OMAP For Industrial Applications - Texas Instruments
OMAP For Industrial Applications - Texas Instruments
OMAP For Industrial Applications - Texas Instruments
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<strong>OMAP</strong> for <strong>Industrial</strong><br />
<strong>Applications</strong><br />
Anderson Hsiao<br />
<strong>OMAP</strong>35x Business Development Manager<br />
<strong>Texas</strong> <strong>Instruments</strong>
Embedded Computing<br />
• An embedded system is a special-purpose computer system designed to perform one or<br />
a few dedicated functions, often with real-time computing constraints – WIKIPEDIA<br />
• Embedded Processing includes both Embedded Control and Embedded Compute<br />
applications. The focus here is on Embedded Computing!<br />
• The different types of embedded computing boards standards are<br />
– PICMG standard boards (PCI, PCIe, cPCI, ATCA, AMC, uTCA, COMexpress etc.)<br />
– VITA Standard boards (PMC, VME, XMC, VXS, VPX etc.)<br />
– PC 104 consortium (PC104, PC104express, EBX, EPIC etc.)<br />
– Intel Architecture Motherboards (ATX, ITX, mini ITX, Pico ITX, Nano ITX etc.)<br />
– Computer On Module (ETX, COM, COMexpress)<br />
• Most RISC processor (like <strong>OMAP</strong> ARM) based computing modules use the COM or<br />
SOM (System On Module) form factor. There is no specific standard established for the<br />
SOM today.
Embedded <strong>Applications</strong><br />
• Communication<br />
– Communication equipments with AdvancedTCA(ATCA), AdvancedMC(AMC) and<br />
MicroTCA(MTCA) standards<br />
• <strong>Industrial</strong> Computing<br />
– ADC (Automatics Data Capture) such as Bar code printers, Handheld scanners,<br />
Rugged PDA and Mobile computers<br />
– <strong>Industrial</strong> control, automatic manufacturing<br />
• Medical<br />
– Patient monitoring, Handheld ultrasound devices<br />
• Military/Aerospace<br />
– Military PDA, Airplane entertainment systems<br />
• Misc<br />
– POS, Surveillance, Kiosk, Automotive applications, Digital Signage
Embedded <strong>Applications</strong>
Embedded and <strong>Industrial</strong> Computing<br />
<strong>Industrial</strong> Electronics<br />
2008 SC TAM ~ 18.6 B$<br />
Analog TAM ~ 6.0 B$<br />
Embedded Processing TAM – 3.6 B$<br />
Test & Measurement<br />
(Lab and Field Test Equipment)<br />
Automation & Drives<br />
( HMI, PLC/PAC, Comm., Drives)<br />
EPOS/Kiosks<br />
(ECR, VM, Gaming/Ticket Kiosks)<br />
Power & Energy<br />
(Metering, Power Protection, Solar)<br />
Transportation<br />
(Electric Vehicles, Trains, Avionics)<br />
Others<br />
(Networked Displays, Signage)<br />
Embedded Computing<br />
Single Board Computers (SBC)<br />
Medical<br />
Telecom<br />
Security<br />
Source: SEMICAST Research 2009
Market Trends and Requirements<br />
<strong>Industrial</strong> Electronics trends<br />
• Migration from 8-bit to 32-bit architectures<br />
• Ethernet connectivity everywhere<br />
• Commercial Of The Shelf (COTS) Hardware<br />
Source: Control Engineering<br />
<strong>Industrial</strong> Processor Requirements<br />
• Rich set of peripherals for connectivity<br />
• High bandwidth peripherals (GigE, PCIe etc.)<br />
• Serial LVDS and parallel display out<br />
• 3.3V IO voltage<br />
• <strong>Industrial</strong> Temperature (-40 to 85C)<br />
• Long Product Lifecycle
Embedded <strong>Industrial</strong> Computing<br />
Many <strong>Applications</strong> focused around HMI/UI<br />
Electronic Cash Registers (ECR)<br />
eServices/Ticketing Kiosk<br />
Interactive Signage<br />
Gaming Machines<br />
SBC<br />
Avionics Panels<br />
Medical Panel (HMI)<br />
Home Touch Panel (HMI)<br />
Transportation Info Panels
<strong>Industrial</strong> Computing EE – Focus <strong>Applications</strong><br />
Automation<br />
EPOS<br />
Smart Displays<br />
• <strong>Industrial</strong> Automation – PLC, PAC, HMI/Operator Interface<br />
• Building Automation – Central Control Unit, HMI/UI Panels<br />
• EPOS – Point of sale, Electronic Cash Registers, ATM<br />
• Self Service – Ticketing, gaming and Vending Machines<br />
• eServices – Information Kiosks,<br />
• Networked Smart Displays – Projectors and monitors<br />
• Media Adapters for digital signage<br />
• Others – Structured Lighting, Personal Projectors
Embedded Processors Roadmap
Samples Now<br />
In Production<br />
„09 Samples<br />
Future<br />
Features <strong>Industrial</strong> Processors Roadmap<br />
4 Processors<br />
<strong>OMAP</strong>35x<br />
<strong>OMAP</strong>35x<br />
<strong>OMAP</strong>-L1x<br />
2 Processors<br />
Reduced System Cost<br />
Higher Integration<br />
Upto 600 MHz<br />
2 Processors Reduced System Cost<br />
Upto 1 GHz<br />
High Performance ARM<br />
Upto 600 MHz<br />
Low Power Consumption<br />
Floating-Point DSP<br />
Upto 300 MHz<br />
<strong>OMAP</strong>-L1x<br />
<strong>OMAP</strong>37x<br />
Higher Integration<br />
Upto 300 MHz<br />
3 Processors<br />
Reduced System Cost<br />
Higher Integration<br />
upto 1 GHz<br />
<strong>OMAP</strong><br />
Next<br />
2-4 Processors<br />
4-6 Processors<br />
<strong>OMAP</strong>-L<br />
Next<br />
<strong>OMAP</strong><br />
Next<br />
<strong>Industrial</strong><br />
Processors<br />
Time<br />
POWERVR SGX 3D engine is licensed from Imagination Tech. Ltd.
Performance<br />
<strong>OMAP</strong> Catalog Roadmap<br />
Device<br />
Production<br />
Sampling<br />
In Development<br />
Future<br />
600 MHz ARM<br />
Cortex-A8<br />
<strong>OMAP</strong>3530<br />
<strong>OMAP</strong>3525<br />
<strong>OMAP</strong>3503 <strong>OMAP</strong>3515<br />
600 MHz ARM<br />
Cortex-A8<br />
POWERVR SGX 3D<br />
Graphics<br />
600 MHz ARM®<br />
Cortex -A8<br />
C64x+ DSP<br />
Video Accelerator<br />
POWERVR SGX 3D<br />
Graphics<br />
600 MHz ARM<br />
Cortex-A8<br />
C64x+ DSP<br />
Video Accelerator<br />
DM64x<br />
<strong>OMAP</strong>37x<br />
Next<br />
720 MHz ARM Cortex-A8,<br />
target 1GHz+<br />
C64x+ DSP<br />
Video Accelerator<br />
POWERVR SGX 3D<br />
Graphics<br />
“Drop in” compatible with<br />
<strong>OMAP</strong>3503, 3515, 3525, &<br />
3530<br />
CBB package<br />
Sample 4Q‟09<br />
DM64x<br />
<strong>OMAP</strong>3517<br />
Next<br />
DM64x<br />
<strong>OMAP</strong>3505<br />
Next<br />
Time (not to scale)<br />
DM64x<br />
<strong>OMAP</strong>37x<br />
Next<br />
EMAC<br />
USB PHY<br />
3.3 V I/O<br />
DDR2<br />
CAN<br />
POWERVR SGX 3D<br />
Graphics<br />
Sample 2Q‟09<br />
EMAC<br />
USB PHY<br />
3.3 V I/O<br />
DDR2<br />
CAN<br />
Sample 2Q‟09<br />
<strong>OMAP</strong> Next<br />
720 MHz ARM Cortex-A8,<br />
target 1GHz+<br />
C64x+ DSP<br />
Video Accelerator<br />
POWERVR SGX 3D<br />
Graphics<br />
“Drop in” compatible with<br />
<strong>OMAP</strong>3503, 3515, 3525, &<br />
3530 when using LPDDR -<br />
TBD<br />
DDR2 and DDR3<br />
Emac (10/100)<br />
CUS package<br />
Sample 2Q‟10<br />
POWERVR SGX 3D engine is licensed from Imagination Tech. Ltd.
<strong>OMAP</strong>35x for complete product portfolio<br />
Production Now<br />
<strong>Applications</strong><br />
Software<br />
Compatibility<br />
Shared<br />
Peripheral<br />
Set<br />
2D/3D<br />
Graphics<br />
Compatibility<br />
DSP<br />
Processing<br />
& Multimedia<br />
Software<br />
Compatibility<br />
<strong>OMAP</strong> <strong>OMAP</strong> ARM<br />
<strong>OMAP</strong>3515<br />
<strong>OMAP</strong>3503 Cortex-A8 Peripherals<br />
600 MHz<br />
<strong>OMAP</strong> ARM<br />
Graphics<br />
<strong>OMAP</strong>3525 Cortex-A8 Peripherals<br />
Open GL ES<br />
600 MHz<br />
2.0<br />
<strong>OMAP</strong> ARM<br />
C64x+ DSP<br />
<strong>OMAP</strong>3530 Cortex-A8 Peripherals<br />
& video<br />
600 MHz<br />
accelerator<br />
<br />
ARM<br />
Graphics C64x+ DSP<br />
Cortex-A8 Peripherals<br />
Open GL ES & video<br />
2.0<br />
600 MHz<br />
accelerator<br />
600 MHz<br />
600 MHz<br />
POWERVR SGX<br />
<strong>OMAP</strong><br />
<strong>OMAP</strong>3503<br />
<strong>OMAP</strong> ARM<br />
<strong>OMAP</strong>3515 Cortex-A8 Peripherals<br />
<strong>OMAP</strong> ARM<br />
Graphics<br />
<strong>OMAP</strong>3525 Cortex-A8 Peripherals<br />
Open GL ES<br />
2.0<br />
ARM<br />
C64x+ DSP<br />
Cortex-A8 Peripherals<br />
& video<br />
accelerator<br />
<strong>OMAP</strong><br />
<strong>OMAP</strong>3503<br />
<strong>OMAP</strong><br />
<strong>OMAP</strong>3515<br />
ARM<br />
Cortex-A8 Peripherals<br />
ARM<br />
Graphics<br />
Cortex-A8 Peripherals<br />
600 MHz<br />
600 MHz<br />
<strong>OMAP</strong><br />
<strong>OMAP</strong>3503<br />
ARM<br />
Cortex-A8<br />
600 MHz<br />
Peripherals<br />
POWERVR SGX<br />
Open GL ES<br />
2.0<br />
POWERVR SGX<br />
Pin-for-pin compatible<br />
Availability subject to applicable lead times<br />
POWERVR SGX 3D engine is licensed from Imagination Tech. Ltd.
<strong>OMAP</strong>3 Processors for <strong>Industrial</strong> <strong>Applications</strong><br />
Sampling Now<br />
<strong>Applications</strong><br />
Software<br />
Compatibility<br />
Shared<br />
Peripheral<br />
Set<br />
2D/3D<br />
Graphics<br />
Compatibility<br />
DSP<br />
Software<br />
Compatibility<br />
<strong>OMAP</strong><br />
<strong>OMAP</strong>3503<br />
<strong>OMAP</strong> ARM<br />
<strong>OMAP</strong>3515 Cortex-A8 Peripherals<br />
600 MHz<br />
<strong>OMAP</strong> ARM<br />
Graphics<br />
<strong>OMAP</strong>3525<br />
Cortex-A8 Peripherals Open GL ES<br />
600 MHz<br />
2.0<br />
<strong>OMAP</strong> ARM<br />
C64x+ DSP<br />
Next<br />
Cortex-A8 Peripherals<br />
& video<br />
600 MHz<br />
accelerator<br />
ARM<br />
Graphics C64x+ DSP<br />
Cortex-A8 Peripherals Open GL ES & video<br />
600+ MHz<br />
2.0<br />
accelerator<br />
Sampling Now<br />
<strong>OMAP</strong><br />
<strong>OMAP</strong>3503<br />
<strong>OMAP</strong> ARM<br />
<strong>OMAP</strong>3515<br />
Cortex-A8 Peripherals<br />
<strong>OMAP</strong><br />
<strong>OMAP</strong>3517<br />
ARM<br />
Graphics<br />
Cortex-A8 Peripherals Open GL ES<br />
2.0<br />
ARM<br />
Graphics<br />
Cortex-A8 Peripherals Open GL ES<br />
600 MHz<br />
2.0<br />
<strong>OMAP</strong>3503<br />
600 MHz<br />
<strong>OMAP</strong> <strong>OMAP</strong><br />
<strong>OMAP</strong>3505<br />
ARM<br />
ARM<br />
Cortex-A8<br />
Sampling Now<br />
600 MHz<br />
Cortex-A8<br />
600 MHz<br />
Peripherals<br />
Peripherals<br />
DDR2/3, GEMAC, CAN,<br />
USB, PCIe<br />
3.3V IO voltage<br />
Typical Active Power < 2 W<br />
DDR2, EMAC, CAN, USB<br />
3.3V IO Voltage<br />
Typical Active Power < 1 W<br />
DDR2, EMAC, CAN, USB<br />
3.3V IO Voltage<br />
Typical Active Power < 1 W
<strong>OMAP</strong>35x processor<br />
Laptop like performance at handheld power level<br />
Performance<br />
High-performance Superscalar ARM® Cortex-A8 featuring NEON<br />
co-processor with immersive 2D/3D Graphics accelerator<br />
HD video decode utilizing TMS320C64x+ DSP and video hardware<br />
accelerators<br />
Low power utilizing TI’s SmartReflex technology with option for integrated<br />
and discrete Power Management ICs<br />
Features<br />
Cores<br />
Cortex A-8 with NEON SIMD Coprocessor / DSP-based<br />
TMS320C64x+ DSP and video accelerators (max performance only)<br />
600 MHz / 430 MHz @ 1.35V (operating limits apply)<br />
550 MHz / 400 MHz @ 1.27V<br />
2D/3D Graphics Engine - Up to 10M polygons per second<br />
Memory<br />
ARM:<br />
16 kB I-Cache; 16 kB D-Cache; 256kB L2<br />
TMS320C64x+ DSP and video accelerators<br />
L1 32kB Program Cache/32kB Data Cache + 48kB SRAM<br />
L2 64kB Program / Data Cache + 32 kB SRAM; 16 kB ROM<br />
On Chip: 64kB SRAM; 112kB ROM<br />
Peripheral Highlights<br />
Support for LPDDR<br />
Support for NOR, NAND, SRAM, Pseudo SRAM<br />
USB 2.0 HS Compliant OTG Controller w/ 2 additional USB Host<br />
Controllers<br />
Display subsystem with LCD and TV interface. Supports PIP, color<br />
space conversion, resize and rotation.<br />
Camera I/F with CCD controller and Image-pipe (Preview, Resize,<br />
Statistics<br />
Package 1 (CBB): 12x12 mm, 0.4mm pitch, Package On Package (POP); 515<br />
pin PBGA; samples now; production 3/09; can be used with discrete memory<br />
Package 2 (CUS): 16x16 mm 0.65 mm pitch. 423 pin PBGA; samples now;<br />
production 4/09. Utilizes Via Channel Array Technology with 0.8mm pitch<br />
plus design rules.<br />
Package 3 (CBC): 14x14 mm, 0.5 mm pitch POP; 515 pin PBGA; samples<br />
now; production 4/09; must use POP memory<br />
<strong>Applications</strong> include:<br />
Automotive Infotainment<br />
In-dash navigation<br />
Consumer<br />
PND<br />
PMP<br />
Digital Video Camera<br />
<strong>OMAP</strong>35x Processor<br />
ARM ®<br />
Cortex -<br />
A8<br />
CPU<br />
Peripherals<br />
Serial Interfaces<br />
McBSP<br />
x5<br />
McSPI<br />
x4<br />
I 2 C<br />
x3<br />
UART<br />
x2<br />
UART<br />
w/IRDA<br />
C64x+ DSP and<br />
video<br />
accelerators<br />
(3525/3530 only)<br />
POWERVR<br />
SGX Graphics<br />
(3515/3530 only)<br />
L3/L4 Interconnect<br />
Connectivity<br />
USB 2.0 HS<br />
OTG<br />
Controller<br />
HDQ /<br />
1-wire<br />
Medical<br />
Patient monitoring<br />
Portable ultrasound<br />
<strong>Industrial</strong><br />
Point of sale<br />
Smart white goods<br />
USB<br />
Host<br />
Controller x3<br />
Display<br />
Subsystem<br />
System<br />
Program/Data Storage<br />
SDRC<br />
GPMC<br />
LCD<br />
Controller<br />
Camera I/F<br />
Image<br />
Pipe<br />
Video 10 bit DAC<br />
Enc 10 bit DAC<br />
Timers<br />
GP x12<br />
WDT x2<br />
MMC/<br />
SD/<br />
SDIO<br />
x3<br />
Parallel I/F<br />
Note: Peripheral limitations may apply among different packages<br />
POWERVR SGX 3D engine is licensed from Imagination Tech. Ltd.
<strong>OMAP</strong> 3 based hardware solutions (1 of 2)<br />
<strong>OMAP</strong>35x EVM<br />
4.25” x 7”<br />
LogicPD <strong>OMAP</strong>35x Dev. Kit / Medical EVM<br />
5.75” x 6.25”<br />
Not to scale. Approximate size noted (in inches)<br />
Beagle Board<br />
3” x 3”<br />
LogicPD <strong>OMAP</strong>34x Mobile Development Kit<br />
3.8” x 6.3” x .95”<br />
<strong>OMAP</strong>34x SDP<br />
8.5” x 11”
<strong>OMAP</strong> 3 based hardware solutions (2 of 2)<br />
Analogue & Micro Cobra 3530 <strong>OMAP</strong>3530 Module<br />
3.7” x 2.5”<br />
RealTime DSP ICETEK-<strong>OMAP</strong>3530-MINI<br />
???” x ???”<br />
Gumstix Overo Earth<br />
2.3” x .67”<br />
Magniel Inc. <strong>OMAP</strong>3530 board<br />
1.5” x 2.3”
<strong>OMAP</strong>-L1x Processors for <strong>Industrial</strong> <strong>Applications</strong><br />
Samples<br />
Available<br />
NOW<br />
3Q09<br />
Samples<br />
Pin for pin<br />
Compatible<br />
<strong>Applications</strong><br />
Software<br />
Compatibility<br />
ARM9<br />
300 MHz<br />
Shared<br />
Peripheral<br />
Set<br />
DSP<br />
Processing<br />
<strong>OMAP</strong>-L137 C674x<br />
Peripherals<br />
300Mhz<br />
<strong>OMAP</strong>-L107<br />
C6403<br />
<strong>OMAP</strong>-L138 C674x<br />
ARM9<br />
300 MHz<br />
<strong>OMAP</strong>-L108 ARM9<br />
300 MHz<br />
Peripherals<br />
Peripherals<br />
300Mhz<br />
SDRAM, EMAC, USB<br />
Active Power < 500 mW<br />
mDDR/DDR2, EMAC, USB,<br />
SATA, UPP, VPIF<br />
Active Power < 500 mW
<strong>OMAP</strong>-L138 Block Diagram
<strong>OMAP</strong>35x extended temperature and reliability<br />
information<br />
To avoid significant device degradation for commercial temperature <strong>OMAP</strong>35x devices (0° C ≤ Tj ≤ 90° C),<br />
the device power-on hours (POH) must be limited to one of the following:<br />
– 100K total POH when operating across all OPPs and keeping the time spent at OPP5 to less than<br />
23K POH.<br />
– 50K total POH when operating exclusively at OPP5.<br />
– 44K total POH with no restrictions to the proportion of these POH at operating points OPP1 - OPP5.<br />
To avoid significant device degradation for extended temperature <strong>OMAP</strong>35xA devices (-40° C ≤ Tj ≤<br />
105° C), the following restrictions apply:<br />
– OPP5 is not supported.*<br />
– The total device POH must be limited to less than 50K.*<br />
*If an extended temperature device is operated such that Tj never exceeds 90C (-40° C ≤ Tj ≤ 90° C)<br />
then the OPP POH limits for commercial devices indicated above apply.<br />
Note: Logic functions and parameter values are not assured out of the range specified in the recommended<br />
operating conditions.<br />
Tj = junction temperature<br />
OPP = Operating Performance Point<br />
Schedule for extended temperature devices is planned for two months post TMS
End Equipment Examples
Automatic Data Capture
Top 20 ADC Suppliers
ADC <strong>Applications</strong>
Programmable Logic Controller
Programmable Logic Controllers (PLC)<br />
• PLC is a multi-disciplined controller capable of providing real-time logic, motion,<br />
and process control, in addition to HMI and other functions on a single platform<br />
• End Equipments include:<br />
– Programmable Automation Controller (PAC)<br />
– Programmable Logic Controller (PLC)<br />
– <strong>Industrial</strong> Communication Switch<br />
– Distributed Control Systems (DCS)<br />
• <strong>Applications</strong> Requirements<br />
– WinCE, Linux or VxWorks high level OS<br />
– Full industrial communications support ( firmware and Protocol Stacks) for<br />
• Field bus communications (RS485/CAN)<br />
• <strong>Industrial</strong> Real Time Ethernet (RTE)<br />
• Growing interest in 802.11g/n connectivity<br />
• Potential TI Processor Fit<br />
– <strong>OMAP</strong>L1x, <strong>OMAP</strong>3x
System Block Diagram – PLC
Programmable Logic Controller with HMI<br />
Isolated<br />
Current<br />
Measurement<br />
IGBT<br />
drivers<br />
CoDeSys:<br />
IEC 61131-3<br />
softPLC<br />
softMotion<br />
Visualization<br />
---------------<br />
RT LINUX<br />
2.6.28+<br />
<strong>OMAP</strong> L137<br />
Motion Control<br />
C674x DSP<br />
3x ePWM<br />
2x eQEP<br />
3x eCAP<br />
Isolated current<br />
Application -<br />
softPLC<br />
ARM9<br />
L1P/D 16k/16k<br />
MMU<br />
128K RAM<br />
HMI / Monitor<br />
LCD Controller<br />
Touchscreen<br />
GPIOs<br />
Communication<br />
GSM Interface<br />
RT Ethernet with<br />
RT ETH SWITCH<br />
CAN i/f<br />
RS485<br />
GSM<br />
Module<br />
LAN931x<br />
<strong>Industrial</strong><br />
Ethernet<br />
Switch<br />
CAN<br />
Controller<br />
Profibus<br />
RS485<br />
Standards:<br />
IEC 61131-3<br />
SIL-2/3<br />
RT-EThernet<br />
PLC
Electronic POS Kiosk
Electronic Point of Service (ePOS)<br />
• <strong>Applications</strong> include:<br />
– Cash Register, Self Service Kiosk, Gaming Terminals, Ticketing<br />
Machines, Vending Machines and ATM<br />
• <strong>Applications</strong> Requirements<br />
– Windows with .NET support<br />
– Linux with JAVA<br />
– IP network connectivity (Wired and Wireless)<br />
– Touch screen support<br />
– Support Security features (PCI DSS and EMV 4.1) for integrated<br />
financial equipment<br />
– Latest trend is to integrated advertising into cash register facing<br />
consumers (Media player support with graphics blending is a plus)<br />
• Potential TI Processor Fit<br />
– DM3xx, <strong>OMAP</strong>L1x, <strong>OMAP</strong>3x
System Block Diagram – Ticketing Kiosk<br />
Card<br />
Reader<br />
ESD<br />
Protection<br />
WLAN<br />
Bluetooth<br />
GPS<br />
PoE<br />
Data<br />
Control<br />
10/ 100<br />
MAC &PHY<br />
SPI<br />
McBSP<br />
SDIO<br />
UART<br />
I 2 C<br />
EMIF<br />
Clock<br />
NAND Flash<br />
SDR/ LPDDR<br />
RAM<br />
EMIF EMIF<br />
<strong>OMAP</strong>35xx<br />
ARM Cortex-A8<br />
2D/ 3D Graphics<br />
Accelerator<br />
Shared Memory Control<br />
DMA<br />
UART<br />
RS232<br />
Boot/ Secure ROM<br />
System<br />
Power<br />
Hard Drive<br />
CE -ATA<br />
Low Noise<br />
Analog<br />
Display<br />
Controller<br />
VideoDAC<br />
S-Video<br />
Main Power Supply<br />
McASP<br />
USB2.0<br />
HS USB<br />
In/Out<br />
OTG Transceiver<br />
USB<br />
Protection<br />
I2C<br />
Power<br />
Manager<br />
LED<br />
SPI<br />
AC/DC<br />
Supply<br />
Power Management<br />
Audio/ Video<br />
Codec<br />
Keypad<br />
Touch Screen<br />
Control<br />
Monitor<br />
Speakers
Digital Signage
Digital Signage – Overview<br />
DIGITAL SIGNAGE refers to the use of digital media<br />
technology to display streaming media, still images,<br />
scrolling text and graphics on one or more displays in<br />
locations frequented by the general public or specific<br />
groups.<br />
Application Requirements<br />
• Media/Flash player<br />
• Browser with server interface support<br />
• MPEG1/2/4, VC1 and H.264 HD Decode<br />
• Graphics overlay and blending<br />
• Support for scrolling text<br />
• IP TV support (in some instances)<br />
• Screen split (frames) and orientation<br />
• Media storage<br />
• Stereo Audio Out<br />
• Multi Display Connectivity<br />
• Wireless and Wired connectivity to IP network<br />
• MMC/SD and USB interfaces for local control<br />
Emerging Trends<br />
• Video Analytics like Audience measurement using<br />
cameras and DSP<br />
• Interactive signage with touch screen, RFID
Digital Signage using<br />
Projectors, LCD TV or Monitors<br />
Reference Design<br />
Smart Projector<br />
Smart TV<br />
Smart Display<br />
Digital Signage<br />
• HD decode<br />
• Stereo Audio<br />
• 2D/3D Graphics<br />
• Wireless Networking<br />
Digital Signage Player can be an independent box connected to<br />
display or can be integrated as part of the Projector, TV or Display
System Block Diagram – Digital Signage<br />
GSM/EDGE<br />
3G<br />
WLAN<br />
Bluetooth<br />
PoE<br />
Data<br />
Control<br />
10/ 100<br />
MAC &PHY<br />
SPI<br />
McBSP<br />
SDIO<br />
UART<br />
SDIO<br />
EMIF<br />
Clock<br />
IrDA<br />
NAND Flash<br />
DDR/ DDR2<br />
RAM<br />
EMIF EMIF<br />
<strong>OMAP</strong>3530<br />
ARM Cortex-A8<br />
2D/ 3D Graphics<br />
Accelerator<br />
C64x+ DSP<br />
Imaging, Video& audio<br />
Shared Memory Control<br />
DMA<br />
UART<br />
RS232<br />
Boot/ Secure ROM<br />
System<br />
Power<br />
CE -ATA<br />
Low Noise<br />
Analog<br />
Main Power Supply<br />
Touch<br />
Screen<br />
Control<br />
SPI<br />
Display<br />
Controller<br />
VideoDAC<br />
S-Video<br />
McASP<br />
USB2.0<br />
OTG<br />
AC/DC<br />
Supply<br />
Monitor<br />
Power Management<br />
Audio/ Video<br />
Codec<br />
HS USB<br />
Transceiver<br />
Power<br />
Manager<br />
Keypad<br />
Battery<br />
Charger<br />
Video output to Monitor<br />
OR HD Display<br />
HD Display<br />
In/Out<br />
USB<br />
Protection<br />
LED<br />
Microphone<br />
Speakers
TI Provides a Complete Ecosystem…<br />
…That Fits Well Together<br />
Power<br />
<strong>Industrial</strong><br />
Analog<br />
Development Boards<br />
Third<br />
Parties<br />
Compilers &<br />
Debuggers<br />
Operating Systems
<strong>OMAP</strong> Devices Enable the Next Generation of Automation<br />
Next gen automation<br />
product requires:<br />
Scalable Performance<br />
and User Experience<br />
Improved algorithms<br />
Improved connectivity<br />
Greater system<br />
design flexibility<br />
Experienced and<br />
Reliable partner<br />
<strong>OMAP</strong> offers:<br />
• Cortex A8 core at 600MHz for fast response time.<br />
• 3D engine and OSD module for advance GUI functions.<br />
• Additional processing power for gesture base commands, speech recognition<br />
and text to speech (DSP, Neon…).<br />
• Many peripheral Interfaces supported for sensors and input devices (EMAC,<br />
CAN, USB, PWM, PRU).<br />
• Support for fieldbus communications<br />
• Higher ARM MIPS to reduce response time and improve safety.<br />
• Execution of complex algorithms using the DSP and TI experience.<br />
• Integrated DSP core to run advanced process analytics or other industrial<br />
oriented algorithms. No need for external components.<br />
• Pin to pin and fully SW compatible devices to enable various end equipment<br />
using common development effort.<br />
• TI has the broadest range of products within industrial electronics space<br />
within electronic space.<br />
• TI has been in business for more than 75 years and has the people,<br />
technology and financial strength to be a reliable supplier.<br />
• TI has a local presence worldwide and is opening new sales and support<br />
offices to be even closer to its customers.
<strong>Texas</strong> <strong>Instruments</strong> Incorporated