ROM-2620 OSM ARM Computer-on-Module

NXP Arm® Cortex®-A35 i.MX 8ULP Dual up to 1.0 GHz with 1x Arm Cortex-M33 core
Onboard LPDDR4 1GB, 2000MT/s memory
1x 4 lane MIPI-DSI
1x USB2.0, 1x USB 2.0 OTG, 5x UART, 2x I2C, 24 x GPIO, 6x PWM, 1x CAN
Ultra-small size form factor – OSM
Support Ycoto Linux

Product Variations

Name	SOM-NX8MM-42CME	SOM-NX8MM-42CMX
Price	Call	Call
ATTRIBUTES
SOM Size	30mm x 30mm (1.18 x 1.18 inches)	30mm x 30mm (1.18 x 1.18 inches)
SOM Type	OSM Small	OSM – Small
CPU	NXP IMX 8ULP Dual-Core 1.0GHz	NXP IMX 8ULP Dual-Core 1.0GHz
Number of Cores	Dual	Dual
CPU Speed	1.0 GHz	1.0 GHz
Memory Type	1 GB LPDDR4	1 GB LPDDR4
Storage	16GB eMMC Onboard	16GB eMMC Onboard
Serial	5x COM	5x COM
USB3.0	None	None
USB2.0	2x USB2.0	2x USB2.0
LAN	NXP IMX8 RMII	NXP IMX8 RMII
IO	5x UART, 1x SDIO, 1x SPI, 2x I2C, 6x PWM, 24x GPIO	5x UART, 1x SDIO, 1x SPI, 2x I2C, 6x PWM, 24x GPIO
Video	MIPI-DSI	MIPI-DSI
Audio	1 x I2S	1x I2S
Temperature	(0°C to 60°C)	(-40°C to 85°C)

Requires a Cooling solution to operate normally, Cooling heatsink not included.

Additional information

FORM FACTOR	OSM / ETX / RTX / 168-Pin DIP
PROCESSOR TYPE	NXP i.MX 8ULP Cortex-A35 Dual core With ARM Cortex-M33 MCU Core
PROCESSOR CORES	Single, Dual
PROCESSOR CLOCK SPEED	up to 1.0 GHz
RAM	up to 1 GB DDR4 Onboard
FILTER EXPANSION	N/A
PRIMARY FLASH	16GB eMMC Flash onboard
SECONDARY FLASH	SDIO
MEMORY MISC.	1 GB DDR4 Onboard
DISK INTERFACE	SDIO Interface
BIOS / BOOTLOADER	None
AUDIO	1x I2S Audio port
VIDEO OUT	MIPI-DSI, 4 data lanes, up to 1920×1080 60Hz (or HDMI)
ETHERNET	1x NXP i.MX 8ULP integrated RMII 10/100 Mbps
SERIAL PORTS	5x UART (2x 4-wire UART, 2x 2-wire UART (1 share with debug port) and 1x console)
USB 3.0	None
USB 2.0	2 x USB2.0
CAN	1x CAN
I2C	2x I2C Ports
SPI	1x SPI
GPIO	24x GPIO
SDIO	1x SDIO
TIMERS/ COUNTERS/ PWM	6x PWM
TOUCH	see datasheet
A D CHANNELS	NA
A/D RESOLUTION	NA
ANALOG MISC.	NA
BUS EXPANSION	N/A
OPERATING SYSTEMS	EMAC OE Linux
SIZE	1.18 x 1.18 Inches (30 mm x 30 mm)
VOLTAGE	5 V
POWER MISC.	see datasheet
TYPICAL CURRENT	342 mA
MAX BOOT CURRENT	see datasheet
CONSTANT BUSY LOOP CURRENT	see datasheet
IDLE CURRENT	see datasheet
LOW OPERATING TEMPERATURE	-40°C (-40°F), 0°C (32°F)
HIGH OPERATING TEMPERATURE	60°C (140°F), 85°C (185°F)
UPPER OPERATING HUMIDITY	95% relative humidity, non-condensing
ENVIRONMENTAL MISC.	-40°C ~ +85°C (Optional) Heat-spreader / heat-sink are required for proper heat dissipation. Request details
FILTER PROCESSOR FAMILY	ARM / RISC

Description

The ROM-2620 OSM 1.1 Computer-on-Module is powered by NXP i.MX 8ULP SoC which includes up to 2 Arm Cortex-A35 cores in combination with one Cortex-M33 real-time processor and Vivante GC7000 nanoULTRA/GC328 graphics engine. It provides USB2.0, Fast Ethernet, MIPI-CSI, I2C, SPI, GPIO, PWM and MIPI DSI display for embedded applications.
ROM-2620 is paired with an OSM carrier board for faster end-product peripheral integration and time-to-market. The reference schematics and layout checklist documentation for carrier board development will be provided along with the open-sourced Linux BSP, Azure Sphere OS, test utilities, hardware design utilities and reference drivers.

NXP Arm® Cortex®-A35 i.MX 8ULP Dual up to 1.0 GHz with 1x Arm Cortex-M33 core
Onboard LPDDR4 1GB, 2000MT/s memory
1x 4 lane MIPI-DSI
1x USB2.0, 1x USB 2.0 OTG, 5x UART, 2x I2C, 24 x GPIO, 6x PWM, 1x CAN
Ultra-small size form factor – OSM
Support Ycoto Linux

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Open Standard Module (OSM)
The idea of all Open Standard Modules™ is to create a new, future-proof, and versatile standard for small-size, low-cost embedded computer modules, combining the following key characteristics:

Completely machine processible during soldering, assembly, and testing
Different possible packages for direct PCB soldering without a connector
Pre-defined soft- and hardware interfaces
Open-Source in software and hardware

The Open Standard Module™ specification allows developing, producing and distributing embedded modules for the most popular MCU32, ARM and x86 architectures. For a growing number of IoT applications this standard helps to combine the advantages of modular embedded computing with increasing requirements regarding costs, space and interfaces.
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EMAC is a global leader in system on module and carrier board embedded systems. The System on Module (SoM) is an ideal alternative to custom engineering. With the SoM approach you get the best of aspects of both buying an Off-The-Shelf Embedded Single Board Computer (SBC) and a Custom Engineered solution. With Off-The-Shelf embedded components such as a generic carrier board and SOM module, it is possible to start development on your software applications before the custom carrier board is complete; thus offering a reduced time to market for your system. A System on Module (SoM) is comprised of a small processor module with CPU bus accessibility and standard I/O functionality. The SoM module does not have any connectorization and is designed to be plugged into a Carrier Board.

Interested in custom engineering? Learn more.

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Downloads

MANUALS

DATA SHEETS
ROM-2620_DS.pdf	Download (PDF)

Peripheral Options

PRODUCT #	DESCRIPTION	PRICE
PERIPHERALS
PER-FAN-000xx-R	Heat-SINK for SOM-NX8MM (requires a Heat Sink for proper cooling,	Call
OPERATING SYSTEMS
SL05x-XON-xx	EMAC OE Linux 6.x for ARM (Free installation at time of purchase of SBC & media)	Call