The Core Difference in Your Design
RX600 Microcontrollers
www.renesas.eu
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2012.11
Performance without Sacrifice
The RX architecture is future oriented and feature rich. It’s driven by a Renesas technology
roadmap that focuses on the global environment and anticipates the enormous gains in
sophistication that microcontroller-based products are expected to achieve in the next 10 to
20 years. Thus, the RX family of microcontrollers (MCUs) delivers superior performance in
terms of core processing performance, code efficiency, and power consumption. An extensive
portfolio of on-chip mixed-signal peripherals is available, and fast 90 nm Flash memory is
embedded. That Flash unleashes full CPU performance, feeding instructions to the 32-bit RX
CPU with no delays – no waits, no stalls – maintaining the MCU’s peak performance of 165 DMIPS.
Memory acceleration isn’t required, and the result is just pure, predictable performance.
Today designers are confronted with many critical design
and implementation issues. RX MCUs are designed to
solve these issues and help them create new innovative
end-products faster and more easily than in the past.
2
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> RX MCUs leverage Renesas’ mature 90 nm embedded Flash
process, which is currently the fastest in the industry with a
10 ns maximum read access time and is designed for optimized
power consumption all the way up to full 100 MHz operation.
Memory
> Design solutions in the RX600 series are scalable. Over 200
Zero-wait Flash
C
up to 32 KB
System
Timers
DMA & Event
System
Motor Control
Communication
Ethernet
3-phase PWM
Dead-time Insertion
Shunt Control
PFC, QEI
10/100
MAC with DMA
Timer Pulse
Unit
Compare/Matc
h Timer
General Purpose
Timer
Multi-function
Timer
Prog Pulse
Generator
12 Mbps
Host/Device/OTG
10-bit ADC
PWM
External Bus
10-bit DAC
Watchdog
Timer
TFT-LCD ExDMA
Temp Sensor
Real-time Clock
GPIO
Fast Interrupt
Handler
Clock
Generation
POR/LVD
Analog
12-bit ADC
Prog Op Amps
Multi-sample/Hold
Comparators
USB
CAN
LIN
R
M
Data Flash
series are available since Spring, 2011.
These more economical MCUs operate
down to lower voltages (as low as 1.62 V),
U
S U P PL
consume less power, and come in smaller
packages and memory sizes. The RX200
> Renesas is the
number one MCU
and RX600 share the same CPU core and
supplier worldintegrate many of the same peripherals
wide 1, with a 30%
for easy migration between the two series.
market share.
IE
up to 128 KB
BER O
M
E
N
> The companion low-voltage RX200
SRAM
NU
products are available now offering Flash memory from 32 KB
to 2 MB and packages with 48 to 177 pins.
up to 2 MB
> RX MCUs come with comprehensive
system development support, including a vast range of easyto-use boards, tools, software, middleware, and RTOSs from
Renesas and third-party suppliers, comprising a rich ecosystem
of products for accelerating progress in design cycles and
shrinking time to market.
I 2C
SCI/UART
SPI
with SDRAM
Superior Architecture
> RX CPU Core with FPU and DSP: 165 DMIPS
at 100 MHz
> Enhanced Harvard architecture and 5-stage pipeline
> More than six internal busses
> Multiple Direct Memory Access control
> Rapid interrupt response
Fast Flash
> Industry’s only 90 nm 100 MHz embedded Flash
> CPU receives instructions with no delays
> Mature and reliable silicon process
Power Efficiency
> 500 µA/MHz, with all peripherals active
> 1.4 µA RTC Deep Standby (RX631/63N)
> 1 mW per DMIPS
> Extends battery life in portable applications
Code Efficiency
> Up to 28% code size savings2 compared to
popular 32-bit RISC MCUs on the market
> Variable-length CISC instructions
> FPU, DSP and bit manipulation instructions
Footnotes:
1: Source: Gartner 2009 Worldwide Semiconductor Market Share Database, March 2010 results
2: Source: Renesas internal testing
3
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Advanced Design and Integration
RX600 Key Benefits
The RX Core marries the speed of a RISC architecture with
the flexibility and code efficiency of a CISC architecture.
The CPU interacts with the Flash and SRAM through an
enhanced Harvard design. The RX Core
leverages the industry’s fastest Flash
Flash
memory, delivering 1.65 DMIPS/MHz and
2.77 CoreMark/MHz without wait states.
5-stage
Pipeline
Single
Cycle
IEEE-754
Instruction Bus
Operand Bus
Tightly coupled to the RX Core are the
FPU, MAC, and RMPA (Repeat Multiply
Accumulate), which are efficiently driven
by DSP and floating point instructions to
meet the growing demand of DSC (Digital
Signal Controller) type applications.
Enhanced
Harvard
Architecture
SRAM
Instruction Bus
Operand Bus
48-bit MAC
Accuracy
Simultaneous Data Transfers
The RX Core uses a large number of parallel busses to handle simultaneous movement of data between the
CPU core, Flash, SRAM, and peripherals. Six different peripheral busses enable a flexible distribution of slow
and fast peripherals for optimized throughput. An external bus with an independent DMA can move data
directly from one
external
device to another external
device, such as aInterface
graphic frame buffer to a TFT-LCD panel.
RX
Architecture
– System
Example illustrating 4 independent plus 2 interleaving data transfers.
RX600 MCU
SDRAM
64 Bits INST
64 Bits
z Fetch
Bus
Matrix
32 Bits DATA
Independent
Data Transfers
instructions
Enhanced
Harvard
Architecture
64 Bits
32 Bits
z Transmit
USB data
z Move RGB data
External
Bus Pins
for CPU
32 Bits
External
Bus
Controller
32 Bits
External Bus Master
TFT-LCD
Bus
Bridge
Flash
Internal Main Bus 2
32 Bits
ExDMA
SRAM
Internal Main Bus 1
Bus
Bridge
from external
SDRAM to
TFT-LCD
Interleaving
Data Transfers
z Load ADC
DTC
DMA
Bus Master
Bus Master
CNTL
CNTL
Ethernet DMA
Bus Master
CNTL
values into
SRAM
z Move Ethernet
data packets from
internal SRAM
Multiple Peripheral Busses to Spread Bandwidth Loading
z Timer data
written to
DAC output
CNTL
System Control
DMA, DTC, Interrupts,
Clocks, POR/LVD
Communication
USB, CAN, LIN,
SCI/UART, SPI, I2C
Timers
General, Motor Control,
WDT, I-WDT, RTC
4
Downloaded from Elcodis.com electronic components distributor
Analog
ADC, DAC,
Temp Sensor
GPIO
2K
FIFO
FIFO
2K
Ethernet MAC
www.renesas.eu
Performance
Superior FPU Implementation
The RX Core delivers 1.65 DMIPS per MHz, achieving
165 DMIPS when running at 100 MHz.
The RX FPU implementation allows direct access to general
registers, resulting in faster execution and smaller code size.
> RX600 continues to perform very well in the CoreMark/MHz
benchmarks with the results being continually improved
with new compiler releases. At the time of printing, the
IAR Systems EWRX delivers the best RX600 benchmarks,
however please contact Renesas for updated
performance figures.
> RX eliminates the overhead of load/store operations
> Results in higher performance and smaller code size
Traditional FPU Implementation
RX FPU Implementation
General
Registers
General
Registers
Load/Store
Dedicated
FPU
Registers
Dhrystone MIPS per MHz
with no wait-state memory access
FPU
FPU
1.65
1.25
1.25
Industry’s only 100 MHz On-chip Flash
1.1
RX600
Cortex™-M4
Cortex™-M3
1.50
1.0
ARM9
ARM7
RX600 with
100 MHz Flash
Processing Performance
0.95
Dhrystone 2.1 numbers
for ARM processors taken
from www.arm.com
No-wait Flash
Competing MCU
with 30 MHz Flash
1 wait-state
30 MHz
> Normal interrupt responds in as few as seven
CPU clock cycles from the event until the firmware serves the interrupt.*
> Fast interrupt mode can be assigned dynamically
to any interrupt source, responding in just five
CPU clocks, using dedicated registers to save and
restore the CPU state.
> All interrupt service routines can be shortened by
dedicating up to four RX CPU general registers
for use only by interrupts, eliminating the need to
push and pop the registers to and from the stack.
*Interrupt priority judgement cycles not included.
60 MHz
100 MHz
MCU Frequency
Efficient Interrupt Handling
There are flexible options to achieve minimum
latency for various scenarios:
2 wait-states
INT Trigger to CPU Core
Normal Interrupt
Save PC,
PSW
to SRAM
CPU
Latency
Save
General Reg
to SRAM
Restore
General Reg
from SRAM
User Code
7 cycles typ.
Restore PC,
PSW
from SRAM
6 cycles typ.
Fast Interrupt
CPU
Latency
Save PC,
PSW
to Reg
Save
General Reg
to SRAM
User Code
Restore
General Reg
from SRAM
5 cycles typ.
Restore
PC, PSW
from Reg
3 cycles typ.
Fast Interrupt with Dedicated General Registers
CPU
Latency
Save PC,
PSW
to Reg
User Code
5 cycles typ.
3 cycles typ.
Substantial Code Size Reduction
The RX CISC CPU architecture has inherent advantages
over RISC CPUs in terms of code size, with RX’s variable
length instructions ranging from 8 bits to 64 bits, allowing
the compiler to select just the right instruction to do the job.
> Many RISC MCUs have only two instruction lengths, 16 bits
and 32 bits, so the compiler must make compromises.
> RX CPU supports 10 addressing modes, which optimize
manipulation and movement of data.
> Compiled RX code has been measured as much as 28%
smaller than the same code compiled on a popular RISC
MCU.
Restore
PC, PSW
from Reg
Code Size (relative)*
Motor
Control
28% Less
Data
Communication
19% Less
Data
Conversion
17% Less
Real-time
Control
25% Less
System
Control
25% Less
RX600
Company S Cortex-M3
*Renesas internal testing
5
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Highly Effective Power Management
Run Mode Fully active
500 µA/MHz
Clock Power
Strike an optimized balance of performance and
power consumption with many low-power modes
of operation enabled by these design techniques:
Clocks disabled Sleep Mode
Clock
CPU
OFF
CPU
Peripheral
OFF
Peripheral
SRAM
SRAM
> Flexible system clocking and gating for each peripheral
RTC
RTC
W POWER
LO
Software Standby Mode
87 µA
TY
FU
LI
D
N CTIO N
A
SRAM state retained
Clock
Power
Clock
Power
CPU
OFF
OFF
OFF
OFF
CPU
Peripheral
OFF
OFF
OFF
OFF
Peripheral
SRAM
OFF
OFF
OFF
Milliwatts per DMIPS*
43% Reduction
IN CREASE
Deep Software Standby Mode
Only RTC running
1.4 µA
> Low-power, high-voltage threshold transistors
minimize leakage
E
E
> Selective power domain gating for unused sections
of the device
SRAM
RTC
RX600
RTC
2.0
1.0
Company S Cortex-M3 MCU
4 mA
Power
* Derived from IDD specifications
in product datasheets
> The RX Series has four power modes to manage precious battery energy
> Compared to a Cortex-M3 based MCU, an RX600 chip enables up
consumption without compromising performance
to a 43% power reduction – consuming only 1 mW per DMIPS
EMC Advantages – Built-in to Eliminate Add-Ons
Outstanding EMC performance of RX600 MCUs reduces
system-integration problems, lowers development costs,
and shortens design cycles. BOM costs drop, too, because
external components can be eliminated
> Strong electromagnetic immunity
boosts system reliability
Immunity Level
RX62T
COMPETITION
50 V
Very Low
150 V
300 V
400 V
Medium
500 V
Very High
“ Langer EMV and Renesas Electronics today announced that
the RX600 microcontroller (MCU) family is the most robust MCU
Langer EMV has ever tested against environmental noise ”
> Careful VCC and VSS layout
> Noise filters on input signals
> Advanced chip layout techniques
Renesas press release, October 21, 2010
RX Family Product Portfolio
The RX family currently consists of two extensive product series. MCUs in the RX600 series are optimized
for applications requiring high-performance, high-efficiency processors. Devices in the RX200 series
introduced in 2011 have expanded the range of compatible system-design choices, adding smaller,
lower power devices with fewer pins.
200
100
200+
s
32-bit, 90 nm, Up to
t 2 MB Flash
Flash,
h, Product
CAN,
Control
Ethernet, USB, CAN
N, Motor Contr
rol
6
EEvent
ventt Link
Li k
C
Controller
....and more
...and
50
32-bit,
32-bit
32
bit 130 nm
nm, Up to 1 MB Flash
~ Low Power & Low Voltage ~
200 µA/MHz, RX621/62N/631/63N MCUs provide
extensive communication peripherals
with options for Ethernet, up to three
CAN, and up to two USB-FS 2.0 channels,
each operating as USB Host, USB Device,
or USB OTG (On the Go). Additionally,
they offer up to thirteen SCI, three SPI,
and four I2C serial channels. Among their
other peripherals are analog interfaces;
timers; RTC and POR/LVD functions; and
more.
> RX62T/63T MCUs provide improved motor/
inverter control timers and enhanced
analog peripherals for implementing very
precise motor control and positioning
applications. The MTU3 and GPT timer
peripherals enable one MCU to control
three motors simultaneously. An FPU
and improved analog functions make
these MCUs ideal for use with three-shunt
or single-shunt vector-type motor control
methods.
> RX630 MCU provides an fantastic
General Purpose feature set making it
suitable for many different applications.
Communication peripherals with up to
3ch CAN, and USB-FS 2.0 channel
operating as USB Device. Additionally,
they offer up to thirteen SCI, three SPI
and four I2C serial channels. Among their
other peripherals are analog interfaces;
timers; RTC and POR/LVD functions; and
more.
> RX62G MCU provides improved high
resolution timer functionality base on the
GPT Timer unit, enable to generate a PWM
signal with 312.5 psec/bit. An FPU and
improved analog functions make these
MCUs ideal solution for Digital Power
Supply designs, where a High Resolution
timer is essential to bring the system
design cost down.
8
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Advanced Peripherals
4
4
1
1
1
2
6 8/16/32
2
–
8
4
4
1
1
1
4
13 8/16/32
3
–
RX62N
1
2
1
1
–
–
–
512 KB 96 KB 32 KB
–
2
8
–
12
–
8
4
4
1
1
1
2
6 8/16/32
2
–
RX63N
1
2
3
1
–
–
–
2 MB 128 KB 32 KB
8
2
21
1
6
12
8
4
4
1
1
1
4
13 8/16/32
3
–
General
Purpose
RX610
–
–
–
–
–
–
–
2 MB 128 KB 32 KB 16
2
–
–
–
12
8
4
4
1
–
–
2
7
–
–
RX630
–
1*
3
–
–
–
–
2 MB 128 KB 32 KB
8
2
21
1
6
12
8
4
4
1
1
1
4
13 8/16/32
3
–
Motor
Control
RX62T
–
–
1
–
8
8
4
256 KB 16 KB 8 KB
12
–
–
–
–
–
–
–
4
1
1
–
1
3
–
1
1
RX63T
–
–
–
–
8
8
4
64 KB
8 KB
–
–
–
–
–
–
–
–
4
1
1
–
1
3
–
1
1
DPS**
RX62G
–
–
1
–
8
8
4*** 256 KB 16 KB 8 KB
–
–
–
–
–
–
–
–
4
1
1
–
1
3
–
1
1
Connectivity
* USB device only
**Digital Power Supply
8 KB
8/16
LIN
8
12
SPI
–
6
ExBus
I2C
12
1
SCI
RTC
–
21
I-WDT
8
2
WQT
2
8
CMT
–
2 MB 128 KB 32 KB
TMR
512 KB 96 KB 32 KB
DAC 10-bit
–
–
ADC 10-bit
–
–
Data Flash
–
–
SRAM (max)
1
1
Flash (max)
1
3
GPT
2
2
MTU3
–
–
CAN 2.0B
RX621
RX631
Group
Ethernet
10/100 MAC
PPG
Communication
TPU
Timers
MTU2
Analog
Temp Sensor
Memory
ADC 12-bit
Advanced ADC
12-bit
Graphics ExDMA
USB 2.0
Host/Device/OTG
Basic Peripheral Set
Advanced
Motor
Connectivity
***Incl. High Res. Timer
9
Downloaded from Elcodis.com electronic components distributor
RX600 MCU Series Devices 1/4
Others features
Qualification
Packages
DTC
DMA
POR & LVD
Miscellaneous Information
ProgOpAmp
10-bit DAC
12-bit ADC
Analog
10-bit ADC
External Data Bus
TFT LCD
Parallel I/F
32.768 kHz
HOCO
LOCO
RTC
WDT
Clock
IWDT
Motor
Timer 16-bit
Timer 8-bit
Ethernet
USB Device
Timers
USB (Host/Device/OTG)
CAN
LIN
I 2C
SCI
SPI
Interfaces
I/O
Supply Voltage [V]
Max. Clock Speed [MHz]
Operation
RAM [Byte]
Memory
Flash [Byte]
Part Number
Group
Device
R5F56108VDFP
2048 k + 32 k
R5F56107VDFP
1536 k + 32 k
R5F56106VDFP
1024 k + 32 k
R5F56104VDFP
768 k + 32 k
R5F56218BDBG
512 k + 32 k
R5F56217BDBG
384 k + 32 k
R5F56216BDBG
256 k + 32 k
R5F56218BDLE
512 k + 32 k
R5F56217BDLE
384 k + 32 k
R5F56216BDLE
256 k + 32 k
R5F56218BDFB
512 k + 32 k
R5F56217BDFB
384 k + 32 k
R5F56216BDFB
256 k + 32 k
R5F56218BDFP
512 k + 32 k
R5F56217BDFP
384 k + 32 k
R5F56216BDFP
256 k + 32 k
R5F56218BDLD
512 k + 32 k
R5F56217BDLD
384 k + 32 k
R5F56216BDLD
256 k + 32 k
R5F562N8BDBG
512 k + 32 k
R5F562N8ADBG
512 k + 32 k
R5F562N7BDBG
384 k + 32 k
R5F562N7ADBG
384 k + 32 k
R5F562N8BDLE
512 k + 32 k
R5F562N8ADLE
512 k + 32 k
R5F562N7BDLE
384 k + 32 k
R5F562N7ADLE
384 k + 32 k
R5F562N8BDFB
512 k + 32 k
R5F562N8ADFB
512 k + 32 k
R5F562N7BDFB
384 k + 32 k
R5F562N7ADFB
384 k + 32 k
R5F562N8BDFP
512 k + 32 k
R5F562N8ADFP
512 k + 32 k
R5F562N7BDFP
384 k + 32 k
R5F562N7ADFP
384 k + 32 k
128 k 100 3.0 – 3.6 V
7
7
2
–
–
–
–
–
4 22
–
–
1
–
–
–
–
Yes
4x
4ch
–
2ch –
–
4 Yes
LQFP
144-pin
20 x 20 mm
0.5 mm
pitch
117
96 k
128
64 k
BGA
17-6pin
13 x 13 mm
0.8 mm
pitch
2
96 k
105 2
64 k
6
2
LGA
145-pin
9 x 9 mm
0.65 mm
pitch
Yes SDRAM
–
96 k
64 k
100 2.7 – 3.6 V 105
1
-
-
4 16 MTU2
1
1
1
1
2x
or
4ch
2ch
8ch
or
- Yes
LQFP
144-pin
– Yes 4 Yes 20 x 20 mm
0.5 mm
pitch
1
96 k
LQFP
100-pin
14 x 14 mm
0.5 mm
pitch
74
64 k
2
96 k
6
1
–
–
Yes
LGA
85-pin
7 x 7 mm
0.65 mm
pitch
60
64 k
FPU;
DSP RMPA;
Barrel Shifter;
Programmable
Pattern
Generator (PPG)
FPU;
DSP RMPA;
Barrel Shifter;
SDRAM
Interface;
Programmable
Pattern
Generator
(PPG), RTC, CRC
Unit
FPU;
DSP RMPA;
Barrel Shifter;
Programmable
Pattern
Generator
(PPG), RTC,
CRC unit
1
96vk
–
128
1
64 k
BGA
176-pin
13 x 13 mm
0.8 mm
pitch
2
–
1
96vk
105 2
6
2
–
64 k
–
1
–
100 2.7 – 3.6 V
– Yes 4 16 MTU2
1
96 k
–
105
1
64 k
LGA
145-pin
9 x 9 mm
0.65 mm
pitch
Yes SDRAM
1
1
1
1
2x
or
4ch
2ch – Yes 1 Yes
8ch
or
– Yes
LQFP
144-pin
20 x 20 mm
0.5 mm
pitch
1
Industrial -40°C to 85°C
RX62N
RX621
RX610
R5F56106WDBG 1024 k + 32 k
R5F56104WDBG 768 k + 32 k
BGA
176-pin
13 x 13 mm
0.8 mm
pitch
140
Industrial -40°C to 85°C
R5F56107WDBG 1536 k + 32 k
Industrial -40°C to 85°C
R5F56108WDBG 2048k + 32k
FPU;
DSP RMPA;
Barrel Shifter;
SDRAM
Interface
Programmable
Pattern
Generator
(PPG), RTC,
Ethernet DMA,
CRC Unit
–
1
96 k
74
2
64 k
10
Downloaded from Elcodis.com electronic components distributor
6
1
–
–
1
–
–
Yes
LQFP
100-pin
14 x 14 mm
0.5 mm
pitch
FPU; DSP RMPA;
Barrel Shifter;
Programmable
Pattern
Generator
(PPG), RTC,
Ethernet DMA,
CRC Unit
www.renesas.eu
RX600 MCU Series Devices 2/4
256 k + 32 k
2.7 – 3.6 V
1
256 k + 32 k
4.0 – 5.5 V
1
R5F562TAEDFP
256 k + 32 k
2.7 – 3.6 V
–
R5F562TADDFP
256 k + 32 k
16 k
4.0 – 5.5 V
128 k + 8 k
2.7 – 3.6 V
128 k + 8 k
4.0 – 5.5 V
1
R5F562T7EDFP
128 k + 8 k
2.7 – 3.6 V
–
R5F562T7DDFP
128k + 8 k
4.0 – 5.5 V
–
R5F562TABDFF
256 k + 32 k
2.7 – 3.6 V
1
R5F562TAADFF
256 k + 32 k
4.0 – 5.5 V
1
16 k
R5F562TAEDFF
256 k + 32 k
2.7 – 3.6 V
–
R5F562TADDFF
256 k + 32 k
4.0 – 5.5 V
–
R5F562T7BDFF
128 k + 8 k
2.7 – 3.6 V
1
R5F562T7ADFF
128 k + 8 k
4.0 – 5.5 V
R5F562T7EDFF
12 8k + 8 k
2.7 – 3.6 V
R5F562T7DDFF
128 k + 8 k
R5F562T6BDFF
64 k + 8 k
R5F562T6ADFF
64 k + 8 k
4.0 – 5.5 V
1
R5F562T6EDFF
64 k + 8 k
2.7 – 3.6 V
–
R5F562T6DDFF
64 k + 8 k
8k
100
1
57
4.0 – 5.5 V
–
1
2.7 – 3.6 V
3
1
1
–
1
4.0 – 5.5 V
–
R5F562TABDFM 256 k + 32 k
2.7 – 3.6 V
1
R5F562TAADFM 256 k + 32 k
4.0 – 5.5 V
1
2.7 – 3.6 V
–
4.0 – 5.5 V
–
256 k + 32 k
16 k
R5F562TADDFM 256 k + 32 k
R5F562T7BDFM
128 k + 8 k
2.7 – 3.6 V
1
R5F562T7ADFM
128 k + 8 k
4.0 – 5.5 V
1
46
R5F562T7EDFM
128 k + 8 k
2.7 – 3.6 V
R5F562T7DDFM
128 k + 8 k
4.0 – 5.5 V
–
R5F562T6BDFM
64 k + 8 k
2.7 – 3.6 V
1
R5F562T6ADFM
64 k + 8 k
4.0 – 5.5 V
1
R5F562T6EDFM
64 k + 8 k
2.7 – 3.6 V
–
R5F562T6DDFM
64 k + 8 k
4.0 – 5.5 V
–
R5F562GAADFH
256 k + 32 k
R5F562GADDFH
256 k + 32 k
R5F562G7ADFH
128 k + 8 k
R5F562G7DDFH
128 k + 8 k
R5F562GAADFP
256 k + 32 k
R5F562GADDFP
256 k + 32 k
R5F562G7ADFP
128 k + 8 k
R5F562G7DDFP
128 k + 8 k
8k
–
–
12ch 2x
4ch
LQFP
100-pin
14 x 14 mm
0.5 mm
pitch
– 10
4ch
2x
4ch
LQFP
80-pin
14 x 14 mm
0.65 mm
pitch
MTU3
and
GPT
1
1
–
1
–
–
–
–
– 10
–
–
6 Yes – Yes
Others features
Qualification
Packages
DTC
DMA
POR & LVD
ProgOpAmp
10-bit DAC
12-bit ADC
Miscellaneous Information
– 14
–
–
Analog
10-bit ADC
External Data Bus
TFT LCD
Parallel I/F
32.768 kHz
HOCO
LOCO
RTC
WDT
IWDT
Motor
Timer 16-bit
Timer 8-bit
Ethernet
1
R5F562T7BDFP
R5F562T7ADFP
8k
USB Device
–
76
Clock
Industrial -40°C to 85°C
R5F562TABDFP
Timers
USB (Host/Device/OTG)
CAN
LIN
I 2C
SCI
SPI
I/O
Supply Voltage [V]
Interfaces
R5F562TAADFP
R5F562TAEDFM
RX62G
Max. Clock Speed [MHz]
Operation
RAM [Byte]
Flash [Byte]
Part Number
Memory
FPU; DSP RMPA;
Barrel Shifter;
External Input
(POE) Windows
Comparator;
Clock Stop
Detection;
Clock Monitoring;
ADC Diagnostic;
CRC Unit
Industrial -40°C to 85°C
RX62T
Group
Device
FPU; DSP RMPA;
Barrel Shifter;
External Input
(POE) Windows
Comparator;
Clock Stop
Detection;
Clock Monitoring;
ADC Diagnostic,
CRC Unit;
High Resolution
Timer with
312.5 psec/bit
LQFP
64-pin
10 x 10 mm
0.5 mm
pitch
2x
4ch
1
16 k
82
1
8k
1
100 4.0 – 5.5 V
LQFP
112-pin
20 x 20 mm
0.65 mm
pitch
–
3
1
16 k
76
8k
1
–
1
–
1
–
–
–
– 14
MTU3
and
GPT
1
1
–
1
–
–
–
–
12ch
2x
4ch
–
6 Yes
- Yes
LQFP
100-pin
14 x 14 mm
0.5 mm
pitch
11
Downloaded from Elcodis.com electronic components distributor
RX600 MCU Series Devices 3/4
512 k + 32 k
R5F5630DDDBG 1536 k + 32 k
R5F5630BDDBG 1024 k + 32 k
R5F5630ADDBG 768 k + 32 k
R5F56308DDBG 512 k + 32 k
R5F56307DDBG 384 k + 32 k
R5F5630EDDLK 2048 k + 32 k
R5F5630DDDLK 1536 k + 32 k
R5F5630BDDLK 1024 k + 32 k
RX630
R5F5630ADDLK 768 k + 32 k
R5F56308DDLK
512 k + 32 k
R5F56307DDLK
384 k + 32 k
R5F5630EDDFB 2048 k + 32 k
R5F5630DDDFB 1536 k + 32 k
R5F5630BDDFB 1024 k + 32 k
R5F5630ADDFB 768 k + 32 k
R5F56308DDFB
512 k + 32 k
R5F56307DDFB
384 k + 32 k
R5F5630EDDFP 2048 k + 32 k
R5F5630DDDFP 1536 k + 32 k
R5F5630BDDFP 1024 k + 32 k
RX63T
R5F5630ADDFP 768 k + 32 k
12
R5F56308DDFP
512 k + 32 k
R5F56307DDFP
384 k + 32 k
R5F56306DDFP
256 k + 32 k
R5F56308DDFN
512 k + 32 k
R5F56307DDFN
384 k + 32 k
R5F563T6EDFM
64 k + 8 k
R5F563T5EDFM
48 k + 8 k
R5F563T4EDFM
32 k + 8 k
R5F563T6EDFM
64 k + 8 k
R5F563T5EDFM
48 k + 8 k
R5F563T4EDFM
32 k + 8 k
Packages
DTC
DMA
POR & LVD
Miscellaneous Information
ProgOpAmp
10-bit DAC
12-bit ADC
10-bit ADC
External Data Bus
TFT LCD
32.768 kHz
HOCO
LOCO
RTC
WDT
IWDT
Motor
Timer 16-bit
Timer 8-bit
Ethernet
USB Device
USB (Host/Device/OTG)
CAN
LIN
I 2C
SCI
SPI
I/O
Supply Voltage [V]
Max. Clock Speed [MHz]
Analog
Others features
R5F56308DDFC
R5F5630EDDBG 2048 k + 32 k
Parallel
I/F
Clock
Qualification
R5F5630ADDFC 768 k + 32 k
128 k
Timers
Industrial -40°C to 85°C
R5F5630BDDFC 1024 k + 32 k
Interfaces
FPU; DSP RMPA;
Barrel Shifter;
Programmable
Pattern
Generator (PPG);
RTC with Vbat;
CRC Unit;
Temperature
Sensor
Industrial -40°C to 85°C
R5F5630EDDFC 2048 k + 32 k
R5F5630DDDFC 1536 k + 32 k
Operation
RAM [Byte]
Memory
Flash [Byte]
Part Number
Group
Device
FPU; DSP RMPA;
Barrel Shifter;
External Input
(POE) Windows
Comparator;
Clock Stop
Detection;
Clock
Monitoring;
ADC Diagnostic;
CRC Unit
3
133
96 k
2
64 k
1
128 k
3
96 k
LQFP
176-pin
24 x 24 mm
0.5 mm
BGA
176-pin
13 x 13 mm
0.8 mm
2
133
64 k
1
3 13 4
128 k
96 k
–
LGA
145-pin
7 x 7 mm
0.5 mm
2
111
64 k 100 2.7 – 3.6 V
1
128 k
3
96 k
21ch 2ch
4 22
3
–
1
–
MTU2
1
1
1
Vbat
Anti
Tamper
Yes 8ch
1
1 Yes
–
– Yes 4 Yes
LQFP
144-pin
20 x 20 mm
0.5 mm
2
111
64 k
1
128 k
2
96 k
78
2
9
2
–
4 16
LQFP
100-pin
14 x 14 mm
0.5 mm
14ch
1ch
64 k
1
48 k
64 k
58
2
6
2
–
1
4 16
–
4ch 10ch
8k
100 2.7 - 3.6 V
LQFP
64-pin
10 x 10 mm
0.5 mm
pitch
8ch
39
1
3
25
Downloaded from Elcodis.com electronic components distributor
1
–
–
–
–
–
– 14
MTU3
and
GPT
1
1
–
1
–
–
–
–
–
–
6ch
– Yes 4 Yes
LQFP
48-pin
7 x 7 mm
0.5 mm
pitch
www.renesas.eu
RX600 MCU Series Devices 4/4
2048 k + 32 k
1536 k + 32 k
R5F5631BDDFC
1024 k + 32 k
R5F5631ADDFC
768 k + 32 k
R5F5631EDDBG
2048 k + 32 k
R5F5631DDDBG
1536 k + 32 k
R5F5631BDDBG
1024 k + 32 k
R5F5631ADDBG
768 k + 32 k
R5F5631EDDLK
2048 k + 32 k
R5F5631DDDLK
1536 k + 32 k
R5F5631BDDLK
1024 k + 32 k
R5F5631ADDLK
768 k + 32 k
R5F5631EDDFB
2048 k + 32 k
R5F5631DDDFB
1536 k + 32 k
R5F5631BDDFB
1024 k + 32 k
R5F5631ADDFB
768 k + 32 k
R5F5631EDDFP
2048 k + 32 k
R5F5631DDDFP
1536 k + 32 k
R5F5631BDDFP
1024 k + 32 k
R5F5631ADDFP
768 k + 32 k
R5F5631PDDFM
512 k + 32 k
R5F5631NDDFM
384 k + 32 k
R5F5631MDDFM
256 k + 32 k
R5F5631PDDFL
512 k + 32 k
R5F5631NDDFL
384 k + 32 k
R5F5631MDDFL
256 k + 32 k
R5F563NEDDFC
2048 k + 32 k
R5F563NDDDFC
1536 k + 32 k
R5F563NBDDFC
1024 k + 32 k
R5F563NADDFC
768 k + 32 k
RX63N
R5F563NBDDBG 1024 k + 32 k
R5F563NADDBG
768 k + 32 k
R5F563NEDDLK
2048 k + 32 k
R5F563NDDDLK
1536 k + 32 k
R5F563NBDDLK
1024 k + 32 k
R5F563NADDLK
768 k + 32 k
R5F563NEDDFB
2048 k + 32 k
R5F563NDDDFB
1536 k + 32 k
R5F563NBDDFB
1024 k + 32 k
R5F563NADDFB
768 k + 32 k
R5F563NEDDFP
2048 k + 32 k
R5F563NDDDFP
1536 k + 32 k
R5F563NBDDFP
1024 k + 32 k
R5F563NADDFP
768 k + 32 k
BGA
176-pin
13 x 13 mm
0.8 mm
3 13 4
–
3
SDRAM
4 22
21ch
8ch
111
100 2.7 – 3.6 V
-
128 k
111
128 k
78
2
9
2
–
2
64 k
42
2
6
1
–
1
-
MTU2 1
1
1
Vbat
1
Anti
Tamper
LGA
145-pin
7 x 7 mm
0.5 mm
2ch
1 yes
– Yes 4 Yes
yes
1
Yes
4 16
–
64 k
30
128 k
133
2
6
1
–
–
14ch
LQFP
100-pin
14 x 14 mm
0.5 mm
12ch 1ch
LQFP
64-pin
10 x 10 mm
0.5 mm
8ch
–
Yes
–
BGA
176-pin
13 x 13 mm
0.8 mm
3 13 4
–
3
128 k
78
1
1
2
9
2
Downloaded from Elcodis.com electronic components distributor
–
2
SDRAM
4 22
128 k 100 2.7 – 3.6 V 111
111
FPU;
DSP RMPA;
Barrel Shifter;
SDRAM
Interface;
Programmable
Pattern
Generator
(PPG);
RTC with Vbat;
Ethernet DMA;
CRC Unit,
Temperature
Sensor
LQFP
48-pin
7 x 7 mm
0.5 mm
LQFP
176-pin
24 x 24 mm
0.5 mm
133
128 k
LQFP
144-pin
20 x 20 mm
0.5 mm
FPU;
DSP RMPA;
Barrel Shifter;
SDRAM
Interface;
Programmable
Pattern
Generator
(PPG);
RTC with Vbat
(177 – 64-pin);
CRC Unit;
Temperature
Sensor
–
1
2
128 k
Others features
yes
133
128 k
Qualification
LQFP
177-pin
24 x 24 mm
0.5 mm
2
128 k
Packages
DTC
DMA
POR & LVD
Miscellaneous Information
ProgOpAmp
10-bit DAC
12-bit ADC
Analog
10-bit ADC
External Data Bus
Parallel I/F
TFT LCD
32.768 kHz
HOCO
LOCO
RTC
WDT
IWDT
Motor
Timer 16bit
Timer 8bit
Ethernet
USB Device
Clock
133
R5F563NEDDBG 2048 k + 32 k
R5F563NDDDBG 1536 k + 32 k
Timers
USB (Host/Device/OTG)
CAN
LIN
I 2C
SCI
SPI
I/O
Supply Voltage [V]
Max. Clock Speed [MHz]
128 k
Interfaces
Industrial -40°C to 85°C
R5F5631EDDFC
R5F5631DDDFC
Operation
RAM [Byte]
Flash [Byte]
Part Number
Memory
Industrial -40°C to 85°C
RX631
Group
Device
MTU2 1
–
1
1
Vbat
1
Anti
Tamper
1 Yes
21ch
8ch
2ch – Yes 4 Yes
LQFP
144-pin
20 x 20 mm
0.5 mm
Yes
4 16
LGA
145-pin
7 x 7 mm
0.5 mm
Yes
14ch
LQFP
100-pin
14 x 14 mm
0.5 mm
13
Design Potential and Versatility of the RX
System design versatility, application capability, and economic sensibility are built into the
many microcontrollers in the RX family. Driven by a technology roadmap that anticipates
more sophisticated applications in the next decade that demand cost effectiveness,
RX devices offer abundant core performance and extensive peripheral functions.
RX62T/RX63T for Motor Control
High-performance CPU and FPU capability, and advanced
analog and timer peripherals, make the RX62T an ideal
solution for inverter and motor control applications.
Renesas can help you develop your motor control solution
with kits and firmware that support many kinds of motor
control, including ultra-quiet, energy-efficient, and highprecision three-phase sensorless vector control.
In the home appliance example shown here, the RX62T is
driving two three-phase motors simultaneously using its
advanced PWM timers. These timers are well suited for Brushless DC three-phase
motors by having complimentary PWM outputs with automatic dead-time insertion,
an emergency “Shut-down” (stop) input, and quadrature encoder inputs for speed
and direction feedback.
The RX62T’s advanced analog subsystem with multiple sample-hold circuits
enables sampling of three simultaneous current measurements. It also offers
programmable operational amplifiers and integrated window comparators to
eliminate external components. The 12-bit ADCs have a fast 1µsec conversion
time, can be triggered by the PWM timers, and provide self-diagnostic capability.
Advanced Analog
> Two 12-bit ADC units, each with 4 input
channels, 1 μsec conversion time and
self-diagnostic capability
GPIO
Timer
Timers
Timer
Analog
Analog
CAN
Analog
RX62T
12-bit ADC S/H
PGA
Detection Circuit
Comp
PWM Generation
Motor
Current
PWM Interrupt
12-bit ADC S/H
PGA
Detection Circuit
Comp
PWM Generation
PWM Interrupt
PWM Output
– 3 x independent sample-hold circuits
– 3 x programmable op amps
– 3 x analog window comparators
– 3 trigger sources (PWM timers,
external and software)
Fault Signal
Advanced Timers
3
6
Motor
Current
3
6
> Each 12-bit ADC unit has
> 100 MHz, 16-bit Multifunction
Timer unit (MTU3)
> 100 MHz, 16-bit General Purpose
Timer unit (GPT)
PWM Output
> Complimentary PWM and
Reset-Synchronous outputs
Fault Signal
> Dead-time insertion
12-bit ADC
> Quadrature encoder inputs
> Emergency motor “Shut-down”
(stop) input
14
Downloaded from Elcodis.com electronic components distributor
www.renesas.eu
RX for Connectivity
RX MCUs provide built-in hardware for implementing efficient
communications with external peripherals, systems, test equipment
and networks such as the Internet. The Ethernet, USB and CAN
connectivity modules are well-proven, reliable designs.
Ethernet MAC
> 10/100 Mbps
> 2 KB TX FIFO
> 2 KB RX FIFO
> MII, RMII connection to PHY
> Wake on LAN
RX62N/RX63N
Analog
USB
> Host/Device/OTG
> 12 Mbps
> Up to 2 ports
> 10 Endpoints
> 2 KB FIFO
Internet
Ethernet
GPIO
CAN
TFT-LCD
SPI/SCI
Expansion
Module
SPI/SCI
ExDMA
CAN
> ISO11898-1
> 1 Mbps
> 32 Mailboxes
Field
Updates
USB Host
USB Device
WiFi
Diagnostic
Testing
> Up to 18 MHz (SPI Master)
> Flexible configurations
RX for TFT-LCD Applications
The external DMA controller integrated into RX devices
can drive a TFT-LCD panel directly, greatly reducing
the load on the MCU’s CPU; thus, maximizing the
performance of application software
External DMA Controller
> Directly drive a TFT-LCD panel
> RGB pixel data moves directly from
frame buffer to the TFT-LCD and never
enters the RX MCU
> RX CPU is loaded only 5%, while
refreshing at 60 Hz
> Plenty of CPU bandwidth remains to
run the application, communication
channels, and create moderate
animation on the TFT-LCD
Data
RX621/RX62N
RX631/RX63N
USB Host,
OTG, Device
Ethernet
RGB
External
DMA
Controller
WQVGA with
Touch Screen
CAN
Analog
GPIO
Frame Buffer Memory
(SDRAM, SRAM, or PSRAM)
Timer
Clocks
15
Downloaded from Elcodis.com electronic components distributor
Get up and running with the RX Ecosystem
Renesas makes it easy to launch new system designs. And our comprehensive range of hardware and software
tools – including very low cost and free products – helps swiftly advance the product development process
from concept stage to final RX-based design.
System Development Kits
> The Renesas Starter Kit (RSK) facilitates in-depth MCU
experimentation and allows system design development
> Where necessary (for example RSK RX62N) the kit includes
open source communication stacks such as USB host /
function as well as Ethernet.
Renesas RX Starter Kit (RSK)
> Many third part OS vendors, such as
Micrium, Segger and FreeRTOS have
ported their software to the RSKs. Trial
BSPs are generally available for their
web sites.
> This complete RX600-based hardware/software platform for
in-depth application design includes the E1 Debugger, a trial
version of the HEW/e2studio IDE, and demonstration firmware.
> The RSKs are specifically designed to be both an evaluation
and development system. The kit includes everything that an
engineer needs to be up and running within only a few minutes.
> The single installer prepares the target PC with a comprehensive
development environment including trial C/C++ compiler,
editor, build manager and full source level debugger. A full
set of peripheral sample code gives the user an excellent kick
start to their project development
Processor
RSK Part Number
RX610 R0K556100S000BE
RX62N R0K5562N0S000BE
RX62T R0K5562T0S000BE
RX630 R0K505630S000BE
RX63N R0K50563NS000BE
RX63T R0K50563TS000BE
Application Development Tools
RX MCUs are supported by a comprehensive set of popular Renesas hardware and software tools that have
been widely praised for their capabilities and ease of use. Additional support is provided by a dedicated
community of third-party experts offering many helpful, time-saving products and services, including the
development environments and optimized compilers from KPIT Cummins (GNURX) and IAR.
HEW: A Complete Integrated Development
Environment (IDE)
HEW accelerates progress on the full range of system
design tasks, from editing, to peripheral driver generation,
to compilation, to debugging, and to Flash programming.
HEW works with the Renesas compiler or Open Source
GNURX compiler. HEW and the GNURX compiler are
both free. The free Renesas C++ compiler allows unlimited
binary output size for 60 days; thereafter, restricting
compile size to 128 KB.
HEW Part Number: YS32HEWRX-1-6
> Project Manager
> Output Window
> Built-in Editor
> Full Bus Trace
> Peripheral Driver Generator
> Virtual Desktop
> Local Variable Watch
> C/C++ Variable Watch
> Stack Trace
> Memory Views
> Debug Control (E1, E20, J-Link)
16
Downloaded from Elcodis.com electronic components distributor
Complete Debugging, Emulation, and Programming
On-chip debugging of an RX-based application is performed
via JTAG connection to the target and USB connection to
the Windows-based IDE. E1 and J-Link offer thorough
CPU control and visibility. E20 adds high-speed tracing.
Renesas E1
YR0E000010KCE00-EE
Renesas E20
R0E000200KCT00
SEGGER
J-Link
www.renesas.eu
e2studio
Based on the popular open source Eclipse environment,
e2studio offers a complete integrated development
environment based on the free of charge GNU, IAR or
Renesas RX compilers. When the powerful project
management and editor features of the Eclipse
environment are used with the integrated debugging
interface e2studio becomes everything you need for
embedded RX development.
Can be downloaded free of charge or purchased as part
of a compiler package.
Part Number: YRX-E2STUDIO-1U
Support Software
Renesas Software Library
Renesas offers a wide variety of free sample code and libraries supporting
applications using Ethernet, USB, CAN, DSP, Motor Control, PCM Audio
and Graphics. Renesas also provides the Renesas Peripheral Driver Library
(RPDL) and the Peripheral Driver Generator (PDG) free of charge.
GRAPHICS
PCM
AUDIO
CAN
MOTOR
CONTROL
USB
DSP
LIBRARY
TCP/IP
Timers
PWM
CMT
TPU
MCU
RSPI
I/O
SCI
CGC
DTC
GPT
WDT
CRC
ADC
DAC
I2C
PFC
BSC
DMAC
ExDMA
LVD
RTOS
Interrupt
File System
PPG
TCP/IP Stack
MTU
USB Stack
RPDL Drivers
TMR
iAnywhere
4
Renesas Peripheral Device Generator (PDG)
CMX Systems
4
4
4
4
> A Windows user interface for con- > Generates C code calls
figuring RX peripherals and pins
to RPDL driver functions
Micrium
4
4
4
4
> Menus to select/initialize
peripherals
> Select and manage pin
assignments
Peripheral
P
Driver
Generator
or
4
Redpine Signals
4
FreeRTOS
4
Express Logic
4
Sciopta
4
4
4
4
4
4
4
PORT
IXXAT
4
4
SEGGER
Thesycon
CANopen
RX600 devices are well suited for embedded real time tasks,
high computation, as well as simultaneous data transfers
on many high-speed communication channels. Because of
this, communication middleware and Real Time Operating
Systems (RTOS) are commonly needed. Renesas has
established technology partnerships with many leading
independent suppliers to provide high-quality, cost-effective
solutions.
BlueTooth
Low-level firmware drivers for all basic RX peripherals are
free, source code included. RPDL eliminates the need for
creating your drivers, saving time and reducing errors.
RPDL functions are easily integrated into HEW projects,
and PDG can be used to generate initialization code and
calls to RDPL functions based on your own specified
configuration.
Wi–Fi
Third-party RTOS and Middleware
Graphic Software
Renesas Peripheral Driver Library (RPDL)
4
4
4
4
4
17
Downloaded from Elcodis.com electronic components distributor
Solution Kits for RX
RX Direct-drive Solutions for TFT-LCD
Renesas RX62N RPB Board
A quick and easy solution to add colour
TFT-LCD to your design
RX62N Webserver Demo kit with outstanding test
routines you could do via network
> HTML file hosting
> FPU function test by bouncing ball
and Mandelbrot calculation
> DMIPS MCU benchmark
> “Pong” Mini game
Features
> Real-Time IEEE-1588 Ethernet PHY
> USB device port
> Mini Joystick
> Connection port for fast prototyping
Development Environment
> Renesas HEW IDE
> Low-cost 32-bit MCU solution to drive colour TFT-LCD panels
up to WQVGA resolution
> Built-in SEGGER J-Link Lite debugger
> Demo Source code and libraries
> Only 5% loading on CPU when refreshing the TFT-LCD panel
at 60 Hz, with ample bandwidth left for running the rest of the
application
Part Number:
YRPBRX62N
(Contact your sales channel
for availability)
> Free graphics API library and examples for evaluating graphics
> Third-party support for additional graphics requirements
Part Number:
YLCDRSKRX62NS
Motor Control Solutions Using the RX MCU
A solid evaluation and development
platform for motor control
Renesas Demonstration Board (RDK) for
Seminar purpose
This board plugs into a PC’s USB port to showcase
the features and capabilities of RX600 MCUs
> RX MCU board with J-Link integrated debugger and huge
peripheral set, including Ethernet, CAN and USB
> Graphic display
> Drive sensorless PMAC motors
> 3-axis accelerometer
> Field oriented control, 3-phases
> Audio in/out
> Single PCB: inverter + MCU
> Board will be supplied during hands-on sessions seminars
> High-frequency modulation
>20 kHz
> Installation CD containing:
– High-performance Embedded
Workshop (HEW)
> Demo code and library
> Compact and small
board USB powered
– RX Family C/C++ toolchains
(Renesas 128 KB
evaluation version, full
GNU version)
> E1, HEW, Renesas
compiler unlimited for
60 days, 128 KB code size
limit after
– Quick-start guide,
sample projects
Part Number:
YRMCKITRX62T
Part Numbers:
YRDKRX62N (Processor RX62N)
YRDKRX63N (Processor RX63N)
(Contact your sales channel for
the next seminar in your area)
18
Downloaded from Elcodis.com electronic components distributor
www.renesas.eu
RX is Online – www.renesas.eu/rx
Renesas makes product data, design and application information, and much more available 24/7 in the RX area
of our website. Bookmark it and visit it often to get the latest data on the newest and previously released devices,
learn details about (and download free versions of) system development tools, use time-saving MCU-selection
aids, participate in discussion forums, find out about upcoming events, take advantage of special promotions,
and more.
INTERACTIVE
INTERACTIVE
Additional Renesas MCU Support
INTERACTIVE
> The Alliance Partner
Program allows you to connect
instantly with hundreds of
qualified design consulting and
contracting professionals.
> For educators and
students. Teach with
professional grade tools.
Learn MCUs with a modern
architecture.
> Gain the technical knowledge
you need. Research and
> Gathering place for
learn at your own pace,
technical information on
where you want, when you
Renesas MCUs and MPUs.
want, for free.
> www.renesas.eu/alliance
> www.renesasuniversity.com
> www.renesas.interactive.com
INTERACTIVE
> www.renesasrulz.com
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RX600 Microcontrollers
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