FR60 MB91460H Series

FUJITSU MICROELECTRONICS
DATA SHEET
FME-MB91460H rev 3.0
32-bit Microcontroller
CMOS
FR60 MB91460H Series
MB91F464HB, MB91F466HA
■ DESCRIPTION
MB91460H series is a line of general-purpose 32-bit RISC microcontrollers designed for embedded control
applications which require high-speed real-time processing, such as consumer devices and on-board vehicle
systems. This series uses the FR60 CPU, which is compatible with the FR family* of CPUs.
This series contains the LIN-USART and CAN controllers.
* : FR, the abbreviation of FUJITSU RISC controller, is a line of products of FUJITSU Microelectronics Limited.
■ FEATURES
1. FR60 CPU core
•
•
•
•
•
•
•
•
•
•
32-bit RISC, load/store architecture, five-stage pipeline
16-bit fixed-length instructions (basic instructions)
Instruction execution speed: 1 instruction per cycle
Instructions including memory-to-memory transfer, bit manipulation, and barrel shift instructions: Instructions
suitable for embedded applications
Function entry/exit instructions and register data multi-load store instructions : Instructions supporting C
language
Register interlock function: Facilitating assembly-language coding
Built-in multiplier with instruction-level support
Signed 32-bit multiplication: 5 cycles
Signed 16-bit multiplication: 3 cycles
Interrupts (save PC/PS) : 6 cycles (16 priority levels)
Harvard architecture enabling program access and data access to be performed simultaneously
Instructions compatible with the FR family
Be sure to refer to the “Check Sheet” for the latest cautions on development.
“Check Sheet” is seen at the following support page
URL : http://www.fujitsu.com/global/services/microelectronics/product/micom/support/index.html
“Check Sheet” lists the minimal requirement items to be checked to prevent problems beforehand in system
development.
Copyright©2007 FUJITSU MICROELECTRONICS LIMITED All rights reserved
MB91460H Series
2. Internal peripheral resources
• General-purpose ports : Maximum 108 ports
• DMAC (DMA Controller)
Maximum of 5 channels able to operate simultaneously
2 transfer sources (internal peripheral/software)
Activation source can be selected using software
Addressing mode specifies full 32-bit addresses (increment/decrement/fixed)
Transfer mode (demand transfer/burst transfer/step transfer/block transfer)
Transfer data size selectable from 8/16/32-bit
Multi-byte transfer enabled (by software)
DMAC descriptor in I/O areas (200H to 240H, 1000H to 1024H)
• A/D converter (successive approximation type)
10-bit resolution: maximum 32 channels
Conversion time: minimum 1 µs
• External interrupt inputs : maximum 16 channels
3 channels shared with CAN RX or I2C pins
• Bit search module (for REALOS)
Function to search the first bit position of ‘’1’’, ‘’0’’, ‘’changed’’ from the MSB (most significant bit) within one word
• LIN-USART (full duplex double buffer): 4 or 7 channels
Clock synchronous/asynchronous selectable
Sync-break detection
Internal dedicated baud rate generator
• I2C* bus interface (supports 400 kbps): 2 channels
Master/slave transmission and reception
Arbitration function, clock synchronization function
• CAN controller (C-CAN): 1 channel
Maximum transfer speed: 1 Mbps
32 transmission/reception message buffers
• Sound generator : 1 channel
Tone frequency : PWM frequency divide-by-two (reload value + 1)
• Alarm comparator : 1 channel
Monitor external voltage
Generate an interrupt in case of voltage lower/higher than the defined thresholds (reference voltage)
• 16-bit PPG timer : maximum 16 channels
• 16-bit reload timer: 8 channels
• 16-bit free-run timer: 8 channels (1 channel each for ICU and OCU)
• Input capture: maximum 8 channels (operates in conjunction with the free-run timer)
• Output compare: maximum 8 channels (operates in conjunction with the free-run timer)
• Up/Down counter: 2 channels (2*8-bit or 1*16-bit)
• Watchdog timer
• Real-time clock
• Low-power consumption modes : Sleep/stop mode function
• Low voltage detection circuit
(Continued)
2
MB91460H Series
(Continued)
• Clock supervisor
Monitors the sub-clock (32 kHz) and the main clock (4 MHz) , and switches to a recovery clock (CR oscillator,
etc.) when the oscillations stop.
• Clock modulator
• Clock monitor
• Sub-clock calibration
Corrects the real-time clock timer when operating with the 32 kHz or CR oscillator
• Main oscillator stabilization timer
Generates an interrupt in sub-clock mode after the stabilization wait time has elapsed on the 23-bit stabilization
wait time counter
• Sub-oscillator stabilization timer
Generates an interrupt in main clock mode after the stabilization wait time has elapsed on the 15-bit stabilization
wait time counter
3. Package and technology
•
•
•
•
Package : QFP-144
CMOS 180 nm technology
Power supply range 3 V to 5 V (1.8 V internal logic provided by a step-down voltage converter)
Operating temperature range: between − 40˚C and + 125˚C
Note * Purchase of Fujitsu I2C components conveys a license under the Philips I2C Patent Rights to use these
components in an I2C system provided that the system conforms to the I2C Standard Specification as defined
by Philips.
3
MB91460H Series
■ PRODUCT LINEUP
Feature
MB91FV460B
MB91F464HB
MB91F466HA
Max. core frequency (CLKB)
100 MHz
100 MHz
96 MHz
Max. resource frequency (CLKP)
50 MHz
50 MHz
48 MHz
Max. external bus frequency (CLKT)
50 MHz
50 MHz
48 MHz
Max. CAN frequency (CLKCAN)
50 MHz
50 MHz
48 MHz
Technology
0.18um
0.18um
0.18um
yes
yes
yes
Watchdog
Watchdog (RC osc. based)
yes (disengageable)
yes
yes
Bit Search
yes
yes
yes
Reset input (INITX)
yes
yes
yes
Clock Modulator
yes
yes
yes
Clock Monitor
yes
yes
yes
Low Power Mode
yes
yes
yes
DMA
5 ch
5 ch
5 ch
MPU (16 ch)*1
MPU (8 ch)*1
MPU (8 ch)*1
Internal Flash memory 2112KB +
external emulation SRAM with 64bit
read data
416 KByte
832 KByte
yes
yes
yes
64 KByte
16 KByte
24 KByte
ID-RAM
64 KByte
16 KByte
16 KByte
Flash-Cache (Instruction cache)
16 KByte
8 KByte
8 KByte
16 KByte Boot Flash
+ 1KB Boot ROM
4 KByte
4 KByte
MMU/MPU
Flash memory
Flash Protection
D-RAM
Boot-ROM / BI-ROM
RTC
1 ch
1 ch
1 ch
Free Running Timer
12 ch
8 ch*2
8 ch*2
ICU
10 ch
MD_3=0: 8 ch
MD_3=1: 4 ch*3
MD_3=0: 8 ch
MD_3=1: 4 ch*3
OCU
8 ch
MD_3=0: 8 ch
MD_3=1: 4 ch*4
MD_3=0: 8 ch
MD_3=1: 4 ch*4
Reload Timer
16 ch
8 ch*5
8 ch*5
PPG 16-bit
32 ch
MD_3=0: 16 ch
MD_3=1: 8 ch*6
MD_3=0: 16 ch
MD_3=1: 8 ch*6
1 ch (old) + 1 ch (new)
1 ch (old)
1 ch (old)
4 ch (8-bit) / 2 ch (16-bit)
MD_3=0: 2 ch (8-bit) / 1 ch (16bit)
MD_3=1: NA*7
MD_3=0: 2 ch (8-bit) / 1 ch (16bit)
MD_3=1: NA*7
6 ch
(128msg)
1 ch
(32msg)
1 ch
(32msg)
16 ch (FIFO)
MD_3=0: 3 ch + 4 ch FIFO*8
MD_3=1: 4 ch FIFO
MD_3=0: 3 ch + 4 ch FIFO*8
MD_3=1: 4 ch FIFO
8 ch
2 ch
2 ch
Sound Generator
Up/Down Counter (8/16 bit)
C_CAN
LIN-USART
I2C (400K)
4
MB91460H Series
Feature
FR external bus
MB91FV460B
yes (32bit addr, 32bit data)
MB91F464HB
MB91F466HA
MD_3=0: no
MD_3=0: no
MD_3=1: yes (22bit addr, 16bit data) MD_3=1: yes (22bit addr, 16bit data)
External Interrupts
32 ch
MD_3=0: 16 ch
MD_3=1: 12 ch*9
MD_3=0: 16 ch
MD_3=1: 12 ch*9
NMI Interrupts
1 ch
1 ch
1 ch
32 ch + 22 ch
MD_3=0: 32 ch
MD_3=1: 16 ch
MD_3=0: 32 ch
MD_3=1: 16 ch
Alarm Comparator
2 ch
1 ch
1 ch
Supply Supervisor (low voltage detection)
yes
yes
yes
Clock Supervisor
yes
yes
yes
Main clock oscillator
4 MHz
4 MHz
4 MHz
Sub clock oscillator
32kHz
32kHz
32kHz
ADC (10-bit)
RC oscillator
100kHz / 2MHz
100kHz / 2MHz
100kHz / 2MHz
PLL
x 25
x 25
x 25
DSU4
yes
no
*1
yes (16 BP)
no
*1
yes (16 BP)*1
EDSU
yes (32 BP)
Supply voltage
1.8V + 3V/5V
3V/5V
3V/5V
no
yes
yes
Regulator
Power consumption
1.5 W
< 1.3 W
< 1.3 W
0..70 C
-40..125 C
-40..125 C
Package
BGA-896
QFP-144
QFP-144
Power on to PLL run
< 20 ms
< 20 ms
< 20 ms
Flash Download Time
< 8 sec. typical
< 5 sec. typical
< 5 sec. typical
Temperature Range (Ta)
*1: MPU channels use EDSU breakpoint registers (shared operation between MPU and EDSU).
*2: Free Running Timer: MD3=0 : CH 1 and 0 cannot select external clock (bit7 of TCCS1,0)
MD3=1: CH 3, 2, 1, and 0 cannot select external clock (bit7 of TCCS3,2,1,0)
*3: ICU: MD3=1: Do not set PFR = 1 & EPFR = 1 (for LIN Synch Field detect).
*4: OCU: MD3=1: You cannot use external out-port (but, OCU-function is active.)
*5: Reload Timer: MD3=1: CH 7, 6, 5, and 4 cannot select external event
*6: PPG: MD3=1: You can use CH15 to 8 of PPG. CH15 to12 cannot select external trigger.
*7: Up/Down Counter: MD3=1: You can use Timer-mode only.
*8: LIN-USART CH 0 (shared with external bus) can be used for asynchronous mode only.
*9: External Interrupts: INT7 to INT4(shared with external bus) can be used for MD3=0 mode only.
INT0 (shared with external bus) can be used for MD3=0 mode only.
5
VSS5
P10_0/SYSCLK
P09_0/CSX0
P09_1/CSX1
P08_0/WRX0
P08_4/RDX
P08_7/RDY
P08_1/WRX1
P24_1/INT1
P23_0/RX0/INT8
P23_1/TX0
P23_2/INT9
P23_3
P23_4INT10
P23_5
P23_6/INT11
P23_7
VDD5
VSS5
P22_0/INT12
P22_1
P22_2/INT13
P22_3
P22_4/SDA0/INT14
P22_5/SCL0
P22_6/SDA1/INT15
P22_7/SCL1
P16_0/PPG8
P16_1/PPG9
P16_2/PPG10
P16_3/PPG11
P16_4/PPG12/SGA
P16_5/PPG13/SGO
P16_6/PPG14
P16_7/PPG15/ATGX
VDD5
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
144
143
142
141
140
139
138
137
136
135
134
133
132
131
130
129
128
127
126
125
124
123
122
121
120
119
118
117
116
115
114
113
112
111
110
109
VDD35
P07_5/A5
P07_4/A4
P07_3/A3
P07_2/A2
P07_1/A1
P07_0/A0
P15_3/OCU3/TOT3
P15_2/OCU2/TOT2
P15_1/OCU1/TOT1
P15_0/OCU0/TOT0
P14_3/ICU3/TIN3/TTG3/11
P14_2/ICU2/TIN2/TTG2/10
P14_1/ICU1/TIN1/TTG1/9
P14_0/ICU0/TIN0/TTG0/8
P24_3/INT3
P24_2/INT2
VSS5
VDD5
P28_7/AN15
P28_6/AN14
P28_5/AN13
P28_4/AN12
P28_3/AN11
P28_2/AN10
P28_1/AN9
P28_0/AN8
P29_7/AN7
P29_6/AN6
P29_5/AN5
P29_4/AN4
P29_3/AN3
P29_2/AN2
P29_1/AN1
P29_0/AN0
VSS5
MB91460H Series
■ PIN ASSIGNMENT
1. MB91F464HB, MB91F466HA with MD_3=1
(TOP VIEW)
VSS5
P07_6/A6
P07_7/A7
P06_0/A8
P06_1/A9
P06_2/A10
P06_3/A11
P06_4/A12
P06_5/A13
P06_6/A14
P06_7/A15
P05_0/A16
P05_1/A17
P05_2/A18
P05_3/A19
P05_4/A20
P05_5/A21
VDD35
VSS5
P01_0/D16
P01_1/D17
P01_2/D18
P01_3/D19
P01_4/D20
P01_5/D21
P01_6/D22
P01_7/D23
P00_0/D24
P00_1/D25
P00_2/D26
P00_3/D27
P00_4/D28
P00_5/D29
P00_6/D30
P00_7/D31
VDD35
6
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
LQFP-144
108
107
106
105
104
103
102
101
100
99
98
97
96
95
94
93
92
91
90
89
88
87
86
85
84
83
82
81
80
79
78
77
76
75
74
73
VDD5
AVCC5
AVRH5
AVSS5
ALARM_0
P18_6/SCK7/CK7
P18_5/SOT7
P18_4/SIN7
P18_2/SCK6/CK6
P18_1/SOT6
P18_0/SIN6
P19_6/SCK5/CK5
P19_5/SOT5
P19_4/SIN5
P19_2/SCK4/CK4
P19_1/SOT4
P19_0/SIN4
VSS5
VDD5
VDD5R
VDD5R
VCC18C
VSS5
NMIX
INITX
X1A
X0A
VSS5
X0
X1
MD_3
MONCLK
MD_2
MD_1
MD_0
VSS5
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
VSS5
P27_6/AN22
P27_7/AN23
P26_0/AN24
P26_1/AN25
P26_2/AN26
P26_3/AN27
P26_4/AN28
P26_5/AN29
P26_6/AN30
P26_7/AN31
P24_4/INT4
P24_5/INT5
P24_6/INT6
P24_7/INT7
P21_0/SIN0
P21_1/SOT0
VDD35
VSS5
P14_4/ICU4/TIN4/TTG12/4
P14_5/ICU5/TIN5/TTG13/5
P14_6/ICU6/TIN6/TTG14/6
P14_7/ICU7/TIN7/TTG15/7
P15_4/OCU4/TOT4
P15_5/OCU5/TOT5
P15_6/OCU6/TOT6
P15_7/OCU7/TOT7
P17_0/PPG0
P17_1/PPG1
P17_2/PPG2
P17_3/PPG3
P17_4/PPG4
P17_5/PPG5
P17_6/PPG6
P17_7/PPG7
VDD35
VSS5
P20_0/SIN2/AIN0
P20_1/SOT2/BIN0
P20_2/SCK2/ZIN0/CK2
P20_4/SIN3/AIN1
P20_5/SOT3/BIN1
P20_6/SCK3/ZIN1/CK3
P24_0/INT0
P24_1/INT1
P23_0/RX0/INT8
P23_1/TX0
P23_2/INT9
P23_3
P23_4/INT10
P23_5
P23_6/INT11
P23_7
VDD5
VSS5
P22_0/INT12
P22_1
P22_2/INT13
P22_3
P22_4/SDA0/INT14
P22_5/SCL0
P22_6/SDA1/INT15
P22_7/SCL1
P16_0/PPG8
P16_1/PPG9
P16_2/PPG10
P16_3/PPG11
P16_4/PPG12/SGA
P16_5/PPG13/SGO
P16_6/PPG14
P16_7/PPG15/ATGX
VDD5
144
143
142
141
140
139
138
137
136
135
134
133
132
131
130
129
128
127
126
125
124
123
122
121
120
119
118
117
116
115
114
113
112
111
110
109
VDD35
P27_5/AN21
P27_4/AN20
P27_3/AN19
P27_2/AN18
P27_1/AN17
P27_0/AN16
P15_3/OCU3/TOT3
P15_2/OCU2/TOT2
P15_1/OCU1/TOT1
P15_0/OCU0/TOT0
P14_3/ICU3/TIN3/TTG3/11
P14_2/ICU2/TIN2/TTG2/10
P14_1/ICU1/TIN1/TTG1/9
P14_0/ICU0/TIN0/TTG0/8
P24_3/INT3
P24_2/INT2
VSS5
VDD5
P28_7/AN15
P28_6/AN14
P28_5/AN13
P28_4/AN12
P28_3/AN11
P28_2/AN10
P28_1/AN9
P28_0/AN8
P29_7/AN7
P29_6/AN6
P29_5/AN5
P29_4/AN4
P29_3/AN3
P29_2/AN2
P29_1/AN1
P29_0/AN0
VSS5
MB91460H Series
2. MB91F46HB, MB91F466HA with MD_3=0
(TOP VIEW)
LQFP-144
108
107
106
105
104
103
102
101
100
99
98
97
96
95
94
93
92
91
90
89
88
87
86
85
84
83
82
81
80
79
78
77
76
75
74
73
VDD5
AVCC5
AVRH5
AVSS5
ALARM_0
P18_6/SCK7/CK7
P18_5/SOT7
P18_4/SIN7
P18_2/SCK6/CK6
P18_1/SOT6
P18_0/SIN6
P19_6/SCK5/CK5
P19_5/SOT5
P19_4/SIN5
P19_2/SCK4/CK4
P19_1/SOT4
P19_0/SIN4
VSS5
VDD5
VDD5R
VDD5R
VCC18C
VSS5
NMIX
INITX
X1A
X0A
VSS5
X0
X1
MD_3
MONCLK
MD_2
MD_1
MD_0
VSS5
7
MB91460H Series
■ PIN DESCRIPTION
1. MB91F464HB, MB91F466HA with MD_3=1
Pin no.
2, 3
4 to 11
12 to 17
20 to 27
28 to 35
38
39
40
41
42
43
Pin name
P07_6, P07_7
A6, A7
P06_0 to P06_7
A8 to A15
P05_0 to P05_5
A16 to A21
P01_0 to P01_7
D16 to D23
P00_0 to P00_7
D24 to D31
P10_0
SYSCLK
P09_0
CSX0
P09_1
CSX1
P08_0
WRX0
P08_4
RDX
P08_7
RDY
I/O
I/O circuit
type*
I/O
B
I/O
B
I/O
A
I/O
A
I/O
A
I/O
A
I/O
A
I/O
A
I/O
A
I/O
A
I/O
A
P08_1
44
WRX1
P24_1
INT1
I/O
A
RX0
I/O
A
8
P23_1
TX0
General-purpose input/output port
Signal pins of external address bus (bit8 to bit15)
General-purpose input/output port
Signal pins of external address bus (bit16 to bit21)
General-purpose input/output port
Signal pins of external data bus (bit16 to bit23)
General-purpose input/output port
Signal pins of external data bus (bit24 to bit31)
General-purpose input/output port
External bus clock output pin
General-purpose input/output port
Chip select output pins
General-purpose input/output port
Chip select output pins
General-purpose input/output port
External write strobe output pins
General-purpose input/output port
External read strobe output pin
General-purpose input/output port
External ready input pin
External write strobe output pins
General-purpose input/output port
External interrupt input pins
General-purpose input/output port
I/O
A
INT8
47
Signal pins of external address bus (bit6 to bit7)
External interrupt input,
can only be used in general-purpose IO port mode
P23_0
46
General-purpose input/output port
General-purpose input/output port
INT0
45
Function
RX input pin of CAN0
External interrupt input pins
I/O
A
General-purpose input/output port
TX output pin of CAN0
MB91460H Series
Pin no.
48
49
50
51
52
53
56
57
58
59
Pin name
P23_2
INT9
P23_3
P23_4
INT10
P23_5
P23_6
INT11
P23_7
P22_0
INT12
P22_1
P22_2
INT13
P22_3
I/O
I/O circuit
type*
I/O
A
I/O
A
I/O
A
I/O
A
I/O
A
I/O
A
I/O
A
I/O
A
I/O
A
I/O
A
P22_4
60
SDA0
P22_5
SCL0
I/O
C
SDA1
I/O
C
64
65
66
67
P22_7
SCL1
P16_0
PPG8
P16_1
PPG9
P16_2
PPG10
P16_3
PPG11
I/O
C
PPG12
SGA
General-purpose input/output port
External interrupt input pin
General-purpose input/output port
General-purpose input/output port
External interrupt input pin
General-purpose input/output port
General-purpose input/output port
External interrupt input pin
General-purpose input/output port
General-purpose input/output port
External interrupt input pin
General-purpose input/output port
I2C bus DATA input/output pin (open drain)
General-purpose input/output port
I2C bus clock input/output pin (open drain)
I2C bus DATA input/output pin (open drain)
External interrupt input pin
I/O
C
I/O
A
I/O
A
I/O
A
I/O
A
P16_4
68
General-purpose input/output port
General-purpose input/output port
INT15
63
External interrupt input pins
External interrupt input pin
P22_6
62
General-purpose input/output port
General-purpose input/output port
INT14
61
Function
General-purpose input/output port
I2C bus clock input/output pin (open drain)
General-purpose input/output port
Output pins of PPG timer
General-purpose input/output port
Output pins of PPG timer
General-purpose input/output port
Output pins of PPG timer
General-purpose input/output port
Output pins of PPG timer
General-purpose input/output port
I/O
A
Output pins of PPG timer
SGA output pin of sound generator
9
MB91460H Series
Pin no.
Pin name
I/O
I/O circuit
type*
P16_5
69
PPG13
General-purpose input/output port
I/O
A
SGO
70
P16_6
PPG14
PPG15
I/O
A
General-purpose input/output port
Output pins of PPG timer
General-purpose input/output port
I/O
A
ATGX
Output pins of PPG timer
A/D converter external trigger input pin
74 to 76
MD_0 to MD_2
I
G
Mode setting pins
77
MONCLK
O
M
Clock monitor pin
78
MD_3
I
H
Mode setting pin
79
X1
—
J1
Clock (oscillation) output
80
X0
—
J1
Clock (oscillation) input
82
X0A
—
J2
Sub clock (oscillation) input
83
X1A
—
J2
Sub clock (oscillation) output
84
INITX
I
H
External reset input pin
85
NMIX
I
H
Non-maskable interrupt input pin
I/O
A
I/O
A
92
93
P19_0
SIN4
P19_1
SOT4
P19_2
94
SCK4
95
96
P19_4
SIN5
P19_5
SOT5
I/O
A
SCK5
I/O
A
I/O
A
99
P18_0
SIN6
P18_1
SOT6
General-purpose input/output port
Data output pin of USART4
Clock input/output pin of USART4
General-purpose input/output port
Data input pin of USART5
General-purpose input/output port
Data output pin of USART5
General-purpose input/output port
I/O
A
CK5
98
Data input pin of USART4
External clock input pin of free-run timer 4
P19_6
97
General-purpose input/output port
General-purpose input/output port
CK4
10
Output pins of PPG timer
SG0 output pin of sound generator
P16_7
71
Function
Clock input/output pin of USART5
External clock input pin of free-run timer 5
I/O
A
I/O
A
General-purpose input/output port
Data input pin of USART6
General-purpose input/output port
Data output pin of USART6
MB91460H Series
Pin no.
Pin name
I/O
I/O circuit
type*
P18_2
100
SCK6
General-purpose input/output port
I/O
A
CK6
101
102
P18_4
SIN7
P18_5
SOT7
SCK7
I/O
A
I/O
A
110 to 117
118 to 125
128
129
ALARM_0
P29_0 to P29_7
AN0 to AN7
P28_0 to P28_7
AN8 to AN15
P24_2
INT2
P24_3
INT3
I/O
A
ICU0 to ICU3
TIN0 to TIN3
O
N
I/O
B
I/O
B
I/O
A
I/O
A
I/O
A
P07_0 to P07_5
A0 to A5
Clock input/output pin of USART7
Alarm comparator input pin
General-purpose input/output port
Analog input pins of A/D converter
General-purpose input/output port
Analog input pins of A/D converter
General-purpose input/output port
External interrupt input pin
General-purpose input/output port
External interrupt input pin
Input capture input pins
External trigger input pins of reload timer
General-purpose input/output port
I/O
A
TOT0 to TOT3
138 to 143
Data output pin of USART7
External trigger input pins of PPG timer
P15_0 to P15_3
OCU0 to OCU3
General-purpose input/output port
General-purpose input/output port
TTG0/8 to TTG3/11
134 to 137
Data input pin of USART7
External clock input pin of free-run timer 7
P14_0 to P14_3
130 to 133
General-purpose input/output port
General-purpose input/output port
CK7
104
Clock input/output pin of USART6
External clock input pin of free-run timer 6
P18_6
103
Function
Output compare output pins
Reload timer output pins
I/O
B
General-purpose input/output port
Signal pins of external address bus (bit0 to bit5)
11
MB91460H Series
[Power supply/Ground pins]
Pin no.
Pin name
12
I/O
Function
1, 19, 37, 55, 73, 81, 86,
91, 109, 127
VSS5
Ground pins
54, 72, 90, 108, 126
VDD5
Power supply pins
88, 89
VDD5R
105
AVSS5
107
AVCC5
Power supply pin for A/D converter
106
AVRH5
Reference power supply pin for A/D converter
87
VCC18C
Capacitor connection pin for internal regulator
18, 36, 144
VDD35
Power supply pins for internal regulator
Supply
Analog ground pin for A/D converter
Power supply pins for external bus part of I/O ring
MB91460H Series
2. MB91F464HB, MB91F466HA with MD_3=0
Pin no.
2 to 3
4 to 11
12 to 15
16
17
Pin name
P27_6 to P27_7
AN22 to AN23
P26_0 to P26_7
AN24 to AN31
P24_4 to P24_7
INT4 to INT7
P21_0
SIN0
P21_1
SOT0
I/O
I/O circuit
type*
I/O
B
I/O
B
I/O
A
I/O
A
I/O
A
P14_4 to P14_7
20 to 23
ICU4 to ICU7
TIN4 to TIN7
I/O
A
P17_0 to P17_7
PPG0 to PPG7
I/O
A
SIN2
I/O
A
I/O
A
I/O
A
ZIN0
I/O
A
I/O
A
BIN1
External trigger input pins of reload timer
Output compare output pins
General-purpose input/output ports
Output pins of PPG timer
Data input pin of USART2
Data output pin of USART2
Clock input/output pin of USART2
Up/down counter input pin
Data input pin of USART3
Up/down counter input pin
P20_5
SOT3
Input capture input pins
General-purpose input/output ports
AIN1
42
Data output pin of USART0
External clock input pin of free-run timer 2
P20_4
SIN3
General-purpose input/output ports
General-purpose input/output ports
CK2
41
Data input pin of USART0
Up/down counter input pin
P20_2
SCK2
General-purpose input/output ports
General-purpose input/output ports
BIN0
40
External interrupt input pins
Up/down counter input pin
P20_1
SOT2
General-purpose input/output ports
General-purpose input/output ports
AIN0
39
Analog input pins of A/D converter
Reload timer output pins
P20_0
38
General-purpose input/output ports
General-purpose input/output ports
TOT4 to TOT7
28 to 35
Analog input pins of A/D co ˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇˇ¿
External trigger input pins of PPG timer
P15_4 to P15_7
OCU4 to OCU7
General-purpose input/output ports
General-purpose input/output ports
TTG4/12 to TTG7/15
24 to 27
Function
General-purpose input/output ports
I/O
A
Data output pin of USART3
Up/down counter input pin
13
MB91460H Series
Pin no.
Pin name
I/O
I/O circuit
type*
P20_6
43
SCK3
ZIN1
General-purpose input/output ports
I/O
A
CK3
44
45
P24_0
INT0
P24_1
INT1
RX0
I/O
A
I/O
A
48
49
50
51
52
53
56
57
58
59
P23_1
TX0
P23_2
INT9
P23_3
P23_4
INT10
P23_5
P23_6
INT11
P23_7
P22_0
INT12
P22_1
P22_2
INT13
P22_3
I/O
A
SDA0
I/O
A
I/O
A
I/O
A
I/O
A
I/O
A
I/O
A
I/O
A
I/O
A
I/O
A
I/O
A
I/O
A
P22_5
SCL0
I/O
C
SDA1
INT15
14
General-purpose input/output ports
External interrupt input pin
RX input pin of CAN0
General-purpose input/output port
TX output pin of CAN0
General-purpose input/output port
External interrupt input pins
General-purpose input/output port
General-purpose input/output port
External interrupt input pin
General-purpose input/output port
General-purpose input/output port
External interrupt input pin
General-purpose input/output port
General-purpose input/output port
External interrupt input pin
General-purpose input/output port
General-purpose input/output port
External interrupt input pin
General-purpose input/output port
I2C bus DATA input/output pin (open drain)
External interrupt input pin
I/O
C
P22_6
62
External interrupt input pin
General-purpose input/output ports
INT14
61
General-purpose input/output ports
External interrupt input pins
P22_4
60
Up/down counter input pin
General-purpose input/output port
INT8
47
Clock input/output pin of USART3
External clock input pin of free-run timer 3
P23_0
46
Function
General-purpose input/output ports
I2C bus clock input/output pin (open drain)
General-purpose input/output ports
I/O
C
I2C bus DATA input/output pin (open drain)
External interrupt input pin
MB91460H Series
Pin no.
63
64 to 67
Pin name
P22_7
SCL1
P16_0 to P16_3
PPG8 to PPG11
I/O
I/O circuit
type*
I/O
C
I/O
A
P16_4
68
69
PPG12
I/O
A
I2C bus clock input/output pin (open drain)
General-purpose input/output ports
Output pins of PPG timer
Output pins of PPG timer
SGA
SGA output pin of sound generator
P16_5
General-purpose input/output ports
PPG13
I/O
A
P16_6
PPG14
PPG15
Output pins of PPG timer
SG0 output pin of sound generator
I/O
A
P16_7
71
General-purpose input/output ports
General-purpose input/output ports
SGO
70
Function
General-purpose input/output ports
Output pins of PPG timer
General-purpose input/output ports
I/O
A
ATGX
Output pins of PPG timer
A/D converter external trigger input pin
74 to 76
MD_0 to MD_2
I
G
Mode setting pins
77
MONCLK
O
M
Clock monitor pin
78
MD_3
I
H
Mode setting pins
79
X1
—
J1
Clock (oscillation) output
80
X0
—
J1
Clock (oscillation) input
82
X0A
—
J2
Sub clock (oscillation) input
83
X1A
—
J2
Sub clock (oscillation) output
84
INITX
I
H
External reset input pin
85
NMIX
I
H
Non-maskable interrupt input pin
I/O
A
I/O
A
92
93
P19_0
SIN4
P19_1
SOT4
P19_2
94
SCK4
96
P19_4
SIN5
P19_5
SOT5
Data input pin of USART4
General-purpose input/output ports
Data output pin of USART4
General-purpose input/output ports
I/O
A
CK4
95
General-purpose input/output ports
Clock input/output pin of USART4
External clock input pin of free-run timer 4
I/O
A
I/O
A
General-purpose input/output ports
Data input pin of USART5
General-purpose input/output ports
Data output pin of USART5
15
MB91460H Series
Pin no.
Pin name
I/O
I/O circuit
type*
P19_6
97
SCK5
General-purpose input/output ports
I/O
A
CK5
98
99
P18_0
SIN6
P18_1
SOT6
SCK6
I/O
A
I/O
A
102
P18_4
SIN7
P18_5
SOT7
I/O
A
SCK7
I/O
A
I/O
A
110 to 117
118 to 125
128
129
ALARM_0
P29_0 to P29_7
AN0 to AN7
P28_0 to P28_7
AN8 to AN15
P24_2
INT2
P24_3
INT3
I/O
A
ICU0 to ICU3
TIN0 to TIN3
I
N
I/O
B
I/O
B
I/O
A
I/O
A
I/O
A
P27_0 to P27_5
AN16 to AN21
Data input pin of USART7
General-purpose input/output ports
Data output pin of USART7
Clock input/output pin of USART7
Alarm comparator input pin
General-purpose input/output ports
Analog input pins of A/D converter
General-purpose input/output ports
Analog input pins of A/D converter
General-purpose input/output ports
External interrupt input pin
General-purpose input/output ports
External interrupt input pin
Input capture input pins
External trigger input pins of reload timer
General-purpose input/output ports
I/O
A
TOT0 to TOT3
138 to 143
General-purpose input/output ports
External trigger input pins of PPG timer
P15_0 to P15_3
OCU0 to OCU3
Clock input/output pin of USART6
General-purpose input/output ports
TTG0/8 to TTG3/11
134 to 137
Data output pin of USART6
External clock input pin of free-run timer 7
P14_0 to P14_3
130 to 133
General-purpose input/output ports
General-purpose input/output ports
CK7
104
Data input pin of USART6
External clock input pin of free-run timer 6
P18_6
103
General-purpose input/output ports
General-purpose input/output ports
CK6
101
Clock input/output pin of USART5
External clock input pin of free-run timer 5
P18_2
100
Function
Output compare output pins
Reload timer output pins
I/O
B
General-purpose input/output ports
Analog input pins of A/D converter
* : For information about the I/O circuit type, refer to “■ I/O CIRCUIT TYPES”.
16
MB91460H Series
[Power supply/Ground pins]
Pin no.
Pin name
I/O
Function
1, 19, 37, 55, 73, 81, 86,
91, 109, 127
VSS5
Ground pins
54, 72, 90, 108, 126
VDD5
Power supply pins
88, 89
VDD5R
105
AVSS5
107
AVCC5
Power supply pin for A/D converter
106
AVRH5
Reference power supply pin for A/D converter
87
VCC18C
Capacitor connection pin for internal regulator
18, 36, 144
VDD35
Power supply pins for internal regulator
Supply
Analog ground pin for A/D converter
Power supply pins for external bus part of I/O ring
* : For information about the I/O circuit type, refer to “■ I/O CIRCUIT TYPES”.
17
MB91460H Series
■ I/O CIRCUIT TYPES
Type
Circuit
A
Remarks
pull-up control
driver strength
control
data line
CMOS level output
(programmable IOL = 5mA, IOH = -5mA
and IOL = 2mA, IOH = -2mA)
2 different CMOS hysteresis inputs with input
shutdown function
Automotive input with input shutdown function
TTL input with input shutdown function
Programmable pull-up resistor: 50kΩ approx.
pull- down control
R
CMOS hysteresis type1
CMOS hysteresis type2
Automotive inputs
TTL input
standby control for
input shutdown
B
pull-up control
driver strength
control
data line
pull- down control
R
CMOS hysteresis type1
CMOS hysteresis type2
Automotive inputs
TTL input
standby control for
input shutdown
analog input
18
CMOS level output
(programmable IOL = 5mA, IOH = -5mA
and IOL = 2mA, IOH = -2mA)
2 different CMOS hysteresis inputs with input
shutdown function
Automotive input with input shutdown function
TTL input with input shutdown function
Programmable pull-up resistor: 50kΩ approx.
Analog input
MB91460H Series
Type
Circuit
C
Remarks
pull-up control
data line
CMOS level output (IOL = 3mA, IOH = -3mA)
2 different CMOS hysteresis inputs with input
shutdown function
Automotive input with input shutdown function
TTL input with input shutdown function
Programmable pull-up resistor: 50kΩ approx.
pull- down control
R
CMOS hysteresis type1
CMOS hysteresis type2
Automotive inputs
TTL input
standby control for
input shutdown
D
pull-up control
data line
CMOS level output (IOL = 3mA, IOH = -3mA)
2 different CMOS hysteresis inputs with input
shutdown function
Automotive input with input shutdown function
TTL input with input shutdown function
Programmable pull-up resistor: 50kΩ approx.
Analog input
pull- down control
R
CMOS hysteresis type1
CMOS hysteresis type2
Automotive inputs
TTL input
standby control for
input shutdown
analog input
19
MB91460H Series
Type
Circuit
E
Remarks
pull-up control
driver strength
control
data line
pull- down control
CMOS level output
(programmable IOL = 5mA, IOH = -5mA
and IOL = 2mA, IOH = -2mA,
and IOL = 30mA, IOH = -30mA)
2 different CMOS hysteresis inputs with input
shutdown function
Automotive input with input shutdown function
TTL input with input shutdown function
Programmable pull-up resistor: 50kΩ approx.
R
CMOS hysteresis type1
CMOS hysteresis type2
Automotive inputs
TTL input
standby control for
input shutdown
F
pull-up control
driver strength
control
data line
pull- down control
R
CMOS hysteresis type1
CMOS hysteresis type2
Automotive inputs
TTL input
standby control for
input shutdown
analog input
20
CMOS level output
(programmable IOL = 5mA, IOH = -5mA
and IOL = 2mA, IOH = -2mA,
and IOL = 30mA, IOH = -30mA)
2 different CMOS hysteresis inputs with input
shutdown function
Automotive input with input shutdown function
TTL input with input shutdown function
Programmable pull-up resistor: 50kΩ approx.
Analog input
MB91460H Series
Type
Circuit
Remarks
G
R
Hysteresis
inputs
H
Mask ROM and EVA device:
CMOS Hysteresis input pin
Flash device:
CMOS input pin
12 V withstand (for MD [2:0])
CMOS Hysteresis input pin
Pull-up resistor value: 50 kΩ approx.
Pull-up
Resistor
R
Hysteresis
inputs
J1
X1
R
0
Xout
1
High-speed oscillation circuit:
• Programmable between oscillation mode
(external crystal or resonator connected
to X0/X1 pins) and
Fast external Clock Input (FCI) mode
(external clock connected to X0 pin)
• Feedback resistor = approx. 2 * 0.5 MΩ.
Feedback resistor is grounded in the center
when the oscillator is disabled or in FCI mode.
FCI
R
X0
FCI or osc disable
J2
Xout
X1A
Low-speed oscillation circuit:
• Feedback resistor = approx. 2 * 5 MΩ.
Feedback resistor is grounded in the center
when the oscillator is disabled.
R
R
X0A
osc disable
21
MB91460H Series
Type
Circuit
K
Remarks
pull-up control
driver strength
control
data line
pull- down control
CMOS level output
(programmable IOL = 5mA, IOH = -5mA
and IOL = 2mA, IOH = -2mA)
2 different CMOS hysteresis inputs with input
shutdown function
Automotive input with input shutdown function
TTL input with input shutdown function
Programmable pull-up resistor: 50kΩ approx.
LCD SEG/COM output
R
CMOS hysteresis type1
CMOS hysteresis type2
Automotive inputs
TTL input
standby control for
input shutdown
LCD SEG/COM
L
pull-up control
driver strength
control
data line
pull- down control
R
CMOS hysteresis type1
CMOS hysteresis type2
Automotive inputs
TTL input
standby control for
input shutdown
VLCD
22
CMOS level output
(programmable IOL = 5mA, IOH = -5mA
and IOL = 2mA, IOH = -2mA)
2 different CMOS hysteresis inputs with input
shutdown function
Automotive input with input shutdown function)
TTL input with input shutdown function
Programmable pull-up resistor: 50kΩ approx.
Analog input
LCD Voltage input
MB91460H Series
Type
Circuit
Remarks
M
CMOS level tri-state output
(IOL = 5mA, IOH = -5mA)
tri-state control
data line
N
Analog input pin with protection
analog input line
23
MB91460H Series
■ HANDLING DEVICES
1. Preventing Latch-up
Latch-up may occur in a CMOS IC if a voltage higher than (VDD5, VDD35 or HVDD5 *1) or less than (VSS5 or
HVSS5 *1) is applied to an input or output pin or if a voltage exceeding the rating is applied between the power
supply pins and ground pins. If latch-up occurs, the power supply current increases rapidly, sometimes resulting
in thermal breakdown of the device. Therefore, be very careful not to apply voltages in excess of the absolute
maximum ratings.
Note *1: HVDD5, HVSS5 are available only on devices having Stepper Motor Controller.
2. Handling of unused input pins
If unused input pins are left open, abnormal operation may result. Any unused input pins should be connected
to pull-up or pull-down resistor (2KΩ to 10KΩ) or enable internal pullup or pulldown resisters (PPER/PPCR)
before the input enable (PORTEN) is activated by software. The mode pins MD_x can be connected to VSS5 or
VDD5 directly. Unused ALARM input pins can be connected to AVSS5 directly.
3. Power supply pins
In MB91460 series, devices including multiple power supply pins and ground pins are designed as follows; pins
necessary to be at the same potential are interconnected internally to prevent malfunctions such as latch-up.
All of the power supply pins and ground pins must be externally connected to the power supply and ground
respectively in order to reduce unnecessary radiation, to prevent strobe signal malfunctions due to the ground
level rising and to follow the total output current ratings. Furthermore, the power supply pins and ground pins of
the MB91460 series must be connected to the current supply source via a low impedance.
It is also recommended to connect a ceramic capacitor of approximately 0.1 µF as a bypass capacitor between
power supply pin and ground pin near this device.
This series has a built-in step-down regulator. Connect a bypass capacitor of 4.7 µF (use a X7R ceramic
capacitator) to VCC18C pin for the regulator.
4. Crystal oscillator circuit
Noise in proximity to the X0 (X0A) and X1 (X1A) pins can cause the device to operate abnormally. Printed circuit
boards should be designed so that the X0 (X0A) and X1 (X1A) pins, and crystal oscillator, as well as bypass
capacitors connected to ground, are located near the device and ground.
It is recommended that the printed circuit board layout be designed such that the X0 and X1 pins or X0A and
X1A pins are surrounded by ground plane for the stable operation.
Please request the oscillator manufacturer to evaluate the oscillational characteristics of the crystal and this
device.
5. Notes on using external clock
When using the external clock, it is necessary to simultaneously supply the X0 (X0A) and the X1 (X1A) pins. In
the described combination, X1 (X1A) should be supplied with a clock signal which has the opposite phase to
the X0 (X0A) pins. At X0 and X1, a frequency up to 16 MHz is possible.
(Continued)
24
MB91460H Series
(Continued)
Example of using opposite phase supply
X0 (X0A)
X1 (X1A)
6. Mode pins (MD_x)
These pins should be connected directly to the power supply or ground pins. To prevent the device from entering
test mode accidentally due to noise, minimize the lengths of the patterns between each mode pin and power
supply pin or ground pin on the printed circuit board as possible and connect them with low impedance.
7. Notes on operating in PLL clock mode
If the oscillator is disconnected or the clock input stops when the PLL clock is selected, the microcontroller may
continue to operate at the free-running frequency of the self-oscillating circuit of the PLL. However, this selfrunning operation cannot be guaranteed.
8. Pull-up control
The AC standard is not guaranteed in case a pull-up resistor is connected to the pin serving as an external bus pin.
25
MB91460H Series
■ NOTES ON DEBUGGER
1. Execution of the RETI Command
If single-step execution is used in an environment where an interrupt occurs frequently, the corresponding
interrupt handling routine will be executed repeatedly to the exclusion of other processing. This will prevent the
main routine and the handlers for low priority level interrupts from being executed (For example, if the time-base
timer interrupt is enabled, stepping over the RETI instruction will always break on the first line of the time-base
timer interrupt handler).
Disable the corresponding interrupts when the corresponding interrupt handling routine no longer needs debugging.
2. Break function
If the range of addresses that cause a hardware break (including event breaks) is set to the address of the
current system stack pointer or to an area that contains the stack pointer, execution will break after each
instruction regardless of whether the user program actually contains data access instructions.
To prevent this, do not set (word) access to the area containing the address of the system stack pointer as the
target of the hardware break (including an event breaks).
3. Operand break
It may cause malfunctions if a stack pointer exists in the area which is set as the DSU operand break. Do not
set the access to the areas containing the address of system stack pointer as a target of data event break.
4. Notes on PS register
As the PS register is processed in advance by some instructions, when the debugger is being used, the exception
handling may result in execution breaking in an interrupt handling routine or the displayed values of the flags in
the PS register being updated.
As the microcontroller is designed to carry out reprocessing correctly upon returning from such an EIT event,
the operation before and after the EIT always proceeds according to specification.
• The following behavior may occur if any of the following occurs in the instruction
immediately after a DIV0U/DIV0S instruction:
(a) a user interrupt or NMI is accepted;
(b) single-step execution is performed;
(c) execution breaks due to a data event or from the emulator menu.
1. D0 and D1 flags are updated in advance.
2. An EIT handling routine (user interrupt/NMI or emulator) is executed.
3. Upon returning from the EIT, the DIV0U/DIV0S instruction is executed
and the D0 and D1 flags are updated to the same values as those in 1.
• The following behavior occurs when an ORCCR, STILM, MOV Ri,PS instruction is executed
to enable a user interrupt or NMI source while that interrupt is in the active state.
1. The PS register is updated in advance.
2. An EIT handling routine (user interrupt/NMI or emulator) is executed.
3. Upon returning from the EIT, the above instructions are executed and the PS register
is updated to the same value as in 1.
26
MB91460H Series
■ BLOCK DIAGRAM
1. MB91F464HB, MB91F466HA with MD_3=1
FR60 CPU
core
Flash-Cache
8 Kbytes
I-bus
32
D-RAM
16 Kbytes
Bit search
Flash memory
416 Kbytes (MB91F464HB)
832 Kbytes (MB91F466HA)
D-bus
32
CAN
1 channel
RX0
TX0
32 <-> 16
bus adapter
ID-RAM
16 Kbytes
External
bus
interface
Bus converter
RDX
WRX0 to WRX1
SYSCLK
RDY
CSX0 to CSX1
A0 to A21
D16 to D31
DMAC
5 channels
R-bus
16
Clock modulator
TTG0/8 to TTG3/11
PPG8 to PPG15
TIN0 to TIN3
TOT0 to TOT3
CK4 to CK7
ICU0 to ICU3
Clock supervisor
Clock monitor
Clock control
Interrupt controller
PPG timer
8 channels
Reload timer
8 channels
Free-run timer
8 channels
Input capture
4 channels
External interrupt
12 channels
MONCLK
INT0 to INT3,
INT8 to to INT15
LIN-USART
4 channels
SIN4 to SIN7
SOT4 to SOT7
SCK4 to SCK7
I2C
2 channels
SDA0 to SDA1
SCL0 to SCL1
Real time clock
OCU0 to OCU3
ALARM_0
Output compare
4 channels
Alarm comparator
1 channel
A/D converter
16 channels
Sound generator
1 channel
AN0 to AN15
ATGX
SGA
SG0
27
MB91460H Series
2. MB91F464HB, MB91F466HA with MD_3=0
FR60 CPU
core
Flash-Cache
8 Kbytes
I-bus
32
D-RAM
16Kbytes
Bit search
Flash memory
416 Kbytes (MB91F464HB)
832 Kbytes (MB91F466HA)
D-bus
32
CAN
1 channel
RX0
TX0
32 <-> 16
bus adapter
ID-RAM
16 Kbytes
Bus converter
DMAC
5 channels
R-bus
16
Clock modulator
Clock supervisor
Clock monitor
Clock control
Interrupt controller
TTG0/8 to TTG7/15
PPG0 to PPG15
PPG timer
16 channels
TIN0 to TIN7
TOT0 to TOT7
Reload timer
8 channels
CK2 to CK7
ICU0 to ICU7
Free-run timer
8 channels
Input capture
8 channels
External interrupt
16 channels
MONCLK
INT0 to INT15
LIN-USART
7 channels
SIN2 to SIN7,SIN0
SOT2 to SOT7,SOT0
SCK2 to SCK7
I2C
2 channels
SDA0 to SDA1
SCL0 to SCL1
Real time clock
OCU0 to OCU7
AIN0 to AIN1
BIN0 to BIN1
ZIN0 to ZIN1
ALARM_0
28
Output compare
8 channels
Up/down counter
2 channels
Alarm comparator
1 channel
A/D converter
32 channels
Sound generator
1 channel
AN0 to AN31
ATGX
SGA
SG0
MB91460H Series
■ CPU AND CONTROL UNIT
The FR family CPU is a high performance core that is designed based on the RISC architecture with advanced
instructions for embedded applications.
1. Features
• Adoption of RISC architecture
Basic instruction: 1 instruction per cycle
• General-purpose registers: 32-bit 16 registers
• 4 Gbytes linear memory space
• Multiplier installed
32-bit 32-bit multiplication: 5 cycles
16-bit 16-bit multiplication: 3 cycles
• Enhanced interrupt processing function
Quick response speed (6 cycles)
Multiple-interrupt support
Level mask function (16 levels)
• Enhanced instructions for I/O operation
Memory-to-memory transfer instruction
Bit processing instruction
Basic instruction word length: 16 bits
• Low-power consumption
Sleep mode/stop mode
2. Internal architecture
• The FR family CPU uses the Harvard architecture in which the instruction bus and data bus are independent
of each other.
• A 32-bit ↔ 16-bit buffer is connected to the 32-bit bus (D-bus) to provide an interface between the CPU and
peripheral resources.
• A Harvard ↔ Princeton bus converter is connected to both the I-bus and D-bus to provide an interface between
the CPU and the bus controller.
29
MB91460H Series
3. Programming model
3.1.
Basic programming model
32 bits
Initial value
R0
XXXX XXXXH
...
R1
General-purpose registers
...
R12
R13
AC
...
R14
FP
XXXX XXXXH
R15
SP
0000 0000H
Program counter
PC
Program status
RS
Table base register
TBR
Return pointer
RP
System stack pointer
SSP
User stack pointer
USP
Multiply & divide registers
MDH
MDL
30
...
...
...
...
...
...
ILM
SCR
CCR
MB91460H Series
4. Registers
4.1.
General-purpose register
32 bits
Initial value
R0
XXXX XXXXH
...
R1
...
...
...
...
...
...
...
R12
R13
AC
...
R14
FP
XXXX XXXXH
R15
SP
0000 0000H
Registers R0 to R15 are general-purpose registers. These registers can be used as accumulators for computation
operations and as pointers for memory access.
Of the 16 registers, enhanced commands are provided for the following registers to enable their use for particular
applications.
R13 : Virtual accumulator
R14 : Frame pointer
R15 : Stack pointer
Initial values at reset are undefined for R0 to R14. The value for R15 is 00000000H (SSP value).
4.2.
PS (Program Status)
This register holds the program status, and is divided into three parts, ILM, SCR, and CCR.
All undefined bits (-) in the diagram are reserved bits. The read values are always “0”. Write access to these
bits is invalid.
Bit position →
bit 31
bit 20
bit 16
ILM
bit 10 bit 8 bit 7
SCR
bit 0
CCR
31
MB91460H Series
4.3.
CCR (Condition Code Register)
bit 7
bit 6
bit 5
bit 4
bit 3
bit 2
bit 1
bit 0
SV
S
I
N
Z
V
C
Initial value
- 000XXXXB
SV : Supervisor flag
S : Stack flag
I
: Interrupt enable flag
N : Negative enable flag
Z
: Zero flag
V
: Overflow flag
C : Carry flag
4.4.
SCR (System Condition Register)
bit 10 bit 9
D1
bit 8
D0
Initial value
T
XX0B
Flag for step division (D1, D0)
This flag stores interim data during execution of step division.
Step trace trap flag (T)
This flag indicates whether the step trace trap is enabled or disabled.
The step trace trap function is used by emulators. When an emulator is in use, it cannot be used in execution
of user programs.
4.5.
ILM (Interrupt Level Mask register)
bit 20 bit 19 bit 18 bit 17 bit 16
Initial value
ILM4 ILM3 ILM2 ILM1 ILM0
01111B
This register stores interrupt level mask values, and the values stored in ILM4 to ILM0 are used for level masking.
The register is initialized to value “01111B” at reset.
4.6.
PC (Program Counter)
bit 31
bit 0
Initial value
XXXXXXXXH
The program counter indicates the address of the instruction that is being executed.
The initial value at reset is undefined.
32
MB91460H Series
4.7.
TBR (Table Base Register)
bit 31
bit 0
Initial value
000FFC00H
The table base register stores the starting address of the vector table used in EIT processing.
The initial value at reset is 000FFC00H.
4.8.
RP (Return Pointer)
bit 31
bit 0
Initial value
XXXXXXXXH
The return pointer stores the address for return from subroutines.
During execution of a CALL instruction, the PC value is transferred to this RP register.
During execution of a RET instruction, the contents of the RP register are transferred to PC.
The initial value at reset is undefined.
4.9.
USP (User Stack Pointer)
bit 31
bit 0
Initial value
XXXXXXXXH
The user stack pointer, when the S flag is “1”, this register functions as the R15 register.
• The USP register can also be explicitly specified.
The initial value at reset is undefined.
• This register cannot be used with RETI instructions.
4.10. Multiply & divide registers
bit 31
bit 0
MDH
MDL
These registers are for multiplication and division, and are each 32 bits in length.
The initial value at reset is undefined.
33
MB91460H Series
■ EMBEDDED PROGRAM/DATA MEMORY (FLASH)
1. Flash features
•
•
•
•
•
•
MB91F464HB : 416 Kbytes (6 × 64 Kbytes + 4 × 8 Kbytes = 3.25 Mbits)
MB91F466HA : 832 Kbytes (12 × 64 Kbytes + 8 × 8 Kbytes = 6.5 Mbits)
Programmable wait states for read/write access
Flash and Boot security with security vector at 0x0014:8000 - 0x0014:800F
Boot security
Basic specification: Same as MBM29LV400TC (except size and part of sector configuration)
2. Operation modes:
(1) 64-bit CPU mode (available on MB91F466HA only) :
• CPU reads and executes programs in word (32-bit) length units.
• Flash writing is not possible.
• Actual Flash Memory access is performed in d-word (64-bit) length units.
(2) 32-bit CPU mode:
• CPU reads and executes programs in word (32-bit) length units.
• Actual Flash Memory access is performed in word (32-bit) length units.
(3) 16-bit CPU mode:
• CPU reads and writes in half-word (16-bit) length units.
• Program execution from the Flash is not possible.
• Actual Flash Memory access is performed in word (16-bit) length units.
(4) Flash memory mode (external access to Flash memory enabled)
Note: The operation mode of the flash memory can be selected using a Boot-ROM function. The function start
address is 0xBF60. The parameter description is given in the Hardware Manual in chapter 54.6 "Flash
Access Mode Switching".
34
MB91460H Series
3. Flash access in CPU mode
3.1.
Flash configuration
3.1.1.
Flash memory map MB91F464HB
Address
0014:FFFFh
0014:C000h
SA6 (8KB)
SA7 (8KB)
0014:BFFFh
0014:8000h
SA4 (8KB)
SA5 (8KB)
0014:7FFFh
0014:4000h
SA2 (8KB)
SA3 (8KB)
0014:3FFFh
0014:0000h
SA0 (8KB)
SA1 (8KB)
0013:FFFFh
0012:0000h
SA22 (64KB)
SA23 (64KB)
ROMS7
ROMS6
0011:FFFFh
0010:0000h
SA20 (64KB)
SA21 (64KB)
000F:FFFFh
000E:0000h
SA18 (64KB)
SA19 (64KB)
ROMS5
000D:FFFFh
000C:0000h
SA16 (64KB)
SA17 (64KB)
ROMS4
000B:FFFFh
000A:0000h
SA14 (64KB)
SA15 (64KB)
ROMS3
0009:FFFFh
0008:0000h
SA12 (64KB)
SA13 (64KB)
ROMS2
0007:FFFFh
0006:0000h
SA10 (64KB)
SA11 (64KB)
ROMS1
0005:FFFFh
0004:0000h
SA8 (64KB)
SA9 (64KB)
ROMS0
addr+0
16bit read/write
addr+1
addr+2
dat[31:16]
addr+3
dat[15:0]
addr+4
addr+5
addr+6
dat[31:16]
addr+7
dat[15:0]
32bit read
dat[31:0]
dat[31:0]
Legend
Memory not available in this area
Memory available in this area
35
MB91460H Series
3.1.2.
Flash memory map MB91F466HA
Addr
0014:FFFFh
0014:C000h
SA6 (8KB)
SA7 (8KB)
0014:BFFFh
0014:8000h
SA4 (8KB)
SA5 (8KB)
0014:7FFFh
0014:4000h
SA2 (8KB)
SA3 (8KB)
0014:3FFFh
0014:0000h
SA0 (8KB)
SA1 (8KB)
0013:FFFFh
0012:0000h
SA22 (64KB)
SA23 (64KB)
0011:FFFFh
0010:0000h
SA20 (64KB)
SA21 (64KB)
000F:FFFFh
000E:0000h
SA18 (64KB)
SA19 (64KB)
ROMS5
000D:FFFFh
000C:0000h
SA16 (64KB)
SA17 (64KB)
ROMS4
000B:FFFFh
000A:0000h
SA14 (64KB)
SA15 (64KB)
ROMS3
0009:FFFFh
0008:0000h
SA12 (64KB)
SA13 (64KB)
ROMS2
0007:FFFFh
0006:0000h
SA10 (64KB)
SA11 (64KB)
ROMS1
0005:FFFFh
0004:0000h
SA8 (64KB)
SA9 (64KB)
ROMS0
ROMS7
ROMS6
addr+0
16bit read/write
32bit read
addr+1
addr+2
dat[31:16]
36
addr+4
addr+5
addr+6
dat[31:16]
dat[31:0]
Memory not available in this area
addr+7
dat[15:0]
dat[31:0]
dat[63:0]
64bit read
Legend
addr+3
dat[15:0]
Memory available in this area
MB91460H Series
3.2.
Flash access timing settings in CPU mode
The following tables list all settings for a given maximum Core Frequency (through the setting of CLKB or
maximum clock modulation) for Flash read and write access.
3.2.1.
Flash read timing settings (synchronous read)
Core clock (CLKB)
ATD
ALEH
EQ
WEXH
WTC
to 24 MHz
0
0
0
-
1
to 48 MHz
0
0
1
-
2
to 96 MHz
1
1
3
-
4
to 100 MHz
1
1
3
-
4
not available on MB91F466HA
Remark
3.2.2.
Remark
Flash write timing settings (synchronous write)
Core clock (CLKB)
ATD
ALEH
EQ
WEXH
WTC
to 16 MHz
0
-
-
0
3
to 32 MHz
0
-
-
0
4
to 48 MHz
0
-
-
0
5
to 64 MHz
1
-
-
0
6
to 96 MHz
1
-
-
0
7
to 100 MHz
1
-
-
0
7
not available on MB91F466HA
37
MB91460H Series
3.3.
Address mapping from CPU to parallel programming mode
The following tables show the calculation from CPU addresses to flash macro addresses which are used in
parallel programming.
3.3.1.
Address mapping MB91F464HB
CPU Address
Condition
(addr)
Flash
sectors
FA (flash address) Calculation
14:8000h
to
14:FFFFh
addr[2]==0
SA4, SA6
(8 Kbyte)
FA := addr - addr%00:4000h + (addr%00:4000h)/2 (addr/2)%4 + addr%4 - 0D:0000h
14:8000h
to
14:FFFFh
addr[2]==1
SA5, SA7
(8 Kbyte)
FA := addr - addr%00:4000h + (addr%00:4000h)/2 +
00:2000h - (addr/2)%4 + addr%4 - 0D:0000h
0A:0000h
to
0F:FFFFh
addr[2]==0
SA14, SA16, SA18
(64 Kbyte)
FA := addr - addr%02:0000 + (addr%02:0000h)/2 (addr/2)%4 + addr%4
0A:0000h
to
0F:FFFFh
addr[2]==1
SA15, SA17, SA19
(64 Kbyte)
FA := addr - addr%02:0000h + (addr%02:0000h)/2 +
01:0000h - (addr/2)%4 + addr%4
Note: FA result is without 20:0000h offset for parallel Flash programming .
Set offset by keeping FA[21] = 1 as described in section “Parallel Flash programming mode”.
3.3.2.
Address mapping MB91F466HA
CPU Address
Condition
(addr)
Flash
sectors
FA (flash address) Calculation
14:0000h
to
14:FFFFh
addr[2]==0
SA0, SA2, SA4, SA6
(8 Kbyte)
FA := addr - addr%00:4000h + (addr%00:4000h)/2 (addr/2)%4 + addr%4 - 05:0000h
14:0000h
to
14:FFFFh
addr[2]==1
SA1, SA3, SA5, SA7
(8 Kbyte)
FA := addr - addr%00:4000h + (addr%00:4000h)/2 +
00:2000h - (addr/2)%4 + addr%4 - 05:0000h
04:0000h
to
0F:FFFFh
addr[2]==0
SA8, SA10, SA12, SA14,
SA16, SA18
(64 Kbyte)
FA := addr - addr%02:0000 + (addr%02:0000h)/2 (addr/2)%4 + addr%4 + 0C:0000h
04:0000h
to
0F:FFFFh
addr[2]==1
SA9, SA11, SA13, SA15,
SA17, SA19
(64 Kbyte)
FA := addr - addr%02:0000h + (addr%02:0000h)/2 +
01:0000h - (addr/2)%4 + addr%4 + 0C:0000h
Note: FA result is without 20:0000h offset for parallel Flash programming .
Set offset by keeping FA[21] = 1 as described in section “Parallel Flash programming mode”.
38
MB91460H Series
4. Parallel Flash programming mode
4.1.
Flash configuration in parallel Flash programming mode
Parallel Flash programming mode (MD[2:0] = 111):
MB91F464HB
MB91F466HA
FA[20:0]
FA[21:0]
001F:FFFFh
001F:0000h
SA19 (64KB)
SA23 (64KB)
001E:FFFFh
001E:0000h
SA18 (64KB)
SA22 (64KB)
001D:FFFFh
001D:0000h
SA17 (64KB)
001C:FFFFh
001C:0000h
SA16 (64KB)
001B:FFFFh
001B:0000h
SA15 (64KB)
001A:FFFFh
001A:0000h
SA14 (64KB)
SA21 (64KB)
SA20 (64KB)
003B:FFFFh
003B:0000h
SA19 (64KB)
003A:FFFFh
003A:0000h
SA18 (64KB)
0039:FFFFh
0039:0000h
SA17 (64KB)
0038:FFFFh
0038:0000h
SA16 (64KB)
SA12 (64KB)
0037:FFFFh
0037:0000h
SA15 (64KB)
SA11 (64KB)
0036:FFFFh
0036:0000h
SA14 (64KB)
SA10 (64KB)
0035:FFFFh
0035:0000h
SA13 (64KB)
SA9 (64KB)
0034:FFFFh
0034:0000h
SA12 (64KB)
0033:FFFFh
0033:0000h
SA11 (64KB)
0032:FFFFh
0032:0000h
SA10 (64KB)
0031:FFFFh
0031:0000h
SA9 (64KB)
0030:FFFFh
0030:0000h
SA8 (64KB)
002F:FFFFh
002F:E000h
SA7 (8KB)
SA13 (64KB)
SA8 (64KB)
0017:FFFFh
0017:E000h
SA7 (8KB)
0017:DFFFh
0017:C000h
SA6 (8KB)
0017:BFFFh
0017:A000h
SA5 (8KB)
0017:9FFFh
0017:8000h
SA4 (8KB)
002F:DFFFh
002F:C000h
SA6 (8KB)
SA3 (8KB)
002F:BFFFh
002F:A000h
SA5 (8KB)
SA2 (8KB)
002F:9FFFh
002F:8000h
SA4 (8KB)
SA1 (8KB)
002F:7FFFh
002F:6000h
SA3 (8KB)
002F:5FFFh
002F:4000h
SA2 (8KB)
002F:3FFFh
002F:2000h
SA1 (8KB)
002F:1FFFh
002F:0000h
SA0 (8KB)
SA0 (8KB)
16bit write mode
FA[1:0]=00
FA[1:0]=10
DQ[15:0]
DQ[15:0]
Remark: Always keep FA[0] = 0 and FA[20] = 1
16bit write mode
Legend
FA[1:0]=00
FA[1:0]=10
DQ[15:0]
DQ[15:0]
Memory available in this area
Memory not available in this area
39
MB91460H Series
4.2.
Pin connections in parallel programming mode
Resetting after setting the MD[2:0] pins to [111] will halt CPU functioning. At this time, the Flash memory's
interface circuit enables direct control of the Flash memory unit from external pins by directly linking some of
the signals to GP-Ports. Please see table below for signal mapping.
In this mode, the Flash memory appears to the external pins as a stand-alone unit. This mode is generally set
when writing/erasing using the parallel Flash programmer. In this mode, all operations of the 8.5 Mbits Flash
memory's Auto Algorithms are available.
Correspondence between MBM29LV400TC and Flash Memory Control Signals
MBM29LV400TC
MB91F464HB
FR-CPU mode
External pins
external pins
Flash memory
mode
Normal function
Pin number
-
INITX
-
INITX
84
RESET
-
FRSTX
GP16_6
70
-
-
MD2
MD2
76
Set to ‘1’
-
-
MD1
MD1
75
Set to ‘1’
-
-
MD0
MD0
74
Set to ‘1’
RY/BY
FMCS:RDY bit
RY/BYX
GP18_2
100
BYTE
Internally fixed to ‘H’
BYTEX
GP16_4
68
WE
WEX
GP16_7
71
OE
OEX
GP07_7
3
CEX
GP07_6
2
ATDIN
GP18_6
103
Set to ‘0’
EQIN
GP18_5
102
Set to ‘0’
-
TESTX
GP16_5
69
Set to ‘1’
-
RDYI
GP18_4
101
Set to ‘0’
A-1
FA0
GP05_5
17
Set to ‘0’
A0 to A3
FA1 to FA4
GP19_0 to GP19_2,
GP19_4
92 to 95
A4 to A7
FA5 to FA8
GP19_5 to GP19_6,
GP18_0 to GP18_1
96 to 99
FA9 to FA12
GP06_0 to GP06_3
4 to 7
A12 to A15
FA13 to FA16
GP06_4 to GP06_7
8 to 11
A16 to A18
FA17 to FA19
GP05_0 to GP05_2
12 to 14
A19
FA20
GP05_3
15
See note *1
-
FA21
GP05_4
16
See note *2
DQ0 to DQ7
GP00_0 to GP00_7
28 to 35
DQ8 to DQ15
GP01_0 to GP01_7
20 to 27
CE
-
A8 to A11
DQ0 to DQ7
DQ8 to DQ15
1.
2.
40
Comment
Internal control signal + control via interface circuit
Internal address bus
Internal data bus
A19 is used as address bit on MB91F466HA. For MB91F464HB, set this pin to ‘1’.
For MB91F466HA, set this pin to ‘1’. For MB91F464HB, this pin can be left open.
MB91460H Series
5. Poweron Sequence in parallel programming mode
The flash memory can be accessed in programming mode after a certain wait time, which is needed for Security
Vector fetch:
• Minimum wait time after VDD5/VDD5R power on:
• Minimum wait time after INITX rising:
2.76 ms
1.0 ms
6. Flash Security
6.1.
Vector addresses
Two Flash Security Vectors (FSV1, FSV2) are located parallel to the Boot Security Vectors (BSV1, BSV2)
controlling the protection functions of the Flash Security Module:
FSV1: 0x14:8000
FSV2: 0x14:8008
6.2.
BSV1: 0x14:8004
BSV2: 0x14:800C
Security Vector FSV1
The setting of the Flash Security Vector FSV1 is responsible for the read and write protection modes and the
individual write protection of the 8 KBytes sectors.
6.2.1.
FSV1 (bit31 to bit16)
The setting of the Flash Security Vector FSV1 bits [31:16] is responsible for the read and write protection modes.
Explanation of the bits in the Flash Security Vector FSV1[31:16]
FSV1[18]
FSV1[17]
FSV1[16]
FSV1[31:19] WriteProtection
Write Protection Read Protection
Level
Flash Security Mode
set all to ‘0’
set to ‘0’
set to ‘0’
set to ‘1’
Read Protection (all device modes, except INTVEC mode MD[2:0]=”000”)
set all to ‘0’
set to ‘0’
set to ‘1’
set to ‘0’
Write Protection (all device modes, without exception)
set all to ‘0’
set to ‘0’
set to ‘1’
set to ‘1’
Read Protection (all device modes, except INTVEC mode MD[2:0]=”000”) and
Write Protection (all device modes)
set all to ‘0’
set to ‘1’
set to ‘0’
set to ‘1’
Read Protection (all device modes, except INTVEC mode MD[2:0]=”000”)
set all to ‘0’
set to ‘1’
set to ‘1’
set to ‘0’
Write Protection (all device modes, except INTVEC mode MD[2:0]=”000”)
set to ‘1’
Read Protection (all device modes, except INTVEC mode MD[2:0]=”000”) and
Write Protection (all device modes except
INTVEC mode MD[2:0]=”000”)
set all to ‘0’
set to ‘1’
set to ‘1’
41
MB91460H Series
6.2.2.
FSV1 (bit15 to bit0) MB91F464HB
The setting of the Flash Security Vector FSV1 bits [15:0] is responsible for the individual write protection of the
8 KBytes sectors. It is only evaluated if write protection bit FSV1[17] is set.
Explanation of the bits in the Flash Security Vector FSV1[15:0]
Enable Write Disable Write
FSV1 bit
Sector
Protection
Protection
Comment
FSV1[3:0]
⎯
⎯
⎯
not available
FSV1[4]
SA4
set to “0”
—
Write protection is
mandatory!
FSV1[5]
SA5
set to “0”
set to “1”
FSV1[6]
SA6
set to “0”
set to “1”
FSV1[7]
SA7
set to “0”
set to “1”
FSV1[15:8]
⎯
⎯
⎯
not available
Note: It is mandatory to always set the sector where the Flash Security Vectors FSV1 and FSV2 are located to
write protected (here sector SA4). Otherwise it is possible to overwrite the Security Vector to a setting where
it is possible to either read out the Flash content or manipulate data by writing.
See section “Flash access in CPU mode” for an overview about the sector organisation of the Flash
Memory.
6.2.3.
FSV1 (bit15 to bit0) MB91F466HA
The setting of the Flash Security Vector FSV1 bits [15:0] is responsible for the individual write protection of the
8 KBytes sectors. It is only evaluated if write protection bit FSV1[17] is set.
Explanation of the bits in the Flash Security Vector FSV1[15:0]
Enable Write Disable Write
FSV1 bit
Sector
Protection
Protection
FSV1[0]
SA0
set to “0”
set to “1”
FSV1[1]
SA1
set to “0”
set to “1”
FSV1[2]
SA2
set to “0”
set to “1”
FSV1[3]
SA3
set to “0”
set to “1”
FSV1[4]
SA4
set to “0”
⎯
FSV1[5]
SA5
set to “0”
set to “1”
FSV1[6]
SA6
set to “0”
set to “1”
FSV1[7]
SA7
set to “0”
set to “1”
FSV1[15:8]
⎯
⎯
⎯
Comment
Write protection is
mandatory!
not available
Note: It is mandatory to always set the sector where the Flash Security Vectors FSV1 and FSV2 are located to
write protected (here sector SA4). Otherwise it is possible to overwrite the Security Vector to a setting where
it is possible to either read out the Flash content or manipulate data by writing.
See section “Flash access in CPU mode” for an overview about the sector organisation of the Flash
Memory.
42
MB91460H Series
6.3.
Security Vector FSV2 MB91F464HB
The setting of the Flash Security Vector FSV2 bits [31:0] is responsible for the individual write protection of the
64 KByte sectors. It is only evaluated if write protection bit FSV1[17] is set.
Explanation of the bits in the Flash Security Vector FSV2[31:0]
Enable Write Disable Write
Protection
Protection
FSV2 bit
Sector
FSV2[5:0]
⎯
⎯
⎯
FSV2[6]
SA14
set to “0”
set to “1”
FSV2[7]
SA15
set to “0”
set to “1”
FSV2[8]
SA16
set to “0”
set to “1”
FSV2[9]
SA17
set to “0”
set to “1”
FSV2[10]
SA18
set to “0”
set to “1”
FSV2[11]
SA19
set to “0”
set to “1”
FSV2[31:12]
⎯
⎯
⎯
Comment
not available
not available
Note : See section “Flash access in CPU mode” for an overview about the sector organisation of the Flash Memory.
6.4.
Security Vector FSV2 MB91F466HA
The setting of the Flash Security Vector FSV2 bits [31:0] is responsible for the individual write protection of the
64 KByte sectors. It is only evaluated if write protection bit FSV1[17] is set.
Explanation of the bits in the Flash Security Vector FSV2[31:0]
Enable Write Disable Write
Protection
Protection
FSV2 bit
Sector
FSV2[0]
SA8
set to “0”
set to “1”
FSV2[1]
SA9
set to “0”
set to “1”
FSV2[2]
SA10
set to “0”
set to “1”
FSV2[3]
SA11
set to “0”
set to “1”
FSV2[4]
SA12
set to “0”
set to “1”
FSV2[5]
SA13
set to “0”
set to “1”
FSV2[6]
SA14
set to “0”
set to “1”
FSV2[7]
SA15
set to “0”
set to “1”
FSV2[8]
SA16
set to “0”
set to “1”
FSV2[9]
SA17
set to “0”
set to “1”
FSV2[10]
SA18
set to “0”
set to “1”
FSV2[11]
SA19
set to “0”
set to “1”
FSV2[31:12]
⎯
set to “0”
set to “1”
Comment
not available
Note : See section “Flash access in CPU mode” for an overview about the sector organisation of the Flash Memory.
43
MB91460H Series
■ MEMORY SPACE
The FR family has 4 Gbytes of logical address space (232 addresses) available to the CPU by linear access.
• Direct addressing area
The following address space area is used for I/O.
This area is called direct addressing area, and the address of an operand can be specified directly in an
instruction.
The size of directly addressable area depends on the length of the data being accessed as shown below.
Byte data access : 000H to 0FFH
Half word access : 000H to 1FFH
Word data access : 000H to 3FFH
44
MB91460H Series
■ MEMORY MAPS
1. MB91F464HB, MB91F466HA
MB91F464HB
00000000H
00000400H
00001000H
I/O (direct addressing area)
I/O
DMA
00002000H
00004000H
Flash-Cache (8 Kbytes)
0000C000H
Flash memory control
00030000H
Boot ROM (4 Kbytes)
CAN
D-RAM (0 wait, 16 Kbytes)
ID-RAM (16 Kbytes)
00004000H
00007000H
0000B000H
0000C000H
0002A000H
00030000H
External bus area
00040000H
Flash-Cache (8 KBytes)
Flash memory control
Boot ROM (4 Kbytes)
CAN
D-RAM (0 wait, 24 Kbytes)
ID-RAM (16 Kbytes)
External bus area
00080000H
000A0000H
Flash memory (768 Kbytes)
Flash memory (384 Kbytes)
00148000H
DMA
00034000H
00080000H
00100000H
I/O
0000D000H
00034000H
00040000H
00001000H
00008000H
0000D000H
0002C000H
00000400H
I/O (direct addressing area)
00006000H
00008000H
0000B000H
00000000H
00002000H
00006000H
00007000H
MB91F466HA
00100000H
External bus area
00140000H
Flash memory (32 Kbytes)
00150000H
00150000H
Flash memory (64 Kbytes)
00180000H
00180000H
External bus area
External bus area
00500000H
00500000H
External data bus
External data bus
FFFFFFFFH
FFFFFFFFH
Note:
Note:
Access prohibited areas
Access prohibited areas
45
MB91460H Series
■ I/O MAP
1. MB91F464HB
Address
000000H
Register
+0
+1
+2
+3
PDR0 [R/W]
XXXXXXXX
PDR1 [R/W]
XXXXXXXX
PDR2 [R/W]
XXXXXXXX
PDR3 [R/W]
XXXXXXXX
Block
T-unit
port data register
Read/write attribute
Register initial value after reset
Register name (column 1 register at address 4n, column 2 register at
address 4n + 1...)
Leftmost register address (for word access, the register in column 1
becomes the MSB side of the data.)
Note : Initial values of register bits are represented as follows:
“ 1 ” : Initial value “ 1 ”
“ 0 ” : Initial value “ 0 ”
“ X ” : Initial value “ undefined ”
“ - ” : No physical register at this location
Access is barred with an undefined data access attribute.
46
MB91460H Series
Address
Register
Block
+0
+1
+2
+3
000000H
PDR00 [R/W]
XXXXXXXX
PDR01 [R/W]
XXXXXXXX
Reserved
Reserved
000004H
Reserved
PDR05 [R/W]
- - XXXXXX
PDR06 [R/W]
XXXXXXXX
PDR07 [R/W]
XXXXXXXX
000008H
PDR08 [R/W]
X--X---X
PDR09 [R/W]
- - - - - - XX
PDR10 [R/W]
-------X
Reserved
00000CH
Reserved
Reserved
PDR14 [R/W]
XXXXXXXX
PDR15 [R/W]
XXXXXXXX
000010H
PDR16 [R/W]
XXXXXXXX
PDR17 [R/W]
XXXXXXXX
PDR18 [R/W]
- XXX - XXX
PDR19 [R/W]
- XXX - XXX
000014H
PDR20 [R/W]
- XXX - XXX
PDR21 [R/W]
- - - - - - XX
PDR22 [R/W]
XXXXXXXX
PDR23 [R/W]
XXXXXXXX
000018H
PDR24 [R/W]
XXXXXXXX
Reserved
PDR26 [R/W]
XXXXXXXX
PDR27 [R/W]
XXXXXXXX
00001CH
PDR28 [R/W]
XXXXXXXX
PDR29 [R/W]
XXXXXXXX
Reserved
Reserved
000020H to
00002CH
R-bus Port Data
Register
Reserved
000030H
EIRR0 [R/W]
XXXXXXXX
ENIR0 [R/W]
00000000
ELVR0 [R/W]
00000000 00000000
External interrupt
(INT 0 to INT 7)
000034H
EIRR1 [R/W]
XXXXXXXX
ENIR1 [R/W]
00000000
ELVR1 [R/W]
00000000 00000000
External interrupt
(INT 8 to INT 15)
000038H
DICR [R/W]
-------0
HRCL [R/W]
0 - - 11111
RBSYNC
Delay interrupt
00003CH
000040H
000044H
Reserved
SCR00 [R/W,W]
00000000
SMR00 [R/W,W]
00000000
ESCR00 [R/W]
00000X00
ECCR00
[R/W,R,W]
-00000XX
000048H
00004CH
000050H
000054H
Reserved
SSR00 [R/W,R]
00001000
RDR00/TDR00
[R/W]
00000000
Reserved
Reserved
SCR02 [R/W,W]
00000000
SMR02 [R/W,W]
00000000
ESCR02 [R/W]
00000X00
ECCR02
[R/W,R,W]
-00000XX
LIN-USART
0
Reserved
SSR02 [R/W,R]
00001000
RDR02/TDR02
[R/W]
00000000
LIN-USART
2
Reserved
47
MB91460H Series
Address
Block
+0
+1
+2
+3
SCR03 [R/W,W]
00000000
SMR03 [R/W,W]
00000000
SSR03 [R/W,R]
00001000
RDR03/TDR03
[R/W]
00000000
00005CH
ESCR03 [R/W]
00000X00
ECCR03
[R/W,R,W]
-00000XX
000060H
SCR04 [R/W,W]
00000000
SMR04 [R/W,W]
00000000
SSR04 [R/W,R]
00001000
RDR04/TDR04
[R/W]
00000000
000064H
ESCR04 [R/W]
00000X00
ECCR04
[R/W,R,W]
-00000XX
FSR04 [R]
- - - 00000
FCR04 [R/W]
0001 - 000
000068H
SCR05 [R/W,W]
00000000
SMR05 [R/W,W]
00000000
SSR05 [R/W,R]
00001000
RDR05/TDR05
[R/W]
00000000
00006CH
ESCR05 [R/W]
00000X00
ECCR05
[R/W,R,W]
-00000XX
FSR05 [R]
- - - 00000
FCR05 [R/W]
0001 - 000
000070H
SCR06 [R/W,W]
00000000
SMR06 [R/W,W]
00000000
SSR06 [R/W,R]
00001000
RDR06/TDR06
[R/W]
00000000
000074H
ESCR06 [R/W]
00000X00
ECCR06
[R/W,R,W]
-00000XX
FSR06 [R]
- - - 00000
FCR06 [R/W]
0001 - 000
000078H
SCR07 [R/W,W]
00000000
SMR07 [R/W,W]
00000000
SSR07 [R/W,R]
00001000
RDR07/TDR07
[R/W]
00000000
00007CH
ESCR07 [R/W]
00000X00
ECCR07
[R/W,R,W]
-00000XX
FSR07 [R]
- - - 00000
FCR07 [R/W]
0001 - 000
000080H
BGR100 [R/W]
00000000
BGR000 [R/W]
00000000
Reserved
Reserved
000084H
BGR102 [R/W]
00000000
BGR002 [R/W]
00000000
BGR103 [R/W]
00000000
BGR003 [R/W]
00000000
000088H
BGR104 [R/W]
00000000
BGR004 [R/W]
00000000
BGR105 [R/W]
00000000
BGR005 [R/W]
00000000
00008CH
BGR106 [R/W]
00000000
BGR006 [R/W]
00000000
BGR107 [R/W]
00000000
BGR007 [R/W]
00000000
000058H
000090H
to
0000CCH
48
Register
LIN-USART
3
Reserved
Reserved
LIN-USART
4
with FIFO
LIN-USART
5
with FIFO
LIN-USART
6
with FIFO
LIN-USART
7
with FIFO
Baud rate
Generator
LIN-USART
0 to 7
Reserved
MB91460H Series
Address
Register
Block
+0
+1
+2
+3
0000D0H
IBCR0 [R/W]
00000000
IBSR0 [R]
00000000
ITBAH0 [R/W]
- - - - - - 00
ITBAL0 [R/W]
00000000
0000D4H
ITMKH0 [R/W]
00 - - - - 11
ITMKL0 [R/W]
11111111
ISMK0 [R/W]
01111111
ISBA0 [R/W]
- 0000000
0000D8H
Reserved
IDAR0 [R/W]
00000000
ICCR0 [R/W]
- 0011111
Reserved
0000DCH
IBCR1 [R/W]
00000000
IBSR1 [R]
00000000
ITBAH1 [R/W]
- - - - - - 00
ITBAL1 [R/W]
00000000
0000E0H
ITMKH1 [R/W]
00 - - - - 11
ITMKL1 [R/W]
11111111
ISMK1 [R/W]
01111111
ISBA1 [R/W]
- 0000000
0000E4H
Reserved
IDAR1 [R/W]
00000000
ICCR1 [R/W]
- 0011111
Reserved
0000E8H
to
0000FCH
Reserved
I2C 0
I2C 1
Reserved
000100H
GCN10 [R/W]
00110010 00010000
Reserved
GCN20 [R/W]
- - - - 0000
PPG Control
0 to 3
000104H
GCN11 [R/W]
00110010 00010000
Reserved
GCN21 [R/W]
- - - - 0000
PPG Control
4 to 7
000108H
GCN12 [R/W]
00110010 00010000
Reserved
GCN22 [R/W]
- - - - 0000
PPG Control
8 to 11
000110H
PTMR00 [R]
11111111 11111111
000114H
PDUT00 [W]
XXXXXXXX XXXXXXXX
000118H
PTMR01 [R]
11111111 11111111
00011CH
PDUT01 [W]
XXXXXXXX XXXXXXXX
000120H
PTMR02 [R]
11111111 11111111
000124H
PDUT02 [W]
XXXXXXXX XXXXXXXX
000128H
PTMR03 [R]
11111111 11111111
00012CH
PDUT03 [W]
XXXXXXXX XXXXXXXX
000130H
PTMR04 [R]
11111111 11111111
000134H
PDUT04 [W]
XXXXXXXX XXXXXXXX
PCSR00 [W]
XXXXXXXX XXXXXXXX
PCNH00 [R/W]
0000000 -
PCNL00 [R/W]
000000 - 0
PCSR01 [W]
XXXXXXXX XXXXXXXX
PCNH01 [R/W]
0000000 -
PCNL01 [R/W]
000000 - 0
PCSR02 [W]
XXXXXXXX XXXXXXXX
PCNH02 [R/W]
0000000 -
PCNL02 [R/W]
000000 - 0
PCSR03 [W]
XXXXXXXX XXXXXXXX
PCNH03 [R/W]
0000000 -
PCNL03 [R/W]
000000 - 0
PCSR04 [W]
XXXXXXXX XXXXXXXX
PCNH04 [R/W]
0000000 -
PCNL04 [R/W]
000000 - 0
PPG 0
PPG 1
PPG 2
PPG 3
PPG 4
49
MB91460H Series
Address
Register
+0
+1
000138H
PTMR05 [R]
11111111 11111111
00013CH
PDUT05 [W]
XXXXXXXX XXXXXXXX
000140H
PTMR06 [R]
11111111 11111111
000144H
PDUT06 [W]
XXXXXXXX XXXXXXXX
000148H
PTMR07 [R]
11111111 11111111
00014CH
PDUT07 [W]
XXXXXXXX XXXXXXXX
000150H
PTMR08 [R]
11111111 11111111
000154H
PDUT08 [W]
XXXXXXXX XXXXXXXX
000158H
PTMR09 [R]
11111111 11111111
00015CH
PDUT09 [W]
XXXXXXXX XXXXXXXX
000160H
PTMR10 [R]
11111111 11111111
000164H
PDUT10 [W]
XXXXXXXX XXXXXXXX
000168H
PTMR11 [R]
11111111 11111111
00016CH
PDUT11 [W]
XXXXXXXX XXXXXXXX
000170H
to
00017CH
000180H
50
Block
+2
+3
PCSR05 [W]
XXXXXXXX XXXXXXXX
PCNH05 [R/W]
0000000 -
PCNL05 [R/W]
000000 - 0
PCSR06 [W]
XXXXXXXX XXXXXXXX
PCNH06 [R/W]
0000000 -
PCNL06 [R/W]
000000 - 0
PCSR07 [W]
XXXXXXXX XXXXXXXX
PCNH07 [R/W]
0000000 -
PCNL07 [R/W]
000000 - 0
PCSR08 [W]
XXXXXXXX XXXXXXXX
PCNH08 [R/W]
0000000 -
PCNL08 [R/W]
000000 - 0
PCSR09 [W]
XXXXXXXX XXXXXXXX
PCNH09 [R/W]
0000000 -
PCNL09 [R/W]
000000 - 0
PCSR10 [W]
XXXXXXXX XXXXXXXX
PCNH10 [R/W]
0000000 -
PCNL10 [R/W]
000000 - 0
PCSR11 [W]
XXXXXXXX XXXXXXXX
PCNH11 [R/W]
0000000 -
PCNL11 [R/W]
000000 - 0
Reserved
Reserved
ICS01 [R/W]
00000000
PPG 5
PPG 6
PPG 7
PPG 8
PPG 9
PPG 10
PPG 11
Reserved
Reserved
ICS23 [R/W]
00000000
000184H
IPCP0 [R]
XXXXXXXX XXXXXXXX
IPCP1 [R]
XXXXXXXX XXXXXXXX
000188H
IPCP2 [R]
XXXXXXXX XXXXXXXX
IPCP3 [R]
XXXXXXXX XXXXXXXX
Input
Capture
0 to 3
MB91460H Series
Address
Register
+0
+1
Block
+2
+3
00018CH
OCS01 [R/W]
- - - 0 - - 00 0000 - - 00
OCS23 [R/W]
- - - 0 - - 00 0000 - - 00
000190H
OCCP0 [R/W]
XXXXXXXX XXXXXXXX
OCCP1 [R/W]
XXXXXXXX XXXXXXXX
000194H
OCCP2 [R/W]
XXXXXXXX XXXXXXXX
OCCP3 [R/W]
XXXXXXXX XXXXXXXX
000198H
SGCRH [R/W]
0000 - - 00
SGCRL [R/W]
- - 0 - - 000
00019CH
SGAR [R/W]
00000000
Reserved
0001A0H
ADERH [R/W]
00000000 00000000
SGFR [R/W, R]
XXXXXXXX XXXXXXXX
SGTR [R/W]
XXXXXXXX
SGDR [R/W]
XXXXXXXX
ADCS1 [R/W]
00000000
ADCS0 [R/W]
00000000
ADCR1 [R]
000000XX
ADCR0 [R]
XXXXXXXX
0001A8H
ADCT1 [R/W]
00010000
ADCT0 [R/W]
00101100
ADSCH [R/W]
- - - 00000
ADECH [R/W]
- - - 00000
0001ACH
Reserved
ACSR0 [R/W]
-11XXX00
Reserved
Reserved
TMRLR0 [W]
XXXXXXXX XXXXXXXX
0001B4H
Reserved
0001B8H
TMRLR1 [W]
XXXXXXXX XXXXXXXX
0001BCH
Reserved
0001C0H
TMRLR2 [W]
XXXXXXXX XXXXXXXX
0001C4H
Reserved
0001C8H
TMRLR3 [W]
XXXXXXXX XXXXXXXX
0001CCH
Reserved
0001D0H
TMRLR4 [W]
XXXXXXXX XXXXXXXX
0001D4H
Reserved
Sound
Generator
ADERL [R/W]
00000000 00000000
0001A4
0001B0H
Output
Compare
0 to 3
TMR0 [R]
XXXXXXXX XXXXXXXX
TMCSRH0
[R/W]
- - - 00000
TMCSRL0
[R/W]
0 - 000000
TMR1 [R]
XXXXXXXX XXXXXXXX
TMCSRH1
[R/W]
- - - 00000
TMCSRL1
[R/W]
0 - 000000
TMR2 [R]
XXXXXXXX XXXXXXXX
TMCSRH2
[R/W]
- - - 00000
TMCSRL2
[R/W]
0 - 000000
TMR3 [R]
XXXXXXXX XXXXXXXX
TMCSRH3
[R/W]
- - - 00000
TMCSRL3
[R/W]
0 - 000000
TMR4 [R]
XXXXXXXX XXXXXXXX
TMCSRH4
[R/W]
- - - 00000
TMCSRL4
[R/W]
0 - 000000
A/D
Converter
Alarm Comparator
0 to 1
Reload Timer 0
(PPG 0, PPG 1)
Reload Timer 1
(PPG 2, PPG 3)
Reload Timer 2
(PPG 4, PPG 5)
Reload Timer 3
(PPG 6, PPG 7)
Reload Timer 4
(PPG 8, PPG 9)
51
MB91460H Series
Address
Register
+0
0001D8H
52
+1
TMRLR5 [W]
XXXXXXXX XXXXXXXX
0001DCH
Reserved
0001E0H
TMRLR6 [W]
XXXXXXXX XXXXXXXX
0001E4H
Reserved
0001E8H
TMRLR7 [W]
XXXXXXXX XXXXXXXX
Block
+2
+3
TMR5 [R]
XXXXXXXX XXXXXXXX
TMCSRH5
[R/W]
- - - 00000
TMCSRL5
[R/W]
0 - 000000
TMR6 [R]
XXXXXXXX XXXXXXXX
TMCSRH6
[R/W]
- - - 00000
TMCSRL6
[R/W]
0 - 000000
TMR7 [R]
XXXXXXXX XXXXXXXX
Reload Timer 6
(PPG 12, PPG 13)
Reload Timer 7
(PPG 14, PPG 15)
(A/D Converter)
0001ECH
Reserved
TMCSRH7
[R/W]
- - - 00000
0001F0H
TCDT0 [R/W]
XXXXXXXX XXXXXXXX
Reserved
TCCS0 [R/W]
00000000
Free Running
Timer 0
(ICU 0, ICU 1)
0001F4H
TCDT1 [R/W]
XXXXXXXX XXXXXXXX
Reserved
TCCS1 [R/W]
00000000
Free Running
Timer 1
(ICU 2, ICU 3)
0001F8H
TCDT2 [R/W]
XXXXXXXX XXXXXXXX
Reserved
TCCS2 [R/W]
00000000
Free Running
Timer 2
(OCU 0, OCU 1)
0001FCH
TCDT3 [R/W]
XXXXXXXX XXXXXXXX
Reserved
TCCS3 [R/W]
00000000
Free Running
Timer 3
(OCU 2, OCU 3)
000200H
DMACA0 [R/W]
00000000 0000XXXX XXXXXXXX XXXXXXXX
000204H
DMACB0 [R/W]
00000000 00000000 XXXXXXXX XXXXXXXX
000208H
DMACA1 [R/W]
00000000 0000XXXX XXXXXXXX XXXXXXXX
00020CH
DMACB1 [R/W]
00000000 00000000 XXXXXXXX XXXXXXXX
000210H
DMACA2 [R/W]
00000000 0000XXXX XXXXXXXX XXXXXXXX
000214H
DMACB2 [R/W]
00000000 00000000 XXXXXXXX XXXXXXXX
000218H
DMACA3 [R/W]
00000000 0000XXXX XXXXXXXX XXXXXXXX
00021CH
DMACB3 [R/W]
00000000 00000000 XXXXXXXX XXXXXXXX
TMCSRL7
[R/W]
0 - 000000
Reload Timer 5
(PPG 10, PPG 11)
DMAC
MB91460H Series
Address
Register
+0
+1
Block
+2
+3
000220H
DMACA4 [R/W]
00000000 0000XXXX XXXXXXXX XXXXXXXX
000224H
DMACB4 [R/W]
00000000 00000000 XXXXXXXX XXXXXXXX
DMAC
000228H
to
00023CH
000240H
Reserved
DMACR [R/W]
00 - - 0000
Reserved
000244H
to
0002CCH
0002D0H
Reserved
Reserved
ICS045 [R/W]
00000000
Reserved
Reserved
ICS67 [R/W]
00000000
0002D4H
IPCP4 [R]
XXXXXXXX XXXXXXXX
IPCP5 [R]
XXXXXXXX XXXXXXXX
0002D8H
IPCP6 [R]
XXXXXXXX XXXXXXXX
IPCP7 [R]
XXXXXXXX XXXXXXXX
0002DCH
OCS45 [R/W]
- - - 0 - - 00 0000 - - 00
OCS67 [R/W]
- - - 0 - - 00 0000 - - 00
0002E0H
OCCP4 [R/W]
XXXXXXXX XXXXXXXX
OCCP5 [R/W]
XXXXXXXX XXXXXXXX
0002E4H
OCCP6 [R/W]
XXXXXXXX XXXXXXXX
OCCP7 [R/W]
XXXXXXXX XXXXXXXX
0002E8H
to
0002ECH
Reserved
Input
Capture
4 to 7
Output
Compare
4 to 7
Reserved
0002F0H
TCDT4 [R/W]
XXXXXXXX XXXXXXXX
Reserved
TCCS4 [R/W]
00000000
Free Running
Timer 4
(ICU 4, ICU 5)
0002F4H
TCDT5 [R/W]
XXXXXXXX XXXXXXXX
Reserved
TCCS5 [R/W]
00000000
Free Running
Timer 5
(ICU 6, ICU 7)
0002F8H
TCDT6 [R/W]
XXXXXXXX XXXXXXXX
Reserved
TCCS6 [R/W]
00000000
Free Running
Timer 6
(OCU 4, OCU 5)
0002FCH
TCDT7 [R/W]
XXXXXXXX XXXXXXXX
Reserved
TCCS7 [R/W]
00000000
Free Running
Timer 7
(OCU 6, OCU 7)
53
MB91460H Series
Address
Register
+0
+1
+2
+3
000300H
UDRC1 [W]
00000000
UDRC0 [W]
00000000
UDCR1 [R]
00000000
UDCR0 [R]
00000000
000304H
UDCCH0 [R/W]
00000000
UDCCL0 [R/W]
00001000
Reserved
UDCS0 [R/W]
00000000
000308H
UDCCH1 [R/W]
00000000
UDCCL1 [R/W]
00001000
Reserved
UDCS1 [R/W]
00000000
00030CH
to
00031CH
000320H
Reserved
GCN13 [R/W]
00110010 00010000
000324H
to
00032CH
000330H
PTMR12 [R]
11111111 11111111
000334H
PDUT12 [W]
XXXXXXXX XXXXXXXX
000338H
PTMR13 [R]
11111111 11111111
00033CH
PDUT13 [W]
XXXXXXXX XXXXXXXX
000340H
PTMR14 [R]
11111111 11111111
000344H
PDUT14 [W]
XXXXXXXX XXXXXXXX
000348H
PTMR15 [R]
11111111 11111111
00034CH
PDUT15 [W]
XXXXXXXX XXXXXXXX
000390H
000394H
to
0003ECH
GCN23 [R/W]
- - - - 0000
Reserved
PCNH12 [R/W]
0000000 -
PCNL12 [R/W]
000000 - 0
PCSR13 [W]
XXXXXXXX XXXXXXXX
PCNH13 [R/W]
0000000 -
PCNL13 [R/W]
000000 - 0
PCSR14 [W]
XXXXXXXX XXXXXXXX
PCNH14 [R/W]
0000000 -
PCNL14 [R/W]
000000 - 0
PCSR15 [W]
XXXXXXXX XXXXXXXX
PCNH15 [R/W]
0000000 -
PCNL15 [R/W]
000000 - 0
Reserved
PPG 12
PPG 13
PPG 14
PPG 15
Reserved
Reserved
Reserved
PPG Control
12 to 15
Reserved
PCSR12 [W]
XXXXXXXX XXXXXXXX
ROMS [R]
11111111 01000011
Up/Down
Counter
0 to 1
Reserved
Reserved
000350H
to
00038CH
54
Block
ROM Select Register
Reserved
MB91460H Series
Address
Register
+0
+1
Block
+2
+3
0003F0H
BSD0 [W]
XXXXXXXX XXXXXXXX XXXXXXXX XXXXXXXX
0003F4H
BSD1 [R/W]
XXXXXXXX XXXXXXXX XXXXXXXX XXXXXXXX
0003F8H
BSDC [W]
XXXXXXXX XXXXXXXX XXXXXXXX XXXXXXXX
0003FCH
BSRR [R]
XXXXXXXX XXXXXXXX XXXXXXXX XXXXXXXX
000400H
to
00043CH
Reserved
000440H
ICR00 [R/W]
---11111
ICR01 [R/W]
---11111
ICR02 [R/W]
---11111
ICR03 [R/W]
---11111
000444H
ICR04 [R/W]
---11111
ICR05 [R/W]
---11111
ICR06 [R/W]
---11111
ICR07 [R/W]
---11111
000448H
ICR08 [R/W]
---11111
ICR09 [R/W]
---11111
ICR10 [R/W]
---11111
ICR11 [R/W]
---11111
00044CH
ICR12 [R/W]
---11111
ICR13 [R/W]
---11111
ICR14 [R/W]
---11111
ICR15 [R/W]
---11111
000450H
ICR16 [R/W]
---11111
ICR17 [R/W]
---11111
ICR18 [R/W]
---11111
ICR19 [R/W]
---11111
000454H
ICR20 [R/W]
---11111
ICR21 [R/W]
---11111
ICR22 [R/W]
---11111
ICR23 [R/W]
---11111
000458H
ICR24 [R/W]
---11111
ICR25 [R/W]
---11111
ICR26 [R/W]
---11111
ICR27 [R/W]
---11111
00045CH
ICR28 [R/W]
---11111
ICR29 [R/W]
---11111
ICR30 [R/W]
---11111
ICR31 [R/W]
---11111
000460H
ICR32 [R/W]
---11111
ICR33 [R/W]
---11111
ICR34[R/W]
---11111
ICR35 [R/W]
---11111
000464H
ICR36 [R/W]
---11111
ICR37 [R/W]
---11111
ICR38 [R/W]
---11111
ICR39 [R/W]
---11111
000468H
ICR40 [R/W]
---11111
ICR41 [R/W]
---11111
ICR42 [R/W]
---11111
ICR43 [R/W]
---11111
00046CH
ICR44 [R/W]
---11111
ICR45 [R/W]
---11111
ICR46 [R/W]
---11111
ICR47 [R/W]
---11111
000470H
ICR48 [R/W]
---11111
ICR49 [R/W]
---11111
ICR50 [R/W]
---11111
ICR51 [R/W]
---11111
000474H
ICR52 [R/W]
---11111
ICR53 [R/W]
---11111
ICR54 [R/W]
---11111
ICR55 [R/W]
---11111
000478H
ICR56 [R/W]
---11111
ICR57 [R/W]
---11111
ICR58 [R/W]
---11111
ICR59 [R/W]
---11111
Bit Search Module
Interrupt
Controller
55
MB91460H Series
Address
Register
+0
+1
+2
+3
00047CH
ICR60 [R/W]
---11111
ICR61 [R/W]
---11111
ICR62 [R/W]
---11111
ICR63 [R/W]
---11111
000480H
RSRR [R/W]
10000000
STCR [R/W]
00110011
TBCR [R/W]
00XXXX00
CTBR [W]
XXXXXXXX
000484H
CLKR [R/W]
- - - - 0000
WPR [W]
XXXXXXXX
DIVR0 [R/W]
00000011
DIVR1 [R/W]
00000000
000488H
56
Block
Reserved
PLLDIVN [R/W]
- - 000000
Interrupt Controller
Clock
Control
Reserved
00048CH
PLLDIVM [R/W]
- - - - 0000
PLLDIVG [R/W]
- - - - 0000
PLLMULG [R/W]
00000000
000490H
PLLCTRL [R/W]
- - - - 0000
000494H
OSCC1 [R/W]
- - - - - 010
000498H
PORTEN [R/W]
- - - - - - 00
0004A0H
Reserved
0004A4H
Reserved
0004A8H
WTHR [R/W]
- - - 00000
WTMR [R/W]
- - 000000
WTSR [R/W]
- - 000000
Reserved
0004ACH
CSVTR [R/W]
- - - 00010
CSVCR [R/W]
- 011100
CSCFG [R/W]
0X000000
CMCFG [R/W]
00000000
PLL Interface
Reserved
OSCS1 [R/W]
00001111
OSCC2 [R/W]
- - - - - 010
OSCS2 [R/W]
00001111
Port Input Enable
Control
Reserved
WTCER [R/W]
- - - - - - 00
Main/Sub Oscillator
Control
(Reserved)
WTCR [R/W]
00000000 000 - 00 - 0
WTBR [R/W]
- - - XXXXX XXXXXXXX XXXXXXXX
0004B0H
CUCR [R/W]
- - - - - - - - - - - 0 - - 00
CUTD [R/W]
10000000 00000000
0004B4H
CUTR1 [R]
- - - - - - - - 00000000
CUTR2 [R]
00000000 00000000
0004B8H
CMPR [R/W]
- - 000010 11111101
0004BCH
CMT1 [R/W]
00000000 1 - - - 0000
CMCR [R/W]
- 001 - - 00
Reserved
CMT2 [R/W]
- - 000000 - - 000000
Real Time Clock
(Watch Timer)
ClockSupervisor /Selector/
Monitor
Calibration of Sub
Clock
Clock
Modulator
0004C0H
CANPRE [R/W]
0 - - - 0000
CANCKD [R/W]
---- ---0
0004C4H
LVSEL [R/W]
00000111
LVDET [R/W]
00000 - 00
HWWDE [R/W]
- - - - - - 00
HWWD [R/W,W]
00011000
Low Voltage
Detection/
Hardware Watchdog
0004C8H
OSCRH [R/W]
000 - - 001
OSCRL [R/W]
- - - - - 000
WPCRH [R/W]
000 - - 001
WPCRL [R/W]
- - - - - - 00
Main-/Sub-Oscillation Stabilisation
Timer
Reserved
CAN Clock Control
MB91460H Series
Address
Register
+0
0004CCH
OSCCR [R/W]
- - - - - - 00
Block
+1
+2
+3
Reserved
REGSEL [R/W]
- - 000110
REGCTR [R/W]
- - - 0 - - 00
0004D0H
to
00063CH
Reserved
Reserved
000640H
ASR0 [R/W]
00000000 00000000
ACR0 [R/W]
1111**00 00000000*2
000644H
ASR1 [R/W]
XXXXXXXX XXXXXXXX
ACR1 [R/W]
XXXXXXXX XXXXXXXX
000648H
ASR2 [R/W]
XXXXXXXX XXXXXXXX
ACR2 [R/W]
XXXXXXXX XXXXXXXX
00064CH
ASR3 [R/W]
XXXXXXXX XXXXXXXX
ACR3 [R/W]
XXXXXXXX XXXXXXXX
000650H
ASR4 [R/W]
XXXXXXXX XXXXXXXX
ACR4 [R/W]
XXXXXXXX XXXXXXXX
000654H
ASR5 [R/W]
XXXXXXXX XXXXXXXX
ACR5 [R/W]
XXXXXXXX XXXXXXXX
000658H
ASR6 [R/W]
XXXXXXXX XXXXXXXX
ACR6 [R/W]
XXXXXXXX XXXXXXXX
00065CH
ASR7 [R/W]
XXXXXXXX XXXXXXXX
ACR7 [R/W]
XXXXXXXX XXXXXXXX
000660H
AWR0 [R/W]
01111111 11111*11
AWR1 [R/W]
XXXXXXXX XXXXXXXX
000664H
AWR2 [R/W]
XXXXXXXX XXXXXXXX
AWR3 [R/W]
XXXXXXXX XXXXXXXX
000668H
AWR4 [R/W]
XXXXXXXX XXXXXXXX
AWR5 [R/W]
XXXXXXXX XXXXXXXX
00066CH
AWR6 [R/W]
XXXXXXXX XXXXXXXX
AWR7 [R/W]
XXXXXXXX XXXXXXXX
000670H
MCRA [R/W]
XXXXXXXX
000674H
000678H
Main- Oscillation
Standby Control /
Main/Sub Regulator
Control
MCRB [R/W]
XXXXXXXX
External Bus
Unit
Reserved
Reserved
IOWR0 [R/W]
XXXXXXXX
00067CH
IOWR1 [R/W]
XXXXXXXX
IOWR2 [R/W]
XXXXXXXX
IOWR3 [R/W]
XXXXXXXX
Reserved
000680H
CSER [R/W]
00000001
CHER [R/W]
11111111
000684H
RCRH [R/W]
00XXXXXX
RCRL [R/W]
XXXX0XXX
Reserved
TCR [R/W]
0000**** *3
Reserved
57
MB91460H Series
Address
Register
+0
+1
000688H
to
0007F8H
0007FCH
+2
+3
Reserved
Reserved
MODR [W]
XXXXXXXX
000800H
to
000CFCH
External Bus Unit
Reserved
Mode Register
Reserved
Reserved
000D00H
PDRD00 [R]
XXXXXXXX
PDRD01 [R]
XXXXXXXX
000D04H
Reserved
PDRD05 [R]
- - XXXXXX
PDRD06 [R]
XXXXXXXX
PDRD07 [R]
XXXXXXXX
000D08H
PDRD08 [R]
X - - X - - -X
PDRD09 [R]
- - - - - - XX
PDRD10 [R]
-------X
Reserved
PDRD14 [R]
XXXXXXXX
PDRD15 [R]
XXXXXXXX
000D0CH
Reserved
Reserved
000D10H
PDRD16 [R]
XXXXXXXX
PDRD17 [R]
XXXXXXXX
PDRD18 [R]
- XXX - XXX
PDRD19 [R]
- XXX - XXX
000D14H
PDRD20 [R]
- XXX - XXX
PDRD21 [R]
-------X
PDRD22 [R]
XXXXXXXX
PDRD23 [R]
XXXXXXXX
000D18H
PDRD24 [R]
XXXXXXXX
Reserved
PDRD26 [R]
XXXXXXXX
PDRD27 [R]
XXXXXXXX
000D1CH
PDRD28 [R]
XXXXXXXX
PDRD29 [R]
XXXXXXXX
000D20H
to
000D3CH
R-bus
Port Data
Direct Read
Register
Reserved
Reserved
000D40H
DDR00 [R/W]
00000000
DDR01 [R/W]
00000000
000D44H
Reserved
DDR05 [R/W]
- - 000000
DDR06 [R/W]
00000000
DDR07 [R/W]
00000000
000D48H
DDR08 [R/W]
0 - - 0 - - -0
DDR09 [R/W]
- - - - - - 00
DDR10 [R/W]
- - - - - - -0
Reserved
DDR14 [R/W]
00000000
DDR15 [R/W]
00000000
000D4CH
58
Block
Reserved
Reserved
000D50H
DDR16 [R/W]
00000000
DDR17 [R/W]
00000000
DDR18 [R/W]
- 000 - 000
DDR19 [R/W]
- 000 - 000
000D54H
DDR20 [R/W]
- 000 - 000
DDR21 [R/W]
- - - - - - 00
DDR22 [R/W]
00000000
DDR23 [R/W]
00000000
000D58H
DDR24 [R/W]
00000000
Reserved
DDR26 [R/W]
00000000
DDR27 [R/W]
00000000
000D5CH
DDR28 [R/W]
00000000
DDR29 [R/W]
00000000
Reserved
R-bus
Port Direction
Register
MB91460H Series
Address
Register
+0
+1
000D60H
to
000D7CH
Block
+2
+3
Reserved
Reserved
000D80H
PFR00 [R/W]
11111111
PFR01 [R/W]
11111111
000D84H
Reserved
PFR05 [R/W]
- - 111111
PFR06 [R/W]
11111111
PFR07 [R/W]
11111111
000D88H
PFR08 [R/W]
1 - - 1 - - 11
PFR09 [R/W]
- - - - - - 11
PFR10 [R/W]
- - - - - - -1
Reserved
PFR14 [R/W]
00000000
PFR15 [R/W]
00000000
000D8CH
Reserved
Reserved
000D90H
PFR16 [R/W]
00000000
PFR17 [R/W]
00000000
PFR18 [R/W]
- 000 - 000
PFR19 [R/W]
- 000 - 000
000D94H
PFR20 [R/W]
- 000 - 000
PFR21 [R/W]
- - - - - - 00
PFR22 [R/W]
0000-0-0
PFR23 [R/W]
-0000000
000D98H
PFR24 [R/W]
00000000
Reserved
PFR26 [R/W]
00000000
PFR27 [R/W]
00000000
000D9CH
PFR28 [R/W]
00000000
PFR29 [R/W]
00000000
000DA0H
to
000DC4H
Reserved
Reserved
000DC8H
Reserved
EPFR10 [R/W]
-------0
Reserved
000DCCH
Reserved
EPFR14 [R/W]
00000000
EPFR15 [R/W]
00000000
EPFR18 [R/W]
- 000 - 000
EPFR19 [R/W]
- 0- - - 0- -
000DD0H
EPFR16 [R/W]
0 - 00 - - - -
Reserved
000DD4H
EPFR20 [R/W]
- 000 - 000
EPFR21 [R/W]
---- ----
000DD8H
000DDCH
to
000DFCH
R-bus
Port Function
Register
Reserved
R-bus Port
Extra Function
Register
Reserved
EPFR26 [R/W]
00000000
Reserved
EPFR27 [R/W]
00000000
Reserved
59
MB91460H Series
Address
Register
+0
+1
000E00H
PODR00 [R/W]
00000000
PODR01 [R/W]
00000000
000E04H
Reserved
PODR05 [R/W]
- - 000000
PODR06 [R/W]
00000000
PODR07 [R/W]
00000000
000E08H
PODR08 [R/W]
0--0---0
PODR09 [R/W]
- - - - - - 00
PODR10 [R/W]
-------0
Reserved
PODR14 [R/W]
00000000
PODR15 [R/W]
00000000
000E0CH
+2
Reserved
+3
Reserved
000E10H
PODR16 [R/W]
00000000
PODR17 [R/W]
00000000
PODR18 [R/W]
- 000 - 000
PODR19 [R/W]
- 000 - 000
000E14H
PODR20 [R/W]
- 000 - 000
PODR21 [R/W]
- - - - - - 00
PODR22 [R/W]
00000000
PODR23 [R/W]
00000000
000E18H
PODR24 [R/W]
00000000
Reserved
PODR26 [R/W]
00000000
PODR27 [R/W]
00000000
000E1CH
PODR28 [R/W]
00000000
PODR29 [R/W]
00000000
000E20H
to
000E3CH
Reserved
Reserved
PILR00 [R/W]
00000000
PILR01 [R/W]
00000000
000E44H
Reserved
PILR05 [R/W]
- - 000000
PILR06 [R/W]
00000000
PILR07 [R/W]
00000000
000E48H
PILR08 [R/W]
0--0---0
PILR09 [R/W]
- - - - - - 00
PILR10 [R/W]
-------0
Reserved
PILR14 [R/W]
00000000
PILR15 [R/W]
00000000
Reserved
Reserved
000E50H
PILR16 [R/W]
00000000
PILR17 [R/W]
00000000
PILR18 [R/W]
- - - - - 000
PILR19 [R/W]
- 000 - 000
000E54H
PILR20 [R/W]
- 000 - 000
PILR21 [R/W]
- - - - - - 00
PILR22 [R/W]
00000000
PILR23 [R/W]
00000000
000E58H
PILR24 [R/W]
00000000
Reserved
PILR26 [R/W]
00000000
PILR27 [R/W]
00000000
000E5CH
PILR28 [R/W]
00000000
PILR29 [R/W]
00000000
000E60H
to
000E7CH
R-bus Port
Output Drive Select
Register
Reserved
000E40H
000E4CH
60
Block
Reserved
R-bus Port
Input Level Select
Register
Reserved
Reserved
MB91460H Series
Address
Register
Block
+0
+1
000E80H
EPILR00 [R/W]
00000000
EPILR01 [R/W]
00000000
000E84H
Reserved
EPILR05 [R/W]
- - 000000
EPILR06 [R/W]
00000000
EPILR07 [R/W]
00000000
000E88H
EPILR08 [R/W]
0 - - 0- - - 0
EPILR09 [R/W]
- - - - - - 00
EPILR10 [R/W]
-------0
Reserved
EPILR14 [R/W]
00000000
EPILR15 [R/W]
00000000
000E8CH
+2
Reserved
+3
Reserved
000E90H
EPILR16 [R/W]
00000000
EPILR17 [R/W]
00000000
EPILR18 [R/W]
- - - - - 000
EPILR19 [R/W]
- 000 - 000
000E94H
EPILR20 [R/W]
- 000 - 000
EPILR21 [R/W]
- - - - - - 00
EPILR22 [R/W]
00000000
EPILR23 [R/W]
00000000
000E98H
EPILR24 [R/W]
00000000
Reserved
EPILR26 [R/W]
00000000
EPILR27 [R/W]
00000000
000E9CH
EPILR28 [R/W]
00000000
EPILR29 [R/W]
00000000
000EA0H
to
000EBCH
Reserved
Reserved
Reserved
000EC0H
PPER00 [R/W]
00000000
PPER01 [R/W]
00000000
000EC4H
Reserved
PPER05 [R/W]
- - 000000
PPER06 [R/W]
00000000
PPER07 [R/W]
00000000
000EC8H
PPER08 [R/W]
0--0---0
PPER09 [R/W]
- - - - - - 00
PPER10 [R/W]
-------0
Reserved
PPER14 [R/W]
00000000
PPER15 [R/W]
00000000
000ECCH
Reserved
Reserved
000ED0H
PPER16 [R/W]
00000000
PPER17 [R/W]
00000000
PPER18 [R/W]
- 000 - 000
PPER19 [R/W]
- 000 - 000
000ED4H
PPER20 [R/W]
- 000 - 000
PPER21 [R/W]
- - - - - - 00
PPER22 [R/W]
00000000
PPER23 [R/W]
00000000
000ED8H
PPER24 [R/W]
00000000
Reserved
PPER26 [R/W]
00000000
PPER27 [R/W]
00000000
000EDCH
PPER28 [R/W]
00000000
PPER29 [R/W]
00000000
000EE0H
to
000EFCH
R-bus Port
Extra Input Level
Select
Register
Reserved
R-bus Port
Pull-Up/Down
Enable
Register
Reserved
Reserved
61
MB91460H Series
Address
Block
+0
+1
000F00H
PPCR00 [R/W]
11111111
PPCR01 [R/W]
11111111
000F04H
Reserved
PPCR05 [R/W]
- - 111111
PPCR06 [R/W]
11111111
PPCR07 [R/W]
11111111
000F08H
PPCR08 [R/W]
1--1---1
PPCR09 [R/W]
- - - - - - 11
PPCR10 [R/W]
-------1
Reserved
PPCR14 [R/W]
00000000
PPCR15 [R/W]
11111111
000F0CH
62
Register
+2
Reserved
+3
Reserved
000F10H
PPCR16 [R/W]
00000000
PPCR17 [R/W]
00000000
PPCR18 [R/W]
- 111- 111
PPCR19 [R/W]
- 111- 111
000F14H
PPCR20 [R/W]
- 111- 111
PPCR21 [R/W]
- - - - - - 11
PPCR22 [R/W]
11111111
PPCR23 [R/W]
11111111
000F18H
PPCR24 [R/W]
11111111
Reserved
PPCR26 [R/W]
11111111
PPCR27 [R/W]
11111111
000F1CH
PPCR28 [R/W]
11111111
PPCR29 [R/W]
11111111
R-bus Port
Pull-Up/Down Control
Register
Reserved
000F20H
to
000F3CH
Reserved
001000H
DMASA0 [R/W]
XXXXXXXX XXXXXXXX XXXXXXXX XXXXXXXX
001004H
DMADA0 [R/W]
XXXXXXXX XXXXXXXX XXXXXXXX XXXXXXXX
001008H
DMASA1 [R/W]
XXXXXXXX XXXXXXXX XXXXXXXX XXXXXXXX
00100CH
DMADA1 [R/W]
XXXXXXXX XXXXXXXX XXXXXXXX XXXXXXXX
001010H
DMASA2 [R/W]
XXXXXXXX XXXXXXXX XXXXXXXX XXXXXXXX
001014H
DMADA2 [R/W]
XXXXXXXX XXXXXXXX XXXXXXXX XXXXXXXX
001018H
DMASA3 [R/W]
XXXXXXXX XXXXXXXX XXXXXXXX XXXXXXXX
00101CH
DMADA3 [R/W]
XXXXXXXX XXXXXXXX XXXXXXXX XXXXXXXX
001020H
DMASA4 [R/W]
XXXXXXXX XXXXXXXX XXXXXXXX XXXXXXXX
001024H
DMADA4 [R/W]
XXXXXXXX XXXXXXXX XXXXXXXX XXXXXXXX
001028H
to
003FFCH
Reserved
Reserved
DMAC
Reserved
MB91460H Series
Address
Register
+0
002000H
to
006FFCH
007000H
007004H
+1
Block
+2
+3
Flash-cache size is 8 Kbytes : 004000H to 005FFCH
FMCS [R/W]
01101000
FMCR [R/W]
- - - - 0000
FMWT [R/W]
11111111 11111111
FCHCR [R/W]
- - - - - - 00 10000011
Reserved
FMPS [R/W]
- - - - - 000
Flash-cache /
I-RAM area
Flash Memory/
I-Cache
Control
Register
007008H
FMAC [R]
00000000 00000000 00000000 00000000
00700CH
FCHA0 [R/W]
- - - - - - - - - - 000000 00000000 00000000
007010H
FCHA1 [R/W]
- - - - - - - - - - 000000 00000000 00000000
007014H
to
007FFCH
Reserved
Reserved
008000H
to
00BFFCH
Boot-ROM size is 4 Kbytes : 00B000H to 00BFFCH
(instruction access is 1 wait cycle, data access is 1 wait cycle)
Boot ROM area
00C000H
CTRLR0 [R/W]
00000000 00000001
STATR0 [R/W]
00000000 00000000
00C004H
ERRCNT0 [R]
00000000 00000000
BTR0 [R/W]
00100011 00000001
00C008H
INTR0 [R]
00000000 00000000
TESTR0 [R/W]
00000000 X0000000
00C00CH
BRPE0 [R/W]
00000000 00000000
CBSYNC0
I-Cache Non-cacheable area setting
Register
CAN 0
Control
Register
63
MB91460H Series
Address
Register
+0
+1
+2
+3
00C010H
IF1CREQ0 [R/W]
00000000 00000001
IF1CMSK0 [R/W]
00000000 00000000
00C014H
IF1MSK20 [R/W]
11111111 11111111
IF1MSK10 [R/W]
11111111 11111111
00C018H
IF1ARB20 [R/W]
00000000 00000000
IF1ARB10 [R/W]
00000000 00000000
00C01CH
IF1MCTR0 [R/W]
00000000 00000000
Reserved
00C020H
IF1DTA10 [R/W]
00000000 00000000
IF1DTA20 [R/W]
00000000 00000000
00C024H
IF1DTB10 [R/W]
00000000 00000000
IF1DTB20 [R/W]
00000000 00000000
00C028H
to
00C02CH
CAN 0
IF 1 Register
Reserved
00C030H
IF1DTA20 [R/W]
00000000 00000000
IF1DTA10 [R/W]
00000000 00000000
00C034H
IF1DTB20 [R/W]
00000000 00000000
IF1DTB10 [R/W]
00000000 00000000
00C038H
to
00C03CH
64
Block
Reserved
00C040H
IF2CREQ0 [R/W]
00000000 00000001
IF2CMSK0 [R/W]
00000000 00000000
00C044H
IF2MSK20 [R/W]
11111111 11111111
IF2MSK10 [R/W]
11111111 11111111
00C048H
IF2ARB20 [R/W]
00000000 00000000
IF2ARB10 [R/W]
00000000 00000000
CAN 0
IF 2 Register
MB91460H Series
Address
Register
+0
+1
Block
+2
+3
00C04CH
IF2MCTR0 [R/W]
00000000 00000000
Reserved
00C050H
IF2DTA10 [R/W]
00000000 00000000
IF2DTA20 [R/W]
00000000 00000000
00C054H
IF2DTB10 [R/W]
00000000 00000000
IF2DTB20 [R/W]
00000000 00000000
00C058H
to
00C05CH
Reserved
00C060H
IF2DTA20 [R/W]
00000000 00000000
IF2DTA10 [R/W]
00000000 00000000
00C064H
IF2DTB20 [R/W]
00000000 00000000
IF2DTB10 [R/W]
00000000 00000000
00C068H
to
00C07CH
Reserved
00C080H
TREQR20 [R]
00000000 00000000
TREQR10 [R]
00000000 00000000
00C084H
to
00C08CH
Reserved
Reserved
00C090H
NEWDT20 [R]
00000000 00000000
NEWDT10 [R]
00000000 00000000
00C094H
to
00C09CH
Reserved
Reserved
00C0A0H
INTPND20 [R]
00000000 00000000
INTPND10 [R]
00000000 00000000
00C0A4H
to
00C0ACH
Reserved
Reserved
00C0B0H
MSGVAL20 [R]
00000000 00000000
MSGVAL10 [R]
00000000 00000000
00C0B4H
to
00C0FCH
Reserved
Reserved
00C100H
to
00EFFCH
Reserved
CAN 0
Status Flags
Reserved
65
MB91460H Series
Address
Register
+0
66
+1
Block
+2
00F000H
BCTRL [R/W]
- - - - - - - - - - - - - - - - 11111100 00000000
00F004H
BSTAT [R/W]
- - - - - - - - - - - - - 000 00000000 10 - - 000000
00F008H
BIAC [R]
- - - - - - - - - - - - - - - - 00000000 00000000
00F00CH
BOAC [R]
- - - - - - - - - - - - - - - - 00000000 00000000
00F010H
BIRQ [R/W]
- - - - - - - - - - - - - - - - 00000000 00000000
00F014H
to
00F01CH
Reserved
00F020H
BCR0 [R/W]
- - - - - - - - 00000000 00000000 00000000
00F024H
BCR1 [R/W]
- - - - - - - - 00000000 00000000 00000000
00F028H
BCR2 [R/W]
- - - - - - - - 00000000 00000000 00000000
00F02CH
BCR3 [R/W]
- - - - - - - - 00000000 00000000 00000000
00F030H
to
00F07CH
Reserved
00F080H
BAD0 [R/W]
XXXXXXXX XXXXXXXX XXXXXXXX XXXXXXXX
00F084H
BAD1 [R/W]
XXXXXXXX XXXXXXXX XXXXXXXX XXXXXXXX
00F088H
BAD2 [R/W]
XXXXXXXX XXXXXXXX XXXXXXXX XXXXXXXX
00F08CH
BAD3 [R/W]
XXXXXXXX XXXXXXXX XXXXXXXX XXXXXXXX
00F090H
BAD4 [R/W]
XXXXXXXX XXXXXXXX XXXXXXXX XXXXXXXX
00F094H
BAD5 [R/W]
XXXXXXXX XXXXXXXX XXXXXXXX XXXXXXXX
00F098H
BAD6 [R/W]
XXXXXXXX XXXXXXXX XXXXXXXX XXXXXXXX
00F09CH
BAD7 [R/W]
XXXXXXXX XXXXXXXX XXXXXXXX XXXXXXXX
+3
EDSU / MPU
Reserved
EDSU / MPU
MB91460H Series
Address
Register
+0
+1
Block
+2
+3
00F0A0H
BAD8 [R/W]
XXXXXXXX XXXXXXXX XXXXXXXX XXXXXXXX
00F0A4H
BAD9 [R/W]
XXXXXXXX XXXXXXXX XXXXXXXX XXXXXXXX
00F0A8H
BAD10 [R/W]
XXXXXXXX XXXXXXXX XXXXXXXX XXXXXXXX
00F0ACH
BAD11 [R/W]
XXXXXXXX XXXXXXXX XXXXXXXX XXXXXXXX
00F0B0H
BAD12 [R/W]
XXXXXXXX XXXXXXXX XXXXXXXX XXXXXXXX
00F0B4H
BAD13 [R/W]
XXXXXXXX XXXXXXXX XXXXXXXX XXXXXXXX
00F0B8H
BAD14 [R/W]
XXXXXXXX XXXXXXXX XXXXXXXX XXXXXXXX
00F0BCH
BAD15 [R/W]
XXXXXXXX XXXXXXXX XXXXXXXX XXXXXXXX
00F0C0H
to
01FFFCH
Reserved
020000H
to
02FFFCH
MB91F466HA D-RAM size is 24 Kbytes : 02A000H - 02FFFCH
MB91F464HB D-RAM size is 16 Kbytes : 02C000H - 02FFFCH
(data access is 0 wait cycles)
D-RAM area
030000H
to
03FFFCH
ID-RAM size is 16 Kbytes : 030000H - 033FFCH
(instruction access is 0 wait cycles, data access is 1 wait cycle)
ID-RAM area
EDSU / MPU
*1 : depends on the number of available CAN channels
*2 : ACR0 [11 : 10] depends on Mode vector fetch information on bus width
**3 : TCR [3 : 0] INIT value = 0000, keeps value after RST
67
MB91460H Series
2. Flash memory and external bus area
2.1.
MB91F464HB
32bit read
16bit read/write
Address
dat[31:0]
dat[31:16]
dat[31:0]
dat[15:0]
dat[31:16]
dat[15:0]
Register
+0
+1
+2
+3
+4
+5
+6
+7
Block
040000H to 05FFF8H
Reserved
Reserved
ROMS0
060000H to 07FFF8H
Reserved
Reserved
ROMS1
080000H to 09FFF8H
Reserved
Reserved
ROMS2
0A0000H to 0BFFF8H
SA14 (64KB)
SA15 (64KB)
ROMS3
0C0000H to 0DFFF8H
SA16 (64KB)
SA17 (64KB)
ROMS4
0E0000H to 0FFFF0H
SA18 (64KB)
SA19 (64KB)
0FFFF8H
FMV [R]
06 00 00 00H
FRV [R]
00 00 BF F8H
100000H to 11FFF8H
External Bus Area
120000H to 13FFF8H
140000H to 143FF8H
ROMS6
External Bus Area
144000H to 17FF8H
148000H to 14BFF8H
SA4 (8KB)
SA5 (8KB)
14C000H to 14FFF8H
SA6 (8KB)
SA7 (8KB)
150000H to 17FFF8H
ROMS5
ROMS7
Reserved
180000H to 1BFFF8H
ROMS8
1C0000H to 1FFFF8H
ROMS9
200000H to 27FFF8H
ROMS10
280000H to 2FFFF8H
300000H to 37FFF8H
External Bus Area
ROMS11
ROMS12
380000H to 3FFFF8H
ROMS13
400000H to 47FFF8H
ROMS14
480000H to 4FFFF8H
ROMS15
Notes: Write operations to address 0FFFF8H and 0FFFFCH are not possible. When reading these addresses, the
values shown above will be read.
68
MB91460H Series
2.1.
MB91F466HA
64bit read
dat[63:0]
32bit read/write
16bit read/write
Address
dat[31:0]
dat[31:16]
dat[31:0]
dat[15:0]
dat[31:16]
dat[15:0]
Register
+0
+1
+2
+3
+4
+5
+6
+7
Block
040000H to 05FFF8H
SA8 (64KB)
SA9 (64KB)
ROMS0
060000H to 07FFF8H
SA10 (64KB)
SA11 (64KB)
ROMS1
080000H to 09FFF8H
SA12 (64KB)
SA13 (64KB)
ROMS2
0A0000H to 0BFFF8H
SA14 (64KB)
SA15 (64KB)
ROMS3
0C0000H to 0DFFF8H
SA16 (64KB)
SA17 (64KB)
ROMS4
0E0000H to 0FFFF0H
SA18 (64KB)
SA19 (64KB)
0FFFF8H
FMV [R]
06 00 00 00H
FRV [R]
00 00 BF F8H
100000H to 11FFF8H
External Bus Area
120000H to 13FFF8H
ROMS6
140000H to 143FF8H
SA0 (8KB)
SA1 (8KB)
144000H to 17FF8H
SA2 (8KB)
SA3 (8KB)
148000H to 14BFF8H
SA4 (8KB)
SA5 (8KB)
14C000H to 14FFF8H
SA6 (8KB)
SA7 (8KB)
150000H to17FFF8H
ROMS5
ROMS7
Reserved
180000H to 1BFFF8H
ROMS8
1C0000H to 1FFFF8H
ROMS9
200000H to 27FFF8H
ROMS10
280000H to 2FFFF8H
300000H to 37FFF8H
External Bus Area
ROMS11
ROMS12
380000H to 3FFFF8H
ROMS13
400000H to 47FFF8H
ROMS14
480000H to 4FFFF8H
ROMS15
Notes: Write operations to address 0FFFF8H and 0FFFFCH are not possible. When reading these addresses, the
values shown above will be read.
69
MB91460H Series
■ INTERRUPT VECTOR TABLE
Interrupt number
Interrupt
70
Interrupt level *1
Interrupt vector *2
DMA
Resource
number
Decimal
Hexadecimal
Setting
Register
Register
address
Offset
Default vector address
Reset
0
00
—
—
3FCH
000FFFFCH
—
Mode vector
1
01
—
—
3F8H
000FFFF8H
—
System reserved
2
02
—
—
3F4H
000FFFF4H
—
System reserved
3
03
—
—
3F0H
000FFFF0H
—
System reserved
4
04
—
—
3ECH
000FFFECH
—
CPU supervisor mode
(INT #5 instruction) *5
5
05
—
—
3E8H
000FFFE8H
—
Memory Protection exception *5
6
06
—
—
3E4H
000FFFE4H
—
System reserved
7
07
—
—
3E0H
000FFFE0H
—
System reserved
8
08
—
—
3DCH
000FFFDCH
—
System reserved
9
09
—
—
3D8H
000FFFD8H
—
System reserved
10
0A
—
—
3D4H
000FFFD4H
—
System reserved
11
0B
—
—
3D0H
000FFFD0H
—
System reserved
12
0C
—
—
3CCH
000FFFCCH
—
System reserved
13
0D
—
—
3C8H
000FFFC8H
—
Undefined instruction
exception
14
0E
—
—
3C4H
000FFFC4H
—
NMI request
15
0F
3C0H
000FFFC0H
—
External Interrupt 0
16
10
3BCH
000FFFBCH
0, 16
External Interrupt 1
17
11
3B8H
000FFFB8H
1, 17
External Interrupt 2
18
12
3B4H
000FFFB4H
2, 18
External Interrupt 3
19
13
3B0H
000FFFB0H
3, 19
External Interrupt 4
20
14
3ACH
000FFFACH
20
External Interrupt 5
21
15
3A8H
000FFFA8H
21
External Interrupt 6
22
16
3A4H
000FFFA4H
22
External Interrupt 7
23
17
3A0H
000FFFA0H
23
External Interrupt 8
24
18
39CH
000FFF9CH
—
External Interrupt 9
25
19
398H
000FFF98H
—
External Interrupt 10
26
1A
394H
000FFF94H
—
External Interrupt 11
27
1B
390H
000FFF90H
—
External Interrupt 12
28
1C
38CH
000FFF8CH
—
External Interrupt 13
29
1D
388H
000FFF88H
—
External Interrupt 14
30
1E
384H
000FFF84H
—
External Interrupt 15
31
1F
380H
000FFF80H
—
FH fixed
ICR00
440H
ICR01
441H
ICR02
442H
ICR03
443H
ICR04
444H
ICR05
445H
ICR06
446H
ICR07
447H
MB91460H Series
Interrupt number
Interrupt
Decimal
Hexadecimal
Reload Timer 0
32
20
Reload Timer 1
33
21
Reload Timer 2
34
22
Reload Timer 3
35
23
Reload Timer 4
36
24
Reload Timer 5
37
25
Reload Timer 6
38
26
Reload Timer 7
39
27
Free Run Timer 0
40
28
Free Run Timer 1
41
29
Free Run Timer 2
42
2A
Free Run Timer 3
43
2B
Free Run Timer 4
44
2C
Free Run Timer 5
45
2D
Free Run Timer 6
46
2E
Free Run Timer 7
47
2F
CAN 0
48
30
Reserved
49
31
Reserved
50
32
Reserved
51
33
Reserved
52
34
Reserved
53
35
LIN-USART 0 RX
54
36
LIN-USART 0 TX
55
37
Reserved
56
38
Reserved
57
39
LIN-USART 2 RX
58
3A
LIN-USART 2 TX
59
3B
LIN-USART 3 RX
60
3C
LIN-USART 3 TX
61
3D
System Reserved
62
3E
Delayed Interrupt
63
3F
System Reserved *4
64
40
System Reserved *4
65
41
Interrupt level *1
Setting
Register
Register
address
ICR08
448H
ICR09
449H
ICR10
44AH
ICR11
44BH
ICR12
44CH
ICR13
44DH
ICR14
44EH
ICR15
44FH
ICR16
450H
ICR17
451H
ICR18
452H
ICR19
453H
ICR20
454H
ICR21
455H
ICR22
456H
ICR23 *3
457H
ICR24
458H
Interrupt vector *2
DMA
Resource
number
Offset
Default vector address
37CH
000FFF7CH
4, 32
378H
000FFF78H
5, 33
374H
000FFF74H
34
370H
000FFF70H
35
36CH
000FFF6CH
36
368H
000FFF68H
37
364H
000FFF64H
38
360H
000FFF60H
39
35CH
000FFF5CH
40
358H
000FFF58H
41
354H
000FFF54H
42
350H
000FFF50H
43
34CH
000FFF4CH
44
348H
000FFF48H
45
344H
000FFF44H
46
340H
000FFF40H
47
33CH
000FFF3CH
—
338H
000FFF38H
—
334H
000FFF34H
—
330H
000FFF30H
—
32CH
000FFF2CH
—
328H
000FFF28H
—
324H
000FFF24H
6, 48
320H
000FFF20H
7, 49
31CH
000FFF1CH
8, 50
318H
000FFF18H
9, 51
314H
000FFF14H
52
310H
000FFF10H
53
30CH
000FFF0CH
54
308H
000FFF08H
55
304H
000FFF04H
—
300H
000FFF00H
—
2FCH
000FFEFCH
—
2F8H
000FFEF8H
—
71
MB91460H Series
Interrupt number
Interrupt
72
Decimal
Hexadecimal
LIN-USART (FIFO) 4 RX
66
42
LIN-USART (FIFO) 4 TX
67
43
LIN-USART (FIFO) 5 RX
68
44
LIN-USART (FIFO) 5 TX
69
45
LIN-USART (FIFO) 6 RX
70
46
LIN-USART (FIFO) 6 TX
71
47
LIN-USART (FIFO) 7 RX
72
48
LIN-USART (FIFO) 7 TX
73
49
I2C 0
74
4A
I2C 1
75
4B
Reserved
76
4C
Reserved
77
4D
Reserved
78
4E
Reserved
79
4F
Reserved
80
50
Reserved
81
51
Reserved
82
52
Reserved
83
53
Reserved
84
54
Reserved
85
55
Reserved
86
56
Reserved
87
57
Reserved
88
58
Reserved
89
59
Reserved
90
5A
Reserved
91
5B
Input Capture 0
92
5C
Input Capture 1
93
5D
Input Capture 2
94
5E
Input Capture 3
95
5F
Input Capture 4
96
60
Input Capture 5
97
61
Input Capture 6
98
62
Input Capture 7
99
63
Interrupt level *1
Setting
Register
Register
address
ICR25
459H
ICR26
45AH
ICR27
45BH
ICR28
45CH
ICR29
45DH
ICR30
45EH
ICR31
45FH
ICR32
460H
ICR33
461H
ICR34
462H
ICR35
463H
ICR36
464H
ICR37
465H
ICR38
466H
ICR39
467H
ICR40
468H
ICR41
469H
Interrupt vector *2
DMA
Resource
number
Offset
Default vector address
2F4H
000FFEF4H
10, 56
2F0H
000FFEF0H
11, 57
2ECH
000FFEECH
12, 58
2E8H
000FFEE8H
13, 59
2E4H
000FFEE4H
60
2E0H
000FFEE0H
61
2DCH
000FFEDCH
62
2D8H
000FFED8H
63
2D4H
000FFED4H
—
2D0H
000FFED0H
—
2CCH
000FFECCH
64
2C8H
000FFEC8H
65
2C4H
000FFEC4H
66
2C0H
000FFEC0H
67
2BCH
000FFEBCH
68
2B8H
000FFEB8H
69
2B4H
000FFEB4H
70
2B0H
000FFEB0H
71
2ACH
000FFEACH
72
2A8H
000FFEA8H
73
2A4H
000FFEA4H
74
2A0H
000FFEA0H
75
29CH
000FFE9CH
76
298H
000FFE98H
77
294H
000FFE94H
78
290H
000FFE90H
79
28CH
000FFE8CH
80
288H
000FFE88H
81
284H
000FFE84H
82
280H
000FFE80H
83
27CH
000FFE7CH
84
278H
000FFE78H
85
274H
000FFE74H
86
270H
000FFE70H
87
MB91460H Series
Interrupt number
Interrupt
Decimal
Hexadecimal
Output Compare 0
100
64
Output Compare 1
101
65
Output Compare 2
102
66
Output Compare 3
103
67
Output Compare 4
104
68
Output Compare 5
105
69
Output Compare 6
106
6A
Output Compare 7
107
6B
Sound Generator
108
6C
Reserved
109
6D
System Reserved
110
6E
System Reserved
111
6F
PPG 0
112
70
PPG 1
113
71
PPG 2
114
72
PPG 3
115
73
PPG 4
116
74
PPG 5
117
75
PPG 6
118
76
PPG 7
119
77
PPG 8
120
78
PPG 9
121
79
PPG 10
122
7A
PPG 11
123
7B
PPG 12
124
7C
PPG 13
125
7D
PPG 14
126
7E
PPG 15
127
7F
Up/Down Counter 0
128
80
Up/Down Counter 1
129
81
Reserved
130
82
Reserved
131
83
Real Time Clock
132
84
Calibration Unit
133
85
Interrupt level *1
Setting
Register
Register
address
ICR42
46AH
ICR43
46BH
ICR44
46CH
ICR45
46DH
ICR46
46EH
ICR47 *3
46FH
ICR48
470H
ICR49
471H
ICR50
472H
ICR51
473H
ICR52
474H
ICR53
475H
ICR54
476H
ICR55
477H
ICR56
478H
ICR57
479H
ICR58
47AH
Interrupt vector *2
DMA
Resource
number
Offset
Default vector address
26CH
000FFE6CH
88
268H
000FFE68H
89
264H
000FFE64H
90
260H
000FFE60H
91
25CH
000FFE5CH
92
258H
000FFE58H
93
254H
000FFE54H
94
250H
000FFE50H
95
24CH
000FFE4CH
—
248H
000FFE48H
—
244H
000FFE44H
—
240H
000FFE40H
—
23CH
000FFE3CH
15, 96
238H
000FFE38H
97
234H
000FFE34H
98
230H
000FFE30H
99
22CH
000FFE2CH
100
228H
000FFE28H
101
224H
000FFE24H
102
220H
000FFE20H
103
21CH
000FFE1CH
104
218H
000FFE18H
105
214H
000FFE14H
106
210H
000FFE10H
107
20CH
000FFE0CH
108
208H
000FFE08H
109
204H
000FFE04H
110
200H
000FFE00H
111
1FCH
000FFDFCH
—
1F8H
000FFDF8H
—
1F4H
000FFDF4H
—
1F0H
000FFDF0H
—
1ECH
000FFDECH
—
1E8H
000FFDE8H
—
73
MB91460H Series
Interrupt number
Interrupt
Decimal
Hexadecimal
A/D Converter 0
134
86
System reserved
135
87
Alarm Comparator 0
136
88
Reserved
137
89
Low Voltage Detection
138
8A
Reserved
139
8B
Time base Overflow
140
8C
PLL Clock Gear
141
8D
DMA Controller
142
8E
Main/Sub OSC stability wait
143
8F
Security vector
144
Used by the INT
instruction.
145
to
255
Interrupt level *1
Setting
Register
Register
address
ICR59
47BH
ICR60
47CH
ICR61
47DH
ICR62
47EH
ICR63
47FH
90
—
91
to
FF
—
Interrupt vector *2
DMA
Resource
number
Offset
Default vector address
1E4H
000FFDE4H
14, 112
1E0H
000FFDE0H
—
1DCH
000FFDDCH
—
1D8H
000FFDD8H
—
1D4H
000FFDD4H
—
1D0H
000FFDD0H
—
1CCH
000FFDCCH
—
1C8H
000FFDC8H
—
1C4H
000FFDC4H
—
1C0H
000FFDC0H
—
—
1BCH
000FFDBCH
—
—
1B8H to
000H
000FFDB8H
to
000FFC00H
—
*1 : The Interrupt Control Registers (ICRs) are located in the interrupt controller and set the interrupt level for each
interrupt request. An ICR is provided for each interrupt request.
*2 : The vector address for each EIT (exception, interrupt or trap) is calculated by adding the listed offset to the
table base register value (TBR) . The TBR specifies the top of the EIT vector table. The addresses listed in the
table are for the default TBR value (000FFC00H) . The TBR is initialized to this value by a reset. The TBR is set
to 000FFC00H after the internal boot ROM is executed.
*3 : ICR23 and ICR47 can be exchanged by setting the REALOS compatibility bit (addr 0C03H : IOS[0])
*4 : Used by REALOS
*5 : Memory Protection Unit (MPU) support
74
MB91460H Series
■ RECOMMENDED SETTINGS
1. PLL and Clockgear settings
Please note that for MB91F464HB the core base clock frequencies are valid in the 1.8V operation mode of the
Main regulator and Flash .
Please refer to “Absolute maximum ratings” on page 82 to find the maximum allowed frequency of Core Base
Clock (fCLKB) at high temperature.
Recommended PLL divider and clockgear settings
PLL
Input (CLK)
[MHz]
Frequency Parameter
Clockgear Parameter
PLL
Output (X)
[MHz]
CoreBase
Clock
[MHz]
DIVM
DIVN
DIVG
MULG
4
2
25
16
24
200
100
4
2
24
16
24
192
96
4
2
23
16
24
184
92
4
2
22
16
24
176
88
4
2
21
16
20
168
84
4
2
20
16
20
160
80
4
2
19
16
20
152
76
4
2
18
16
20
144
72
4
2
17
16
16
136
68
4
2
16
16
16
128
64
4
2
15
16
16
120
60
4
2
14
16
16
112
56
4
2
13
16
12
104
52
4
2
12
16
12
96
48
4
2
11
16
12
88
44
4
4
10
16
24
160
40
4
4
9
16
24
144
36
4
4
8
16
24
128
32
4
4
7
16
24
112
28
4
6
6
16
24
144
24
4
8
5
16
28
160
20
4
10
4
16
32
160
16
4
12
3
16
32
144
12
Remarks
MULG
*1
*1 This setting is not possible at MB91F466HA.
75
MB91460H Series
2. Clock Modulator settings
The following table shows all possible settings for the Clock Modulator in a base clock frequency range from
32MHz up to 88MHz.
The Flash access time settings need to be adjusted according to Fmax while the PLL and clockgear settings
should be set according to base clock frequency.
Please refer to “Absolute maximum ratings” on page 82 to find the maximum allowed frequency of Fmax (fCLKB)
at high temperature.
Clock Modulator settings, frequency range and supported supply voltage
76
Modulation
Degree
(k)
Random No
(N)
CMPR
[hex]
Baseclk
[MHz]
Fmin
[MHz]
Fmax
[MHz]
Remarks
1
3
026F
88
79.5
98.5
*1
1
3
026F
84
76.1
93.8
1
3
026F
80
72.6
89.1
1
5
02AE
80
68.7
95.8
2
3
046E
80
68.7
95.8
1
3
026F
76
69.1
84.5
1
5
02AE
76
65.3
90.8
1
7
02ED
76
62
98.1
2
3
046E
76
65.3
90.8
3
3
066D
76
62
98.1
1
3
026F
72
65.5
79.9
1
5
02AE
72
62
85.8
1
7
02ED
72
58.8
92.7
2
3
046E
72
62
85.8
3
3
066D
72
58.8
92.7
1
3
026F
68
62
75.3
1
5
02AE
68
58.7
80.9
1
7
02ED
68
55.7
87.3
1
9
032C
68
53
95
2
3
046E
68
58.7
80.9
2
5
04AC
68
53
95
3
3
066D
68
55.7
87.3
4
3
086C
68
53
95
1
3
026F
64
58.5
70.7
1
5
02AE
64
55.3
75.9
1
7
02ED
64
52.5
82
1
9
032C
64
49.9
89.1
1
11
036B
64
47.6
97.6
2
3
046E
64
55.3
75.9
*1
*1
*1
MB91460H Series
Modulation
Degree
(k)
Random No
(N)
CMPR
[hex]
Baseclk
[MHz]
Fmin
[MHz]
Fmax
[MHz]
2
5
04AC
64
49.9
89.1
3
3
066D
64
52.5
82
4
3
086C
64
49.9
89.1
5
3
0A6B
64
47.6
97.6
1
3
026F
60
54.9
66.1
1
5
02AE
60
51.9
71
1
7
02ED
60
49.3
76.7
1
9
032C
60
46.9
83.3
1
11
036B
60
44.7
91.3
2
3
046E
60
51.9
71
2
5
04AC
60
46.9
83.3
3
3
066D
60
49.3
76.7
4
3
086C
60
46.9
83.3
5
3
0A6B
60
44.7
91.3
1
3
026F
56
51.4
61.6
1
5
02AE
56
48.6
66.1
1
7
02ED
56
46.1
71.4
1
9
032C
56
43.8
77.6
1
11
036B
56
41.8
84.9
1
13
03AA
56
39.9
93.8
2
3
046E
56
48.6
66.1
2
5
04AC
56
43.8
77.6
2
7
04EA
56
39.9
93.8
3
3
066D
56
46.1
71.4
3
5
06AA
56
39.9
93.8
4
3
086C
56
43.8
77.6
5
3
0A6B
56
41.8
84.9
6
3
0C6A
56
39.9
93.8
1
3
026F
52
47.8
57
1
5
02AE
52
45.2
61.2
1
7
02ED
52
42.9
66.1
1
9
032C
52
40.8
71.8
1
11
036B
52
38.8
78.6
1
13
03AA
52
37.1
86.8
1
15
03E9
52
35.5
96.9
2
3
046E
52
45.2
61.2
Remarks
*1
77
MB91460H Series
78
Modulation
Degree
(k)
Random No
(N)
CMPR
[hex]
Baseclk
[MHz]
Fmin
[MHz]
Fmax
[MHz]
2
5
04AC
52
40.8
71.8
2
7
04EA
52
37.1
86.8
3
3
066D
52
42.9
66.1
3
5
06AA
52
37.1
86.8
4
3
086C
52
40.8
71.8
5
3
0A6B
52
38.8
78.6
6
3
0C6A
52
37.1
86.8
7
3
0E69
52
35.5
96.9
1
3
026F
48
44.2
52.5
1
5
02AE
48
41.8
56.4
1
7
02ED
48
39.6
60.9
1
9
032C
48
37.7
66.1
1
11
036B
48
35.9
72.3
1
13
03AA
48
34.3
79.9
1
15
03E9
48
32.8
89.1
2
3
046E
48
41.8
56.4
2
5
04AC
48
37.7
66.1
2
7
04EA
48
34.3
79.9
3
3
066D
48
39.6
60.9
3
5
06AA
48
34.3
79.9
4
3
086C
48
37.7
66.1
5
3
0A6B
48
35.9
72.3
6
3
0C6A
48
34.3
79.9
7
3
0E69
48
32.8
89.1
1
3
026F
44
40.6
48.1
1
5
02AE
44
38.4
51.6
1
7
02ED
44
36.4
55.7
1
9
032C
44
34.6
60.4
1
11
036B
44
33
66.1
1
13
03AA
44
31.5
73
1
15
03E9
44
30.1
81.4
2
3
046E
44
38.4
51.6
2
5
04AC
44
34.6
60.4
2
7
04EA
44
31.5
73
2
9
0528
44
28.9
92.1
3
3
066D
44
36.4
55.7
Remarks
*1
MB91460H Series
Modulation
Degree
(k)
Random No
(N)
CMPR
[hex]
Baseclk
[MHz]
Fmin
[MHz]
Fmax
[MHz]
3
5
06AA
44
31.5
73
4
3
086C
44
34.6
60.4
4
5
08A8
44
28.9
92.1
5
3
0A6B
44
33
66.1
6
3
0C6A
44
31.5
73
7
3
0E69
44
30.1
81.4
8
3
1068
44
28.9
92.1
1
3
026F
40
37
43.6
1
5
02AE
40
34.9
46.8
1
7
02ED
40
33.1
50.5
1
9
032C
40
31.5
54.8
1
11
036B
40
30
59.9
1
13
03AA
40
28.7
66.1
1
15
03E9
40
27.4
73.7
2
3
046E
40
34.9
46.8
2
5
04AC
40
31.5
54.8
2
7
04EA
40
28.7
66.1
2
9
0528
40
26.3
83.3
3
3
066D
40
33.1
50.5
3
5
06AA
40
28.7
66.1
3
7
06E7
40
25.3
95.8
4
3
086C
40
31.5
54.8
4
5
08A8
40
26.3
83.3
5
3
0A6B
40
30
59.9
6
3
0C6A
40
28.7
66.1
7
3
0E69
40
27.4
73.7
8
3
1068
40
26.3
83.3
9
3
1267
40
25.3
95.8
1
3
026F
36
33.3
39.2
1
5
02AE
36
31.5
42
1
7
02ED
36
29.9
45.3
1
9
032C
36
28.4
49.2
1
11
036B
36
27.1
53.8
1
13
03AA
36
25.8
59.3
1
15
03E9
36
24.7
66.1
2
3
046E
36
31.5
42
Remarks
79
MB91460H Series
80
Modulation
Degree
(k)
Random No
(N)
CMPR
[hex]
Baseclk
[MHz]
Fmin
[MHz]
Fmax
[MHz]
2
5
04AC
36
28.4
49.2
2
7
04EA
36
25.8
59.3
2
9
0528
36
23.7
74.7
3
3
066D
36
29.9
45.3
3
5
06AA
36
25.8
59.3
3
7
06E7
36
22.8
85.8
4
3
086C
36
28.4
49.2
4
5
08A8
36
23.7
74.7
5
3
0A6B
36
27.1
53.8
6
3
0C6A
36
25.8
59.3
7
3
0E69
36
24.7
66.1
8
3
1068
36
23.7
74.7
9
3
1267
36
22.8
85.8
1
3
026F
32
29.7
34.7
1
5
02AE
32
28
37.3
1
7
02ED
32
26.6
40.2
1
9
032C
32
25.3
43.6
1
11
036B
32
24.1
47.7
1
13
03AA
32
23
52.5
1
15
03E9
32
22
58.6
2
3
046E
32
28
37.3
2
5
04AC
32
25.3
43.6
2
7
04EA
32
23
52.5
2
9
0528
32
21.1
66.1
2
11
0566
32
19.5
89.1
3
3
066D
32
26.6
40.2
3
5
06AA
32
23
52.5
3
7
06E7
32
20.3
75.9
4
3
086C
32
25.3
43.6
4
5
08A8
32
21.1
66.1
5
3
0A6B
32
24.1
47.7
5
5
0AA6
32
19.5
89.1
6
3
0C6A
32
23
52.5
7
3
0E69
32
22
58.6
8
3
1068
32
21.1
66.1
9
3
1267
32
20.3
75.9
Remarks
MB91460H Series
Modulation
Degree
(k)
Random No
(N)
CMPR
[hex]
Baseclk
[MHz]
Fmin
[MHz]
Fmax
[MHz]
10
3
1466
32
19.5
89.1
Remarks
*1 These settings are not possible at MB91F466HA
81
MB91460H Series
■ ELECTRICAL CHARACTERISTICS
1. Absolute maximum ratings
Parameter
Symbol
Power supply slew rate
Power supply voltage 1*
1
Power supply voltage 2*1
Relationship of the supply voltages
Unit
Min
Max
⎯
⎯
50
V/ms
VDD5R
− 0.3
+ 6.0
V
VDD5
− 0.3
+ 6.0
V
VDD5-0.3
VDD35-0.3
VDD5+0.3
VDD35+0.3
V
VSS5-0.3
VDD35-0.3
VDD5+0.3
VDD35+0.3
V
AVCC5
Remarks
At least one pin of the
Ports 26 to 29 (ANn) is
used as digital input or
output.
All pins of the Ports 26 to
29 (ANn) follow the
condition of VIA
Analog power supply voltage*1
AVCC5
− 0.3
+ 6.0
V
*2
Analog reference
power supply voltage*1
AVRH
− 0.3
+ 6.0
V
*2
Input voltage 1*1
VI1
Vss5 − 0.3
VDD5 + 0.3
V
Analog pin input voltage*1
VIA
AVss5 − 0.3
AVcc5 + 0.3
V
Output voltage 1*1
VO1
Vss5 − 0.3
VDD5 + 0.3
V
ICLAMP
− 4.0
+ 4.0
mA
*3
Σ |ICLAMP|
⎯
20
mA
*3
IOL
⎯
10
mA
“L” level average
output current*5
IOLAV
⎯
8
mA
“L” level total maximum
output current
ΣIOL
⎯
100
mA
ΣIOLAV
⎯
50
mA
IOH
⎯
− 10
mA
“H” level average
output current*5
IOHAV
⎯
−4
mA
“H” level total maximum
output current
ΣIOH
⎯
− 100
mA
ΣIOHAV
⎯
− 25
mA
fmax, CLKB
⎯
100
fmax, CLKP
⎯
50
fmax, CLKT
⎯
50
fmax, CLKCAN
⎯
50
Maximum clamp current
Total maximum clamp current
“L” level maximum
output current*4
“L” level total average
output current*6
“H” level maximum
output current*4
“H” level total average output
current*6
Permitted operating frequency
MB91F464HB
82
Rating
MHz TA ≤ 105 °C
MB91460H Series
Parameter
Symbol
Permitted operating frequency
MB91F464HB
Permitted operating frequency
MB91F466HA
Permitted operating frequency
MB91F466HA
Permitted power dissipation
Operating temperature
Storage temperature
*7
Rating
Unit
Remarks
Min
Max
fmax, CLKB
⎯
96
fmax, CLKP
⎯
48
fmax, CLKT
⎯
48
fmax, CLKCAN
⎯
48
fmax, CLKB
⎯
96
fmax, CLKP
⎯
48
fmax, CLKT
⎯
48
fmax, CLKCAN
⎯
48
fmax, CLKB
⎯
92
fmax, CLKP
⎯
46
fmax, CLKT
⎯
46
fmax, CLKCAN
⎯
46
⎯
1200 *8
mW
TA ≤ 85 °C
⎯
600 *8
mW
TA ≤ 105 °C
⎯
1300 *8
mW
TA ≤ 105 °C, no Flash
program/erase *9
⎯
1000 *8
mW
TA ≤ 115 °C, no Flash
program/erase *9
⎯
750 *8
mW
TA ≤ 125 °C, no Flash
program/erase *9
TA
− 40
+ 125
°C
Tstg
− 55
+ 150
°C
MHz TA ≤ 125 °C
MHz TA ≤ 105 °C
MHz TA ≤ 125 °C
PD
*1 : The parameter is based on VSS5 = AVSS5 = 0.0 V.
*2 : AVCC5 and AVRH5 must not exceed VDD5 + 0.3 V.
*3 : • Use within recommended operating conditions.
• Use with DC voltage (current).
• +B signals are input signals that exceed the VDD5 voltage. +B signals should always be applied by
connecting a limiting resistor between the +B signal and the microcontroller.
• The value of the limiting resistor should be set so that the current input to the microcontroller pin does not
exceed the rated value at any time , either instantaneously or for an extended period, when the +B signal
is input.
• Note that when the microcontroller drive current is low, such as in the low power consumption modes, the
+B input potential can increase the potential at the power supply pin via a protective diode, possibly affecting
other devices.
• Note that if the +B signal is input when the microcontroller is off (not fixed at 0 V), power is supplied through
the +B input pin; therefore, the microcontroller may partially operate.
• Note that if the +B signal is input at power-on, since the power is supplied through the pin, the power-on reset
may not function in the power supply voltage.
83
MB91460H Series
• Do not leave +B input pins open.
• Example of recommended circuit :
• Input/output equivalent circuit
Protective diode
VCC
Limiting
resistor
P-ch
+B input (0 V to 16 V)
N-ch
R
*4 : Maximum output current is defined as the value of the peak current flowing through any one of the corresponding
pins.
*5 : Average output current is defined as the value of the average current flowing through any one of the
corresponding pins for a 100 ms period.
*6 : Total average output current is defined as the value of the average current flowing through all of the
corresponding pins for a 100 ms period.
*7 : The maximum permitted power dissipation depends on the ambient temperature, the air flow velocity and the
thermal conductance of the package on the PCB.
The actual power dissipation depends on the customer application and can be calculated as follows:
PD = PIO + PINT
PIO = Σ (VOL * IOL + VOH * IOH) (IO load power dissipation, sum is performed on all IO ports)
PINT = VDD5R * ICC + AVCC5 * IA + AVRH5 * IR (internal power dissipation)
*8 : Worst case value for the QFP package mounted on a 4-layer PCB at specified TA without air flow.
*9 : Please contact Fujitsu for reliability limitations when using under these conditions.
WARNING: Semiconductor devices can be permanently damaged by application of stress (voltage, current,
temperature, etc.) in excess of absolute maximum ratings. Do not exceed these ratings.
84
MB91460H Series
2. Recommended operating conditions
(VSS5 = AVSS5 = 0.0 V)
Parameter
Power supply voltage
Smoothing capacitor at
VCC18C pin
Symbol
Max
VDD5
3.0
⎯
5.5
V
VDD5R
3.0
⎯
5.5
V
Internal regulator
AVCC5
3.0
⎯
5.5
V
A/D converter
CS
⎯
4.7
⎯
µF
Use a X7R ceramic capacitor or
a capacitor that has similar frequency characteristics.
⎯
⎯
50
V/ms
− 40
⎯
+ 125
°C
TA
10
ms
Lock-up time PLL
(4 MHz ->16 ...100MHz)
RC Oscillator
Remarks
Typ
Main Oscillation
stabilisation time
ESD Protection
(Human body model)
Unit
Min
Power supply slew rate
Operating temperature
Value
0.6
Vsurge
2
fRC100kHz
fRC2MHz
50
1
ms
kV
100
2
200
4
Rdischarge = 1.5kΩ
Cdischarge = 100pF
kHz
VDDCORE ≥ 1.65V
MHz
WARNING: The recommended operating conditions are required in order to ensure the normal operation of the
semiconductor device. All of the device’s electrical characteristics are warranted when the device is
operated within these ranges.
Always use semiconductor devices within their recommended operating condition ranges. Operation
outside these ranges may adversely affect reliability and could result in device failure.
No warranty is made with respect to uses, operating conditions, or combinations not represented on
the data sheet. Users considering application outside the listed conditions are advised to contact their
FUJITSU representatives beforehand.
VCC18C
VSS5
AVSS5
CS
85
MB91460H Series
3. DC characteristics
(VDD5 = AVCC5 = 3.0 V to 5.5 V, VSS5 = AVSS5 = 0 V, TA = −40 °C to + 125 °C)
Parameter Symbol
Pin name
Min
Unit
Remarks
Typ
Max
⎯
VDD + 0.3
V
CMOS
hysteresis
input
⎯
VDD + 0.3
V
4.5 V ≤ VDD ≤ 5.5 V
⎯
VDD + 0.3
V
3 V ≤ VDD < 4.5 V
Port inputs if CMOS
Hysteresis 0.8/0.2 0.8 × VDD
input is selected
⎯
Port inputs if CMOS 0.7 × VDD
Hysteresis 0.7/0.3
0.74 × VDD
input is selected
⎯
AUTOMOTIVE
Hysteresis input is
selected
0.8 × VDD
⎯
VDD + 0.3
V
⎯
Port inputs if TTL
input is selected
2.0
⎯
VDD + 0.3
V
VIHR
INITX
⎯
0.8 × VDD
⎯
VDD + 0.3
V
INITX input pin
(CMOS
Hysteresis)
VIHM
MD_3 to
MD_0
⎯
VDD − 0.3
⎯
VDD + 0.3
V
Mode input pins
VIHX0S
X0, X0A
⎯
2.5
⎯
VDD + 0.3
V
External clock in
“Oscillation mode”
VIHX0F
X0
⎯
0.8 × VDD
⎯
VDD + 0.3
V
External clock in
“Fast Clock Input
mode”
⎯
Port inputs if CMOS
Hysteresis 0.8/0.2
input is selected
VSS − 0.3
⎯
0.2 × VDD
V
⎯
Port inputs if CMOS
Hysteresis 0.7/0.3
input is selected
VSS − 0.3
⎯
0.3 × VDD
V
VSS − 0.3
⎯
0.5 × VDD
V
4.5 V ≤ VDD ≤ 5.5 V
⎯
Port inputs if
AUTOMOTIVE
Hysteresis input is
selected
VSS − 0.3
⎯
0.46 × VDD
V
3 V ≤ VDD < 4.5 V
⎯
Port inputs if TTL
input is selected
VSS − 0.3
⎯
0.8
V
VIL
Input “L”
voltage
86
Value
⎯
VIH
Input “H”
voltage
Condition
VILR
INITX
⎯
VSS − 0.3
⎯
0.2 × VDD
V
INITX input pin
(CMOS
Hysteresis)
VILM
MD_3 to
MD_0
⎯
VSS − 0.3
⎯
VSS + 0.3
V
Mode input pins
VILXDS
X0, X0A
⎯
VSS − 0.3
⎯
0.5
V
External clock in
“Oscillation mode”
MB91460H Series
Parameter Symbol
Input “L”
voltage
Output “H”
voltage
Output “L“
voltage
Input leakage current
Pin
name
Condition
X0
⎯
Value
Unit
Remarks
0.2 × VDD
V
External clock in
“Fast Clock Input
mode”
⎯
⎯
V
Driving strength
set to 2 mA
VDD − 0.5
⎯
⎯
V
Driving strength
set to 5 mA
I2C
3.0V ≤ VDD ≤ 5.5V,
outputs IOH = − 3mA
VDD − 0.5
⎯
⎯
V
VOL2
4.5V ≤ VDD ≤ 5.5V,
Normal IOH = + 2mA
outputs 3.0V ≤ VDD ≤ 4.5V,
IOH = + 1.6mA
⎯
⎯
0.4
V
Driving strength
set to 2 mA
VOL5
4.5V ≤ VDD ≤ 5.5V,
Normal IOH = + 5mA
outputs 3.0V ≤ VDD ≤ 4.5V,
IOH = + 3mA
⎯
⎯
0.4
V
Driving strength
set to 5 mA
VOL3
I2C
3.0V ≤ VDD ≤ 5.5V,
outputs IOH = + 3mA
⎯
⎯
0.4
V
−1
⎯
+1
IIL
3.0V ≤ VDD ≤ 5.5V
VSS5 < VI < VDD
Pnn_m TA=25 °C
*1
3.0V ≤ VDD ≤ 5.5V
VSS5 < VI < VDD
TA=125 °C
Min
Typ
Max
VSS − 0.3
⎯
VOH2
4.5V ≤ VDD ≤ 5.5V,
Normal IOH = − 2mA
outputs 3.0V ≤ VDD ≤ 4.5V,
IOH = − 1.6mA
VDD − 0.5
VOH5
4.5V ≤ VDD ≤ 5.5V,
Normal IOH = − 5mA
outputs 3.0V ≤ VDD ≤ 4.5V,
IOH = − 3mA
VOH3
VILXDF
µA
−3
⎯
+3
3.0V ≤ VDD ≤ 5.5V
TA=25 °C
−1
⎯
+1
µA
3.0V ≤ VDD ≤ 5.5V
TA=125 °C
−3
⎯
+3
µA
Analog input leakage current
IAIN
Pull-up
resistance
Pnn_m
*3
INITX
3.0V ≤ VDD ≤ 3.6V
40
100
160
RUP
4.5V ≤ VDD ≤ 5.5V
25
50
100
Pull-down
resistance
RDOWN
Pnn_m
*4
3.0V ≤ VDD ≤ 3.6V
40
100
180
4.5V ≤ VDD ≤ 5.5V
25
50
100
ANn*2
kΩ
kΩ
87
MB91460H Series
Parameter Symbol
Input
capacitance
Power
supply
current
Pin
name
Value
Unit
Remarks
Min
Typ
Max
CIN
All except
VDD5,
VDD5R,
f = 1 MHz
VSS5,
AVCC5,
AVSS5,
AVRH5
-
5
15
pF
ICC
CLKB:
100 MHz
CLKP:
50 MHz
VDD5R
CLKT:
50 MHz
CLKCAN: 50 MHz
-
100
130
mA
TA = + 25 °C
-
30
150
µA
TA = + 105 °C
-
0.3
2.0
mA
TA = + 125 °C
-
0.75
5.0
mA
TA = + 25 °C
-
100
500
µA
VDD5R TA = + 105 °C
-
0.5
2.4
mA
TA = + 125 °C
-
0.85
5.4
mA
TA = + 25 °C
-
50
250
µA
TA = + 105 °C
-
0.4
2.2
mA
TA = + 125 °C
-
0.8
5.2
mA
⎯
⎯
50
100
µA
Internal low voltage detection
-
-
250
500
µA
Main clock
(4 MHz)
-
-
20
40
µA
Sub clock
(32 kHz)
ICCH
MB91
F464HB
ILVI
IOSC
88
Condition
VDD5R
VDD5
Code fetch from
Flash
At stop mode *5
RTC :
4 MHz mode *5
RTC :
100 kHz mode *5
MB91460H Series
Parameter Symbol
ICC
Power
supply
current
ICCH
Pin
name
Remarks
140
mA
Code fetch from
Flash
30
150
µA
⎯
0.4
2.0
mA
TA = + 125 °C
⎯
1.0
5.0
mA
TA = + 25 °C
⎯
100
500
µA
VDD5R TA = + 105 °C
⎯
0.5
2.4
mA
TA = + 125 °C
⎯
1.1
5.4
mA
TA = + 25 °C
⎯
50
250
µA
TA = + 105 °C
⎯
0.45
2.2
mA
TA = + 125 °C
⎯
1.05
5.2
mA
5.
Min
Typ
Max
⎯
110
TA = + 25 °C
⎯
TA = + 105 °C
CLKB:
96 MHz
CLKP:
48 MHz
VDD5R
CLKT:
48 MHz
CLKCAN: 48 MHz
At stop mode *5
RTC :
4 MHz mode *5
RTC :
100 kHz mode *5
ILVE
VDD5
⎯
⎯
70
150
µA
External low voltage detection
ILVI
VDD5R
⎯
⎯
50
100
µA
Internal low voltage detection
⎯
⎯
250
500
µA
Main clock
(4 MHz)
⎯
⎯
20
40
µA
Sub clock
(32 kHz)
IOSC
4.
Value
Unit
MB91
F466HA
1.
2.
3.
Condition
VDD5
Pnn_m includes all GPIO pins. Analog (AN) channels and PullUp/PullDown are disabled.
ANn includes all pins where AN channels are enabled.
Pnn_m includes all GPIO pins. The pull up resistors must be enabled by PPER/PPCR setting and
the pins must be in input direction.
Pnn_m includes all GPIO pins. The pull down resistors must be enabled by PPER/PPCR setting and
the pins must be in input direction.
Main regulator OFF, sub regulator set to 1.2V, Low voltage detection disabled.
89
MB91460H Series
4. A/D converter characteristics
(VDD5 = AVCC5 = 3.0 V to 5.5 V, VSS5 = AVSS5 = 0 V, TA = −40 °C to + 125 °C)
Parameter
Symbol Pin name
Value
Min
Typ
Max
Unit
Resolution
⎯
⎯
⎯
⎯
10
bit
Total error
⎯
⎯
−3
⎯
+3
LSB
Nonlinearity error
⎯
⎯
− 2.5
⎯
+ 2.5
LSB
Differential nonlinearity
error
⎯
⎯
− 1.9
⎯
+ 1.9
LSB
Zero reading voltage
VOT
ANn
AVRL−1.5 AVRL + 0.5 AVRL + 2.5 LSB
Full scale reading voltage
VFST
ANn
AVRH−3.5 AVRH−1.5 AVRH + 0.5 LSB
Compare time
Sampling time
Conversion time
Input capacitance
Input resistance
Tcomp
Tsamp
Tconv
CIN
RIN
0.6
⎯
16,500
µs
4.5 V ≤ AVCC5 ≤
5.5 V
2.0
⎯
⎯
µs
3.0 V ≤ AVCC5 ≤
4.5 V
0.4
⎯
⎯
µs
4.5 V ≤ AVCC5 ≤
5.5 V,
REXT < 2 kΩ
1.0
⎯
⎯
µs
3.0 V ≤ AVCC5 ≤
4.5 V,
REXT < 1 kΩ
1.0
⎯
⎯
µs
4.5 V ≤ AVCC5 ≤
5.5 V
3.0
⎯
⎯
µs
3.0 V ≤ AVCC5 ≤
4.5 V
⎯
⎯
11
pF
⎯
⎯
2.6
kΩ
4.5 V ≤ AVCC5 ≤
5.5 V
⎯
⎯
12.1
kΩ
3.0 V ≤ AVCC5 ≤
4.5 V
−1
⎯
+1
µA
TA = + 25 °C
−3
⎯
+3
µA
TA = + 125 °C
⎯
⎯
⎯
ANn
Remarks
ANn
Analog input leakage
current
IAIN
ANn
Analog input voltage range
VAIN
ANn
AVRL
⎯
AVRH
V
Offset between input channels
⎯
ANn
⎯
⎯
4
LSB
(Continued)
Note : The accuracy gets worse as AVRH - AVRL becomes smaller
90
MB91460H Series
(Continued)
Parameter
Symbol Pin name
Reference voltage current
per ADC macro *3
Min
Typ
Max
Unit
Remarks
AVRH
AVRH5
0.75 ×
AVCC5
⎯
AVCC5
V
AVRL
AVSS5
AVSS5
⎯
AVCC5 ×
0.25
V
IA
AVCC5
⎯
2.5
5
mA
A/D Converter
active
IAH
AVCC5
⎯
⎯
5
µA
A/D Converter
not operated *1
IR
AVRH5
⎯
0.7
1
mA
A/D Converter
active
IRH
AVRH5
⎯
⎯
5
µA
A/D Converter
not operated *2
Reference voltage range
Power supply current
per ADC macro *3
Value
*1 : Supply current at AVCC5, if A/D converter and ALARM comparator are not operating,
(VDD5 = AVCC5 = AVRH = 5.0 V)
*2 : Input current at AVRH5, if A/D converter is not operating, (VDD5 = AVCC5 = AVRH = 5.0 V)
*3 : The current consumption per ADC macro is given here. On devices having more then one A/D converter, the
current values have to be multiplied by the number of macros.
Sampling Time Calculation
Tsamp = ( 2.6 kOhm + REXT) × 11pF × 7; for 4.5V ≤ AVCC5 ≤ 5.5V
Tsamp = (12.1 kOhm + REXT) × 11pF × 7; for 3.0V ≤ AVCC5 ≤ 4.5V
Conversion Time Calculation
Tconv = Tsamp + Tcomp
Definition of A/D converter terms
• Resolution
Analog variation that is recognizable by the A/D converter.
• Nonlinearity error
Deviation between actual conversion characteristics and a straight line connecting the zero transition point
(00 0000 0000B ↔ 00 0000 0001B) and the full scale transition point (11 1111 1110B ↔ 11 1111 1111B).
• Differential nonlinearity error
Deviation of the input voltage from the ideal value that is required to change the output code by 1 LSB.
• Total error
This error indicates the difference between actual and theoretical values, including the zero transition error,
full scale transition error, and nonlinearity error.
91
MB91460H Series
Total error
3FFH
1.5 LSB’
3FEH
Actual conversion
characteristics
Digital output
3FDH
{1 LSB’ (N - 1) + 0.5 LSB’}
004H
VNT
003H
(measurement value)
Actual conversion
characteristics
002H
Ideal characteristics
001H
0.5 LSB'
AVSS5
AVRH
Analog input
1LSB' (ideal value) = AVRH − AVSS5 [V]
1024
Total error of digital output N = VNT − {1 LSB' × (N − 1) + 0.5 LSB'}
1 LSB'
N : A/D converter digital output value
VOT' (ideal value) = AVSS5 + 0.5 LSB' [V]
VFST' (ideal value) = AVRH − 1.5 LSB' [V]
VNT : Voltage at which the digital output changes from (N + 1) H to NH
(Continued)
92
MB91460H Series
(Continued)
Nonlinearity error
3FFH
Differential nonlinearity error
Actual conversion characteristics
Actual conversion characteristics
(N+1)H
3FEH
{1 LSB (N - 1) + VOT}
VFST
004H
VNT
(measurement value)
003H
002H
Ideal
characteristics
(measurement value)
Digital output
Digital output
3FDH
NH
(N-1)H
VFST
Actual conversion
characteristics
VNT
(measurement value)
Ideal characteristics
(N-2)H
001H
Actual conversion
characteristics
VTO (measurement value)
AVSS5
AVSS5
AVRH
Analog input
Nonlinearity error of digital output N =
VFST − VOT
1022
AVRH
Analog input
VNT − {1LSB × (N − 1) + VOT} [LSB]
1LSB
Differential nonlinearity error of digital output N =
1LSB =
(measurement value)
V (N + 1) T − VNT
1LSB
− 1 [LSB]
[V]
N
: A/D converter digital output value
VOT : Voltage at which the digital output changes from 000H to 001H.
VFST : Voltage at which the digital output changes from 3FEH to 3FFH.
93
MB91460H Series
5. Alarm comparator characteristics
Parameter
Symbol
Pin name
Min
⎯
IA5ALMF
Power supply
current
Value
Typ
25
Max
40
Unit
Remarks
µA
Alarm comparator enabled in
fast mode (per
channel) *1
AVCC5
⎯
IA5ALMS
7
10
µA
Alarm comparator enabled in
normal mode
(per channel)
*1
IA5ALMH
⎯
⎯
5
µA
Alarm comparator disabled
−1
⎯
+1
µA
TA=25 °C
−3
⎯
+3
µA
TA=125 °C
ALARM pin input current
IALIN
ALARM pin input voltage
range
VALIN
0
⎯
AVCC5
V
Alarm upper
limit
voltage
VIAH
AVCC5 × 0.78
− 3%
AVCC5 × 0.78
AVCC5 × 0.78
+ 3%
V
Alarm lower
limit
voltage
VIAL
AVCC5 × 0.36
− 5%
AVCC5 × 0.36
AVCC5 × 0.36
+ 5%
V
VIAHYS
50
⎯
250
mV
RIN
5
⎯
⎯
MΩ
tCOMPF
⎯
0.1
0.2
µs
Alarm hysteresis
voltage
Alarm input
resistance
ALARM_n
Comparion
time
tCOMPS
⎯
1
2
µs
Alarm comparator enabled in
fast mode *1
Alarm comparator enabled in
normal mode
*1
Note: *1 :
94
The fast Alarm Comparator mode is enabled by setting ACSR.MD=1
Setting ACSR.MD=0 sets the normal mode.
MB91460H Series
6. FLASH memory program/erase characteristics
6.1.
MB91F464HB
(VDD5 = 3.0 V to 5.5 V, VDD5R = 3.0 V to 5.5 V, VSS5 = 0 V, TA = −40 °C to + 105 °C)
Parameter
Value
Unit
Remarks
3.6
s
Erasure programming time not
included
n*0.9
n*3.6
s
n is the number of Flash sector
of the device
23
370
µs
System overhead time not included
Min
Typ
Max
Sector erase time
-
0.9
Chip erase time
-
Word (16-bit or 32-bit
width) programming time
-
Programm/Erase cycle
Flash data retention time
10 000
cycle
20
year
*1
*1: This value was converted from the results of evaluating the reliability of the technology (using Arrhenius
equation to convert high temperature measurements into normalized value at 85oC)
6.2.
MB91F466HA
(VDD5 = 3.0 V to 5.5 V, VDD5R = 3.0 V to 5.5 V, VSS5 = 0 V, TA = −40 °C to + 105 °C)
Parameter
Value
Unit
Remarks
2.0
s
Erasure programming time not
included
n*0.5
n*2.0
s
n is the number of Flash sector
of the device
6
100
µs
System overhead time not included
Min
Typ
Max
Sector erase time
-
0.5
Chip erase time
-
Word (16-bit or 32-bit
width) programming time
-
Program/Erase cycle
Flash data retention time
10 000
cycle
20
year
*1
*1: This value was converted from the results of evaluating the reliability of the technology (using Arrhenius
equation to convert high temperature measurements into normalized value at 85oC)
95
MB91460H Series
7. AC characteristics
7.1.
Clock timing
(VDD5 = 3.0 V to 5.5 V, Vss5 = AVss5 = 0 V, TA = −40 °C to + 125 °C)
Parameter
Clock frequency
Symbol Pin name
fC
Value
Unit
Condition
16
MHz
Opposite phase external
supply or crystal
100
kHz
Min
Typ
Max
X0
X1
3.5
4
X0A
X1A
32
32.768
• Clock timing condition
tC
X0,
X1,
X0A,
X1A
0.8 VCC
0.2 VCC
PWH
7.2.
PWL
Reset input ratings
(VDD5 = 3.0 V to 5.5 V, VSS5 = AVSS5 = 0 V, TA = −40 °C to + 125 °C)
Parameter
INITX input time
(at power-on)
INITX input time
(other than the above)
Symbol
tINTL
Pin name
Condition
96
Unit
Min
Max
8
⎯
ms
20
⎯
µs
⎯
INITX
tINTL
INITX
Value
0.2 VCC
MB91460H Series
7.3.
LIN-USART Timings at VDD5 = 3.0 to 5.5 V
• Conditions during AC measurements
• All AC tests were measured under the following conditions:
• - IOdrive = 5 mA
• - VDD5 = 3.0 V to 5.5 V, Iload = 3 mA
• - VSS5 = 0 V
• - Ta = -40 °C to +125 °C
• - Cl = 50 pF (load capacity value of pins when testing)
• - VOL = 0.2 x VDD5
• - VOH = 0.8 x VDD5
• - EPILR = 0, PILR = 1 (Automotive Level = worst case)
(VDD5 = 3.0 V to 5.5 V, VSS5 = AVSS5 = 0 V, TA = −40 °C to + 125 °C)
Parameter
Symbol
Pin name
Serial clock
cycle time
tSCYCI
SCKn
SCK ↓ → SOT
delay time
tSLOVI
SCKn
SOTn
SOT → SCK ↓
delay time
tOVSHI
SCKn
SOTn
Valid SIN →
SCK ↑ setup time
tIVSHI
SCKn
SINn
SCK ↑ → valid
SIN hold time
tSHIXI
Serial clock
“H” pulse width
Condition
VDD5 = 3.0 V to 4.5 V VDD5 = 4.5 V to 5.5 V
Unit
Min
Max
Min
Max
4 tCLKP
⎯
4 tCLKP
⎯
ns
− 30
30
− 20
20
ns
m×
tCLKP − 30*
⎯
m×
tCLKP − 20*
⎯
ns
tCLKP + 55
⎯
tCLKP + 45
⎯
ns
SCKn
SINn
0
⎯
0
⎯
ns
tSHSLE
SCKn
tCLKP + 10
⎯
tCLKP + 10
⎯
ns
Serial clock
“L” pulse width
tSLSHE
SCKn
tCLKP + 10
⎯
tCLKP + 10
⎯
ns
SCK ↓ → SOT
delay time
tSLOVE
SCKn
SOTn
⎯
2 tCLKP + 55
⎯
2 tCLKP + 45
ns
Valid SIN →
SCK ↑ setup time
tIVSHE
SCKn
SINn
10
⎯
10
⎯
ns
SCK ↑ → valid
SIN hold time
tSHIXE
SCKn
SINn
tCLKP + 10
⎯
tCLKP + 10
⎯
ns
SCK rising time
tFE
SCKn
⎯
20
⎯
20
ns
SCK falling time
tRE
SCKn
⎯
20
⎯
20
ns
Internal
clock
operation
(master
mode)
External
clock
operation
(slave
mode)
* : Parameter m depends on tSCYCI and can be calculated as :
• if tSCYCI = 2*k*tCLKP, then m = k, where k is an integer > 2
• if tSCYCI = (2*k + 1)*tCLKP, then m = k + 1, where k is an integer > 1
Notes : • The above values are AC characteristics for CLK synchronous mode.
• tCLKP is the cycle time of the peripheral clock.
97
MB91460H Series
• Internal clock mode (master mode)
tSCYCI
SCKn
for ESCR:SCES = 0
VOH
VOL
VOL
VOH
SCKn
for ESCR:SCES = 1
VOH
VOL
tSLOVI
tOVSHI
VOH
VOL
SOTn
tIVSHI
tSHIXI
VOH
VOL
SINn
VOH
VOL
• External clock mode (slave mode)
tSLSHE
SCKn
for ESCR:SCES = 0
VOH
SCKn
for ESCR:SCES = 1
VOL
tSHSLE
VOH
VOL
VOL
VOH
VOH
VOL
VOH
VOL
tRE
tFE
tSLOVE
SOTn
VOH
VOL
tIVSHE
SINn
98
VOH
VOL
tSHIXE
VOH
VOL
MB91460H Series
7.4.
I2C AC Timings at VDD5 = 3.0 to 5.5 V
• Conditions during AC measurements
All AC tests were measured under the following conditions:
- IOdrive = 3 mA
- VDD5 = 3.0 V to 5.5 V, Iload = 3 mA
- VSS5 = 0 V
- Ta = − 40 °C to + 125 °C
- Cl = 50 pF
- VOL = 0.3 × VDD5
- VOH = 0.7 × VDD5
- EPILR = 0, PILR = 0 (CMOS Hysteresis 0.3 × VDD5/0.7 × VDD5)
Fast mode:
(VDD5 = 3.5 V to 5.5 V, VSS5 = AVSS5 = 0 V, TA = −40 °C to + 125 °C)
Parameter
Symbol
Pin name
fSCL
Value
Unit
Min
Max
SCLn
0
400
kHz
tHD;STA
SCLn, SDAn
0.6
⎯
µs
LOW period of the SCL clock
tLOW
SCLn
1.3
⎯
µs
HIGH period of the SCL clock
tHIGH
SCLn
0.6
⎯
µs
Setup time for a repeated START
condition
tSU;STA
SCLn, SDAn
0.6
⎯
µs
Data hold time for I2C-bus devices
tHD;DAT
SCLn, SDAn
0
0.9
µs
Data setup time
tSU;DAT
SCLn SDAn
100
⎯
ns
Rise time of both SDA and SCL
signals
tr
SCLn, SDAn
20 + 0.1Cb
300
ns
Fall time of both SDA and SCL
signals
tf
SCLn, SDAn
20 + 0.1Cb
300
ns
Setup time for STOP condition
tSU;STO
SCLn, SDAn
0.6
⎯
µs
Bus free time between a STOP
and START condition
tBUF
SCLn, SDAn
1.3
⎯
µs
Capacitive load for each bus line
Cb
SCLn, SDAn
⎯
400
pF
Pulse width of spike suppressed
by input filter
tSP
SCLn, SDAn
0
(1..1.5) ×
tCLKP
ns
SCL clock frequency
Hold time (repeated) START
condition. After this period, the first
clock pulse is generated
Remark
*1
*1 The noise filter will suppress single spikes with a pulse width of 0ns and between (1 to 1.5) cycles
of peripheral clock, depending on the phase relationship between I2C signals (SDA, SCL) and peripheral clock.
Note: tCLKP is the cycle time of the peripheral clock.
99
100
SCL
SDA
tHD;STA
tf
S
tr
tHD;DAT
tLOW
tHIGH
tSU;DAT
tSU;STA
Sr
tHD;STA
tSP
tr
P
tSU;ST0
tBUF
S
tf
MB91460H Series
MB91460H Series
7.5.
Free-run timer clock
(VDD5 = 3.0 V to 5.5 V, VSS5 = AVSS5 = 0 V, TA = −40 °C to + 125 °C)
Parameter
Input pulse width
Symbol
Pin name
Condition
tTIWH
tTIWL
CKn
⎯
Value
Min
Max
4tCLKP
⎯
Unit
ns
Note : tCLKP is the cycle time of the peripheral clock.
CKn
VIH
VIH
tTIWH
7.6.
VIL
VIL
tTIWL
Trigger input timing
(VDD5 = 3.0 V to 5.5 V, VSS5 = AVSS5 = 0 V, TA = −40 °C to + 125 °C)
Parameter
Input capture input trigger
A/D converter trigger
Symbol
Pin name
Condition
tINP
ICUn
tATGX
ATGX
Value
Unit
Min
Max
⎯
5tCLKP
⎯
ns
⎯
5tCLKP
⎯
ns
Note : tCLKP is the cycle time of the peripheral clock.
tATGX, tINP
ICUn,
ATGX
101
MB91460H Series
7.7.
External Bus AC Timings at VDD35 = 3.0 to 5.5 V
• Conditions during AC measurements
All AC tests were measured under the following conditions:
- IOdrive = 5 mA
- VDD35 = 4.5 V to 5.5 V, Iload = 3 mA
- VSS5 = 0 V
- Ta = − 40 °C to + 125 °C
- Cl = 50 pF
- VOL = 0.5 × VDD35
- VOH = 0.5 × VDD35
- EPILR = 0, PILR = 1 (Automotive Level = worst case)
7.7.1.
Basic Timing
(VDD35 = 3.0 V to 5.5 V, Vss5 = AVss5 = 0 V, TA = −40 °C to + 125 °C)
Parameter
SYSCLK
SYSCLK ↓ to CSXn delay time
Symbol
tCLCH
tCHCL
SYSCLK
tCLCSL
tCLCSH
SYSCLK ↑ to CSXn delay time
(Addr → CS delay)
tCHCSL
SYSCLK ↓ to Address valid delay time
tCLAV
Note : tCLKT is the cycle time of the external bus clock.
102
Pin name
SYSCLK
CSXn
SYSCLK
A21 to A0
Value
Unit
Min
Max
1/2 x tCLKT − 1
1/2 × tCLKT + 9
ns
1/2 × tCLKT − 9
1/2 × tCLKT + 1
ns
⎯
8
ns
⎯
12
ns
−6
+1
ns
⎯
13
ns
MB91460H Series
tCHCSL
delayed CSXn
tCLASH
tCLASL
ASX
tCLAV
ADDRESS
tCLBAH
tCLBAL
BAAX
103
MB91460H Series
7.7.2.
Synchronous/Asynchronous read access
(VDD35 = 3.0 V to 5.5 V, Vss5 = AVss5 = 0 V, TA = −40 °C to + 125 °C)
Parameter
SYSCLK ↑ to RDX delay time
Symbol
Pin name
TCHRL
SYSCLK
RDX
TCHRH
Value
Max
−7
1
ns
−4
2
ns
Data valid to RDX ↑ setup time
TDSRH
RDX
D31 to D16
33
⎯
ns
RDX ↑ to Data valid hold time
TRHDX
RDX
D31 to D16
0
⎯
ns
SYSCLK
WRXn
⎯
8
ns
0
⎯
ns
SYSCLK
CSXn
⎯
8
ns
⎯
12
ns
TCLWRL
SYSCLK ↓ to WRXn
(as byte enable) delay time
TCLWRH
TCLCSL
SYSCLK ↓ to CSXn delay time
TCLCSH
SYSCLK
tCLCSL
tCLCSH
CSXn
tCLWRL
tCLWRH
WRXn
(as byte enable)
tCHRH
tCHRL
RDX
tDSRH
DATA IN
104
Unit
Min
tRHDX
MB91460H Series
7.7.3.
Synchronous write access
(VDD35 = 3.0 V to 5.5 V, Vss5 = AVss5 = 0 V, TA = −40 °C to + 125 °C)
Parameter
SYSCLK ↓ to WRXn delay time
Symbol
Pin name
TCLWRL
TCLWRH
Value
Unit
Min
Max
SYSCLK
WRXn
⎯
8
ns
0
⎯
ns
Data valid to WRXn ↓ setup time
TDSWRL
WRXn
D31 to D16
−7
⎯
ns
WRXn ↑ to Data valid hold time
TWRHDH
WRXn
D31 to D16
tCLKT − 20
⎯
ns
SYSCLK
CSXn
⎯
8
ns
⎯
12
ns
SYSCLK ↓ to CSXn delay time
TCLCSL
TCLCSH
SYSCLK
tCLCSH
tCLCSL
CSXn
tCLWRH
tCLWRL
WRXn
tDSWRL
tWRHDH
DATA OUT
105
MB91460H Series
7.7.4.
Asynchronous write access
(VDD35 = 3.0 V to 5.5 V, Vss5 = AVss5 = 0 V, TA = −40 °C to + 125 °C)
Parameter
Symbol
Pin name
WRXn ↓ to WRXn ↑ pulse width
TWRLWRH
Data valid to WRXn ↓ setup time
WRXn ↑ to Data valid hold time
WRXn to CSXn delay time
Value
Max
WRXn
tCLKT
⎯
ns
TDSWRL
WRXn
D31 to D16
1/2 × tCLKT − 10
⎯
ns
TWRHDH
WRXn
D31 to D16
1/2 × tCLKT − 19
⎯
ns
WRXn
CSXn
⎯
1/2 × tCLKT
ns
1/2 × tCLKT
⎯
ns
TCLWRL
TWRHCH
CSXn
TWRHCH
TCLWRL
TWRLWRH
WRXn
TDSWRL
DATA OUT
106
Unit
Min
TWRHDH
MB91460H Series
7.7.5.
RDY waitcycle insertion
(VDD35 = 3.0 V to 5.5 V, Vss5 = AVss5 = 0 V, TA = −40 °C to + 125 °C)
Parameter
Symbol
Pin name
RDY setup time
TRDYS
RDY hold time
TRDYH
Value
Unit
Min
Max
SYSCLK
RDY
34
⎯
ns
SYSCLK
RDY
0
⎯
ns
SYSCLK
tRDYS
tRDYH
RDY
107
MB91460H Series
■ ORDERING INFORMATION
Part number
MB91F464HBPMC-GSE2
MB91F466HAPMC-GSE2
108
Package
144-pin plastic LQFP
(FPT-144P-M08)
Remarks
Lead-free package
MB91460H Series
■ PACKAGE DIMENSION
144-pin plastic LQFP
(FPT-144P-M08)
144-pin plastic LQFP
(FPT-144P-M08)
0.50 mm
Package width ×
package length
20.0 × 20.0 mm
Lead shape
Gullwing
Sealing method
Plastic mold
Mounting height
1.70 mm MAX
Weight
1.20g
Code
(Reference)
P-LFQFP144-20×20-0.50
Note 1) *:Values do not include resin protrusion.
Resin protrusion is +0.25(.010)Max(each side).
Note 2) Pins width and pins thickness include plating thickness.
Note 3) Pins width do not include tie bar cutting remainder.
22.00±0.20(.866±.008)SQ
* 20.00±0.10(.787±.004)SQ
108
Lead pitch
0.145±0.055
(.006±.002)
73
109
72
0.08(.003)
Details of "A" part
+0.20
1.50 –0.10
+.008
(Mounting height)
.059 –.004
0˚~8˚
INDEX
144
37
"A"
LEAD No.
1
36
0.50(.020)
C
2003 FUJITSU LIMITED F144019S-c-4-6
0.22±0.05
(.009±.002)
0.08(.003)
0.50±0.20
(.020±.008)
0.60±0.15
(.024±.006)
0.10±0.10
(.004±.004)
(Stand off)
0.25(.010)
M
Dimensions in mm (inches).
Note: The values in parentheses are reference values.
109
MB91460H Series
■ REVISION HISTORY
Version
Date
2.0
2009-01-07
Initial version
2009-04-21
Added device MB91F466HA
Added Ta=125C characteristics
Product Lineup: MB91F464HB has 16KB D-Bus RAM (not 24KB)
Flash memory and external bus area: Changed table formatting
for MB91F464HB
IO-Map: Corrected CANCKD register (only bit 0 applicable)
3.0
110
Remark
MB91460H Series
■ MEMO AND DISCLAIMER
MEMO
111
MB91460H Series
MEMO
112
MB91460H Series
FUJITSU MICROELECTRONICS LIMITED
All Rights Reserved.
The contents of this document are subject to change without notice.
Customers are advised to consult with sales representatives before
ordering.
The information, such as descriptions of function and application
circuit examples, in this document are presented solely for the
purpose of reference to show examples of operations and uses of
Fujitsu semiconductor device; Fujitsu does not warrant proper
operation of the device with respect to use based on such
information. When you develop equipment incorporating the
device based on such information, you must assume any
responsibility arising out of such use of the information. Fujitsu
assumes no liability for any damages whatsoever arising out of
the use of the information.
Any information in this document, including descriptions of
function and schematic diagrams, shall not be construed as license
of the use or exercise of any intellectual property right, such as
patent right or copyright, or any other right of Fujitsu or any third
party or does Fujitsu warrant non-infringement of any third-party’s
intellectual property right or other right by using such information.
Fujitsu assumes no liability for any infringement of the intellectual
property rights or other rights of third parties which would result
from the use of information contained herein.
The products described in this document are designed, developed
and manufactured as contemplated for general use, including
without limitation, ordinary industrial use, general office use,
personal use, and household use, but are not designed, developed
and manufactured as contemplated (1) for use accompanying fatal
risks or dangers that, unless extremely high safety is secured, could
have a serious effect to the public, and could lead directly to death,
personal injury, severe physical damage or other loss (i.e., nuclear
reaction control in nuclear facility, aircraft flight control, air traffic
control, mass transport control, medical life support system, missile
launch control in weapon system), or (2) for use requiring
extremely high reliability (i.e., submersible repeater and artificial
satellite).
Please note that Fujitsu will not be liable against you and/or any
third party for any claims or damages arising in connection with
above-mentioned uses of the products.
Any semiconductor devices have an inherent chance of failure.
You must protect against injury, damage or loss from such failures
by incorporating safety design measures into your facility and
equipment such as redundancy, fire protection, and prevention of
over-current levels and other abnormal operating conditions.
Exportation/release of any products described in this document
may require necessary procedures in accordance with the
regulations of the Foreign Exchange and Foreign Trade Control
Law of Japan and/or US export control laws.
The company names and brand names herein are the trademarks or
registered trademarks of their respective owners.
Edited
Strategic Business Development Dept.
113