The OSD335x Complete System-in-Package (C-SiP™) integrates everything that is needed to build an embedded processing system into a single package. It includes the TI Sitara™ ARM® Cortex®-A8 AM335x processor, DDR3 memory, TPS65217C PMIC, TL5209 LDO, 4KB of EEPROM, Embedded Multimedia Card (eMMC) non-volatile storage, a MEMS Oscillator, and all the needed passives into a single BGA package. At 27mm X 27mm, it is almost 50% smaller than an equivalent system made of discrete components.
The OSD335x C-SiP™ significantly reduces the effort required to design an embedded system. Don’t worry about DDR, Power Sequencing, Flash, or Oscillators, just connect power and your peripherals to the OSD335x C-SiP. That’s It.
The OSD335x C-SiP also simplifies your sourcing and supply chain. Over 100 components are integrated into one meaning you don’t have to find sources for DDR, eMMC, or capacitors. We take care of that for you.
The OSD335x C-SiP is the perfect solution for the designer that is looking for the fastest way to complete their ARM Cortex®-A based system.
Additional Variants:
OSD335x – Same functionality with NO EEPROM, eMMC, or MEMS Oscillator Integrated.
OSD335x-SM – Same functionality in a smaller package and NO eMMC or MEMS Oscillator.
|
Product Number | Description | Price | Order From |
---|---|---|---|
OSD3358-512M-BCB | System-In-Package - AM3358, 512MB DDR3L, 4KB EEPROM, 4GB eMMC, 24MHz MEMS Oscillator, TPS65217C, TL5209, Passives - 27mm X 27mm, 400 Ball BGA, 0°C to 85°C | Contact Sales | Digi-Key Mouser Arrow Avnet Request a Quote |
OSD3358-512M-ICB | System-In-Package - AM3358, 512MB DDR3L, 4KB EEPROM, 4GB eMMC, 24MHz MEMS Oscillator, TPS65217C, TL5209, Passives - 27mm X 27mm, 400 Ball BGA, -40°C to 85°C | Contact Sales | Digi-Key Mouser Arrow Avnet Request a Quote |
The Octavo Systems OSD3358-SM-RED platform is the official Reference, Evaluation, and Development board for the OSD335x C-SiP and OSD335x-SM families of devices. It has many common interfaces and sensors. It also has a pair of expansion headers that are compatible with common community supported open source boards. This provides a platform to quickly prototype different applications.
The OSD3358-SM-RED is built using the OSD335x-SM System-in-Package. It is completely software compatible with the OSD335x C-SiP.
All of the design resources and software are opensource making it an ideal known good starting point for new designs. A set of schematics and layout files are available using the OSD335x C-SiP so it can also be used as a starting point for hardware development.
To make designing with Octavo Systems devices easier, a number of schematic symbol libraries have been provided below. There are options for a variety of schematic capture and layout programs. Please choose the one that best suits your needs.
Looking for symbols for a different CAD tool or 3D models? Visit SnapEDA for an extensive collection of symbols and foot prints for different CAD programs as well as 3D Step models. (Please make sure you select the correct version of the OSD335x family in the selector box in the top left corner.)
Provided below is a copy of the DDR3 calibration program that is provided from Texas Instruments. It has been provided here for your convenience.
The Edge Computing Sensor Platform was developed as a small data collection and processing node that can be part of a larger Industrial IOT system. At only 3.5cm x 4cm the reference design features a host of sensors that can be read and analyzed right on the board. The included WiFi module allows the small battery powered board to communicate with a larger network. It can aggregate data from many smaller local nodes and transmit analyzed back up to the cloud saving valuable bandwidth in noisy or congested environments. The Edge Computing Sensor Platform Features :
|
The Building Automation System Controller reference design was developed as a flexible, multi-purpose freely programmable embedded system that can be found in a variety of HVAC, lighting, and security applications. Using the OSD3358-SM-RED as a starting point the design also features:
This design is a great starting point for anybody looking monitor and control a chiller, boiler, pumps, valves, fans, lights, indoor air quality, or electric metering, occupancy detection, and access control for industrial applications. This reference design was designed as part of a 4 part series on Building Automation Controllers, developed by a Senior Controls Engineer, Calvin Slater.
The Dead Bug Linux computer was developed to demonstrate how simple it is to build a 1GHz Linux PC. The design uses an OSD3358 C-SiP with only a hand full of wires, 10 resistors, and 4 LEDs to create the computer. There is no need for a Printed Circuit Board. This design uses a USB port to communicate to other devices and serves up a shell interface to run commands and flash the LEDs. You can read more about the development of this reference in our Blog.