TMDXIPCAM8127J3

Multi-megapixel reference designs for video surveillance IP camera solutions enable quick product development at analog camera price points Provided with TI’s technology, several multiple highlyoptimized reference designs based on DaVinci™ video processors are offered for the IP camera market that ­enable developers to speed through the design process as well as reducing overall bill of materials (BOM) costs. Included at no additional cost: • Complete schematics • Gerber files Application layer User space Customer value-added differentiation Input/Output APIs Kernel space • Integrated drivers • Input/output for camera, network, storage, alarm, User etc. space Digital Media APIs or OpenMax APIs These reference designs: • Reduce development time by 90 percent • Deliver higher quality, full HD video at >60 fps • Decrease electronic bill of materials • Empower customers to bring sub-$100 HD IP cameras to the market • Provide integrated auto white balance and auto exposure • Provide software framework including input/output and media APIs, Codec Engine • Support for select Sony, Aptina, Panasonic, Altasens and Omnivision image sensors including drivers, camera module schematics and layout • Complete Linux™-based IP camera application including free source code • Royalty-free and production-ready codec • ONVIF/PSIA standard support Signal processing layer • • • • • • • • • • • Codecs (SVC, H.264, MPEG-4, MJPEG) Codec Engine Noise filtering Auto exposure Auto white balance Noise filtering Dynamic range enhancement Video stabilization Face detection/recognition Encryption Etc. TMS320DMxx-based IP Camera reference design software Multiple IP camera reference designs available based on TI technology • Up to 10-Megapixel IPCamera Reference Design (TMDSIPCAM385M34, TMDSIPCAM8127J3): Single platform solution provides SVCT / H.264 4M 30 fps + SVCT / H.264 D1 30 fps. Up to 750-MHz DSP on DM8127 processor for analytics • Smart Analytics IP Camera Reference Design (DMVA2IPNC-MT5): Single-platform solution provides SVCT / H.264 720p 30 fps + SVCT / H.264 CIF 30 fps + smart analytics or 1080p at lower fps • DM36x IP Camera Reference Design (DM368IPNC-MT5, DM365IPNC-MT5): Singleplatform solution provides up to full HD (1080p30) SVCT / H.264 30 fps encode with secondary channel • DM369 IPCamera Reference Design (TMDSIPCAM369X104): Single-platform solution brings best-in-class low-light performance together with 720p30 SVCT / H.264 compression. Support for up to 1080p30 video compression performance Order via www.ti.com/ipcamera DM369 IP camera reference design with best-in-class low-light technology @ U.S. $995 The DM369 IP camera reference design provides real-time Megapixel SVCT / H.264 compression together with TI’s third-generation noise filtering technology and can support 2 megapixels or higher resolution video along with advanced software for image signal-processing tuning, and encryption. Hardware features • T  I’s TMS320DM369 DaVinci™ video processor includes ARM926 @ 432 MHz and H.264 hardware video ­coprocessor, EMAC, RTC and integrated voice codec for BOM savings • Board size: 65×50-mm, low power (3W) • Power over Ethernet, audio, SD storage • ONVIF/PSIA compliant Software features • TI’s third-generation noise filtering technology • Encode up to H.264 high profile 720p at 30 fps together with noise filtering or 1080p at 30 fps. Higher megapixel resolutions supported at lower frame rates. • Triple stream per channel (H.264, MPEG-4, MJPEG) and simultaneous base/main/high-profile encoding • Ability to add video analytics with DaVinci ­TMS320DM643x DSP Auto Iris Power RTC Power TPS73001 TPS79301 TPS73001 TPS65053x Sensor Power System Power DC Regulator TPS5430 Microphone Voice Codec I2 C Sensor MT9P031 SN74ALVC164245 VCA Coprocessor Interface DDR RTC EMAC DM369 UART TMDSIPCAM369X104 IP Camera Reference Design available from Appro Photoelectron Inc. PHY Component Video Out OPA2357 USB Video DAC SDIO Composite Video Out OPA2357 SN65HVD11 SD Card LM258 Auto Iris Control IP camera reference design block diagram: TMDSIPCAM369X104 Low-light scenes without noise filter www.ti.com/ipcamera PoE Regulator NAND Flash AEMIF ISIF SPI GPIO/INT USB UART/Alarm TPS23753 DDR SDRAM Speaker Out Corresponding low-light scenes after TI’s third-generation noise filter DM385 IP camera reference design with H.264 high profile 4MP at 30 fps @ U.S. $995 The DM385 IP camera reference design provides real-time 4 megapixel video, with support for 5, 6, 8, 10 and higher megapixel resolution video, advanced software for image signal processing tuning, and encryption. Hardware features • D  M385 DaVinci™ video processor includes ARM® Cortex™-A8, SVCT / H.264 / MJPEG video coprocessor, Gigabit EMAC, PCIe for BOM savings • Power over Ethernet, audio, SD storage, along with WiFi™ and GPS extensibility • T  riple stream per channel (SVCT, H.264, MPEG-4, MJPEG) • Software framework includes input/output and media APIs, Codec Engine • Advanced features like face detection, video stabilization, fish eye correction 5V DC LM27313 12V DC 3× TPS5432 TPS54339 TPS63036 TPS23753A Lens Power Core/ARM/1V8 Power 3V3 Power 5V PoE Internal Rails Software features • TI’s third-generation noise filtering engine • Encode up to SVCT, H.264 high profile or MJPEG 4-megapixel video at 30 fps or 1080p at 60 fps with secondary D1 channel at 30 fps Microphone BQ24170 Battery Voltage Li-Ion Battery Power PHY NAND FLASH AIC GMAC GPMC McASP RTC I2C Sensor LVDS324 (optional) Sensor Board ISS DM385 EMIF0 CSI2 DSS GPIO/INT UART Speaker Out USB DDR3 SDRAM HDMI Protection HDMI Video Out Video Amp Composite Video Out SDIO UART/Alarm RS-485 XCVR USB T MDSIPCAM385M34 Camera Reference Design available from Appro Photoelectron Inc. SD Card Auto Iris Control DM385 IP camera reference design block diagram: TMDSIPCAM385M34 DMVA2 IP camera reference design with integrated smart video analytics @ U.S. $895 The DMVA2 IP camera reference design provides entrylevel analytics including people counting, trip zone, intelligent motion detection, face detection and privacy masking, camera tamper detection, and streaming metadata. Hardware features • TMS320DMVA2 DaVinci video processor includes ARM926, vision coprocessor, H.264 video coprocessor, EMAC, RTC and integrated voice codec for BOM savings • Board size: 65×50mm • Power over Ethernet, audio, SD storage • Encode up to H.264 high profile. Level 3.1 720p at 30 fps or 1080p at 10 fps including MPEG-4 and MJPEG support • TI’s second-generation advanced graphical user ­interface • Ability to add additional video analytics with DaVinci TMS320DM643x DSP Software features • Smart analytics GUI for setup, control and management of each application  MVA2IPNC-MT5 IP Camera Reference Design D available from Appro Photoelectron Inc. DMVA2 IP camera reference design block diagram: DMVA2IPNC-MT5 www.ti.com/ipcamera DM365/DM368 IP camera reference design with H.264 high profile 1080p at 30 fps @ U.S. $795/U.S. $995 The DM368 IP camera reference design provides full HD video with 30 percent boost in host processing performance, a ­ dvanced software for image signal processing tuning, and encryption. Offers scalable, lower cost solution with pin-to-pin compatible DM365 processor Hardware features • TI’s TMS320DM368 DaVinci™ video processor ­includes ARM926 @ 486 MHz and H.264 hardware video coprocessor, EMAC, RTC and integrated voice codec for BOM savings • Board size: 65×50-mm, low power (3W) • Power over Ethernet, audio, SD storage • ONVIF/PSIA compliant  M368IPNC-MT5 IP Camera Reference Design D available from Appro Photoelectron Inc. Software features • TI’s second-generation advanced graphical user interface • Encode up to H.264 high profile 1080p at 30 fps or 720p at 60 fps; MPEG-4 up to 720p at 60 fps; MJPEG at 5 megapixels at 15 fps • Triple stream per channel (H.264, MPEG-4, MJPEG) • Ability to add video analytics with DaVinci DM643x DSP IP camera reference design block diagram: DM368IPNC-MT5 DM8127 IP camera reference design with on-chip DSP video analytics @ U.S. $995 The DM8127 IP camera reference design provides multi-megapixel video with 4× boost in host processing ­performance, built-in video analytics capability, advanced software for image signal processing tuning and encryption. Hardware features • DM8127 DaVinci™ video processor includes ARM® Cortex™-A8, C674x DSP, SVCT/H.264/MJPEG video coprocessor, Gigabit EMAC, PCIe for BOM savings • Board size: 100×60 mm • Power over Ethernet, audio, SD storage, along with WiFi™ and GPS extensibility Software features • TI’s third-generation advanced graphical user interface • Encode up to SVCT, H.264 high profile or MJPEG 4-megapixel video at 30 fps or 1080p at 60 fps with secondary D1 channel at 30 fps • Triple stream per channel (SVCT, H.264, MPEG-4, MJPEG) • Software framework includes input/output and media APIs, Codec Engine • Onboard C674x DSP for analytics 5V DC LM27313 12V DC Lens Power 3× TPS5432 TPS54339 Core/ARM/1V8 Power TPS63036 TPS23753A 3V3 Power 5V PoE Internal Rails Microphone BQ24170 Battery Voltage Li-Ion Battery Power PHY NAND FLASH GMAC GPMC AIC McASP RTC I2 C T MDXIPCAM8127J3 IP Camera Reference Design available from Appro Photoelectron Inc. Sensor LVDS324 (optional) Sensor Board ISS UART The platform bar and DaVinci are trademarks of Texas Instruments. All other trademarks are the property of their respective owners. © 2013 Texas Instruments Incorporated Printed in U.S.A. by (Printer, City, State) www.ti.com/ipcamera DM8127 EMIF0 DDR3 SDRAM EMIF1 DDR3 SDRAM CSI2 DSS GPIO/INT USB Speaker Out HDMI Protection HDMI Video Out Video Amp Composite Video Out SDIO UART/Alarm RS-485 XCVR USB SD Card Auto Iris Control DM8127 IP camera reference design block diagram: TMDXIPCAM8127J3 SPRT585A IMPORTANT NOTICE Texas Instruments Incorporated and its subsidiaries (TI) reserve the right to make corrections, enhancements, improvements and other changes to its semiconductor products and services per JESD46, latest issue, and to discontinue any product or service per JESD48, latest issue. Buyers should obtain the latest relevant information before placing orders and should verify that such information is current and complete. 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