OMAP For Industrial Applications - Texas Instruments

OMAP for Industrial
Applications
Anderson Hsiao
OMAP35x Business Development Manager
Texas Instruments

Embedded Computing
• An embedded system is a special-purpose computer system designed to perform one or
a few dedicated functions, often with real-time computing constraints – WIKIPEDIA
• Embedded Processing includes both Embedded Control and Embedded Compute
applications. The focus here is on Embedded Computing!
• The different types of embedded computing boards standards are
– PICMG standard boards (PCI, PCIe, cPCI, ATCA, AMC, uTCA, COMexpress etc.)
– VITA Standard boards (PMC, VME, XMC, VXS, VPX etc.)
– PC 104 consortium (PC104, PC104express, EBX, EPIC etc.)
– Intel Architecture Motherboards (ATX, ITX, mini ITX, Pico ITX, Nano ITX etc.)
– Computer On Module (ETX, COM, COMexpress)
• Most RISC processor (like OMAP ARM) based computing modules use the COM or
SOM (System On Module) form factor. There is no specific standard established for the
SOM today.

Embedded Applications
• Communication
– Communication equipments with AdvancedTCA(ATCA), AdvancedMC(AMC) and
MicroTCA(MTCA) standards
• Industrial Computing
– ADC (Automatics Data Capture) such as Bar code printers, Handheld scanners,
Rugged PDA and Mobile computers
– Industrial control, automatic manufacturing
• Medical
– Patient monitoring, Handheld ultrasound devices
• Military/Aerospace
– Military PDA, Airplane entertainment systems
• Misc
– POS, Surveillance, Kiosk, Automotive applications, Digital Signage

Embedded Applications

Embedded and Industrial Computing
Industrial Electronics
2008 SC TAM ~ 18.6 B$
Analog TAM ~ 6.0 B$
Embedded Processing TAM – 3.6 B$
Test & Measurement
(Lab and Field Test Equipment)
Automation & Drives
( HMI, PLC/PAC, Comm., Drives)
EPOS/Kiosks
(ECR, VM, Gaming/Ticket Kiosks)
Power & Energy
(Metering, Power Protection, Solar)
Transportation
(Electric Vehicles, Trains, Avionics)
Others
(Networked Displays, Signage)
Embedded Computing
Single Board Computers (SBC)
Medical
Telecom
Security
Source: SEMICAST Research 2009

Market Trends and Requirements
Industrial Electronics trends
• Migration from 8-bit to 32-bit architectures
• Ethernet connectivity everywhere
• Commercial Of The Shelf (COTS) Hardware
Source: Control Engineering
Industrial Processor Requirements
• Rich set of peripherals for connectivity
• High bandwidth peripherals (GigE, PCIe etc.)
• Serial LVDS and parallel display out
• 3.3V IO voltage
• Industrial Temperature (-40 to 85C)
• Long Product Lifecycle

Embedded Industrial Computing
Many Applications focused around HMI/UI
Electronic Cash Registers (ECR)
eServices/Ticketing Kiosk
Interactive Signage
Gaming Machines
SBC
Avionics Panels
Medical Panel (HMI)
Home Touch Panel (HMI)
Transportation Info Panels

Industrial Computing EE – Focus Applications
Automation
EPOS
Smart Displays
• Industrial Automation – PLC, PAC, HMI/Operator Interface
• Building Automation – Central Control Unit, HMI/UI Panels
• EPOS – Point of sale, Electronic Cash Registers, ATM
• Self Service – Ticketing, gaming and Vending Machines
• eServices – Information Kiosks,
• Networked Smart Displays – Projectors and monitors
• Media Adapters for digital signage
• Others – Structured Lighting, Personal Projectors

Embedded Processors Roadmap

Samples Now
In Production
„09 Samples
Future
Features Industrial Processors Roadmap
4 Processors
OMAP35x
OMAP35x
OMAP-L1x
2 Processors
Reduced System Cost
Higher Integration
Upto 600 MHz
2 Processors Reduced System Cost
Upto 1 GHz
High Performance ARM
Upto 600 MHz
Low Power Consumption
Floating-Point DSP
Upto 300 MHz
OMAP-L1x
OMAP37x
Higher Integration
Upto 300 MHz
3 Processors
Reduced System Cost
Higher Integration
upto 1 GHz
OMAP
Next
2-4 Processors
4-6 Processors
OMAP-L
Next
OMAP
Next
Industrial
Processors
Time
POWERVR SGX 3D engine is licensed from Imagination Tech. Ltd.

Performance
OMAP Catalog Roadmap
Device
Production
Sampling
In Development
Future
600 MHz ARM
Cortex-A8
OMAP3530
OMAP3525
OMAP3503 OMAP3515
600 MHz ARM
Cortex-A8
POWERVR SGX 3D
Graphics
600 MHz ARM®
Cortex -A8
C64x+ DSP
Video Accelerator
POWERVR SGX 3D
Graphics
600 MHz ARM
Cortex-A8
C64x+ DSP
Video Accelerator
DM64x
OMAP37x
Next
720 MHz ARM Cortex-A8,
target 1GHz+
C64x+ DSP
Video Accelerator
POWERVR SGX 3D
Graphics
“Drop in” compatible with
OMAP3503, 3515, 3525, &
3530
CBB package
Sample 4Q‟09
DM64x
OMAP3517
Next
DM64x
OMAP3505
Next
Time (not to scale)
DM64x
OMAP37x
Next
EMAC
USB PHY
3.3 V I/O
DDR2
CAN
POWERVR SGX 3D
Graphics
Sample 2Q‟09
EMAC
USB PHY
3.3 V I/O
DDR2
CAN
Sample 2Q‟09
OMAP Next
720 MHz ARM Cortex-A8,
target 1GHz+
C64x+ DSP
Video Accelerator
POWERVR SGX 3D
Graphics
“Drop in” compatible with
OMAP3503, 3515, 3525, &
3530 when using LPDDR -
TBD
DDR2 and DDR3
Emac (10/100)
CUS package
Sample 2Q‟10
POWERVR SGX 3D engine is licensed from Imagination Tech. Ltd.

OMAP35x for complete product portfolio
Production Now
Applications
Software
Compatibility
Shared
Peripheral
Set
2D/3D
Graphics
Compatibility
DSP
Processing
& Multimedia
Software
Compatibility
OMAP OMAP ARM
OMAP3515
OMAP3503 Cortex-A8 Peripherals
600 MHz
OMAP ARM
Graphics
OMAP3525 Cortex-A8 Peripherals
Open GL ES
600 MHz
2.0
OMAP ARM
C64x+ DSP
OMAP3530 Cortex-A8 Peripherals
& video
600 MHz
accelerator
ARM
Graphics C64x+ DSP
Cortex-A8 Peripherals
Open GL ES & video
2.0
600 MHz
accelerator
600 MHz
600 MHz
POWERVR SGX
OMAP
OMAP3503
OMAP ARM
OMAP3515 Cortex-A8 Peripherals
OMAP ARM
Graphics
OMAP3525 Cortex-A8 Peripherals
Open GL ES
2.0
ARM
C64x+ DSP
Cortex-A8 Peripherals
& video
accelerator
OMAP
OMAP3503
OMAP
OMAP3515
ARM
Cortex-A8 Peripherals
ARM
Graphics
Cortex-A8 Peripherals
600 MHz
600 MHz
OMAP
OMAP3503
ARM
Cortex-A8
600 MHz
Peripherals
POWERVR SGX
Open GL ES
2.0
POWERVR SGX
Pin-for-pin compatible
Availability subject to applicable lead times
POWERVR SGX 3D engine is licensed from Imagination Tech. Ltd.

OMAP3 Processors for Industrial Applications
Sampling Now
Applications
Software
Compatibility
Shared
Peripheral
Set
2D/3D
Graphics
Compatibility
DSP
Software
Compatibility
OMAP
OMAP3503
OMAP ARM
OMAP3515 Cortex-A8 Peripherals
600 MHz
OMAP ARM
Graphics
OMAP3525
Cortex-A8 Peripherals Open GL ES
600 MHz
2.0
OMAP ARM
C64x+ DSP
Next
Cortex-A8 Peripherals
& video
600 MHz
accelerator
ARM
Graphics C64x+ DSP
Cortex-A8 Peripherals Open GL ES & video
600+ MHz
2.0
accelerator
Sampling Now
OMAP
OMAP3503
OMAP ARM
OMAP3515
Cortex-A8 Peripherals
OMAP
OMAP3517
ARM
Graphics
Cortex-A8 Peripherals Open GL ES
2.0
ARM
Graphics
Cortex-A8 Peripherals Open GL ES
600 MHz
2.0
OMAP3503
600 MHz
OMAP OMAP
OMAP3505
ARM
ARM
Cortex-A8
Sampling Now
600 MHz
Cortex-A8
600 MHz
Peripherals
Peripherals
DDR2/3, GEMAC, CAN,
USB, PCIe
3.3V IO voltage
Typical Active Power < 2 W
DDR2, EMAC, CAN, USB
3.3V IO Voltage
Typical Active Power < 1 W
DDR2, EMAC, CAN, USB
3.3V IO Voltage
Typical Active Power < 1 W

OMAP35x processor
Laptop like performance at handheld power level
Performance
High-performance Superscalar ARM® Cortex-A8 featuring NEON
co-processor with immersive 2D/3D Graphics accelerator
HD video decode utilizing TMS320C64x+ DSP and video hardware
accelerators
Low power utilizing TI’s SmartReflex technology with option for integrated
and discrete Power Management ICs
Features
Cores
Cortex A-8 with NEON SIMD Coprocessor / DSP-based
TMS320C64x+ DSP and video accelerators (max performance only)
600 MHz / 430 MHz @ 1.35V (operating limits apply)
550 MHz / 400 MHz @ 1.27V
2D/3D Graphics Engine - Up to 10M polygons per second
Memory
ARM:
16 kB I-Cache; 16 kB D-Cache; 256kB L2
TMS320C64x+ DSP and video accelerators
L1 32kB Program Cache/32kB Data Cache + 48kB SRAM
L2 64kB Program / Data Cache + 32 kB SRAM; 16 kB ROM
On Chip: 64kB SRAM; 112kB ROM
Peripheral Highlights
Support for LPDDR
Support for NOR, NAND, SRAM, Pseudo SRAM
USB 2.0 HS Compliant OTG Controller w/ 2 additional USB Host
Controllers
Display subsystem with LCD and TV interface. Supports PIP, color
space conversion, resize and rotation.
Camera I/F with CCD controller and Image-pipe (Preview, Resize,
Statistics
Package 1 (CBB): 12x12 mm, 0.4mm pitch, Package On Package (POP); 515
pin PBGA; samples now; production 3/09; can be used with discrete memory
Package 2 (CUS): 16x16 mm 0.65 mm pitch. 423 pin PBGA; samples now;
production 4/09. Utilizes Via Channel Array Technology with 0.8mm pitch
plus design rules.
Package 3 (CBC): 14x14 mm, 0.5 mm pitch POP; 515 pin PBGA; samples
now; production 4/09; must use POP memory
Applications include:
Automotive Infotainment
In-dash navigation
Consumer
PND
PMP
Digital Video Camera
OMAP35x Processor
ARM ®
Cortex -
A8
CPU
Peripherals
Serial Interfaces
McBSP
x5
McSPI
x4
I 2 C
x3
UART
x2
UART
w/IRDA
C64x+ DSP and
video
accelerators
(3525/3530 only)
POWERVR
SGX Graphics
(3515/3530 only)
L3/L4 Interconnect
Connectivity
USB 2.0 HS
OTG
Controller
HDQ /
1-wire
Medical
Patient monitoring
Portable ultrasound
Industrial
Point of sale
Smart white goods
USB
Host
Controller x3
Display
Subsystem
System
Program/Data Storage
SDRC
GPMC
LCD
Controller
Camera I/F
Image
Pipe
Video 10 bit DAC
Enc 10 bit DAC
Timers
GP x12
WDT x2
MMC/
SD/
SDIO
x3
Parallel I/F
Note: Peripheral limitations may apply among different packages
POWERVR SGX 3D engine is licensed from Imagination Tech. Ltd.

OMAP 3 based hardware solutions (1 of 2)
OMAP35x EVM
4.25” x 7”
LogicPD OMAP35x Dev. Kit / Medical EVM
5.75” x 6.25”
Not to scale. Approximate size noted (in inches)
Beagle Board
3” x 3”
LogicPD OMAP34x Mobile Development Kit
3.8” x 6.3” x .95”
OMAP34x SDP
8.5” x 11”

OMAP 3 based hardware solutions (2 of 2)
Analogue & Micro Cobra 3530 OMAP3530 Module
3.7” x 2.5”
RealTime DSP ICETEK-OMAP3530-MINI
???” x ???”
Gumstix Overo Earth
2.3” x .67”
Magniel Inc. OMAP3530 board
1.5” x 2.3”

OMAP-L1x Processors for Industrial Applications
Samples
Available
NOW
3Q09
Samples
Pin for pin
Compatible
Applications
Software
Compatibility
ARM9
300 MHz
Shared
Peripheral
Set
DSP
Processing
OMAP-L137 C674x
Peripherals
300Mhz
OMAP-L107
C6403
OMAP-L138 C674x
ARM9
300 MHz
OMAP-L108 ARM9
300 MHz
Peripherals
Peripherals
300Mhz
SDRAM, EMAC, USB
Active Power < 500 mW
mDDR/DDR2, EMAC, USB,
SATA, UPP, VPIF
Active Power < 500 mW

OMAP-L138 Block Diagram

OMAP35x extended temperature and reliability
information
To avoid significant device degradation for commercial temperature OMAP35x devices (0° C ≤ Tj ≤ 90° C),
the device power-on hours (POH) must be limited to one of the following:
– 100K total POH when operating across all OPPs and keeping the time spent at OPP5 to less than
23K POH.
– 50K total POH when operating exclusively at OPP5.
– 44K total POH with no restrictions to the proportion of these POH at operating points OPP1 - OPP5.
To avoid significant device degradation for extended temperature OMAP35xA devices (-40° C ≤ Tj ≤
105° C), the following restrictions apply:
– OPP5 is not supported.*
– The total device POH must be limited to less than 50K.*
*If an extended temperature device is operated such that Tj never exceeds 90C (-40° C ≤ Tj ≤ 90° C)
then the OPP POH limits for commercial devices indicated above apply.
Note: Logic functions and parameter values are not assured out of the range specified in the recommended
operating conditions.
Tj = junction temperature
OPP = Operating Performance Point
Schedule for extended temperature devices is planned for two months post TMS

End Equipment Examples

Automatic Data Capture

Top 20 ADC Suppliers

ADC Applications

Programmable Logic Controller

Programmable Logic Controllers (PLC)
• PLC is a multi-disciplined controller capable of providing real-time logic, motion,
and process control, in addition to HMI and other functions on a single platform
• End Equipments include:
– Programmable Automation Controller (PAC)
– Programmable Logic Controller (PLC)
– Industrial Communication Switch
– Distributed Control Systems (DCS)
• Applications Requirements
– WinCE, Linux or VxWorks high level OS
– Full industrial communications support ( firmware and Protocol Stacks) for
• Field bus communications (RS485/CAN)
• Industrial Real Time Ethernet (RTE)
• Growing interest in 802.11g/n connectivity
• Potential TI Processor Fit
– OMAPL1x, OMAP3x

System Block Diagram – PLC

Programmable Logic Controller with HMI
Isolated
Current
Measurement
IGBT
drivers
CoDeSys:
IEC 61131-3
softPLC
softMotion
Visualization
---------------
RT LINUX
2.6.28+
OMAP L137
Motion Control
C674x DSP
3x ePWM
2x eQEP
3x eCAP
Isolated current
Application -
softPLC
ARM9
L1P/D 16k/16k
MMU
128K RAM
HMI / Monitor
LCD Controller
Touchscreen
GPIOs
Communication
GSM Interface
RT Ethernet with
RT ETH SWITCH
CAN i/f
RS485
GSM
Module
LAN931x
Industrial
Ethernet
Switch
CAN
Controller
Profibus
RS485
Standards:
IEC 61131-3
SIL-2/3
RT-EThernet
PLC

Electronic POS Kiosk

Electronic Point of Service (ePOS)
• Applications include:
– Cash Register, Self Service Kiosk, Gaming Terminals, Ticketing
Machines, Vending Machines and ATM
• Applications Requirements
– Windows with .NET support
– Linux with JAVA
– IP network connectivity (Wired and Wireless)
– Touch screen support
– Support Security features (PCI DSS and EMV 4.1) for integrated
financial equipment
– Latest trend is to integrated advertising into cash register facing
consumers (Media player support with graphics blending is a plus)
• Potential TI Processor Fit
– DM3xx, OMAPL1x, OMAP3x

System Block Diagram – Ticketing Kiosk
Card
Reader
ESD
Protection
WLAN
Bluetooth
GPS
PoE
Data
Control
10/ 100
MAC &PHY
SPI
McBSP
SDIO
UART
I 2 C
EMIF
Clock
NAND Flash
SDR/ LPDDR
RAM
EMIF EMIF
OMAP35xx
ARM Cortex-A8
2D/ 3D Graphics
Accelerator
Shared Memory Control
DMA
UART
RS232
Boot/ Secure ROM
System
Power
Hard Drive
CE -ATA
Low Noise
Analog
Display
Controller
VideoDAC
S-Video
Main Power Supply
McASP
USB2.0
HS USB
In/Out
OTG Transceiver
USB
Protection
I2C
Power
Manager
LED
SPI
AC/DC
Supply
Power Management
Audio/ Video
Codec
Keypad
Touch Screen
Control
Monitor
Speakers

Digital Signage

Digital Signage – Overview
DIGITAL SIGNAGE refers to the use of digital media
technology to display streaming media, still images,
scrolling text and graphics on one or more displays in
locations frequented by the general public or specific
groups.
Application Requirements
• Media/Flash player
• Browser with server interface support
• MPEG1/2/4, VC1 and H.264 HD Decode
• Graphics overlay and blending
• Support for scrolling text
• IP TV support (in some instances)
• Screen split (frames) and orientation
• Media storage
• Stereo Audio Out
• Multi Display Connectivity
• Wireless and Wired connectivity to IP network
• MMC/SD and USB interfaces for local control
Emerging Trends
• Video Analytics like Audience measurement using
cameras and DSP
• Interactive signage with touch screen, RFID

Digital Signage using
Projectors, LCD TV or Monitors
Reference Design
Smart Projector
Smart TV
Smart Display
Digital Signage
• HD decode
• Stereo Audio
• 2D/3D Graphics
• Wireless Networking
Digital Signage Player can be an independent box connected to
display or can be integrated as part of the Projector, TV or Display

System Block Diagram – Digital Signage
GSM/EDGE
3G
WLAN
Bluetooth
PoE
Data
Control
10/ 100
MAC &PHY
SPI
McBSP
SDIO
UART
SDIO
EMIF
Clock
IrDA
NAND Flash
DDR/ DDR2
RAM
EMIF EMIF
OMAP3530
ARM Cortex-A8
2D/ 3D Graphics
Accelerator
C64x+ DSP
Imaging, Video& audio
Shared Memory Control
DMA
UART
RS232
Boot/ Secure ROM
System
Power
CE -ATA
Low Noise
Analog
Main Power Supply
Touch
Screen
Control
SPI
Display
Controller
VideoDAC
S-Video
McASP
USB2.0
OTG
AC/DC
Supply
Monitor
Power Management
Audio/ Video
Codec
HS USB
Transceiver
Power
Manager
Keypad
Battery
Charger
Video output to Monitor
OR HD Display
HD Display
In/Out
USB
Protection
LED
Microphone
Speakers

TI Provides a Complete Ecosystem…
…That Fits Well Together
Power
Industrial
Analog
Development Boards
Third
Parties
Compilers &
Debuggers
Operating Systems

OMAP Devices Enable the Next Generation of Automation
Next gen automation
product requires:
Scalable Performance
and User Experience
Improved algorithms
Improved connectivity
Greater system
design flexibility
Experienced and
Reliable partner
OMAP offers:
• Cortex A8 core at 600MHz for fast response time.
• 3D engine and OSD module for advance GUI functions.
• Additional processing power for gesture base commands, speech recognition
and text to speech (DSP, Neon…).
• Many peripheral Interfaces supported for sensors and input devices (EMAC,
CAN, USB, PWM, PRU).
• Support for fieldbus communications
• Higher ARM MIPS to reduce response time and improve safety.
• Execution of complex algorithms using the DSP and TI experience.
• Integrated DSP core to run advanced process analytics or other industrial
oriented algorithms. No need for external components.
• Pin to pin and fully SW compatible devices to enable various end equipment
using common development effort.
• TI has the broadest range of products within industrial electronics space
within electronic space.
• TI has been in business for more than 75 years and has the people,
technology and financial strength to be a reliable supplier.
• TI has a local presence worldwide and is opening new sales and support
offices to be even closer to its customers.

Texas Instruments Incorporated