rf and analogue solutions for the connected world. and analogue solutions for the connected world....

Chris Cokayne

Sales Manager

UK, Ireland and South Africa

RF and analogue solutions for the

connected world.

February 2017

Agenda

► ADI IoT Strategy Focus.

► Current IoT Focused Developments

Low Power & Energy Harvesting.

Sensors, MEMS Inertial, Optical & Emerging Sensing.

SNAP Sensor Overview.

Low Power MCUs & ISM Band Transceivers.

ADI Connect Program Summary.

Hardware Development Platforms.

► Questions & Answers.

2 Analog Devices Confidential Information—Not for External Distribution

ADI IoT Strategy Focus

Analog Devices Confidential Information—Not for External Distribution3

IoT is a Signal Chain extending to the Cloud….

sensing processing comms analyticscloud

Gateway Analytics

Apps Processing

Connectivity

Our Ambition – From Data to Information to Predictive Analytics

Sensors,

Analog +

Mixed Signal

Processing

Algorithms,

Domain

Knowledge

Data History,

Data

Analytics

Physical

Phenomena

Light

Radio Waves

Sound

Pressure

Motion

FuturePast

Data InformationAwareness

Predictive

Analytics

Decisions

SignalsFactual

Bit streams

Interpretations Pattern RecognitionTransformations Predictions

Computational

ModellingContext

Meta-Patterns Meta-Decisions

IoT Cloud

Connections

End Node ` Gateway Cloud

Wifi Hub

Phone

Light Pole

Connected World – ADI’s IoT Focus

6 Analog Devices Confidential Information

ADI and the Internet of Things – Partner Network

► In IoT Partnerships are the name of the game. No one company can do everything.

► ADI will work with Partners to enable “Out-of-the-Box” IoT solutions for our customers. ADI is actively building out a partnership

network.

This list shows existing partners and potential future partners.

► Many companies are racing to build extensive IoT Ecosystem partnerships.

7

IoT Cloud Platforms

Business Systems /

Analytics Services

IP Sources

Alliances / Consortia

Hosting Services

Engaging with Partners – Building out ADI’s IoT Capability

Analog Devices Confidential InformationAnalog Devices Confidential Information

Current IoT Focused Developments

Low Power & Energy Harvesting

8

What’s Possible for Extending Battery Life!

Ultra-Low Power Conversion

• uW Power Conversion

• Micro Energy Harvesting

Battery Management

• Safe/Robust Charging

• uW Fuel Gauge

• Low Battery Leakage

Power Integration

• Complex System Consideration

• Multiple Functionalities

9

ULP Power: Now and Future!

10

ULP Energy HarvestADP5090

ULP SW-RegADP530x, ADP5310

ULP Linear-RegADP16x

ULP SupervisoryADM8611

ULP ComparatorADCMP380

What we have achieved:

•Most efficient PV/TEG boost: ADP5090

•Best sub-1mW DCDC efficiency: ADP5300

•92nA supply current supervisory: ADM8611

Energy Harvesting

Powering

ULP System

2nd gen PV/TEG HarvestingADP5090(Crandall-2)

Complete TEG Harvesting SystemADP5090+ADI TEG

Tiny Battery

Powering

ULP System

Motion-Based HarvestingPEZ PMU

ULP PMIC for CON/HCR WearableADP5350/ADP5360

ULP PMIC for Wireless VSMADP5320

What we’re targeting in next 1-3 years:

•System knowledge of energy harvesting

•Higher level of integration for ULP system

ADI’s ULP Platform Technology

Mixed Signal ULP Precision AFEs

Cortex-M0 / M3

RF Transceivers and

Controllers2.4GHz / Sub GHz TRx

Cortex-M0 / M3

Power ManagementUltra-low Iq LDOs

Integrated energy

harvesting power solution

Energy SourcePartners: Battery,

PV, TEG, piezo, etc.

Sensor ElementsTemp, motion, Gas, pressure,

humidity, airflow, ALS, etc.

Power

Management

/ Conversion

Wireless

Transceiver

&

Control

Energy StorageSupercap,

Thin Film Battery, etc.

Sensor

Elements

External

Internal

Energy

Storage

Energy

Source

Signal

Conditioning,

Conversion

& Control

Power

PlatformSensing

Platform

Connectivity

Platform

System Platform (Hardware and Software)

Analog Devices Confidential InformationAnalog Devices Confidential Information


Sensors, MEMS Inertial, Optical & Emerging

Sensing

12

Analog Devices Confidential Information

MEMS & Sensor Leadership From Analog Devices

25 Years of Firsts and Milestones

ADI CONFIDENTIAL13

1989Working

MEMS

Sensor

1991High-g

MEMS

XL

1996Low-g

MEMS

XL

1999Low-g,

2-axis

MEMS

XL

2003iMEMS

Gyro

2006Low-g,

3-axis

MEMS

XL

2007Indus-

trial

IMU

2009MEMS

Mic

2013ULP

MEMS

XL

2013Wireless

Vibration

Sensor

2014Optical

Sensor

2014AMR

Sensor

100MSensors 1B

Sensors

http://www.deere.com/en_AU/equipment/ag/precision_ag/accuracy/itc.html

http://www.deere.com/en_AU/equipment/ag/precision_ag/accuracy/itc.html


Optical Heart Rate MonitorGyros & XLs

Magnetic AMR

MEMSIsolation

Emerging Sensors‘More-than-Moore’ Fabrication


Blood Glucose

Body Composition

General purpose Electrochemical Sensor system

Gas Sensing, Biological Lab Assay Interface

High Precision, Low Power Smart Sensor Signal Processing IC

for Portable Health Applications

Electrochemical Sensor ASSPsHealthcare Meter on a Chip


ADI Sensor Technology Leadership

► Motion Sensor Technology

Accelerometer

Gyroscopes

► Environmental Sensing Technology

Temperature

Air quality / gas sensor solutions

► Healthcare / VSM Sensing Technology

Impedance for high accuracy NIBP measurement

Bio-Potential for HRM and ECG monitoring

► Integrated & Emerging Sensor Technology

Inertial Measurement Units

Optical / Photonic

Infrared Thermopile


Alternative1

Alternative 2

ADXL362

Real time, human motion

sensing ODR

Occupancy Sensing – Blackfin Low Power Imaging Platform (BLIP)


Best of

Sensors

Expo -

Application

of the Year

2015

Analog Devices Confidential InformationAnalog Devices Confidential Information 18

SNAPsensor Overview

Analog Devices Confidential Information.

© Analog Devices, Inc. 2016, all rights reserved.

SNAPSensor

► SNAPsensor focus on image sensors for information extraction and movement detection

► Original CMOS imager developed with the complete system in mind.

► Acquired by ADI in March 2016

Analog Devices Confidential Information—Not for External Distribution

Security Systems

High Security / Dog-Human Classifications

Building Automation

High Sensitivity / No timer / Occupancy level

People SensingStreet Parking Spot Monitoring

Policing and space identification

Street Activity Monitoring

For light dimming, for traffic monitoring

Smart City

Vision sensors for OEMsSNAPsensor: CMOS Sensor Technology & Target Use-Cases

► SNAPsensor specialized vision sensors are designed to extract information for robust and low power

Sensing


SNAPsensor: Image Technology Comparison

Illumination independent information extractionWithin scenes with very high dynamic range

Regular imager

SNAPsensor

imager


Illumination independent information extractionWithin scenes with very high dynamic range

Constant contrast sensitivity over the full dynamic range

SNAPsensor: Illumination Independent Information Extraction

Regular imager

SNAPsensor

imager


See details within dark, light and reflective areas of imagesUnique logarithmic sensitivity

Noon 6:30PM

SNAPsensor Imager Technology

Regular imager

SNAPsensor

imager


SNAPsensor Enablers

S2 image sensor unique characteristics

Extract details in bright and darker area in single frame

Normalized signals overtime allowing continuous

robust monitoring

Robust contrast extraction

2 years outdoor monitoring software R&D

10 years occupancy software R&D

Lower solution cost

Minimize processing

Minimize system components

Minimize power dissipation

Patented imager, Applications software patent

pending


► Logarithmic imager sensitivity

Logarithmic coding adapted to vision processing

High intra-scene dynamic range 130dB (23 bits)

Log of luminance represented in 10 bits

► Information independent of illumination

Single shot optimally exposed image

Each pixel adapts to it’s auto shoot

Time-domain digital logarithmic pixels

SNAPsensor: Patented technology delivers sensing robustness


Logarithmic coding adapted to Vision Processing

• Relation between Luminance (L), illumination (I), reflectance (R):

LX = I•RX => log(LX) = log(I) + log(RX)

• Easy to compute contrast by simple subtractions

log(RX/RY) = log(LX) - log(LY) = log(I)+log(Rx)-log(I)-log(Ry)

Patented technology delivers sensing robustness SNAPsensor: Differentiated Performance Through Logarithmic Processing


Sensing

Robustness

uC or Low Cost DSP Options examples:

ADI BF70x without external memory

ADuCM30xx

Patented technology delivers economical solutionsSNAPsensor: Patented technology delivers economical solutions

or PPI


SNAPsensor: Solution Advantages

Sensing

Robustness

Low System

Cost

Fast Time

To Market

First and every shot optimally exposed

Very high intra-scene dynamic range

Constant contrast sensitivity

Data extraction independent of lighting

All pre-processing on sensor, zero setup delay

Low cost CPU processor and small memory

High energy efficiency, low power dissipation

Optimized Embedded Software System

Complete Application offer

Hardware development kit & Ref. Design

Development Environment for new applications


SNAPsensor: Product & Evaluation Kit Introductory

Packaged

ImagerFlex Sensor

Module

Sensing Embedded

System Software

Evaluation

Kit: BLIP-mini

Packaged Imager

PCB with Flex

M12 Lens Holder

QFN Package

• Packaged Imager

• PCB

• Optics

• BF706 Processor

• I/O

• Evaluation Software

OccupancyHR

ParkingOccupancy


SNAPsensor: Building Automation Use-Case – Occupancy Dev. Environment


Vision Sensing Solution Portfolio


ADI / IPDC Deliverables SNAPsensor Deliverables 3rd Party Ecosystem Deliverables

► BLIP HW with extensions for various

backhaul data output (USB, WiFi,

KNX, etc.)

► Video Occupancy Sensor (VOS):

Adaptive algorithmic package

► ADIVisionSensor Controller software

framework and GUI

► Discrete SNAPsensor imager and

integrated BLIP-MINI system

► SNAPsuite integrated software / algorithm

packages for occupancy & parking targets

► Integrated turn-key sensing equipment options

via strategic partnership arrangements

► Avnet Finboard extended performance

image processing platform (www.finboard.org)

► Cambridge Consultants Parking Guidance

embedded processing algorithm suite

► Ebsys Blackfin optimized optical character

recognition license plate recognition library

http://www.finboard.org/

SNAPsensor: Hardware Product Solutions Availability Timeline

Packaged

ImagerFlex Sensor

ModuleEvaluation

Kit: BLIP-mini

Samples & Pre-production: NOW

ADI RTP: 4Q16

OccupancyHR on BF706: NOW FAE availability: July 2016

Sensing Embedded

System Software



Low Power MCUs & ISM Band Transceivers.

Analog Devices Confidential Information—Not for External Distribution33

Ultra Low-Power Mixed-Signal Processing at ADI

34

In 2008 ADI established an ARM Cortex M-series strategy for ULP programmable mixed-signal ASSPs (M0, M3, M4)

Focused Application-Specific strategy rather than “catalog” products

Integration of ADI’s world-class convertor and analog technology with best-in-class ULP processing

Internal platform strategy supports rapid deployment of new products

Industrial, Healthcare, Consumer,

Automotive

Integrated Systems and Transceivers (IST)

► Increased focus on :

Differentiated ULP RF and MCU

Execution

Silicon quality

Ease-of-Use

Systems solutions

35

ULP Circuits /

SystemsIntegrated Precision

ULP ARM PlatformULP

Co-processorsSecure Silicon

Optimized RF

Customer

CollaborationsAlgorithms

ARM MCU+RF Integration

Embedded NVM

Standards-based RF for connectivity

Software deliverables & tools

► Developing ULP digital systems at advanced processes is a mixed-signal design challenge

Sleep mode power dominated by contribution from on-chip analog functions

► Core analog capability provides robust ULP

High Efficiency Integrated DC-DC Converters

Ultra Low Power Voltage Monitoring

Ultra Low Power Reference

Ultra Low Power oscillators and PLLs

Low Leakage IOs

Custom Power Switches

► Cortex M3 active power 47uA/MHz executing from Flash

Clock gating, frequency & voltage scaling

Optimized architecture, circuits & hardware accelerators (10 - 1000x power reduction)

► Sleep mode current from 70nA (no state-retain) to 1uA (state-retain)

Power gating; voltage islands; custom cells; custom SRAM

Dedicated Ultra Low Leakage silicon processes

Low Power MCU Technology

0

500

1000

1500

2000

2500

3000

3500

-60 -40 -20 0 20 40 60 80 100

Cu

rren

ts (

nA

)

Temperature (C)

Clock gate chip Power gate

Ultra Low Power Modes

37

Fast wakeup

Active mode

47μA/MHz running from flash

Activ

e

Activ

e

Hibernate mode

with retention, RTC on

<1μA

Shutdown mode

no retention 70nA7μs► Active mode

47uA/MHz executing from flash

► Flexi mode

MCU clock gated, but the system is active.

18uA/MHz when buck is enabled

► Hibernate mode

This mode provides SRAM, logic state and port pin retention

1uA when using external interrupts to wakeup

► Shutdown Mode

All circuits powered down with an option to wake from 4 wake-up sources.

70nA for full shutdown

► ADuCM302x processor 26MHz Cortex M3 256kB embedded flash (with ECC) and 64kb SRAM (parity)

47uA/MHz active power executing from flash with 3V supply

1uA sleep with logic and SRAM retention; 70nA deep sleep

Code protection & secure boot Cryptography accelerators

True Random Number Generator

System safety features Low PPM and robust operation over product lifetime

Word-based ECC and parity in memories

CRC engine, supply monitoring

12-bit SAR ADC Reference buffer & temp sensor

Extensive peripheral set and DMA engine

1st Si Achieved EEMBC ULPBench “6.3” rating

► Sampling today

► Datasheets & Specs Available

ADuCM302x ULP Processor

ADuCM3027/9

32KB (D) SRAM16KB retain

32KB (I) SRAM8/16KB retain

26MHz

Cortex M3

24ch

DMA

R/W

Protection

PMU

LDO

Buck

AES

128/256

SHA256

CRC

2xRTC

POR

PSM

TRNG

WDT

3xGPT

Flash 256/128K

44 GPIO

3xSPI, I2C, UART

Sport

Inter IC Interface


Digital Logic 12%

Memory30%Analog

42%

Pads16%

Low Power

ADM3x MCU Die Area and Floorplan

ADuCM3025 core is rated at 6uJ on the Embedded Microprocessor Benchmark Consortium (EEMBC) scale positioning it as one of the most power efficient MCUs in the industry

EEMBC ULP MCU Benchmark

40

vendor device RemarksEEMBC

Result

ADI ADuCM3029 (Jan 2016 samples) 4.76

ATMEL Atmel SAML21J18A-UES RevA - DC1506 *Without monitoring power supplies* 5.38

TI Texas Instruments MSP432P401R Rev. B *Without monitoring power supplies* 5.97

ADI ADuCM3029 R0 (Oct 2014) First silicon 6.34

TI Texas Instruments MSP432P401R Rev. B Monitoring supplies 7.1

STM STMicroelectronics STM32L476 Rev 3 8.10

TI Texas Instruments MSP430FR5969 Rev F 8.40

ATMEL Atmel ATXMEGA32E5 12.50

MICROCHIP Microchip Technology PIC24FJ128GA202 14.54

ADuCM302x Security Features

► Hardware Accelerators

AES-128/256 with ECB, CBC, CMAC, CTR, CCM modes, ~60-80Mbit/sec

SHA256/224 hash ~200Mbit/sec

TRNG ~100kbit/sec

► Debug interface disable

Can be unlocked with user programmable key or locked permanently

► Secure boot

Secure boot loader can be initially programmed and locked so it cannot be reprogrammed (behaves as

OTP).

Permits flexible boot algorithms depending on customer

Fast-boot / no protection

Secure boot with SHA256 + ECC256

Secure both with SHA256 + RSA2048

Reference software for secure booting

41

42

ADF7xxx Historical Roadmap

Performance &

Integration

FracN

PLL&VCOPA

2004 2005-2008 2009-2013 2016

RX

FracN

PLL&VCOPA

Demod

RX

FracN

PLL&VCOPA

Demod

RISC

8-bit

ROM/

RAM

RX

FracN

PLL&VCOPA

Demod

ARM

M0

ROM/

RAM

PAx2

PAx2

ADF701xTx only

Bits to RF

ADF703xNB & WB

High performance

ARM Cortex M0

Packets to RF

ADF7020/21/21-NTx/Rx

Bits to RF

ADF7022/23/23-J/24, ADF7241/2Packets to RF

Low power

High performance

Release

Dates


Brief TransmitterWideband

TransceiverNarrowband Transceiver

Low Power Wideband

Transceiver

IEEE802.15.4

+ Proprietary 2.4GHz

WMBus Mode-N Narrowband Transceiver

High Performance Narrowband &

Wideband Transceiver

RF Frequency (MHz) 75 – 1000 433, 868, 915 80 – 650, 868, 915 169, 433, 868, 915 2405 – 2485 169 169, 433, 868, 915

Receiver BW (kHz) N/A 100, 150 200 9, 12.5, 18, 25 100, 150, 200, 300 2200 9 3.5 - 600

Max Data Rate (kbps)

179.2 200 25 300 2000 4.8 300

Max Link Budget (dB)

N/A 130 143 130 101 147 150

Rx Current (mA) N/A 19 – 21 18 – 26 13 19 26 21 - 26

Tx Current @10dBm (mA)

27 27 23 – 32 24 25 (@4dBm) 35 35

Released YES YES YES YES YES YES Soon (2016)

43

ADF7xxx Family

ADF7021

ADF7021-N

ADF7021-V

ADF7020

ADF7020-1

ADF7023

ADF7024

ADF7023-J

ADF7242

ADF7241

ADF7030 ADF7030-1

ADF7032…ADF7012


ADF7030-1

Reliable Communications for IoT Systems

► Highly robust RF performance Industry-leading interferer resilience and long range performance

► Ultralow power consumption

10 nA shutdown current with retention

Fast 8-bit scan time—no loss of performance

► Fast time to market

Simplified user interface

Comprehensive validation

LCD display enables out of the box battery powered evaluation

► More reliable communication link in noisy RF environments

Improves end to end system reliability

Fewer packet retransmissions

► Longer battery life will reduce cost and increase product lifetime

► Reducing development time enables users to rapidly respond to market

requirements

Key Benefits

Smart Alarms Home Automation

Process Monitoring Smart Energy Smart Agriculture

Smart City Asset Tracking Infrastructure Monitoring

Security Building Automation

44

Features and Specifications


ADF7030-1


► Merges narrow-band and wideband transceiver functionality in to single chip

► Improved range and interference resilience vs. previous generation

► Companion products: ADuCM3029 ULP microcontroller, ADXL362ULP accelerometer, ADP5310 Ultralow Power PMU, ADF7242/41 802.15.4/ZigBee/Thread 2.4 GHz radio transceivers

► ADF7030-1 achieves industry-leading RF sensitivity and

interference resilience that deliver more robust, long range

connectivity solutions than the competition

► ADF7030-1 achieves industry-leading sleep current with memory

retention –10× lower than the nearest competitor

► Sub 1 GHz RF Transceiver

RF bands: 169 MHz, 433 MHz, 868 MHz, 915 MHz

Data Rate 0.1 kbps to 300 kbps

► Protocols: PHY layer supports

802.15.4g, Sigfox, WM-Bus S,T,C,N, Wi-SUN, ZigBee, 6LoWPAN

► Industry-leading RF performance

Receiver sensitivity, BER = 1e-3:

–134.4 dBm at 0.1 kbps

–103.0 dBm at 300.0 kbps

Receiver blocking:

70 dB ACR

100 dB at 10 MHz offset

Transmitter output power: –20 to +17 dBm in 0.1 dB steps

Phase Noise: –143 dBc/Hz at 2 MHz offset

► Low power

Shutdown current with retention = 10 nA

Smart wake modes—autonomous radio operation

► Simplified user interface via ARM® Cortex®-M0

Fully programmable packet handler

Radio control interface simplifies Host MCU coding

Portfolio Positioning

Competitive Positioning

45

ADF7030-1


► Data Sheet:

ADF7030-1: Available

► Companion Products: Available

ADuCM3027/ADuCM3029 ultralow power microcontrollers

ADP5310 high efficiency power management unit

ADXL362 ultralow power accelerometer

ADT7320 ±0.25°C accurate digital temp sensors

ADF7242/ADF7241 802.15.4/ZigBee/Thread 2.4 GHz radio

transceivers

► Design Support

UG-957 ADF7030-1 Hardware Reference Manual

UG-1002 ADF7030-1 Software Reference Manual

► Evaluation Kit

UG-1006 ADF7030-1 EZ-KIT® User Guide

http://www.analog.com/EVAL-ADF7030-1EZ-KIT

► Product Home Page:

www.analog.com/adf7030-1

ProductSample

AvailabilityFull Production

Price Each

Per 1000Packaging

ADF7030-1 Today Today 1.99 40-lead LFCSP

Federal

Communications

Commission

EN 300-220 Class 1 FCC Part 15, 22, 24, 90, and 101

46

http://www.analog.com/EVAL-ADF7030-1EZ-KIT

http://www.analog.com/adf7030-1

ADF7030-1

1.2 kbps

Sensitivity = –128.5 dBmADF7030-1

Network Cost

27 × $100

1 × $10,000

$12,700

Tower Can

Hear All

Endpoints

Key Benefit 1

Longer Range of ADF7030-1 Enables Lower Network Costs

47

Analog Devices Confidential Information – Not for External Distribution


Competitor

Network Cost

27 × $100

5 × $10,000

$52,700

Competitor A

6.5 dB

Poorer

Sensitivity

Tower Cannot

Hear All

Endpoints

More Towers

Must Be

Deployed

Key Benefit 1


48



Network

Saving ~75%

$40,000

ADF7030-1

Network Cost

27 × $100

1 ×

$10,000

$12,700

Competitor

Network Cost

27 × $100

5 ×

$10,000

$52,700

Key Benefit 1


49



ADI Wireless Communications Innovation

► Wideband Agile Transceivers

Highly integrated breakthrough technology enabler

allowing flexible SRD operation models

► Industry Leading Sensor Node Radio

Performance

Advanced signal range, blocking, rejection and link

margin specifications covering wide array of

applications

Industry leading low power M-Band radio

implementation

► Signal Chain Coverage for System Optimization

Full portfolio of complimentary RF and mixed signal

solutions

► Software Protocol Development & Collaborations

IEEE 802.15.4g, 6LoWPAN, Wireless M-Bus and

WiSUN Alliance offerings


ADF703x

0.2dB

delta

Competitor 1

Competitor 2

http://www.wi-sun.org/

http://www.wi-sun.org/

Analog Devices Confidential InformationAnalog Devices Confidential Information 51

2/6/2017

Analog Devices Confidential Information—Not for

External Distribution

ADI Connect – Program

Summary.

What is the ADI Connect Development Platform ?

► ADI Branded Cloud Development Portal for IoT.

► Enable Customers to develop and deploy complete sensor-to-cloud solutions.

► Initial Focus:

► Testing the “ease of use” Value Hypothesis.

► Targeting more traditional ADI small and mid-size Customers.

► Targeting BUs within larger customers with minimal cloud experience.

► Initial Feedback on this is Positive.

► Opening doors to different customers & conversations.

► Deploying a Recurring Revenue Billing Service.

► Will rapidly evolve to add more capability over time.

► Analytics.

► 3rd Party Cloud Services / Device Clouds.

52

IoT Development Portal

Device

Management

Edge Devices

Smarter “Edge” Nodes

Edge Data

Why is ThingWorx being used for this Platform ?

► IoT Cloud Development Environment.

Full SaaS.

Targeting Acceleration of IoT Application Development Process.

► PTC Business Model is to enable Customers to Sell a Cloud Service.

IBM, AWS, Microsoft want to be the Service providers.

► Cloud Platform Features:

Codeless Application (“Mashup”) Builder – Minimal Skills.

Multiple Connectivity Options (HTTP,SDKs,MQTT).

Multiple Database Options (Built-In, External).

Functionality of Platform is extensible (Extensions/Services).

Subscription / Event Management (Business Logic / Alerts).

Flexible Hosting ( AWS, PTC, On-Premises).

► PTC as a partner.

53

ADI Connect – “Codeless” Application Builder Overview

► ADI Connect Composer Application Builder UI:

Building Applications is very easy.

54

Step 1:Drag'n'drop Widget into Application

Pane.

Widgets include gauges, device

lists, graphs etc

Widget Pane

Properties Pane Dependencies Pane

Data Source Pane

Step 2:Drag'n'drop Data Source onto

Widget in Application Pane.

Step 3:Adjust Properties

HW Development Platforms

EVAL-ADICUP360

Arduino Compatible ARM Cortex-M3 Development Platform

56

► Compatible with Arduino and PMOD form factors

► No external debugger or emulator tools needed

► Open source IDE tools including a customized Eclipse based development environment for code development and debugging

► Arduino Shields available from Analog Devices as well as the possibility to work with 3rd-party Arduino Shields

Key Benefits and Features

EVAL-ADICUP360: Design Resources

► Evaluation Board:

EVAL-ADICUP360: Available

► Anchor Product:

ADuCM360—Analog Microcontroller

► Companion Add-Ons:

CN0216: Available

CN0326: Available

CN0336: Available

CN0337: Available

CN0357: Available

► Evaluation Platform Page

► User Guide

EVAL-ADICUP360 User Guide

Tool Chain for EVAL-ADICUP360

► Example Projects using ADICUP360

► “Analog Microcontroller” EngineerZone

► Home Page: www.analog.com/EVAL-ADICUP360

57

http://www.analog.com/en/design-center/evaluation-hardware-and-software/eval-adicup360-development-platform.html

https://wiki.analog.com/resources/eval/user-guides/eval-adicup360

https://wiki.analog.com/resources/eval/user-guides/eval-adicup360/quickstart/eclipse_setup_guide

https://github.com/analogdevicesinc/EVAL-ADICUP360

https://ez.analog.com/community/analog-microcontrollers/aduc-cortex-m3

http://www.analog.com/EVAL-ADICUP360

ADXL362-Shield

Ultra-Low Power Accelerometer with Display Arduino Shield

58

► Ultra-Low Power Sleep and Wake up Modes

► Programmable Acceleration Ranges

► Board Mounted LCD Display

► Arduino UNO R3 Compatible Form Factor

► ARM mbed-enabled

Key Benefits & Features

ADXL362-Shield: Design Resources

► Solution:

ADXL362-Shield: Available

► Hardware Part Number/ Form Factor:

EVAL-ADXL362-ARDZ —Arduino Form Factor

► Companion Hardware:

EVAL-ADICUP360

STMicroelectronics NUCLEO-F411RE

► Anchor Products:

ADXL362—MEMS Accelerometer

► Software:

Accelerometer Demo for use with EVAL-ADICUP360

ADXL362 ARM mbed Page for use with NUCLEO-F411RE

► User Guide:

ADXL362-Shield User Guide

► Community Discussion In Engineering Zone

► Home Page: www.analog.com/EVAL-ADXL362-ARDZ

59

https://wiki.analog.com/resources/eval/user-guides/eval-adicup360/reference_designs/demo_adxl362

https://developer.mbed.org/components/EVAL-ADXL362-ARDZ/

https://wiki.analog.com/resources/eval/user-guides/eval-adicup360/hardware/adxl362

https://ez.analog.com/community/circuits_from_the_lab

http://www.analog.com/EVAL-ADXL362-ARDZ

Inventek Systems ISMART IoT Shield

►The Inventek ISMART (Inventek Systems Module ARduino Test) IoT

platform is a user friendly Arduino form factor (3.3 V) shield suited for many

wireless application needs.

►ISMART is configured by selecting any Inventek eS-Wi-Fi (embedded

serial Wi-Fi) module within Inventek’s portfolio of 802.11a/b/g/n and BT/BLE

combo radio solutions when ordering your ISMART shield.

►Any Arduino-based evaluation board featuring ADI’s processor and sensor

portfolio can seamlessly demonstrate IoT wireless connectivity and cloud-

based solutions with ISMART.

►The ISMART platform enables customers to quickly launch IoT products

based on the Inventek IWIN (Inventek wireless interoperability network) at

command software that is included with the eS-Wi-Fi module.

►The ISMART platform enables cloud-based applications based on the

Inventek IWINC (Inventek wireless interoperability network for clouds).

IWINC preconfigures the eS-Wi-Fi module with any cloud agent protocol of

choice (AWS, Azure, Thingworx, Ayla, Arrayent, etc.)

Key Benefits and Features

© Analog Devices, Inc. 2016, all rights reserved.60

Inventek eS-WiFi Module Overview

61 © Analog Devices, Inc. 2016, all rights reserved.

►All eS-Wi-Fi module options support the same L44 form factor,

enabling customers to migrate to all module options as needed

without requiring any layout changes to their PCB.

eS-WiFi IEEE 802.11a/b/g/n WLANDual-Band

(2.4 GHz to 5 GHz)

Single Band

(2.4 GHz)

Inventek eS-Wi-Fi IEEE 802.11a/b/g/n WLAN Modules

ISM43362

Up to 72 Mbps, 802.11b/g/n, SISO SECI, Security,

SDIO 2.0, SPI,

5 GPIO, Integrated PA Linux Driver, WICED

ISM43364

Up to 96 Mbps, 802.11b/g/n, SISO

GCI SECI, Security, CCX

SDIO 2.0, SPI,

5 GPIO, Integrated PA Linux Driver, WICED

ISM43907Up to 150 Mbps, 802.11a/b/g/n, SISO, 320 MHz CR4, GCI SECI,

Security, CCX, 6 PWMs, Ethernet (RMII/MII), SDIO 3.0 (H/D), USB

2.0 + HSIC (H/D),

S/PDIF, 3 UART, Quad SPI, 2 SPI, 2 I2S, 2 I2C

17 GPIO, Integrated PA for both bands WICED

ISM43909Up to 150 Mbps, 802.11a/b/g/n, SISO7, 320 MHz CR48, GCI SECI9,

Security, CCX, DDR3/3L I/F10,

Ethernet (RMII/MII), 6 PWM, SDIO 3.0 (H/D),

USB 2.0 + HSIC (H/D), S/PDIF, 3 UART, Quad SPI, 2 SPI,

2 I2S, 2 I2C, 17 GPIO, Integrated PA for both bands WICED

ISM43903

Up to 72 Mbps, 802.11b/g/n, SISO,

160 MHz CR4, GCI SECI, Security, CCX,

6 PWMs, 3 UART, Quad SPI, 2 SPI, 2 I2C

17 GPIO, Integrated PA WICED

NEW

NEW

NEW

NEW

BCM4390Up to 72 Mbps, 802.11b/g/n,

SISO, 48 MHz CM3, GCI,

Security, CCX,

6 PWMs, 4 UART, I2S, 2

SPI, I2C, 24 GPIO,

Integrated PA WICED

BCM4343Up to 96 Mbps, 802.11b/g/n,

BT4.1, A4WP, GCI SECI,

Security, SDIO2.0, SPI,

HCI-over-UART, 2 PCM/I2S,

5 GPIOs, Integrated PA,

Linux Driver, WICED

BCM43340Up to 150 Mbps,

802.11a/b/g/n, BT

4.0, SECI, Security,

SDIO 2.0, SPI, HSIC,

HCI over UART, 2

PCM/I2S,

8 GPIOs,

Integrated PA,

Linux Driver, WICED

NEW

Inventek Systems ISMART IoT Shield: Cloud Access

► ADI + ISMART IoT development platforms ADI connected measurement systems

ADI wireless sensor network solutions

ADI connected industrial control MCUs

ADI connected edge node

ADI connected smart sensors

► ADI + ISMART IoT applications Mobile Apps for: Mathworks

Amazon AWS

Thingworx

Cloudbourne

Azure

Ayla

Arrayent

Etc.


► Eclipse-based IDE

Inventek eS-WiFi ISM43340-M4G-L44 Module•2.4 G/5 G dual-band Wi-Fi

•BT/BLE 4.0

•Integrated TCP/IP stack

•FCC/CE/IE certified etched antenna

Inventek ISMART EVB• Configured with the

ISM43340 eS-Wi-Fi module

ADI ADICUP360 EVB

AWS

Thingworx

OTHER

Mobile Apps

ADI sensor EVBs

ADI measurement EVBs

ADI BLIP EVBs

Inventek Systems ISMART IoT: Design Resources

► Solution ISMART + EVAL-ADICUP360 IoT development platform

► Inventek offering ISMART EVK

ISM43340-M4G-L44 eS-WiFi module

2.4 G/5 G Wi-Fi

BT/BLE

FCC/CE/IE certified

IWIN radio stack software

IWINC cloud agent software

► Companion Hardware Analog Devices EVAL-ADICUP360

► ISMART http://www.inventeksys.com/products-page/wifi-eval-kits/ismart-

arduino/

► eS-Wi-Fi http://www.inventeksys.com/products-page/wifi-modules/serial-wifi/

► IWIN http://www.inventeksys.com/IWIN/

► IWINC http://www.inventeksys.com/cloud/


http://www.analog.com/eval-adicup360

http://www.inventeksys.com/products-page/wifi-eval-kits/ismart-arduino/

http://www.inventeksys.com/products-page/wifi-modules/serial-wifi/

http://www.inventeksys.com/IWIN/

http://www.inventeksys.com/cloud/

Thank you

64

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