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Inforce 6301™ Micro System On Module (SOM)

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Inforce 6301™ Micro System On Module (SOM)
  • Inforce 6301™ Micro System On Module (SOM)
  • Inforce 6301™ Micro System On Module (SOM)
  • Inforce 6301™ Micro System On Module (SOM)
  • Inforce 6301™ Micro System On Module (SOM)

Snapdragon 410E processor based Inforce 6301 Micro SoM with extended temperature

Inforce 6301 micro SOM joins a family of cross-compatible, tiny System On Modules(SOM) by Inforce Computing and specifically designed for various industrial and IoT applications which are , placed in severe environments, and in need of high performance and low power consumption such as in telemetrics for asset tracking, instrumentation, digital signage, surveillance, and robotics/drones.

Powered by the Qualcomm Snapdragon 410E(APQ8016E) quad core CPU with Adreno 306 GPU and Hexagon DSP, the Inforce 6301 is perfect for compute-heavy applications that require BT/Wi-Fi/GPS connectivity, 1080p full HD w/ H.264/263 playback & capture and HEVC playback at 720p, 4-lane MIPI-DSI, and up to 13MP MIPI-CSI2 camera.

IMPORTANT NOTE: The Inforce 6301 Micro SOM requires a carrier board (like all SOMs do) to power up, connect to peripheral devices, and gain access to the extensive set of I/Os that are available on the Micro SOM. One may design a custom carrier board to work with the Inforce 6301 Micro SOM to suit a particular end-application, but first time buyers of the Inforce 6301 Micro SOM require an associated carrier board. It is recommended that you initially purchase the Inforce 6301 Reference Design, which comes with (a) the Inforce 6301 Micro SOM, (b) a reference carrier board, and (c) a starter kit that includes a 5V power adapter, micro-USB cable, and an acrylic base.

Easy and seamless cross-compatibility

  • Pin, connector, electrical, and form-factor compatibility with all Micro SOMs
  • Simply swap the previous gen. SOMs on your existing custom carrier boards with the Inforce 6301 and port application software for faster time-to-market
  • Standard EMI shields available for BTO SKUs for electrical noise protection and dual-use heat spreading & dissipation to improve performance.

Empower next-gen embedded applications

  • Ensure accurate positioning and calculate info faster than ever with the IZat™ location engine
  • Build demanding industrial and IoT devices requiring low power compute and optimize for long battery life
  • Take advantage of heterogeneous compute and DSP to upgrade high-end instrumentation devices
  • Redefine viewing experiences on digital signage with accurate colors on crisp displays, even in bright sunlight

Excellent FullHD video, multimedia, and connectivity options!

  • H.264/263 (AVC) playback and capture @1080p30
  • H.265 (HEVC) playback @720p30
  • Hi-Fi low power Audio with codec support for MP3, AAC + eAAC, WMA 9/10 Pro, Dolby AC-3, eAC-3, and DTS
  • 4-lane DSI DPHY 1.2 interface for touch screen displays
  • Dual MIPI-CSI2 (4/2-lanes) for cameras (Up to 13MP)
  • BT4.1 LE/ Wi-Fi 802.11 b/g/n @2.4GHz
  • GPS/Glonass/BeiDou/Galileo
  • Drivers for common peripherals
  • Android and Linux BSP support


Block Diagram

6301 micro som block diagram



Snapdragon 410E(APQ8016E) processors are designed to meet the demanding requirements of embedded computing applications with its high performance, energy efficiency, multimedia features, and integrated connectivity.


  • Qualcomm® Snapdragon™ 410E processor (APQ8016E SoC)
    • Quad-core ARM® Cortex® A53 64-bit CPU @1.2GHz each, ARMv8-A ISA compliant
    • Adreno™ 306 GPU with support for OpenGL ES 3.0, DirectX, and OpenCL
    • Hexagon™ QDSP6 @700MHz for ultra-low power audio and computer vision processing
    • Integrated ISP with support for 1.5GPs throughput
  • 1GB LPDDR3 RAM @533MHz + 8GB eMMC
  • MicroSD card connector
  • Wi_FI 802.11 b/g/n @2.4GHz, BT 4.1 LE, GPS
  • Supports dual-cameras (13MP total) on MIPI-CSI
  • 4-lane DSI DPHY 1.2 interface for touch screen displays up to 1080p
  • Miracast™ support, Wi-Fi wireless streaming to external 720p display


  • Dual MIPI-CSI2 (4/2-lane)—dual cameras up to 13/8MP
  • H.264 playback and capture @1080p
  • H.265 playback @720p
  • HD 5.1 Audio and mic-in
  • BT4.1 LE and Wi-Fi
  • GPS/Glonass/BeiDou/Galileo
  • SDIO
  • 1xUSB2.0
  • 5xBLSPs/20xGPIO, JTAG


  • Power: +12V/+5V@3A Input Socket (depends on the reference carrier used)
  • Dimensions: 28mm x 50mm; Weight: 3.5Oz/10 gms
  • Operating Temp: -20ºC to +70ºC
  • Relative Humidity: 5 to 95% non-condensing
  • RoHS and WEEE compliant
  • Shorter profile of 16mm (with carrier)

Snapdragon 410E

The Snapdragon 410E(APQ8016E) processor platform is ideal for high-end Internet-of-Everything (IoE) devices at the edge of the network in smart homes, industrial automation, digital media players, smart surveillance and home appliances.

Snapdragon 410 processor

Designed to meet the demanding requirements of embedded computing applications with its high performance, energy efficiency, multimedia features and integrated connectivity, the Qualcomm® Snapdragon™ 410E processor is ideal for a broad mix of use cases, such as smart homes, building automation, industrial control, and digital signage. Snapdragon 410E(APQ 8016E) for embedded computing is designed for longevity. With the Inforce 6309™ Micro SBC full development kit and product-ready SKU variants, multiple solutions are available to support Snapdragon™ 410E (APQ8016E) based IoE devices from initial concept all the way to production volume manufacturing.


  • Superior performance with quad-core ARM® Cortex®-A53 CPUs and energy efficiency for long lasting battery life
  • Excellent GPU performance, with Qualcomm® Adreno 306 GPU
  • Rich multimedia and connectivity capabilities including 802.11 b/g/n 2.4GHz Wifi, BLE, and GPS
  • Differentiate with a dedicated Qualcomm® Hexagon™ DSP for audio and computer vision processing

If these are your requirements, embedded systems powered by Snapdragon 410E (APQ8016E) processors will make it easier.





Onboard Software

  • Android 5.x (Lollipop) BSP release

o   Periodic Android based BSP releases include in-depth documentation along with a host of royalty-free multimedia codecs

  • Linux BSP Release

o   A Debian-based Build that provides a terminal-like environment using Debian Linux and the Light-dm terminal.

o   Periodic upstream Kernel (currently v4.4.8) based BSP releases include in-depth documentation along with a host of royalty-free software.

  • The full-featured release has support for the following peripheral devices and I/Os (All features may not be supported on Android/Linux):

o   Snapdragon™ 410/410E (APQ8016/E) processor Quad-core ARM® Cortex® A53 64-bit CPU running at 1.2GHz

o   USB 2.0 based input and mass storage devices

o   WiFi/BLE 4.1/GPS

o   Micro SD card interface

o   HDMI display and digital audio

o   MIPI-DSI based displays with touch screen support

o   MIPI-CSI based cameras

o   Serial UART and Analog audio


  • Early access to leading edge APIs and next generation features. 
  • Long-term commitment of supply assurance from product introduction
  • A product roadmap that keeps developers on the latest technology curve from Qualcomm


Inforce 6301 Android Release Download
Inforce 6301 Linux Release Download
Inforce 6301 Datasheet Download
The Inforce BSP explained Download
Snapdragon 410E APQ8016/APQ8016E Device Specification Download

Secure Downloads

Datasheets Version Size Uploaded On
APQ8016/APQ8016E Chip Datasheet Rev B 1.17 MB 2015-11-18 11:44:06 Download
Inforce 6301 Quick Start Guide Rev A 608 KB 2015-07-13 06:41:00 Download
Application Notes Version Size Uploaded On
Inforce 6301 AppNote Installing USB Driver in Windows Rev B 240 KB 2015-06-30 15:45:06 Download
APQ8016/APQ8016E Memory Controller and Device Settings Application Note Rev C 319 KB 2015-06-30 13:47:06 Download
APQ8016/APQ8016E Media Card Application Note Rev A 237 KB 2015-06-30 13:45:07 Download
APQ8016/APQ8016E EEPROM Configuration Application Note Rev A 136 KB 2015-06-30 13:44:09 Download
APQ8016/APQ8016E ClockPlan Application Note Rev B 179 MB 2015-06-30 13:44:08 Download
Reference Manuals Version Size Uploaded On
APQ8016/APQ8016E WCD9311 Software Interface Rev B 684 KB 2015-11-18 11:44:06 Download
APQ8016/APQ8016E PMIC Software Interface Rev A 647 KB 2015-11-18 11:44:06 Download
APQ8016/APQ8016E Chip Software Interface Rev B 25.5 MB 2015-11-18 11:44:06 Download
Inforce 6301  Hardware Reference Manual Rev A 5.51 MB 2015-11-18 11:44:06 Download


1. What is Inforce 6301™ Micro SOM?

The Inforce 6301 Micro SOM is a tiny System on Module (SOM) solution for embedded systems designers. It provides designers access to the rich I/O and computing features of the ® Snapdragon™ 410E System-on-Chip (APQ8016E), with quad-core processors each running at 1.2GHz. The plug-and-play Inforce 6301 Micro SOM comes in an ultra-small form factor of 28mm x 50mm and weighs less than 10 grams! With a low profile of only 8mm, it provides access to interfaces such as MIPI-DSI displays with support for Full HD content, MIPI-CSI cameras capable of encoding Full HD AVC content, and GPS. It provides a dense compute platform for a variety of unique Android and Linux based multimedia applications in digital signage, surveillance, instrumentation, and telematics for asset tracking. The Inforce 6301 Micro SOM joins a growing product-line of SOMs that are electrical, pin, and form-factor compatible with a common carrier board design. This enables easy migration and cross compatibility with new Qualcomm Snapdragon processor based Micro SOMs.

2. Does Inforce offer other form factors based on Qualcomm Snapdragon 410E?

Yes. Inforce offers reference carrier boards for its SOMs in two form factors. A mini-ITX carrier board (170 X170mm) fully expands the I/O and connectivity of the Inforce 6301 micro SOM and a reference design board (Inforce 6301 Reference Design) inclusive of both is available. A smaller reference carrier (55mm x 60mm) with minimal I/Os such as USB/HDMI/Debug UART/μSD is also available. Apart from this, an SBC based on the Snapdragon 410E is offered by Inforce. Please check this Link for more details.

3.If I cannot use the standard SOM form factor, does Inforce Computing provide any custom design solutions?

Yes, while we offer standard products off-the-shelf (OTS) on our website and through our distributor, Arrow Electronics, we also have a strong background in customized hardware and software solutions. We offer pre-validated build-to-order (BTO) configurations, as well as configure-to-order (CTO) options for existing products. In addition, we also offer full custom hardware design and associated software/device driver development, for those projects where a unique design is required to meet sophisticated technical challenges.

4. How do I find more information about the Inforce 6301 Micro SOM? What do I get when I buy an Inforce 6301? Is the device available internationally?

Inforce’s website has a lot of useful information about our SOMs at https://www.inforcecomputing.com/products/system-on-modules.

Please check on the exact product SKU for the pre-loaded software, available memory and accompanying accessories such as acrylics, power adapters, and cables. The Inforce 6301 Micro SOM requires a carrier board (like all SOMs do) to power up and connect to peripheral devices and gain access to the extensive set of I/Os that are available on the Micro SOM. Inforce’s Snapdragon processor-based Micro SOMs are all cross-compatible (pin, connector, and form factor) with a single reference carrier board design.

We offer a full Reference Design, which includes the carrier board along with a few accessories such as an acrylic case, power adapter, sensor module, and micro USB cable. Once you register the product with us online, you would get dedicated support from Inforce.

The board ships to most places worldwide and relevant shipping and local tax charges may apply. Please contact sales-wc@smartwirelesscompute.com for pricing details or any additional questions that you may have before buying an Inforce 6301.

5. Does Inforce have a blog?

Yes!  You can find our periodic blogs at https://inforcecomputing.com/blog/category/articles. Here you can keep up with all of the latest information about Inforce products, conference appearances, and innovative customer applications.

6. Does Inforce offer Warranty replacement/return materials authorization (RMA)?

Yes, please contact our sales team at sales-wc@smartwirelesscompute.com for specific details for your product.


7. What are the accessories available?

Inforce offers a small reference carrier, ACC-1C10, (55mm x 60mm) with minimal I/Os like USB/HDMI/Debug UART/μSD as an accessory. This accessory is compatible with all our SOMs and would a great fit for the 6301 SOM’s capabilities to achieve fast prototyping at low costs. Our website https://www.inforcecomputing.com/products/accessories lists all the available accessories. Please note that User guides and product datasheets are available for all accessories.

8. Does the board support a cellular or GSM connection?  

The Inforce 6301 does not include support for a wireless modem. Third party cellular modem dongles can be connected to the Inforce 6301 system via USB ports and may require special drivers from the respective manufacturers.

9. What is the storage capacity of the Inforce 6301 Micro SOM? Is it expandable?

The on board storage (eMMC) capacity is 8GB. Storage can be expanded by connecting a Micro-SD card. Please check on the exact product SKU for details on pre-loaded software and available memory.

10. What are the performance details of the Inforce 6301? What is the speed of the RAM?

The Inforce 6301 Micro SOM provides Cortex-A53 class computing through its custom Quad-core ARM 64-bit CPU with 512kb of L2 cache. The Qualcomm Adreno™ 306 GPU operates at 450 MHz and is capable of 24.3 GFLOPS of general purpose compute. It provides support for OpenGL ES 3.0 and OpenCL 1.1 embedded profile on Android. Note that these libraries are provided as binaries only.

The onboard 1GB LPDDR3 RAM operates at 533MHz.
All our Android releases are benchmarked with Antutu and validated with the Qualcomm Trepn™ Profiler to ensure that all cores are capable of operating at their maximum frequency.

11. What is the height of the SOM?

The height of the IFC6301 SOM is 7mm.

12. What types of displays are supported and at what resolution?

MIPI-DSI is the display interface that is natively supported and the maximum resolution is FullHD 1080p; 16/18/24 bpp RGB. HDMI v1.3a supporting 1080p@30fps/720p@60fp is also supported with onboard conversion from DSI to HDMI on the reference carrier.

Note that the displays are not provided as peripherals with the Inforce 6301 reference design. They can be purchased fromhttps://inforcecomputing.com/product/accessories.html.

13. What are the capabilities of the video Decoder/Encoder?

Please refer to https://developer.android.com/guide/appendix/media-formats.html for supported codecs from Android.


Supported Codec

Container Format



Video Decoding

H.263 hw accelerated

• 3GPP (.3gp)
• MPEG-4 (.mp4)

Profile 0 level 70


H.264 AVC hw accelerated

• 3GPP (.3gp)
• MPEG-4 (.mp4)

High profile level 4


MPEG-4 SP hw accelerated

3GPP (.3gp)

Adv Simple profile level 5




Adv Simple profile level 3


DivX 4, 5, 6/MP2




DivX 3.11 Hardware-based



 D1 FWGA/2mbps/30fps


• WebM (.webm)
• Matroska (.mkv



Sorenson Spark/On2 VP6




Video Encoding


• 3GPP (.3gp)
• MPEG-4 (.mp4)

Profile 0 level 70


H.264 AVC

• 3GPP (.3gp)
• MPEG-4 (.mp4)

High profile level 4




Adv Simple profile level 5



14. What are the camera capabilities of the Inforce 6301 Micro SOM?

The camera interface is through 4-lane+2-lane MIPI-CSI and can support up to 13MP sensors. Dual camera capability in PiP mode is also possible. The 4-lane CSI0 supports CMOS and CCD sensors and is capable up to 13MP sensors. The 2-lane CSI1 has webcam support and is capable up to 8MP sensors. Inforce 6301 Micro SOM has been validated with the OV5640 camera module from OmniVision®. Note that the camera module is not provided as part of the Inforce 6301 reference design. It could be purchased as an accessory from https://www.inforcecomputing.com/products/accessories.

15. How much power does the board draw? Is it possible to measure the power?

The Inforce 6301 reference design is powered by a 12V/3A wall adaptor. The Inforce 6301 SOM coupled with the smaller reference carrier (ACC-1C10 accessory) is powered by a 5V/3A wall adaptor. Our products typically offer support for 7V-16V power input range. The total power consumed by the Inforce 6301 reference design ranges between 6W to 17W when different use cases are executed. There are no test points made available to measure run-time power on the board. But the input current through the DC jack can be measured during different use-cases. Please note that we do run the Trepn profiler as part of our validation process on all our stock Android releases.

16. What are the audio capabilities?

Audio is available through HDMI, USB and speaker out. Note that HDMI is available only on the ACC-1C10 reference carrier. The Inforce 6301 reference design comes with a microphone for recording and a combo jack for microphone and speaker out.

17. What documents are provided? Are board design files also provided?

We provide datasheets, user guide and a Hardware Reference Manual. Schematics are not provided for the Inforce 6301. Board design files are proprietary and confidential and hence not provided.

All software releases are accompanied with release notes, user guides and application notes that describe the installation procedure.

18. What is the support model from Inforce after products are purchased?

Inforce offers a range of standard products off-the-shelf (OTS) on its website and through their distributor, Arrow Electronics. Apart from these, it offers pre-validated build-to-order (BTO) configurations, as well as configure-to-order (CTO) options for existing products. In addition, it also offers full custom hardware design and associated software/device driver development, for those projects where a unique design is required to meet sophisticated technical challenges. From a technical support perspective, Inforce offers a Tech Support Contract for its customers who would like unlimited prioritized technical support. The package includes unlimited prioritized email-based tech support and a direct email contact from its engineering team. If required, arrangements for limited phone-based support can also be enabled.

Networking, IO and Wireless

19. Does the device support networking and wireless?

Supported connectivity includes Wi-Fi 802.11 b/g/n + Bluetooth 4.1 (available via Qualcomm Atheros WCN3620) and GPS (supported via Qualcomm WGR7640).

20. How can I change the MAC address for WiFi/BT/Ethernet on my Board?

MAC addresses are fixed at the factory. Changing them should not be necessary since the correct addresses are programmed before the board is shipped. But if it is still required, please refer to the Release Notes and App notes available on Inforce’s TechWeb.

21. What are the IO interfaces available?

Standard I/O interfaces including I2C, SPI, UART, UIM, GPIOs, and on-board Serial Console are available. There are multiple USB 2.0 host ports (Carrier ACC-1C10 needed). Inforce reference carriers include an expansion header with accessible GPIOs and BLSPs available for user configuration.

22. My serial console shows garbage characters on the Inforce 6301 reference design. What could be wrong?

The serial port could be incorrectly configured. Please note that the correct settings are - 115200, 8, N, 1, No HW flow control. Please also check your connections as described below.

To connect the serial console on Inforce 6301 board we would need to have a three pin connector and the wiring as described below:


Take wires from the DB9 port and connect it to the RS232 header on board

DB9   TX                ----------   6501 R1IN

DB9   RX               ----------   6501 T1OUT

DB9   GND           ----------   6501 GND


23. What operating systems are supported and what is the OS roadmap?

BSPs for Android Lollipop and Debian Linux versions are available today as officially supported packages on the Inforce TechWeb. Periodic releases shall be provided with feature improvements on both these packages. Inforce also upgrades the BSPs to newer Android releases and upstream Linux kernel to support feature improvements on its platforms. Please stay tuned for announcements on our website for update releases.

24. Is root access possible? Could you please explain how to get root privileges in Android?

Yes. As Android derives from the Linux kernel, rooting an Android device gives similar access administrative permissions as on Linux. Please give below commands in adb shell to get root privileges

#adb root

#adb remount

25. Is fastboot supported? How to enter fastboot?

Yes. To go to fastboot mode, press the Vol- button (label 3 on the Quick Start Guide document for Inforce 6301 reference design) before powering on the board.

26. I’ve modified the boot partitions on my board and the board is no longer booting. What should I do?

If the eMMC partitions have been erased or the partition table has been corrupted, you need to recover the eMMC using the instructions you can find on Inforce Techweb support portal by referring to the application note called "Inforce 6301 AppNote Recovery of bricked boards using SD Card".

27. Is Hexagon DSP supported on the Inforce 6301 platform?

Yes. The Inforce 6301 Micro SOM has a Qualcomm Hexagon™ QDSP6 Version 5 processor that runs up to 691MHz. The CPU computations related to real-time media and sensor processing can be offloaded to the Hexagon DSP. The custom audio/voice algorithms, encoders, and decoders to the audio framework are some of the use-cases possible on the Hexagon DSP. Qualcomm also opens up a comprehensive Hexagon SDK for all its processors that provides for a complete environment to generate dynamic Hexagon DSP code modules. Hexagon SDK can be obtained from


Inforce enables the usage of this Hexagon SDK through its officially supported Android releases.

28. How can I get kernel debug messages?

Connect the device’s serial port to the host PC. Refer to Question 21 for connection configuration. Boot into fastboot mode and issue the following command –

fastboot -c “console=ttyHSL0,115200n8r androidboot.hardware=qcom” boot boot.img

Debug messages should start to show up.

29. Is Google Play available on my board?

Google Play is part of Google Mobile Services (GMS) and is licensed separately from Google. Though our hardware is capable of meeting requirements of the Google Test Suite that would lead to GMS certification, we have not added this to our product.

Nevertheless, it is possible to sideload any Android application using the following commands:

#adb devices

#adb mount

#adb remount

#adb install apk

Inforce Computing offers multiple SKU variants of the Inforce 6301 Micro SOM to suit varied end-use applications.
Part Number Description Single Unit PriceAvailability
IFC6301-00-P2 Snapdragon 410 processor, Android Lollipop OS, 1GB RAM; 8GB eMMC $85 Off the Shelf: Order Online
IFC6301-10-P2 Snapdragon 410 processor, Linux OS, 1GB RAM; 8GB eMMC $85 Off the Shelf: Order Online
SYS6301-00-P1 IFC6301-00-P2 with ACC1C10-P2 carrier and kit. $185 Off the Shelf: Order Online
SYS6301-10-P1 IFC6301-10-P2 with ACC1C10-P2 carrier and kit. $185 Off the Shelf: Order Online

For more information and to place an order for more quantities, contact the Inforce sales team at (510) 683-9999 or at sales-wc@smartwirelesscompute.com.

Additional Info