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SMARC MODULE 2.1 6413E 4GB 32GB

030084200

Technical Info

Technical Info

PCBA Form Factor SGET SMARC Specifications v2.1.1
PCB Dimensions SMARC small size module, 82mm x 50mm
PCB Colour BLACK or GREEN
PCB Material 94V-0
PCB Layers 12
Additional INFO ROHS, ESD 4kV contact / 8kV air discharge
CORES CPU 6th Gen Intel® Atom® series (formerly Elkhart Lake) x6413E Quad-Core
Thermal Sink Thermal Sink – No Fan
RAM 4 GB LPDDR4 at 4266 MT/s memory down type with IBECC
System Storage SDIO – 1x SDIO (4-bit) compatible up to version 3.0.
eMMC – Soldered on module 32GB, -40 to 85C temperature range.
Compatible with eMMC specification 4.51 and higher
GRAPHIC Intel Gen11LP UHD Graphics
OS Linux UBUNTU 20.04
BIOS Single BIOS chip, UEFI BIOS
I/O INTERFACE NETWORK Primary LAN (GbE0) GPY SoC-embedded RGMII Ethernet controller with optional IEEE-1588 PTP. Supports 2.5Gb data transfer rates, both full-duplex and half-duplex
Secondary LAN (GbE1) GPY SoC-embedded RGMII Ethernet controller with optional IEEE-1588 PTP. Supports 2.5Gb data transfer rates, both full-duplex and half-duplex
Dual Wi-Fi on M.2 module E-Key
BLE 4.2 (INTEL 3165) on M.2 module E-Key
Extension busses 4x PCI Express Gen3 x1 interfaces (configurable)
2x USB 3.1, 6x USB 2.0, no OTG support
4x UART SER0, 2(Tx/Rx/CTS/RTS) and SER1, SER3 (Tx/Rx)
7- or 8-bit data words, 1 or 2 stop bits, programmable parity (even, odd, or none) Programmable baud
rates up to 4 Mbps.5
2x CAN2.0B only or mixed CAN2.0B and CAN FB mode, data bit rate up to 8 Mbps, on Linux
1x SPI 1x eSPI
1x High-Definition Audio (HDA) as default or 1x I2S on I2S2 port
4x I2C interfaces
14x GPIO with interrupt (GPIO4 used as HAD_RST# by default)
AUDIO HDA audio interface (used by default) – Audio codec is located on carrier.
DISPLAY LCD Resolution Dual 1920*1080
HDMI HDMI 2.0a supporting up to 4K (4096 x 2160 at 60Hz)
LCD Ports eDP + DP on Type-C + (LVDS bridge On CarrierBoard)
POWER Supply Voltage 5V +/- 5%
POWER INDICATION LED
Power Sequencing VDD_IN is the first power domain to be turned on by the carrier circuit during power-up. Other circuit
components on the carrier, which are galvanically coupled to the module, shall not be supplied to avoid
feedback. From the moment VDD_IN is stable — recognizable by VIN_PWR_BAD# de-asserted — the module takes
over control of the power sequencing. As soon as the module reaches the next system state standby,
CARRIER_PWR_ON signals the carrier to switch on all its standby voltages. When the state Runtime is
reached, the module de-asserts CARRIER_STBY#. The carrier then switches on the remaining rails.
CONDITIONS WORKING -40°C to 85°C
RELATIVE Humidity: 5-90% RH operating, non-condensing

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