phyBOARD-Zeta is well suited for low power applications that require many interfaces. It offers a camera interface and due to its small form factor in Pico-ITX format (100 x 72mm), it can be used in many existing house designs. phyBOARD-Zeta is based on phyCORE-i.MX 7. In this two-PCB system, the SOM itself serves as the CPU core of the SBC, which is formed by interfacing the SOM to a second carrier board PCB via high density connectors.
- 2x ARM Cortex-A7 @ 1 GHz and 1x ARM Cortex-M4 @ 200 MHz
- 2x Gigabit Ethernet (RJ-45 Connectors)
- 2x CAN
- 1x USB Host (Standard-A Connector)
- 1x USB-OTG (Micro-AB Connector)
- 1x Mini PCIe Connector
- 100mm x 72mm
- Low Power Design
Technical Details
Features\Name | Single Board Computer | Linux Kit | |||
---|---|---|---|---|---|
Module | phyCORE-i.MX 7 | phyCORE-i.MX 7 | |||
SOM Mounting | Connector insertion | Connector insertion | |||
Processor |
i.MX 7Solo / i.MX 7Dual |
i.MX 7Dual | |||
Architecture | ARM Cortex-A7 + Cortex-M4 | ARM Cortex-A7 + Cortex-M4 | |||
Clock frequency | 1 GHz + 200 MHz | 1 GHz + 200 MHz | |||
Memory | up to 8 GB NAND or up to 128 GB eMMC, up to 2 GB DDR3 RAM, 16 MB QSPI NOR, 4 kB EEPROM |
4 GB eMMC, 1 GB DDR3 RAM, 16 MB QSPI NOR, 4 kB EEPROM |
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INTERFACES | |||||
Ethernet | 2x 10/100/1000 Mbit/s | 2x 10/100/1000 Mbit/s | |||
USB | 1x Host, 1x OTG | 1x Host, 1x OTG | |||
Serial | 2x5 pin header | 2x5 pin header | |||
CAN | 2x5 pin header | 2x5 pin header | |||
Digital I/O |
4x UART, 3x I²C, 2x SAI, 2x MMC/SD/SDIO, 3x SPI |
4x UART, 3x I²C, 2x SAI, 2x MMC/SD/SDIO, 3x SPI |
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PCIe | 1x miniPCIe | 1x miniPCIe | |||
Camera | MIPI CSI | MIPI CSI | |||
MMC/SD/SDIO | microSD Card Slot | microSD Card Slot | |||
EXPANSION & CONFIGURATION | |||||
Expansion Bus |
USB Host, 2x I²C, 5x UART, CAN, SDIO/SD/MMC, 3x SPI, 4x ADC inputs, 3x Tamper, 2x PWM, GPIO, 3x3 Keypad, MIPI DSI, JTAG |
USB Host, 2x I²C, 5x UART, CAN, SDIO/SD/MMC, 3x SPI, 4x ADC inputs, 3x Tamper, 2x PWM, GPIO, 3x3 Keypad, MIPI DSI, JTAG |
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Audio | via A/V-Connector | via A/V-Connector | |||
Display |
24 bit TTL (via optional Display Adapter PEB-AV-02) |
24 bit TTL (via optional Display Adapter PEB-AV-02) |
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Backlight | via optional Display Adapter PEB-AV-02 | via optional Display Adapter PEB-AV-02 | |||
Resistive Touch | 4-Wire | 4-Wire | |||
Capacitive Touch | via optional Display Adapter PEB-AV-02 | via optional Display Adapter PEB-AV-02 | |||
HDMI | via optional HDMI Adapter PEB-AV-01 | via optional HDMI Adapter PEB-AV-01 | |||
WiFi |
via optional WiFi Adapter PEB-WLBT-01 |
via optional WiFi Adapter PEB-WLBT-01 |
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User Control Elements | 1x User LED | 1x User LED | |||
Boot Source | eMMC, NAND Flash, external SD Card | eMMC, NAND Flash, external SD Card | |||
RTC | Backup battery | Backup battery | |||
Power Supply | 5 V | 5 V | |||
Dimensions | 105 x 72 mm | 105 x 72 mm | |||
Temperature Range |
C Temp Grade, X Temp Grade |
C Temp Grade | |||
SOFTWARE | |||||
Operating System | Linux 4.1.15 | Linux 4.1.15 | |||
Distribution | Yocto 2.1 (Krogoth) | Yocto 2.1 (Krogoth) | |||
BSP/Image | BSP-Yocto-FSL-iMX7-PD17.2.1 | BSP-Yocto-FSL-iMX7-PD17.2.1 | |||
Kit Content | - |
phyBOARD-Zeta i.MX 7Dual, RS232 cable, Linux Yocto BSP |
Pricing plus VAT
See here for adapters, connectors and further accessories »
See here for the phyBOARD-Zeta Download » section.
PHYTEC decided to use the Yocto project as industrial Linux infrastructure.
Please see here for more detailed information »