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Our product range contains a wide range of phyCORE-i.MX 8M Mini, phyBOARD-Nunki ARM CortexTM-A9, phyBOARD-SeginARM CortexTM-A7, phyBOARD-i.MX 7 and phyBOARD-Mira
Not sure which NXP i.MX 8 series of applications processors to get started with? The phyCORE-i.MX 8M mini SOM is the perfect entry point given the balance between high performance and low power. Although compact in size, the SOM provides a generous 319-pin interconnect for interfaces such as USB 2.0, I2C, SPI, UART, SDIO, MIPI CSI-2 camera, Ethernet, and PCIe. For HMI applications, the SOM features a MIPI-DSI to LVDS converter to support common display models on the market.
Phytec has designed the phyBOARD-Nunki specifically for image processing applications.
It is an expansion of our trusted phyBOARD-Mira. It uses both i.MX 6 processor Image Processing Units (IPC) and is designed for applications with multiple cameras such as intercom systems with video or quality control applications that require a thermal imaging camera and a color camera or stereoscopy applications. The SBC has five physical camera interfaces: two parallel phyCAM-P camera interfaces, two serial phyCAM-S+ interfaces as well as a MIPI camera interface. Two camera interfaces can be used at the same time. In addition, further interfaces, as well as a 12-24 V power supply, are integrated. Due to the exchangeable phyCORE SOM with NXP i.MX 6 processor, the memory size can be adjusted easily. The phyCORE-i.MX 6 SOM is available as Single, Dual and Quadcore variants.
phyBOARD-Segin in Pico-ITX format (100 x 72mm) can be used as a development platform to startup phyCORE-i.MX 6UL variants.phyBOARD-Segin offers an expansion connector for modular expansion. phyCORE-i.MX 6UL is directly soldered onto phyBOARD-Segin.
Custom ExpansionsSeveral i.MX 6UL processor signals are routed to the expansion connector to allow for customizations. These connections can easily be realized by the customer.
The phyBOARD-i.MX 7 utilizes the phyCORE-i.MX 7 System on Module which supports the next-generation NXP i.MX 7 single and dual-core application processors. Within a compact form factor, the SBC includes the on-board features from the phyCORE-i.MX 7 including DDR3, NAND, NOR, eMMC, and Gigabit Ethernet PHY. It also provides interfaces for connecting peripherals, such as PCIe, WiFi, Bluetooth, GPS, displays, camera, and sensors. Ideal for patient monitoring, communication gateways, industrial HMI, portable test and measurement applications.
phyBOARD-Mira offers a feature set and form-factor that is similar to that of phyBOARD-Wega. The phyCORE-i.MX 6 SOM provides the CPU core on the Mira, and is populated by the NXP ARM Cortex-A9 i.MX 6 series application processors. Mira offers standard interfaces that include Ethernet, USB, RS-232/RS-485, CAN, a microSD card slot and miniPCIe. Supplemental I/O and external hardware connectivity is enabled by expansion modules that interface to the Mira expansion bus. Mira also supports HDMI, LVDS, parallel, resistive and capacitive touch, as well as other HMI connectivity options.
Compact, cost-optimized design with industry-standard Yocto-BSP: the phyBOARD-Polaris is a powerful single board computer for industrial use. It supports the graphics performance and multimedia features of the phyCORE-i.MX 8M System on Module. The module comes already soldered to the carrier board. This reduces the height of the SBC and further optimizes costs by eliminating the connectors.
The phyBOARD-Polis, either a development platform for the phyCORE-i.MX 8M Mini/Nano, or a powerful, industry-compatible single-board computer for immediate implementation of your product idea. As a development platform, the phyBOARD-Polis serves as reference design for your customer-specific application and enables parallel development of the software and carrier board for the phyCORE-i.MX 8M Mini/Nano. A modern FTDI interface allows software download and debugging. As a powerful, industrial single-board computer (SBC), the phyBOARD-Polis is equipped with a variety of standard interfaces which are available on standard or socket/pin header connectors, while interesting extensions of the phyCORE-i.MX 8M Mini/Nano features such as CAN FD, WLAN and an integrated TPM chip further extend the range of applications that can be developed with the phyCORE-i.MX 8M Mini/Nano.
The phyFLEX-i.MX 6 SOM supports the NXP i.MX 6Solo, i.MX 6Dual, and i.MX 6Quad application processors offering a broad range of solutions with emphasis from cost-efficiency to high demand performance at low power. The three innovative SOM interconnects provide standardization across the phyFLEX product family and highlight features such as USB, Gigabit Ethernet, CAN, PCIe, SATA, multiple simultaneous displays, camera interface, and HDMI v1.4.
The phyCORE-i.MX 8M SOM is a feature packed all-in-one solution for multimedia applications that require audio, voice or video processing with the ability to support video playback up to 4k and video outputs up to 60 fps. The module has a BGA interconnect of 501-pins to provide access to interfaces such as dual PCIe, dual USB 3.0, Gigabit Ethernet, dual MIPI CSI-2 camera and displays such as MIPI-DSI and HDMI
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The phyBOARD-Pollux, either a development platform for the phyCORE-i.MX 8M Plus or a powerful, industry-compatible single-board computer for immediate implementation of your product idea. As a development platform, the phyBOARD-Pollux serves as reference design for your customer-specific application and enables parallel development of the software and carrier board for the phyCORE-i.MX 8M Plus. A modern FTDI interface allows software download and debugging.
The phyCORE-i.MX 8M Plus SOM is one of the smallest connectorized SOMs on the market. Features are not compromised as the 3740 mm module includes an interconnect of 300 pins including dual MIPI CSI-2 camera, USB 3.0, dual Gigabit Ethernet, and PCIe as well as options for display including MIPI-DSI, LVDS, and HDMI. The features of the SOM combined with on-device machine learning accelerators provide a platform for your next-gen application.
The SOM is now available for members of PHYTECs ALPHA program with general availability in Q1/2021.
The phyCORE-AM57x is one of a few solutions in existence that provides the level of integration required for machine learning and real-time applications on a single embedded module. The Texas Instruments AM57x processor series is packed with processing power and includes a dual core applications processor, real-time cores, DSPs, graphics engine, machine learning accelerators, and PRU-ICSS cores. The SOM extends the processors features with memory, connectivity, and power management but remains compact at 55 mm x 45 mm allowing you to bring a powerhouse of computing into your small enclosure.
The phyCORE-i.MX 7 System on Module supports the NXP i.MX 7 single and dual-core application processors. Within a compact form factor, the SOM supports on-board DDR3, NAND, NOR, eMMC, Gigabit Ethernet PHY, RTC, power management, and provides a high number of interfaces for connecting peripherals, such as PCIe, WiFi, Bluetooth, GPS, displays, camera, and sensors. Ideal for patient monitoring, industrial HMI, portable test and measurement applications.
The phyCORE-i.MX 8X SOM is one of the few solutions on the market that provides high-level integration without compromise on cost, power consumption, or reliability. The 5242 mm SOM supports high end features required by modern embedded applications including capabilities for 4k video streaming, dual display, dual camera, and high speed interfaces such as Gigabit Ethernet, PCIe and USB 3.0.
Released just this year, the phyCORE-i.MX 8X is expected to have continuous production until 2035+.
The phyCORE-i.MX 6 SOM is one of PHYTECs most popular products and since release in 2012 has been successfully deployed across a wide range of applications. The SOM extends the scalability of the NXP i.MX 6 single- to quad-core processor family by providing extensive options for customization with up to 2GB DDR3 RAM and a range of flash options from 128 MB NAND to 128 GB eMMC. In addition to common interfaces such as UART, SPI, I2C and GPIO, features such as PCIe, Gigabit Ethernet, LVDS display, and HDMI are available at the 280-pin interconnects. PHYTEC expects the phyCORE-i.MX 6 to well exceed 15+ years of continued market availability.
The industrial phyCORE-i.MX 6UL is based on the NXP i.MX 6UltraLite and i.MX 6ULL applications processors. PHYTECs lowest power SOM to date, with power consumption under 500mW in idle mode, is well suited for energy-efficient and compact applications such as HMI, control systems, and IoT. The SOM has been designed with solder contacts around the outside for easy integration and reduced system cost.
In modern IoT applications, a SOM such as the phyCORE-AM335x works well as the industrial Gateway to aggregate data from sensors and push to the cloud given the 1GHz processing power and dual Ethernet support. With common bus interfaces like I2C and SPI available at the interconnect, as well as display capabilities, applications can extend beyond simple gateways to more intelligent embedded control gateways further simplifying system design.
The phyCORE-AM65x is an insert-ready System on Module ideal for industrial communication systems and factory automation. The phyCORE-AM65x SOM provides the features that next-gen equipment focuses on like connectivity, automation, machine learning, and real-time data. These require high performance processing with up to 4 CPU cores, multiprotocol industrial networking support for reliable machine to machine communication, as well as general purpose interface controls like GPIO, SPI, and I2C. This SOM has one of PHYTECs largest interconnect with 180 pins available including access to 6 Gigabit Ethernet interfaces.
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