take your battery life to the extreme!. 2 nanowatt xlp = extreme low power overview l critical needs...

Take your battery life to the extreme!

2nanoWatt XLP™ = eXtreme Low Power

Overview

Critical needs of low power applications nanoWatt XLP™ Technology Introduction Power-Down modes Active power consumption Live / Video Demonstration New products & tools Summary


Low Power Trends

Our Customers continue to demand lower power products Continued growth in battery applications Green Initiatives - Increasing regulations to lower

energy consumption Energy Harvesting in early stages Broad base of applications

DisplayMedical

Metering

Safety & SecurityTouch

USBConsumer


WDTWDT

Typical Application Profile

Long battery life required 20 years in some cases

Must be robust & reliable Often regulations demand it Example - Must detect dying battery, provide

warning signals to alert resident and perform safe shutdown

Must ensure consistent operation

Must periodically perform specific tasks Example - Smoke Detectors sample air quality

once every N seconds

SleepSleep

Real Time Real Time ClockClock

Brown Brown Out ResetOut Reset


Factors affecting Power Consumption

Power down Mode Sleep Current Sleep Time Real-Time Clock Watchdog Timer Brown Out Reset Pin Leakage

Intermediate Wake Up Time

Active Mode Dynamic Current Execution Time Power management

modes Clock switching Idle modes

IPD

nA

IDD

uA/MHz

Power Down Time Wake Up

Time

IAVG

Average Energy Consumption α VDD x (Iactivex tactive+ Ipowerdown x tpowerdown)

RunTime

Oscilloscope Plot


WDTWDT

What is nanoWatt XLP™ Technology?

The New Industry Standard for Low Power & Low Current, combining…

Why it Matters!- Example: PIC24F16KA102

Battery life of 20 years desired Must be robust and reliable Must regularly sample air quality

SleepSleep

RTCCRTCC

nanoWatt XLP™

RequirementsBest

Specifications

Sleep: <100 nA down to 20 nAdown to 20 nA

Watchdog Timer: <800 nA down to 400 nAdown to 400 nA

Real-time Clock / Calendar: <800 nA down to 500 nAdown to 500 nA


16 New nanoWatt XLP™ Microcontrollers

World’s lowest sleep power MCUs, with current down to 20 nA

16 new devices Available across two 8-bit families & one 16-bit family

Ideal for battery-powered or power-constrained applications

Compatible low-power features, peripherals and tools for ease of migration

Industry-leading integration with low power USB and mTouch™ capacitive sensing


Performance

Fu

nct

ion

alit

yBroad Low-Power Product Offering

Unified M

PLAB®

Integrated Development Enviro

nment

nanoWatt XLP™ Technology Portfolio

PIC16F72X

PIC18F14K50

PIC18F46K20

PIC18F46J50

PIC18F46J11

PIC24F16KA6 New

4 New

nanoWatt XLP™

nanoWatt XLP™

6 New


nanoWatt XLP™ MCU Portfolio

PIC MCU Flash Memory

KB

Pins Sleep(nA)

Deep Sleep (nA)

WDT*(nA)

RTC*(nA)

1MHz Run(µA)

PIC16LF72X 3.5-14 28/44 20 - 500 500 110

PIC16LF193X (LCD)

7-28 28/44 60 - 500 600 150

PIC18F1XK50 8-16 20 24 - 450 790 170

PIC18F14K22 8-16 20 34 - 460 650 150

PIC18FXXK20 8-64 28/44 100 - 600 600 300

PIC18(L)F46J11 16-64 28/44 54 13 813 813 272

PIC18(L)F46J50 16-64 28/44 54 13 813 813 272

PIC24F16KA102(Cap Touch)

8-16 20/28 25 20 420 520 195

All numbers are typical values at minimum Vdd, taken from the datasheet.

* Base Sleep current included in WDT and/or RTC numbers.

Typical Leakage Current ±50nA

New

Power Down Modes


Choice of Power Down Modes

Two Power down options available on some nanoWatt XLP™ devices Sleep (with RAM Retention) & Deep Sleep (2 registers saved)

Three Application Scenarios:

Sleep most of the timeWake-up every second to

process data then go back to sleep

1

Sleep most of the timeWake-up every second to update software calendar

and decide whether it is time to process data or not then

go back to sleepProcess data once every hour, day etc.

2

Sleep most of the timeWake-up to

process data once every hour, day etc.

3

Very likely to use SLEEP Mode

Potentially use DEEP SLEEP mode with RTCC

Very likely to useDEEP SLEEP mode

Active Sleep Deep Sleep

Current Consumption


Sleep vs. Deep Sleep comparison

Low Power Mode

SLEEP (RAM retained) Deep SLEEP

Definition Core Powered Off, Some peripherals can operate, RAM retained

Core, Peripherals and SRAM Powered-Off

PIC16LF72X-IPD 60nA -n/a

PIC18LF46J11/50-IPD 54nA -n/a

PIC18F46J11/50-IPD 3.1uA 13nA

PIC24F16KA102 - IPD 25nA 20nA

Wake-Up Sources RTCCWatch-Dog TimerBrown-out ResetInterrupt PinsUltra-Low Power Wake UpPower-On ResetReset PinPeripherals

RTCCWatch-Dog TimerBrown-out ResetInterrupt PinsUltra-Low Power Wake UpPower-On ResetReset Pin

Wake Up Time Shorter (~1-5uS typical) Longer (wake-up is like POR)

Pin State Maintained Maintained

RAM State Maintained 2 words maintained

Cu

rre

nt

Operation Time

Sleep Only

Deep Sleep

Application Power ProfileApplication Power Profile

Time to take air sample…

Run


Impact to Battery Life

Active / Dynamic Power


Energy Consumption in Active Mode

Factors affecting Energy Consumption Run/Dynamic Current, IDD

Influenced by process technology, architecture, among other factors etc. Execution Time Voltage

Energy Consumption = Execution Time x Active Current x Voltage

Faster execution means less time staying awake Potentially lower Active Power Factors affecting execution time

Single-Cycle Instructions Instruction Set Architecture Clock Frequency


Industry Standard Performance Benchmarks

Execution TimePIC MCU executes 50% of these algorithms at least 50% faster than the

closest competing ultra low power MCUs!!

Note: 1. Competitor 16-bit MCU family at 16 MIPS - Speed & Size trade off = 52. PIC24F family at 16 MIPS using MPLAB® C Compiler for PIC24F with Optimization level O3

0

1

2

3

4

5

6

A2T FFTFIR

IFFT

BaseF

P

Bit M

anip

ulatio

nCAN

IDCT IIR

Pointe

rsPW

M

Rspee

d

TBL lo

ok up

TTSpark

Mat

rix A

rith

Algorithm

No

rma

lize

d E

xe

cu

tio

n T

ime

PIC MCU

Competitor


Industry Standard Performance Benchmarks

Energy Consumption

Faster execution on PIC translates to lower energy consumption!

Note: Competitor 16-bit family at 16 MIPS Vdd=3.3V, Typical values for IddPIC24F16KA102 family at 16 MIPS using MPLAB C Compiler for PIC24F with Opimization level O3 – Vdd=3.3V, Typical values for Idd

0

0.5

1

1.5

2

2.5

3

3.5

A2T FFTFIR

IFFT

BaseF

P

Bit Man

ipula

tion

CANID

CT IIR

Pointe

rs

PWM

Rspee

d

TBL loo

k up

TTSpark

Mat

rix A

rith

Benchmark Algorithm

No

rma

lize

d E

ne

rgy

Co

ns

um

pti

on

PIC MCU

Competitor


Ask us for a demo!

PIC24F16KAPIM

nanoWatt XLP Demo

Explorer 16 Development Board

Battery not required

Or see a video demonstration on our website

Competitor PIM

Products & Tools


Introducing the PIC24F16KA 16-bit MCUs

Battery Friendly Deep Sleep (DS)Deep Sleep (DS)

20 nA20 nA Real-time Clock / Calendar

500 nA Dedicated DS Watch-dog

Timer 400 nA

New DS Brown-Out Reset 50 nA

Flexible Deep Sleep Wake-up I/Os maintained, multiple

wake sources, such as INT0, RTCC, DSWDT, POR/BOR, MCLR

On-chip data EEPROM

mTouch™ Capacitive SensingAvailable in 20- & 28-pin Packages


nanoWatt XLP™ 16-bit Development Board

Devices Supported PIC24F16KA Family

Expandable Full Demo Platform Alphanumeric Display, buttons,

LEDs, USB support PICtail™ Plus expansion

connector for ZigBee®, Ethernet, speech playback, and more

Free C Compiler

Explorer 16 BoardExplorer 16 Board DM240001DM240001 Farnell 1146554Farnell 1146554 PIC24F16KA102 PIM PIC24F16KA102 PIM MA240017 MA240017 Farnell 1706353Farnell 1706353


Introducing the PIC18F46J11 8-bit MCUs

Big Feature Set, Low Power Deep Sleep Mode (DS)Deep Sleep Mode (DS)

Less than 20 nALess than 20 nA DSBOR, DSWDT, RTCC Flexible Wake-up Sources

80-pin peripheral set in 80-pin peripheral set in 28/44 pins28/44 pins

Digital Pin Re-mapping mTouch™ Capacitive

sensing Up to 4 serial comms Up to 5 timers, 8 PWMs 64 KB Flash & 4 KB RAM

+/- 1% Internal OscillatorAvailable in 28- & 44-pin Packages


nanoWatt XLP™ PIC18 Development Board

Devices Supported PIC18F46J11 Family

Expandable Full Demo Platform Alphanumeric Display, buttons,

LEDs, USB support PICtail™ expansion connector

for ZigBee®, Ethernet, speech playback, and more

Free C Compiler

PIC18 Explorer Board PIC18 Explorer Board DM183032 DM183032 Farnell 1615691Farnell 1615691PIC18F46J11 PIM PIC18F46J11 PIM MA180023MA180023 Farnell 1706355Farnell 1706355


Introducing the PIC18F46J50 8-bit MCUs

Low Power + USB Deep Sleep ModeDeep Sleep Mode

Less than 20 nALess than 20 nA DSBOR, DSWDT, RTCC Flexible Wake-up Sources

Full-Speed USBFull-Speed USB Integrated USB Integrated USB

Oscillator…No External Oscillator…No External CrystalCrystal

80-pin feature set in 28/44-pin package

mTouch™ Capacitive Sensing

Available in 28- & 44-pin Packages


nanoWatt XLP™ USB PIC18 Development Board

Device Support PIC18F46J50 Family

Low-cost USB Demo Board Programmed with USB HID & MSD

firmware Mini-B USB connector for power &

communication Plugs into PIC18 Explorer Board

for expandability Includes:

USB cable 6-pin ICSP™ to RJ-11 programming

adapter CD with USB firmware projects, PC

application source code, USB drivers Free C Compiler & USB Stacks

PIC18F46J50 FS USB Demo Board MA180024 Farnell 1706356PIC18F46J50 FS USB Demo Board MA180024 Farnell 1706356


PIC16F72X

Low power nanoWatt technology Low power Timer 1: 480nA Low power WDT current 480nA Sleep current as low as 20nA Active current as low as 7µA

(32kHz, 1.8V) mTouch™ Capacitive touch

Up to 16 Channels 1.8 - 5.5V with Analog operation

across the whole voltage range 28 - 44 pin package options


PIC18F13K50 / PIC18F14K50

USB 2.0 connectivity + High Integration ECCP, I2C/SPI, 10-bit ADC

Small Form Factor – 5x5mm QFN Market’s Smallest USB Packages!

Low Cost

www.microchip.com/USB

Low Pincount USB Dev KitDV164126

Farnell 1687477


PIC18F2XK20/4XK20

Device Properties 28/44 pins 1.8V – 3.6V 16 MIPS @ 64MHz

Memory 8 - 64KB FLASH 512B - 4KB RAM 256B - 1KB EEPROM

Low Power Low Power Timer1 Oscillator

Analog 14 ch. 100ksps 10-bit ADC 2 rail-to-rail comparators

Digital 3 Timers 1 MI2C/SPI module 1 EUSART module 1 ECCP/1 CCP Module

PIC18F4xK20 Starter KitPart DM164124Farnell 1600100


Compatible Development Tool Chain

MPLAB® IDE Integrated Development Environment

PICkit™ 3 Low Cost Debugger & Programmer Farnell Stock Code 1686530

MPLAB ICD 3 Debugger & Programmer Farnell Stock Code 1664878

MPLAB REAL ICE™ Emulation system Farnell Stock Code 1294851


eXtreme Low Power Design Center

Featuring… White Papers, Tips n’ Tricks Application Notes Deep Sleep Web Seminar Product Data Sheets &

Family Reference Manuals

www.Microchip.com/XLPwww.Microchip.com/XLP

nanoWatt nanoWatt XLP™XLP™


Summary

nanoWatt XLP™ Technology enables world’s lowest sleep power MCUs, with current down to 20 nA

Consistent low-power features, peripherals and tools for ease of migration

Industry-leading integration with low power USB and mTouch™ capacitive sensing

En

erg

y C

on

su

mp

tio

n

Ultra Low Power

nanoWatt XLP™


Trademark Note:

The Microchip name and logo, the Microchip logo, Accuron, dsPIC, KEELOQ, microID, MPLAB, PIC, PICmicro, PICSTART, PRO MATE, rfPIC and SmartShunt are registered trademarks of Microchip Technology Incorporated in the U.S.A. and other countries. AmpLab, FilterLab, Migratable Memory, MXDEV, MXLAB, PICMASTER, SEEVAL, SmartSensor and The Embedded Control Solutions Company are registered trademarks of Microchip Technology Incorporated in the U.S.A.

Analog-for-the-Digital Age, Application Maestro, dsPICDEM, dsPICDEM.net, dsPICworks, ECAN, ECONOMONITOR, FanSense, FlexROM, fuzzyLAB, In-Circuit Serial Programming, ICSP, ICEPIC, MPASM, MPLIB, MPLINK, MPSIM, mTouch, nanoWatt XLP, PICkit, PICDEM, PICDEM.net, PICtail, PowerCal, PowerInfo, PowerMate, PowerTool, REAL ICE, rfLAB, rfPICDEM, Select Mode, Smart Serial, SmartTel and Total Endurance are trademarks of Microchip Technology Incorporated in the U.S.A. and other countries. SQTP is a service mark of Microchip Technology Incorporated in the U.S.A.

All other trademarks mentioned herein are property of their respective companies.

Thank You!

take your battery life to the extreme!. 2 nanowatt xlp = extreme low power overview l critical needs...

Documents

low power low current

extreme low power overview

extreme low power factors

active power consumption

power management modes

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dd uamhz power

sleep time