Phyboard zeta linux kit

System on Modules

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Overview

Comprehensive feature support – compact and cost efficient: The phyCORE pin-out offers the most comprehensive processor support with all processor signals supported at the connectors.

The advantage: You can use all processor features while taking advantage of the modular design. phyCORE lets you develop as if the processor was totally integrated into your design. Reoccurring components such as RAM or Flash are already integrated and all modules feature a compact design. PHYTEC also offers a suitable BSP for all phyCORE SOMs.

Product Families

Our SOMs are the solution to your high-quality, high-reliability, and long product life-cycle requirements. The families in the PHYTEC SOM portfolio span phyCORE, phyCARD, and phyFLEX. Each family offers unique advantages from comprehensive processor support, scalability, and flexibility. We don’t make the processors, we make them more applicable.

Added Value

Our SOMs are added to the Carrier Board like a «component» — PHYTEC develops the complex processor based products for you. PHYTEC SOMs incorporate essential circuitry common to all embedded applications. In this circuitry, a microprocessor interfaces with RAM, Flash memory, power management, LCD, Ethernet, USB and other commonly-used interfaces. all within a compact, robust, EMC design. By designing the SOM into your application you remove the challenge and risk of advanced microprocessor design, fine pitch BGA, high-speed routing, design verification, EMC conformance, and the significant effort of board bring-up and BSP development. Our SOMs are designed to plug into a carrier board that provides the I/O connectors as well as any other interface circuitry not provided on the module itself. You can then either design the carrier board yourself or let us do the work.

Hardware Specific BSPs

By using an off-the-shelf SOM and production-ready BSP, combined with PHYTEC integration and design services, you will eliminate many months from your development timeline. All PHYTEC SOMs are shipped with hardware-specific Board Support Packages (BSPs). Design your carrier board to support the SOM using our schematics as reference design, our BSPs to maximize your productivity, while leveraging our expert technical support.

Series Pricing

Pricing Transparency for your Project

Series price pricing transparency is important for us. PHYTEC states all prices in Euro. Pricing is based on a purchase quantity of 1.000 units per year. Pricing varies depending on order volume as well as module configuration.

Sample Pricing

PHYTEC sample prices include the entire development kit as well as accessories necessary for start-up. For example, the phyBOARD Wega AM3354 kit includes the SBC plus a HDMI adapter, power adapter, cable and a PHYTEC QuickStart Guide.

PHYTEC sponsors these kits to give you the opportunity to get to know our products without making a big monetary commitment.

phyBOARD series prices are in no way dependent on sample prices since purchase quantities for the latter are limited.

Temperature Grade

PHYTEC designs all SOMs for use in three different operating temperature ranges. We are therefore able to offer cost-optimized SOMs for varies applications. When designing the component layout we take the component manufacturer temperature qualification levels into account. We are happy to assist you in finding the optimal variant for your solution.
The correct SOM operating temperature depends on the use case of your software application. Modern, powerful processor and other active active parts are usually rated by qualifications based on tolerable junction or case temperatures. Therefore, making a general statement about maximum or minimum ambient temperature ratings for the described SOM is not possible. Manufacturers provide the above mentioned parts in different temperature qualifications levels. We offer our SOMs in different configurations making use of those temperature qualification levels. To indicate which level of active and passive part temperature qualification is used for a SOM configuration we have categorized our SOMs in three temperature grades. The table below describes these grades in detail. These grades are a combination of components, which in combination add up to a sensible temperature range. We can then make use of cost optimizations resulting from the qualification levels of each component.

In order to determine the correct temperature grade and whether the maximum and minimum qualification levels are met, the following criteria must met:

• Determined software use case
• Maximum component temperature range (see table below)
• Power consumption (results mainly from required calculating power)
• Required calculating power (consider time period for system to cool down)
• Surrounding temperatures and existing airflow in case the system is mounted into a housing
• Heat resistance of the heat dissipation paths within the system
• Consider usage of heatspreader or heatsink to optimize heat dissipation

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Phyboard zeta linux kit

Модули и компьютеры на базе NXP i.MX6/6UL/7, TI AM335x «Sitara»

Модули на базе ARM, PowerPC, QorIQ, промышленные компьютеры и терминалы

CANopen, интерфейсы CAN-USB, PLC на базе TriCore, ColdFire, PPC, XC16x

Адаптеры PCAN для подключения шины CAN к PC

C/C++ компиляторы, симуляторы, IDE, RTOS, оценочные платы и эмуляторы

Инструментальные средства разработки и отладки для ARM контроллеров

Средства разработки для AURIX, TriCore, Power Architecture, Cortex, ARM, C166/ST10, XE166/XC2000 и SH-2A

электротехническое оборудования Siemens и Moeller, системы бесперебойного питания Maserguard и SPower, маркировка, кабельные наконечники, инструмент

Ваш заказ Быстрый заказ Рассылка новостей

Цены приведены в EURO без учета НДС 20% для количества 1000 шт.

PhyBOARD-Mira i.MX6 Solo на Cortex-A9 Заказной номер: KPB-01501-001

Питание 5 В, частота 1 ГГц, широкий набор интерфейсов HDMI, ETHERNET, RS232, USB

Подробное описание

PhyBOARD-Mira i.MX6 QUAD на Cortex-A9 Заказной номер: KPB-01501-002

Питание 12 -24 В, частота 4 x 1 ГГц, интерфейсы CAN, HDMI, ETHERNET, RS232, USB, PCIe

Подробное описание

PhyBOARD-Zeta i.MX 7 на Cortex-A7 и -M4 Заказной номер: KPB-01910-Lin

Компьютер на базе двухъядерного процессора i.MX 7, частота 1 + 0,2 ГГц

Подробное описание

PhyBOARD-Segin i.MX 6UL на Cortex A7 Заказной номер: KPB-02013-001.A0

Одноплатный компьютер на базе i.MX 6UL в промышленном температурном диапазоне

Подробное описание

PhyBOARD-Regor AM335x на Cortex A8 Заказной номер: phyBOARD-Regor

Компактный форм-фактор Pico-ITX, для монтажа и установки на DIN рейку

Подробное описание

PhyBOARD-Wega AM335x 5V на Cortex A8 Заказной номер: KPB-00802-0101C

phyBOARD-Wega в компактном формате Pico-ITX с адаптером 5В

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phyBOARD ® -Wega

ARM Cortex TM -A8
Single Board Computer

• Compact Pico-ITX format SBC
• Available with 12-24V adapter

phyBOARD ® -Wega

ARM Cortex TM -A8
Single Board Computer

• Compact Pico-ITX format SBC
• Available with 12-24V adapter

Overview

In a Pico-ITX form factor of 100 x 72 mm, phyBOARD-Wega represents the continued miniaturization of phyBOARD Single Board Computers. At the heart of the Wega is the phyCORE-AM335x System on Module (SOM), which is directly soldered onto a carrier Board PCB for routing of signals from the SOM to applicable I/O interfaces.

This “Direct Solder Connect” (DSC) of the SOM eliminates four connectors, thereby further reducing overall system cost, and makes Wega ideally suited for deployment into a wide range of cost-optimized and robust industrial applications. Signals from the AM335x processor populating the SOM also extend to the Wega expansion bus connectors. This provides for customized expandability according to end user requirements.

Expansion Boards

PHYTEC offers a variety of expansion boards for phyBOARD-Wega:

• HDMI adapter
• Display adapter
• Power supply with a large power range
• Industrial I/O including a WiFi adapter
• M2M Board (GPS, GSM, I/O’s)

Expansion boards in development.
These expansion boards can be plugged onto phyBOARD-Wega. The direction of the connectors is flexible (up, down and sideways) and can be adjusted according to customer requirements.

Custom Expansions

Signals from the AM335x extend to the phyBOARD expansion bus connectors. SBC customization is made easy by plug-and-play expansion modules. Additional interfaces are routed to the expansion connector such as CAN, RS232, Audio and Touch.

Display and Touch Screen

In order to connect a display and a resistive touch screen, customers can make use of the AM335x parallel display interface. Alternatively, capacitive touch panels can also be connected.

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PHYTEC Unified Yocto BSP Release

Directly to the release:

Overview

PHYTEC Unified BSPs are categorized by specific processors that support our SOM families phyCORE, phyFLEX, phyBOARD and phyCARD. PHYTEC’s Unified Yocto BSPs consists of three parts: release management, meta data and software components.

Release Management

Releases are managed with the “repo” tool. PHYTEC publishes approximately two releases per year and processor. The release numbers are made up by

For example, AM335x-PD15.1.0 is the first release for AM335x in 2015 with no service patch applied. In addition, PHYTEC releases several release candidates (RC) with no fixed timeline. The RCs are named AM335x-PD15.2-rc1 and are the next step towards the official release in the fall.

Meta data

The BSP meta data compile all information on how to build software packages. The data describes in particular, which bootloader and kernel is used for our hardware. The source code for the software components itself is not included in the meta data. If you would like to access the source code directly, please see the git repositories at git://git.phytec.de

BSP Software Components

To download a BSP release, we have prepared a support script called phyLinux. After running the script you will have a full installation of Yocto with all required meta data and will be ready to run a build. It will download the source code for all software components.

PHYTEC Yocto BSP Quickstart

PHYTEC Yocto BSP Quickstart

In order to use Yocto and a PHYTEC BSP, a powerful host PC with Linux OS operating system is required since a lot of compiling will be done. Yocto needs a handful of additional packages on your host. For Ubuntu 14.04 you will need:

sudo apt-get install gawk wget git-core diffstat unzip gcc-multilib \
build-essential chrpath socat libsdl1.2-dev xterm

For information about other operating systems please see the Yocto Quickstart.

PHYTEC Linux Script

Please create a new project folder such as:

Download and run the init script

/yocto
wget ftp://ftp.phytec.de/pub/Software/Linux/Yocto/Tools/phyLinux
chmod +x phyLinux
./phyLinux init

The script will prompt you to install the «repo tool» in your /usr/local/bin folder. You can manually install it in a different location. phyLinux will automatically detect Repo if it is found in the PATH. The repo tool will be used to manage the different Yocto BSP git repositories.

Configurations

To run the script the following is required:

• Target processor platform
• PHYTECs BSP release number
• Machine type

Please follow the links below according to your product’s processor platform. The BSP platform support tables will help you choose the right machine for your hardware configuration. They also provide an overview over all features that are supported in our BSP releases.

After the successful configuration you can continue reading the HOWTO-yocto in your working directory.

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