Datasheet Texas Instruments OMAP-L138

ManufacturerTexas Instruments
SeriesOMAP-L138
Datasheet Texas Instruments OMAP-L138

C6000 DSP+ARM Processor

Datasheets

OMAP-L138 C6000 DSP+ARM Processor datasheet
PDF, 2.0 Mb, Revision: J, File published: Jan 31, 2017
Extract from the document

Prices

Status

OMAPL138EZCE3OMAPL138EZCE4OMAPL138EZCEA3OMAPL138EZCEA3EOMAPL138EZCEA3ROMAPL138EZCED4OMAPL138EZCED4EOMAPL138EZWT3OMAPL138EZWT4OMAPL138EZWTA3OMAPL138EZWTA3EOMAPL138EZWTA3ROMAPL138EZWTD4OMAPL138EZWTD4E
Lifecycle StatusActive (Recommended for new designs)Active (Recommended for new designs)Active (Recommended for new designs)Active (Recommended for new designs)Active (Recommended for new designs)Active (Recommended for new designs)Active (Recommended for new designs)Active (Recommended for new designs)Active (Recommended for new designs)Active (Recommended for new designs)Active (Recommended for new designs)Active (Recommended for new designs)Active (Recommended for new designs)Active (Recommended for new designs)
Manufacture's Sample AvailabilityYesYesYesYesNoYesYesYesNoYesYesNoYesYes

Packaging

OMAPL138EZCE3OMAPL138EZCE4OMAPL138EZCEA3OMAPL138EZCEA3EOMAPL138EZCEA3ROMAPL138EZCED4OMAPL138EZCED4EOMAPL138EZWT3OMAPL138EZWT4OMAPL138EZWTA3OMAPL138EZWTA3EOMAPL138EZWTA3ROMAPL138EZWTD4OMAPL138EZWTD4E
N1234567891011121314
Pin361361361361361361361361361361361361361361
Package TypeZCEZCEZCEZCEZCEZCEZCEZWTZWTZWTZWTZWTZWTZWT
Industry STD TermNFBGANFBGANFBGANFBGANFBGANFBGANFBGANFBGANFBGANFBGANFBGANFBGANFBGANFBGA
JEDEC CodeS-PBGA-NS-PBGA-NS-PBGA-NS-PBGA-NS-PBGA-NS-PBGA-NS-PBGA-NS-PBGA-NS-PBGA-NS-PBGA-NS-PBGA-NS-PBGA-NS-PBGA-NS-PBGA-N
Package QTY16016016016010001601609090909010009090
CarrierJEDEC TRAY (5+1)JEDEC TRAY (5+1)JEDEC TRAY (5+1)JEDEC TRAY (5+1)LARGE T&RJEDEC TRAY (5+1)JEDEC TRAY (5+1)JEDEC TRAY (5+1)JEDEC TRAY (5+1)JEDEC TRAY (5+1)LARGE T&RJEDEC TRAY (5+1)JEDEC TRAY (5+1)
Device MarkingZCEZCEOMAPL138EZCE EA375D450OMAPL138EOMAPL138EZWTZWTA375OMAPL138EZWTZWT E
Width (mm)1313131313131316161616161616
Length (mm)1313131313131316161616161616
Thickness (mm).89.89.89.89.89.89.89.9.9.9.9.9.9.9
Pitch (mm).65.65.65.65.65.65.65.8.8.8.8.8.8.8
Max Height (mm)1.31.31.31.31.31.31.31.41.41.41.41.41.41.4
Mechanical DataDownloadDownloadDownloadDownloadDownloadDownloadDownloadDownloadDownloadDownloadDownloadDownloadDownloadDownload

Parametrics

Parameters / ModelsOMAPL138EZCE3
OMAPL138EZCE3
OMAPL138EZCE4
OMAPL138EZCE4
OMAPL138EZCEA3
OMAPL138EZCEA3
OMAPL138EZCEA3E
OMAPL138EZCEA3E
OMAPL138EZCEA3R
OMAPL138EZCEA3R
OMAPL138EZCED4
OMAPL138EZCED4
OMAPL138EZCED4E
OMAPL138EZCED4E
OMAPL138EZWT3
OMAPL138EZWT3
OMAPL138EZWT4
OMAPL138EZWT4
OMAPL138EZWTA3
OMAPL138EZWTA3
OMAPL138EZWTA3E
OMAPL138EZWTA3E
OMAPL138EZWTA3R
OMAPL138EZWTA3R
OMAPL138EZWTD4
OMAPL138EZWTD4
OMAPL138EZWTD4E
OMAPL138EZWTD4E
ARM CPU1 ARM91 ARM91 ARM91 ARM91 ARM91 ARM91 ARM91 ARM91 ARM91 ARM91 ARM91 ARM91 ARM91 ARM9
ARM MHz, Max.456456456456456456456456456456456456456456
ApplicationsCommunications and Telecom,Consumer Electronics,Energy,Industrial,MedicalCommunications and Telecom,Consumer Electronics,Energy,Industrial,MedicalCommunications and Telecom,Consumer Electronics,Energy,Industrial,MedicalCommunications and Telecom,Consumer Electronics,Energy,Industrial,MedicalCommunications and Telecom,Consumer Electronics,Energy,Industrial,MedicalCommunications and Telecom,Consumer Electronics,Energy,Industrial,MedicalCommunications and Telecom,Consumer Electronics,Energy,Industrial,MedicalCommunications and Telecom,Consumer Electronics,Energy,Industrial,MedicalCommunications and Telecom,Consumer Electronics,Energy,Industrial,MedicalCommunications and Telecom,Consumer Electronics,Energy,Industrial,MedicalCommunications and Telecom,Consumer Electronics,Energy,Industrial,MedicalCommunications and Telecom,Consumer Electronics,Energy,Industrial,MedicalCommunications and Telecom,Consumer Electronics,Energy,Industrial,MedicalCommunications and Telecom,Consumer Electronics,Energy,Industrial,Medical
DRAMLPDDR,DDR2LPDDR,DDR2LPDDR,DDR2LPDDR,DDR2LPDDR,DDR2LPDDR,DDR2LPDDR,DDR2LPDDR,DDR2LPDDR,DDR2LPDDR,DDR2LPDDR,DDR2LPDDR,DDR2LPDDR,DDR2LPDDR,DDR2
DSP1 C674x1 C674x1 C674x1 C674x1 C674x1 C674x1 C674x1 C674x1 C674x1 C674x1 C674x1 C674x1 C674x1 C674x
DSP MHz, Max.456456456456456456456456456456456456456456
Display Options11111111111111
EMAC10/10010/10010/10010/10010/10010/10010/10010/10010/10010/10010/10010/10010/10010/100
I2C22222222222222
On-Chip L2 Cache256 KB (DSP)256 KB (DSP)256 KB (DSP)256 KB (DSP)256 KB (DSP)256 KB (DSP)256 KB (DSP)256 KB (DSP)256 KB (DSP)256 KB (DSP)256 KB (DSP)256 KB (DSP)256 KB (DSP)256 KB (DSP)
Operating SystemsLinux,SYS/BIOSLinux,SYS/BIOSLinux,SYS/BIOSLinux,SYS/BIOSLinux,SYS/BIOSLinux,SYS/BIOSLinux,SYS/BIOSLinux,SYS/BIOSLinux,SYS/BIOSLinux,SYS/BIOSLinux,SYS/BIOSLinux,SYS/BIOSLinux,SYS/BIOSLinux,SYS/BIOS
Operating Temperature Range, C-40 to 105,-40 to 90,0 to 90-40 to 105,-40 to 90,0 to 90-40 to 105,-40 to 90,0 to 90-40 to 105,-40 to 90,0 to 90-40 to 105,-40 to 90,0 to 90-40 to 105,-40 to 90,0 to 90-40 to 105,-40 to 90,0 to 90-40 to 105,-40 to 90,0 to 90-40 to 105,-40 to 90,0 to 90-40 to 105,-40 to 90,0 to 90-40 to 105,-40 to 90,0 to 90-40 to 105,-40 to 90,0 to 90-40 to 105,-40 to 90,0 to 90-40 to 105,-40 to 90,0 to 90
Other On-Chip Memory128 KB128 KB128 KB128 KB128 KB128 KB128 KB128 KB128 KB128 KB128 KB128 KB128 KB128 KB
RatingCatalogCatalogCatalogCatalogCatalogCatalogCatalogCatalogCatalogCatalogCatalogCatalogCatalogCatalog
SATA11111111111111
SPI22222222222222
UART, SCI33333333333333
USB22222222222222
Video Port, Configurable11111111111111

Eco Plan

OMAPL138EZCE3OMAPL138EZCE4OMAPL138EZCEA3OMAPL138EZCEA3EOMAPL138EZCEA3ROMAPL138EZCED4OMAPL138EZCED4EOMAPL138EZWT3OMAPL138EZWT4OMAPL138EZWTA3OMAPL138EZWTA3EOMAPL138EZWTA3ROMAPL138EZWTD4OMAPL138EZWTD4E
RoHSCompliantCompliantCompliantCompliantCompliantCompliantCompliantCompliantCompliantCompliantCompliantCompliantCompliantCompliant

Application Notes

  • OMAP-L132/L138 Power Consumption Summary
    PDF, 37 Kb, File published: Aug 30, 2010
    This article discusses the power consumption of the Texas Instruments OMAP-L138. Power consumption on the OMAP-L138 devices are highly application-dependent. The low-core voltage and other power design optimizations allow these devices to operate with industry-leading performance, while maintaining a low power-to-performance ratio.The power data presented in this document are based on measu
  • Using the OMAP-L132/L138 Bootloader Application Report (Rev. E)
    PDF, 1.6 Mb, Revision: E, File published: Jan 23, 2014
    This application report describes various boot mechanisms supported by the OMAP-L132/138 bootloader read-only memory (ROM) image. Topics covered include the Application Image Script (AIS) boot process, an AISgen tool used to generate boot scripts, protocol for booting the device from an external master device, a UART Boot Host GUI for booting the device from a host PC, and any limitations, default
  • Powering the OMAP-L132/OMAP-L137/OMAP-L138 Processor with the TPS650061
    PDF, 695 Kb, File published: Apr 13, 2012
    TPS650061, OMAP-L132, OMAP-L137, OMAP-L138 Power Sequencing for OMAP-L132, L137, and L138 using the TPS650061
  • SGI EVM Software Manual
    PDF, 28 Kb, File published: Jun 27, 2012
    This article will guide you in the basic setup of the file system and Linux kernel for the Smart Grid Infrastructure (SGI) EVM. It also provides information on modifying and rebuilding the Linux kernel for your application.The SGI platform is designed for development and test of smart grid applications including: data concentrator, power protection and monitoring, power analytics, industria
  • Running the Metrology Demo on the SGI EVM
    PDF, 28 Kb, File published: Jun 27, 2012
    The Metrology Demo showcases the ability of the dual-core OMAP-L138 DSP+ARM processor to execute metrology functions, power analytics algorithms (FFT), and a Rogowski coil digital integrator on its TMS320C674x DSP, while at the same time running a high-level operating system (Linux) with network communication on its ARM9в„ў core. A Windows PC graphical user interface (GUI) is used to display t
  • TMS320C674x/OMAP-L1x Processor Security
    PDF, 29 Kb, File published: Jun 8, 2011
    The generic secure environment is supported by hardware within the C674x DSP core. This allows critical code to be executed in a secure environment, hiding sensitive information from the outside world with the help of the following hardware features:Secure thread support – hardware support that allows trusted code to be executed from secure ROMor secure RAM.Protected transition
  • WiLink 6.0 (WL1271) OpenLink Platform (Rev. A)
    PDF, 735 Kb, Revision: A, File published: Apr 26, 2011
  • OMAP-L1x8 Complementary Products
    PDF, 26 Kb, File published: Jul 20, 2009
    This article has been contributed to the TI DaVinciв„ў and OMAPв„ў Developer Wiki. To see the most recently updated version or to contribute, visit this topic at:http://tiexpressdsp.com/index.php/OMAP-L1x8_Complementary_Products .This Wiki article serves as a repository of complimentary devices that ca
  • Powering OMAP-L132/L138, C6742/4/6, and AM18x with TPS65070 (Rev. B)
    PDF, 453 Kb, Revision: B, File published: Aug 29, 2011
    This documents details the design consideration of a power management unit (PMU) solution for the OMAP-L132/-L138 low-power applications processors with a TPS65070 five-channel power management device.
  • OMAP-L132/L138, TMS320C6742/6/8 Pin Multiplexing Utility (Rev. B)
    PDF, 37 Kb, Revision: B, File published: Sep 27, 2013
    The OMAP-L1x8 and C6742/6/8 devices use a great deal of internal pin multiplexing to allow the most functionality in the smallest and lowest cost package. This software allows the pin multiplexing registers of the device to be calculated with ease, as well as showing what peripherals can be used together and what devices support the peripherals that are selected. This software is useful to anyone
  • Canny Edge Detection Implementation on TMS320C64x/64x+ Using VLIB
    PDF, 97 Kb, File published: Nov 25, 2009
    This application note contains instructions for implementing Canny Edge Detection algorithm using VLIB. The general ideas given here can also be applied for an application which calls a sequence of VLIB functions in a block-based manner.
  • High-Vin, High-Efficiency Power Solution Using DC/DC Converter With DVFS (Rev. C)
    PDF, 266 Kb, Revision: C, File published: Aug 29, 2011
    This reference design is intended for users designing with the TMS320C6742, TMS320C6746, TMS320C6748, or OMAP-L132/L138 processor. Using sequenced power supplies, this reference design describes a system having a 12-V input voltage and a high-efficiency dc/dc converter with integrated FETs and dynamic voltage and frequency scaling (DVFS) for a small, simple design.Sequenced power supply architec
  • Simple Power Solution Using LDOs (Rev. B)
    PDF, 150 Kb, Revision: B, File published: Aug 29, 2011
    This reference design helps those desiring to design-in the TMS320C6742, TMS320C6746, TMS320C6748, and OMAP-L132/L138. This design, employing sequenced power supplies, describes asystem with an input voltage of 3.3 V, and uses LDOs for a small, simple system.Sequenced power supply architectures are becoming commonplace in high-performance microprocessor and digital signal processor (DSP) syste
  • Medium Integrated Power Solution Using a Dual DC/DC Converter and an LDO (Rev. B)
    PDF, 387 Kb, Revision: B, File published: Aug 29, 2011
    This reference design is intended for users designing with the TMS320C6742, TMS320C6746, TMS320C6748, or OMAP-L132/L138 processor. Using sequenced power supplies, this reference design describes a system having a 3.3-V input voltage and a high-efficiency dc/dc converter with integrated FETs for a small, simple design.Sequenced power supply architectures are becoming commonplace in high-performan
  • High-Efficiency Power Solution Using DC/DC Converters With DVFS (Rev. A)
    PDF, 161 Kb, Revision: A, File published: May 5, 2010
    This reference design is intended for users designing with the TMS320C6742, TMS320C6746, TMS320C6748, OMAP-L138 or AM18x processor. Using sequenced power supplies, this reference design describes a system having a 12-V input voltage and a high-efficiency dc/dc converter with ntegrated FETs and dynamic voltage and frequency scaling (DVFS) for a small, simple design.Sequenced power supply archit
  • TMS320C6748/46/42 & OMAP-L1x8 USB Upstream Device Compliance Testing
    PDF, 1.1 Mb, File published: Aug 17, 2009
    This application report describes the TMS320C6748/46/42 and OMAP-L1x8 electrical compliance of a high-speed (HS) universal serial bus (USB) operation conforming to the USB 2.0 specification. The on-the-go (OTG) controller supports the USB 2.0 device and host mode at high-speed (HS), full-speed (FS) and low-speed (LS).
  • TMS320C6748/46/42 & OMAP-L132/L138 USB Downstream Host Compliance Testing
    PDF, 3.6 Mb, File published: Aug 17, 2009
    This application report describes the TMS320C6748/46/42 and OMAP-L1x8 embedded Host electrical compliance of a high-speed (HS) universal serial bus (USB) operation conforming to the USB 2.0 specification. The OTG controller supports the USB 2.0 device and host mode at high-speed (HS), full-speed (FS) and low-speed (LS).
  • High-Integration, High-Efficiency Power Solution Using DC/DC Converters w/DVFS (Rev. A)
    PDF, 208 Kb, Revision: A, File published: May 5, 2010
    This reference design is intended for users designing with the TMS320C6742, TMS320C6746, TMS320C6748, OMAP-L138 or AM18x processor. Using sequenced power supplies, this reference design describes a system having a 12-V input voltage and a high-efficiency dc/dc converter with ntegrated FETs and dynamic voltage and frequency scaling (DVFS) for a small, simple design.Sequenced power supply archit
  • TI DSP Benchmarking
    PDF, 62 Kb, File published: Jan 13, 2016
    This application report provides benchmarks for the C674x DSP core, the C66x DSP core and the ARMВ®CortexВ®-A15 core. This document also shows how to reproduce these benchmarks on specific hardware platforms.
  • TMS320C674x/OMAP-L1x USB Compliance Checklist
    PDF, 89 Kb, File published: Mar 12, 2009
    This application report contains the USB checklist for the TMS320C674x/OMAP-L1x (C674x/OMAP-L1x). The C674x/OMAP-L1x has a compliant full-speed USB device port and does not support a low-speed USB device operation.
  • OMAP-L1x/C674x/AM1x SOC Architecture and Throughput Overview
    PDF, 19 Kb, File published: Feb 12, 2010
    This article has been contributed to the TI Developer Wiki. To see the most recently updated version or to contribute, visit this topic at:http://wiki.davincidsp.com/index.php/OMAP-L1x/C674x/AM1x_SOC_Architecture_and_Throughput_Overview. This collection of Wiki articles provide i
  • Understanding TI's PCB Routing Rule-Based DDR Timing Specification (Rev. A)
    PDF, 93 Kb, Revision: A, File published: Jul 17, 2008
    This application report motivates the way the DDR high-speed timing requirements are now going to be communicated to system designers. The traditional method of using data sheet parameters and simulation models is tedious. The system designer uses this information to evaluate whether timing specifications are met and can be expected to operate reliably.Ultimately, the real question the hardwa
  • High-Speed Interface Layout Guidelines (Rev. G)
    PDF, 814 Kb, Revision: G, File published: Jul 27, 2017
    As modern bus interface frequencies scale higher, care must be taken in the printed circuit board (PCB) layout phase of a design to ensure a robust solution.
  • Introduction to TMS320C6000 DSP Optimization
    PDF, 535 Kb, File published: Oct 6, 2011
    The TMS320C6000™ Digital Signal Processors (DSPs) have many architectural advantages that make them ideal for computation-intensive real-time applications. However to fully leverage the architectural features that C6000™ processors offer code optimization may be required. First this document reviews five key concepts in understanding the C6000 DSP architecture and optimization. Then

Model Line

Manufacturer's Classification

  • Semiconductors> Processors> Digital Signal Processors> C6000 DSP + ARM Processors> OMAP-L1x