RENESAS R5F56106WNBG

Datasheet
RX610 Group Datasheet
RENESAS 32-Bit MCU
1.
Overview
1.1
Features
R01DS0097EJ0100
Rev.1.00
Apr 22, 2011
The RX610 Group is an MCU with the high-speed, high-performance RX CPU as its core.
One basic instruction is executable in one cycle of the system clock. Calculation functionality is further enhanced, with
the inclusion of a single-precision floating-point calculation unit as well as a 32-bit multiplier and divider. Additionally,
code efficiency is improved by instructions with lengths that are variable in byte units and by an enhanced range of
addressing modes.
Timers, serial communication interfaces, I2C bus interfaces, an A/D converter, and a D/A converter are incorporated as
peripheral functions which are essential to embedded devices.
Facilities for connecting external memory are also included, enabling direct connection to memory and peripheral LSI
circuits. The on-chip memory is flash memory capable of large-capacity, high-speed operation, and this significantly
reduces the cost of configuring systems.
1.1.1
Applications
Office automation equipment and digital industrial equipment
R01DS0097EJ0100 Rev.1.00
Apr 22, 2011
Page 1 of 84
RX610 Group
1.1.2
1. Overview
Outline of Specifications
Table 1.1 lists the specifications of the RX610 Group in outline.
Table 1.1
Outline of Specifications
Classification
Module/Function
Description
CPU
CPU
 Maximum operating frequency: 100 MHz
 32-bit RX CPU
 Minimum instruction execution time: One instruction in one state (in one system clock
cycle)
 Address space: 4-Gbyte linear address
 Register set of the CPU
General purpose: Sixteen 32-bit registers
Control: Nine 32-bit registers
Accumulator: One 64-bit register
 Basic instructions: 73
 Floating-point operation instructions: 8
 DSP instructions: 9
 Addressing modes: 10
 Data arrangement
Instructions: Little endian
Data: Selectable as little endian or big endian
 On-chip 32-bit multiplier: 32 x 32  64 bits
 On-chip divider: 32 / 32  32 bits
 Barrel shifter: 32 bits
FPU
 Single precision (32-bit) floating point
 Data types and floating-point exceptions conforming to the IEEE754 standard
Memory
Flash
 Flash capacity: 2 Mbytes (max.)
 Three types of on-board programming modes
SCI boot mode, user program mode, and user boot mode
RAM
RAM capacity: 128 Kbytes
Data flash
Data flash capacity: 32 Kbytes
MCU operating modes
Single-chip mode, on-chip ROM enabled extended mode, and on-chip ROM disabled
extended mode
Clock
Clock generation circuit
 One main clock oscillation circuit
 Includes a PLL circuit and frequency divider, so the operating frequency is selectable
 System clock, peripheral module clock, and external bus clock are independently
specifiable.
The CPU, DMAC, DTC, ROM, and RAM run in synchronization with the system
clock (ICLK): 8 to 100 MHz
Peripheral modules run in synchronization with the peripheral module
clock (PCLK): 8 to 50 MHz
Devices connected to the external bus run in synchronization with the external bus
clock (BCLK): 8 to 25 MHz
Power down
Power-down function
 Module stop function
 Four power-down modes
Sleep mode, all-module clock stop mode, software standby mode, and deep software
standby mode
R01DS0097EJ0100 Rev.1.00
Apr 22, 2011
Page 2 of 83
RX610 Group
1. Overview
Classification
Module/Function
Description
Interrupt
Interrupt control unit
 Peripheral function interrupts: 116
 External interrupts: 16 (pins IRQ15 to IRQ0)
 Non-maskable interrupt: 1 (the NMI pin)
 Eight priority orders specifiable
External bus extension
 The external address space can be divided into eight areas (CS0 to CS7), each of
which is independently controllable.
Capacity of each area: 16 Mbytes
Chip-select signals (CS0# to CS7#) can be output for each area.
8-bit or 16-bit bus space can be specified for each area.
The data arrangement is selectable as little endian or big endian for each area. (only
for data)
 Separate bus system
 Wait control
 Write buffer programming
DMA
DMA controller
 4-channel DMA transfer available
 Activation sources: Software trigger, external interrupts, and interrupt requests from
peripheral functions
Data transfer controller
 Three transfer modes: Normal transfer, repeat transfer, and block transfer
 Activated by interrupt requests (chain transfer enabled)
I/O ports
Programmable I/O ports
 I/O pins: 117 (144-pin LQFP), 140 (176-pin LFBGA)
 Pull-up resistors: 40
 Open-drain outputs: 16
 5-V tolerance: 10
Timer
16-bit timer pulse unit
 (16 bits x 6 channels) x 2 units
 Up to 16 pulse inputs and outputs
 Select from among 7 or 8 counter-input clocks for each channel
 Input capture/output compare function
 Maximum of 15-phase PWM output possible in PWM mode
 Buffered operation, phase counting mode (two-phase encoder input), and cascaded
operation (32 bits x 2 channels) settable for each channel
 PPG output trigger can be generated
 Conversion start trigger for the A/D converter can be generated
Programmable pulse
 (4 bits x 4 groups) x 2 units
generator
 Provides pulse outputs by using the TPU output as a trigger
 Maximum of 32-bit pulse output possible
8-bit timer
 (8 bits x 2 channels) x 2 units
 Select from among 8 clock sources (7 internal clocks and 1 external clock)
 Allows the output of pulse trains with a desired duty cycle or PWM signals
 Cascading of 2 channels enables it to be used as a 16-bit timer
 Generation of trigger to start A/D converter conversion
 Capable of generating baud rate clock for SCI5 and SCI6
Compare match timer
 (16 bits x 2 channels) x 2 units
 Select from among 4 counter-input clocks
R01DS0097EJ0100 Rev.1.00
Apr 22, 2011
Page 3 of 83
RX610 Group
Classification
1. Overview
Module/Function
Description
 8 bits x 1 channel
Watchdog timer
 Select from among 8 counter-input clocks
 Switchable between watchdog timer mode and interval timer mode
Communication
Serial communication
 7 channels
function
interface
 Serial communication mode:
Asynchronous, clock synchronous, and smart card interface
 On-chip baud rate generator allows any bit rate to be selected
 Choice of LSB-first or MSB-first transfer
 Enables average transfer rate clock input from TMR (SCI5, SCI6)
2
I C bus interface
 2 channels
 Communication format
2
I C bus format/SMBus format
Master/slave selectable (For multi-master operation)
 Maximum transfer rate: 1 Mbps
A/D converter
 4 units (1 unit x 4 channels)
 10-bit resolution
 Conversion time: 1.0 s per channel (at 50-MHz (PCLK) operation)
 Two kinds of operating modes
Single mode and scan mode (single scan mode or continuous scan mode)
 Sample-and-hold function
 Three types of A/D conversion start
Conversion can be started by software, a conversion start trigger by the timer (TPU or
TMR), or an external trigger signal.
D/A converter
 2 channels
 10-bit resolution
 Output voltage: 0 V to VREFH
CRC calculator
 CRC code generation for arbitrary data lengths in 8-bit units
 One of three generating polynomials selectable
8
2
16
15
2
16
12
5
X + X + X + 1, X + X + X + 1, X + X + X + 1
 CRC code generation for LSB-first or MSB-first communication selectable
Operating frequency
8 to 100 MHz
Power supply voltage
VCC = PLLVCC = AVCC = 3.0 to 3.6V, VREFH = 3.0 to AVCC
Supply current
50 mA (typ.) (regular specifications)
Operating temperature
20 to +85 C (regular specifications), 40 to +85 C (wide-range specifications)
Package
176-pin LFBGA (PLBG0176GA-A)
144-pin LQFP (PLQP0144KA-A)
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Apr 22, 2011
Page 4 of 83
RX610 Group
1.2
1. Overview
List of Products
Table 1.2 is the list of products, and figure 1.1 shows how to read the product part no.
Table 1.2
List of Products
Operating
Part No.
Package
ROM Capacity
RAM Capacity
Data Flash
Frequency (Max.)
R5F56108VNFP
PLQP0144KA-A
2 Mbytes
128 Kbytes
32 Kbytes
100 MHz
R5F56108WNBG
PLBG0176GA-A
2 Mbytes
128 Kbytes
32 Kbytes
100 MHz
R5F56107VNFP
PLQP0144KA-A
1.5 Mbytes
128 Kbytes
32 Kbytes
100 MHz
R5F56107WNBG
PLBG0176GA-A
1.5 Mbytes
128 Kbytes
32 Kbytes
100 MHz
R5F56106VNFP
PLQP0144KA-A
1 Mbyte
128 Kbytes
32 Kbytes
100 MHz
R5F56106WNBG
PLBG0176GA-A
1 Mbyte
128 Kbytes
32 Kbytes
100 MHz
R5F56104VNFP
PLQP0144KA-A
768 Kbytes
128 Kbytes
32 Kbytes
100 MHz
R5F56104WNBG
PLBG0176GA-A
768 Kbytes
128 Kbytes
32 Kbytes
100 MHz
R
5
F 56 10 8
V N FP
Indicates the package.
FP: LQFP
BG: LFBGA
Indicates the characteristic code.
N: Regular specifications
D: Wide-range specifications
Indicates the number of pins.
V: 144 pins
W: 176 pins
Indicates the ROM capacity, RAM capacity,
and data flash capacity.
8: 2 Mbytes/128 Kbytes/32 Kbytes
7: 1.5 Mbytes/128 Kbytes/32 Kbytes
6: 1 Mbyte/128 Kbytes/32 Kbytes
4: 768 Kbytes/128 Kbytes/32 Kbytes
Indicates the RX610 Group.
Indicates the RX600 Series.
Indicates the type of memory.
F: Flash memory version
Indicates a Renesas MCU.
Indicates a Renesas semiconductor product.
Figure 1.1
R01DS0097EJ0100 Rev.1.00
Apr 22, 2011
How to Read the Product Part No.
Page 5 of 83
RX610 Group
1.3
1. Overview
Block Diagram
Figure 1.2 shows a block diagram of the RX610 Group.
*
Data flash
WDT
Port 0
Port 1
CRC
Port 2
SCI
7 channels
RX CPU
Clock
generation
circuit
[Legend]
ICU:
DTC:
DMAC:
BSC:
WDT:
CRC:
Internal main bus 2
DTC
DMAC
6 channels (unit 0)
TPU
6 channels (unit 1)
Port 4
PPG (unit 0)
Port 5
PPG (unit 1)
Port 6
TMR
2 channels (unit 0)
Port 7
TMR
2 channels (unit 1)
CMT
2 channels (unit 0)
CMT
2 channels (unit 1)
RIIC
Internal main bus 1
Operand bus
RAM
Instruction bus
ROM
Internal peripheral bus 1
ICU
Internal peripheral bus 2
Port 3
TPU
2 channels
Port 8
Port 9
Port A
Port B
A/D converter
4 channels (unit 0)
A/D converter
4 channels (unit 1)
Port C
A/D converter
4 channels (unit 2)
Port D
A/D converter
4 channels (unit 3)
Port E
D/A converter
2 channels
Port F
Port G
BSC
Interrupt control unit
Data transfer controller
DMA controller
Bus controller
Watchdog timer
CRC (Cyclic Redundancy Check) calculator
SCI:
TPU:
PPG:
TMR:
CMT:
RIIC:
External bus
Port H
Serial communications interfaces
16-bit timer pulse unit
Programmable pulse generator
8-bit timer
Compare match timer
I2C bus interface
Note: * Ports F and H are not included in the 144-pin LQFP package.
Figure 1.2
R01DS0097EJ0100 Rev.1.00
Apr 22, 2011
Block Diagram
Page 6 of 83
RX610 Group
1.4
1. Overview
Pin Assignments
Figures 1.3 and 1.4 show the pin assignments of the 176-pin LFBGA and the 144-pin LQFP, respectively. Figure 1.5
(assistance diagram) shows the pin assignment the 144-pin LQFP. Tables 1.3 and 1.4 show the lists of pins and pin
functions of the 176-pin LFBGA and the 144-pin LQFP, respectively.
Figure 1.3
R01DS0097EJ0100 Rev.1.00
Apr 22, 2011
Pin Assignment of the 176-pin LFBGA
Page 7 of 83
RX610 Group
1. Overview
Figure 1.4
R01DS0097EJ0100 Rev.1.00
Apr 22, 2011
Pin Assignment of the 144-Pin LQFP
Page 8 of 83
RX610 Group
1. Overview
Figure 1.5
R01DS0097EJ0100 Rev.1.00
Apr 22, 2011
Pin Assignment (Assistance Diagram) of the 144-Pin LQFP
Page 9 of 83
RX610 Group
Table 1.3
Pin No.
1. Overview
List of Pins and Pin Functions (176-Pin LFBGA)
Power Supply
176-Pin
Clock
LFBGA
System Control
External
P04
IRQ12-A
P43
IRQ11-B
A5
P46
IRQ14-B
A6
P90
AN8
A7
P93
AN11
A8
P97
AN15
A2
AVCC
A3
VREFL
A4
Timer
cation
TMCI3
TxD4
On-Chip
Interrupt
A1
Bus
Communi-
I/O Port
Analog
Emulator
TDI
AN3
AN6
A9
PG2
A10
PD1
D1
A11
P60
CS0#/
CS4#-A/
CS5#-B
A12
P63
CS3#-A/
CS7#-A
A13
PD4
D4
A14
PD6
D6
A15
PE0
D8
B1
P67
B2
P05
IRQ13-A
P42
IRQ10-B
AN2
P45
IRQ13-B
AN5
B3
RxD4
TCK
VREFH
B4
B5
B6
DA1
TMO3
VCC
B7
P92
AN10
B8
P96
AN14
B9
PG1
B10
PD0
D0
B11
P61
CS1#/
CS2#-B/
CS5#-A/
CS6#-B/
CS7#-B
B12
B13
VCC
PD5
D5
B14
PE1
D9
B15
PE2
D10
C1
P02
C2
P66
IRQ10-A
TMO2
SCK6
TRST#
DA0
C3
P03
IRQ11-A
C4
P41
IRQ9-B
AN1
C5
P47
IRQ15-B
AN7
R01DS0097EJ0100 Rev.1.00
Apr 22, 2011
TMRI3
SCK4
TMS
Page 10 of 83
RX610 Group
Pin No.
Power Supply
176-Pin
Clock
LFBGA
System Control
C6
External
I/O Port
Interrupt
Bus
CommuniTimer
cation
On-Chip
Analog
Emulator
VSS
C7
C8
1. Overview
P94
AN12
BSCANP
C9
PG3
C10
PD2
D2
C11
P62
CS2#-A/
CS6#-A
C12
VSS
C13
PD7
D7
C14
PE3
D11
C15
PE5
IRQ5-A
D1
P65
IRQ15-A
P01
IRQ9-A
D4
P40
IRQ8-B
AN0
D5
P44
IRQ12-B
AN4
D6
P91
AN9
D7
P95
AN13
D8
PG0
D9
PG4
D10
PD3
D11
P64
CS4#-B
D12
PE4
D12
D13
PE6
IRQ6-A
D14
D14
PE7
IRQ7-A
D15
D15
PG5
D2
D3
VSS
E2
WDTOVF#
E3
EMLE
E4
RxD6
D3
TDO
P00
IRQ8-A
TMRI2
TxD6
VCC
E13
PG7
E14
PG6
E15
VSS
F1
MD1
F2
MD0
F3
VCL
F4
MDE
F12
TMCI2
AVSS
E1
E12
D13
PA3
A3
PO19/
TIOCC6/
TIOCD6/
TCLKF
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Apr 22, 2011
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RX610 Group
Pin No.
1. Overview
Power Supply
176-Pin
Clock
LFBGA
System Control
F13
External
I/O Port
Interrupt
PA2
Communi-
Bus
Timer
A2
PO18/
cation
On-Chip
Analog
Emulator
TIOCC6/
TCLKE
F14
PA0
A0/BC0#
PO16/
TIOCA6
F15
PA1
A1
PO17/
TIOCA6/
TIOCB6
G1
RES#
G2
XTAL
G3
P85
G4
P86
G12
PA7
A7
PO23/
TIOCA8/
TIOCB8/
TCLKH
G13
PA6
A6
PO22/
TIOCA8
G14
PA4
A4
PO20/
G15
PA5
A5
PO21/
TIOCA7
TIOCA7/
TIOCB7/
TCLKG
H1
VCC
H2
NMI
H3
EXTAL
H4
VSS
H12
PB0
A8
PO24/
TIOCA9
H13
VSS
H14
PH0
H15
PH1
J1
PF5
J2
PF4
J3
PF6
J4
P34
IRQ4-A
PO12/
TIOCA1
J12
P72
J13
P71
CS4#-C/
CS5#-C/
CS6#-C/
CS7#-C
J14
VCC
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Apr 22, 2011
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RX610 Group
Pin No.
1. Overview
Power Supply
176-Pin
Clock
LFBGA
System Control
External
I/O Port
J15
P70
K1
P31
Interrupt
Bus
CommuniTimer
cation
CS3#-B
IRQ1-A
On-Chip
Analog
Emulator
ADTRG2#
PO9/
TIOCA0/
TIOCB0
K2
P30
IRQ0-A
PO8/
K3
P32
IRQ2-A
PO10/
TIOCA0
TIOCC0/
TCLKA-A
K4
P33
IRQ3-A
PO11/
TIOCC0/
TIOCD0/
TCLKB-A
K12
PB2
A10
PO26/
TIOCC9
K13
PB1
A9
PO25/
TIOCA9/
TIOCB9
K14
P73
K15
P74
L1
PF2
L2
PF1
L3
PF3
L4
PF0
L12
PB7
ADTRG3#
A15
PO31/
TIOCA11/
TIOCB11
L13
PB5
A13
PO29/
TIOCA10/
TIOCB10
L14
PB4
A12
PO28/
TIOCA10
L15
PB3
A11
PO27/
TIOCC9/
TIOCD9
M1
P27
PO7/
SCK1
TIOCA5/
TIOCB5
M2
P26
PO6/
TxD1
TIOCA5/
TMO1
M3
VCC
M4
VSS
M5
P14
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Apr 22, 2011
IRQ4-B
TCLKA-B
SDA1
Page 13 of 83
RX610 Group
Pin No.
1. Overview
Power Supply
176-Pin
Clock
LFBGA
System Control
M6
External
I/O Port
Interrupt
Bus
P37
CommuniTimer
cation
On-Chip
Analog
Emulator
PO15/
TIOCA2/
TIOCB2/
TCLKD-A
M7
P57
M8
P83
M9
P81
M10
P51
M11
PH4
M12
PC7
WAIT#
TRDATA3
TRSYNC
WR1#/BC1#
A23/
TxD5
CS4#-D/
CS7#-D
M13
VSS
M14
PC0
A16
M15
PB6
A14
N1
P25
PO30/
TIOCA11
PO5/
RxD1
TIOCA4/
TMCI1
N2
P24
PO4/
TIOCA4/
TIOCB4/
TMRI1
N3
P20
PO0/
TxD0
TIOCA3/
TIOCB3/
TMRI0
N4
P16
IRQ6-B
N5
P12
IRQ2-B
N6
P36
TCLKC-B
RxD3/SDA0
RxD2
PO14/
TIOCA2
N7
N8
P56
N9
P80
N10
P50
N11
TRDATA2
VSS
WR0#/WR#
VSS
N12
P76
IRQ14-A
N13
PH2
N14
PC2
A18
N15
PC1
A17
P1
P23
PO3/
TIOCC3/
TIOCD3
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Page 14 of 83
RX610 Group
Pin No.
1. Overview
Power Supply
176-Pin
Clock
LFBGA
System Control
P2
External
I/O Port
Interrupt
Bus
P22
CommuniTimer
cation
PO2/
SCK0
On-Chip
Analog
Emulator
TIOCC3/
TMO0
P3
PLLVCC
P4
P15
IRQ5-B
P5
P11
IRQ1-B
P6
P84
P7
P8
SCK3/SCL1
SCK2
P54
TRDATA0
VCC
P9
P52
P10
PH6
P11
TCLKB-B
RD#
VCC
P12
P77
P13
PC6
P14
PC4
A22/
RxD5
CS6#-D
P15
A20
VCC
R1
P21
PO1/
RxD0
TIOCA3/
TMCI0
R2
P17
IRQ7-B
R4
P13
IRQ3-B
R5
P10
IRQ0-B
R6
P35
R3
TCLKD-B
TxD3/SCL0
ADTRG1#
TxD2
ADTRG0#
PLLVSS
PO13/
TIOCA1/
TIOCB1/
TCLKC-A
R7
P55
TRDATA1
R8
P82
TRCLK
R9
BCLK
P53
R10
PH7
R11
PH5
R12
PH3
R13
P75
R14
PC5
A21/
SCK5
CS5#-D
R15
PC3
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Apr 22, 2011
A19
Page 15 of 83
RX610 Group
Table 1.4
1. Overview
List of Pins and Pin Functions (144-Pin LQFP)
Pin No.
Power Supply
144-Pin
Clock
LQFP
System Control
On-Chip
Communi-
External
Analog
Timer
cation
IRQ12-A
TMCI3
TxD4
TDI
IRQ11-A
TMRI3
SCK4
TMS
I/O Port
Interrupt
1
P04
2
P03
3
P67
DA1
P66
DA0
4
5
Bus
AVSS
6
P02
IRQ10-A
TMO2
SCK6
7
P01
IRQ9-A
TMCI2
RxD6
8
P00
IRQ8-A
TMRI2
TxD6
P65
IRQ15-A
9
10
EMLE
11
WDTOVF#
12
VSS
13
MDE
14
VCL
15
MD1
16
MD0
P86
18
P85
19
RES#
20
XTAL
21
VSS
22
EXTAL
23
VCC
TRST#
TDO
17
24
25
Emulator
NMI
P34
IRQ4-A
PO12/
TIOCA1
26
P33
IRQ3-A
PO11/
TIOCC0/
TIOCD0/
TCLKB-A
27
P32
IRQ2-A
PO10/
TIOCC0/
TCLKA-A
28
P31
IRQ1-A
PO9/
TIOCA0/
TIOCB0
29
P30
30
P27
IRQ0-A
PO8/
TIOCA0
PO7/
SCK1
TIOCA5/
TIOCB5
31
P26
PO6/
TxD1
TIOCA5/
TMO1
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Apr 22, 2011
Page 16 of 83
RX610 Group
Pin No.
Power Supply
144-Pin
Clock
LQFP
System Control
32
1. Overview
Interrupt
Bus
P25
On-Chip
Communi-
External
I/O Port
Timer
cation
PO5/
RxD1
Analog
Emulator
TIOCA4/
TMCI1
33
P24
PO4/
TIOCA4/
TIOCB4/
TMRI1
34
P23
PO3/
TIOCC3/
TIOCD3
35
P22
PO2/
SCK0
TIOCC3/
TMO0
36
P21
PO1/
RxD0
TIOCA3/
TMCI0
37
P20
PO0/
TxD0
TIOCA3/
TIOCB3/
TMRI0
38
39
42
IRQ7-B
TCLKD-B
TxD3/SCL0
P16
IRQ6-B
TCLKC-B
RxD3/SDA0
P15
IRQ5-B
TCLKB-B
SCK3/SCL1
TCLKA-B
ADTRG1#
PLLVCC
40
41
P17
PLLVSS
43
P14
IRQ4-B
44
P13
IRQ3-B
TxD2
SDA1
45
P12
IRQ2-B
RxD2
46
P11
IRQ1-B
SCK2
47
P10
IRQ0-B
48
P37
ADTRG0#
PO15/
TIOCA2/
TIOCB2/
TCLKD-A
49
P36
PO14/
TIOCA2
50
P35
PO13/
TIOCA1/
TIOCB1/
TCLKC-A
51
P84
52
P57
53
P56
TRDATA2
54
P55
TRDATA1
R01DS0097EJ0100 Rev.1.00
Apr 22, 2011
WAIT#
TRDATA3
Page 17 of 83
RX610 Group
Pin No.
Power Supply
144-Pin
Clock
LQFP
System Control
55
Interrupt
Bus
On-Chip
Communi-
External
I/O Port
Timer
cation
P54
56
57
1. Overview
Analog
Emulator
TRDATA0
P83
VSS
58
P82
TRCLK
60
P81
TRSYNC#
61
P80
59
62
VCC
BCLK
63
P53
P52
RD#
64
P51
WR1#/BC1#
65
P50
WR0#/WR#
66
P77
67
P76
68
P75
69
PC7
IRQ14-A
A23/
TxD5
CS4#-D/
CS7#-D
70
PC6
A22/
RxD5
CS6#-D
71
PC5
A21/
SCK5
CS5#-D
72
PC4
A20
73
PC3
A19
PC2
A18
PC1
A17
74
VCC
75
76
77
VSS
78
PC0
A16
79
PB7
A15
PO31/
TIOCA11/
TIOCB11
80
PB6
A14
PO30/
TIOCA11
81
PB5
A13
PO29/
TIOCA10/
TIOCB10
82
PB4
A12
PO28/
TIOCA10
83
PB3
A11
PO27/
TIOCC9/
TIOCD9
84
PB2
A10
PO26/
TIOCC9
R01DS0097EJ0100 Rev.1.00
Apr 22, 2011
Page 18 of 83
RX610 Group
Pin No.
Power Supply
144-Pin
Clock
LQFP
System Control
85
1. Overview
Interrupt
PB1
On-Chip
Communi-
External
I/O Port
Bus
Timer
A9
PO25/
cation
Analog
Emulator
TIOCA9/
TIOCB9
86
P74
87
P73
88
P72
89
P71
ADTRG3#
CS4#-C/
CS5#-C/
CS6#-C/
CS7#-C
90
91
P70
CS3#-B
PB0
A8
ADTRG2#
VCC
92
PO24/
TIOCA9
93
94
VSS
PA7
A7
PO23/
TIOCA8/
TIOCB8/
TCLKH
95
PA6
A6
PO22/
TIOCA8
96
PA5
A5
PO21/
TIOCA7/
TIOCB7/
TCLKG
97
PA4
A4
PO20/
98
PA3
A3
PO19/
TIOCA7
TIOCC6/
TIOCD6/
TCLKF
99
PA2
A2
PO18/
TIOCC6/
TCLKE
100
PA1
A1
PO17/
TIOCA6/
TIOCB6
101
PA0
A0/BC0#
PO16/
TIOCA6
102
PE7
IRQ7-A
D15
103
PE6
IRQ6-A
D14
104
PE5
IRQ5-A
D13
105
PE4
D12
106
PE3
D11
107
PE2
D10
R01DS0097EJ0100 Rev.1.00
Apr 22, 2011
Page 19 of 83
RX610 Group
Pin No.
Power Supply
144-Pin
Clock
LQFP
System Control
108
1. Overview
Interrupt
Bus
PE1
D9
109
PE0
D8
110
PD7
D7
111
PD6
D6
112
PD5
D5
113
PD4
D4
114
P64
CS4#-B
115
P63
CS3#-A/
On-Chip
Communi-
External
I/O Port
Timer
cation
Analog
Emulator
CS7#-A
116
P62
CS2#-A/
CS6#-A
117
P61
CS1#/
CS2#-B/
CS5#-A/
CS6#-B/
CS7#-B
118
P60
CS0#/
CS4#-A/
CS5#-B
119
PD3
D3
120
PD2
D2
121
PD1
D1
122
PD0
D0
123
P97
AN15
124
P96
AN14
125
P95
AN13
126
P94
AN12
127
P93
AN11
128
P92
AN10
129
P91
AN9
P90
AN8
130
VSS
131
132
VCC
133
P47
IRQ15-B
AN7
134
P46
IRQ14-B
AN6
135
P45
IRQ13-B
AN5
136
P44
IRQ12-B
AN4
137
P43
IRQ11-B
AN3
138
P42
IRQ10-B
AN2
P41
IRQ9-B
AN1
P40
IRQ8-B
AN0
P05
IRQ13-A
139
140
VREFL
141
142
VREFH
143
AVCC
144
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Apr 22, 2011
TMO3
RxD4
TCK
Page 20 of 83
RX610 Group
1.5
1. Overview
Pin Functions
Table 1.5 lists the pin functions.
Table 1.5
Pin Functions
Classifications
Pin Name
I/O
Description
Power supply
VCC
Input
Power supply pin. Connect it to the system power supply.
VCL
Input
Connect this pin to VSS via a 0.1-F capacitor. The capacitor
should be placed close to the pin.
VSS
Input
Ground pin. Connect it to the system power supply (0 V).
PLLVCC
Input
Power supply pin for the PLL circuit. Connect it to the system
power supply.
Clock
Operating mode control
PLLVSS
Input
Ground pin for the PLL circuit
XTAL
Input
Pins for a crystal resonator. An external clock signal can be
EXTAL
Input
BCLK
Output
MD0, MD1, MDE
Input
input through the EXTAL pin.
Outputs the system clock for external devices.
Pins for setting the operating mode. The signal levels on these
pins must not be changed during operation.
System control
RES#
Input
Reset signal input pin. This LSI enters the reset state when
this signal goes low.
EMLE
Input
Input pin to enable on-chip emulator signal. When the on-chip
emulator is used, this pin should be driven high. When not
used, it should be driven low.
BSCANP
Input
Input pin to enable boundary-scan signal. When this pin is
driven high, the boundary scan is enabled. When the boundary
scan is not used, this pin should be driven low.
On-chip emulator
TRST#
Input
TMS
Input
TDI
Input
TCK
Input
TDO
Output
TRCLK
Output
On-chip emulator pins.
When the EMLE pin is driven high, these pins are dedicated
for the on-chip emulator.
This pin outputs the clock for synchronization with the trace
data.
TRSYNC
Output
This pin indicates that output from the TRDATA0 to TRDATA3
pins is valid.
TRDATA0 to TRDATA3
Output
These pins output the trace information.
Address bus
A0 to A23
Output
Output pins for the address
Data bus
D0 to D15
I/O
Input and output pins for the bidirectional data bus
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Apr 22, 2011
Page 21 of 83
RX610 Group
1. Overview
Classifications
Pin Name
I/O
Bus control
RD#
Output
Description
Strobe signal which indicates that reading from the external
bus interface space is in progress.
WR0#
Output
Strobe signal which indicates that the lower-order byte (D0 to
D7) is valid in writing to the external bus interface space, in
byte strobe mode.
WR1#
Output
Strobe signal which indicates that the higher-order byte (D8 to
D15) is valid in writing to the external bus interface space, in
byte strobe mode.
WR#
Output
Strobe signal which indicates that writing to the external bus
interface space is in progress, in 1-write strobe mode.
BC0#
Output
Strobe signal which indicates that the lower-order byte (D0 to
D7) is valid in access to the external bus interface space, in
1-write strobe mode.
BC1#
Output
Strobe signal which indicates that the higher-order byte (D8 to
D15) is valid in access to the external bus interface space, in
1- write strobe mode.
CS0#, CS1#
Output
Select signals for areas 0 to 7
Input
Requests wait cycles in access to the external space
CS2#-A/CS2#-B
CS3#-A/CS3#-B
CS4#-A/CS4#-B/
CS4#-C/CS4#-D
CS5#-A/CS5#-B/
CS5#-C/CS5#-D
CS6#-A/CS6#-B/
CS6#-C/CS6#-D
CS7#-A/CS7#-B/
CS7#-C/CS7#-D
WAIT#
R01DS0097EJ0100 Rev.1.00
Apr 22, 2011
Page 22 of 83
RX610 Group
1. Overview
Classifications
Pin Name
I/O
Description
Interrupt
NMI
Input
Non-maskable interrupt request signal
IRQ0-A/IRQ0-B
Input
Maskable request signals
I/O
Signals for TGRA0 to TGRD0. These pins are used as input
IRQ1-A/IRQ1-B
IRQ2-A/IRQ2-B
IRQ3-A/IRQ3-B
IRQ4-A/IRQ4-B
IRQ5-A/IRQ5-B
IRQ6-A/IRQ6-B
IRQ7-A/IRQ7-B
IRQ8-A/IRQ8-B
IRQ9-A/IRQ9-B
IRQ10-A/IRQ10-B
IRQ11-A/IRQ11-B
IRQ12-A/IRQ12-B
IRQ13-A/IRQ13-B
IRQ14-A/IRQ14-B
IRQ15-A/IRQ15-B
16-bit timer pulse unit
TIOCA0, TIOCB0
TIOCC0, TIOCD0
TIOCA1, TIOCB1
capture inputs, output compare outputs, or PWM outputs.
I/O
Signals for TGRA1 and TGRB1. These pins are used as input
capture inputs, output compare outputs, or PWM outputs.
TIOCA2, TIOCB2
I/O
Signals for TGRA2 and TGRB2. These pins are used as input
capture inputs, output compare outputs, or PWM outputs.
TIOCA3, TIOCB3
I/O
TIOCC3, TIOCD3
TIOCA4, TIOCB4
Signals for TGRA3 to TGRD3. These pins are used as input
capture inputs, output compare outputs, or PWM outputs.
I/O
Signals for TGRA4 and TGRB4. These pins are used as input
capture inputs, output compare outputs, or PWM outputs.
TIOCA5, TIOCB5
I/O
Signals for TGRA5 and TGRB5. These pins are used as input
capture inputs, output compare outputs, or PWM outputs.
TIOCA6, TIOCB6
I/O
TIOCC6, TIOCD6
TIOCA7, TIOCB7
Signals for TGRA6 to TGRD6. These pins are used as input
capture inputs, output compare outputs, or PWM outputs.
I/O
Signals for TGRA7 and TGRB7. These pins are used as input
capture inputs, output compare outputs, or PWM outputs.
TIOCA8, TIOCB8
I/O
Signals for TGRA8 and TGRB8. These pins are used as input
capture inputs, output compare outputs, or PWM outputs.
TIOCA9, TIOCB9
I/O
TIOCC9, TIOCD9
TIOCA10, TIOCB10
Signals for TGRA9 to TGRD9. These pins are used as input
capture inputs, output compare outputs, or PWM outputs.
I/O
Signals for TGRA10 and TGRB10. These pins are used as
input capture inputs, output compare outputs, or PWM outputs.
TIOCA11, TIOCB11
I/O
Signals for TGRA11 and TGRB11. These pins are used as
input capture inputs, output compare outputs, or PWM outputs.
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Apr 22, 2011
Page 23 of 83
RX610 Group
1. Overview
Classifications
Pin Name
I/O
Description
16-bit timer pulse unit
TCLKA-A/TCLKA-B
Input
Input pins for external clock signals
PO0 to PO31
Output
Output pins for the pulse signals
TMO0 to TMO3
Output
Output pins for the compare match signals
TMCI0 to TMCI3
Input
Input pins for the external clock signals that drive for the
TCLKB-A/TCLKB-B
TCLKC-A/TCLKC-B
TCLKD-A/TCLKD-B
TCLKE, TCLKF
TCLKG, TCLKH
Programmable pulse
generator
8-bit timer
counters
Watchdog timer
TMRI0 to TMRI3
Input
Input pins for the counter-reset signals
WDTOVF#
Output
Output pin for the counter-overflow signal in watchdog-timer
mode
Serial communication
TxD0, TxD1, TxD2, TxD3,
interface
TxD4, TxD5, TxD6
RxD0, RxD1, RxD2, RxD3,
Output
Output pins for data transmission
Input
Input pins for data reception
I/O
Input/output pins for clock signals
RxD4, RxD5, RxD6
SCK0, SCK1, SCK2,
SCK3, SCK4, SCK5,
SCK6
2
I C bus interface
SCL0, SCL1
I/O
Input/output pins for RIIC clocks. Bus can be directly driven by
the NMOS open drain output.
SDA0, SDA1
I/O
Input/output pins for RIIC data. Bus can be directly driven by
the NMOS open drain output.
A/D converter
AN0 to AN15
Input
Input pins for the analog signals to be processed by the A/D
converter
ADTRG0# to ADTRG3#
Input
Input pins for the external trigger signals that start the A/D
conversion
D/A converter
DA0, DA1
R01DS0097EJ0100 Rev.1.00
Apr 22, 2011
Output
Output pins for the analog signals from the D/A converter
Page 24 of 83
RX610 Group
1. Overview
Classifications
Pin Name
I/O
Description
Analog power supply
AVCC
Input
Analog power supply pin for the A/D and D/A converters.
When the A/D and D/A converters are not in use, connect this
pin to the system power supply.
AVSS
Input
Ground pin for the A/D and D/A converters. Connect this pin to
the system power supply (0 V).
VREFH
Input
Reference power supply pin for the A/D and D/A converters.
When the A/D and D/A converters are not in use, connect this
pin to the system power supply.
VREFL
Input
Reference ground pin for the A/D and D/A converters. Make
sure to connect this pin to the analog reference power supply
(0 V). When the A/D and D/A converters are not in use,
connect this pin to the system power supply (0 V). For details,
see section 23.6.7, Ranges of Settings for Analog Power
Supply and Other Pins.
I/O ports
P00 to P05
I/O
6-bit input/output pins
P10 to P17
I/O
8-bit input/output pins
P20 to P27
I/O
8-bit input/output pins
P30 to P37
I/O
8-bit input/output pins
P40 to P47
I/O
8-bit input/output pins
P50 to P57
I/O
8-bit input/output pins. (P53 is an input-only pin.)
P60 to P67
I/O
8-bit input/output pins
P70 to P77
I/O
8-bit input/output pins
P80 to P86
I/O
7-bit input/output pins
P90 to P97
I/O
8-bit input/output pins
PA0 to PA7
I/O
8-bit input/output pins
PB0 to PB7
I/O
8-bit input/output pins
PC0 to PC7
I/O
8-bit input/output pins
PD0 to PD7
I/O
8-bit input/output pins
PE0 to PE7
I/O
8-bit input/output pins
PF0 to PF6
I/O
7-bit input/output pins
PG0 to PG7
I/O
8-bit input/output pins
PH0 to PH7
I/O
8-bit input/output pins
R01DS0097EJ0100 Rev.1.00
Apr 22, 2011
Page 25 of 83
RX610 Group
2.
2. CPU
CPU
The RX CPU has sixteen general-purpose registers, nine control registers, and one accumulator used for DSP
instructions.
General-purpose register
b31
b0
R0 (SP) *
R1
R2
R3
R4
R5
R6
R7
R8
R9
R10
R11
R12
R13
R14
R15
Control register
b31
b0
ISP
(Interrupt stack pointer)
USP
(User stack pointer)
INTB
(Interrupt table register)
PC
(Program counter)
PSW
(Processor status word)
BPC
(Backup PC)
BPSW
(Backup PSW)
FINTV
(Fast interrupt vector register)
FPSW
(Floating-point status word)
DSP instruction register
b63
b0
ACC (Accumulator)
Note: * The stack pointer (SP) can be the interrupt stack pointer (ISP) or user stack pointer (USP),
according to the value of the U bit in the PSW.
Figure 2.1
R01DS0097EJ0100 Rev.1.00
Apr 22, 2011
Register Set of the CPU
Page 26 of 83
RX610 Group
2.1
2. CPU
General-Purpose Registers (R0 to R15)
This CPU has sixteen general-purpose registers (R0 to R15). R1 to R15 can be used as data registers or address registers.
R0, a general-purpose register, also functions as the stack pointer (SP). The stack pointer is switched to operate as the
interrupt stack pointer (ISP) or user stack pointer (USP) by the value of the stack pointer select bit (U) in the processor
status word (PSW).
2.2
(1)
Control Registers
Interrupt Stack Pointer (ISP)/User Stack Pointer (USP)
The stack pointer (SP) can be either of two types, the interrupt stack pointer (ISP) or the user stack pointer (USP).
Whether the stack pointer operates as the ISP or USP depends on the value of the stack pointer select bit (U) in the
processor status word (PSW).
Set the ISP or USP to a multiple of four, as this reduces the numbers of cycles required to execute interrupt sequences
and instructions entailing stack manipulation.
(2)
Interrupt Table Register (INTB)
The interrupt table register (INTB) specifies the address where the relocatable vector table starts.
Set INTB to a multiple of four.
(3)
Program Counter (PC)
The program counter (PC) indicates the address of the instruction being executed.
(4)
Processor Status Word (PSW)
The processor status word (PSW) indicates results of instruction execution or the state of the CPU.
(5)
Backup PC (BPC)
The backup PC (BPC) is provided to speed up response to interrupts.
After a fast interrupt has been generated, the contents of the program counter (PC) are saved in the BPC.
(6)
Backup PSW (BPSW)
The backup PSW (BPSW) is provided to speed up response to interrupts.
After a fast interrupt has been generated, the contents of the processor status word (PSW) are saved in the BPSW. The
allocation of bits in the BPSW corresponds to that in the PSW.
(7)
Fast Interrupt Vector Register (FINTV)
The fast interrupt vector register (FINTV) is provided to speed up response to interrupts.
The FINTV specifies a branch destination address when a fast interrupt has been generated.
R01DS0097EJ0100 Rev.1.00
Apr 22, 2011
Page 27 of 83
RX610 Group
(8)
2. CPU
Floating-Point Status Word (FPSW)
The floating-point status word (FPSW) indicates the results of floating-point operations.
When an exception handling enable bit (Ej) enables the exception handling (Ej = 1), the corresponding Cj flag indicates
the source of the exception within the exception handling routine. If the exception handling is masked (Ej = 0), check the
Fj flag at the end of a series of processing whether an exception is generated or not. The Fj flag is the accumulation type
flag (j = X, U, Z, O, or V).
(9)
Accumulator (ACC)
The accumulator (ACC) is a 64-bit register used for DSP instructions. The accumulator is also used for the multiply and
multiply-and-accumulate instructions; EMUL, EMULU, FMUL, MUL, and RMPA, in which case the prior value in the
accumulator is modified by execution of the instruction.
Use the MVTACHI and MVTACLO instructions for writing to the accumulator. The MVTACHI and MVTACLO
instructions write data to the higher-order 32 bits (bits 63 to 32) and the lower-order 32 bits (bits 31 to 0), respectively.
Use the MVFACHI and MVFACMI instructions for reading data from the accumulator. The MVFACHI and MVFACMI
instructions read data from the higher-order 32 bits (bits 63 to 32) and the middle 32 bits (bits 47 to 16), respectively.
R01DS0097EJ0100 Rev.1.00
Apr 22, 2011
Page 28 of 83
RX610 Group
3. Address Space
3.
Address Space
3.1
Address Space
This MCU has a 4-Gbyte address space, consisting of the range of addresses from 0000 0000h to FFFF FFFFh. That is,
linear access to an address space of up to 4 Gbytes is possible, and this contains both program and data areas.
Figures 4.1 to 4.4 show the memory maps in the respective operating modes of each product. Accessible areas will differ
according to the operating mode and states of control bits.
On-chip ROM enabled
extended mode
Single-chip mode*2
0000 0000h
0002 0000h
0000 0000h
On-chip RAM
0002 0000h
Reserved area*1
0008 0000h
0010 0000h
0010 8000h
007F 8000h
0010 0000h
On-chip ROM
(data flash)
0010 8000h
Reserved area*1
007F 8000h
FCU RAM area*3
Peripheral I/O registers
Reserved area*
0080 0000h
00E0 0000h
On-chip RAM
Reserved area*1
0008 0000h
Peripheral /O registers
0010 0000h
On-chip ROM
(data flash)
Reserved area*1
FCU RAM area*3
007F A000h
Reserved area*1
007F FC00h
0002 0000h
Peripheral I/O registers
007F A000h
007F C000h
007F C500h
0000 0000h
On-chip RAM
Reserved area*1
0008 0000h
Peripheral I/O registers
On-chip ROM disabled
extended mode
Reserved area*1
007F C000h
007F C500h
1
Peripheral I/O registers
Reserved area*1
1
Reserved area*
007F FC00h
0080 0000h
Reserved area*1
On-chip ROM (program ROM)
(write only)
Peripheral I/O registers
Peripheral I/O registers
Reserved area*1
00E0 0000h
On-chip ROM (program ROM)
(write only)
0100 0000h
0100 0000h
0100 0000h
External address space
External address space
0800 0000h
0800 0000h
Reserved area*
1
Reserved area*1
Reserved area*1
FEFF E000h
On-chip ROM
(FCU firmware)*3
(read only)
FEFF E000h
On-chip ROM
(FCU firmware)*3
(read only)
FF00 0000h
Reserved area*1
FF00 0000h
Reserved area*1
FF7F C000h
On-chip ROM (user boot)
(read only)
FF7F C000h
On-chip ROM (user boot)
(read only)
FF80 0000h
Reserved area*1
FF80 0000h
FFE0 0000h
Reserved area*
1
On-chip ROM (program ROM)
(read only)
FFFF FFFFh
FFE0 0000h
FF00 0000h
External address space
On-chip ROM (program ROM)
(read only)
FFFF FFFFh
FFFF FFFFh
Notes: 1. A reserved area should not be accessed.
2. The address space in boot mode and user boot mode is the same as the address space in single-chip mode.
3. For detaIls on the FCU, see section 26, ROM (Flash Memory for Code Storage) and section 27, Data Flash
(Flash Memory for Data Storage) in the User's manual: Hardware.
Figure 3.1
R01DS0097EJ0100 Rev.1.00
Apr 22, 2011
Memory Map of the R5F56108
Page 29 of 83
RX610 Group
3. Address Space
Figure 3.2
R01DS0097EJ0100 Rev.1.00
Apr 22, 2011
Memory Map of the R5F56107
Page 30 of 83
RX610 Group
3. Address Space
On-chip ROM enabled
extended mode
Single-chip mode*2
0000 0000h
0002 0000h
0000 0000h
On-chip RAM
Reserved area*
1
0008 0000h
0002 0000h
0010 0000h
0010 8000h
007F 8000h
On-chip ROM
(data flash)
Reserved area*1
3
FCU RAM area*
0010 8000h
Peripheral I/O registers
Reserved area*
007F 8000h
0002 0000h
On-chip RAM
Reserved area*1
0008 0000h
Peripheral /O registers
0010 0000h
On-chip ROM
(data flash)
Reserved area*1
FCU RAM area*3
Reserved area*1
007F C000h
007F C500h
1
Peripheral I/O registers
0080 0000h
Peripheral I/O registers
Reserved area*1
1
Reserved area*
007F FC00h
Peripheral I/O registers
0080 0000h
Reserved area*
00F0 0000h
Reserved area*
007F A000h
Reserved area*1
007F FC00h
1
Peripheral I/O registers
0010 0000h
007F A000h
007F C000h
007F C500h
0000 0000h
On-chip RAM
0008 0000h
Peripheral I/O registers
On-chip ROM disabled
extended mode
1
On-chip ROM (program ROM)
(write only)
Reserved area*1
00F0 0000h
On-chip ROM (program ROM)
(write only)
0100 0000h
0100 0000h
0100 0000h
External address space
External address space
0800 0000h
0800 0000h
Reserved area*
1
Reserved area*1
Reserved area*1
FEFF E000h
On-chip ROM
(FCU firmware)*3
(read only)
FF00 0000h
FF7F C000h
FEFF E000h
On-chip ROM
(FCU firmware)*3
(read only)
Reserved area*1
FF00 0000h
Reserved area*1
On-chip ROM (user boot)
(read only)
FF7F C000h
On-chip ROM (user boot)
(read only)
FF80 0000h
Reserved area*1
FFF0 0000h
FFFF FFFFh
On-chip ROM (program ROM)
(read only)
FF00 0000h
FF80 0000h
External address space
Reserved area*1
FFF0 0000h
FFFF FFFFh
On-chip ROM (program ROM)
(read only)
FFFF FFFFh
Notes: 1. A reserved area should not be accessed.
2. The address space in boot mode and user boot mode is the same as the address space in single-chip mode.
3. For details on the FCU, see section 26, ROM (Flash Memory for Code Storage) and section 27, Data Flash
(Flash Memory for Data Storage) in the User's manual: Hardware.
Figure 3.3
R01DS0097EJ0100 Rev.1.00
Apr 22, 2011
Memory Map of the R5F56106
Page 31 of 83
RX610 Group
3. Address Space
On-chip ROM enabled
extended mode
Single-chip mode*2
0000 0000h
0002 0000h
0000 0000h
On-chip RAM
Reserved area*
1
0008 0000h
0002 0000h
0010 0000h
0010 8000h
007F 8000h
On-chip ROM
(data flash)
Reserved area*1
3
FCU RAM area*
0010 8000h
Peripheral I/O registers
Reserved area*
007F 8000h
0002 0000h
On-chip RAM
Reserved area*1
0008 0000h
Peripheral /O registers
0010 0000h
On-chip ROM
(data flash)
Reserved area*1
FCU RAM area*3
Reserved area*1
007F C000h
007F C500h
1
Peripheral I/O registers
0080 0000h
Peripheral I/O registers
Reserved area*1
1
Reserved area*
007F FC00h
Peripheral I/O registers
0080 0000h
Reserved area*
00F4 0000h
Reserved area*
007F A000h
Reserved area*1
007F FC00h
1
Peripheral I/O registers
0010 0000h
007F A000h
007F C000h
007F C500h
0000 0000h
On-chip RAM
0008 0000h
Peripheral I/O registers
On-chip ROM disabled
extended mode
1
On-chip ROM (program ROM)
(write only)
Reserved area*1
00F4 0000h
On-chip ROM (program ROM)
(write only)
0100 0000h
0100 0000h
0100 0000h
External address space
External address space
0800 0000h
0800 0000h
Reserved area*
1
Reserved area*1
Reserved area*1
FEFF E000h
On-chip ROM
(FCU firmware)*3
(read only)
FF00 0000h
FF7F C000h
FEFF E000h
On-chip ROM
(FCU firmware)*3
(read only)
Reserved area*1
FF00 0000h
Reserved area*1
On-chip ROM (user boot)
(read only)
FF7F C000h
On-chip ROM (user boot)
(read only)
FF80 0000h
FF80 0000h
Reserved area*1
FFF4 0000h
FFFF FFFFh
FF00 0000h
On-chip ROM (program ROM)
(read only)
External address space
Reserved area*1
FFF4 0000h
FFFF FFFFh
On-chip ROM (program ROM)
(read only)
FFFF FFFFh
Notes: 1. A reserved area should not be accessed.
2. The address space in boot mode and user boot mode is the same as the address space in single-chip mode.
3. For details on the FCU, see section 26, ROM (Flash Memory for Code Storage) and section 27, Data Flash
(Flash Memory for Data Storage) in the User's manual: Hardware.
Figure 3.4
R01DS0097EJ0100 Rev.1.00
Apr 22, 2011
Memory Map of the R5F56104
Page 32 of 83
RX610 Group
3.2
3. Address Space
External Address Space
The external address space is divided into up to 8 areas, each corresponding to the CSi# signal output from a CSi# (i = 0
to 7) pin. Figure 4.5 shows the address ranges corresponding to the individual CSi# signals (CSi areas, i = 0 to 7) in
on-chip ROM disabled external extended mode.
0000 0000h
0002 0000h
On-chip RAM
Reserved area
0008 0000h
Peripheral /O registers
0010 0000h
0100 0000h
CS7 (16 Mbytes)
Reserved area
01FF FFFFh
0200 0000h
CS6 (16 Mbytes)
02FF FFFFh
0300 0000h
CS5 (16 Mbytes)
0100 0000h
03FF FFFFh
0400 0000h
CS4 (16 Mbytes)
External address space
04FF FFFFh
0500 0000h
0800 0000h
CS3 (16 Mbytes)
05FF FFFFh
0600 0000h
CS2 (16 Mbytes)
Reserved area*
06FF FFFFh
0700 0000h
CS1 (16 Mbytes)
07FF FFFFh
FF00 0000h
FF00 0000h
External address space*
CS0 (16 Mbytes)
FFFF FFFFh
FFFF FFFFh
Note: * CS0 area is disabled in on-chip ROM enabled external extended mode.
In this mode, the address space for addresses above 0800 0000h is as shown in figure 4.1.
Figure 3.5
R01DS0097EJ0100 Rev.1.00
Apr 22, 2011
Correspondence between External Address Spaces and CSi Areas
(In On-Chip ROM Disabled External Extended Mode)
Page 33 of 83
RX610 Group
4.
4. I/O Registers
I/O Registers
Table 4.1
List of I/O Registers (Address Order)
Number of
Module
Register
Number
Access
Access
Address
Abbreviation Register Name
Abbreviation of Bits
Size
Cycles
0008 0000h
SYSTEM
Mode monitor register
MDMONR
16
16
3 ICLK
0008 0002h
SYSTEM
Mode status register
MDSR
16
16
3 ICLK
0008 0006h
SYSTEM
System control register 0
SYSCR0
16
16
3 ICLK
0008 0008h
SYSTEM
System control register 1
SYSCR1
16
16
3 ICLK
0008 000Ch
SYSTEM
Standby control register
SBYCR
16
16
3 ICLK
0008 0010h
SYSTEM
Module stop control register A
MSTPCRA
32
32
3 ICLK
0008 0014h
SYSTEM
Module stop control register B
MSTPCRB
32
32
3 ICLK
0008 0018h
SYSTEM
Module stop control register C
MSTPCRC
32
32
3 ICLK
0008 0020h
SYSTEM
System clock control register
SCKCR
32
32
3 ICLK
0008 1300h
BSC
Bus error source clear register
BERCLR
8
8
2 ICLK
0008 1304h
BSC
Bus error monitor enable register
BEREN
8
8
2 ICLK
0008 1306h
BSC
Bus error interrupt enable register
BERIE
8
8
2 ICLK
0008 2000h
DMAC0
DMA current transfer source address register
DMCSA
32
32
4 to 5 ICLK
0008 2004h
DMAC0
DMA current transfer destination address register
DMCDA
32
32
4 to 5 ICLK
0008 2008h
DMAC0
DMA current transfer byte count register
DMCBC
32
32
4 to 5 ICLK
0008 200Ch
DMAC0
DMA mode register
DMMOD
32
32
4 to 5 ICLK
0008 2010h
DMAC1
DMA current transfer source address register
DMCSA
32
32
4 to 5 ICLK
0008 2014h
DMAC1
DMA current transfer destination address register
DMCDA
32
32
4 to 5 ICLK
0008 2018h
DMAC1
DMA current transfer byte count register
DMCBC
32
32
4 to 5 ICLK
0008 201Ch
DMAC1
DMA mode register
DMMOD
32
32
4 to 5 ICLK
0008 2020h
DMAC2
DMA current transfer source address register
DMCSA
32
32
4 to 5 ICLK
0008 2024h
DMAC2
DMA current transfer destination address register
DMCDA
32
32
4 to 5 ICLK
0008 2028h
DMAC2
DMA current transfer byte count register
DMCBC
32
32
4 to 5 ICLK
0008 202Ch
DMAC2
DMA mode register
DMMOD
32
32
4 to 5 ICLK
0008 2030h
DMAC3
DMA current transfer source address register
DMCSA
32
32
4 to 5 ICLK
0008 2034h
DMAC3
DMA current transfer destination address register
DMCDA
32
32
4 to 5 ICLK
0008 2038h
DMAC3
DMA current transfer byte count register
DMCBC
32
32
4 to 5 ICLK
0008 203Ch
DMAC3
DMA mode register
DMMOD
32
32
4 to 5 ICLK
0008 2200h
DMAC0
DMA reload transfer source address register
DMRSA
32
32
4 to 5 ICLK *
0008 2204h
DMAC0
DMA reload transfer destination address register
DMRDA
32
32
4 to 5 ICLK *
0008 2208h
DMAC0
DMA reload transfer byte count register
DMRBC
32
32
4 to 5 ICLK *
8
8
8
*8
0008 2210h
DMAC1
DMA reload transfer source address register
DMRSA
32
32
4 to 5 ICLK
0008 2214h
DMAC1
DMA reload transfer destination address register
DMRDA
32
32
4 to 5 ICLK *
0008 2218h
DMAC1
DMA reload transfer byte count register
DMRBC
32
32
4 to 5 ICLK *
0008 2220h
DMAC2
DMA reload transfer source address register
DMRSA
32
32
4 to 5 ICLK *
8
8
8
*8
0008 2224h
DMAC2
DMA reload transfer destination address register
DMRDA
32
32
4 to 5 ICLK
0008 2228h
DMAC2
DMA reload transfer byte count register
DMRBC
32
32
4 to 5 ICLK *
0008 2230h
DMAC3
DMA reload transfer source address register
DMRSA
32
32
4 to 5 ICLK *
0008 2234h
DMAC3
DMA reload transfer destination address register
DMRDA
32
32
4 to 5 ICLK *
R01DS0097EJ0100 Rev.1.00
Apr 22, 2011
8
8
8
Page 34 of 83
RX610 Group
4. I/O Registers
Number of
Module
Register
Access
Access
Address
Abbreviation Register Name
Abbreviation of Bits
Number
Size
Cycles
0008 2238h
DMAC3
DMA reload transfer byte count register
DMRBC
32
32
4 to 5 ICLK *
0008 2400h
DMAC0
DMA control register A
DMCRA
32
32
3 ICLK
8
0008 2404h
DMAC0
DMA control register B
DMCRB
8
8
3 ICLK
0008 2405h
DMAC0
DMA control register C
DMCRC
8
8
3 ICLK
0008 2406h
DMAC0
DMA control register D
DMCRD
8
8
3 ICLK
0008 2407h
DMAC0
DMA control register E
DMCRE
8
8
3 ICLK
0008 2408h
DMAC1
DMA control register A
DMCRA
32
32
3 ICLK
0008 240Ch
DMAC1
DMA control register B
DMCRB
8
8
3 ICLK
0008 240Dh
DMAC1
DMA control register C
DMCRC
8
8
3 ICLK
0008 240Eh
DMAC1
DMA control register D
DMCRD
8
8
3 ICLK
0008 240Fh
DMAC1
DMA control register E
DMCRE
8
8
3 ICLK
0008 2410h
DMAC2
DMA control register A
DMCRA
32
32
3 ICLK
0008 2414h
DMAC2
DMA control register B
DMCRB
8
8
3 ICLK
0008 2415h
DMAC2
DMA control register C
DMCRC
8
8
3 ICLK
0008 2416h
DMAC2
DMA control register D
DMCRD
8
8
3 ICLK
0008 2417h
DMAC2
DMA control register E
DMCRE
8
8
3 ICLK
0008 2418h
DMAC3
DMA control register A
DMCRA
32
32
3 ICLK
0008 241Ch
DMAC3
DMA control register B
DMCRB
8
8
3 ICLK
0008 241Dh
DMAC3
DMA control register C
DMCRC
8
8
3 ICLK
0008 241Eh
DMAC3
DMA control register D
DMCRD
8
8
3 ICLK
0008 241Fh
DMAC3
DMA control register E
DMCRE
8
8
3 ICLK
0008 2502h
DMAC common
DMA start control register
DMSCNT
8
8
3 ICLK
0008 250Bh
DMAC common
DMA interrupt control register
DMICNT
8
8
3 ICLK
0008 2517h
DMAC common
DMA transfer end detect register
DMEDET
8
8
3 ICLK
0008 251Bh
DMAC common
DMA arbitration status register
DMASTS
8
8
3 ICLK
0008 3002h
BSC
CS0 mode register
CS0MOD
16
16
1 to 2 BCLK *
0008 3004h
BSC
CS0 wait control register 1
CS0WCNT1
32
32
1 to 2 BCLK *
7
7
*7
0008 3008h
BSC
CS0 wait control register 2
CS0WCNT2
32
32
1 to 2 BCLK
0008 3012h
BSC
CS1 mode register
CS1MOD
16
16
1 to 2 BCLK *
0008 3014h
BSC
CS1 wait control register 1
CS1WCNT1
32
32
1 to 2 BCLK *
0008 3018h
BSC
CS1 wait control register 2
CS1WCNT2
32
32
1 to 2 BCLK *
0008 3022h
BSC
CS2 mode register
CS2MOD
16
16
1 to 2 BCLK *
7
7
7
7
*7
0008 3024h
BSC
CS2 wait control register 1
CS2WCNT1
32
32
1 to 2 BCLK
0008 3028h
BSC
CS2 wait control register 2
CS2WCNT2
32
32
1 to 2 BCLK *
0008 3032h
BSC
CS3 mode register
CS3MOD
16
16
1 to 2 BCLK *
7
7
*7
0008 3034h
BSC
CS3 wait control register 1
CS3WCNT1
32
32
1 to 2 BCLK
0008 3038h
BSC
CS3 wait control register 2
CS3WCNT2
32
32
1 to 2 BCLK *
0008 3042h
BSC
CS4 mode register
CS4MOD
16
16
1 to 2 BCLK *
0008 3044h
BSC
CS4 wait control register 1
CS4WCNT1
32
32
1 to 2 BCLK *
0008 3048h
BSC
CS4 wait control register 2
CS4WCNT2
32
32
1 to 2 BCLK *
7
7
7
7
*7
0008 3052h
BSC
CS5 mode register
CS5MOD
16
16
1 to 2 BCLK
0008 3054h
BSC
CS5 wait control register 1
CS5WCNT1
32
32
1 to 2 BCLK *
0008 3058h
BSC
CS5 wait control register 2
CS5WCNT2
32
32
1 to 2 BCLK *
7
7
*7
0008 3062h
BSC
CS6 mode register
CS6MOD
16
16
1 to 2 BCLK
0008 3064h
BSC
CS6 wait control register 1
CS6WCNT1
32
32
1 to 2 BCLK *
R01DS0097EJ0100 Rev.1.00
Apr 22, 2011
7
Page 35 of 83
RX610 Group
4. I/O Registers
Number of
Module
Register
Access
Access
Address
Abbreviation Register Name
Abbreviation of Bits
Number
Size
Cycles
0008 3068h
BSC
CS6 wait control register 2
CS6WCNT2
32
32
1 to 2 BCLK *
0008 3072h
BSC
CS7 mode register
CS7MOD
16
16
1 to 2 BCLK *
0008 3074h
BSC
CS7 wait control register 1
CS7WCNT1
32
32
1 to 2 BCLK *
0008 3078h
BSC
CS7 wait control register 2
CS7WCNT2
32
32
1 to 2 BCLK *
7
7
7
7
*7
0008 3802h
BSC
CS0 control register
CS0CNT
16
16
1 to 2 BCLK
0008 380Ah
BSC
CS0 recovery cycle register
CS0REC
16
16
1 to 2 BCLK *
0008 3812h
BSC
CS1 control register
CS1CNT
16
16
1 to 2 BCLK *
7
7
*7
0008 381Ah
BSC
CS1 recovery cycle register
CS1REC
16
16
1 to 2 BCLK
0008 3822h
BSC
CS2 control register
CS2CNT
16
16
1 to 2 BCLK *
0008 382Ah
BSC
CS2 recovery cycle register
CS2REC
16
16
1 to 2 BCLK *
0008 3832h
BSC
CS3 control register
CS3CNT
16
16
1 to 2 BCLK *
0008 383Ah
BSC
CS3 recovery cycle register
CS3REC
16
16
1 to 2 BCLK *
7
7
7
7
*7
0008 3842h
BSC
CS4 control register
CS4CNT
16
16
1 to 2 BCLK
0008 384Ah
BSC
CS4 recovery cycle register
CS4REC
16
16
1 to 2 BCLK *
0008 3852h
BSC
CS5 control register
CS5CNT
16
16
1 to 2 BCLK *
7
7
*7
0008 385Ah
BSC
CS5 recovery cycle register
CS5REC
16
16
1 to 2 BCLK
0008 3862h
BSC
CS6 control register
CS6CNT
16
16
1 to 2 BCLK *
0008 386Ah
BSC
CS6 recovery cycle register
CS6REC
16
16
1 to 2 BCLK *
0008 3872h
BSC
CS7 control register
CS7CNT
16
16
1 to 2 BCLK *
0008 387Ah
BSC
CS7 recovery cycle register
CS7REC
16
16
1 to 2 BCLK *
0008 7010h
ICU
Interrupt request register 016
IR016
8
8
2 ICLK
0008 7015h
ICU
Interrupt request register 021
IR021
8
8
2 ICLK
0008 7017h
ICU
Interrupt request register 023
IR023
8
8
2 ICLK
0008 701Ch
ICU
Interrupt request register 028
IR028
8
8
2 ICLK
7
7
7
7
0008 701Dh
ICU
Interrupt request register 029
IR029
8
8
2 ICLK
0008 701Eh
ICU
Interrupt request register 030
IR030
8
8
2 ICLK
0008 701Fh
ICU
Interrupt request register 031
IR031
8
8
2 ICLK
0008 7040h
ICU
Interrupt request register 064
IR064
8
8
2 ICLK
0008 7041h
ICU
Interrupt request register 065
IR065
8
8
2 ICLK
0008 7042h
ICU
Interrupt request register 066
IR066
8
8
2 ICLK
0008 7043h
ICU
Interrupt request register 067
IR067
8
8
2 ICLK
0008 7044h
ICU
Interrupt request register 068
IR068
8
8
2 ICLK
0008 7045h
ICU
Interrupt request register 069
IR069
8
8
2 ICLK
0008 7046h
ICU
Interrupt request register 070
IR070
8
8
2 ICLK
0008 7047h
ICU
Interrupt request register 071
IR071
8
8
2 ICLK
0008 7048h
ICU
Interrupt request register 072
IR072
8
8
2 ICLK
0008 7049h
ICU
Interrupt request register 073
IR073
8
8
2 ICLK
0008 704Ah
ICU
Interrupt request register 074
IR074
8
8
2 ICLK
0008 704Bh
ICU
Interrupt request register 075
IR075
8
8
2 ICLK
0008 704Ch
ICU
Interrupt request register 076
IR076
8
8
2 ICLK
0008 704Dh
ICU
Interrupt request register 077
IR077
8
8
2 ICLK
0008 704Eh
ICU
Interrupt request register 078
IR078
8
8
2 ICLK
0008 704Fh
ICU
Interrupt request register 079
IR079
8
8
2 ICLK
0008 7060h
ICU
Interrupt request register 096
IR096
8
8
2 ICLK
0008 7062h
ICU
Interrupt request register 098
IR098
8
8
2 ICLK
R01DS0097EJ0100 Rev.1.00
Apr 22, 2011
Page 36 of 83
RX610 Group
4. I/O Registers
Number of
Module
Register
Access
Access
Address
Abbreviation Register Name
Abbreviation of Bits
Number
Size
Cycles
0008 7063h
ICU
Interrupt request register 099
IR099
8
8
2 ICLK
0008 7064h
ICU
Interrupt request register 100
IR100
8
8
2 ICLK
0008 7065h
ICU
Interrupt request register 101
IR101
8
8
2 ICLK
0008 7068h
ICU
Interrupt request register 104
IR104
8
8
2 ICLK
0008 7069h
ICU
Interrupt request register 105
IR105
8
8
2 ICLK
0008 706Ah
ICU
Interrupt request register 106
IR106
8
8
2 ICLK
0008 706Bh
ICU
Interrupt request register 107
IR107
8
8
2 ICLK
0008 706Ch
ICU
Interrupt request register 108
IR108
8
8
2 ICLK
0008 706Fh
ICU
Interrupt request register 111
IR111
8
8
2 ICLK
0008 7070h
ICU
Interrupt request register 112
IR112
8
8
2 ICLK
0008 7073h
ICU
Interrupt request register 115
IR115
8
8
2 ICLK
0008 7074h
ICU
Interrupt request register 116
IR116
8
8
2 ICLK
0008 7075h
ICU
Interrupt request register 117
IR117
8
8
2 ICLK
0008 7076h
ICU
Interrupt request register 118
IR118
8
8
2 ICLK
0008 7078h
ICU
Interrupt request register 120
IR120
8
8
2 ICLK
0008 7079h
ICU
Interrupt request register 121
IR121
8
8
2 ICLK
0008 707Ah
ICU
Interrupt request register 122
IR122
8
8
2 ICLK
0008 707Bh
ICU
Interrupt request register 123
IR123
8
8
2 ICLK
0008 707Ch
ICU
Interrupt request register 124
IR124
8
8
2 ICLK
0008 707Dh
ICU
Interrupt request register 125
IR125
8
8
2 ICLK
0008 707Eh
ICU
Interrupt request register 126
IR126
8
8
2 ICLK
0008 707Fh
ICU
Interrupt request register 127
IR127
8
8
2 ICLK
0008 7080h
ICU
Interrupt request register 128
IR128
8
8
2 ICLK
0008 7083h
ICU
Interrupt request register 131
IR131
8
8
2 ICLK
0008 7084h
ICU
Interrupt request register 132
IR132
8
8
2 ICLK
0008 7085h
ICU
Interrupt request register 133
IR133
8
8
2 ICLK
0008 7086h
ICU
Interrupt request register 134
IR134
8
8
2 ICLK
0008 7088h
ICU
Interrupt request register 136
IR136
8
8
2 ICLK
0008 7089h
ICU
Interrupt request register 137
IR137
8
8
2 ICLK
0008 708Ah
ICU
Interrupt request register 138
IR138
8
8
2 ICLK
0008 708Bh
ICU
Interrupt request register 139
IR139
8
8
2 ICLK
0008 708Ch
ICU
Interrupt request register 140
IR140
8
8
2 ICLK
0008 708Dh
ICU
Interrupt request register 141
IR141
8
8
2 ICLK
0008 708Eh
ICU
Interrupt request register 142
IR142
8
8
2 ICLK
0008 7091h
ICU
Interrupt request register 145
IR145
8
8
2 ICLK
0008 7092h
ICU
Interrupt request register 146
IR146
8
8
2 ICLK
0008 7095h
ICU
Interrupt request register 149
IR149
8
8
2 ICLK
0008 7096h
ICU
Interrupt request register 150
IR150
8
8
2 ICLK
0008 7097h
ICU
Interrupt request register 151
IR151
8
8
2 ICLK
0008 7098h
ICU
Interrupt request register 152
IR152
8
8
2 ICLK
0008 709Ah
ICU
Interrupt request register 154
IR154
8
8
2 ICLK
0008 709Bh
ICU
Interrupt request register 155
IR155
8
8
2 ICLK
0008 709Ch
ICU
Interrupt request register 156
IR156
8
8
2 ICLK
0008 709Dh
ICU
Interrupt request register 157
IR157
8
8
2 ICLK
0008 709Eh
ICU
Interrupt request register 158
IR158
8
8
2 ICLK
R01DS0097EJ0100 Rev.1.00
Apr 22, 2011
Page 37 of 83
RX610 Group
4. I/O Registers
Number of
Address
Module
Register
Abbreviation Register Name
Abbreviation of Bits
Number
Access
Access
Size
Cycles
0008 709Fh
ICU
Interrupt request register 159
IR159
8
8
2 ICLK
0008 70A0h
ICU
Interrupt request register 160
IR160
8
8
2 ICLK
0008 70A1h
ICU
Interrupt request register 161
IR161
8
8
2 ICLK
0008 70A2h
ICU
Interrupt request register 162
IR162
8
8
2 ICLK
0008 70A5h
ICU
Interrupt request register 165
IR165
8
8
2 ICLK
0008 70A6h
ICU
Interrupt request register 166
IR166
8
8
2 ICLK
0008 70A7h
ICU
Interrupt request register 167
IR167
8
8
2 ICLK
0008 70A8h
ICU
Interrupt request register 168
IR168
8
8
2 ICLK
0008 70AAh
ICU
Interrupt request register 170
IR170
8
8
2 ICLK
0008 70ABh
ICU
Interrupt request register 171
IR171
8
8
2 ICLK
0008 70AEh
ICU
Interrupt request register 174
IR174
8
8
2 ICLK
0008 70AFh
ICU
Interrupt request register 175
IR175
8
8
2 ICLK
0008 70B0h
ICU
Interrupt request register 176
IR176
8
8
2 ICLK
0008 70B1h
ICU
Interrupt request register 177
IR177
8
8
2 ICLK
0008 70B2h
ICU
Interrupt request register 178
IR178
8
8
2 ICLK
0008 70B3h
ICU
Interrupt request register 179
IR179
8
8
2 ICLK
0008 70B4h
ICU
Interrupt request register 180
IR180
8
8
2 ICLK
0008 70B5h
ICU
Interrupt request register 181
IR181
8
8
2 ICLK
0008 70B6h
ICU
Interrupt request register 182
IR182
8
8
2 ICLK
0008 70B7h
ICU
Interrupt request register 183
IR183
8
8
2 ICLK
0008 70B8h
ICU
Interrupt request register 184
IR184
8
8
2 ICLK
0008 70B9h
ICU
Interrupt request register 185
IR185
8
8
2 ICLK
0008 70C6h
ICU
Interrupt request register 198
IR198
8
8
2 ICLK
0008 70C7h
ICU
Interrupt request register 199
IR199
8
8
2 ICLK
0008 70C8h
ICU
Interrupt request register 200
IR200
8
8
2 ICLK
0008 70C9h
ICU
Interrupt request register 201
IR201
8
8
2 ICLK
0008 70D6h
ICU
Interrupt request register 214
IR214
8
8
2 ICLK
0008 70D7h
ICU
Interrupt request register 215
IR215
8
8
2 ICLK
0008 70D8h
ICU
Interrupt request register 216
IR216
8
8
2 ICLK
0008 70D9h
ICU
Interrupt request register 217
IR217
8
8
2 ICLK
0008 70DAh
ICU
Interrupt request register 218
IR218
8
8
2 ICLK
0008 70DBh
ICU
Interrupt request register 219
IR219
8
8
2 ICLK
0008 70DCh
ICU
Interrupt request register 220
IR220
8
8
2 ICLK
0008 70DDh
ICU
Interrupt request register 221
IR221
8
8
2 ICLK
0008 70DEh
ICU
Interrupt request register 222
IR222
8
8
2 ICLK
0008 70DFh
ICU
Interrupt request register 223
IR223
8
8
2 ICLK
0008 70E0h
ICU
Interrupt request register 224
IR224
8
8
2 ICLK
0008 70E1h
ICU
Interrupt request register 225
IR225
8
8
2 ICLK
0008 70E2h
ICU
Interrupt request register 226
IR226
8
8
2 ICLK
0008 70E3h
ICU
Interrupt request register 227
IR227
8
8
2 ICLK
0008 70E4h
ICU
Interrupt request register 228
IR228
8
8
2 ICLK
0008 70E5h
ICU
Interrupt request register 229
IR229
8
8
2 ICLK
0008 70E6h
ICU
Interrupt request register 230
IR230
8
8
2 ICLK
0008 70E7h
ICU
Interrupt request register 231
IR231
8
8
2 ICLK
0008 70E8h
ICU
Interrupt request register 232
IR232
8
8
2 ICLK
R01DS0097EJ0100 Rev.1.00
Apr 22, 2011
Page 38 of 83
RX610 Group
4. I/O Registers
Number of
Module
Register
Access
Access
Abbreviation Register Name
Abbreviation of Bits
Size
Cycles
0008 70E9h
ICU
Interrupt request register 233
IR233
8
8
2 ICLK
0008 70EAh
ICU
Interrupt request register 234
IR234
8
8
2 ICLK
0008 70EBh
ICU
Interrupt request register 235
IR235
8
8
2 ICLK
0008 70ECh
ICU
Interrupt request register 236
IR236
8
8
2 ICLK
0008 70EDh
ICU
Interrupt request register 237
IR237
8
8
2 ICLK
0008 70EEh
ICU
Interrupt request register 238
IR238
8
8
2 ICLK
0008 70EFh
ICU
Interrupt request register 239
IR239
8
8
2 ICLK
0008 70F0h
ICU
Interrupt request register 240
IR240
8
8
2 ICLK
0008 70F1h
ICU
Interrupt request register 241
IR241
8
8
2 ICLK
0008 70F6h
ICU
Interrupt request register 246
IR246
8
8
2 ICLK
0008 70F7h
ICU
Interrupt request register 247
IR247
8
8
2 ICLK
0008 70F8h
ICU
Interrupt request register 248
IR248
8
8
2 ICLK
0008 70F9h
ICU
Interrupt request register 249
IR249
8
8
2 ICLK
0008 70FAh
ICU
Interrupt request register 250
IR250
8
8
2 ICLK
0008 70FBh
ICU
Interrupt request register 251
IR251
8
8
2 ICLK
0008 70FCh
ICU
Interrupt request register 252
IR252
8
8
2 ICLK
0008 70FDh
ICU
Interrupt request register 253
IR253
8
8
2 ICLK
0008 711Ch
ICU
Interrupt request destination setting register 028
ISELR028
8
8
2 ICLK
0008 711Dh
ICU
Interrupt request destination setting register 029
ISELR029
8
8
2 ICLK
0008 711Eh
ICU
Interrupt request destination setting register 030
ISELR030
8
8
2 ICLK
0008 711Fh
ICU
Interrupt request destination setting register 031
ISELR031
8
8
2 ICLK
0008 7140h
ICU
Interrupt request destination setting register 064
ISELR064
8
8
2 ICLK
0008 7141h
ICU
Interrupt request destination setting register 065
ISELR065
8
8
2 ICLK
0008 7142h
ICU
Interrupt request destination setting register 066
ISELR066
8
8
2 ICLK
0008 7143h
ICU
Interrupt request destination setting register 067
ISELR067
8
8
2 ICLK
0008 7144h
ICU
Interrupt request destination setting register 068
ISELR068
8
8
2 ICLK
0008 7145h
ICU
Interrupt request destination setting register 069
ISELR069
8
8
2 ICLK
0008 7146h
ICU
Interrupt request destination setting register 070
ISELR070
8
8
2 ICLK
0008 7147h
ICU
Interrupt request destination setting register 071
ISELR071
8
8
2 ICLK
0008 7148h
ICU
Interrupt request destination setting register 072
ISELR072
8
8
2 ICLK
Address
Number
0008 7149h
ICU
Interrupt request destination setting register 073
ISELR073
8
8
2 ICLK
0008 714Ah
ICU
Interrupt request destination setting register 074
ISELR074
8
8
2 ICLK
0008 714Bh
ICU
Interrupt request destination setting register 075
ISELR075
8
8
2 ICLK
0008 714Ch
ICU
Interrupt request destination setting register 076
ISELR076
8
8
2 ICLK
0008 714Dh
ICU
Interrupt request destination setting register 077
ISELR077
8
8
2 ICLK
0008 714Eh
ICU
Interrupt request destination setting register 078
ISELR078
8
8
2 ICLK
0008 714Fh
ICU
Interrupt request destination setting register 079
ISELR079
8
8
2 ICLK
0008 7162h
ICU
Interrupt request destination setting register 098
ISELR098
8
8
2 ICLK
0008 7163h
ICU
Interrupt request destination setting register 099
ISELR099
8
8
2 ICLK
0008 7164h
ICU
Interrupt request destination setting register 100
ISELR100
8
8
2 ICLK
0008 7165h
ICU
Interrupt request destination setting register 101
ISELR101
8
8
2 ICLK
0008 7168h
ICU
Interrupt request destination setting register 104
ISELR104
8
8
2 ICLK
0008 7169h
ICU
Interrupt request destination setting register 105
ISELR105
8
8
2 ICLK
0008 716Ah
ICU
Interrupt request destination setting register 106
ISELR106
8
8
2 ICLK
0008 716Bh
ICU
Interrupt request destination setting register 107
ISELR107
8
8
2 ICLK
R01DS0097EJ0100 Rev.1.00
Apr 22, 2011
Page 39 of 83
RX610 Group
4. I/O Registers
Number of
Module
Register
Access
Access
Address
Abbreviation Register Name
Abbreviation of Bits
Number
Size
Cycles
0008 716Fh
ICU
Interrupt request destination setting register 111
ISELR111
8
8
2 ICLK
0008 7170h
ICU
Interrupt request destination setting register 112
ISELR112
8
8
2 ICLK
0008 7175h
ICU
Interrupt request destination setting register 117
ISELR117
8
8
2 ICLK
0008 7176h
ICU
Interrupt request destination setting register 118
ISELR118
8
8
2 ICLK
0008 717Ah
ICU
Interrupt request destination setting register 122
ISELR122
8
8
2 ICLK
0008 717Bh
ICU
Interrupt request destination setting register 123
ISELR123
8
8
2 ICLK
0008 717Ch
ICU
Interrupt request destination setting register 124
ISELR124
8
8
2 ICLK
0008 717Dh
ICU
Interrupt request destination setting register 125
ISELR125
8
8
2 ICLK
0008 717Fh
ICU
Interrupt request destination setting register 127
ISELR127
8
8
2 ICLK
0008 7180h
ICU
Interrupt request destination setting register 128
ISELR128
8
8
2 ICLK
0008 7185h
ICU
Interrupt request destination setting register 133
ISELR133
8
8
2 ICLK
0008 7186h
ICU
Interrupt request destination setting register 134
ISELR134
8
8
2 ICLK
0008 718Ah
ICU
Interrupt request destination setting register 138
ISELR138
8
8
2 ICLK
0008 718Bh
ICU
Interrupt request destination setting register 139
ISELR139
8
8
2 ICLK
0008 718Ch
ICU
Interrupt request destination setting register 140
ISELR140
8
8
2 ICLK
0008 718Dh
ICU
Interrupt request destination setting register 141
ISELR141
8
8
2 ICLK
0008 7191h
ICU
Interrupt request destination setting register 145
ISELR145
8
8
2 ICLK
0008 7192h
ICU
Interrupt request destination setting register 146
ISELR146
8
8
2 ICLK
0008 7197h
ICU
Interrupt request destination setting register 151
ISELR151
8
8
2 ICLK
0008 7198h
ICU
Interrupt request destination setting register 152
ISELR152
8
8
2 ICLK
0008 719Ch
ICU
Interrupt request destination setting register 156
ISELR156
8
8
2 ICLK
0008 719Dh
ICU
Interrupt request destination setting register 157
ISELR157
8
8
2 ICLK
0008 719Eh
ICU
Interrupt request destination setting register 158
ISELR158
8
8
2 ICLK
0008 719Fh
ICU
Interrupt request destination setting register 159
ISELR159
8
8
2 ICLK
0008 71A1h
ICU
Interrupt request destination setting register 161
ISELR161
8
8
2 ICLK
0008 71A2h
ICU
Interrupt request destination setting register 162
ISELR162
8
8
2 ICLK
0008 71A7h
ICU
Interrupt request destination setting register 167
ISELR167
8
8
2 ICLK
0008 71A8h
ICU
Interrupt request destination setting register 168
ISELR168
8
8
2 ICLK
0008 71AEh
ICU
Interrupt request destination setting register 174
ISELR174
8
8
2 ICLK
0008 71AFh
ICU
Interrupt request destination setting register 175
ISELR175
8
8
2 ICLK
0008 71B1h
ICU
Interrupt request destination setting register 177
ISELR177
8
8
2 ICLK
0008 71B2h
ICU
Interrupt request destination setting register 178
ISELR178
8
8
2 ICLK
0008 71B4h
ICU
Interrupt request destination setting register 180
ISELR180
8
8
2 ICLK
0008 71B5h
ICU
Interrupt request destination setting register 181
ISELR181
8
8
2 ICLK
0008 71B7h
ICU
Interrupt request destination setting register 183
ISELR183
8
8
2 ICLK
0008 71B8h
ICU
Interrupt request destination setting register 184
ISELR184
8
8
2 ICLK
0008 71C6h
ICU
Interrupt request destination setting register 198
ISELR198
8
8
2 ICLK
0008 71C7h
ICU
Interrupt request destination setting register 199
ISELR199
8
8
2 ICLK
0008 71C8h
ICU
Interrupt request destination setting register 200
ISELR200
8
8
2 ICLK
0008 71C9h
ICU
Interrupt request destination setting register 201
ISELR201
8
8
2 ICLK
0008 71D7h
ICU
Interrupt request destination setting register 215
ISELR215
8
8
2 ICLK
0008 71D8h
ICU
Interrupt request destination setting register 216
ISELR216
8
8
2 ICLK
0008 71DBh
ICU
Interrupt request destination setting register 219
ISELR219
8
8
2 ICLK
0008 71DCh
ICU
Interrupt request destination setting register 220
ISELR220
8
8
2 ICLK
0008 71DFh
ICU
Interrupt request destination setting register 223
ISELR223
8
8
2 ICLK
R01DS0097EJ0100 Rev.1.00
Apr 22, 2011
Page 40 of 83
RX610 Group
4. I/O Registers
Number of
Module
Register
Access
Access
Address
Abbreviation Register Name
Abbreviation of Bits
Size
Cycles
0008 71E0h
ICU
Interrupt request destination setting register 224
ISELR224
8
8
2 ICLK
0008 71E3h
ICU
Interrupt request destination setting register 227
ISELR227
8
8
2 ICLK
0008 71E4h
ICU
Interrupt request destination setting register 228
ISELR228
8
8
2 ICLK
0008 71E7h
ICU
Interrupt request destination setting register 231
ISELR231
8
8
2 ICLK
0008 71E8h
ICU
Interrupt request destination setting register 232
ISELR232
8
8
2 ICLK
0008 71EBh
ICU
Interrupt request destination setting register 235
ISELR235
8
8
2 ICLK
0008 71ECh
ICU
Interrupt request destination setting register 236
ISELR236
8
8
2 ICLK
0008 71EFh
ICU
Interrupt request destination setting register 239
ISELR239
8
8
2 ICLK
0008 71F0h
ICU
Interrupt request destination setting register 240
ISELR240
8
8
2 ICLK
0008 71F7h
ICU
Interrupt request destination setting register 247
ISELR247
8
8
2 ICLK
0008 71F8h
ICU
Interrupt request destination setting register 248
ISELR248
8
8
2 ICLK
0008 71FBh
ICU
Interrupt request destination setting register 251
ISELR251
8
8
2 ICLK
0008 71FCh
ICU
Interrupt request destination setting register 252
ISELR252
8
8
2 ICLK
0008 71FDh
ICU
Interrupt request destination setting register 253
ISELR253
8
8
2ICLK
0008 7202h
ICU
Interrupt request enable register 02
IER02
8
8
2 ICLK
0008 7203h
ICU
Interrupt request enable register 03
IER03
8
8
2 ICLK
0008 7208h
ICU
Interrupt request enable register 08
IER08
8
8
2 ICLK
0008 7209h
ICU
Interrupt request enable register 09
IER09
8
8
2 ICLK
0008 720Ch
ICU
Interrupt request enable register 0C
IER0C
8
8
2 ICLK
0008 720Dh
ICU
Interrupt request enable register 0D
IER0D
8
8
2 ICLK
0008 720Eh
ICU
Interrupt request enable register 0E
IER0E
8
8
2 ICLK
0008 720Fh
ICU
Interrupt request enable register 0F
IER0F
8
8
2 ICLK
0008 7210h
ICU
Interrupt request enable register 10
IER10
8
8
2 ICLK
0008 7211h
ICU
Interrupt request enable register 11
IER11
8
8
2 ICLK
0008 7212h
ICU
Interrupt request enable register 12
IER12
8
8
2 ICLK
0008 7213h
ICU
Interrupt request enable register 13
IER13
8
8
2 ICLK
0008 7214h
ICU
Interrupt request enable register 14
IER14
8
8
2 ICLK
0008 7215h
ICU
Interrupt request enable register 15
IER15
8
8
2 ICLK
0008 7216h
ICU
Interrupt request enable register 16
IER16
8
8
2 ICLK
0008 7217h
ICU
Interrupt request enable register 17
IER17
8
8
2 ICLK
0008 7218h
ICU
Interrupt request enable register 18
IER18
8
8
2 ICLK
0008 7219h
ICU
Interrupt request enable register 19
IER19
8
8
2 ICLK
0008 721Ah
ICU
Interrupt request enable register 1A
IER1A
8
8
2 ICLK
0008 721Bh
ICU
Interrupt request enable register 1B
IER1B
8
8
2 ICLK
0008 721Ch
ICU
Interrupt request enable register 1C
IER1C
8
8
2 ICLK
0008 721Dh
ICU
Interrupt request enable register 1D
IER1D
8
8
2 ICLK
0008 721Eh
ICU
Interrupt request enable register 1E
IER1E
8
8
2 ICLK
0008 721Fh
ICU
Interrupt request enable register 1F
IER1F
8
8
2 ICLK
0008 7300h
ICU
Interrupt priority register 00
IPR00
8
8
2 ICLK
0008 7301h
ICU
Interrupt priority register 01
IPR01
8
8
2 ICLK
0008 7302h
ICU
Interrupt priority register 02
IPR02
8
8
2 ICLK
0008 7304h
ICU
Interrupt priority register 04
IPR04
8
8
2 ICLK
0008 7305h
ICU
Interrupt priority register 05
IPR05
8
8
2 ICLK
0008 7306h
ICU
Interrupt priority register 06
IPR06
8
8
2 ICLK
0008 7307h
ICU
Interrupt priority register 07
IPR07
8
8
2 ICLK
R01DS0097EJ0100 Rev.1.00
Apr 22, 2011
Number
Page 41 of 83
RX610 Group
4. I/O Registers
Number of
Module
Register
Access
Access
Address
Abbreviation Register Name
Abbreviation of Bits
Size
Cycles
0008 7320h
ICU
Interrupt priority register 20
IPR20
8
8
2 ICLK
0008 7321h
ICU
Interrupt priority register 21
IPR21
8
8
2 ICLK
0008 7322h
ICU
Interrupt priority register 22
IPR22
8
8
2 ICLK
0008 7323h
ICU
Interrupt priority register 23
IPR23
8
8
2 ICLK
0008 7324h
ICU
Interrupt priority register 24
IPR24
8
8
2 ICLK
0008 7325h
ICU
Interrupt priority register 25
IPR25
8
8
2 ICLK
0008 7326h
ICU
Interrupt priority register 26
IPR26
8
8
2 ICLK
0008 7327h
ICU
Interrupt priority register 27
IPR27
8
8
2 ICLK
0008 7328h
ICU
Interrupt priority register 28
IPR28
8
8
2 ICLK
0008 7329h
ICU
Interrupt priority register 29
IPR29
8
8
2 ICLK
0008 732Ah
ICU
Interrupt priority register 2A
IPR2A
8
8
2 ICLK
0008 732Bh
ICU
Interrupt priority register 2B
IPR2B
8
8
2 ICLK
0008 732Ch
ICU
Interrupt priority register 2C
IPR2C
8
8
2 ICLK
0008 732Dh
ICU
Interrupt priority register 2D
IPR2D
8
8
2 ICLK
0008 732Eh
ICU
Interrupt priority register 2E
IPR2E
8
8
2 ICLK
0008 732Fh
ICU
Interrupt priority register 2F
IPR2F
8
8
2 ICLK
0008 7340h
ICU
Interrupt priority register 40
IPR40
8
8
2 ICLK
0008 7344h
ICU
Interrupt priority register 44
IPR44
8
8
2 ICLK
0008 7345h
ICU
Interrupt priority register 45
IPR45
8
8
2 ICLK
0008 7346h
ICU
Interrupt priority register 46
IPR46
8
8
2 ICLK
0008 7347h
ICU
Interrupt priority register 47
IPR47
8
8
2 ICLK
0008 734Ch
ICU
Interrupt priority register 4C
IPR4C
8
8
2 ICLK
0008 734Dh
ICU
Interrupt priority register 4D
IPR4D
8
8
2 ICLK
0008 734Eh
ICU
Interrupt priority register 4E
IPR4E
8
8
2 ICLK
0008 734Fh
ICU
Interrupt priority register 4F
IPR4F
8
8
2 ICLK
0008 7350h
ICU
Interrupt priority register 50
IPR50
8
8
2 ICLK
0008 7351h
ICU
Interrupt priority register 51
IPR51
8
8
2 ICLK
0008 7352h
ICU
Interrupt priority register 52
IPR52
8
8
2 ICLK
0008 7353h
ICU
Interrupt priority register 53
IPR53
8
8
2 ICLK
0008 7354h
ICU
Interrupt priority register 54
IPR54
8
8
2 ICLK
0008 7355h
ICU
Interrupt priority register 55
IPR55
8
8
2 ICLK
0008 7356h
ICU
Interrupt priority register 56
IPR56
8
8
2 ICLK
0008 7357h
ICU
Interrupt priority register 57
IPR57
8
8
2 ICLK
0008 7358h
ICU
Interrupt priority register 58
IPR58
8
8
2 ICLK
0008 7359h
ICU
Interrupt priority register 59
IPR59
8
8
2 ICLK
0008 735Ah
ICU
Interrupt priority register 5A
IPR5A
8
8
2 ICLK
0008 735Bh
ICU
Interrupt priority register 5B
IPR5B
8
8
2 ICLK
0008 735Ch
ICU
Interrupt priority register 5C
IPR5C
8
8
2 ICLK
0008 735Dh
ICU
Interrupt priority register 5D
IPR5D
8
8
2 ICLK
0008 735Eh
ICU
Interrupt priority register 5E
IPR5E
8
8
2 ICLK
0008 735Fh
ICU
Interrupt priority register 5F
IPR5F
8
8
2 ICLK
0008 7360h
ICU
Interrupt priority register 60
IPR60
8
8
2 ICLK
0008 7361h
ICU
Interrupt priority register 61
IPR61
8
8
2 ICLK
0008 7362h
ICU
Interrupt priority register 62
IPR62
8
8
2 ICLK
0008 7363h
ICU
Interrupt priority register 63
IPR63
8
8
2 ICLK
R01DS0097EJ0100 Rev.1.00
Apr 22, 2011
Number
Page 42 of 83
RX610 Group
4. I/O Registers
Number of
Module
Register
Access
Access
Address
Abbreviation Register Name
Abbreviation of Bits
Number
Size
Cycles
0008 7368h
ICU
Interrupt priority register 68
IPR68
8
8
2 ICLK
0008 7369h
ICU
Interrupt priority register 69
IPR69
8
8
2 ICLK
0008 736Ah
ICU
Interrupt priority register 6A
IPR6A
8
8
2 ICLK
0008 736Bh
ICU
Interrupt priority register 6B
IPR6B
8
8
2 ICLK
0008 7370h
ICU
Interrupt priority register 70
IPR70
8
8
2 ICLK
0008 7371h
ICU
Interrupt priority register 71
IPR71
8
8
2 ICLK
0008 7372h
ICU
Interrupt priority register 72
IPR72
8
8
2 ICLK
0008 7373h
ICU
Interrupt priority register 73
IPR73
8
8
2 ICLK
0008 7380h
ICU
Interrupt priority register 80
IPR80
8
8
2 ICLK
0008 7381h
ICU
Interrupt priority register 81
IPR81
8
8
2 ICLK
0008 7382h
ICU
Interrupt priority register 82
IPR82
8
8
2 ICLK
0008 7383h
ICU
Interrupt priority register 83
IPR83
8
8
2 ICLK
0008 7384h
ICU
Interrupt priority register 84
IPR84
8
8
2 ICLK
0008 7385h
ICU
Interrupt priority register 85
IPR85
8
8
2 ICLK
0008 7386h
ICU
Interrupt priority register 86
IPR86
8
8
2 ICLK
0008 7388h
ICU
Interrupt priority register 88
IPR88
8
8
2 ICLK
0008 7389h
ICU
Interrupt priority register 89
IPR89
8
8
2 ICLK
0008 738Ah
ICU
Interrupt priority register 8A
IPR8A
8
8
2 ICLK
0008 738Bh
ICU
Interrupt priority register 8B
IPR8B
8
8
2 ICLK
0008 738Ch
ICU
Interrupt priority register 8C
IPR8C
8
8
2 ICLK
0008 738Dh
ICU
Interrupt priority register 8D
IPR8D
8
8
2 ICLK
0008 738Eh
ICU
Interrupt priority register 8E
IPR8E
8
8
2 ICLK
0008 738Fh
ICU
Interrupt priority register 8F
IPR8F
8
8
2 ICLK
0008 73F0h
ICU
Fast interrupt register
FIR
16
16
2 ICLK
0008 7400h
DTC
DTC control register
DTCCR
8
8
2 ICLK
0008 7404h
DTC
DTC vector base register
DTCVBR
32
32
2 ICLK
0008 7408h
DTC
DTC address mode register
DTCADMOD
8
8
2 ICLK
0008 740Ch
DTC
DTC module start register
DTCST
8
8
2 ICLK
0008 8000h
CMT (unit 0)
Compare match timer start register 0
CMSTR0
16
16
2 to 3 PCLK *
0008 8002h
CMT0
Compare match timer control register
CMCR
16
16
2 to 3 PCLK *
0008 8004h
CMT0
Compare match timer counter
CMCNT
16
16
2 to 3 PCLK *
7
7
7
*7
0008 8006h
CMT0
Compare match timer constant register
CMCOR
16
16
2 to 3 PCLK
0008 8008h
CMT1
Compare match timer control register
CMCR
16
16
2 to 3 PCLK *
0008 800Ah
CMT1
Compare match timer counter
CMCNT
16
16
2 to 3 PCLK *
0008 800Ch
CMT1
Compare match timer constant register
CMCOR
16
16
2 to 3 PCLK *
0008 8010h
CMT (unit 1)
Compare match timer start register 1
CMSTR1
16
16
2 to 3 PCLK *
7
7
7
7
*7
0008 8012h
CMT2
Compare match timer control register
CMCR
16
16
2 to 3 PCLK
0008 8014h
CMT2
Compare match timer counter
CMCNT
16
16
2 to 3 PCLK *
0008 8016h
CMT2
Compare match timer constant register
CMCOR
16
16
2 to 3 PCLK *
7
7
*7
0008 8018h
CMT3
Compare match timer control register
CMCR
16
16
2 to 3 PCLK
0008 801Ah
CMT3
Compare match timer counter
CMCNT
16
16
2 to 3 PCLK *
0008 801Ch
CMT3
Compare match timer constant register
CMCOR
16
16
2 to 3 PCLK *
0008 8028h
WDT
Timer control/status register
TCSR
8
8
2 to 3 PCLK *
0008 8028h
WDT
Write window A register
WINA
16
16
2 to 3 PCLK *
0008 8029h
WDT
R01DS0097EJ0100 Rev.1.00
Apr 22, 2011
Timer counter
TCNT
8
8
7
7
7
7
2 to 3 PCLK
Page 43 of 83
*7
RX610 Group
4. I/O Registers
Number of
Module
Register
Access
Access
Address
Abbreviation Register Name
Abbreviation of Bits
Number
Size
Cycles
0008 802Ah
WDT
Write window B register
WINB
16
16
2 to 3 PCLK *
0008 802Bh
WDT
Reset control/status register
RSTCSR
8
8
2 to 3 PCLK *
0008 8040h
AD0
A/D data register A
ADDRA
16
16
2 to 3 PCLK *
0008 8042h
AD0
A/D data register B
ADDRB
16
16
2 to 3 PCLK *
7
7
7
7
*7
0008 8044h
AD0
A/D data register C
ADDRC
16
16
2 to 3 PCLK
0008 8046h
AD0
A/D data register D
ADDRD
16
16
2 to 3 PCLK *
0008 8050h
AD0
A/D control/status register
ADCSR
8
8
2 to 3 PCLK *
7
7
*7
0008 8051h
AD0
A/D control register
ADCR
8
8
2 to 3 PCLK
0008 8052h
AD0
ADDRy format select register
ADDPR
8
8
2 to 3 PCLK *
0008 8053h
AD0
A/D sampling state register
ADSSTR
8
8
2 to 3 PCLK *
0008 8060h
AD1
A/D data register A
ADDRA
16
16
2 to 3 PCLK *
0008 8062h
AD1
A/D data register B
ADDRB
16
16
2 to 3 PCLK *
7
7
7
7
*7
0008 8064h
AD1
A/D data register C
ADDRC
16
16
2 to 3 PCLK
0008 8066h
AD1
A/D data register D
ADDRD
16
16
2 to 3 PCLK *
0008 8070h
AD1
A/D control/status register
ADCSR
8
8
2 to 3 PCLK *
7
7
*7
0008 8071h
AD1
A/D control register
ADCR
8
8
2 to 3 PCLK
0008 8072h
AD1
ADDRy format select register
ADDPR
8
8
2 to 3 PCLK *
0008 8073h
AD1
A/D sampling state register
ADSSTR
8
8
2 to 3 PCLK *
0008 8080h
AD2
A/D data register A
ADDRA
16
16
2 to 3 PCLK *
0008 8082h
AD2
A/D data register B
ADDRB
16
16
2 to 3 PCLK *
7
7
7
7
*7
0008 8084h
AD2
A/D data register C
ADDRC
16
16
2 to 3 PCLK
0008 8086h
AD2
A/D data register D
ADDRD
16
16
2 to 3 PCLK *
0008 8090h
AD2
A/D control/status register
ADCSR
8
8
2 to 3 PCLK *
7
7
*7
0008 8091h
AD2
A/D control register
ADCR
8
8
2 to 3 PCLK
0008 8092h
AD2
ADDRy format select register
ADDPR
8
8
2 to 3 PCLK *
0008 8093h
AD2
A/D sampling state register
ADSSTR
8
8
2 to 3 PCLK *
0008 80A0h
AD3
A/D data register A
ADDRA
16
16
2 to 3 PCLK *
0008 80A2h
AD3
A/D data register B
ADDRB
16
16
2 to 3 PCLK *
7
7
7
7
*7
0008 80A4h
AD3
A/D data register C
ADDRC
16
16
2 to 3 PCLK
0008 80A6h
AD3
A/D data register D
ADDRD
16
16
2 to 3 PCLK *
0008 80B0h
AD3
A/D control/status register
ADCSR
8
8
2 to 3 PCLK *
7
7
*7
0008 80B1h
AD3
A/D control register
ADCR
8
8
2 to 3 PCLK
0008 80B2h
AD3
ADDRy format select register
ADDPR
8
8
2 to 3 PCLK *
0008 80B3h
AD3
A/D sampling state register
ADSSTR
8
8
2 to 3 PCLK *
0008 80C0h
D/A
D/A data register 0
DADR0
16
16
2 to 3 PCLK *
0008 80C2h
D/A
D/A data register 1
DADR1
16
16
2 to 3 PCLK *
7
7
7
7
*7
0008 80C4h
D/A
D/A control register
DACR
8
8
2 to 3 PCLK
0008 80C5h
D/A
DADRy format select register
DADPR
8
8
2 to 3 PCLK *
0008 8100h
TPU (unit 0)
Timer start register
TSTRA
8
8
2 to 3 PCLK *
7
7
*7
0008 8101h
TPU (unit 0)
Timer synchronous register
TSYRA
8
8
2 to 3 PCLK
0008 8110h
TPU0
Timer control register
TCR
8
8
2 to 3 PCLK *
0008 8111h
TPU0
Timer mode register
TMDR
8
8
2 to 3 PCLK *
0008 8112h
TPU0
Timer I/O control register H
TIORH
8
8
2 to 3 PCLK *
0008 8113h
TPU0
Timer I/O control register L
TIORL
8
8
2 to 3 PCLK *
0008 8114h
TPU0
R01DS0097EJ0100 Rev.1.00
Apr 22, 2011
Timer interrupt enable register
TIER
8
8
7
7
7
7
2 to 3 PCLK
Page 44 of 83
*7
RX610 Group
4. I/O Registers
Number of
Module
Register
Access
Access
Address
Abbreviation Register Name
Abbreviation of Bits
Number
Size
Cycles
0008 8115h
TPU0
Timer status register
TSR
8
8
2 to 3 PCLK *
0008 8116h
TPU0
Timer counter
TCNT
16
16
2 to 3 PCLK *
0008 8118h
TPU0
Timer general register A
TGRA
16
16
2 to 3 PCLK *
0008 811Ah
TPU0
Timer general register B
TGRB
16
16
2 to 3 PCLK *
7
7
7
7
*7
0008 811Ch
TPU0
Timer general register C
TGRC
16
16
2 to 3 PCLK
0008 811Eh
TPU0
Timer general register D
TGRD
16
16
2 to 3 PCLK *
0008 8120h
TPU1
Timer control register
TCR
8
8
2 to 3 PCLK *
7
7
*7
0008 8121h
TPU1
Timer mode register
TMDR
8
8
2 to 3 PCLK
0008 8122h
TPU1
Timer I/O control register
TIOR
8
8
2 to 3 PCLK *
0008 8124h
TPU1
Timer interrupt enable register
TIER
8
8
2 to 3 PCLK *
0008 8125h
TPU1
Timer status register
TSR
8
8
2 to 3 PCLK *
0008 8126h
TPU1
Timer counter
TCNT
16
16
2 to 3 PCLK *
7
7
7
7
*7
0008 8128h
TPU1
Timer general register A
TGRA
16
16
2 to 3 PCLK
0008 812Ah
TPU1
Timer general register B
TGRB
16
16
2 to 3 PCLK *
0008 8130h
TPU2
Timer control register
TCR
8
8
2 to 3 PCLK *
7
7
*7
0008 8131h
TPU2
Timer mode register
TMDR
8
8
2 to 3 PCLK
0008 8132h
TPU2
Timer I/O control register
TIOR
8
8
2 to 3 PCLK *
7
*7
0008 8134h
TPU2
Timer interrupt enable register
TIER
8
8
2 to 3 PCLK
0008 8135h
TPU2
Timer status register
TSR
8
8
2 to 3 PCLK *
0008 8136h
TPU2
Timer counter
TCNT
16
16
2 to 3 PCLK *
7
7
*7
0008 8138h
TPU2
Timer general register A
TGRA
16
16
2 to 3 PCLK
0008 813Ah
TPU2
Timer general register B
TGRB
16
16
2 to 3 PCLK *
0008 8140h
TPU3
Timer control register
TCR
8
8
2 to 3 PCLK *
7
7
*7
0008 8141h
TPU3
Timer mode register
TMDR
8
8
2 to 3 PCLK
0008 8142h
TPU3
Timer I/O control register H
TIORH
8
8
2 to 3 PCLK *
7
*7
0008 8143h
TPU3
Timer I/O control register L
TIORL
8
8
2 to 3 PCLK
0008 8144h
TPU3
Timer interrupt enable register
TIER
8
8
2 to 3 PCLK *
0008 8145h
TPU3
Timer status register
TSR
8
8
2 to 3 PCLK *
7
7
*7
0008 8146h
TPU3
Timer counter
TCNT
16
16
2 to 3 PCLK
0008 8148h
TPU3
Timer general register A
TGRA
16
16
2 to 3 PCLK *
0008 814Ah
TPU3
Timer general register B
TGRB
16
16
2 to 3 PCLK *
7
7
*7
0008 814Ch
TPU3
Timer general register C
TGRC
16
16
2 to 3 PCLK
0008 814Eh
TPU3
Timer general register D
TGRD
16
16
2 to 3 PCLK *
7
*7
0008 8150h
TPU4
Timer control register
TCR
8
8
2 to 3 PCLK
0008 8151h
TPU4
Timer mode register
TMDR
8
8
2 to 3 PCLK *
0008 8152h
TPU4
Timer I/O control register
TIOR
8
8
2 to 3 PCLK *
7
7
*7
0008 8154h
TPU4
Timer interrupt enable register
TIER
8
8
2 to 3 PCLK
0008 8155h
TPU4
Timer status register
TSR
8
8
2 to 3 PCLK *
0008 8156h
TPU4
Timer counter
TCNT
16
16
2 to 3 PCLK *
7
7
*7
0008 8158h
TPU4
Timer general register A
TGRA
16
16
2 to 3 PCLK
0008 815Ah
TPU4
Timer general register B
TGRB
16
16
2 to 3 PCLK *
7
*7
0008 8160h
TPU5
Timer control register
TCR
8
8
2 to 3 PCLK
0008 8161h
TPU5
Timer mode register
TMDR
8
8
2 to 3 PCLK *
0008 8162h
TPU5
Timer I/O control register
TIOR
8
8
2 to 3 PCLK *
0008 8164h
TPU5
R01DS0097EJ0100 Rev.1.00
Apr 22, 2011
Timer interrupt enable register
TIER
8
8
7
7
2 to 3 PCLK
Page 45 of 83
*7
RX610 Group
4. I/O Registers
Number of
Module
Register
Access
Access
Address
Abbreviation Register Name
Abbreviation of Bits
Number
Size
Cycles
0008 8165h
TPU5
Timer status register
TSR
8
8
2 to 3 PCLK *
0008 8166h
TPU5
Timer counter
TCNT
16
16
2 to 3 PCLK *
0008 8168h
TPU5
Timer general register A
TGRA
16
16
2 to 3 PCLK *
0008 816Ah
TPU5
Timer general register B
TGRB
16
16
2 to 3 PCLK *
7
7
7
7
*7
0008 8170h
TPU (unit 1)
Timer start register
TSTRB
8
8
2 to 3 PCLK
0008 8171h
TPU (unit 1)
Timer synchronous register
TSYRB
8
8
2 to 3 PCLK *
0008 8180h
TPU6
Timer control register
TCR
8
8
2 to 3 PCLK *
7
7
*7
0008 8181h
TPU6
Timer mode register
TMDR
8
8
2 to 3 PCLK
0008 8182h
TPU6
Timer I/O control register H
TIORH
8
8
2 to 3 PCLK *
0008 8183h
TPU6
Timer I/O control register L
TIORL
8
8
2 to 3 PCLK *
0008 8184h
TPU6
Timer interrupt enable register
TIER
8
8
2 to 3 PCLK *
0008 8185h
TPU6
Timer status register
TSR
8
8
2 to 3 PCLK *
7
7
7
7
*7
0008 8186h
TPU6
Timer counter
TCNT
16
16
2 to 3 PCLK
0008 8188h
TPU6
Timer general register A
TGRA
16
16
2 to 3 PCLK *
0008 818Ah
TPU6
Timer general register B
TGRB
16
16
2 to 3 PCLK *
7
7
*7
0008 818Ch
TPU6
Timer general register C
TGRC
16
16
2 to 3 PCLK
0008 818Eh
TPU6
Timer general register D
TGRD
16
16
2 to 3 PCLK *
0008 8190h
TPU7
Timer control register
TCR
8
8
2 to 3 PCLK *
0008 8191h
TPU7
Timer mode register
TMDR
8
8
2 to 3 PCLK *
0008 8192h
TPU7
Timer I/O control register
TIOR
8
8
2 to 3 PCLK *
7
7
7
7
*7
0008 8194h
TPU7
Timer interrupt enable register
TIER
8
8
2 to 3 PCLK
0008 8195h
TPU7
Timer status register
TSR
8
8
2 to 3 PCLK *
0008 8196h
TPU7
Timer counter
TCNT
16
16
2 to 3 PCLK *
7
7
*7
0008 8198h
TPU7
Timer general register A
TGRA
16
16
2 to 3 PCLK
0008 819Ah
TPU7
Timer general register B
TGRB
16
16
2 to 3 PCLK *
0008 81A0h
TPU8
Timer control register
TCR
8
8
2 to 3 PCLK *
0008 81A1h
TPU8
Timer mode register
TMDR
8
8
2 to 3 PCLK *
0008 81A2h
TPU8
Timer I/O control register
TIOR
8
8
2 to 3 PCLK *
7
7
7
7
*7
0008 81A4h
TPU8
Timer interrupt enable register
TIER
8
8
2 to 3 PCLK
0008 81A5h
TPU8
Timer status register
TSR
8
8
2 to 3 PCLK *
0008 81A6h
TPU8
Timer counter
TCNT
16
16
2 to 3 PCLK *
7
7
*7
0008 81A8h
TPU8
Timer general register A
TGRA
16
16
2 to 3 PCLK
0008 81AAh
TPU8
Timer general register B
TGRB
16
16
2 to 3 PCLK *
0008 81B0h
TPU9
Timer control register
TCR
8
8
2 to 3 PCLK *
0008 81B1h
TPU9
Timer mode register
TMDR
8
8
2 to 3 PCLK *
0008 81B2h
TPU9
Timer I/O control register H
TIORH
8
8
2 to 3 PCLK *
7
7
7
7
*7
0008 81B3h
TPU9
Timer I/O control register L
TIORL
8
8
2 to 3 PCLK
0008 81B4h
TPU9
Timer interrupt enable register
TIER
8
8
2 to 3 PCLK *
0008 81B5h
TPU9
Timer status register
TSR
8
8
2 to 3 PCLK *
7
7
*7
0008 81B6h
TPU9
Timer counter
TCNT
16
16
2 to 3 PCLK
0008 81B8h
TPU9
Timer general register A
TGRA
16
16
2 to 3 PCLK *
0008 81BAh
TPU9
Timer general register B
TGRB
16
16
2 to 3 PCLK *
0008 81BCh
TPU9
Timer general register C
TGRC
16
16
2 to 3 PCLK *
0008 81BEh
TPU9
Timer general register D
TGRD
16
16
2 to 3 PCLK *
0008 81C0h
TPU10
R01DS0097EJ0100 Rev.1.00
Apr 22, 2011
Timer control register
TCR
8
8
7
7
7
7
2 to 3 PCLK
Page 46 of 83
*7
RX610 Group
4. I/O Registers
Number of
Module
Register
Access
Access
Address
Abbreviation Register Name
Abbreviation of Bits
Number
Size
Cycles
0008 81C1h
TPU10
Timer mode register
TMDR
8
8
2 to 3 PCLK *
0008 81C2h
TPU10
Timer I/O control register
TIOR
8
8
2 to 3 PCLK *
0008 81C4h
TPU10
Timer interrupt enable register
TIER
8
8
2 to 3 PCLK *
0008 81C5h
TPU10
Timer status register
TSR
8
8
2 to 3 PCLK *
7
7
7
7
*7
0008 81C6h
TPU10
Timer counter
TCNT
16
16
2 to 3 PCLK
0008 81C8h
TPU10
Timer general register A
TGRA
16
16
2 to 3 PCLK *
0008 81CAh
TPU10
Timer general register B
TGRB
16
16
2 to 3 PCLK *
7
7
*7
0008 81D0h
TPU11
Timer control register
TCR
8
8
2 to 3 PCLK
0008 81D1h
TPU11
Timer mode register
TMDR
8
8
2 to 3 PCLK *
0008 81D2h
TPU11
Timer I/O control register
TIOR
8
8
2 to 3 PCLK *
0008 81D4h
TPU11
Timer interrupt enable register
TIER
8
8
2 to 3 PCLK *
0008 81D5h
TPU11
Timer status register
TSR
8
8
2 to 3 PCLK *
7
7
7
7
*7
0008 81D6h
TPU11
Timer counter
TCNT
16
16
2 to 3 PCLK
0008 81D8h
TPU11
Timer general register A
TGRA
16
16
2 to 3 PCLK *
0008 81DAh
TPU11
Timer general register B
TGRB
16
16
2 to 3 PCLK *
7
7
*7
0008 81E6h
PPG0
PPG output control register
PCR
8
8
2 to 3 PCLK
0008 81E7h
PPG0
PPG output mode register
PMR
8
8
2 to 3 PCLK *
0008 81E8h
PPG0
Next data enable register H
NDERH
8
8
2 to 3 PCLK *
0008 81E9h
PPG0
Next data enable register L
NDERL
8
8
2 to 3 PCLK *
0008 81EAh
PPG0
Output data register H
PODRH
8
8
2 to 3 PCLK *
0008 81EBh
0008 81Ech*
1
0008 81EDh*
7
7
7
*7
PPG0
Output data register L
PODRL
8
8
2 to 3 PCLK
PPG0
Next data register H
NDRH
8
8
2 to 3 PCLK *
PPG0
Next data register L
NDRL
8
8
2 to 3 PCLK *
7
7
1
PPG0
Next data register H
NDRH
8
8
2 to 3 PCLK
2
PPG0
Next data register L
NDRL
8
8
2 to 3 PCLK *
0008 81EEh*
0008 81EFh*
2
7
*7
7
*7
0008 81F0h
PPG1
PPG trigger select register
PTRSLR
8
8
2 to 3 PCLK
0008 81F6h
PPG1
PPG output control register
PCR
8
8
2 to 3 PCLK *
0008 81F7h
PPG1
PPG output mode register
PMR
8
8
2 to 3 PCLK *
7
7
*7
0008 81F8h
PPG1
Next data enable register H
NDERH
8
8
2 to 3 PCLK
0008 81F9h
PPG1
Next data enable register L
NDERL
8
8
2 to 3 PCLK *
0008 81FAh
PPG1
Output data register H
PODRH
8
8
2 to 3 PCLK *
0008 81FBh
7
7
*7
PPG1
Output data register L
PODRL
8
8
2 to 3 PCLK
PPG1
Next data register H
NDRH
8
8
2 to 3 PCLK *
0008 81FCh*
3
0008 81FDh*
4
PPG1
Next data register L
NDRL
8
8
2 to 3 PCLK
3
PPG1
Next data register H
NDRH
8
8
2 to 3 PCLK *
4
PPG1
Next data register L
NDRL
8
8
2 to 3 PCLK *
0008 81FEh*
0008 81FFh*
7
*7
7
7
*7
0008 8200h
TMR0
Timer control register
TCR
8
8
2 to 3 PCLK
0008 8201h
TMR1
Timer control register
TCR
8
8
2 to 3 PCLK *
0008 8202h
TMR0
Timer control/status register
TCSR
8
8
2 to 3 PCLK *
7
7
0008 8203h
TMR1
Timer control/status register
TCSR
8
8
2 to 3 PCLK
0008 8204h
TMR0
Time constant register A
TCORA
8
8 or 16
0008 8205h
TMR1
Time constant register A
TCORA
8
8 or 16*
0008 8206h
TMR0
Time constant register B
TCORB
8
8 or 16
0008 8207h
TMR1
Time constant register B
TCORB
8
8 or 16*
0008 8208h
TMR0
R01DS0097EJ0100 Rev.1.00
Apr 22, 2011
Timer counter
TCNT
8
8 or 16
*7
7
2 to 3 PCLK *
5
2 to 3 PCLK
*7
7
2 to 3 PCLK *
5
7
2 to 3 PCLK *
2 to 3 PCLK
Page 47 of 83
*7
RX610 Group
4. I/O Registers
Number of
Address
Module
Register
Abbreviation Register Name
Abbreviation of Bits
Number
Access
Access
Size
Cycles
5
7
2 to 3 PCLK *
0008 8209h
TMR1
Timer counter
TCNT
8
8 or 16*
0008 820Ah
TMR0
Timer counter control register
TCCR
8
8 or 16
2 to 3 PCLK *
0008 820Bh
TMR1
Timer counter control register
TCCR
8
8 or 16
2 to 3 PCLK *
0008 8210h
TMR2
Timer control register
TCR
8
8
2 to 3 PCLK *
7
7
7
*7
0008 8211h
TMR3
Timer control register
TCR
8
8
2 to 3 PCLK
0008 8212h
TMR2
Timer control/status register
TCSR
8
8
2 to 3 PCLK *
0008 8213h
TMR3
Timer control/status register
TCSR
8
8
2 to 3 PCLK *
0008 8214h
TMR2
Time constant register A
TCORA
8
7
7
8 or 16
0008 8215h
TMR3
Time constant register A
TCORA
8
8 or 16*
0008 8216h
TMR2
Time constant register B
TCORB
8
8 or 16
0008 8217h
TMR3
Time constant register B
TCORB
8
8 or 16*
0008 8218h
TMR2
Timer counter
TCNT
8
8 or 16
2 to 3 PCLK
5
*7
7
2 to 3 PCLK *
7
2 to 3 PCLK *
5
7
2 to 3 PCLK *
7
2 to 3 PCLK *
5
0008 8219h
TMR3
Timer counter
TCNT
8
8 or 16*
0008 821Ah
TMR2
Timer counter control register
TCCR
8
8 or 16
2 to 3 PCLK *
0008 821Bh
TMR3
Timer counter control register
TCCR
8
8 or 16
2 to 3 PCLK *
0008 8240h
SCI0
Serial mode register
SMR*
0008 8241h
SCI0
Bit rate register
BRR
0008 8242h
SCI0
Serial control register
SCR*
0008 8243h
SCI0
Transmit data register
TDR
0008 8244h
SCI0
Serial status register
SSR*
6
6
6
2 to 3 PCLK
*7
7
7
*7
8
8
2 to 3 PCLK
8
8
2 to 3 PCLK *
7
*7
8
8
2 to 3 PCLK
8
8
2 to 3 PCLK *
8
8
2 to 3 PCLK *
7
7
*7
0008 8245h
SCI0
Receive data register
RDR
8
8
2 to 3 PCLK
0008 8246h
SCI0
Smart card mode register
SCMR
8
8
2 to 3 PCLK *
0008 8247h
SCI0
Serial extended mode register
SEMR
8
8
2 to 3 PCLK *
0008 8248h
SCI1
Serial mode register
SMR*
0008 8249h
SCI1
Bit rate register
BRR
0008 824Ah
SCI1
Serial control register
SCR*
0008 824Bh
SCI1
Transmit data register
TDR
0008 824Ch
SCI1
Serial status register
SSR*
6
6
6
7
7
*7
8
8
2 to 3 PCLK
8
8
2 to 3 PCLK *
7
*7
8
8
2 to 3 PCLK
8
8
2 to 3 PCLK *
8
8
2 to 3 PCLK *
7
7
*7
0008 824Dh
SCI1
Receive data register
RDR
8
8
2 to 3 PCLK
0008 824Eh
SCI1
Smart card mode register
SCMR
8
8
2 to 3 PCLK *
0008 824Fh
SCI1
Serial extended mode register
SEMR
8
8
2 to 3 PCLK *
0008 8250h
SCI2
Serial mode register
SMR*
0008 8251h
SCI2
Bit rate register
BRR
0008 8252h
SCI2
Serial control register
SCR*
0008 8253h
SCI2
Transmit data register
TDR
0008 8254h
SCI2
Serial status register
SSR*
6
6
6
7
7
*7
8
8
2 to 3 PCLK
8
8
2 to 3 PCLK *
7
*7
8
8
2 to 3 PCLK
8
8
2 to 3 PCLK *
8
8
2 to 3 PCLK *
7
7
*7
0008 8255h
SCI2
Receive data register
RDR
8
8
2 to 3 PCLK
0008 8256h
SCI2
Smart card mode register
SCMR
8
8
2 to 3 PCLK *
0008 8257h
SCI2
Serial extended mode register
SEMR
8
8
2 to 3 PCLK *
0008 8258h
SCI3
Serial mode register
SMR*
0008 8259h
SCI3
Bit rate register
BRR
0008 825Ah
SCI3
Serial control register
SCR*
0008 825Bh
SCI3
Transmit data register
TDR
0008 825Ch
SCI3
Serial status register
SSR*
0008 825Dh
SCI3
R01DS0097EJ0100 Rev.1.00
Apr 22, 2011
Receive data register
RDR
6
6
6
7
7
*7
8
8
2 to 3 PCLK
8
8
2 to 3 PCLK *
8
8
2 to 3 PCLK *
8
8
2 to 3 PCLK *
8
8
2 to 3 PCLK *
8
8
7
7
7
7
2 to 3 PCLK
Page 48 of 83
*7
RX610 Group
4. I/O Registers
Number of
Module
Register
Access
Access
Address
Abbreviation Register Name
Abbreviation of Bits
Size
Cycles
0008 825Eh
SCI3
Smart card mode register
SCMR
8
8
2 to 3 PCLK *
0008 825Fh
SCI3
Serial extended mode register
SEMR
8
8
2 to 3 PCLK *
0008 8260h
SCI4
Serial mode register
SMR*
8
8
2 to 3 PCLK *
0008 8261h
SCI4
Bit rate register
BRR
8
8
2 to 3 PCLK *
0008 8262h
SCI4
Serial control register
SCR*
0008 8263h
SCI4
Transmit data register
TDR
0008 8264h
SCI4
Serial status register
SSR*
6
6
6
Number
7
7
7
7
*7
8
8
2 to 3 PCLK
8
8
2 to 3 PCLK *
8
8
2 to 3 PCLK *
7
7
*7
0008 8265h
SCI4
Receive data register
RDR
8
8
2 to 3 PCLK
0008 8266h
SCI4
Smart card mode register
SCMR
8
8
2 to 3 PCLK *
0008 8267h
SCI4
Serial extended mode register
SEMR
8
8
2 to 3 PCLK *
0008 8268h
SCI5
Serial mode register
SMR*
8
8
2 to 3 PCLK *
0008 8269h
SCI5
Bit rate register
BRR
8
8
2 to 3 PCLK *
0008 826Ah
SCI5
Serial control register
SCR*
0008 826Bh
SCI5
Transmit data register
TDR
0008 826Ch
SCI5
Serial status register
SSR*
6
6
6
7
7
7
7
*7
8
8
2 to 3 PCLK
8
8
2 to 3 PCLK *
8
8
2 to 3 PCLK *
7
7
*7
0008 826Dh
SCI5
Receive data register
RDR
8
8
2 to 3 PCLK
0008 826Eh
SCI5
Smart card mode register
SCMR
8
8
2 to 3 PCLK *
0008 826Fh
SCI5
Serial extended mode register
SEMR
8
8
2 to 3 PCLK *
0008 8270h
SCI6
Serial mode register
SMR*
8
8
2 to 3 PCLK *
0008 8271h
SCI6
Bit rate register
BRR
8
8
2 to 3 PCLK *
0008 8272h
SCI6
Serial control register
SCR*
0008 8273h
SCI6
Transmit data register
TDR
0008 8274h
SCI6
Serial status register
SSR*
6
6
6
7
7
7
7
*7
8
8
2 to 3 PCLK
8
8
2 to 3 PCLK *
8
8
2 to 3 PCLK *
7
7
*7
0008 8275h
SCI6
Receive data register
RDR
8
8
2 to 3 PCLK
0008 8276h
SCI6
Smart card mode register
SCMR
8
8
2 to 3 PCLK *
0008 8277h
SCI6
Serial extended mode register
SEMR
8
8
2 to 3 PCLK *
0008 8280h
CRC
CRC control register
CRCCR
8
8
2 to 3 PCLK *
0008 8281h
CRC
CRC data input register
CRCDIR
8
8
2 to 3 PCLK *
0008 8282h
CRC
CRC data output register
16
2 to 3 PCLK
ICCR1
8
8
2 to 3 PCLK *
2
ICCR2
8
8
2 to 3 PCLK *
0008 8301h
RIIC0
I C bus control register 2
RIIC0
7
ICMR1
8
8
2 to 3 PCLK
2
ICMR2
8
8
2 to 3 PCLK *
2
ICMR3
8
8
2 to 3 PCLK *
2
ICFER
8
8
2 to 3 PCLK *
2
ICSER
8
8
2 to 3 PCLK *
I C bus mode register 1
I C bus mode register 2
RIIC0
I C bus mode register 3
0008 8305h
RIIC0
I C bus function enable register
0008 8306h
RIIC0
I C bus status enable register
RIIC0
7
2
0008 8304h
0008 8307h
7
*7
16
I C bus control register 1
0008 8303h
7
CRCDOR
RIIC0
RIIC0
7
2
0008 8300h
0008 8302h
7
*7
7
7
7
7
2
ICIER
8
8
2 to 3 PCLK
2
ICSR1
8
8
2 to 3 PCLK *
2
ICSR2
8
8
2 to 3 PCLK *
I C bus interrupt enable register
0008 8308h
RIIC0
I C bus status register 1
0008 8309h
RIIC0
I C bus status register 2
*7
7
7
*7
0008 830Ah
RIIC0
Slave address register L0
SARL0
8
8
2 to 3 PCLK
0008 830Bh
RIIC0
Slave address register U0
SARU0
8
8
2 to 3 PCLK *
0008 830Ch
RIIC0
Slave address register L1
SARL1
8
8
2 to 3 PCLK *
0008 830Dh
RIIC0
Slave address register U1
SARU1
8
8
2 to 3 PCLK *
0008 830Eh
RIIC0
Slave address register L2
SARL2
8
8
2 to 3 PCLK *
0008 830Fh
RIIC0
R01DS0097EJ0100 Rev.1.00
Apr 22, 2011
Slave address register U2
SARU2
8
8
7
7
7
7
2 to 3 PCLK
Page 49 of 83
*7
RX610 Group
4. I/O Registers
Number of
Address
0008 8310h
Module
Register
Access
Access
Abbreviation Register Name
Abbreviation of Bits
Size
Cycles
2
ICBRL
8
8
2 to 3 PCLK *
2
ICBRH
8
8
2 to 3 PCLK *
2
ICDRT
8
8
2 to 3 PCLK *
2
ICDRR
8
8
2 to 3 PCLK *
RIIC0
I C bus bit rate low-level register
0008 8311h
RIIC0
I C bus bit rate high-level register
0008 8312h
RIIC0
I C bus transmit data register
0008 8313h
RIIC0
I C bus receive data register
0008 8320h
RIIC1
8
2 to 3 PCLK
ICCR2
8
8
2 to 3 PCLK *
2
ICMR1
8
8
2 to 3 PCLK *
RIIC1
I C bus mode register 1
7
7
ICMR2
8
8
2 to 3 PCLK
2
ICMR3
8
8
2 to 3 PCLK *
2
ICFER
8
8
2 to 3 PCLK *
2
ICSER
8
8
2 to 3 PCLK *
2
ICIER
8
8
2 to 3 PCLK *
I C bus mode register 2
I C bus mode register 3
RIIC1
I C bus function enable register
0008 8326h
RIIC1
I C bus status enable register
0008 8327h
RIIC1
I C bus interrupt enable register
RIIC1
*7
2
0008 8325h
0008 8328h
7
8
0008 8322h
RIIC1
7
ICCR1
I C bus control register 2
0008 8324h
7
2
I C bus control register 1
RIIC1
RIIC1
7
2
0008 8321h
0008 8323h
Number
7
7
7
7
2
ICSR1
8
8
2 to 3 PCLK
2
I C bus status register 1
*7
*7
7
0008 8329h
RIIC1
I C bus status register 2
ICSR2
8
8
2 to 3 PCLK *
0008 832Ah
RIIC1
Slave address register L0
SARL0
8
8
2 to 3 PCLK *
7
*7
0008 832Bh
RIIC1
Slave address register U0
SARU0
8
8
2 to 3 PCLK
0008 832Ch
RIIC1
Slave address register L1
SARL1
8
8
2 to 3 PCLK *
0008 832Dh
RIIC1
Slave address register U1
SARU1
8
8
2 to 3 PCLK *
0008 832Eh
RIIC1
Slave address register L2
SARL2
8
8
2 to 3 PCLK *
0008 832Fh
RIIC1
Slave address register U2
SARU2
8
8
2 to 3 PCLK *
0008 8330h
RIIC1
7
7
7
7
2
ICBRL
8
8
2 to 3 PCLK
2
ICBRH
8
8
2 to 3 PCLK *
2
ICDRT
8
8
2 to 3 PCLK *
I C bus bit rate low-level register
0008 8331h
RIIC1
I C bus bit rate high-level register
0008 8332h
RIIC1
I C bus transmit data register
2
*7
7
7
*7
0008 8333h
RIIC1
I C bus receive data register
ICDRR
8
8
2 to 3 PCLK
0008 C000h
P0
Data direction register
DDR
8
8
2 to 3 PCLK *
0008 C001h
P1
Data direction register
DDR
8
8
2 to 3 PCLK *
0008 C002h
P2
Data direction register
DDR
8
8
2 to 3 PCLK *
0008 C003h
P3
Data direction register
DDR
8
8
2 to 3 PCLK *
7
7
7
7
*7
0008 C004h
P4
Data direction register
DDR
8
8
2 to 3 PCLK
0008 C005h
P5
Data direction register
DDR
8
8
2 to 3 PCLK *
0008 C006h
P6
Data direction register
DDR
8
8
2 to 3 PCLK *
7
7
*7
0008 C007h
P7
Data direction register
DDR
8
8
2 to 3 PCLK
0008 C008h
P8
Data direction register
DDR
8
8
2 to 3 PCLK *
0008 C009h
P9
Data direction register
DDR
8
8
2 to 3 PCLK *
0008 C00Ah
PA
Data direction register
DDR
8
8
2 to 3 PCLK *
0008 C00Bh
PB
Data direction register
DDR
8
8
2 to 3 PCLK *
7
7
7
7
*7
0008 C00Ch
PC
Data direction register
DDR
8
8
2 to 3 PCLK
0008 C00Dh
PD
Data direction register
DDR
8
8
2 to 3 PCLK *
0008 C00Eh
PE
Data direction register
DDR
8
8
2 to 3 PCLK *
7
7
*7
0008 C00Fh
PF
Data direction register
DDR
8
8
2 to 3 PCLK
0008 C010h
PG
Data direction register
DDR
8
8
2 to 3 PCLK *
0008 C011h
PH
Data direction register
DDR
8
8
2 to 3 PCLK *
0008 C020h
P0
Data register
DR
8
8
2 to 3 PCLK *
0008 C021h
P1
Data register
DR
8
8
2 to 3 PCLK *
0008 C022h
P2
R01DS0097EJ0100 Rev.1.00
Apr 22, 2011
Data register
DR
8
8
7
7
7
7
2 to 3 PCLK
Page 50 of 83
*7
RX610 Group
4. I/O Registers
Number of
Module
Register
Access
Access
Address
Abbreviation Register Name
Abbreviation of Bits
Number
Size
Cycles
0008 C023h
P3
Data register
DR
8
8
2 to 3 PCLK *
0008 C024h
P4
Data register
DR
8
8
2 to 3 PCLK *
0008 C025h
P5
Data register
DR
8
8
2 to 3 PCLK *
0008 C026h
P6
Data register
DR
8
8
2 to 3 PCLK *
7
7
7
7
*7
0008 C027h
P7
Data register
DR
8
8
2 to 3 PCLK
0008 C028h
P8
Data register
DR
8
8
2 to 3 PCLK *
0008 C029h
P9
Data register
DR
8
8
2 to 3 PCLK *
7
7
*7
0008 C02Ah
PA
Data register
DR
8
8
2 to 3 PCLK
0008 C02Bh
PB
Data register
DR
8
8
2 to 3 PCLK *
0008 C02Ch
PC
Data register
DR
8
8
2 to 3 PCLK *
0008 C02Dh
PD
Data register
DR
8
8
2 to 3 PCLK *
0008 C02Eh
PE
Data register
DR
8
8
2 to 3 PCLK *
7
7
7
7
*7
0008 C02Fh
PF
Data register
DR
8
8
2 to 3 PCLK
0008 C030h
PG
Data register
DR
8
8
2 to 3 PCLK *
0008 C031h
PH
Data register
DR
8
8
2 to 3 PCLK *
7
7
*7
0008 C040h
P0
Port register
PORT
8
8
2 to 3 PCLK
0008 C041h
P1
Port register
PORT
8
8
2 to 3 PCLK *
7
*7
0008 C042h
P2
Port register
PORT
8
8
2 to 3 PCLK
0008 C043h
P3
Port register
PORT
8
8
2 to 3 PCLK *
0008 C044h
P4
Port register
PORT
8
8
2 to 3 PCLK *
7
7
*7
0008 C045h
P5
Port register
PORT
8
8
2 to 3 PCLK
0008 C046h
P6
Port register
PORT
8
8
2 to 3 PCLK *
0008 C047h
P7
Port register
PORT
8
8
2 to 3 PCLK *
7
7
*7
0008 C048h
P8
Port register
PORT
8
8
2 to 3 PCLK
0008 C049h
P9
Port register
PORT
8
8
2 to 3 PCLK *
7
*7
0008 C04Ah
PA
Port register
PORT
8
8
2 to 3 PCLK
0008 C04Bh
PB
Port register
PORT
8
8
2 to 3 PCLK *
0008 C04Ch
PC
Port register
PORT
8
8
2 to 3 PCLK *
7
7
*7
0008 C04Dh
PD
Port register
PORT
8
8
2 to 3 PCLK
0008 C04Eh
PE
Port register
PORT
8
8
2 to 3 PCLK *
0008 C04Fh
PF
Port register
PORT
8
8
2 to 3 PCLK *
7
7
*7
0008 C050h
PG
Port register
PORT
8
8
2 to 3 PCLK
0008 C051h
PH
Port register
PORT
8
8
2 to 3 PCLK *
0008 C060h
P0
Input buffer control register
ICR
8
8
2 to 3 PCLK *
0008 C061h
P1
Input buffer control register
ICR
8
8
2 to 3 PCLK *
0008 C062h
P2
Input buffer control register
ICR
8
8
2 to 3 PCLK *
7
7
7
7
*7
0008 C063h
P3
Input buffer control register
ICR
8
8
2 to 3 PCLK
0008 C064h
P4
Input buffer control register
ICR
8
8
2 to 3 PCLK *
0008 C065h
P5
Input buffer control register
ICR
8
8
2 to 3 PCLK *
7
7
*7
0008 C066h
P6
Input buffer control register
ICR
8
8
2 to 3 PCLK
0008 C067h
P7
Input buffer control register
ICR
8
8
2 to 3 PCLK *
0008 C068h
P8
Input buffer control register
ICR
8
8
2 to 3 PCLK *
0008 C069h
P9
Input buffer control register
ICR
8
8
2 to 3 PCLK *
0008 C06Ah
PA
Input buffer control register
ICR
8
8
2 to 3 PCLK *
0008 C06Bh
PB
R01DS0097EJ0100 Rev.1.00
Apr 22, 2011
Input buffer control register
ICR
8
8
7
7
7
7
2 to 3 PCLK
Page 51 of 83
*7
RX610 Group
4. I/O Registers
Number of
Module
Register
Access
Access
Address
Abbreviation Register Name
Abbreviation of Bits
Number
Size
Cycles
0008 C06Ch
PC
Input buffer control register
ICR
8
8
2 to 3 PCLK *
0008 C06Dh
PD
Input buffer control register
ICR
8
8
2 to 3 PCLK *
0008 C06Eh
PE
Input buffer control register
ICR
8
8
2 to 3 PCLK *
0008 C06Fh
PF
Input buffer control register
ICR
8
8
2 to 3 PCLK *
7
7
7
7
*7
0008 C070h
PG
Input buffer control register
ICR
8
8
2 to 3 PCLK
0008 C071h
PH
Input buffer control register
ICR
8
8
2 to 3 PCLK *
0008 C082h
P2
Open drain control register
ODR
8
8
2 to 3 PCLK *
7
7
*7
0008 C08Ch
PC
Open drain control register
ODR
8
8
2 to 3 PCLK
0008 C0CAh
PA
Pull-Up resistor control register
PCR
8
8
2 to 3 PCLK *
0008 C0CBh
PB
Pull-Up resistor control register
PCR
8
8
2 to 3 PCLK *
0008 C0CCh
PC
Pull-Up resistor control register
PCR
8
8
2 to 3 PCLK *
0008 C0CDh
PD
Pull-Up resistor control register
PCR
8
8
2 to 3 PCLK *
7
7
7
7
*7
0008 C0CEh
PE
Pull-Up resistor control register
PCR
8
8
2 to 3 PCLK
0008 C100h
I/O PORT
Port function control register 0
PFCR0
8
8
2 to 3 PCLK *
0008 C101h
I/O PORT
Port function control register 1
PFCR1
8
8
2 to 3 PCLK *
7
7
*7
0008 C102h
I/O PORT
Port function control register 2
PFCR2
8
8
2 to 3 PCLK
0008 C103h
I/O PORT
Port function control register 3
PFCR3
8
8
2 to 3 PCLK *
0008 C104h
I/O PORT
Port function control register 4
PFCR4
8
8
2 to 3 PCLK *
0008 C105h
I/O PORT
Port function control register 5
PFCR5
8
8
2 to 3 PCLK *
0008 C106h
I/O PORT
Port function control register 6
PFCR6
8
8
2 to 3 PCLK *
7
7
7
7
*7
0008 C107h
I/O PORT
Port function control register 7
PFCR7
8
8
2 to 3 PCLK
0008 C108h
I/O PORT
Port function control register 8
PFCR8
8
8
2 to 3 PCLK *
0008 C109h
I/O PORT
Port function control register 9
PFCR9
8
8
2 to 3 PCLK *
7
7
*7
0008 C280h
SYSTEM
Deep standby control register
DPSBYCR
8
8
4 to 5 PCLK
0008 C281h
SYSTEM
Deep standby wait control register
DPSWCR
8
8
4 to 5 PCLK *
0008 C282h
SYSTEM
Deep standby interrupt enable register
DPSIER
8
8
4 to 5 PCLK *
0008 C283h
SYSTEM
Deep standby interrupt flag register
DPSIFR
8
8
4 to 5 PCLK *
0008 C284h
SYSTEM
Deep standby interrupt edge register
DPSIEGR
8
8
4 to 5 PCLK *
7
7
7
7
*7
0008 C285h
SYSTEM
Reset status register
RSTSR
8
8
4 to 5 PCLK
0008 C289h
FLASH
Flash write erase protection register
FWEPROR
8
8
4 to 5 PCLK *
0008 C290h
SYSTEM
Deep standby backup register 0
DPSBKR0
8
8
4 to 5 PCLK *
7
7
*7
0008 C291h
SYSTEM
Deep standby backup register 1
DPSBKR1
8
8
4 to 5 PCLK
0008 C292h
SYSTEM
Deep standby backup register 2
DPSBKR2
8
8
4 to 5 PCLK *
0008 C293h
SYSTEM
Deep standby backup register 3
DPSBKR3
8
8
4 to 5 PCLK *
0008 C294h
SYSTEM
Deep standby backup register 4
DPSBKR4
8
8
4 to 5 PCLK *
0008 C295h
SYSTEM
Deep standby backup register 5
DPSBKR5
8
8
4 to 5 PCLK *
7
7
7
7
*7
0008 C296h
SYSTEM
Deep standby backup register 6
DPSBKR6
8
8
4 to 5 PCLK
0008 C297h
SYSTEM
Deep standby backup register 7
DPSBKR7
8
8
4 to 5 PCLK *
0008 C298h
SYSTEM
Deep standby backup register 8
DPSBKR8
8
8
4 to 5 PCLK *
7
7
*7
0008 C299h
SYSTEM
Deep standby backup register 9
DPSBKR9
8
8
4 to 5 PCLK
0008 C29Ah
SYSTEM
Deep standby backup register 10
DPSBKR10
8
8
4 to 5 PCLK *
0008 C29Bh
SYSTEM
Deep standby backup register 11
DPSBKR11
8
8
4 to 5 PCLK *
0008 C29Ch
SYSTEM
Deep standby backup register 12
DPSBKR12
8
8
4 to 5 PCLK
*7
0008 C29Dh
SYSTEM
Deep standby backup register 13
DPSBKR13
8
8
4 to 5 PCLK
*7
0008 C29Eh
SYSTEM
Deep standby backup register 14
DPSBKR14
8
8
4 to 5 PCLK *
R01DS0097EJ0100 Rev.1.00
Apr 22, 2011
7
7
7
Page 52 of 83
RX610 Group
4. I/O Registers
Number of
Module
Register
Access
Access
Address
Abbreviation Register Name
Abbreviation of Bits
Number
Size
Cycles
0008 C29Fh
SYSTEM
Deep standby backup register 15
DPSBKR15
8
8
4 to 5 PCLK *
0008 C2A0h
SYSTEM
Deep standby backup register 16
DPSBKR16
8
8
4 to 5 PCLK *
0008 C2A1h
SYSTEM
Deep standby backup register 17
DPSBKR17
8
8
4 to 5 PCLK *
0008 C2A2h
SYSTEM
Deep standby backup register 18
DPSBKR18
8
8
4 to 5 PCLK *
7
7
7
7
*7
0008 C2A3h
SYSTEM
Deep standby backup register 19
DPSBKR19
8
8
4 to 5 PCLK
0008 C2A4h
SYSTEM
Deep standby backup register 20
DPSBKR20
8
8
4 to 5 PCLK *
0008 C2A5h
SYSTEM
Deep standby backup register 21
DPSBKR21
8
8
4 to 5 PCLK *
7
7
*7
0008 C2A6h
SYSTEM
Deep standby backup register 22
DPSBKR22
8
8
4 to 5 PCLK
0008 C2A7h
SYSTEM
Deep standby backup register 23
DPSBKR23
8
8
4 to 5 PCLK *
0008 C2A8h
SYSTEM
Deep standby backup register 24
DPSBKR24
8
8
4 to 5 PCLK *
0008 C2A9h
SYSTEM
Deep standby backup register 25
DPSBKR25
8
8
4 to 5 PCLK *
0008 C2AAh
SYSTEM
Deep standby backup register 26
DPSBKR26
8
8
4 to 5 PCLK *
7
7
7
7
*7
0008 C2ABh
SYSTEM
Deep standby backup register 27
DPSBKR27
8
8
4 to 5 PCLK
0008 C2ACh
SYSTEM
Deep standby backup register 28
DPSBKR28
8
8
4 to 5 PCLK *
0008 C2ADh
SYSTEM
Deep standby backup register 29
DPSBKR29
8
8
4 to 5 PCLK *
7
7
*7
0008 C2AEh
SYSTEM
Deep standby backup register 30
DPSBKR30
8
8
4 to 5 PCLK
0008 C2AFh
SYSTEM
Deep standby backup register 31
DPSBKR31
8
8
4 to 5 PCLK *
0008 C300h
ICU
IRQ detection enable registrar 0
IRQER0
8
8
2 to 3 PCLK *
0008 C301h
ICU
IRQ detection enable registrar 1
IRQER1
8
8
2 to 3 PCLK *
0008 C302h
ICU
IRQ detection enable registrar 2
IRQER2
8
8
2 to 3 PCLK *
7
7
7
7
*7
0008 C303h
ICU
IRQ detection enable registrar 3
IRQER3
8
8
2 to 3 PCLK
0008 C304h
ICU
IRQ detection enable registrar 4
IRQER4
8
8
2 to 3 PCLK *
0008 C305h
ICU
IRQ detection enable registrar 5
IRQER5
8
8
2 to 3 PCLK *
7
7
*7
0008 C306h
ICU
IRQ detection enable registrar 6
IRQER6
8
8
2 to 3 PCLK
0008 C307h
ICU
IRQ detection enable registrar 7
IRQER7
8
8
2 to 3 PCLK *
7
*7
0008 C308h
ICU
IRQ detection enable registrar 8
IRQER8
8
8
2 to 3 PCLK
0008 C309h
ICU
IRQ detection enable registrar 9
IRQER9
8
8
2 to 3 PCLK *
0008 C30Ah
ICU
IRQ detection enable registrar 10
IRQER10
8
8
2 to 3 PCLK *
7
7
*7
0008 C30Bh
ICU
IRQ detection enable registrar 11
IRQER11
8
8
2 to 3 PCLK
0008 C30Ch
ICU
IRQ detection enable registrar 12
IRQER12
8
8
2 to 3 PCLK *
0008 C30Dh
ICU
IRQ detection enable registrar 13
IRQER13
8
8
2 to 3 PCLK *
7
7
*7
0008 C30Eh
ICU
IRQ detection enable registrar 14
IRQER14
8
8
2 to 3 PCLK
0008 C30Fh
ICU
IRQ detection enable registrar 15
IRQER15
8
8
2 to 3 PCLK *
0008 C320h
ICU
IRQ control register 0
IRQCR0
8
8
2 to 3 PCLK *
0008 C321h
ICU
IRQ control register 1
IRQCR1
8
8
2 to 3 PCLK *
0008 C322h
ICU
IRQ control register 2
IRQCR2
8
8
2 to 3 PCLK *
7
7
7
7
*7
0008 C323h
ICU
IRQ control register 3
IRQCR3
8
8
2 to 3 PCLK
0008 C324h
ICU
IRQ control register 4
IRQCR4
8
8
2 to 3 PCLK *
0008 C325h
ICU
IRQ control register 5
IRQCR5
8
8
2 to 3 PCLK *
7
7
*7
0008 C326h
ICU
IRQ control register 6
IRQCR6
8
8
2 to 3 PCLK
0008 C327h
ICU
IRQ control register 7
IRQCR7
8
8
2 to 3 PCLK *
0008 C328h
ICU
IRQ control register 8
IRQCR8
8
8
2 to 3 PCLK *
0008 C329h
ICU
IRQ control register 9
IRQCR9
8
8
2 to 3 PCLK *
0008 C32Ah
ICU
IRQ control register 10
IRQCR10
8
8
2 to 3 PCLK *
0008 C32Bh
ICU
R01DS0097EJ0100 Rev.1.00
Apr 22, 2011
IRQ control register 11
IRQCR11
8
8
7
7
7
7
2 to 3 PCLK
Page 53 of 83
*7
RX610 Group
4. I/O Registers
Number of
Module
Register
Access
Access
Address
Abbreviation Register Name
Abbreviation of Bits
Number
Size
Cycles
0008 C32Ch
ICU
IRQ control register 12
IRQCR12
8
8
2 to 3 PCLK *
0008 C32Dh
ICU
IRQ control register 13
IRQCR13
8
8
2 to 3 PCLK *
0008 C32Eh
ICU
IRQ control register 14
IRQCR14
8
8
2 to 3 PCLK *
0008 C32Fh
ICU
IRQ control register 15
IRQCR15
8
8
2 to 3 PCLK *
7
7
7
7
*7
0008 C340h
ICU
Software standby release IRQ enable register
SSIER
16
16
2 to 3 PCLK
0008 C350h
ICU
Non-maskable interrupt enable register
NMIER
8
8
2 to 3 PCLK *
0008 C351h
ICU
NMI pin interrupt control register
NMICR
8
8
2 to 3 PCLK *
7
7
*7
0008 C352h
ICU
Non-maskable interrupt status register
NMISR
8
8
2 to 3 PCLK
0008 C353h
ICU
Non-maskable interrupt clear register
NMICLR
8
8
2 to 3 PCLK *
007F C402h
FLASH
Flash mode register
FMODR
8
8
2 to 3 PCLK *
007F C410h
FLASH
Flash access status register
FASTAT
8
8
2 to 3 PCLK *
007F C411h
FLASH
Flash access error interrupt enable register
FAEINT
8
8
2 to 3 PCLK *
7
7
7
7
*7
007F C412h
FLASH
Flash ready interrupt enable register
FRDYIE
8
8
2 to 3 PCLK
007F C440h
FLASH
Data flash read enable register
DFLRE
16
16
2 to 3 PCLK *
007F C450h
FLASH
Data flash programming/erasure enable register
DFLWE
16
16
2 to 3 PCLK *
7
7
*7
007F C454h
FLASH
FCU RAM enable register
FCURAME
16
16
2 to 3 PCLK
007F FFB0h
FLASH
Flash status register 0
FSTATR0
8
8
2 to 3 PCLK *
007F FFB1h
FLASH
Flash status register 1
FSTATR1
8
8
2 to 3 PCLK *
007F FFB2h
FLASH
Flash P/E mode entry register
FENTRYR
16
16
2 to 3 PCLK *
007F FFB4h
FLASH
Flash protection register
FPROTR
16
16
2 to 3 PCLK *
7
7
7
7
*7
007F FFB6h
FLASH
Flash reset register
FRESETR
16
16
2 to 3 PCLK
007F FFBAh
FLASH
FCU command register
FCMDR
16
16
2 to 3 PCLK *
007F FFC8h
FLASH
FCU processing switching register
FCPSR
16
16
2 to 3 PCLK *
7
7
*7
007F FFCAh
FLASH
Data flash blank check control register
DFLBCCNT
16
16
2 to 3 PCLK
007F FFCCh
FLASH
Flash P/E status register
FPESTAT
16
16
2 to 3 PCLK *
007F FFCEh
FLASH
Data flash blank check status register
DFLBCSTAT
16
16
2 to 3 PCLK *
007F FFE8h
FLASH
Peripheral clock notification register
PCKAR
16
16
2 to 3 PCLK *
Notes:
1.
7
7
7
When the same output trigger is specified for pulse output groups 2 and 3 by the PPG0.PCR setting, the PPG0.NDRH
address is 000881ECh. When different output triggers are specified, the PPG0.NDRH addresses for pulse output groups
2 and 3 are 000881EEh and 000881ECh, respectively.
2.
When the same output trigger is specified for pulse output groups 0 and 1 by the PPG0.PCR setting, the PPG0.NDRL
address is 000881EDh. When different output triggers are specified, the PPG0.NDRL addresses for pulse output groups
0 and 1 are 000881EFh and 000881EDh, respectively.
3.
When the same output trigger is specified for pulse output groups 6 and 7 by the PPG1.PCR setting, the PPG1.NDRH
address is 000881FCh. When different output triggers are specified, the PPG1.NDRH addresses for pulse output groups
6 and 7 are 000881FEh and 000881FCh, respectively.
4.
When the same output trigger is specified for pulse output groups 4 and 5 by the PPG1.PCR setting, the PPG1.NDRL
address is 000881FDh. When different output triggers are specified, the PPG1.NDRL addresses for pulse output groups
4 and 5 are 000881FFh and 000881FDh, respectively.
5.
16-bit access to odd addresses is proh bited. When 16-bit access is required, access is at the address corresponding to
TMR0 or TMR2.
6.
7.
For certain bits, functions differ according to whether the mode is serial communications or smart card interface.
The number of access cycles varies depending on the number of divided cycles for clock synchronization (0 to one
PCLK).
8.
The number of access cycles may be 5 ICLK if the register is accessed during the DMAC operation.
R01DS0097EJ0100 Rev.1.00
Apr 22, 2011
Page 54 of 83
RX610 Group
5. Electrical Characteristics
5.
Electrical Characteristics
5.1
Absolute Maximum Ratings
Table 5.1
Absolute Maximum Ratings
Item
Symbol
Value
Unit
Power supply voltage
VCC, PLLVCC
-0.3 to +4.6
V
Vin
-0.3 to VCC +0.3
V
Input voltage (ports 0, 14 to 17* )
Vin
-0.3 to +6.5
V
Reference power supply voltage
VREFH
-0.3 to VCC +0.3
V
Analog power supply voltage
AVCC*
-0.3 to +4.6
V
Analog input voltage
VAN
-0.3 to VCC +0.3
V
Operating temperature
Topr
Regular specifications: -20 to +85
Input voltage (except for ports 0, 14 to 17)
1
2
C
Wide-range specifications: -40 to +85
Storage temperature
Tstg
-55 to +125
Caution:
Permanent damage to the LSI may result if absolute maximum ratings are exceeded.
Notes: 1.
Ports 0, and 14 to 17 are 5 V tolerant.
2.
C
Connect AVCC to VCC. When neither the A/D converter nor the D/A converter is in use, do not leave the AVSS, VREFH, and VREFL
pins open. Connect the AVCC and VREFH pins to VCC, and the AVSS and VREFL pins to VSS, respectively.
R01DS0097EJ0100 Rev.1.00
Apr 22, 2011
Page 55 of 83
RX610 Group
5.2
Table 5.2
5. Electrical Characteristics
DC Characteristics
DC Characteristics
Conditions: VCC = PLLVCC = AVCC = 3.0 to 3.6 V, VREFH = 3.0 V to AVCC, VSS = PLLVSS = VREFL = 0 V
Ta = -20 to +85C (regular specifications), Ta = -40 to +85C (wide-range specifications)
Item
Schmitt trigger input
voltage
Symbol
Min.
Typ.
Max.
Unit
VIH
VCC x 0.8

VCC + 0.3
V
VIL
-0.3

VCC x 0.2
ΔVT
VCC x 0.06


VIH
VCC x 0.7

5.8
VIL
-0.3

VCC x 0.3
ΔVT
VCC x 0.05


VIH
VCC x 0.8

5.8
VIL
-0.3

VCC x 0.2
Ports 10 to 13,
VIH
VCC x 0.8

VCC + 0.3
ports 2 to E (144-pin LQFP)
VIL
-0.3

VCC x 0.2
VIH
VCC x 0.9

VCC + 0.3
IRQ input pin*
1
TPU input pin*
1
TMR input pin*
SCI input pin*
1
Test Conditions
1
ADTRG# input pin*
1
RES#, NMI
RIIC input pin
Ports 0, 14 to 17*
2
ports 2 to H (176-pin LFBGA)
Other input pins
Input high voltage
MD pin, EMLE
(except Schmitt
EXTAL
VCC x 0.8

VCC + 0.3
D0 to D15
VCC x 0.7

VCC + 0.3
-0.3

VCC x 0.1
trigger input pin)
Input low voltage
MD pin, EMLE
(except Schmitt
EXTAL
-0.3

VCC x 0.2
D0 to D15
-0.3

VCC x 0.3
trigger input pin)
VIL
V
V
Output high voltage
All output pins
VOH
VCC-0.5


V
IOH = -1 mA
Output low voltage
All output pins (except for RIIC pins)
VOL


0.5
V
IOL = 1.0 mA


0.4
IOL = 3.0 mA


0.6
IOL = 6.0 mA


0.4
IOL = 15 mA
RIIC pins
RIIC pins (only P14 and P15
in channel 1)
(ICFER.FMPE = 1)

0.4

IOL = 20 mA
(ICFER.FMPE = 1)
Input leakage current RES#, MD pin, EMLE, NMI
Iin


1.0
μA
Vin = 0 V, VCC
Three-state leakage
Ports 10 to 13,
ITSI


1.0
μA
Vin = 0 V, VCC
current (off state)
ports 2 to E (144-pin LQFP)


5.0
ports 2 to H (176-pin LFBGA)
Port 0, ports 14 to 17
R01DS0097EJ0100 Rev.1.00
Apr 22, 2011
Page 56 of 83
RX610 Group
5. Electrical Characteristics
Item
Input pull-up resistor
Ports A to E
Symbol
Min.
Typ.
Max.
Unit
Test Conditions
-Ip
10

300
μA
VCC = 3.0 to 3.6 V,
current
Vin = 0 V
Input capacitance
All input pins

Cin

15
pF
(except port 0, ports 14 to 17)
Ta= 25 C


30


100
Normal*6

35

PCLK = 50 MHz
Increased by BGO

15

BCLK = 25 MHz
Sleep

18
52
All-module-clock-stop mode*8

14
28
Standby Software standby mode

0.08
3.0
mode
Port 0, ports 14 to 17
Supply current*3
Vin = 0 V,
f = 1 MHz,
In operation
Max.*4
ICC*
5
mA
ICLK = 100 MHz
operation*7
Deep software
RAM retained

15
200
standby mode
RAM power

0.9
26

0.8
1.2
mA
During D/A conversion (per unit)

0.3
1.0
μA
Idle (all units)

0.3
1.0
Reference power
During A/D conversion (per unit)

0.06
0.1
supply current
During D/A conversion (per unit)

0.4
0.6
Idle (all units)

0.3
1.0
μA
VRAM
2.5


V
VCCSTART


0.8
V
SVCC


20
ms/V
μA
supply halted
Analog power supply During A/D conversion (per unit)
current
RAM standby voltage
VCC start voltage*
9
VCC rising gradient*
Notes:
9
AICC
mA
1.
This does not include the pins, which are multiplexed as ports 0, and 14 to 17 for 5 V tolerant.
2.
This includes the multiplexed pins, but RIIC input pins for ports 14 to 17 are excluded.
3.
Supply current values are with all output pins unloaded, all input pins for VIH = VCC and VIL= 0 V, and all input pull-up
resistors in the off state.
4.
Measured with clocks supplied to the peripheral functions. This does not include the BGO operation.
5.
ICC depends on f (ICLK) as follows. (ICLK : PCLK : BCLK = 8 : 4: 2)
ICC max. = 0.89 x f + 11 (max.)
ICC typ. = 0.30 x f + 5 (normal operation)
ICC max. = 0.41 x f + 11 (sleep mode)
6.
Measured with clocks not supplied to the peripheral functions. This does not include the BGO operation.
7.
Incremented if data is written to or erased from the ROM or data flash for data storage during the program execution.
8.
The values are for reference.
9.
This can be applied when the RES# pin is held low at power-on.
R01DS0097EJ0100 Rev.1.00
Apr 22, 2011
Page 57 of 83
RX610 Group
Table 5.3
5. Electrical Characteristics
Permissible Output Currents
Conditions: VCC = PLLVCC = AVCC = 3.0 to 3.6 V, VREFH = 3.0 V to AVCC, VSS = PLLVSS = VREFL = 0 V
Ta = -20 to +85C (regular specifications), Ta = -40 to +85C (wide-range specifications)
Item
Permissible output low current (average value per pin)
All output pins except
Symbol
Min.
Typ.
Max.
Unit
IOL


2.0
mA
IOL


6.0
mA
IOL


20.0
mA
IOL


4.0
mA
IOL


6.0
mA
IOL


20.0
mA
for RIIC pins
RIIC pins
(ICFER.FMPE = 0)
RIIC pins
(ICFER.FMPE = 1)
Permissible output low current (max. value per pin)
All output pins except
for RIIC pins
RIIC pins
(ICFER.FMPE = 0)
RIIC pins
(ICFER.FMPE = 1)
Permissible output low current (total)
Total of all output pins
ΣIOL


80
mA
Permissible output high current (average value per
All output pins
-IOH


2.0
mA
Permissible output high current (max. value per pin)
All output pins
-IOH


4.0
mA
Permissible output high current (total)
Total of all output pins
Σ-IOH


80
mA
pin)
Caution: To protect the LSI's reliability, do not exceed the output current values in table 29.3.
R01DS0097EJ0100 Rev.1.00
Apr 22, 2011
Page 58 of 83
RX610 Group
5.3
Table 5.4
5. Electrical Characteristics
AC Characteristics
Operation Frequency Value
Conditions: VCC = PLLVCC = AVCC = 3.0 to 3.6 V, VREFH = 3.0 V to AVCC, VSS = PLLVSS = VREFL = 0 V
Ta = -20 to +85C (regular specifications), Ta = -40 to +85C (wide-range specifications)
Item
Symbol
Min.
Typ.
Max.
Unit
f
8

100
MHz
Operation
System clock (ICLK)
frequency
Peripheral module clock (PCLK)
8

50
External bus clock (BCLK)
8

25
5.3.1
Table 5.5
Clock Timing
Clock Timing
Conditions: VCC = PLLVCC = AVCC = 3.0 to 3.6 V, VREFH = 3.0 V to AVCC, VSS = PLLVSS = VREFL = 0 V
ICLK = 8 to 100 MHz, BCLK = 8 to 25 MHz, PCLK = 8 to 50 MHz
Ta = -20 to +85C (regular specifications), Ta = -40 to +85C (wide-range specifications)
Item
Symbol
Min.
Max.
Unit
Test Conditions
Clock cycle time
tcyc
40
125
ns
Figure 5.1
Clock high pulse width
tCH
15

ns
Clock low pulse width
tCL
15

ns
Clock rising time
tCr

5
ns
Clock falling time
tCf

5
ns
Oscillation settling time after reset (crystal)
tOSC1
10

ms
Figure 5.4
Oscillation settling time after leaving software
standby mode (crystal)
Oscillation settling time after leaving deep software
standby mode (crystal)
tOSC2
10

ms
Figure 5.2
tOSC3
10

ms
Figure 5.3
External clock output delay settling time
tDEXT
1

ms
Figure 5.4
External clock input low pulse width
tEXL
30.71

ns
Figure 5.5
External clock input high pulse width
tEXH
30.71

ns
External clock rising time
tEXr

5
ns
External clock falling time
tEXf

5
ns
Figure 5.1
R01DS0097EJ0100 Rev.1.00
Apr 22, 2011
External Bus Clock Timing
Page 59 of 83
RX610 Group
5. Electrical Characteristics
Oscillator
ICLK
IRQ
IRQMD[1:0]
01
10
SSIER.SSIi
SSBY
IRQ exception
handling
IRQMD[1:0] = 10b
SSBY = 1
WAIT instruction
Figure 5.2
R01DS0097EJ0100 Rev.1.00
Apr 22, 2011
Software standby mode
(power-down mode)
IRQ exception
handling
Oscillation
settling time
tOSC2
Oscillation Settling Timing after Software Standby Mode
Page 60 of 83
RX610 Group
5. Electrical Characteristics
Figure 5.3
R01DS0097EJ0100 Rev.1.00
Apr 22, 2011
Oscillation Settling Timing after Deep Software Standby Mode
Page 61 of 83
RX610 Group
5. Electrical Characteristics
Figure 5.4
Figure 5.5
R01DS0097EJ0100 Rev.1.00
Apr 22, 2011
Oscillation Settling Timing
External Input Clock Timing
Page 62 of 83
RX610 Group
5.3.2
Table 5.6
5. Electrical Characteristics
Control Signal Timing
Control Signal Timing
Conditions: VCC = PLLVCC = AVCC = 3.0 to 3.6 V, VREFH = 3.0 V to AVCC, VSS = PLLVSS = VREFL = 0 V
ICLK = 8 to 100 MHz, BCLK = 8 to 25 MHz
Ta = -20 to +85C (regular specifications), Ta = -40 to +85C (wide-range specifications)
Test
Item
Symbol
RES# pulse width (except for ROM, data flash
tRESW*
1
programming/erasure)
Internal reset time (during ROM, data flash
tRESW2*
2
Min.
Max.
Unit
Conditions
20

tcyc
Figure 5.6
1.5

s
35

s
programming/erasure)
NMI pulse width
tNMIW
200

ns
Figure 5.7
IRQ pulse width
tIRQW
200

ns
Figure 5.8
Notes: 1. Both the time and the number of cycles should satisfy the specifications.
2. This is to specify the FCU reset and the WDT reset.
RES#
tRESW
Figure 5.6
Figure 5.7
Reset Input Timing
NMI Interrupt Input Timing
IRQ
t RQW
Note: * SSIER must be set to cancel software standby mode.
Figure 5.8
R01DS0097EJ0100 Rev.1.00
Apr 22, 2011
IRQ Interrupt Input Timing
Page 63 of 83
RX610 Group
5.3.3
Table 5.7
5. Electrical Characteristics
Bus Timing
Bus Timing
Conditions: VCC = PLLVCC = AVCC = 3.0 to 3.6 V, VREFH = 3.0 V to AVCC, VSS = PLLVSS = VREFL = 0 V, BCLK = 8 to 25 MHz
Ta = -20 to +85C (regular specifications), Ta = -40 to +85C (wide-range specifications)
Output load conditions: VOH = VCC x 0.5, VOL = VCC x 0.5, IOH = -1.0 mA, IOL = 1.0 mA, C = 30 pF
Item
Symbol
Min.
Max.
Unit
Test Conditions
Figures 29.9 to 29.12
Address delay time
tAD

30
ns
Byte control delay time
tBCD

30
ns
CS# delay time
tCSD

30
ns
RD# delay time
tRSD

20
ns
RD# setup time
tRSS
0.5 × (1/BCLK) - 20

ns
Read data setup time
tRDS
15

ns
Read data hold time
tRDH
0

ns
WR# delay time
tWRD

20
ns
WR# setup time
tWRS
0.5 × (1/BCLK) - 20

ns
Write data delay time
tWDD

35
ns
Write data hold time
tWDH
0

ns
WAIT# setup time
tWTS
15

ns
WAIT# hold time
tWTH
0

ns
R01DS0097EJ0100 Rev.1.00
Apr 22, 2011
Figure 5.13
Page 64 of 83
RX610 Group
5. Electrical Characteristics
Figure 5.9
R01DS0097EJ0100 Rev.1.00
Apr 22, 2011
External Bus Timing/Normal Read Cycle (Bus Clock Synchronized)
Page 65 of 83
RX610 Group
5. Electrical Characteristics
Figure 5.10
R01DS0097EJ0100 Rev.1.00
Apr 22, 2011
External Bus Timing/Normal Write Cycle (Bus Clock Synchronized)
Page 66 of 83
RX610 Group
5. Electrical Characteristics
Figure 5.11
External Bus Timing/Page Read Cycle (Bus Clock Synchronized)
CSPWWAIT: 2
CSWWAIT: 2
CSON:0 TW1
CSPWWAIT: 2
WRON: 1
WDOFF: 1* WDON: 1*
WRON: 1
WDON: 1*
TW2
Tend
Tdw1
Tpw1
WRON: 1
WDOFF: 1* WDON: 1*
Tpw2
Tend
Tdw1
Tpw1
CSWOFF: 1
WDOFF: 1*
Tpw2
Tend
Tn1
Th
BCLK
Byte write strobe mode
tAD
tAD
tAD
tAD
tAD
tAD
tAD
tAD
A23 to A0
1-write strobe mode
A23 to A1
tBCD
tBCD
tCSD
tCSD
BC1#, BC0#
Common to both byte write strobe
mode and 1-write strobe mode
CS7# to CS0#
tWRD
tWRD
tWRS
tWRD
tWRS
tWRS
tWRD
tWRD
tWRS
tWRS
tWRD
tWRS
WR0#, WR1#, WR# (Write)
tWDD
tWDH
tWDD
tWDH
tWDD
tWDH
D15 to D0 (Write)
Note: * Be sure to specify WDON and WDOFF as at least one cycle of BCLK.
Figure 5.12
R01DS0097EJ0100 Rev.1.00
Apr 22, 2011
External Bus Timing/Page Write Cycle (Bus Clock Synchronized)
Page 67 of 83
RX610 Group
5. Electrical Characteristics
Figure 5.13
R01DS0097EJ0100 Rev.1.00
Apr 22, 2011
External Bus Timing/External Wait Control
Page 68 of 83
RX610 Group
5.3.4
Table 5.8
5. Electrical Characteristics
Timing of On-Chip Peripheral Modules
Timing of On-Chip Peripheral Modules (1)
Conditions: VCC = PLLVCC = AVCC = 3.0 to 3.6 V, VREFH = 3.0 V to AVCC, VSS = PLLVSS = VREFL = 0 V, PCLK = 8 to 50 MHz
Ta = -20 to +85C (regular specifications), Ta = -40 to +85C (wide-range specifications)
Output load conditions: VOH = VCC x 0.5, VOL = VCC x 0.5, IOH = -1.0 mA, IOL = 1.0 mA, C = 30 pF
Test
Item
I/O ports
TPU
Symbol
Min.
Max.
Unit
Conditions
Output data delay time
tPWD

40
ns
Figure 5.14
Input data setup time
tPRS
25

ns
Input data hold time
tPRH
25

ns
Timer output delay time
tTOCD

40
ns
Timer input setup time
tTICS
25

ns
Timer clock input setup time
tTCKS
25

ns
tTCKWH
1.5 x (1/PCLK)

tcyc
tTCKWL
2.5 x (1/PCLK)

tcyc
Timer clock pulse width
Single-edge
Figure 5.15
Figure 5.16
setting
Both-edge setting
PPG
Pulse output delay time
tPOD

40
ns
Figure 5.17
8-bit timer
Timer output delay time
tTMOD

40
ns
Figure 5.18
Timer reset input setup time
tTMRS
25

ns
Figure 5.19
Timer clock input setup time
tTMCS
25

ns
Figure 5.20
tTMCWH
1.5 x (1/PCLK)

tcyc
tTMCWL
2.5 x (1/PCLK)

tcyc
tWOVD

40
ns
Figure 5.21
tScyc
4 x (1/PCLK)

tcyc
Figure 5.22
6 x (1/PCLK)

Timer clock pulse width
Single-edge
setting
Both-edge setting
WDT
Overflow output delay time
SCI
Input clock cycle
Asynchronous
Clock
synchronous
Input clock pulse width
tSCKW
0.4 x tScyc
0.6 x tScyc
tScyc
Input clock rise time
tSCKr

20
ns
Input clock fall time
tSCKf

20
ns
tScyc
4 x (1/PCLK)

tcyc
6 x (1/PCLK)

Output clock cycle
Asynchronous
Clock
synchronous
A/D converter
Output clock pulse width
tSCKW
0.4 x tScyc
0.6 x tScyc
tScyc
Output clock rise time
tSCKr

20
ns
Output clock fall time
tSCKf

20
ns
Transmit data delay time
tTXD

40
ns
Receive data setup time (clock synchronous)
tRXS
40

ns
Receive data hold time (clock synchronous)
tRXH
40

ns
Trigger input setup time
tTRGS
25

ns
R01DS0097EJ0100 Rev.1.00
Apr 22, 2011
Figure 5.23
Figure 5.24
Page 69 of 83
RX610 Group
Table 5.8
5. Electrical Characteristics
Timing of On-Chip Peripheral Modules (2)
Conditions: VCC = PLLVCC = AVCC = 3.0 to 3.6 V, VREFH = 3.0 V to AVCC, VSS = PLLVSS = VREFL = 0 V, PCLK = 8 to 50 MHz
Ta = -20 to +85C (regular specifications), Ta = -40 to +85C (wide-range specifications)
Test
Item
1 2
Symbol
Min. * *
Max.
Unit
Conditions
Figure 5.25
RIIC
SCL input cycle time
tSCL
8(10) x (1/PCLK) + 1300

ns
(Standard-mode)
SCL input high pulse width
tSCLH
3(5) x (1/PCLK) + 300

ns
SCL input low pulse width
tSCLL
5x (1/PCLK) + 1000

ns
SCL, SDA input rising time
tSr

1000
ns
SCL, SDA input falling time
tSf

300
ns
SCL, SDA input spike pulse removal
tSP
0
4 x (1/PCLK)
ns
SDA input bus free time
tBUF
5x (1/PCLK) + 1000

ns
Start condition input hold time
tSTAH
3(5) x (1/PCLK) + 300

ns
Re-start condition input setup time
tSTAS
5x (1/PCLK) + 1000

ns
Stop condition input setup time
tSTOS
3(5) x (1/PCLK) + 300

ns
Data input setup time
tSDAS
250

ns
Data input hold time
tSDAH
0

ns
SCL, SDA capacitive load
Cb

400
pF
RIIC
SCL input cycle time
tSCL
8(10) x (1/PCLK) + 600

ns
(Fast-mode)
SCL input high pulse width
tSCLH
3(5) x (1/PCLK) + 300

ns
SCL input low pulse width
tSCLL
5 x (1/PCLK) + 300

ns
SCL, SDA input rising time
tSr
20 + 0.1Cb
300
ns
SCL, SDA input falling time
tSf
20 + 0.1Cb
300
ns
0
4 x (1/PCLK)
ns
ICFER.FMPE = 0
time
ICFER.FMPE = 0
SCL, SDA input spike pulse removal tSP
time
SDA input bus free time
tBUF
5 x (1/PCLK) + 300

ns
Start condition input hold time
tSTAH
3(5) x (1/PCLK) + 300

ns
Re-start condition input setup time
tSTAS
5 x (1/PCLK) + 300

ns
Stop condition input setup time
tSTOS
3(5) x (1/PCLK) + 300

ns
Data input setup time
tSDAS
100

ns
Data input hold time
tSDAH
0

ns
SCL, SDA capacitive load
Cb

400
pF
R01DS0097EJ0100 Rev.1.00
Apr 22, 2011
Page 70 of 83
RX610 Group
Table 5.8
5. Electrical Characteristics
Timing of On-Chip Peripheral Modules (3)
Conditions: VCC = PLLVCC = AVCC = 3.0 to 3.6 V, VREFH = 3.0 V to AVCC, VSS = PLLVSS = VREFL = 0 V,
Ta = -20 to +85C (regular specifications), Ta = -40 to +85C (wide-range specifications)
Test
Item
Symbol
Min. *1*2
Max.
Unit
Conditions
RIIC
SCL input cycle time
tSCL
8(10) x (1/PCLK) + 240

ns
Figure 5.25
(Fast-mode+)
SCL input high pulse width
tSCLH
3(5) x (1/PCLK) + 120

ns
SCL input low pulse width
tSCLL
5 x (1/PCLK) + 120

ns
SCL, SDA input rising time
tSr

120
ns
SCL, SDA input falling time
tSf

120
ns
0
4 x (1/PCLK)
ns

ns

ns
ICFER.FMPE = 1
SCL, SDA input spike pulse removal tSP
time
SDA input bus free time
tBUF
5 x (1/PCLK) + 120
Start condition input hold time
tSTAH
3(5) x (1/PCLK) +
Re-start condition input setup time
tSTAS
5 x (1/PCLK) + 120

ns
Stop condition input setup time
tSTOS
3(5) x (1/PCLK) + 120

ns
Data input setup time
tSDAS
50

ns
Data input hold time
tSDAH
0

ns
SCL, SDA capacitive load
Cb

550
pF
Boundary scan
TCK clock cycle time
tTCKcyc
100

ns
(176-pin LFBGA)
TCK clock high level pulse width
tTCKH
45

ns
TCK clock low level pulse width
tTCKL
45

ns
TCK clock rising time
tTCKr

5
ns
TCK clock falling time
tTCKf

5
ns
TRST# pulse width
tTRSTW
20

Tcyc
Figure 5.27
TMS setup time
tTMSS
20

ns
Figure 5.28
TMS hold time
tTMSH
20

ns
TDI setup time
tTDIS
20

ns
TDI hold time
tTDIH
20

ns
TDO data delay time
tTDOD

40
ns
120
Figure 5.26
Notes:1. The value in parentheses is used when ICMR3.NF[1:0] are set to 11b while a digital filter is enabled with ICFER.NFE = 1.
2. Cb indicates the total capacity of the bus line.
R01DS0097EJ0100 Rev.1.00
Apr 22, 2011
Page 71 of 83
RX610 Group
5. Electrical Characteristics
Figure 5.14
Figure 5.15
Figure 5.16
R01DS0097EJ0100 Rev.1.00
Apr 22, 2011
I/O Port Input/Output Timing
TPU Input/Output Timing
TPU Clock Input Timing
Page 72 of 83
RX610 Group
5. Electrical Characteristics
PCLK
tPOD
PO31 to PO0
Figure 5.17
Figure 5.18
R01DS0097EJ0100 Rev.1.00
Apr 22, 2011
PPG Output Timing
8-Bit Timer Output Timing
Figure 5.19
8-Bit Timer Reset Input Timing
Figure 5.20
8-Bit Timer Clock Input Timing
Page 73 of 83
RX610 Group
5. Electrical Characteristics
PCLK
tWOVD
tWOVD
WDTOVF#
Figure 5.21
Figure 5.22
Figure 5.23
Figure 5.24
R01DS0097EJ0100 Rev.1.00
Apr 22, 2011
WDT Output Timing
SCK Clock Input Timing
SCI Input/Output Timing: Clock Synchronous Mode
A/D Converter External Trigger Input Timing
Page 74 of 83
RX610 Group
5. Electrical Characteristics
Figure 5.25
I2C Bus Interface Input/Output Timing
tTCKcyc
tTCKH
tTCKf
TCK
tTCKL
Figure 5.26
tTCKr
Boundary Scan TCK Timing
TCK
RES#
TRST#
tTRSTW
Figure 5.27
R01DS0097EJ0100 Rev.1.00
Apr 22, 2011
Boundary Scan TRST# Timing
Page 75 of 83
RX610 Group
5. Electrical Characteristics
TCK
tTMSS
tTMSH
tTDIS
tTDIH
TMS
TDI
tTDOD
TDO
Figure 5.28
R01DS0097EJ0100 Rev.1.00
Apr 22, 2011
Boundary Scan Input/Output Timing
Page 76 of 83
RX610 Group
5.4
5. Electrical Characteristics
A/D Conversion Characteristics
Table 5.9
A/D Conversion Characteristics
Conditions: VCC = PLLVCC = AVCC = 3.0 to 3.6 V, VREFH = 3.0 V to AVCC, VSS = PLLVSS = VREFL = 0 V, PCLK = 8 to 50 MHz,
ADCLK = 4 to 50 MHz
Ta = -20 to +85C (regular specifications), Ta = -40 to +85C (wide-range specifications)
Item
Min.
Resolution
10
Conversion
time*
1
With
0.1-F
0.8 (0.3)*
When the capacitor is charged
enough*
Typ.
Max.
Unit
10
10
Bit


μs
3
2
(ADCLK =
external
50-MHz
capacitor
operation)
Without
Permiss ble signal source
external
impedance (max.) = 1.0 k
capacitor
Permiss ble signal source
Test Conditions
Sampling 15
states
1.0 (0.5)*

3

Sampling 25
states
2.6 (2.1)*

3

Sampling 105
states
impedance (max.) = 5.0 k
Analog input capacitance


6.0
pF
INL integral nonlinearity error (INL)

±1.5
±3.0
LSB
Offset error

±1.5
±3.0
LSB
Full-scale error

±1.5
±3.0
LSB
Quantization error

±0.5

LSB
Absolute accuracy

±1.5
±3.0
LSB
DNL differential nonlinearity error (DNL)

±0.5
±1.0
LSB
Notes: 1. The conversion time includes the sampling time and the comparison time. As the test conditions, the number of sampling states
is indicated.
2. The scanning is not supported.
3. The value in parentheses indicates the sampling time.
5.5
D/A Conversion Characteristics
Table 5.10
D/A Conversion Characteristics
Conditions: VCC = PLLVCC = AVCC = 3.0 to 3.6 V, VREFH = 3.0 V to AVCC, VSS = PLLVSS = VREFL = 0 V, PCLK = 8 to 50 MHz
Ta = -20 to +85C (regular specifications), Ta = -40 to +85C (wide-range specifications)
Item
Min.
Typ.
Max.
Unit
Resolution
10
10
10
Bit
Conversion time


3
μs
20-pF capacitive load
Absolute accuracy

2.0
4.0
LSB
2-MΩ resistive load


3.0
LSB
4-MΩ resistive load


2.0
LSB
10-MΩ resistive load

3.6

kΩ
RO output resistance
R01DS0097EJ0100 Rev.1.00
Apr 22, 2011
Test Conditions
Page 77 of 83
RX610 Group
5.6
5. Electrical Characteristics
ROM (Flash Memory for Code Storage) Characteristics
Table 5.11
ROM (Flash Memory for Code Storage) Characteristics
Conditions: VCC = PLLVCC = AVCC = 3.0 to 3.6 V, VREFH = 3.0 V to AVCC, VSS = PLLVSS = VREFL = 0 V
Operating temperature range during programming/erasing:
Ta = -20 to +85C (regular specifications), Ta = -40 to +85C (wide-range specifications)
Item
Symbol
Min.
Typ.
Max.
Unit
Test Conditions
256 bytes
tP256

2
12
ms
PCLK = 50 MHz
8 Kbytes
tP8K

45
100
ms
NPEC  100
256 bytes
tP256

2.4
14.4
ms
PCLK = 50 MHz
8 Kbytes
tP8K

54
120
ms
NPEC  100
8 Kbytes
tE8K

50
120
ms
PCLK = 50 MHz
64 Kbytes
tE64K

400
875
ms
NPEC  100
128 Kbytes
tE128K

800
1750
ms
8 Kbytes
tE8K

60
144
ms
PCLK = 50 MHz
64 Kbytes
tE64K

480
1050
ms
NPEC  100
128 Kbytes
tE128K

960
2100
ms
NPEC
1000*


Times
Suspend delay time during writing
tSPD


120
s
Figure 5.29
First suspend delay time during erasing (in
tSESD1


120
s
PCLK = 50 MHz
tSESD2


1.7
ms
tSEED


1.7
ms
TDRP
10


Year
Programming time
Erasure time
Rewrite/erase cycle*
1
2
suspend priority mode)
Second suspend delay time during erasing (in
suspend priority mode)
Suspend delay time during erasing (in erasure
priority mode)
Data hold time*
3
Notes: 1. Definition of rewrite/erase cycle:
The rewrite/erase cycle is the number of erasing for each block. When the rewrite/erase cycle is n times (n = 1000), erasing
can be performed n times for each block. For instance, when 256-byte writing is performed 32 times for different addresses in
8-Kbyte block and then the entire block is erased, the rewrite/erase cycle is counted as one. However, writing to the same
address for several times as one erasing is not enabled (over writing is prohibited).
2. This indicates the minimum number that guarantees the characteristics after rewriting. (The guaranteed value is in the range
from one to the minimum number.)
3. This indicates the characteristic when rewrite is performed within the specification range including the minimum number.
R01DS0097EJ0100 Rev.1.00
Apr 22, 2011
Page 78 of 83
RX610 Group
5.7
5. Electrical Characteristics
Data Flash (Flash Memory for Data Storage) Characteristics
Table 5.12
Data Flash (Flash Memory for Data Storage) Characteristics
Conditions: VCC = PLLVCC = AVCC = 3.0 to 3.6 V, VREFH = 3.0 V to AVCC, VSS = PLLVSS = VREFL = 0 V
Operating temperature range during programming/erasing:
Ta = -20 to +85C (regular specifications), Ta = -40 to +85C (wide-range specifications)
Item
Symbol
Programming time
Erasure time
Min.
Typ.
Max.
Unit
Test Conditions
PCLK = 50-MHz
8 bytes
tDP8

0.4
2
ms
128 bytes
tDP128

1
5
ms
8 Kbytes
tDE8K

300
900
ms
operation
PCLK = 50-MHz
operation
8 bytes
tDBC8


30
s
8 Kbytes
tDBC8K


2.5
ms
NDPEC
30000*


Times
Suspend delay time during writing
tDSPD


120
s
Figure 5.29
First suspend delay time during erasing (in
tDSESD1


120
s
PCLK = 50-MHz
Blank check time
Rewrite/erase cycle*
1
2
operation
operation
suspend priority mode)
Second suspend delay time during erasing (in
PCLK = 50-MHz
tDSESD2


1.7
ms
tDSEED


1.7
ms
TDDRP
10


Year
suspend priority mode)
Suspend delay time during erasing (in erasure
priority mode)
Data hold time*
3
Notes: 1. Definition of rewrite/erase cycle:
The rewrite/erase cycle is the number of erasing for each block. When the rewrite/erase cycle is n times (n = 30000), erasing
can be performed n times for each block. For instance, when 128-byte writing is performed 64 times for different addresses in
8-Kbyte block and then the entire block is erased, the rewrite/erase cycle is counted as one. However, writing to the same
address for several times as one erasing is not enabled (over writing is prohibited).
2. This indicates the minimum number that guarantees the characteristics after rewriting. (The guaranteed value is in the range
from one to the minimum number.)
3. This indicates the characteristic when rewrite is performed within the specification range including the minimum number.
R01DS0097EJ0100 Rev.1.00
Apr 22, 2011
Page 79 of 83
RX610 Group
5. Electrical Characteristics
Figure 5.29
R01DS0097EJ0100 Rev.1.00
Apr 22, 2011
ROM, Data Flash Write/Erase Suspend Timing
Page 80 of 83
RX610 Group
Appendix 1. Package Dimensions
Appendix 1.
Package Dimensions
JEITA Package Code
P-LFBGA176-13x13-0.80
RENESAS Code
PLBG0176GA-A
Previous Code
BP-176/BP-176V
MASS[Typ.]
0.45g
D
w S B
E
w S A
x4
v
y1 S
A1
A
S
y S
ZD
e
A
e
R
P
Reference
Symbol
N
M
L
Dimension in Millimeters
Min
Nom
D
13.0
J
E
13.0
H
v
B
K
Max
0.15
G
F
w
0.20
E
A
1.40
ZE
D
C
B
A1
0.35
b
1
2
3
4
5
6
7
8
9 10 11 12 13 14 15
φb
φxM S A B
0.40
0.45
0.80
e
A
0.45
0.50
0.55
x
0.08
y
0.10
y1
0.2
SD
SE
ZD
0.90
ZE
0.90
176-pin LFBGA (PLBG0176GA-A)
R01DS0097EJ0100 Rev.1.00
Apr 22, 2011
Page 81 of 83
RX610 Group
Appendix 1. Package Dimensions
JEITA Package Code
P-LQFP144-20x20-0.50
RENESAS Code
PLQP0144KA-A
Previous Code
144P6Q-A / FP-144L / FP-144LV
MASS[Typ.]
1.2g
HD
*1
D
108
73
109
NOTE)
1 DIMENSIONS "*1" AND "*2"
DO NOT INCLUDE MOLD FLASH
2 DIMENSION "*3" DOES NOT
INCLUDE TRIM OFFSET
72
bp
c
Reference Dimension in Millimeters
Symbol
*2
E
HE
c1
b1
A
36
Index mark
ZD
c
37
1
A2
144
ZE
Terminal cross section
A1
F
L
D
E
A2
HD
HE
A
A1
bp
b1
c
c1
L1
*3
e
y
bp
x
Detail F
e
x
y
ZD
ZE
L
L1
Min Nom Max
19.9 20.0 20.1
19.9 20.0 20.1
1.4
21.8 22.0 22.2
21.8 22.0 22.2
1.7
0.05 0.1 0.15
0.17 0.22 0.27
0.20
0.09 0.145 0.20
0.125
0°
8°
0.5
0.08
0.10
1.25
1.25
0.35 0.5 0.65
1.0
144-pin LQFP (PLQP0144KA-A)
R01DS0097EJ0100 Rev.1.00
Apr 22, 2011
Page 82 of 83
RX610 Group
REVISION HISTORY
RX610 Group Datasheet
REVISION HISTORY
Description
Rev.
Data
Page
Summary
0.50
Mar. 24, 2009

First edition issued
1.00
Apr. 22, 2011
1. Overview
6
Figure 1.2 Block Diagram: Ports F to H added
7
Figure 1.3 Pin Assignment of the 176-pin LFBGA, added
10 to 15
Table 1.3 List of Pins and Pin Functions (176-Pin LFBGA), added
Table 1.5 Pin Functions:
21, 25
Description on the BSCANP, PF0 to PF6, PG0 to PG7, and PH0 to PH7 pins added
4. I/O Registers
34 to 54
Table 4.1 List of I/O Registers (Address Order), changed
5. Electrical Characteristics
58
Table 5.3 Permiss ble Output Currents, changed
59
Table 5.5 Clock Timing: Oscillation settling time after leaving deep software standby mode
60
Figure 5.2 Oscillation Settling Timing after Software Standby Mode, changed
61
Figure 5.3 Oscillation Settling Timing after Deep Software Standby Mode, added
71
Table 5.8 Timing of On-Chip Peripheral Modules (3), changed
75
Figure 5.26 Boundary Scan TCK Timing, added
75
Figure 5.27 Boundary Scan TRST# Timing, added
76
Figure 5.28 Boundary Scan Input/Output Timing, added
(crystal), tOSC3, added
R01DS0097EJ0100 Rev.1.00
Apr 22, 2011
Page 83 of 83
General Precautions in the Handling of MPU/MCU Products
The following usage notes are applicable to all MPU/MCU products from Renesas. For detailed usage notes
on the products covered by this manual, refer to the relevant sections of the manual. If the descriptions under
General Precautions in the Handling of MPU/MCU Products and in the body of the manual differ from each
other, the description in the body of the manual takes precedence.
1. Handling of Unused Pins
Handle unused pins in accord with the directions given under Handling of Unused Pins in the
manual.
 The input pins of CMOS products are generally in the high-impedance state. In operation
with an unused pin in the open-circuit state, extra electromagnetic noise is induced in the
vicinity of LSI, an associated shoot-through current flows internally, and malfunctions occur
due to the false recognition of the pin state as an input signal become possible. Unused
pins should be handled as described under Handling of Unused Pins in the manual.
2. Processing at Power-on
The state of the product is undefined at the moment when power is supplied.
 The states of internal circuits in the LSI are indeterminate and the states of register
settings and pins are undefined at the moment when power is supplied.
In a finished product where the reset signal is applied to the external reset pin, the states
of pins are not guaranteed from the moment when power is supplied until the reset
process is completed.
In a similar way, the states of pins in a product that is reset by an on-chip power-on reset
function are not guaranteed from the moment when power is supplied until the power
reaches the level at which resetting has been specified.
3. Prohibition of Access to Reserved Addresses
Access to reserved addresses is prohibited.
 The reserved addresses are provided for the possible future expansion of functions. Do
not access these addresses; the correct operation of LSI is not guaranteed if they are
accessed.
4. Clock Signals
After applying a reset, only release the reset line after the operating clock signal has become
stable. When switching the clock signal during program execution, wait until the target clock
signal has stabilized.
 When the clock signal is generated with an external resonator (or from an external
oscillator) during a reset, ensure that the reset line is only released after full stabilization of
the clock signal. Moreover, when switching to a clock signal produced with an external
resonator (or by an external oscillator) while program execution is in progress, wait until
the target clock signal is stable.
5. Differences between Products
Before changing from one product to another, i.e. to one with a different part number, confirm
that the change will not lead to problems.
 The characteristics of MPU/MCU in the same group but having different part numbers may
differ because of the differences in internal memory capacity and layout pattern. When
changing to products of different part numbers, implement a system-evaluation test for
each of the products.
Notice
1.
All information included in this document is current as of the date this document is issued. Such information, however, is subject to change without any prior notice. Before purchasing or using any Renesas
Electronics products listed herein, please confirm the latest product information with a Renesas Electronics sales office. Also, please pay regular and careful attention to additional and different information to
be disclosed by Renesas Electronics such as that disclosed through our website.
2.
Renesas Electronics does not assume any liability for infringement of patents, copyrights, or other intellectual property rights of third parties by or arising from the use of Renesas Electronics products or
technical information described in this document. No license, express, implied or otherwise, is granted hereby under any patents, copyrights or other intellectual property rights of Renesas Electronics or
others.
3.
You should not alter, modify, copy, or otherwise misappropriate any Renesas Electronics product, whether in whole or in part.
4.
Descriptions of circuits, software and other related information in this document are provided only to illustrate the operation of semiconductor products and application examples. You are fully responsible for
the incorporation of these circuits, software, and information in the design of your equipment. Renesas Electronics assumes no responsibility for any losses incurred by you or third parties arising from the
use of these circuits, software, or information.
5.
When exporting the products or technology described in this document, you should comply with the applicable export control laws and regulations and follow the procedures required by such laws and
regulations. You should not use Renesas Electronics products or the technology described in this document for any purpose relating to military applications or use by the military, including but not limited to
the development of weapons of mass destruction. Renesas Electronics products and technology may not be used for or incorporated into any products or systems whose manufacture, use, or sale is
prohibited under any applicable domestic or foreign laws or regulations.
6.
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Renesas Electronics products are classified according to the following three quality grades "Standard", "High Quality", and "Specific". The recommended applications for each Renesas Electronics product
assumes no liability whatsoever for any damages incurred by you resulting from errors in or omissions from the information included herein.
depends on the product's quality grade, as indicated below. You must check the quality grade of each Renesas Electronics product before using it in a particular application. You may not use any Renesas
Electronics product for any application categorized as "Specific" without the prior written consent of Renesas Electronics. Further, you may not use any Renesas Electronics product for any application for
which it is not intended without the prior written consent of Renesas Electronics. Renesas Electronics shall not be in any way liable for any damages or losses incurred by you or third parties arising from the
use of any Renesas Electronics product for an application categorized as "Specific" or for which the product is not intended where you have failed to obtain the prior written consent of Renesas Electronics.
The quality grade of each Renesas Electronics product is "Standard" unless otherwise expressly specified in a Renesas Electronics data sheets or data books, etc.
"Standard"
Computers; office equipment; communications equipment; test and measurement equipment; audio and visual equipment; home electronic app iances; machine tools;
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"High Quality" Transportation equipment (automobiles, trains, ships, etc.); traffic control systems; anti-disaster systems; anti-crime systems; safety equipment; and medical equipment not specifically
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implantations, or healthcare intervention (e.g. excision, etc.), and any other applications or purposes that pose a direct threat to human life.
8.
You should use the Renesas Electronics products described in this document within the range specified by Renesas Electronics, especially with respect to the maximum rating, operating supply voltage
range, movement power voltage range, heat radiation characteristics, installation and other product characteristics. Renesas Electronics shall have no liability for malfunctions or damages arising out of the
use of Renesas Electronics products beyond such specified ranges.
9.
Although Renesas Electronics endeavors to improve the quality and reliability of its products, semiconductor products have specific characteristics such as the occurrence of failure at a certain rate and
malfunctions under certain use conditions. Further, Renesas Electronics products are not subject to radiation resistance design. Please be sure to implement safety measures to guard them against the
possibility of physical injury, and injury or damage caused by fire in the event of the failure of a Renesas Electronics product, such as safety design for hardware and software including but not limited to
redundancy, fire control and malfunction prevention, appropriate treatment for aging degradation or any other appropriate measures. Because the evaluation of microcomputer software alone is very difficult,
please evaluate the safety of the final products or system manufactured by you.
10. Please contact a Renesas Electronics sales office for details as to environmental matters such as the environmental compatibility of each Renesas Electronics product. Please use Renesas Electronics
products in compliance with all applicable laws and regulations that regulate the inclusion or use of controlled substances, including without limitation, the EU RoHS Directive. Renesas Electronics assumes
no liability for damages or losses occurring as a result of your noncompliance with applicable laws and regulations.
11. This document may not be reproduced or duplicated, in any form, in whole or in part, without prior written consent of Renesas Electronics.
12. Please contact a Renesas Electronics sales office if you have any questions regarding the information contained in this document or Renesas Electronics products, or if you have any other inquiries.
(Note 1)
"Renesas Electronics" as used in this document means Renesas Electronics Corporation and also includes its majority-owned subsidiaries.
(Note 2)
"Renesas Electronics product(s)" means any product developed or manufactured by or for Renesas Electronics.
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Colophon 1.1