the experimenter board contains the OMAP-L138, with 64MB mDDR memory and access to the key device peripherals including: SATA, USB2.0 high-speed, Ethernet MAC and Audio. With on-board emulation, DSP/BIOS and Open Source Linux driver support, customers can use this board to jump start development with minimal financial investment. This board is available through Logic www.logicpd.com For customers who want a more complete development system we have the OMAP-L138/C6748 EVM which contains twice the memory and allows access to ALL peripherals available on the chip. Customers will also receive in the EVM an additional SOM (System on Module) containing the C6748 DSP (used for DSP-Only development). A SOM (System on Module) is available for customers who want a small form factor reference design of the key components (processor, memory, power management, etc) that they can develop their complete system around. The benefit of the SOM is the small form factor and confirmed mDDR design. This module is available from Logic PD for $99 dollars and can be plugged directly into a customers custom development board or end product.