Intel Edison

Intel Edison

Developer	Intel Corporation
Type	Tiny Board Computer
Release date	Q3'14
Discontinued	June 19, 2017 (2017-06-19)^[1]
CPU	Atom 2-Core (Silvermont) @ 500 MHz
Memory	(LPDDR3 1 GB)
Storage	4 GB EMMC
Website	software.intel.com/en-us/iot/hardware/edison

The Intel Edison is a computer-on-module offered by Intel as a development system for wearable devices^[2] and Internet of Things devices. The system was initially announced to be the same size and shape as an SD card and containing a dual-core Intel Quark x86^[3] CPU at 400 MHz communicating via Bluetooth and Wi-Fi.^[4]^[5] A later announcement changed the CPU to a 22 nm Silvermont dual-core Intel Atom CPU,^[6] and in September 2014 a second version of Edison was shown at IDF, which was bigger and thicker than a standard SD card.^[7]^[8]^[9]

The board was discontinued on June 19, 2017.^[1]

First version

Its launch was announced at CES in January 2014.^[2] Intel CEO Brian Krzanich showed a demo of a baby monitoring system (Nursery2.0) which was created using Intel Edison.^[10] He also announced that the Wolfram Language and Mathematica will be available on the Intel Edison^[11]^[12] and that the device will be able to run Linux.^[13]

Second version

In March 2014, Intel announced changes in the Intel Edison project and the second version of the board was presented in September 2014. Its dimensions are 35.5 x 25 x 3.9 mm, with components on both sides. The board's main SoC is a 22 nm Intel Atom "Tangier" (Z34XX) that includes two Atom Silvermont cores running at 500 MHz and one Intel Quark core at 100 MHz (for executing RTOS ViperOS). The SoC has 1 GB RAM integrated on package. There is also 4 GB eMMC flash on board, Wi-Fi, Bluetooth 4 and USB controllers. The board has 70-pin dense connector (Hirose DF40) with USB, SD, UARTs, GPIOs. The price of the device is around 50 USD.^[14] It runs Yocto Linux with development support for Arduino IDE, Eclipse (C, C++, Python), and Intel XDK (NodeJS, HTML5).

Interface connector

The connector on Intel Edison is a Hirose 70-pin DF40 Series “header” connector. (Hirose part number: DF40C-70DP-0.4V(51)). It exports many signals (USB, GPIOs, SPI, I²C, PWM, etc.).

The mating Hirose connector on an expansion board is the “receptacle” connector and is available in three different heights (1.5 mm, 2.0 mm, 3.0 mm).

Development boards

Arduino board

Arduino Uno Compatible Board for Edison Module

Intel Released an Arduino Uno compatible board (with only 4 PWM pins instead of 6) that accepts the Intel Edison module. Newer revisions have 6 PWM pins.

Board I/O Features:

20 digital input/output pins, including 6 pins as PWM outputs
6 analog inputs
1 UART (Rx/Tx)
1 I²C
1 ICSP (In-system programming) 6-pin header (SPI)
Micro USB device connector OR (via mechanical switch) dedicated standard size USB host Type-A connector
Micro USB device (connected to UART)
SD card connector
DC power jack (7 to 15VDC input)

Intel breakout board

Intel Edison Break Out Board

Intel released a breakout board that is twice the area of the Intel Edison module and is designed for prototyping with open source hardware and software.

Exposes native 1.8 V I/O of the Edison module
0.1” grid I/O array of through-hole solder points
USB OTG with USB Micro Type-AB connector
USB OTG power switch
Battery Charger
USB to device UART bridge with USB Micro
Type-B connector
DC power supply jack (7 V – 15 V) DC input

The table below lists the signals from the Edison Module that are routed to the four breakout connector (J17-J20). The figure below shows the location of each connector.

Intel Edison Breakout Board - Breakout Connectors

Pin	Function	Alternate Function	Description	Pin	Function	Alternate Function	Description
J17 - pin 1	GP182_PWM2		GPIO capable of PWM output.	J18 - pin 1	GP13_PWM1		GPIO capable of PWM output.
J17 - pin 2	NC		No Connect	J18 - pin 2	GP165		GPIO
J17 -pin 3	NC		No Connect	J18 - pin 3	GPI_PWRBTN_N		Power button input.
J17 - pin 4	VIN		7 to 15 V.	J18 - pin 4	MSIC_SLP_CLK2		32 kHz sleep clock.
J17 - pin 5	GP135	UART2_TX	GPIO, UART2 transmit output.	J18 - pin 5	V_VBAT_BKUP		RTC backup battery input.
J17 - pin 6	RCVR_MODE		Firmware recovery mode.	J18 - pin 6	GP19	I2C1_SCL	GPIO,IC21 SCL output open collector.
J17 - pin 7	GP27	I2C6_SCL	GPIO,IC26 SCL output open collector.	J18 - pin 7	GP12_PWM0		GPIO capable of PWM output.
J17 - pin 8	GP20	I2C1_SDA	GPIO, I2C1 data open collector.	J18 - pin 8	GP183_PWM3		GPIO capable of PWM output.
J17 - pin 9	GP28	I2C6_SDA	GPIO, I2C6 data open collector.	J18 - pin 9	NC		No Connect
J17 - pin 10	GP111	SSP5_FS1	GPIO, SSP2 chip select 2 output.	J18 - pin 10	GP110	SSP5_FS0	GPIO, SSP1 chip select 2 output.
J17 - pin 11	GP109	SSP5_CLK	GPIO, SSP5 clock output.	J18 - pin 11	GP114	SSP5_RX	GPIO, SSP5 receive data input.
J17 - pin 12	GP115	SSP5_TXD	GPIO, SSP5 transmit data output.	J18 - pin 12	GP129	UART1_RTS	GPIO, UART1 ready to send output.
J17 - pin 13	OSC_CLK_OUT_0		High speed clock output.	J18 - pin 13	GP130	UART1_RX	GPIO, UART1 receive data input.
J17 - pin 14	GP128	UART1_CTS	GPIO, UART1 clear to send input.	J18 - pin 14	4 FW_RCVR		Firmware recovery, active high on boot.

J19 - pin 1	NC		No connect.	J20 - pin 1	V_VSYS		System input power.
J19 - pin 2	V_V1P80		System 1.8 V I/O output power.	J20 - pin 2	V_V3P30		System 3.3 V output.
J19 - pin 3	GND		Ground.	J20 - pin 3	GP134	UART2_RX	UART2 Rx (input).
J19 - pin 4	GP44	ALS_INT_N	GPIO, Ambient light Sensor interrupt input.	J20 - pin 4	GP45	COMPASS_DRDY	GPIO, compass data ready input.
J19 - pin 5	GP46	ACCELEROMETER_INT_1	GPIO, accelerometer interrupt input.	J20 - pin 5	GP47	ACCELEROMETER_INT_2	GPIO, accelerometer interrupt input 2.
J19 - pin 6	GP48	GYRO_DRDY	GPIO, gyro data ready input.	J20 - pin 6	GP49	GYRO_INT	GPIO, gyro interrupt input.
J19 - pin 7	RESET_OUT#		System reset out low.	J20 - pin 7	GP15		GPIO.
J19 - pin 8	GP131	UART1_TX	GPIO, UART 1 Tx output.	J20 - pin 8	GP84	SD_CLK_FB	GPIO, SD clock feedback input.
J19 - pin 9	GP14	AUDIO_CODEC_INT	GPIO, audio codec interrupt input.	J20 - pin 9	GP42	SSP2_RXD	GPIO, SSP2 Rx data input.
J19 - pin 10	GP40	SSP2_CLK	GPIO, SSP2 clock output.	J20 - pin 10	GP41	SSP2_FS	GPIO, SSP2 frame sync output.
J19 - pin 11	GP43	SSP2_TXD	GPIO, SSP2 transmit data output.	J20 - pin 11	GP78	SD_CLK	GPIO, SD clock output.
J19 - pin 12	GP77	SD_CDN	GPIO, SD card detect low input	J20 - pin 12	GP79	SD_CMD	GPIO, SD command.
J19 - pin 13	GP82	SD_DAT2	GPIO, SD data 2	J20 - pin 13	GP80	SD_DAT0	GPIO, SD data 0.
J19 - pin 14	GP83	SD_DAT3	GPIO, SD data 3	J20 - pin 14	GP81	SD_DAT1	GP81 SD data 1.

Modulowo board

In October 2015, Modulowo^[15] published information about the development kit Modulowo Explore E for Intel Edison.^[16] Development Board allows for quick prototyping and design new solutions and adding sensors, controllers lights, motor drivers, GPS modules, communication modules and more.

References

1 2 Intel Discontinues Joule, Galileo, And Edison Product Lines | Hackaday
1 2 "Intel's smallest computer to power wearable devices". PC World. 2014-01-06.
↑ "Intel Edison".
↑ "Intel announces Edison: a 22 nm dual-core PC the size of an SD card". Engadget. 2014-01-06.
↑ "Intel Edison: an SD-card sized PC for wearable computing". PC Pro. 2014-01-07.
↑ "Wearables: Tailoring Intel Edison Technology to Provide Expanded Benefits". Intel. 2014-03-28.
↑ "Intel's SD card-sized computer may not be so tiny after all". Engadget. 2014-03-31.
↑ Brown, Eric (Sep 10, 2014). "Edison IoT module ships with Atom/Quark combo SoC". LinuxGizmos. Retrieved 14 September 2014.
↑ "Intel's Edison launches at IDF, and it's still tiny". Engadget. September 9, 2014. Retrieved 14 September 2014.
↑ "CES 2014: Keynote Address by Brian Krzanich, CEO of Intel (start at 21:56) - YouTube".
↑ online, heise. "Intels Edison: Pentium-System im Format einer SD-Karte".
↑ "MSN.com - Hotmail, Outlook, Skype, Bing, Latest News, Photos & Videos". Archived from the original on 2014-02-02.
↑ Brian Benchoff. "Intel Edison: A Desktop From 1998 In An SD Card". Hackaday.
↑ Eric Brown (Sep 10, 2014). "Edison IoT module ships with Atom/Quark combo SoC". LinuxGizmos. Retrieved 2014-09-14.
↑ "Zestawy rozwojowe - Modułowo". Modułowo (in Polish). Retrieved 2015-11-30.
↑ "Modulowo® Explore™ E for Intel® Edison - Modulowo". Modulowo. Retrieved 2015-11-30.

External links

Wearables: Tailoring Intel Edison Technology to Provide Expanded Benefits, Intel.
Edison module // Intel
Intel Edison Development Platform
Intel Edison Kit for Arduino (Hardware Guide), Intel, February 2015
Intel Edison Breakout Board (Hardware Guide), Intel, February 2015

Intel technology
Platforms	Centrino Centrino 2 Viiv MID Tablet CULV Ultrabook Skulltrail NUC Galileo Edison Curie
Discontinued	Common Building Block MultiProcessor Specification Intel Communication Streaming Architecture Intel Inboard 386 Intel Play MMC-1 MMC-2
Current	Advanced Programmable Interrupt Controller APIC x2APIC Intel Turbo Boost vPro Intel Secure Key Active Management Technology AMT versions High-bandwidth Digital Content Protection High Definition Audio Hub Architecture Matrix RAID I/O Controller Hub Enhanced SpeedStep Serial Digital Video Out Host Embedded Controller Interface Omni-Path Platform Environment Control Interface QuickPath Interconnect Platform Controller Hub System Management Bus Thunderbolt
Upcoming	Silicon Photonics Link

Single-board computer & Single-board microcontroller

Devices

SoCs

ARM	Allwinner Ax Exynos i.MX K3V3 MT Nomadik NovaThor OMAP Rockchip Qualcomm Snapdragon Tegra WonderMedia
MIPS	Jz
x86/x86-64	Atom Jaguar-based Puma-based Quark

Software

Comparison of single-board computers

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