Join Us In Michigan October 1st!

If you live near the western side of Michigan, then please join us for a day dedicated to technology.  Avnet will have many vendors and hands on demonstrations to interact with.

Below is the class agenda.  To sign up visit this link: http://www.em.avnet.com/en-us/design/trainingandevents/Pages/Avnet%27s-West-Michigan-Technology-Fair.aspx 

Time	Description	Location
8:00 AM - 5:00 PM	Registration	Exhibitor Hall
8:30 AM - 8:45 AM	Opening Remarks	Exhibitor Hall
9:00 AM - 9:50 AM	Atmel: Tired of Being Wired? Atmel's Wireless Products Provide the Solutions!!!	Room 1
	TI: WEBENCH® Power Designer – Making Power Supply Design Easier	Room 2
10:00 AM - 10:50 AM	Infineon: XMC1000 for lighting applications	Room 1
	Maxim: Powering Industrial Control Systems	Room 2
11:00 AM - 11:50 AM	SiLabs: Build A Weather Station: An Embedded MCU and Sensor Solution	Room 1
	Freescale: Bring Your Ideas to Market Faster with Freescale Complimentary Development	Room 2
12:00 PM - 12:50 PM	Lunch	Exhibitor Hall
1:00 PM - 1:50 PM	Microchip: Wireless Technology Overview	Room 1
	Intersil: Power Management for Industrial Applications	Room 2
2:00 PM - 2:50 PM	Xilinx: Xilinx's Zynq All Programmable Development Environment	Room 1
	ST: Extending Battery Life with ST’s Low Power MCUs	Room 2
3:00 PM - 3:50 PM	Renesas: 32-bit MCU solutions for the Industrial Market	Room 1
	Microsemi: Microsemi SOC and FPGA Advantage	Room 2
4:00 PM - 4:50 PM	Avnet RFID: Avnet RFID/NFC Technology Overview	Room 1
	Avnet Lighting: LED CoB and flexibility in design	Room 2
5:00 PM - 7:00 PM	Closing Remarks & Happy Hour	Exhibitor Hall

Join us for Bluetooth Low Energy Training!

Please join us for a Bluetooth Low Energy training at Avnet in Pewaukee, Wisconsin.  On April  2^nd, we will be holding a half-day seminar, focused on building a Bluetooth Low Energy applications.  You will walk away with two kits that can interface to popular Bluetooth Low Energy devices.  Click the link to register.

http://www.em.avnet.com/en-us/design/trainingandevents/Pages/Using-Anarens-B-Smart-BoosterPack-to-easily-control--monitor-your-embedded-device-from-an-iPhone-or-iPad.aspx

CES Introduction from ATMEL

Hello and Happy New Year!  I want to post a new low power, small form factor microcontroller from ATMEL.  For all the wearable designs going on at CES I thought this should be a processor of consideration for these types of applications:

Atmel launched a brand new family of microcontrollers, the SAM G, at the Consumer Electronic Show (CES) last week. The SAM G family targets ultra-low-power, small form factor and high-performance applications. With a Cortex-M4 CPU with FPU bundled with the low power consumption, these devices offers unrivaled efficiency in a very small package, just 3 x 3 mm WLCSP with 49 balls. With an optimized and highly-efficient set of serial peripherals, 12-bit ADC, digital audio, DMA and a good SRAM-to-flash ratio. The SAM G devices targets a broad range of low-power, space-constrained applications especially consumer sensor hubs.

Family overview

	SAM G51	SAM G53
Frequency	48MHz	48MHz
Flash	256KB	512KB
SRAM	64KB	96KB
USART/UART	1 + 2	2 + 2
I2C Master	2 @ 400kbps	2 @ 400kbps
I2C Slave	1 @ 3.4Mbps	1 @ 3.4Mbps
SPI	1	1
Timer / Counter	3 x 16-bit	6 x 16-bit
12-bit ADC	8	8
I2S / PDM	-	2
PLL	1	1
picoPowerTM	Yes	Yes
SleepWalking	Yes	Yes
GPIO	38	38
WLCSP size	2.84 x 2.84	3.07 x 3.07

The SAM G family comes in two series, the SAM G51 and SAM G53. These devices are fully compatible, even down to the WLCSP package.

The SAM G family is all about low power. There are 3 main areas that the SAM G is optimized for: active, deep sleep with SRAM retention, and wake-up time. For most battery-powered applications these three figures are what affect the system power consumption. The G family features:

·         Down to 100 µA/MHz in active

·                                                                                                                                                                                                      Below 7 µA in deep sleep with SRAM retention

·         Down to 3 µs wake-up from

deep sleep to executing the

first instruction in active mode

Both the G51 and G53 embed a Cortex-M4 CPU with an FPU (floating point unit). This ensures maximum throughput. This is very important as it allows you to minimize the active power consumption and get to sleep faster in order to reduce the overall power consumption. Additionally, the devices have 16 DMA channels, which give extremely high throughput. The combination of ultra-low power consumption, fast wake-up time and high throughput is what gives the SAM G the edge in space- and power-constrained consumer applications such as sensor hubs. It wakes up quickly, has the throughput needed to reduce the amount of time spent in active mode, and then goes back to sleep with SRAM retention to conserve energy. This gives the best performance and longest battery lifetime. The SAM G family of devices is fully-functional all the way down to 1.62V, including flash reads and writes, as well as full ADC operation. This allows for a more flexible power supply scheme that will squeeze extra runtime out of a battery.

 Sensor Hubs

In today’s connected world, sensors are all around us. Engineers continue to design them into an increasing number of everyday products. Requirements have changed from simple monitoring to comprehensive interpretations of a device’s status. This can require simultaneous analysis and fusion of data from different sensors and sensor types. Hubs take data from accelerometers, gyroscopes and magnetometers, as well as environment sensors like light level, color, temperature, pressure, and humidity. To simplify the task, Atmel has partnered with leading sensor manufacturers and sensor fusion specialists to provide a complete, easy-to-implement Sensor Hub ecosystem. The SAM G family of devices is especially designed for these types of applications. Take a look at atmel.com/SensorHubs for more information.

Tools

The SAM G53 Xplained Pro is the recommended evaluation kit for both the SAM G51 and the SAM G53. The kit features a SAMG53N19A-AU and provides you with everything you need to start designing new microcontroller-based applications in minutes.

·         Easy to connect — Through an embedded debugger, Xplained Pro boards connect just with a USB cable to a PC for programming and development.

·         Easy to develop — The boards are automatically recognized by the Atmel Studio 6 integrated development platform (IDP), so you get direct access to example projects and documentation.

·         Easy to extend — Hardware extension boards provide easy access to all functionality of the MCU. The Atmel Software Framework provides a large set of software drivers and components.

The SAM G family of devices and SAM G53 Xplained Pro are fully supported by the Atmel Software Framework and Atmel Studio as well as 3rd parties such as IAR and Keil.

Device Availability

The SAM G is in mass production and available for orders today. The devices are sampling as a regular device directly from the Atmel Sample Center.

CPN	Package type
SAMG51G18A-UUT	49-ball WLCSP
SAMG51N18A-AU	100-pin TQFP
SAMG53G19A-UUT	49-ball WLCSP
SAMG53N19A-AU	100-pin TQFP

Please let me know if you need more information

New Event in Milwaukee - December 11th

With all the different wireless technologies available, how do you decide which one is right for you?  The Milwaukee Tech Engine would like to invite you to learn about the different wireless technologies around you.   In this technical talk, we will survey the different wireless technologies available and showcase demos of how they might be used.  The demos will be focused on using wireless technologies in the embedded space for integration into custom designed products.  

Check out this link to learn more - http://www.meetup.com/Milwaukee-Tech-Engine/events/152558622/ 

Chip of the Week: Maximize your energy measurement

I wanted to let you know of a new energy measurement solution from Maxim Integrated.  By utilizing a low-cost galvanic isolation method that doubles as a communication medium, Maxim has created an accurate energy measurement system.  There is a development kit available for this device and we can help you get started.  Check out this link to learn more - http://www.maximintegrated.com/app-notes/index.mvp/id/5723

Features

·         High-accuracy power measurement ·         High-voltage galvanic isolation ·         Preset gain/offset parameters ·         On-board 4mΩ current sensing resistor with a good temperature coefficient ·         On-board voltage sensing resistor divider with a ratio of 2667:1 with good temperature coefficient ·         Universal AC input voltage range from 90 to 264VAC ·         Pluggable terminals for AC (8A max) ·         Small printed-circuit board (PCB) area ·         Device drivers ·         Example C source code ·         Configuration files for Xilinx LX9 and ZedBoard™ platforms ·         Pmod™-compatible form factor

New Event In Milwaukee - November 20th

Please join an after hours engineering talk presented by Milwaukee Tech Engine.  To learn more and sign up visit this link.  http://www.meetup.com/Milwaukee-Tech-Engine/


To learn more check outhttp://www.meetup.com/Milwaukee-Tech-Engine/   



Spooky Halloween and the Internet of Things...

In honor of Halloween coming I wanted to share this video on adding wireless devices to your Halloween. If you need help in getting these devices to work, please feel free to contact your local Avnet team:

http://e2e.ti.com/blogs_/b/connecting_wirelessly/archive/2013/10/15/it-s-an-iot-halloween-use-wireless-connectivity-to-spook-your-visitors.aspx