microcontroller technologies for smart...
TRANSCRIPT
Renesas Electronics America Inc.
© 2012 Renesas Electronics America Inc. All rights reserved.
Class ID: Class ID:
Microcontroller Technologies for Smart Society Ritesh Tyagi, Sr. Director MCU Marketing
1C02B
© 2012 Renesas Electronics America Inc. All rights reserved. 2
Sr. Director – Microcontroller Product Marketing
Product Marketing and Segment Marketing
Responsibilities for 8, 16 and 32-bit MCU families
MSEE and MBA from University of Allahabad, India
More than 15 years of experience in MCU/MPU products and applications
MCU product definition and marketing launch
Solution development for key segments like consumer, Medical industrial and communication
Design experience for consumer electronics
Mr. Ritesh Tyagi
© 2012 Renesas Electronics America Inc. All rights reserved. 3
Renesas Technology & Solution Portfolio
© 2012 Renesas Electronics America Inc. All rights reserved. 4
Smart Society Paradigm
“Soon the amount of data in the world will
QUADRUPLE every day” -IBM
Energy is limited
More THINGS connected to
the internet than PEOPLE
From sporadic to CONTINUOUS measurement
REALTIME is the new PRIME TIME
PRIVACY is the new
ATOMIC BOMB
INFORMATION OVERLOAD is an opportunity for
PATTERN RECOGNITION
Source: The conversation prism by Brian Solis
& LESS3
© 2012 Renesas Electronics America Inc. All rights reserved. 5
“Between now and 2020, the amount of digital information created and replicated in the world will grow to an almost inconceivable 35 trillion gigabytes, as all major forms of media -voice, TV, radio, print -complete the journey from analog to digital… This explosive growth means that by 2020, our Digital Universe will be 44 times as big as it was in 2009.” -IDC
Data is the Key
data is the NEW OIL
© 2012 Renesas Electronics America Inc. All rights reserved. 6
MIPS
0.01
0.1
1
10
100
1000
1980 1990 2000 2010 Year
2MHz
8-bit
16MHz
10MHz
16-bit
40MHz
80MHz
25MHz
16/32-bit
Dual-core
200MHz
32-bit
Trends of CPU Performance
© 2012 Renesas Electronics America Inc. All rights reserved. 7
0.01
0.1
1
10
1980 1990 2000 2010 Year
x8
x8
x8
MB
Trends of Embedded Memory Capacity
© 2012 Renesas Electronics America Inc. All rights reserved. 8
Renesas’ innovative Microcontroller Technologies
Process technology
Architecture (Performance and Power consumption)
Innovative integration
Summary & Q/A
By the end of this session you will be able to:
Understand the Renesas’ microcontroller technologies and
solutions driving the smart society concept
Agenda
© 2012 Renesas Electronics America Inc. All rights reserved. 9
Embedded Flash Technology Roadmap
Max. read
freq.
ES MP
2007 2008 2009 2010 2011 2012 2013 2014 2015 Memory
Structure
Te
ch.
Low power op.
Low voltage
NOR (Split-gate) 40MHz
130nm
NO
R
2016 2017
MONOS*
100MHz
90nm
MO
NO
S
120MHz
40nm
MO
NO
S
Large capacity
High speed
Unified flash
(RV40F) for RH850 &
RX600
100MHz
90nm
MO
NO
S
UX6LF (Former NECEL)
RC03F (Former Renesas Tech.)
Renesas MCUs are the first with 40 nm embedded flash!
* MONOS:
Metal Oxide
Nitride Oxide
Silicon
50MHz N
OR
130nm
© 2012 Renesas Electronics America Inc. All rights reserved. 10
World First 40nm Flash MCU
Leading Flash Process for Next Generation Automotive & Industrial
Transistor / mm2
Technology node 40 60 80 100
Previous generation 90nm
Other Option B 65nm
Other Option A 55nm
40nm
320MHz CPU
120MHz Flash
~ 8MByte
Lowest power
consumption
© 2012 Renesas Electronics America Inc. All rights reserved. 11
Firmly maintained the world’s No.1 MCU market share of 27% in CY2011
Dominant position in automotive MCU unchanged with the world’s No.1 share
No. 1 MCU Supplier in the World
2,150
2,147
1,055
454
574
740
61
1,052
233
764
150
783
369
512
16
782
274
431
6506
Renesas Infineon STMicro TI Fujitsu
M US$ CY2011
Auto- motive MCU
General- purpose
MCU *
Freescale Infineon Atmel STMicro Microchip TI Samsung Fujitsu NXP
WW MCU #1 27% share
WW Automotive MCU #1
42% share
8-bit MCU #1: 17% share 16-bit MCU #1: 27% share 32-bit MCU #1: 38% share
Deepened relationships with carmakers Collaborating in BCP
Source: IHS iSuppli, Annual 2011 Semiconductor Market Share *General-purpose MCU: MCUs for applications excluding automobiles
© 2012 Renesas Electronics America Inc. All rights reserved. 12
Microcontroller and Microprocessor Line-up
Wide Format LCDs Industrial & Automotive, 130nm
350µA/MHz, 1µA standby
44 DMIPS, True Low Power
165 DMIPS, FPU, DSC
1200 DMIPS, Performance
1200 DMIPS, Superscalar
500 DMIPS, Low Power
165 DMIPS, FPU, DSC
25 DMIPS, Low Power
10 DMIPS, Capacitive Touch
Industrial & Automotive, 150nm
190µA/MHz, 0.3µA standby
Industrial, 90nm
500µA/MHz, 1.6µA deep standby
Automotive & Industrial, 90nm
600µA/MHz, 1.5µA standby
Automotive & Industrial, 65nm
600µA/MHz, 1.5µA standby Automotive, 40nm
500µA/MHz, 35µA deep standby
Industrial, 40nm
200µA/MHz, 0.3µA deep standby
Industrial & Automotive, 130nm
144µA/MHz, 0.2µA standby
2010 2012
32
-bit
8
/1
6-b
it
© 2012 Renesas Electronics America Inc. All rights reserved. 13
Microcontroller and Microprocessor Line-up
Wide Format LCDs Industrial & Automotive, 130nm
350µA/MHz, 1µA standby
44 DMIPS, True Low Power
165 DMIPS, FPU, DSC
1200 DMIPS, Performance
1200 DMIPS, Superscalar
500 DMIPS, Low Power
165 DMIPS, FPU, DSC
25 DMIPS, Low Power
10 DMIPS, Capacitive Touch
Industrial & Automotive, 150nm
190µA/MHz, 0.3µA standby
Industrial, 90nm
500µA/MHz, 1.6µA deep standby
Automotive & Industrial, 90nm
600µA/MHz, 1.5µA standby
Automotive & Industrial, 65nm
600µA/MHz, 1.5µA standby Automotive, 40nm
500µA/MHz, 35µA deep standby
Industrial, 40nm
200µA/MHz, 0.3µA deep standby
Industrial & Automotive, 130nm
144µA/MHz, 0.2µA standby
2010 2012
32
-bit
8
/1
6-b
it
32-Bit High Performance, High Scalability & High Reliability
© 2012 Renesas Electronics America Inc. All rights reserved. 14
High-end, 32-bit CPU Roadmap
Succession of “V850 and SH” Architecture
V850E1 * 5-stage
V850E2 * 7-Stage * dual-issue
V850E2R +FPU
V850E2M +MPU
G3M +FPU(IEEE754-2008)
+Branch prediction, +SIMD, +Multi-Core
G3K * 5-stage
Good Performance and Low Power
E2S * 5-stage
High Performance and Low power
SH2A
SH2
SH1
© 2012 Renesas Electronics America Inc. All rights reserved. 15
RH850 Architecture (Example CPU Core and Pipeline)
Flash Memory
Capable
to Flash
120MHz
SRAM
Example RH850 CPU
5-STAGE PIPELINE
5 STAGES OF PIPELINE
F = FETCH INSTRUCTION
D = DECODE INSTRUCTION
E = EXECUTE INSTRUCTION
M = READ OR WRITE MEMORY
W = WRITE BACK TO REGISTER
Inst 128 bit path Instruction
Data 39 bit path
Operand
(Data)
HARVARD ARCHITECTURE
96 MHz CPU Core 2.x
DMIPS/MHz
32x 32bit
General
Purpose
Registers 32bit
Floating
Point Unit
(Optional)
32x32 +64 MAC,
64b Result
32 x 32 DIV or MULT, 32bit
or 64bit Result
Memory
Protect Unit
Interrupt
Control
On-Chip
Debug
HARVARD ARCHITECTURE
5-STAGE PIPELINE
F D E M W
TIC
K
F D
F
TIC
K
E
D
F
TIC
K
M
E
D
F
TIC
K
W
M
E
D
F
TIC
K
F
W
M
E
D
TIC
K
D
F
W
M
E
TIC
K
E
D
F
W
M
TIC
K
M
E
D
F
W
TIC
K
E
E
E
E
E
W
M
E
D
F
Achieves :
One Clock-Per-Instruction (CPI)
E
E Que 1
Que 2
© 2012 Renesas Electronics America Inc. All rights reserved. 16
RH850 Architecture… System Interface
Communication (CSI, CAN, SCI,LIN, I2C, Flex Ray)
Timers (TAUA, TAU J, OST, CMT)
Analog GPIO
System Control (DMA, E2P, ICU, LVD, RTC, WDG, CLKS)
Peripheral Busses to Spread Bandwidth Loading
Bus Bridge
DMAC (bus master)
RH850 BUFFER
128b INST
32b DATA
Bus Master
64 bits
Bus Bridge
32 bits
Internal Main Bus 1/ System interconnect
32 bits
RH850 MCU
SRAM,
120MHz Access
Flash Memory,
120MHz Access
Buffer PIPELINE 128b
instruction
© 2012 Renesas Electronics America Inc. All rights reserved. 17
Low Power
Platform
RH850: 40nm MCU Series for Vehicle Control
High Mid Low
240MHz Dual core w/ LS x2
240MHz Single core w/ LS
160MHz Single Core
320MHz Dual core w/ Lockstep I/O CPU
240MHz Dual core w/LS I/O processor
120MHz Multi Core Low Cyclic Power
120MHz Single Core Low Power
80MHz Single Core Low Power
120/160MHz Single core Low Power
80MHz Single Core Low Power
240MHz Single core w/ LS
High
Reliability
Platform
Powertrain
Chassis & Safety
Air Bag
Body
EV/HEV 240MHz Dual core w/ LS
240MHz Single core w/ LS
160MHz Single core w/LS
© 2012 Renesas Electronics America Inc. All rights reserved. 18
48
RH850/F1x Line-up
8MB
6MB
1.5MB
384KB
256KB
1MB
768KB
512KB
64 80 100 144 176 208 272 357
3MB
2MB
4MB
RH850/F1L
Single core 80MHz
RH850/F1H
Dual Core 120MHz
RH850/F1U
Triple-Core 160MHz
RH850/F1M
Single core 120MHz
QFP BGA
© 2012 Renesas Electronics America Inc. All rights reserved. 19
Microcontroller and Microprocessor Line-up
Wide Format LCDs Industrial & Automotive, 130nm
350µA/MHz, 1µA standby
44 DMIPS, True Low Power
165 DMIPS, FPU, DSC
1200 DMIPS, Performance
1200 DMIPS, Superscalar
500 DMIPS, Low Power
165 DMIPS, FPU, DSC
25 DMIPS, Low Power
10 DMIPS, Capacitive Touch
Industrial & Automotive, 150nm
190µA/MHz, 0.3µA standby
Industrial, 90nm
200µA/MHz, 0.3µA standby
Automotive & Industrial, 90nm
600µA/MHz, 1.5µA standby
Automotive & Industrial, 65nm
600µA/MHz, 1.5µA standby Automotive, 40nm
500µA/MHz, 35µA deep standby
Industrial, 40nm
200µA/MHz, 0.3µA standby
Industrial & Automotive, 130nm
144µA/MHz, 0.2µA standby
2010 2012
32
-bit
8
/1
6-b
it
32-Bit High Performance DSP, FPU with High
Integration
32-Bit High Efficiency Ultra Low Power and Low
Voltage
© 2012 Renesas Electronics America Inc. All rights reserved. 20
Typically
SRAM
Typically
Flash Memory
RX Flash is
10 nsec, or
100 MHz
zero-wait
RX SRAM is
also 10 nsec
RX600 CISC CPU
5-STAGE PIPELINE
5 STAGES OF PIPELINE
F = FETCH INSTRUCTION
D = DECODE INSTRUCTION
E = EXECUTE INSTRUCTION
M = READ OR WRITE MEMORY
W = WRITE BACK TO REGISTER
Inst 64bit path Instruction
Data 32bit path
Operand
(Data)
ENHANCED HARVARD
ARCHITECTURE WRITE BUFFER
For Slow Memory
PRE-FETCH
QUEUE
(PFQ)
Holds 4 to 32
Instructions
for Slower
Memory Memory Interface
64
32
100MHz CPU Core
1.65 DMIPS/MHz
16 x 32bit
General
Purpose
Registers
9 x 32bit
Control
Registers
RX Architecture… CPU Core and Pipeline
32bit
Floating
Point
Unit
16x16 or 32x32 MAC,
48bit or 80bit Result
32 x 32 DIV or MULT,
32bit or 64bit Result
Memory
Protect
Unit
Interrupt
Control
On-Chip
Debug
ENHANCED HARVARD
ARCHITECTURE
5-STAGE PIPELINE
64
bit
s
64
bit
s
64
bit
s
64
bit
s
Buffer
Only for
Writes
F D E M W
TIC
K
F D
F
TIC
K
E
D
F
TIC
K
M
E
D
F
TIC
K
W
M
E
D
F
TIC
K
F
W
M
E
D
TIC
K
D
F
W
M
E
TIC
K
E
D
F
W
M
TIC
K
M
E
D
F
W
TIC
K
E E
E E
E
W
M
E
D
F
Achieves One
Clock-Per-Instruction (CPI)
© 2012 Renesas Electronics America Inc. All rights reserved. 21
Advanced Bus Architecture for High Data Throughput
© 2012 Renesas Electronics America Inc. All rights reserved. 22
RX vs. M4: Performance, Power & Peripherals
© 2012 Renesas Electronics America Inc. All rights reserved. 23
RX vs. M4: Performance, Power & Peripherals
© 2012 Renesas Electronics America Inc. All rights reserved. 24
RX600 Series: High Performance Roadmap
Up to 120 MHz 40 nm Process
100 MHz, Single Cycle Flash 90 nm Process
© 2012 Renesas Electronics America Inc. All rights reserved. 25
RX200 Series: Low Power Roadmap
RX210
Comparator ELC
50MHz
64KB- 256KB
RX210
Comparator ELC
50MHz
128BK-512KB
RX210
Comparator ELC
50MHz
1MB
RX220
Comparator ELC
32MHz
256KB
RX211
Comparator ELC
50MHz
USB
RX211
24 bit ADC AES
50MHz
512KB
© 2012 Renesas Electronics America Inc. All rights reserved. 26
RX: Scalable Lineup
© 2012 Renesas Electronics America Inc. All rights reserved. 27
Next Generation RX
© 2012 Renesas Electronics America Inc. All rights reserved. 28
4.0 Coremark/MHz 400MHz~
Next
RX CPU Architecture Roadmap
• High Performance • Low Power • Small Code Size
2012
RX-v2 (240MHz~)
3.30 Coremark/MHz
0.78 Automark/MHz
RX64x
2015
Smaller gate count
Smaller code size
Higher
Performance/MHz
RX-v1 (200MHz~)
RX600, RX200, RX100
2.76 Coremark/MHz
0.68 Automark/MHz
2009
© 2012 Renesas Electronics America Inc. All rights reserved. 29
RX Family Roadmap: Next Generation
RX100
RX200
RX600
Up to 4MB DSC, FPU,
Connectivity
Up to 8MB Dual
Ethernet, DSP, LCD
240MHz
RX700
Lowest Power 32-bit platform in
the Industry
32MHz
Low power, Up to 1MB Flash, 1.62 to 5.5v, 24-bit ADC, Security
100/120MHz
50MHz
© 2012 Renesas Electronics America Inc. All rights reserved. 30
32-bit Performance
Integration
Eco-System
Higher power consumption
Industry Leading Low Power 32-bit Platform
RX-L (32-bit)
32-bit 8/16-bit
<1$ price point
Lowest Power
Fast wake up
Analog integration
Scalability
1.56 DMIPS/MHz performance
155uA/DMIPS in active & 0.1uA in standby
<$1 price point
RX scalability
Similar eco-system
© 2012 Renesas Electronics America Inc. All rights reserved. 31
RX-L: Lowest Power 32-bit Family
1.56DMIPS/MHz
1.25DMIPS/MHz
0.9DMIPS/MHz
1.25DMIPS/MHz
155µA/DMIPS
200µA/DMIPS
300µA/DMIPS Company A
Cortex M3
Company B
Cortex M0
RX-L
Cortex
M4
RX-L
Cortex
M3
Cortex
M0
Best in class Performance Best in class Power efficiency
© 2012 Renesas Electronics America Inc. All rights reserved. 32
• Lowest DC off set, lowest power at 1 MHz, faster wake up (<5us), <155uA/DMIPS active, 0.1uA standby
Lowest Power 32-bit MCU
• 8KB to 2MB Flash memory, Smaller 3x3mm QFN/WPP package for space critical applications Memory & Package
• ELC, Asynchronous Timers to reduce power consumption Innovative integration
• IEC60730 are critical for medical and Industrial Safety features
• PMC to offer maximum number of I/O, Semi- programmability of I/Os and reduction of external noise circuitry Flexibility of layout
• 12-bit, 24-bit A/Ds, 10-bit D/As, Op-Amps, Comparators, Temp sense, Capacitive touch etc.
Bridge between Digital and Analog world
RX100: Unique Differentiators
© 2012 Renesas Electronics America Inc. All rights reserved. 33
•120MHz/240Mhz operation with 120MHz single cycle Flash High Performance
•4MB Flash, 512KB RAM, IEE1588 Dual Ethernet, Trusted ELC, 2MSPS ADC, Data Capture Unit, SDIO, MMC etc. Innovative Integration
• IEC60730, AES security, CRC, DOC , CSD etc. Safety Features
•PMC to offer maximum number of I/O, Semi-programmability of I/Os and reduction of external noise circuitry, Event Link Controller
Flexibility of layout
•64 pin to 256 pin package variants Flexible package size
•12-bit, 24-bit A/Ds, 10-bit D/As, Op-Amps, Comparators, Temp sense, etc.
Bridge between digital and Analog world
RX700: 40nm, 240MHz Industrial Applications
© 2012 Renesas Electronics America Inc. All rights reserved. 34
Microcontroller and Microprocessor Line-up
Wide Format LCDs Industrial & Automotive, 130nm
350µA/MHz, 1µA standby
44 DMIPS, True Low Power
165 DMIPS, FPU, DSC
1200 DMIPS, Performance
1200 DMIPS, Superscalar
500 DMIPS, Low Power
165 DMIPS, FPU, DSC
25 DMIPS, Low Power
10 DMIPS, Capacitive Touch
Industrial & Automotive, 150nm
190µA/MHz, 0.3µA standby
Industrial, 90nm
200µA/MHz, 0.3µA standby
Automotive & Industrial, 90nm
600µA/MHz, 1.5µA standby
Automotive & Industrial, 65nm
600µA/MHz, 1.5µA standby Automotive, 40nm
500µA/MHz, 35µA deep standby
Industrial, 40nm
200µA/MHz, 0.3µA standby
Industrial & Automotive, 130nm
144µA/MHz, 0.2µA standby
2010 2012
32
-bit
8
/1
6-b
it
8/16-Bit True Low Power High Efficiency & Integration
© 2012 Renesas Electronics America Inc. All rights reserved. 35
RL78 Renesas New Low end core performs up to 40.6DMIPS
RL78/G14 core hits 44DMIPS with DSP instructions
Low-end CPU Core Roadmap
78K Architecture
R8C Architecture
78K0
8bit, 2.9DMIPS
78K0R
16bit, 31.2DMIPS
78K0S 8bit,1.1DMIPS
RL78 16bit, 40.6DMIPS
RL78/G14 core 16bit, 44DMIPS
Compact
MAC/MUL/DIV instructions R8C
10 DMIPS
RL78 Architecture
Renesas New Low end core
© 2012 Renesas Electronics America Inc. All rights reserved. 36
RL78/G14 only
PC SP
MUL/MAC /DIV.
Address Bus
Addr./
Data Bus
Control Signals
PSW
ALU
Bit Interrupt Controller
RL78 CPU Core
Register Banks 0-3: 16-bit (Register Pair)
Internal Buses Bank 3
Bank 2
Bank 1
Bank 0
System Bus Interface ES
CS
16-Bit Barrel Shifter
© 2012 Renesas Electronics America Inc. All rights reserved. 37
RL78 CPU Low Power Technique
2nd- Byte
1st- Byte
2nd-byte decoder turned on, only when the instruction is judged as 2 bytes instruction
Fetch ID MEM
Decode + Address operation MEM operation + Write
Judge 1 or 2 instruction bytes
Add
HL +Byte
Fetch
Write
Ex) ADD A, [HL] - Instruction : 1byte - Address Operation : HL - Data Operation : ADD
BR$
RAM
Bit
Mul
…
Instru
ctio
n
Decode
r
Addre
ss
Ope
rator
Data
Ope
rator
Only the operator which will be used in a instruction will be turned on.
Current reduction!
25% 50%
Decoder Operator
3-stage pipe line
66uA/MHz at basic operation (NOP)
Selected “Path”
Automatically Adjusted
© 2012 Renesas Electronics America Inc. All rights reserved. 38
Flash modes realize an optimal power consumption
Flash Operation Modes
VDD
VSS
CPU, Peripherals
I/O Etc.
Reg
RL78
Regulator System
HS (High-speed) mode:
32MHz (VDD = 2.7 to 5.5V)
16MHz (VDD = 2.4 to 5.5V)
2.1V (Active, Halt) & 1.8V(STOP) regulator
LS (Low-speed) mode:
8MHz (VDD = 1.8 to 5.5V)
1.8V regulator
LV (Low-voltage) mode:
4MHz (VDD = 1.6 to 5.5V)
1.8V regulator
LS 8MHz
MCU current
1.7mA
HS 8MHz
LV 4MHz
1.2mA
HS 4MHz
0.8mA
LS 4MHz
1.7mA
1.2mA 1.3mA
30% down 40% down
© 2012 Renesas Electronics America Inc. All rights reserved. 39
Active Current Advantage to Competition
0
2
4
6
8
10
12
0 10 20 30
Po
wer
Co
nsu
mp
tio
n [
mA
]
Operation Frequency [MHz]
RL78/G13(VDD=2.0V/3.0V/5.0V)RL78/G13 (BasicOperation)A MCU-1 (VDD=3.6V)
A MCU-1 (VDD=3V)
A MCU-1 (VDD=2.2V)
A MCU-2 (VDD=3.0V)
A MCU-3 (VDD=3.0V)
A MCU-3 (VDD=2.2V)
0
2
4
6
8
10
12
0 10 20 30
Po
we
r C
on
sum
pti
on
[m
A]
Operation Frequency [MHz]
RL78/G13(VDD=2.0V/3.0V/5.0V)A MCU-1 (VDD=3.6V)
A MCU-1 (VDD=3V)
A MCU-1 (VDD=2.2V)
A MCU-2 (VDD=3.0V)
A MCU-3 (VDD=3.0V)
A MCU-3 (VDD=2.2V)
Typ. Value Max. Value
Competition
RL78
Competition
RL78
© 2012 Renesas Electronics America Inc. All rights reserved. 40
Fast wake-up is critical when active time is <30uS
Fast Wake-up is Good, but doesn’t Always Have an Effect
30usec
- Assuming current consumption during wake up is the same as during the Active
- Active mode: 8MHz, 3V
100usec
RL78
A MCU-3
10usec
1.2mA
2.0mA
22 mAusec
42 mAusec
25usec
Wake up time
Active Time Condition
1usec
72 mAusec
72 mAusec
35usec
204
mAusec
150
mAusec
100usec
No good
Better
Real Application functions
- Glass Break detector :35usec - Smock detector : 400usec - Health care applications : msec to sec - Remote controller : 100msec - UART 1 byte @ 9600bps = 1.04 msec - EEPROM storage ; msec order
Simple Monitoring - Simple Status check (1 ADC, Port check etc.) - Increment Standard Timer for
Real Time
© 2012 Renesas Electronics America Inc. All rights reserved. 41
RL78: Roadmap
Schedule is preliminary and subject to change
SEG
LCD
ASSP
~ CY 2012
Pro
duct
Cate
gory
CY 2013~
GEN
ERAL
G1x (USB)
L12 (LCD Standard) 32-64 pin, 8-32 KB
L1x (USB, Enhanced Analog)
I1A (Lighting)
F12 (Auto Body)
D1x (Auto Dashboard)
Metering
RF4CE
G13 (Standard) 20-128 pin, 16-512 KB
G12 (Lite) 20-30 pin, 2-16 KB G1x (Entry)
Sub 20 pins
G14 (High Function) 30-100 pin, 16-256 KB
G1A (Enhanced Analog) 25-64 pin, 16-64 KB
Capacitive Touch
L1x (High Function)
© 2012 Renesas Electronics America Inc. All rights reserved. 42
Scalability: RL78 Line-up (Over 300 products from 2KB to 512KB of flash memory)
© 2012 Renesas Electronics America Inc. All rights reserved. 43
RL78: Next Generation Concept
© 2012 Renesas Electronics America Inc. All rights reserved. 44
SMART15 Concept
Smart
Power
Asynchronous Architecture
SMART Snooze (in combination with more peripherals)
Intelligent-Wake-up (Quick wake-
up + lowest current)
Smart
Analog
Intelligent connection
between Analog-to-Analog &
Analog-to-Digital)
16/24-bit ADC & 12-bit DAC
Fast Comp, Op-Amps
SMART Integration
SMART Data Transfer Controller
SMART integration:
RF, Touch, Eink Display, BAN
Super SAFE: DOC, CAC, MPU
© 2012 Renesas Electronics America Inc. All rights reserved. 45
General Purpose
HMI
Application Specific
G15
sub Ghz Meter
Lighting
GP-Next (20-100 pin)
W/ Touch
W/LCD
GP-L next 10-20-pin
ASSP
GP
with LCD
G12 G13
G14
WCP
G10
RL78
Core
130um process
Next Generation Process
Remote
RL78/SMART15: Roadmap Concept
© 2012 Renesas Electronics America Inc. All rights reserved. 46
Summary
What should engineers care about?
© 2012 Renesas Electronics America Inc. All rights reserved. 47
Questions?
© 2012 Renesas Electronics America Inc. All rights reserved. 48
Challenge: Digital revolution is fuelling the exponential demand to manage the society more smarter and in a eco friendly way.
Solution:
In order to address the complex requirements of the Smart Society a scalable microcontroller portfolio which is supported by a rich eco system would be the most important selection criteria.
‘Enabling The Smart Society’
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© 2012 Renesas Electronics America Inc. All rights reserved.