Cypress MB95F718MPMC-G-SNE2 New 8fx 8-bit microcontroller Datasheet

The following document contains information on Cypress products. The document has the series
name, product name, and ordering part numbering with the prefix “MB”. However, Cypress will
offer these products to new and existing customers with the series name, product name, and
ordering part number with the prefix “CY”.
How to Check the Ordering Part Number
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2. Enter the keyword (for example, ordering part number) in the SEARCH PCNS field and click
Apply.
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4. Download the Affected Parts List file, which has details of all changes
For More Information
Please contact your local sales office for additional information about Cypress products and
solutions.
About Cypress
Cypress is the leader in advanced embedded system solutions for the world's most innovative
automotive, industrial, smart home appliances, consumer electronics and medical products.
Cypress' microcontrollers, analog ICs, wireless and USB-based connectivity solutions and reliable,
high-performance memories help engineers design differentiated products and get them to market
first. Cypress is committed to providing customers with the best support and development
resources on the planet enabling them to disrupt markets by creating new product categories in
record time. To learn more, go to www.cypress.com.
MB95710M Series
MB95770M Series
New 8FX 8-bit Microcontrollers
The MB95710M/770M Series is a series of general-purpose, single-chip microcontrollers. In addition to a compact instruction set, the
microcontrollers of this series contain a variety of peripheral resources.
Features
■
■
Interrupt by edge detection (rising edge, falling edge, and
both edges can be selected)
❐ Can be used to wake up the device from different low power
consumption (standby) modes
❐
F2MC-8FX CPU core
❐ Instruction set optimized for controllers
• Multiplication and division instructions
• 16-bit arithmetic operations
• Bit test branch instructions
• Bit manipulation instructions, etc.
■
■
Clock
Selectable main clock source
• Main oscillation clock (up to 16.25 MHz, maximum machine clock frequency: 8.125 MHz)
• External clock (up to 32.5 MHz, maximum machine clock
frequency: 16.25 MHz)
• Main CR clock (4 MHz ±2%)
• Main CR PLL clock
- The main CR PLL clock frequency becomes 8 MHz ±2%
when the PLL multiplication rate is 2.
- The main CR PLL clock frequency becomes 10 MHz
±2% when the PLL multiplication rate is 2.5.
- The main CR PLL clock frequency becomes 12 MHz
±2% when the PLL multiplication rate is 3.
- The main CR PLL clock frequency becomes 16 MHz
±2% when the PLL multiplication rate is 4.
•Main PLL clock (up to 16.25 MHz, maximum machine
clock frequency: 16.25 MHz)
❐ Selectable subclock source
• Suboscillation clock (32.768 kHz)
• External clock (32.768 kHz)
• Sub-CR clock (Typ: 100 kHz, Min: 50 kHz, Max: 150 kHz)
Timer
8/16-bit composite timer × 2 channels
❐ 8/16-bit PPG × 2 channels
❐ 16-bit reload timer × 1 channel
❐ Event counter × 1 channel
❐ Time-base timer × 1 channel
❐ Watch counter × 1 channel
❐ Watch prescaler × 1 channel
■
■
■
I2C bus interface × 1 channel
❐ Built-in wake-up function
■
External interrupt × 8 channels
Cypress Semiconductor Corporation
Document Number: 002-09307 Rev. *D
I/O port
MB95F714J/F716J/F718J (number of I/O ports: 75)
• General-purpose I/O ports (CMOS I/O): 71
• General-purpose I/O ports (N-ch open drain): 4
❐ MB95F714M/F716M/F718M (number of I/O ports: 74)
• General-purpose I/O ports (CMOS I/O): 71
• General-purpose I/O ports (N-ch open drain): 3
❐ MB95F774J/F776J/F778J (number of I/O ports: 59)
• General-purpose I/O ports (CMOS I/O): 55
• General-purpose I/O ports (N-ch open drain): 4
❐ MB95F774M/F776M/F778M (number of I/O ports: 58)
• General-purpose I/O ports (CMOS I/O): 55
• General-purpose I/O ports (N-ch open drain): 3
❐
■
UART/SIO × 3 channels
❐ Full duplex double buffer
❐ Capable of clock asynchronous (UART) serial data transfer
and clock synchronous (SIO) serial data transfer
Low power consumption (standby) modes
There are four standby modes as follows:
• Stop mode
• Sleep mode
• Watch mode
• Time-base timer mode
❐
❐
■
LCD controller (LCDC)
On MB95F714J/F714M/F716J/F716M/F718J/F718M, LCD
output can be selected from 40 SEG × 4 COM and 36 SEG
× 8 COM.
❐ On MB95F774J/F774M/F776J/F776M/F778J/F778M, LCD
output can be selected from 32 SEG × 4 COM and 28 SEG
× 8 COM.
❐ Internal divider resistor whose resistance value can be selected from 10 kΩ or 100 kΩ through software
❐ Interrupt in sync with the LCD module frame frequency
❐ Blinking function
❐ Inverted display function
❐
❐
■
8/12-bit A/D converter × 8 channels
8-bit or 12-bit resolution can be selected.
❐
On-chip debug
1-wire serial control
❐ Serial writing supported (asynchronous mode)
❐
■
Hardware/software watchdog timer
Built-in hardware watchdog timer
❐ Built-in software watchdog timer
❐
■
Power-on reset
A power-on reset is generated when the power is switched
on.
❐
•
198 Champion Court
•
San Jose, CA 95134-1709
•
408-943-2600
Revised September 29, 2017
MB95710M Series
MB95770M Series
■
Low-voltage detection (LVD) circuit (only available on
MB95F714J/F716J/F718J/F774J/F776J/F778J)
❐ Built-in low-voltage detection function
■
Comparator × 1 channel
■
Clock supervisor counter
❐ Built-in clock supervisor counter
Document Number: 002-09307 Rev. *D
■
Dual operation Flash memory
The program/erase operation and the read operation can be
executed in different banks (upper bank/lower bank) simultaneously.
❐
■
Flash memory security function
Protects the content of the Flash memory.
❐
Page 2 of 172
MB95710M Series
MB95770M Series
Contents
Features............................................................................. 1
1. Product Line-up ............................................................ 4
1.1 MB95710M Series................................................. 4
1.2 MB95770M Series................................................. 7
2. Packages And Corresponding Products.................... 9
18.7 Port 9.................................................................
18.8 Port A ................................................................
18.9 Port B ................................................................
18.10 Port C ..............................................................
18.11 Port E ..............................................................
18.12 Port F...............................................................
18.13 Port G ..............................................................
72
74
77
79
82
85
87
28
28
29
30
19. I/O Ports (MB95770M Series)................................... 90
19.1 Port 0................................................................. 91
19.2 Port 1................................................................. 95
19.3 Port 2............................................................... 100
19.4 Port 6............................................................... 103
19.5 Port 9............................................................... 106
19.6 Port A .............................................................. 108
19.7 Port B .............................................................. 111
19.8 Port C .............................................................. 113
19.9 Port E .............................................................. 116
19.10 Port F............................................................. 119
19.11 Port G ............................................................ 121
9. Notes On Device Handling......................................... 31
20. Interrupt Source Table ........................................... 124
10. Pin Connection ......................................................... 31
21. Pin States In Each Mode ........................................ 125
11. Block Diagram (MB95710M Series)......................... 33
16. I/O Map (MB95710M Series)..................................... 39
22. Electrical Characteristics.......................................
22.1 Absolute Maximum Ratings.............................
22.2 Recommended Operating Conditions .............
22.3 DC Characteristics ..........................................
22.4 AC Characteristics...........................................
22.5 A/D Converter.................................................
22.6 Flash Memory Program/Erase Characteristics
17. I/O Map (MB95770M Series)..................................... 45
23. Sample Characteristics.......................................... 160
18. I/O Ports (MB95710M Series)...................................
18.1 Port 0.................................................................
18.2 Port 1.................................................................
18.3 Port 2.................................................................
18.4 Port 4.................................................................
18.5 Port 5.................................................................
18.6 Port 6.................................................................
24. Mask Options .......................................................... 166
3. Differences Among Products And Notes On
Product Selection ........................................................... 10
4. Pin Assignment .......................................................... 11
5. Pin Functions (MB95710M Series) ............................ 13
6. Pin Functions (MB95770M Series) ............................ 19
7. I/O Circuit Type ........................................................... 24
8. Handling Precautions.................................................
8.1 Precautions for Product Design...........................
8.2 Precautions for Package Mounting .....................
8.3 Precautions for Use Environment........................
12. Block Diagram (MB95770M Series)......................... 34
13. CPU Core................................................................... 35
14. Memory Space .......................................................... 36
15. Areas For Specific Applications ............................. 38
Document Number: 002-09307 Rev. *D
51
52
56
61
64
66
69
131
131
133
134
139
155
159
25. Ordering Information.............................................. 167
26. Package Dimension................................................ 168
Document History Page ............................................... 171
Sales, Solutions, and Legal Information .................... 172
Page 3 of 172
MB95710M Series
MB95770M Series
1. Product Line-up
1.1 MB95710M Series
Part number
MB95F714J
MB95F716J
MB95F718J
MB95F714M
MB95F716M
MB95F718M
Parameter
Type
Clock
supervisor
counter
Flash memory product
It supervises the main clock oscillation and the subclock oscillation.
Flash memory
capacity
20 Kbyte
36 Kbyte
60 Kbyte
20 Kbyte
36 Kbyte
60 Kbyte
RAM capacity
512 bytes
1 Kbyte
2 Kbyte
512 bytes
1 Kbyte
2 Kbyte
Power-on reset
Yes
Low-voltage
detection reset
Reset input
•
•
•
CPU functions
•
•
•
Generalpurpose I/O
Yes
No
Selected through software
With dedicated reset input
Number of basic instructions
Instruction bit length
Instruction length
Data bit length
Minimum instruction execution time
Interrupt processing time
• I/O port
• CMOS I/O
• N-ch open drain
: 136
: 8 bits
: 1 to 3 bytes
: 1, 8 and 16 bits
: 61.5 ns (machine clock frequency = 16.25 MHz)
: 0.6 µs (machine clock frequency = 16.25 MHz)
: 75
: 71
:4
• I/O port
• CMOS I/O
• N-ch open drain
: 74
: 71
:3
Time-base timer Interval time: 0.256 ms to 8.3 s (external clock frequency = 4 MHz)
• Reset generation cycle
Hardware/
Main oscillation clock at 10 MHz: 105 ms (min)
software
watchdog timer • The sub-CR clock can be used as the source clock of the software watchdog timer.
Wild register
It can be used to replace 3 bytes of data.
8/12-bit
A/D converter
8 channels
8-bit or 12-bit resolution can be selected.
2 channels
• The timer can be configured as an “8-bit timer × 2 channels” or a “16-bit timer × 1 channel”.
8/16-bit
• It has the following functions: interval timer function, PWC function, PWM function and input capture
composite timer function.
• Count clock: it can be selected from internal clocks (seven types) and external clocks.
• It can output square wave.
External
interrupt
On-chip debug
8 channels
• Interrupt by edge detection (The rising edge, falling edge, and both edges can be selected.)
• It can be used to wake up the device from different standby modes.
• 1-wire serial control
• It supports serial writing (asynchronous mode).
Document Number: 002-09307 Rev. *D
Page 4 of 172
MB95710M Series
MB95770M Series
Part number
MB95F714J
MB95F716J
MB95F718J
MB95F714M
MB95F716M
MB95F718M
Parameter
3 channels
UART/SIO
• Data transfer with UART/SIO is enabled.
• It has a full duplex double buffer, variable data length (5/6/7/8 bits), an internal baud rate generator
and an error detection function.
• It uses the NRZ type transfer format.
• LSB-first data transfer and MSB-first data transfer are available to use.
• Both clock asynchronous (UART) serial data transfer and clock synchronous (SIO) serial data transfer
are enabled.
1 channel
I2C bus
interface
• Master/slave transmission and reception
• It has the following functions: bus error function, arbitration function, transmission direction detection
function, wake-up function, and functions of generating and detecting repeated START conditions.
2 channels
8/16-bit PPG
• Each channel can be used as an “8-bit timer × 2 channels” or a “16-bit timer × 1 channel”.
• The counter operating clock can be selected from eight clock sources.
1 channel
16-bit reload
timer
Event counter
•
•
•
•
Two clock modes and two counter operating modes are available to use.
It can output square wave.
Count clock: it can be selected from internal clocks (seven types) and external clocks.
Two counter operating modes: reload mode and one-shot mode
• The event counter function is implemented by configuring the 16-bit reload timer and 8/16-bit composite timer ch. 1.
• When the event counter function is used, the 16-bit reload timer and 8/16-bit composite timer ch. 1
become unavailable.
• COM output: 4 or 8 (max) (selectable)
• SEG output: 36 or 40 (max) (selectable)
- If the number of COM outputs is 4, the maximum number of SEG outputs is 40, and the
maximum number of pixels that can be displayed 160 (4 × 40).
- If the number of COM outputs is 8, the maximum number of SEG outputs is 36, and the
maximum number of pixels that can be displayed 288 (8 × 36).
LCD controller • LCD drive power supply (bias) pins: 5 (max)
(LCDC)
• Duty LCD mode
• LCD standby mode
• Blinking function
• Internal divider resistor whose resistance value can be selected from 10 kΩ or 100 kΩ through software
• Interrupt in sync with the LCD module frame frequency
• Inverted display function
• Count clock: four selectable clock sources (125 ms, 250 ms, 500 ms or 1 s)
Watch counter • The counter value can be selected from 0 to 63. (The watch counter can count for one minute when
the clock source is one second and the counter value is set to 60.)
Watch prescaler Eight different time intervals can be selected.
Comparator
1 channel
Document Number: 002-09307 Rev. *D
Page 5 of 172
MB95710M Series
MB95770M Series
Part number
MB95F714J
MB95F716J
MB95F718J
MB95F714M
MB95F716M
MB95F718M
Parameter
Flash memory
• It supports automatic programming (Embedded Algorithm), and program/erase/erasesuspend/erase-resume commands.
• It has a flag indicating the completion of the operation of Embedded Algorithm.
• Flash security feature for protecting the content of the Flash memory
Number of program/erase cycles
Data retention time
1000
20 years
10000
10 years
100000
5 years
There are four standby modes as follows:
• Stop mode
Standby mode • Sleep mode
• Watch mode
• Time-base timer mode
Package
Document Number: 002-09307 Rev. *D
LQH080
Page 6 of 172
MB95710M Series
MB95770M Series
1.2 MB95770M Series
Part number
MB95F774J
MB95F776J
MB95F778J
MB95F774M
MB95F776M
MB95F778M
Parameter
Type
Clock
supervisor
counter
Flash memory product
It supervises the main clock oscillation and the subclock oscillation.
Flash memory
capacity
20 Kbyte
36 Kbyte
60 Kbyte
20 Kbyte
36 Kbyte
60 Kbyte
RAM capacity
512 bytes
1 Kbyte
2 Kbyte
512 bytes
1 Kbyte
2 Kbyte
Power-on reset
Yes
Low-voltage
detection reset
Reset input
•
•
•
CPU functions
•
•
•
Generalpurpose I/O
Yes
No
Selected through software
Dedicated
Number of basic instructions
Instruction bit length
Instruction length
Data bit length
Minimum instruction execution time
Interrupt processing time
• I/O port
• CMOS I/O
• N-ch open drain
: 136
: 8 bits
: 1 to 3 bytes
: 1, 8 and 16 bits
: 61.5 ns (machine clock frequency = 16.25 MHz)
: 0.6 µs (machine clock frequency = 16.25 MHz)
: 59
: 55
:4
• I/O port
• CMOS I/O
• N-ch open drain
: 58
: 55
:3
Time-base timer Interval time: 0.256 ms to 8.3 s (external clock frequency = 4 MHz)
• Reset generation cycle
Hardware/
Main oscillation clock at 10 MHz: 105 ms (min)
software
watchdog timer • The sub-CR clock can be used as the source clock of the software watchdog timer.
Wild register
It can be used to replace 3 bytes of data.
8/12-bit
A/D converter
8 channels
8-bit or 12-bit resolution can be selected.
2 channels
• The timer can be configured as an “8-bit timer × 2 channels” or a “16-bit timer × 1 channel”.
8/16-bit
• It has the following functions: interval timer function, PWC function, PWM function and input capture
composite timer function.
• Count clock: it can be selected from internal clocks (seven types) and external clocks.
• It can output square wave.
External
interrupt
On-chip debug
8 channels
• Interrupt by edge detection (The rising edge, falling edge, and both edges can be selected.)
• It can be used to wake up the device from different standby modes.
• 1-wire serial control
• It supports serial writing (asynchronous mode).
Document Number: 002-09307 Rev. *D
Page 7 of 172
MB95710M Series
MB95770M Series
Part number
MB95F774J
MB95F776J
MB95F778J
MB95F774M
MB95F776M
MB95F778M
Parameter
3 channels
UART/SIO
• Data transfer with UART/SIO is enabled.
• It has a full duplex double buffer, variable data length (5/6/7/8 bits), an internal baud rate generator
and an error detection function.
• It uses the NRZ type transfer format.
• LSB-first data transfer and MSB-first data transfer are available to use.
• Both clock asynchronous (UART) serial data transfer and clock synchronous (SIO) serial data transfer
are enabled.
1 channel
I2C bus
interface
• Master/slave transmission and reception
• It has the following functions: bus error function, arbitration function, transmission direction detection
function, wake-up function, and functions of generating and detecting repeated START conditions.
2 channels
8/16-bit PPG
• Each channel can be used as an “8-bit timer × 2 channels” or a “16-bit timer × 1 channel”.
• The counter operating clock can be selected from eight clock sources.
1 channel
16-bit reload
timer
Event counter
•
•
•
•
Two clock modes and two counter operating modes are available to use.
It can output square wave.
Count clock: it can be selected from internal clocks (seven types) and external clocks.
Two counter operating modes: reload mode and one-shot mode
• The event counter function is implemented by configuring the 16-bit reload timer and 8/16-bit composite timer ch. 1.
• When the event counter function is used, the 16-bit reload timer and 8/16-bit composite timer ch. 1
become unavailable.
• COM output: 4 or 8 (max) (selectable)
• SEG output: 28 or 32 (max) (selectable)
- If the number of COM outputs is 4, the maximum number of SEG outputs is 32, and the
maximum number of pixels that can be displayed 128 (4 × 32).
- If the number of COM outputs is 8, the maximum number of SEG outputs is 28, and the
maximum number of pixels that can be displayed 224 (8 × 28).
LCD controller • LCD drive power supply (bias) pins: 4 (max)
(LCDC)
• Duty LCD mode
• LCD standby mode
• Blinking function
• Internal divider resistor whose resistance value can be selected from 10 kΩ or 100 kΩ through software
• Interrupt in sync with the LCD module frame frequency
• Inverted display function
• Count clock: four selectable clock sources (125 ms, 250 ms, 500 ms or 1 s)
Watch counter • The counter value can be selected from 0 to 63. (The watch counter can count for one minute when
the clock source is one second and the counter value is set to 60.)
Watch prescaler Eight different time intervals can be selected.
Comparator
1 channel
Document Number: 002-09307 Rev. *D
Page 8 of 172
MB95710M Series
MB95770M Series
Part number
MB95F774J
MB95F776J
MB95F778J
MB95F774M
MB95F776M
MB95F778M
Parameter
Flash memory
• It supports automatic programming (Embedded Algorithm), and program/erase/erasesuspend/erase-resume commands.
• It has a flag indicating the completion of the operation of Embedded Algorithm.
• Flash security feature for protecting the content of the Flash memory
Number of program/erase cycles
Data retention time
1000
20 years
10000
10 years
100000
5 years
There are four standby modes as follows:
• Stop mode
Standby mode • Sleep mode
• Watch mode
• Time-base timer mode
LQD064
LQG064
Package
2. Packages And Corresponding Products
Part number
MB95F714J
MB95F716J
MB95F718J
MB95F714M
MB95F716M
MB95F718M
Ο
Ο
Ο
Ο
Ο
Ο
MB95F774J
MB95F776J
MB95F778J
MB95F774M
MB95F776M
MB95F778M
LQD064
Ο
Ο
Ο
Ο
Ο
Ο
LQG064
Ο
Ο
Ο
Ο
Ο
Ο
Package
LQH080
Part number
Package
Ο: Available
Document Number: 002-09307 Rev. *D
Page 9 of 172
MB95710M Series
MB95770M Series
3. Differences Among Products And Notes On Product Selection
• Current consumption
When using the on-chip debug function, take account of the current consumption of Flash memory program/erase.
For details of current consumption, see “Electrical Characteristics”.
• Package
For details of information on each package, see “Packages And Corresponding Products” and “Package Dimension”.
• Operating voltage
The operating voltage varies, depending on whether the on-chip debug function is used or not.
For details of operating voltage, see “Electrical Characteristics”.
• On-chip debug function
The on-chip debug function requires that VCC, VSS and one serial wire be connected to an evaluation tool. For details
of the connection method, refer to “CHAPTER 26 EXAMPLE OF SERIAL PROGRAMMING CONNECTION” in “New
8FX MB95710M/770M Series Hardware Manual”.
Document Number: 002-09307 Rev. *D
Page 10 of 172
MB95710M Series
MB95770M Series
P61/SEG11
P62/SEG12
P63/SEG13
P64/SEG14
P65/SEG15
P66/SEG16
P67/SEG17
P43/SEG18
P42/SEG19
P41/SEG20
P40/SEG21
PE0/SEG22
PE1/SEG23
PE2/SEG24
PE3/SEG25
PE4/SEG26
PE5/SEG27/TO11
PE6/SEG28/TO10
AVss
MB95710M Series
PE7/SEG29/EC1
4. Pin Assignment
80 79 78 77 76 75 74 73 72 71 70 69 68 67 66 65 64 63 62 61
AVcc
1
60
P60/SEG10
P07/INT07/AN07/SEG30
2
59
PC7/SEG09
P06/INT06/AN06/SEG31
3
58
PC6/SEG08
P05/INT05/AN05/SEG32/UCK1
4
57
PC5/SEG07
P04/INT04/AN04/SEG33/UI1
5
56
PC4/SEG06
P03/INT03/AN03/SEG34/UO1
6
55
PC3/SEG05
P02/INT02/AN02/SEG35/UCK2
7
54
PC2/SEG04
P01/INT01/AN01/SEG36/UI2
8
53
PC1/SEG03
52
PC0/SEG02
51
PB1/SEG01
50
PB0/SEG00
49
P17/CMP0_O
(TOP VIEW)
LQFP80
P00/INT00/AN00/UO2
9
P16/PPG10
10
P15/PPG11
11
P14/UCK0
12
P13/ADTG
13
48
PF2/RST
P12/DBG
14
47
Vcc
P11/UO0
15
46
PG1/X0A
P10/UI0
16
45
PG2/X1A
(LQH080)
P53/TO0
17
44
C
P52/TI0/TO00
18
43
PF0/X0
P51/EC0
19
42
PF1/X1
P50/TO01
20
41
Vss
Document Number: 002-09307 Rev. *D
PA7/COM7
PA6/COM6
PA5/COM5
PA4/COM4
PA3/COM3
PA2/COM2
PA1/COM1
PA0/COM0
PB4/SEG39
PB3/SEG38
PB2/SEG37
P94/V0
P93/V1
P92/V2
P91/V3
P90/V4
P21/PPG01/CMP0_P
P20/PPG00/CMP0_N
P22/SCL
P23/SDA
21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40
Page 11 of 172
P61/SEG07
P62/SEG08
P63/SEG09
P64/SEG10
P65/SEG11
P66/SEG12
P67/SEG13
PE0/SEG14
PE1/SEG15
PE2/SEG16
PE3/SEG17
PE4/SEG18
PE5/SEG19/TO11
PE6/SEG20/TO10
AVss
MB95770M Series
PE7/SEG21/EC1
MB95710M Series
MB95770M Series
64 63 62 61 60 59 58 57 56 55 54 53 52 51 50 49
AVcc
1
48
P60/SEG06
P07/INT07/AN07/SEG22
2
47
PC3/SEG05
P06/INT06/AN06/SEG23
3
46
PC2/SEG04
P05/INT05/AN05/SEG24/UCK1
4
45
PC1/SEG03
P04/INT04/AN04/SEG25/UI1
5
44
PC0/SEG02
P03/INT03/AN03/SEG26/UO1
6
43
PB1/SEG01
42
PB0/SEG00
41
P17/CMP0_O
40
PF2/RST
P02/INT02/AN02/SEG27/UCK2
7
P01/INT01/AN01/SEG28/TO00/UI2
8
P00/INT00/AN00/SEG29/UO2
9
(TOP VIEW)
LQFP64
(LQD064)
(LQG064)
P16/SEG30/PPG10
10
39
Vcc
P15/SEG31/PPG11
11
38
PG1/X0A
P14/UCK0/EC0/TI0
12
37
PG2/X1A
P13/ADTG/TO01
13
36
C
P12/DBG
14
35
PF0/X0
P11/UO0
15
34
PF1/X1
P10/UI0/TO0
16
33
Vss
Document Number: 002-09307 Rev. *D
PA7/COM7
PA6/COM6
PA5/COM5
PA4/COM4
PA3/COM3
PA2/COM2
PA1/COM1
PA0/COM0
P93/V1
P92/V2
P91/V3
P90/V4
P20/PPG00/CMP0_N
P22/SCL
P21/PPG01/CMP0_P
P23/SDA
17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32
Page 12 of 172
MB95710M Series
MB95770M Series
5. Pin Functions (MB95710M Series)
Pin no. Pin name
1
AVCC
I/O circuit
type*1
—
P07
2
3
4
5
INT07
AN07
S
8
External interrupt input pin
8/12-bit A/D converter analog input pin
SEG30
LCDC SEG30 output pin
P06
General-purpose I/O port
INT06
AN06
S
External interrupt input pin
8/12-bit A/D converter analog input pin
SEG31
LCDC SEG31 output pin
P05
General-purpose I/O port
INT05
External interrupt input pin
AN05
S
8/12-bit A/D converter analog input pin
SEG32
LCDC SEG32 output pin
UCK1
UART/SIO ch. 1 clock I/O pin
P04
General-purpose I/O port
INT04
External interrupt input pin
AN04
V
8/12-bit A/D converter analog input pin
LCDC SEG33 output pin
UI1
UART/SIO ch. 1 data input pin
P03
General-purpose I/O port
INT03
External interrupt input pin
AN03
S
SEG34
7
Power supply pin for 8/12-bit A/D
converter and comparator
8/12-bit A/D converter analog input pin
LCDC SEG34 output pin
UO1
UART/SIO ch. 1 data output pin
P02
General-purpose I/O port
INT02
External interrupt input pin
AN02
S
8/12-bit A/D converter analog input pin
SEG35
LCDC SEG35 output pin
UCK2
UART/SIO ch. 2 clock I/O pin
P01
General-purpose I/O port
INT01
External interrupt input pin
AN01
SEG36
UI2
I/O type
Input
—
Output OD*2 PU*3
—
—
—
Hysteresis/ CMOS/
analog
LCD
—
—
Hysteresis/ CMOS/
analog
LCD
—
—
Hysteresis/ CMOS/
analog
LCD
—
—
CMOS/
LCD
—
—
Hysteresis/ CMOS/
analog
LCD
—
—
Hysteresis/ CMOS/
analog
LCD
—
—
—
—
General-purpose I/O port
SEG33
6
Function
V
8/12-bit A/D converter analog input pin
LCDC SEG36 output pin
CMOS/
analog
CMOS/
analog
CMOS/
LCD
UART/SIO ch. 2 data input pin
Document Number: 002-09307 Rev. *D
Page 13 of 172
MB95710M Series
MB95770M Series
Pin no. Pin name
I/O circuit
type*1
P00
9
INT00
AN00
11
12
13
14
15
16
17
P16
PPG10
P15
PPG11
P14
UCK0
P13
ADTG
P12
DBG
P11
UO0
P10
UI0
P53
TO0
W
TI0
Y
Y
H
H
D
H
G
H
H
20
21
22
P50
TO01
P23
SDA
P22
SCL
PPG01
CMP0_P
Hysteresis/ CMOS/
analog
LCD
—
—
Hysteresis CMOS
—
—
Hysteresis CMOS
—
—
Hysteresis CMOS
—
Ο
Hysteresis CMOS
—
Ο
Hysteresis CMOS
Ο
—
Hysteresis CMOS
—
Ο
CMOS
—
Ο
Hysteresis CMOS
—
Ο
Hysteresis CMOS
—
Ο
8/16-bit composite timer ch. 0 clock input Hysteresis CMOS
pin
—
Ο
—
Ο
8/12-bit A/D converter analog input pin
General-purpose I/O port
8/16-bit PPG ch. 1 output pin
General-purpose I/O port
8/16-bit PPG ch. 1 output pin
General-purpose I/O port
UART/SIO ch. 0 clock I/O pin
General-purpose I/O port
8/12-bit A/D converter trigger input pin
General-purpose I/O port
DBG input pin
General-purpose I/O port
UART/SIO ch. 0 data output pin
General-purpose I/O port
UART/SIO ch. 0 data input pin
General-purpose I/O port
16-bit reload timer ch. 0 output pin
CMOS
16-bit reload timer ch. 0 input pin
General-purpose I/O port
H
H
I
I
P21
23
External interrupt input pin
8/16-bit composite timer ch. 0 output pin
P51
EC0
Output OD*2 PU*3
General-purpose I/O port
TO00
19
Input
UART/SIO ch. 2 data output pin
P52
18
I/O type
General-purpose I/O port
UO2
10
Function
General-purpose I/O port
8/16-bit composite timer ch. 0 output pin
General-purpose I/O port
I2C bus interface ch. 0 data I/O pin
General-purpose I/O port
I2C bus interface ch. 0 clock I/O pin
Hysteresis CMOS
CMOS
CMOS
Ο
—
CMOS
CMOS
Ο
—
Hysteresis/
CMOS
analog
—
Ο
General-purpose I/O port
T
8/16-bit PPG ch. 0 output pin
Comparator ch. 0 non-inverting analog
input (positive input) pin
Document Number: 002-09307 Rev. *D
Page 14 of 172
MB95710M Series
MB95770M Series
Pin no. Pin name
I/O circuit
type*1
P20
24
PPG00
T
P90
V4
V3
R
V2
R
V1
R
30
31
32
33
34
35
36
37
V0
PB2
SEG37
PB3
SEG38
PB4
SEG39
PA0
COM0
PA1
COM1
PA2
COM2
PA3
COM3
PA4
COM4
LCD drive power supply pin
LCD drive power supply pin
General-purpose I/O port
R
P94
29
LCD drive power supply pin
General-purpose I/O port
P93
28
Output OD*2 PU*3
Hysteresis/
CMOS
analog
Comparator ch. 0 inverting analog input
(negative input) pin
General-purpose I/O port
P92
27
Input
8/16-bit PPG ch. 0 output pin
General-purpose I/O port
P91
26
I/O type
General-purpose I/O port
CMP0_N
25
Function
LCD drive power supply pin
General-purpose I/O port
R
M
M
M
M
M
M
M
M
LCD drive power supply pin
General-purpose I/O port
LCDC SEG37 output pin
General-purpose I/O port
LCDC SEG38 output pin
General-purpose I/O port
LCDC SEG39 output pin
General-purpose I/O port
LCDC COM0 output pin
General-purpose I/O port
LCDC COM1 output pin
General-purpose I/O port
LCDC COM2 output pin
General-purpose I/O port
LCDC COM3 output pin
General-purpose I/O port
LCDC COM4 output pin
Document Number: 002-09307 Rev. *D
—
Ο
CMOS/
Hysteresis/
LCD
LCD power
power
supply
supply
—
—
CMOS/
Hysteresis/
LCD
LCD power
power
supply
supply
—
—
CMOS/
Hysteresis/
LCD
LCD power
power
supply
supply
—
—
CMOS/
Hysteresis/
LCD
LCD power
power
supply
supply
—
—
CMOS/
Hysteresis/
LCD
LCD power
power
supply
supply
—
—
Hysteresis
CMOS/
LCD
—
—
Hysteresis
CMOS/
LCD
—
—
Hysteresis
CMOS/
LCD
—
—
Hysteresis
CMOS/
LCD
—
—
Hysteresis
CMOS/
LCD
—
—
Hysteresis
CMOS/
LCD
—
—
Hysteresis
CMOS/
LCD
—
—
Hysteresis
CMOS/
LCD
—
—
Page 15 of 172
MB95710M Series
MB95770M Series
Pin no. Pin name
38
39
40
41
42
43
44
45
46
47
PA5
COM5
PA6
COM6
PA7
COM7
VSS
PF1
X1
PF0
X0
C
PG2
X1A
PG1
X0A
VCC
I/O circuit
type*1
M
M
M
—
B
B
—
C
C
—
PF2
48
49
50
51
52
53
54
55
56
RST
P17
CMP0_O
PB0
SEG00
PB1
SEG01
PC0
SEG02
PC1
SEG03
PC2
SEG04
PC3
SEG05
PC4
SEG06
Function
General-purpose I/O port
LCDC COM5 output pin
General-purpose I/O port
LCDC COM6 output pin
General-purpose I/O port
LCDC COM7 output pin
Power supply pin (GND)
General-purpose I/O port
Main clock I/O oscillation pin
General-purpose I/O port
Main clock input oscillation pin
Decoupling capacitor connection pin
General-purpose I/O port
Subclock I/O oscillation pin
General-purpose I/O port
Subclock input oscillation pin
Power supply pin
I/O type
Input
Output OD*2 PU*3
Hysteresis
CMOS/
LCD
—
—
Hysteresis
CMOS/
LCD
—
—
Hysteresis
CMOS/
LCD
—
—
—
—
—
—
Hysteresis CMOS
—
—
Hysteresis CMOS
—
—
—
—
Hysteresis CMOS
—
Ο
Hysteresis CMOS
—
Ο
—
—
Hysteresis CMOS
Ο
—
Hysteresis CMOS
—
Ο
Hysteresis
CMOS/
LCD
—
—
Hysteresis
CMOS/
LCD
—
—
Hysteresis
CMOS/
LCD
—
—
Hysteresis
CMOS/
LCD
—
—
Hysteresis
CMOS/
LCD
—
—
Hysteresis
CMOS/
LCD
—
—
Hysteresis
CMOS/
LCD
—
—
—
—
—
—
General-purpose I/O port
A
H
M
M
M
M
M
M
M
Reset pin
Dedicated reset pin on
MB95F714M/F716M/F718M
General-purpose I/O port
Comparator ch. 0 digital output pin
General-purpose I/O port
LCDC SEG00 output pin
General-purpose I/O port
LCDC SEG01 output pin
General-purpose I/O port
LCDC SEG02 output pin
General-purpose I/O port
LCDC SEG03 output pin
General-purpose I/O port
LCDC SEG04 output pin
General-purpose I/O port
LCDC SEG05 output pin
General-purpose I/O port
LCDC SEG06 output pin
Document Number: 002-09307 Rev. *D
Page 16 of 172
MB95710M Series
MB95770M Series
Pin no. Pin name
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
PC5
SEG07
PC6
SEG08
PC7
SEG09
P60
SEG10
P61
SEG11
P62
SEG12
P63
SEG13
P64
SEG14
P65
SEG15
P66
SEG16
P67
SEG17
P43
SEG18
P42
SEG19
P41
SEG20
P40
SEG21
PE0
SEG22
PE1
SEG23
PE2
SEG24
I/O circuit
type*1
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
M
Function
General-purpose I/O port
LCDC SEG07 output pin
General-purpose I/O port
LCDC SEG08 output pin
General-purpose I/O port
LCDC SEG09 output pin
General-purpose I/O port
LCDC SEG10 output pin
General-purpose I/O port
LCDC SEG11 output pin
General-purpose I/O port
LCDC SEG12 output pin
General-purpose I/O port
LCDC SEG13 output pin
General-purpose I/O port
LCDC SEG14 output pin
General-purpose I/O port
LCDC SEG15 output pin
General-purpose I/O port
LCDC SEG16 output pin
General-purpose I/O port
LCDC SEG17 output pin
General-purpose I/O port
LCDC SEG18 output pin
General-purpose I/O port
LCDC SEG19 output pin
General-purpose I/O port
LCDC SEG20 output pin
General-purpose I/O port
LCDC SEG21 output pin
General-purpose I/O port
LCDC SEG22 output pin
General-purpose I/O port
LCDC SEG23 output pin
General-purpose I/O port
LCDC SEG24 output pin
Document Number: 002-09307 Rev. *D
I/O type
Input
Output OD*2 PU*3
Hysteresis
CMOS/
LCD
—
—
Hysteresis
CMOS/
LCD
—
—
Hysteresis
CMOS/
LCD
—
—
Hysteresis
CMOS/
LCD
—
—
Hysteresis
CMOS/
LCD
—
—
Hysteresis
CMOS/
LCD
—
—
Hysteresis
CMOS/
LCD
—
—
Hysteresis
CMOS/
LCD
—
—
Hysteresis
CMOS/
LCD
—
—
Hysteresis
CMOS/
LCD
—
—
Hysteresis
CMOS/
LCD
—
—
Hysteresis
CMOS/
LCD
—
—
Hysteresis
CMOS/
LCD
—
—
Hysteresis
CMOS/
LCD
—
—
Hysteresis
CMOS/
LCD
—
—
Hysteresis
CMOS/
LCD
—
—
Hysteresis
CMOS/
LCD
—
—
Hysteresis
CMOS/
LCD
—
—
Page 17 of 172
MB95710M Series
MB95770M Series
Pin no. Pin name
75
76
PE3
SEG25
PE4
SEG26
I/O circuit
type*1
M
M
PE5
77
78
SEG27
LCDC SEG25 output pin
General-purpose I/O port
LCDC SEG26 output pin
M
LCDC SEG27 output pin
TO11
8/16-bit composite timer ch. 1 output pin
PE6
General-purpose I/O port
SEG28
M
SEG29
LCDC SEG28 output pin
Output OD*2 PU*3
Hysteresis
CMOS/
LCD
—
—
Hysteresis
CMOS/
LCD
—
—
Hysteresis
CMOS/
LCD
—
—
Hysteresis
CMOS/
LCD
—
—
Hysteresis
CMOS/
LCD
—
—
—
—
—
—
General-purpose I/O port
M
EC1
AVSS
Input
8/16-bit composite timer ch. 1 output pin
PE7
80
General-purpose I/O port
I/O type
General-purpose I/O port
TO10
79
Function
—
LCDC SEG27 output pin
8/16-bit composite timer ch. 1 clock input
pin
Power supply pin (GND) for 8/12-bit A/D
converter and comparator
Ο: Available
*1: For the I/O circuit types, see “I/O Circuit Type”.
*2: N-ch open drain
*3: Pull-up
Document Number: 002-09307 Rev. *D
Page 18 of 172
MB95710M Series
MB95770M Series
6. Pin Functions (MB95770M Series)
Pin no. Pin name
1
AVCC
I/O circuit
type*1
—
P07
2
3
4
5
INT07
AN07
S
8
External interrupt input pin
8/12-bit A/D converter analog input pin
SEG22
LCDC SEG22 output pin
P06
General-purpose I/O port
INT06
AN06
S
External interrupt input pin
8/12-bit A/D converter analog input pin
SEG23
LCDC SEG23 output pin
P05
General-purpose I/O port
INT05
External interrupt input pin
AN05
S
8/12-bit A/D converter analog input pin
SEG24
LCDC SEG24 output pin
UCK1
UART/SIO ch. 1 clock I/O pin
P04
General-purpose I/O port
INT04
External interrupt input pin
AN04
V
8/12-bit A/D converter analog input pin
LCDC SEG25 output pin
UI1
UART/SIO ch. 1 data input pin
P03
General-purpose I/O port
INT03
External interrupt input pin
AN03
S
SEG26
7
Power supply pin for 8/12-bit A/D
converter and comparator
8/12-bit A/D converter analog input pin
LCDC SEG26 output pin
UO1
UART/SIO ch. 1 data output pin
P02
General-purpose I/O port
INT02
External interrupt input pin
AN02
S
8/12-bit A/D converter analog input pin
SEG27
LCDC SEG27 output pin
UCK2
UART/SIO ch. 2 clock I/O pin
P01
General-purpose I/O port
INT01
External interrupt input pin
AN01
SEG28
TO00
UI2
I/O type
Input
—
Output OD*2 PU*3
—
—
—
Hysteresis/ CMOS/
analog
LCD
—
—
Hysteresis/ CMOS/
analog
LCD
—
—
Hysteresis/ CMOS/
analog
LCD
—
—
CMOS/
LCD
—
—
Hysteresis/ CMOS/
analog
LCD
—
—
Hysteresis/ CMOS/
analog
LCD
—
—
—
—
General-purpose I/O port
SEG25
6
Function
V
8/12-bit A/D converter analog input pin
LCDC SEG28 output pin
CMOS/
analog
CMOS/
analog
CMOS/
LCD
8/16-bit composite timer ch. 0 output pin
UART/SIO ch. 2 data input pin
Document Number: 002-09307 Rev. *D
Page 19 of 172
MB95710M Series
MB95770M Series
Pin no. Pin name
9
I/O circuit
type*1
P00
General-purpose I/O port
INT00
External interrupt input pin
AN00
S
SEG29
10
SEG31
M
18
EC0
8/16-bit composite timer ch. 0 clock input Hysteresis CMOS
pin
—
Ο
Hysteresis CMOS
—
Ο
Hysteresis CMOS
Ο
—
Hysteresis CMOS
—
Ο
16-bit reload timer ch. 0 input pin
P13
General-purpose I/O port
ADTG
H
P12
DBG
P11
UO0
UI0
P23
SDA
P22
SCL
PPG01
D
H
CMP0_N
General-purpose I/O port
DBG input pin
General-purpose I/O port
UART/SIO ch. 0 data output pin
General-purpose I/O port
G
CMOS
CMOS
—
Ο
CMOS
CMOS
Ο
—
CMOS
CMOS
Ο
—
Hysteresis/
CMOS
analog
—
Ο
Hysteresis/
CMOS
analog
Comparator ch. 0 inverting analog input
(negative input) pin
—
Ο
UART/SIO ch. 0 data input pin
16-bit reload timer ch. 0 output pin
I
I
General-purpose I/O port
I2C bus interface ch. 0 data I/O pin
General-purpose I/O port
I2C bus interface ch. 0 clock I/O pin
General-purpose I/O port
T
P20
PPG00
8/12-bit A/D converter trigger input pin
8/16-bit composite timer ch. 0 output pin
CMP0_P
20
—
TI0
P21
19
—
UART/SIO ch. 0 clock I/O pin
H
TO0
17
CMOS/
LCD
General-purpose I/O port
P10
16
Hysteresis
LCDC SEG31 output pin
8/16-bit PPG ch. 1 output pin
TO01
15
—
General-purpose I/O port
UCK0
14
—
LCDC SEG30 output pin
8/16-bit PPG ch. 1 output pin
P14
13
CMOS/
LCD
General-purpose I/O port
PPG11
12
Hysteresis
P16
P15
Output OD*2 PU*3
—
UART/SIO ch. 2 data output pin
M
Input
—
UO2
SEG30
I/O type
Hysteresis/ CMOS/
analog
LCD
8/12-bit A/D converter analog input pin
LCDC SEG29 output pin
PPG10
11
Function
8/16-bit PPG ch. 0 output pin
Comparator ch. 0 non-inverting analog
input (positive input) pin
General-purpose I/O port
T
8/16-bit PPG ch. 0 output pin
Document Number: 002-09307 Rev. *D
Page 20 of 172
MB95710M Series
MB95770M Series
Pin no. Pin name
I/O circuit
type*1
P90
21
V4
General-purpose I/O port
R
P91
22
V3
V2
R
25
26
27
28
29
30
31
32
33
34
35
36
37
V1
PA0
COM0
PA1
COM1
PA2
COM2
PA3
COM3
PA4
COM4
PA5
COM5
PA6
COM6
PA7
COM7
VSS
PF1
X1
PF0
X0
C
PG2
X1A
LCD drive power supply pin
General-purpose I/O port
R
P93
24
LCD drive power supply pin
General-purpose I/O port
P92
23
Function
LCD drive power supply pin
General-purpose I/O port
R
M
M
M
M
M
M
M
M
—
B
B
—
C
LCD drive power supply pin
General-purpose I/O port
LCDC COM0 output pin
General-purpose I/O port
LCDC COM1 output pin
General-purpose I/O port
LCDC COM2 output pin
General-purpose I/O port
LCDC COM3 output pin
General-purpose I/O port
LCDC COM4 output pin
General-purpose I/O port
LCDC COM5 output pin
General-purpose I/O port
LCDC COM6 output pin
General-purpose I/O port
LCDC COM7 output pin
Power supply pin (GND)
General-purpose I/O port
Main clock I/O oscillation pin
General-purpose I/O port
Main clock input oscillation pin
Decoupling capacitor connection pin
General-purpose I/O port
Subclock I/O oscillation pin
Document Number: 002-09307 Rev. *D
I/O type
Input
Output OD*2 PU*3
CMOS/
Hysteresis/
LCD
LCD power
power
supply
supply
—
—
CMOS/
Hysteresis/
LCD
LCD power
power
supply
supply
—
—
CMOS/
Hysteresis/
LCD
LCD power
power
supply
supply
—
—
CMOS/
Hysteresis/
LCD
LCD power
power
supply
supply
—
—
Hysteresis
CMOS/
LCD
—
—
Hysteresis
CMOS/
LCD
—
—
Hysteresis
CMOS/
LCD
—
—
Hysteresis
CMOS/
LCD
—
—
Hysteresis
CMOS/
LCD
—
—
Hysteresis
CMOS/
LCD
—
—
Hysteresis
CMOS/
LCD
—
—
Hysteresis
CMOS/
LCD
—
—
—
—
—
—
Hysteresis CMOS
—
—
Hysteresis CMOS
—
—
—
—
—
Ο
—
—
Hysteresis CMOS
Page 21 of 172
MB95710M Series
MB95770M Series
Pin no. Pin name
38
39
PG1
X0A
VCC
I/O circuit
type*1
C
—
PF2
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
RST
P17
CMP0_O
PB0
SEG00
PB1
SEG01
PC0
SEG02
PC1
SEG03
PC2
SEG04
PC3
SEG05
P60
SEG06
P61
SEG07
P62
SEG08
P63
SEG09
P64
SEG10
P65
SEG11
P66
SEG12
P67
SEG13
Function
General-purpose I/O port
Subclock input oscillation pin
Power supply pin
I/O type
Input
Output OD*2 PU*3
—
Ο
—
—
Hysteresis CMOS
Ο
—
Hysteresis CMOS
—
Ο
Hysteresis
CMOS/
LCD
—
—
Hysteresis
CMOS/
LCD
—
—
Hysteresis
CMOS/
LCD
—
—
Hysteresis
CMOS/
LCD
—
—
Hysteresis
CMOS/
LCD
—
—
Hysteresis
CMOS/
LCD
—
—
Hysteresis
CMOS/
LCD
—
—
Hysteresis
CMOS/
LCD
—
—
Hysteresis
CMOS/
LCD
—
—
Hysteresis
CMOS/
LCD
—
—
Hysteresis
CMOS/
LCD
—
—
Hysteresis
CMOS/
LCD
—
—
Hysteresis
CMOS/
LCD
—
—
Hysteresis
CMOS/
LCD
—
—
Hysteresis CMOS
—
—
General-purpose I/O port
A
H
M
M
M
M
M
M
M
M
M
M
M
M
M
M
Reset pin
Dedicated reset pin on
MB95F774M/F776M/F778M
General-purpose I/O port
Comparator ch. 0 digital output pin
General-purpose I/O port
LCDC SEG00 output pin
General-purpose I/O port
LCDC SEG01 output pin
General-purpose I/O port
LCDC SEG02 output pin
General-purpose I/O port
LCDC SEG03 output pin
General-purpose I/O port
LCDC SEG04 output pin
General-purpose I/O port
LCDC SEG05 output pin
General-purpose I/O port
LCDC SEG06 output pin
General-purpose I/O port
LCDC SEG07 output pin
General-purpose I/O port
LCDC SEG08 output pin
General-purpose I/O port
LCDC SEG09 output pin
General-purpose I/O port
LCDC SEG10 output pin
General-purpose I/O port
LCDC SEG11 output pin
General-purpose I/O port
LCDC SEG12 output pin
General-purpose I/O port
LCDC SEG13 output pin
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MB95710M Series
MB95770M Series
Pin no. Pin name
56
57
58
59
60
PE0
SEG14
PE1
SEG15
PE2
SEG16
PE3
SEG17
PE4
SEG18
I/O circuit
type*1
M
M
M
M
M
PE5
61
62
SEG19
LCDC SEG14 output pin
General-purpose I/O port
LCDC SEG15 output pin
General-purpose I/O port
LCDC SEG16 output pin
General-purpose I/O port
LCDC SEG17 output pin
General-purpose I/O port
LCDC SEG18 output pin
M
LCDC SEG19 output pin
TO11
8/16-bit composite timer ch. 1 output pin
PE6
General-purpose I/O port
SEG20
M
SEG21
LCDC SEG20 output pin
Output OD*2 PU*3
Hysteresis
CMOS/
LCD
—
—
Hysteresis
CMOS/
LCD
—
—
Hysteresis
CMOS/
LCD
—
—
Hysteresis
CMOS/
LCD
—
—
Hysteresis
CMOS/
LCD
—
—
Hysteresis
CMOS/
LCD
—
—
Hysteresis
CMOS/
LCD
—
—
Hysteresis
CMOS/
LCD
—
—
—
—
—
—
General-purpose I/O port
M
EC1
AVSS
Input
8/16-bit composite timer ch. 1 output pin
PE7
64
General-purpose I/O port
I/O type
General-purpose I/O port
TO10
63
Function
—
LCDC SEG21 output pin
8/16-bit composite timer ch. 1 clock input
pin
Power supply pin (GND) for 8/12-bit A/D
converter and comparator
Ο: Available
*1: For the I/O circuit types, see “I/O Circuit Type”.
*2: N-ch open drain
*3: Pull-up
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MB95710M Series
MB95770M Series
7. I/O Circuit Type
Type
Circuit
A
Remarks
Reset input / Hysteresis input
Reset output / Digital output
• N-ch open drain output
• Hysteresis input
• Reset output
N-ch
B
P-ch
Port select
Digital output
N-ch
Digital output
Standby control
Hysteresis input
• Oscillation circuit
• High-speed side
Feedback resistance:
approx. 1 MΩ
• CMOS output
• Hysteresis input
Clock input
X1
X0
Standby control / Port select
P-ch
Port select
Digital output
N-ch
Digital output
Standby control
Hysteresis input
C
Port select
R
Pull-up control
P-ch
P-ch
• Oscillation circuit
• Low-speed side
Feedback resistance:
approx. 10 MΩ
Digital output
N-ch
Digital output
Standby control
Hysteresis input
• CMOS output
• Hysteresis input
• Pull-up control
Clock input
X1A
X0A
Standby control / Port select
Port select
R
Pull-up control
Digital output
P-ch
Digital output
N-ch
Digital output
Standby control
Hysteresis input
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MB95710M Series
MB95770M Series
Type
Circuit
D
Remarks
Standby control
• N-ch open drain output
• Hysteresis input
Hysteresis input
Digital output
N-ch
G
Pull-up control
R
P-ch
• CMOS output
• CMOS input
• Pull-up control
Digital output
P-ch
Digital output
N-ch
Standby control
CMOS input
H
Pull-up control
R
P-ch
• CMOS output
• Hysteresis input
• Pull-up control
Digital output
P-ch
Digital output
N-ch
Standby control
Hysteresis input
I
Standby control
• N-ch open drain output
• CMOS input
CMOS input
Digital output
N-ch
M
P-ch
Digital output
• CMOS output
• LCD output
• Hysteresis input
Digital output
N-ch
LCD output
LCD control
Standby control
Hysteresis input
R
P-ch
Digital output
• CMOS output
• LCD power supply
• Hysteresis input
Digital output
N-ch
LCD internal divider
resistor I/O
LCD control
Standby control
Hysteresis input
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MB95710M Series
MB95770M Series
Type
Circuit
S
Remarks
P-ch
Digital output
Digital output
N-ch
•
•
•
•
CMOS output
LCD output
Hysteresis input
Analog input
•
•
•
•
CMOS output
Hysteresis input
Analog input
Pull-up control
•
•
•
•
CMOS output
CMOS input
LCD output
Analog input
Analog input
LCD output
LCD control
A/D control
Standby control
Hysteresis input
T
Pull-up control
R
P-ch
Digital output
Digital output
N-ch
Analog input
Analog input control
Standby control
Hysteresis input
V
P-ch
Digital output
Digital output
N-ch
Analog input
LCD output
LCD control
A/D control
Standby control
CMOS input
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MB95710M Series
MB95770M Series
Type
W
Circuit
Remarks
P-ch
Digital output
• CMOS output
• Hysteresis input
• Analog input
Digital output
N-ch
Analog input
Analog input control
Standby control
Hysteresis input
Y
P-ch
Digital output
• CMOS output
• Hysteresis input
Digital output
N-ch
Standby control
Hysteresis input
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MB95710M Series
MB95770M Series
8. Handling Precautions
Any semiconductor devices have inherently a certain rate of failure. The possibility of failure is greatly affected by the
conditions in which they are used (circuit conditions, environmental conditions, etc.). This page describes precautions
that must be observed to minimize the chance of failure and to obtain higher reliability from your Cypress semiconductor
devices.
8.1 Precautions for Product Design
This section describes precautions when designing electronic equipment using semiconductor devices.
• Absolute Maximum Ratings
Semiconductor devices can be permanently damaged by application of stress (voltage, current, temperature, etc.) in
excess of certain established limits, called absolute maximum ratings. Do not exceed these ratings.
• Recommended Operating Conditions
Recommended operating conditions are normal operating ranges for the semiconductor device. All the device's
electrical characteristics are warranted when operated within these ranges.
Always use semiconductor devices within the recommended operating conditions. 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 sales representative beforehand.
• Processing and Protection of Pins
These precautions must be followed when handling the pins which connect semiconductor devices to power supply
and input/output functions.
(1) Preventing Over-Voltage and Over-Current Conditions
Exposure to voltage or current levels in excess of maximum ratings at any pin is likely to cause deterioration
within the device, and in extreme cases leads to permanent damage of the device. Try to prevent such overvoltage
or over-current conditions at the design stage.
(2) Protection of Output Pins
Shorting of output pins to supply pins or other output pins, or connection to large capacitance can cause large
current flows. Such conditions if present for extended periods of time can damage the device.
Therefore, avoid this type of connection.
(3) Handling of Unused Input Pins
Unconnected input pins with very high impedance levels can adversely affect stability of operation. Such pins
should be connected through an appropriate resistance to a power supply pin or ground pin.
• Latch-up
Semiconductor devices are constructed by the formation of P-type and N-type areas on a substrate. When subjected
to abnormally high voltages, internal parasitic PNPN junctions (called thyristor structures) may be formed, causing
large current levels in excess of several hundred mA to flow continuously at the power supply pin. This condition is
called latch-up.
CAUTION: The occurrence of latch-up not only causes loss of reliability in the semiconductor device, but can cause
injury or damage from high heat, smoke or flame. To prevent this from happening, do the following:
(1) Be sure that voltages applied to pins do not exceed the absolute maximum ratings. This should
include attention to abnormal noise, surge levels, etc.
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MB95770M Series
(2) Be sure that abnormal current flows do not occur during the power-on sequence.
• Observance of Safety Regulations and Standards
Most countries in the world have established standards and regulations regarding safety, protection from electromagnetic interference, etc. Customers are requested to observe applicable regulations and standards in the design of
products.
• Fail-Safe Design
Any semiconductor devices have inherently a certain rate 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.
• Precautions Related to Usage of Devices
Cypress semiconductor devices are intended for use in standard applications (computers, office automation and other
office equipment, industrial, communications, and measurement equipment, personal or household devices, etc.).
CAUTION: Customers considering the use of our products in special applications where failure or abnormal operation
may directly affect human lives or cause physical injury or property damage, or where extremely high levels of reliability
are demanded (such as aerospace systems, atomic energy controls, sea floor repeaters, vehicle operating controls,
medical devices for life support, etc.) are requested to consult with sales representatives before such use. The
company will not be responsible for damages arising from such use without prior approval.
8.2 Precautions for Package Mounting
Package mounting may be either lead insertion type or surface mount type. In either case, for heat resistance during
soldering, you should only mount under Cypress’s recommended conditions. For detailed information about mount
conditions, contact your sales representative.
• Lead Insertion Type
Mounting of lead insertion type packages onto printed circuit boards may be done by two methods: direct soldering
on the board, or mounting by using a socket.
Direct mounting onto boards normally involves processes for inserting leads into through-holes on the board and
using the flow soldering (wave soldering) method of applying liquid solder. In this case, the soldering process usually
causes leads to be subjected to thermal stress in excess of the absolute ratings for storage temperature. Mounting
processes should conform to Cypress recommended mounting conditions.
If socket mounting is used, differences in surface treatment of the socket contacts and IC lead surfaces can lead to
contact deterioration after long periods. For this reason it is recommended that the surface treatment of socket contacts
and IC leads be verified before mounting.
• Surface Mount Type
Surface mount packaging has longer and thinner leads than lead-insertion packaging, and therefore leads are more
easily deformed or bent. The use of packages with higher pin counts and narrower pin pitch results in increased
susceptibility to open connections caused by deformed pins, or shorting due to solder bridges.
You must use appropriate mounting techniques. Cypress recommends the solder reflow method, and has established
a ranking of mounting conditions for each product. Users are advised to mount packages in accordance with Cypress
ranking of recommended conditions.
• Lead-Free Packaging
CAUTION: When ball grid array (BGA) packages with Sn-Ag-Cu balls are mounted using Sn-Pb eutectic soldering,
junction strength may be reduced under some conditions of use.
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MB95710M Series
MB95770M Series
• Storage of Semiconductor Devices
Because plastic chip packages are formed from plastic resins, exposure to natural environmental conditions will cause
absorption of moisture. During mounting, the application of heat to a package that has absorbed moisture can cause
surfaces to peel, reducing moisture resistance and causing packages to crack. To prevent, do the following:
(1) Avoid exposure to rapid temperature changes, which cause moisture to condense inside the product. Store
products in locations where temperature changes are slight.
(2) Use dry boxes for product storage. Products should be stored below 70% relative humidity, and at temperatures
between 5°C and 30°C.
When you open Dry Package that recommends humidity 40% to 70% relative humidity.
(3) When necessary, Cypress packages semiconductor devices in highly moisture-resistant aluminum laminate bags,
with a silica gel desiccant. Devices should be sealed in their aluminum laminate bags for storage.
(4) Avoid storing packages where they are exposed to corrosive gases or high levels of dust.
• Baking
Packages that have absorbed moisture may be de-moisturized by baking (heat drying). Follow the Cypress recommended conditions for baking.
Condition: 125°C/24 h
• Static Electricity
Because semiconductor devices are particularly susceptible to damage by static electricity, you must take the following
precautions:
(1) Maintain relative humidity in the working environment between 40% and 70%.
Use of an apparatus for ion generation may be needed to remove electricity.
(2) Electrically ground all conveyors, solder vessels, soldering irons and peripheral equipment.
(3) Eliminate static body electricity by the use of rings or bracelets connected to ground through high resistance (on
the level of 1 MΩ).
Wearing of conductive clothing and shoes, use of conductive floor mats and other measures to minimize shock
loads is recommended.
(4) Ground all fixtures and instruments, or protect with anti-static measures.
(5) Avoid the use of styrofoam or other highly static-prone materials for storage of completed board assemblies.
8.3 Precautions for Use Environment
Reliability of semiconductor devices depends on ambient temperature and other conditions as described above.
For reliable performance, do the following:
(1) Humidity
Prolonged use in high humidity can lead to leakage in devices as well as printed circuit boards. If high humidity
levels are anticipated, consider anti-humidity processing.
(2) Discharge of Static Electricity
When high-voltage charges exist close to semiconductor devices, discharges can cause abnormal operation. In
such cases, use anti-static measures or processing to prevent discharges.
(3) Corrosive Gases, Dust, or Oil
Exposure to corrosive gases or contact with dust or oil may lead to chemical reactions that will adversely affect
the device. If you use devices in such conditions, consider ways to prevent such exposure or to protect the devices.
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MB95770M Series
(4) Radiation, Including Cosmic Radiation
Most devices are not designed for environments involving exposure to radiation or cosmic radiation. Users should
provide shielding as appropriate.
(5) Smoke, Flame
CAUTION: Plastic molded devices are flammable, and therefore should not be used near combustible substances.
If devices begin to smoke or burn, there is danger of the release of toxic gases.
Customers considering the use of Cypress products in other special environmental conditions should consult with
sales representatives.
9. Notes On Device Handling
• Preventing latch-ups
When using the device, ensure that the voltage applied does not exceed the maximum voltage rating.
In a CMOS IC, if a voltage higher than VCC or a voltage lower than VSS is applied to an input/output pin that is neither
a medium-withstand voltage pin nor a high-withstand voltage pin, or if a voltage out of the rating range of power supply voltage mentioned in “22.1 Absolute Maximum Ratings” of “Electrical Characteristics” is applied to the VCC pin or
the VSS pin, a latch-up may occur.
When a latch-up occurs, power supply current increases significantly, which may cause a component to be thermally
destroyed.
• Stabilizing supply voltage
Supply voltage must be stabilized.
A malfunction may occur when power supply voltage fluctuates rapidly even though the fluctuation is within the guaranteed operating range of the VCC power supply voltage.
As a rule of voltage stabilization, suppress voltage fluctuation so that the fluctuation in VCC ripple (p-p value) at the
commercial frequency (50 Hz/60 Hz) does not exceed 10% of the standard VCC value, and the transient fluctuation
rate does not exceed 0.1 V/ms at a momentary fluctuation such as switching the power supply.
• Notes on using the external clock
When an external clock is used, oscillation stabilization wait time is required for power-on reset, wake-up from subclock mode or stop mode.
10. Pin Connection
• Treatment of unused pins
If an unused input pin is left unconnected, a component may be permanently damaged due to malfunctions or latchups. Always pull up or pull down an unused input pin through a resistor of at least 2 kΩ. Set an unused input/output
pin to the output state and leave it unconnected, or set it to the input state and treat it the same as an unused input
pin. If there is an unused output pin, leave it unconnected.
• Power supply pins
To reduce unnecessary electro-magnetic emission, prevent malfunctions of strobe signals due to an increase in the
ground level, and conform to the total output current standard, always connect the VCC pin and the VSS pin to the
power supply and ground outside the device. In addition, connect the current supply source to the VCC pin and the
VSS pin with low impedance.
It is also advisable to connect a ceramic capacitor of approximately 1.0 µF as a bypass capacitor between the VCC
pin and the VSS pin at a location close to this device.
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MB95710M Series
MB95770M Series
• DBG pin
Connect the DBG pin to an external pull-up resistor of 2 kΩ or above.
After power-on, ensure that the DBG pin does not stay at “L” level until the reset output is released.
The DBG pin becomes a communication pin in debug mode. Since the actual pull-up resistance depends on the tool
used and the interconnection length, refer to the tool document when selecting a pull-up resistor.
• RST pin
Connect the RST pin to an external pull-up resistor of 2 kΩ or above.
To prevent the device from unintentionally entering the reset mode due to noise, minimize the interconnection length
between a pull-up resistor and the RST pin and that between a pull-up resistor and the VCC pin when designing the
layout of the printed circuit board.
The PF2/RST pin functions as the reset input/output pin after power-on. In addition, the reset output of the PF2/RST
pin can be enabled by the RSTOE bit in the SYSC register, and the reset input function and the general-purpose I/O
function can be selected by the RSTEN bit in the SYSC register.
• Analog power supply
Always set the same potential to the AVCC pin and the VCC pin. When VCC is larger than AVCC, the current may flow
through the AN00 to AN07 pins.
• Treatment of power supply pins on the 8/12-bit A/D converter
Ensure that AVCC is equal to VCC and AVSS equal to VSS even when the 8/12-bit A/D converter is not in use.
Noise riding on the AVCC pin may cause accuracy degradation. Therefore, connect a ceramic capacitor of 0.1 µF (approx.) as a bypass capacitor between the AVCC pin and the AVSS pin in the vicinity of this device.
• C pin
Use a ceramic capacitor or a capacitor with equivalent frequency characteristics. The decoupling capacitor for the
VCC pin must have a capacitance equal to or larger than the capacitance of CS. For the connection to a decoupling
capacitor CS, see the diagram below. To prevent the device from unintentionally entering a mode to which the device
is not set to transit due to noise, minimize the distance between the C pin and CS and the distance between CS and
the VSS pin when designing the layout of a printed circuit board.
• DBG/RST/C pins connection diagram
DBG
C
RST
Cs
• Note on serial communication
In serial communication, reception of wrong data may occur due to noise or other causes. Therefore, design a printed
circuit board to prevent noise from occurring. Taking account of the reception of wrong data, take measures such as
adding a checksum to the end of data in order to detect errors. If an error is detected, retransmit the data.
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MB95710M Series
MB95770M Series
11. Block Diagram (MB95710M Series)
F2MC-8FX CPU
PF2*1/RST*2
PF0/X0
Reset with LVD
Flash with security function
(60/36/20 Kbyte)
*2
PF1/X1*2
PG1/X0A*2
Oscillator
circuit
RAM (2048/1024/512 bytes)
CR
oscillator
PG2/X1A*2
Interrupt controller
P52/TO00
Clock control
C
P50/TO01
8/16-bit composite timer ch. 0
P51/EC0
Watch counter
P12*1/DBG
On-chip debug
P00/AN00 to P07/AN07
8/12-bit A/D converter
P13/ADTG
Wild register
4 COM mode:
External interrupt
P10/UI0
P11/UO0
UART/SIO ch. 0
P14/UCK0
Internal bus
P00/INT00 to P07/INT07
LCDC
(4 COM or 8 COM)
P04/UI1
P03/UO1
UART/SIO ch. 1
P05/UCK1
8 COM mode:
P90/V4 to P94/V0
P90/V4 to P94/V0
PA0/COM0 to PA3/COM3
PA0/COM0 to PA7/COM7
PB0/SEG00, PB1/SEG01
PB0/SEG00, PB1/SEG01
PC0/SEG02 to PC7/SEG09
PC0/SEG02 to PC7/SEG09
P60/SEG10 to P67/SEG17
P60/SEG10 to P67/SEG17
P43/SEG18 to P40/SEG21
P43/SEG18 to P40/SEG21
PE0/SEG22 to PE7/SEG29
PE0/SEG22 to PE7/SEG29
P07/SEG30 to P01/SEG36
P07/SEG30 to P02/SEG35
PB2/SEG37 to PB4/SEG39
*3
P01/UI2
P00/UO2
UART/SIO ch. 2
P02/UCK2
P20/PPG00
P21/PPG01
8/16-bit PPG ch. 0
16-bit reload timer ch. 0
P52/TI0
P53/TO0
PE6/TO10
8/16-bit composite timer ch. 1
PE5/TO11
PE7/EC1
P16/PPG10
P15/PPG11
8/16-bit PPG ch. 1
P21/CMP0_P
P22*1/SCL
P23*1/SDA
I2C bus interface ch. 0
Port
Comparator ch. 0
P20/CMP0_N
P17/CMP0_O
Port
Vcc
Vss
*1: P12, P22, P23 and PF2 are N-ch open drain pins.
*2: Software option
*3: When the event counter operation mode is enabled, 8/16-bit composite timer ch. 1 and 16-bit reload timer ch. 0 can be used as an event counter.
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MB95710M Series
MB95770M Series
12. Block Diagram (MB95770M Series)
F2MC-8FX CPU
PF2*1/RST*2
PF0/X0
Reset with LVD
Flash with security function
(60/36/20 Kbyte)
*2
PF1/X1*2
PG1/X0A*2
Oscillator
circuit
RAM (2048/1024/512 bytes)
CR
oscillator
PG2/X1A*2
Interrupt controller
P01/TO00
Clock control
C
P13/TO01
8/16-bit composite timer ch. 0
P14/EC0
Watch counter
P12*1/DBG
On-chip debug
P00/AN00 to P07/AN07
8/12-bit A/D converter
P13/ADTG
Wild register
P10/UI0
P11/UO0
4 COM mode:
External interrupt
UART/SIO ch. 0
P14/UCK0
Internal bus
P00/INT00 to P07/INT07
LCDC
(4 COM or 8 COM)
P04/UI1
P03/UO1
UART/SIO ch. 1
8 COM mode:
P90/V4 to P93/V1
P90/V4 to P93/V1
PA0/COM0 to PA3/COM3
PA0/COM0 to PA7/COM7
PB0/SEG00, PB1/SEG01
PB0/SEG00, PB1/SEG01
PC0/SEG02 to PC3/SEG05
PC0/SEG02 to PC3/SEG05
P60/SEG06 to P67/SEG13
P60/SEG06 to P67/SEG13
PE0/SEG14 to PE7/SEG21
PE0/SEG14 to PE7/SEG21
P07/SEG22 to P00/SEG29
P07/SEG22 to P02/SEG27
P16/SEG30, P15/SEG31
P05/UCK1
*3
P01/UI2
P00/UO2
UART/SIO ch. 2
P02/UCK2
P20/PPG00
P21/PPG01
8/16-bit PPG ch. 0
16-bit reload timer ch. 0
P14/TI0
P10/TO0
PE6/TO10
8/16-bit composite timer ch. 1
PE5/TO11
PE7/EC1
P16/PPG10
P15/PPG11
8/16-bit PPG ch. 1
P21/CMP0_P
P22*1/SCL
P23*1/SDA
I2C bus interface ch. 0
Port
Comparator ch. 0
P20/CMP0_N
P17/CMP0_O
Port
Vcc
Vss
*1: P12, P22, P23 and PF2 are N-ch open drain pins.
*2: Software option
*3: When the event counter operation mode is enabled, 8/16-bit composite timer ch. 1 and 16-bit reload timer ch. 0 can be used as an event counter.
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MB95710M Series
MB95770M Series
13. CPU Core
• Memory space
The memory space of the MB95710M/770M Series is 64 Kbyte in size, and consists of an I/O area, an extended I/O
area, a data area, and a program area. The memory space includes areas intended for specific purposes such as
general-purpose registers and a vector table. The memory maps of the MB95710M/770M Series are shown below.
• Memory maps
MB95F714J/F714M
MB95F774J/F774M
0x0000
0x0080
0x0090
0x0100
0x0200
0x0290
I/O area
Access prohibited
RAM 512 bytes
Registers
MB95F716J/F716M
MB95F776J/F776M
0x0000
0x0080
0x0090
0x0100
0x0200
I/O area
Access prohibited
RAM 1 Kbyte
Registers
MB95F718J/F718M
MB95F778J/F778M
0x0000
0x0080
0x0090
0x0100
0x0200
I/O area
Access prohibited
RAM 2 Kbyte
Registers
0x0490
0x0890
Access prohibited
Access prohibited
Access prohibited
0x0F80
0x1000
Extended I/O area
0x0F80
0x1000
Flash memory 4 Kbyte
Extended I/O area
0x0F80
0x1000
Extended I/O area
Flash memory 4 Kbyte
0x2000
0x2000
Access prohibited
Access prohibited
0x8000
Flash memory 60 Kbyte
0xC000
Flash memory 32 Kbyte
Flash memory 16 Kbyte
0xFFFF
Document Number: 002-09307 Rev. *D
0xFFFF
0xFFFF
Page 35 of 172
MB95710M Series
MB95770M Series
14. Memory Space
The memory space of the MB95710M/770M Series is 64 Kbyte in size, and consists of an I/O area, an extended I/O
area, a data area, and a program area. The memory space includes areas for specific applications such as generalpurpose registers and a vector table.
• I/O area (addresses: 0x0000 to 0x007F)
• This area contains the control registers and data registers for built-in peripheral functions.
• As the I/O area forms part of the memory space, it can be accessed in the same way as the memory. It can also
be accessed at high-speed by using direct addressing instructions.
• Extended I/O area (addresses: 0x0F80 to 0x0FFF)
• This area contains the control registers and data registers for built-in peripheral functions.
• As the extended I/O area forms part of the memory space, it can be accessed in the same way as the memory.
• Data area
• Static RAM is incorporated in the data area as the internal data area.
• The internal RAM size varies according to product.
• The RAM area from 0x0090 to 0x00FF can be accessed at high-speed by using direct addressing instructions.
• In MB95F716J/F716M/F718J/F718M/F776J/F776M/F778J/F778M, the area from 0x0090 to 0x047F is an extended direct addressing area. It can be accessed at high-speed by direct addressing instructions with a direct bank
pointer set.
• In MB95F714J/F714M/F774J/F774M, the area from 0x0090 to 0x028F is an extended direct addressing area. It
can be accessed at high-speed by direct addressing instructions with a direct bank pointer set.
• The area from 0x0100 to 0x01FF can be used as a general-purpose register area.
• Program area
• The Flash memory is incorporated in the program area as the internal program area.
• The Flash memory size varies according to product.
• The area from 0xFFC0 to 0xFFFF is used as the vector table.
• The area from 0xFFBB to 0xFFBF is used to store data of the non-volatile register.
Document Number: 002-09307 Rev. *D
Page 36 of 172
MB95710M Series
MB95770M Series
• Memory space map
0x0000
0x0080
0x0090
0x0100
I/O area
Direct addressing area
Access prohibited
Registers
(General-purpose register area)
Extended direct addressing area
0x0200
0x047F
Data area
0x088F
0x0890
Access prohibited
0x0F80
0x0FFF
0x1000
Extended I/O area
Program area
0xFFC0
0xFFFF
Document Number: 002-09307 Rev. *D
Vector table area
Page 37 of 172
MB95710M Series
MB95770M Series
15. Areas For Specific Applications
The general-purpose register area and vector table area are used for the specific applications.
• General-purpose register area (Addresses: 0x0100 to 0x01FF)
• This area contains the auxiliary registers used for 8-bit arithmetic operations, transfer, etc.
• As this area forms part of the RAM area, it can also be used as conventional RAM.
• When the area is used as general-purpose registers, general-purpose register addressing enables high-speed access with short instructions.
• Non-volatile register data area (Addresses: 0xFFBB to 0xFFBF)
• The area from 0xFFBB to 0xFFBF is used to store data of the non-volatile register. For details, refer to “CHAPTER
28 NON-VOLATILE REGISTER (NVR) INTERFACE” in “New 8FX MB95710M/770M Series Hardware Manual”
• Vector table area (Addresses: 0xFFC0 to 0xFFFF)
• This area is used as the vector table for vector call instructions (CALLV), interrupts, and resets.
• The top of the Flash memory area is allocated to the vector table area. The start address of a service routine is set
to an address in the vector table in the form of data.
“Interrupt Source Table” lists the vector table addresses corresponding to vector call instructions, interrupts, and resets.
For details, refer to “CHAPTER 4 RESET”, “CHAPTER 5 INTERRUPTS”, and “A.2 Special Instruction ■ Special Instruction ● CALLV #vct” in “APPENDIX” in “New 8FX MB95710M/770M Series Hardware Manual”.
• Direct bank pointer and access area
Direct bank pointer (DP[2:0])
Operand-specified dir
Access area
0bXXX (It does not affect mapping.)
0x0000 to 0x007F
0x0000 to 0x007F
0b000 (Initial value)
0x0090 to 0x00FF
0x0090 to 0x00FF
0b001
0x0100 to 0x017F
0b010
0x0180 to 0x01FF
0b011
0x0200 to 0x027F
0b100
0x0080 to 0x00FF
0x0280 to 0x02FF*
0b101
0x0300 to 0x037F
0b110
0x0380 to 0x03FF
0b111
0x0400 to 0x047F
*: Due to the memory size limit, the available access area is up to “0x028F” in MB95F714J/F714M/F774J/
F774M.
Document Number: 002-09307 Rev. *D
Page 38 of 172
MB95710M Series
MB95770M Series
16. I/O Map (MB95710M Series)
Address
Register
abbreviation
0x0000
PDR0
0x0001
Register name
R/W
Initial value
Port 0 data register
R/W
0b00000000
DDR0
Port 0 direction register
R/W
0b00000000
0x0002
PDR1
Port 1 data register
R/W
0b00000000
0x0003
DDR1
Port 1 direction register
R/W
0b00000000
0x0004
—
—
—
0x0005
WATR
Oscillation stabilization wait time setting register
R/W
0b11111111
0x0006
PLLC
PLL control register
R/W
0b000X0000
0x0007
SYCC
System clock control register
R/W
0bXXX11011
0x0008
STBC
Standby control register
R/W
0b00000000
0x0009
RSRR
Reset source register
R/W
0b000XXXXX
0x000A
TBTC
Time-base timer control register
R/W
0b00000000
0x000B
WPCR
Watch prescaler control register
R/W
0b00000000
0x000C
WDTC
Watchdog timer control register
R/W
0b00XX0000
0x000D
SYCC2
System clock control register 2
R/W
0bXXXX0011
0x000E
PDR2
Port 2 data register
R/W
0b00000000
0x000F
DDR2
Port 2 direction register
R/W
0b00000000
0x0010,
0x0011
—
—
—
0x0012
PDR4
Port 4 data register
R/W
0b00000000
0x0013
DDR4
Port 4 direction register
R/W
0b00000000
0x0014
PDR5
Port 5 data register
R/W
0b00000000
0x0015
DDR5
Port 5 direction register
R/W
0b00000000
0x0016
PDR6
Port 6 data register
R/W
0b00000000
0x0017
DDR6
Port 6 direction register
R/W
0b00000000
0x0018
to
0x001B
—
—
—
0x001C
PDR9
Port 9 data register
R/W
0b00000000
0x001D
DDR9
Port 9 direction register
R/W
0b00000000
0x001E
PDRA
Port A data register
R/W
0b00000000
0x001F
DDRA
Port A direction register
R/W
0b00000000
0x0020
PDRB
Port B data register
R/W
0b00000000
0x0021
DDRB
Port B direction register
R/W
0b00000000
0x0022
PDRC
Port C data register
R/W
0b00000000
0x0023
DDRC
Port C direction register
R/W
0b00000000
0x0024,
0x0025
—
—
—
(Disabled)
(Disabled)
(Disabled)
Document Number: 002-09307 Rev. *D
(Disabled)
Page 39 of 172
MB95710M Series
MB95770M Series
Address
Register
abbreviation
0x0026
PDRE
0x0027
Register name
R/W
Initial value
Port E data register
R/W
0b00000000
DDRE
Port E direction register
R/W
0b00000000
0x0028
PDRF
Port F data register
R/W
0b00000000
0x0029
DDRF
Port F direction register
R/W
0b00000000
0x002A
PDRG
Port G data register
R/W
0b00000000
0x002B
DDRG
Port G direction register
R/W
0b00000000
0x002C
—
—
—
0x002D
PUL1
Port 1 pull-up register
R/W
0b00000000
0x002E
PUL2
Port 2 pull-up register
R/W
0b00000000
0x002F,
0x0030
—
—
—
0x0031
PUL5
R/W
0b00000000
0x0032
to
0x0034
—
—
—
0x0035
PULG
Port G pull-up register
R/W
0b00000000
0x0036
T01CR1
8/16-bit composite timer 01 status control register 1
R/W
0b00000000
0x0037
T00CR1
8/16-bit composite timer 00 status control register 1
R/W
0b00000000
0x0038
T11CR1
8/16-bit composite timer 11 status control register 1
R/W
0b00000000
0x0039
T10CR1
8/16-bit composite timer 10 status control register 1
R/W
0b00000000
0x003A
PC01
8/16-bit PPG timer 01 control register
R/W
0b00000000
0x003B
PC00
8/16-bit PPG timer 00 control register
R/W
0b00000000
0x003C
PC11
8/16-bit PPG timer 11 control register
R/W
0b00000000
0x003D
PC10
8/16-bit PPG timer 10 control register
R/W
0b00000000
0x003E
TMCSRH0
16-bit reload timer control status register (upper) ch. 0
R/W
0b00000000
0x003F
TMCSRL0
16-bit reload timer control status register (lower) ch. 0
R/W
0b00000000
0x0040
to
0x0047
—
—
—
0x0048
EIC00
External interrupt circuit control register ch. 0/ch. 1
R/W
0b00000000
0x0049
EIC10
External interrupt circuit control register ch. 2/ch. 3
R/W
0b00000000
0x004A
EIC20
External interrupt circuit control register ch. 4/ch. 5
R/W
0b00000000
0x004B
EIC30
External interrupt circuit control register ch. 6/ch. 7
R/W
0b00000000
0x004C,
0x004D
—
—
—
0x004E
LVDC
LVD control register
R/W
0b00000100
0x004F
LCDCC2
LCDC control register 2
R/W
0b00010100
0x0050
CMR0
Comparator control register ch. 0
R/W
0b00000001
(Disabled)
(Disabled)
Port 5 pull-up register
(Disabled)
(Disabled)
(Disabled)
Document Number: 002-09307 Rev. *D
Page 40 of 172
MB95710M Series
MB95770M Series
Address
Register
abbreviation
Register name
R/W
Initial value
0x0051
to
0x0055
—
(Disabled)
—
—
0x0056
SMC10
UART/SIO serial mode control register 1 ch. 0
R/W
0b00000000
0x0057
SMC20
UART/SIO serial mode control register 2 ch. 0
R/W
0b00100000
0x0058
SSR0
UART/SIO serial status and data register ch. 0
R/W
0b00000001
0x0059
TDR0
UART/SIO serial output data register ch. 0
R/W
0b00000000
0x005A
RDR0
UART/SIO serial input data register ch. 0
R
0b00000000
0x005B
SMC11
UART/SIO serial mode control register 1 ch. 1
R/W
0b00000000
0x005C
SMC21
UART/SIO serial mode control register 2 ch. 1
R/W
0b00100000
0x005D
SSR1
UART/SIO serial status and data register ch. 1
R/W
0b00000001
0x005E
TDR1
UART/SIO serial output data register ch. 1
R/W
0b00000000
0x005F
RDR1
UART/SIO serial input data register ch. 1
R
0b00000000
0x0060
IBCR00
I2C bus control register 0 ch. 0
R/W
0b00000000
0x0061
IBCR10
I2C bus control register 1 ch. 0
R/W
0b00000000
0x0062
IBSR0
I2C bus status register ch. 0
R/W
0b00000000
0x0063
IDDR0
I2C data register ch. 0
R/W
0b00000000
0x0064
IAAR0
I2C address register ch. 0
R/W
0b00000000
0x0065
ICCR0
I2C clock control register ch. 0
R/W
0b00000000
0x0066
SMC12
UART/SIO serial mode control register 1 ch. 2
R/W
0b00000000
0x0067
SMC22
UART/SIO serial mode control register 2 ch. 2
R/W
0b00100000
0x0068
SSR2
UART/SIO serial status and data register ch. 2
R/W
0b00000001
0x0069
TDR2
UART/SIO serial output data register ch. 2
R/W
0b00000000
0x006A
RDR2
UART/SIO serial input data register ch. 2
R
0b00000000
0x006B
ADC3
8/12-bit A/D converter control register 3
R/W
0b01111100
0x006C
ADC1
8/12-bit A/D converter control register 1
R/W
0b00000000
0x006D
ADC2
8/12-bit A/D converter control register 2
R/W
0b00000000
0x006E
ADDH
8/12-bit A/D converter data register (upper)
R/W
0b00000000
0x006F
ADDL
8/12-bit A/D converter data register (lower)
R/W
0b00000000
0x0070
WCSR
Watch counter control register
R/W
0b00000000
0x0071
FSR2
Flash memory status register 2
R/W
0b00000000
0x0072
FSR
Flash memory status register
R/W
0b000X0000
0x0073
SWRE0
Flash memory sector write control register 0
R/W
0b00000000
0x0074
FSR3
Flash memory status register 3
R
0b000XXXXX
0x0075
FSR4
Flash memory status register 4
R/W
0b00000000
0x0076
WREN
Wild register address compare enable register
R/W
0b00000000
0x0077
WROR
Wild register data test setting register
R/W
0b00000000
Document Number: 002-09307 Rev. *D
Page 41 of 172
MB95710M Series
MB95770M Series
Address
Register
abbreviation
0x0078
—
0x0079
ILR0
0x007A
Register name
R/W
Initial value
—
—
Interrupt level setting register 0
R/W
0b11111111
ILR1
Interrupt level setting register 1
R/W
0b11111111
0x007B
ILR2
Interrupt level setting register 2
R/W
0b11111111
0x007C
ILR3
Interrupt level setting register 3
R/W
0b11111111
0x007D
ILR4
Interrupt level setting register 4
R/W
0b11111111
0x007E
ILR5
Interrupt level setting register 5
R/W
0b11111111
0x007F
—
—
—
0x0F80
WRARH0
Wild register address setting register (upper) ch. 0
R/W
0b00000000
0x0F81
WRARL0
Wild register address setting register (lower) ch. 0
R/W
0b00000000
0x0F82
WRDR0
Wild register data setting register ch. 0
R/W
0b00000000
0x0F83
WRARH1
Wild register address setting register (upper) ch. 1
R/W
0b00000000
0x0F84
WRARL1
Wild register address setting register (lower) ch. 1
R/W
0b00000000
0x0F85
WRDR1
Wild register data setting register ch. 1
R/W
0b00000000
0x0F86
WRARH2
Wild register address setting register (upper) ch. 2
R/W
0b00000000
0x0F87
WRARL2
Wild register address setting register (lower) ch. 2
R/W
0b00000000
0x0F88
WRDR2
Wild register data setting register ch. 2
R/W
0b00000000
0x0F89
to
0x0F91
—
—
—
0x0F92
T01CR0
8/16-bit composite timer 01 status control register 0
R/W
0b00000000
0x0F93
T00CR0
8/16-bit composite timer 00 status control register 0
R/W
0b00000000
0x0F94
T01DR
8/16-bit composite timer 01 data register
R/W
0b00000000
0x0F95
T00DR
8/16-bit composite timer 00 data register
R/W
0b00000000
0x0F96
TMCR0
8/16-bit composite timer 00/01 timer mode control
register
R/W
0b00000000
0x0F97
T11CR0
8/16-bit composite timer 11 status control register 0
R/W
0b00000000
0x0F98
T10CR0
8/16-bit composite timer 10 status control register 0
R/W
0b00000000
0x0F99
T11DR
8/16-bit composite timer 11 data register
R/W
0b00000000
0x0F9A
T10DR
8/16-bit composite timer 10 data register
R/W
0b00000000
0x0F9B
TMCR1
8/16-bit composite timer 10/11 timer mode control
register
R/W
0b00000000
0x0F9C
PPS01
8/16-bit PPG01 cycle setting buffer register
R/W
0b11111111
0x0F9D
PPS00
8/16-bit PPG00 cycle setting buffer register
R/W
0b11111111
0x0F9E
PDS01
8/16-bit PPG01 duty setting buffer register
R/W
0b11111111
0x0F9F
PDS00
8/16-bit PPG00 duty setting buffer register
R/W
0b11111111
0x0FA0
PPS11
8/16-bit PPG11 cycle setting buffer register
R/W
0b11111111
Mirror of register bank pointer (RP) and direct bank
pointer (DP)
(Disabled)
(Disabled)
Document Number: 002-09307 Rev. *D
Page 42 of 172
MB95710M Series
MB95770M Series
Address
Register
abbreviation
0x0FA1
PPS10
0x0FA2
R/W
Initial value
8/16-bit PPG10 cycle setting buffer register
R/W
0b11111111
PDS11
8/16-bit PPG11 duty setting buffer register
R/W
0b11111111
0x0FA3
PDS10
8/16-bit PPG10 duty setting buffer register
R/W
0b11111111
0x0FA4
PPGS
8/16-bit PPG start register
R/W
0b00000000
0x0FA5
REVC
8/16-bit PPG output inversion register
R/W
0b00000000
R/W
0b00000000
R/W
0b00000000
0x0FA6
0x0FA7
Register name
TMRH0
16-bit reload timer timer register (upper) ch. 0
TMRLRH0
16-bit reload timer reload register (upper) ch. 0
TMRL0
16-bit reload timer timer register (lower) ch. 0
TMRLRL0
16-bit reload timer reload register (lower) ch. 0
0x0FA8
PSSR0
UART/SIO dedicated baud rate generator prescaler
select register ch. 0
R/W
0b00000000
0x0FA9
BRSR0
UART/SIO dedicated baud rate generator baud rate
setting register ch. 0
R/W
0b00000000
0x0FAA
PSSR1
UART/SIO dedicated baud rate generator prescaler
select register ch. 1
R/W
0b00000000
0x0FAB
BRSR1
UART/SIO dedicated baud rate generator baud rate
setting register ch. 1
R/W
0b00000000
0x0FAC
PSSR2
UART/SIO dedicated baud rate generator prescaler
select register ch. 2
R/W
0b00000000
0x0FAD
BRSR2
UART/SIO dedicated baud rate generator baud rate
setting register ch. 2
R/W
0b00000000
0x0FAE
—
—
—
0x0FAF
AIDRL
A/D input disable register (lower)
R/W
0b00000000
0x0FB0
LCDCC1
LCDC control register 1
R/W
0b00000000
0x0FB1
—
—
—
0x0FB2
LCDCE1
LCDC enable register 1
R/W
0b00111110
0x0FB3
LCDCE2
LCDC enable register 2
R/W
0b00000000
0x0FB4
LCDCE3
LCDC enable register 3
R/W
0b00000000
0x0FB5
LCDCE4
LCDC enable register 4
R/W
0b00000000
0x0FB6
LCDCE5
LCDC enable register 5
R/W
0b00000000
0x0FB7
LCDCE6
LCDC enable register 6
R/W
0b00000000
0x0FB8
LCDCE7
LCDC enable register 7
R/W
0b00000000
0x0FB9
LCDCB1
LCDC blinking setting register 1
R/W
0b00000000
0x0FBA
LCDCB2
LCDC blinking setting register 2
R/W
0b00000000
0x0FBB,
0x0FBC
—
—
—
0x0FBD
to
0x0FE0
LCDRAM
R/W
0b00000000
(Disabled)
(Disabled)
(Disabled)
LCDC display RAM (36 bytes)
Document Number: 002-09307 Rev. *D
Page 43 of 172
MB95710M Series
MB95770M Series
Address
Register
abbreviation
Register name
R/W
Initial value
0x0FE1
—
(Disabled)
—
—
0x0FE2
EVCR
Event counter control register
R/W
0b00000000
0x0FE3
WCDR
Watch counter data register
R/W
0b00111111
0x0FE4
CRTH
Main CR clock trimming register (upper)
R/W
0b000XXXXX
0x0FE5
CRTL
Main CR clock trimming register (lower)
R/W
0b000XXXXX
0x0FE6
SYSC2
System configuration register 2
R/W
0b00000000
0x0FE7
CRTDA
Main CR clock temperature dependent adjustment
register
R/W
0b000XXXXX
0x0FE8
SYSC
System configuration register
R/W
0b00111111
0x0FE9
CMCR
Clock monitoring control register
R/W
0b00000000
0x0FEA
CMDR
Clock monitoring data register
R
0b00000000
0x0FEB
WDTH
Watchdog timer selection ID register (upper)
R
0bXXXXXXXX
0x0FEC
WDTL
Watchdog timer selection ID register (lower)
R
0bXXXXXXXX
0x0FED,
0x0FEE
—
—
—
0x0FEF
WICR
R/W
0b01000000
0x0FF0
to
0x0FFF
—
—
—
(Disabled)
Interrupt pin selection circuit control register
(Disabled)
• R/W access symbols
R/W : Readable/Writable
R
: Read only
• Initial value symbols
0
: The initial value of this bit is “0”.
1
: The initial value of this bit is “1”.
X
: The initial value of this bit is undefined.
Note: Do not write to an address that is “(Disabled)”. If a “(Disabled)” address is read, an indeterminate value is returned.
Document Number: 002-09307 Rev. *D
Page 44 of 172
MB95710M Series
MB95770M Series
17. I/O Map (MB95770M Series)
Address
Register
abbreviation
0x0000
PDR0
0x0001
Register name
R/W
Initial value
Port 0 data register
R/W
0b00000000
DDR0
Port 0 direction register
R/W
0b00000000
0x0002
PDR1
Port 1 data register
R/W
0b00000000
0x0003
DDR1
Port 1 direction register
R/W
0b00000000
0x0004
—
—
—
0x0005
WATR
Oscillation stabilization wait time setting register
R/W
0b11111111
0x0006
PLLC
PLL control register
R/W
0b000X0000
0x0007
SYCC
System clock control register
R/W
0bXXX11011
0x0008
STBC
Standby control register
R/W
0b00000000
0x0009
RSRR
Reset source register
R/W
0b000XXXXX
0x000A
TBTC
Time-base timer control register
R/W
0b00000000
0x000B
WPCR
Watch prescaler control register
R/W
0b00000000
0x000C
WDTC
Watchdog timer control register
R/W
0b00XX0000
0x000D
SYCC2
System clock control register 2
R/W
0bXXXX0011
0x000E
PDR2
Port 2 data register
R/W
0b00000000
0x000F
DDR2
Port 2 direction register
R/W
0b00000000
0x0010
to
0x0015
—
—
—
0x0016
PDR6
Port 6 data register
R/W
0b00000000
0x0017
DDR6
Port 6 direction register
R/W
0b00000000
0x0018
to
0x001B
—
—
—
0x001C
PDR9
Port 9 data register
R/W
0b00000000
0x001D
DDR9
Port 9 direction register
R/W
0b00000000
0x001E
PDRA
Port A data register
R/W
0b00000000
0x001F
DDRA
Port A direction register
R/W
0b00000000
0x0020
PDRB
Port B data register
R/W
0b00000000
0x0021
DDRB
Port B direction register
R/W
0b00000000
0x0022
PDRC
Port C data register
R/W
0b00000000
0x0023
DDRC
Port C direction register
R/W
0b00000000
0x0024,
0x0025
—
—
—
0x0026
PDRE
Port E data register
R/W
0b00000000
0x0027
DDRE
Port E direction register
R/W
0b00000000
0x0028
PDRF
Port F data register
R/W
0b00000000
(Disabled)
(Disabled)
(Disabled)
(Disabled)
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MB95710M Series
MB95770M Series
Address
Register
abbreviation
0x0029
DDRF
0x002A
Register name
R/W
Initial value
Port F direction register
R/W
0b00000000
PDRG
Port G data register
R/W
0b00000000
0x002B
DDRG
Port G direction register
R/W
0b00000000
0x002C
—
—
—
0x002D
PUL1
Port 1 pull-up register
R/W
0b00000000
0x002E
PUL2
Port 2 pull-up register
R/W
0b00000000
0x002F
to
0x0034
—
—
—
0x0035
PULG
Port G pull-up register
R/W
0b00000000
0x0036
T01CR1
8/16-bit composite timer 01 status control register 1
R/W
0b00000000
0x0037
T00CR1
8/16-bit composite timer 00 status control register 1
R/W
0b00000000
0x0038
T11CR1
8/16-bit composite timer 11 status control register 1
R/W
0b00000000
0x0039
T10CR1
8/16-bit composite timer 10 status control register 1
R/W
0b00000000
0x003A
PC01
8/16-bit PPG timer 01 control register
R/W
0b00000000
0x003B
PC00
8/16-bit PPG timer 00 control register
R/W
0b00000000
0x003C
PC11
8/16-bit PPG timer 11 control register
R/W
0b00000000
0x003D
PC10
8/16-bit PPG timer 10 control register
R/W
0b00000000
0x003E
TMCSRH0
16-bit reload timer control status register (upper) ch. 0
R/W
0b00000000
0x003F
TMCSRL0
16-bit reload timer control status register (lower) ch. 0
R/W
0b00000000
0x0040
to
0x0047
—
—
—
0x0048
EIC00
External interrupt circuit control register ch. 0/ch. 1
R/W
0b00000000
0x0049
EIC10
External interrupt circuit control register ch. 2/ch. 3
R/W
0b00000000
0x004A
EIC20
External interrupt circuit control register ch. 4/ch. 5
R/W
0b00000000
0x004B
EIC30
External interrupt circuit control register ch. 6/ch. 7
R/W
0b00000000
0x004C,
0x004D
—
—
—
0x004E
LVDC
LVD control register
R/W
0b00000100
0x004F
LCDCC2
LCDC control register 2
R/W
0b00010100
0x0050
CMR0
Comparator control register ch. 0
R/W
0b00000001
0x0051
to
0x0055
—
—
—
0x0056
SMC10
UART/SIO serial mode control register 1 ch. 0
R/W
0b00000000
0x0057
SMC20
UART/SIO serial mode control register 2 ch. 0
R/W
0b00100000
0x0058
SSR0
UART/SIO serial status and data register ch. 0
R/W
0b00000001
0x0059
TDR0
UART/SIO serial output data register ch. 0
R/W
0b00000000
(Disabled)
(Disabled)
(Disabled)
(Disabled)
(Disabled)
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MB95710M Series
MB95770M Series
Address
Register
abbreviation
0x005A
RDR0
UART/SIO serial input data register ch. 0
0x005B
SMC11
0x005C
Register name
R/W
Initial value
R
0b00000000
UART/SIO serial mode control register 1 ch. 1
R/W
0b00000000
SMC21
UART/SIO serial mode control register 2 ch. 1
R/W
0b00100000
0x005D
SSR1
UART/SIO serial status and data register ch. 1
R/W
0b00000001
0x005E
TDR1
UART/SIO serial output data register ch. 1
R/W
0b00000000
0x005F
RDR1
UART/SIO serial input data register ch. 1
R
0b00000000
0x0060
IBCR00
I2C bus control register 0 ch. 0
R/W
0b00000000
0x0061
IBCR10
I2C bus control register 1 ch. 0
R/W
0b00000000
0x0062
IBSR0
I2C bus status register ch. 0
R/W
0b00000000
0x0063
IDDR0
I2C data register ch. 0
R/W
0b00000000
0x0064
IAAR0
I2C address register ch. 0
R/W
0b00000000
0x0065
ICCR0
I2C clock control register ch. 0
R/W
0b00000000
0x0066
SMC12
UART/SIO serial mode control register 1 ch. 2
R/W
0b00000000
0x0067
SMC22
UART/SIO serial mode control register 2 ch. 2
R/W
0b00100000
0x0068
SSR2
UART/SIO serial status and data register ch. 2
R/W
0b00000001
0x0069
TDR2
UART/SIO serial output data register ch. 2
R/W
0b00000000
0x006A
RDR2
UART/SIO serial input data register ch. 2
R
0b00000000
0x006B
ADC3
8/12-bit A/D converter control register 3
R/W
0b01111100
0x006C
ADC1
8/12-bit A/D converter control register 1
R/W
0b00000000
0x006D
ADC2
8/12-bit A/D converter control register 2
R/W
0b00000000
0x006E
ADDH
8/12-bit A/D converter data register (upper)
R/W
0b00000000
0x006F
ADDL
8/12-bit A/D converter data register (lower)
R/W
0b00000000
0x0070
WCSR
Watch counter control register
R/W
0b00000000
0x0071
FSR2
Flash memory status register 2
R/W
0b00000000
0x0072
FSR
Flash memory status register
R/W
0b000X0000
0x0073
SWRE0
Flash memory sector write control register 0
R/W
0b00000000
0x0074
FSR3
Flash memory status register 3
R
0b000XXXXX
0x0075
FSR4
Flash memory status register 4
R/W
0b00000000
0x0076
WREN
Wild register address compare enable register
R/W
0b00000000
0x0077
WROR
Wild register data test setting register
R/W
0b00000000
0x0078
—
—
—
0x0079
ILR0
Interrupt level setting register 0
R/W
0b11111111
0x007A
ILR1
Interrupt level setting register 1
R/W
0b11111111
0x007B
ILR2
Interrupt level setting register 2
R/W
0b11111111
0x007C
ILR3
Interrupt level setting register 3
R/W
0b11111111
0x007D
ILR4
Interrupt level setting register 4
R/W
0b11111111
Mirror of register bank pointer (RP) and direct bank
pointer (DP)
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MB95710M Series
MB95770M Series
Address
Register
abbreviation
0x007E
ILR5
0x007F
—
0x0F80
WRARH0
0x0F81
R/W
Initial value
R/W
0b11111111
—
—
Wild register address setting register (upper) ch. 0
R/W
0b00000000
WRARL0
Wild register address setting register (lower) ch. 0
R/W
0b00000000
0x0F82
WRDR0
Wild register data setting register ch. 0
R/W
0b00000000
0x0F83
WRARH1
Wild register address setting register (upper) ch. 1
R/W
0b00000000
0x0F84
WRARL1
Wild register address setting register (lower) ch. 1
R/W
0b00000000
0x0F85
WRDR1
Wild register data setting register ch. 1
R/W
0b00000000
0x0F86
WRARH2
Wild register address setting register (upper) ch. 2
R/W
0b00000000
0x0F87
WRARL2
Wild register address setting register (lower) ch. 2
R/W
0b00000000
0x0F88
WRDR2
Wild register data setting register ch. 2
R/W
0b00000000
0x0F89
to
0x0F91
—
—
—
0x0F92
T01CR0
8/16-bit composite timer 01 status control register 0
R/W
0b00000000
0x0F93
T00CR0
8/16-bit composite timer 00 status control register 0
R/W
0b00000000
0x0F94
T01DR
8/16-bit composite timer 01 data register
R/W
0b00000000
0x0F95
T00DR
8/16-bit composite timer 00 data register
R/W
0b00000000
0x0F96
TMCR0
8/16-bit composite timer 00/01 timer mode control
register
R/W
0b00000000
0x0F97
T11CR0
8/16-bit composite timer 11 status control register 0
R/W
0b00000000
0x0F98
T10CR0
8/16-bit composite timer 10 status control register 0
R/W
0b00000000
0x0F99
T11DR
8/16-bit composite timer 11 data register
R/W
0b00000000
0x0F9A
T10DR
8/16-bit composite timer 10 data register
R/W
0b00000000
0x0F9B
TMCR1
8/16-bit composite timer 10/11 timer mode control
register
R/W
0b00000000
0x0F9C
PPS01
8/16-bit PPG01 cycle setting buffer register
R/W
0b11111111
0x0F9D
PPS00
8/16-bit PPG00 cycle setting buffer register
R/W
0b11111111
0x0F9E
PDS01
8/16-bit PPG01 duty setting buffer register
R/W
0b11111111
0x0F9F
PDS00
8/16-bit PPG00 duty setting buffer register
R/W
0b11111111
0x0FA0
PPS11
8/16-bit PPG11 cycle setting buffer register
R/W
0b11111111
0x0FA1
PPS10
8/16-bit PPG10 cycle setting buffer register
R/W
0b11111111
0x0FA2
PDS11
8/16-bit PPG11 duty setting buffer register
R/W
0b11111111
0x0FA3
PDS10
8/16-bit PPG10 duty setting buffer register
R/W
0b11111111
0x0FA4
PPGS
8/16-bit PPG start register
R/W
0b00000000
0x0FA5
REVC
8/16-bit PPG output inversion register
R/W
0b00000000
R/W
0b00000000
0x0FA6
Register name
Interrupt level setting register 5
(Disabled)
(Disabled)
TMRH0
16-bit reload timer timer register (upper) ch. 0
TMRLRH0
16-bit reload timer reload register (upper) ch. 0
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MB95710M Series
MB95770M Series
Address
0x0FA7
Register
abbreviation
Register name
TMRL0
16-bit reload timer timer register (lower) ch. 0
TMRLRL0
16-bit reload timer reload register (lower) ch. 0
R/W
Initial value
R/W
0b00000000
0x0FA8
PSSR0
UART/SIO dedicated baud rate generator prescaler
select register ch. 0
R/W
0b00000000
0x0FA9
BRSR0
UART/SIO dedicated baud rate generator baud rate
setting register ch. 0
R/W
0b00000000
0x0FAA
PSSR1
UART/SIO dedicated baud rate generator prescaler
select register ch. 1
R/W
0b00000000
0x0FAB
BRSR1
UART/SIO dedicated baud rate generator baud rate
setting register ch. 1
R/W
0b00000000
0x0FAC
PSSR2
UART/SIO dedicated baud rate generator prescaler
select register ch. 2
R/W
0b00000000
0x0FAD
BRSR2
UART/SIO dedicated baud rate generator baud rate
setting register ch. 2
R/W
0b00000000
0x0FAE
—
—
—
0x0FAF
AIDRL
A/D input disable register (lower)
R/W
0b00000000
0x0FB0
LCDCC1
LCDC control register 1
R/W
0b00000000
0x0FB1
—
—
—
0x0FB2
LCDCE1
LCDC enable register 1
R/W
0b00111110
0x0FB3
LCDCE2
LCDC enable register 2
R/W
0b00000000
0x0FB4
LCDCE3
LCDC enable register 3
R/W
0b00000000
0x0FB5
LCDCE4
LCDC enable register 4
R/W
0b00000000
0x0FB6
LCDCE5
LCDC enable register 5
R/W
0b00000000
0x0FB7
LCDCE6
LCDC enable register 6
R/W
0b00000000
0x0FB8
—
—
—
0x0FB9
LCDCB1
LCDC blinking setting register 1
R/W
0b00000000
0x0FBA
LCDCB2
LCDC blinking setting register 2
R/W
0b00000000
0x0FBB,
0x0FBC
—
—
—
0x0FBD
to
0x0FD8
LCDRAM
R/W
0b00000000
0x0FD9
to
0x0FE1
—
—
—
0x0FE2
EVCR
Event counter control register
R/W
0b00000000
0x0FE3
WCDR
Watch counter data register
R/W
0b00111111
0x0FE4
CRTH
Main CR clock trimming register (upper)
R/W
0b000XXXXX
0x0FE5
CRTL
Main CR clock trimming register (lower)
R/W
0b000XXXXX
0x0FE6
SYSC2
System configuration register 2
R/W
0b00000000
(Disabled)
(Disabled)
(Disabled)
(Disabled)
LCDC display RAM (28 bytes)
(Disabled)
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MB95710M Series
MB95770M Series
Address
Register
abbreviation
0x0FE7
CRTDA
0x0FE8
Register name
R/W
Initial value
Main CR clock temperature dependent adjustment
register
R/W
0b000XXXXX
SYSC
System configuration register
R/W
0b00111111
0x0FE9
CMCR
Clock monitoring control register
R/W
0b00000000
0x0FEA
CMDR
Clock monitoring data register
R
0b00000000
0x0FEB
WDTH
Watchdog timer selection ID register (upper)
R
0bXXXXXXXX
0x0FEC
WDTL
Watchdog timer selection ID register (lower)
R
0bXXXXXXXX
0x0FED,
0x0FEE
—
—
—
0x0FEF
WICR
R/W
0b01000000
0x0FF0
to
0x0FFF
—
—
—
(Disabled)
Interrupt pin selection circuit control register
(Disabled)
• R/W access symbols
R/W : Readable/Writable
R
: Read only
• Initial value symbols
0
: The initial value of this bit is “0”.
1
: The initial value of this bit is “1”.
X
: The initial value of this bit is undefined.
Note: Do not write to an address that is “(Disabled)”. If a “(Disabled)” address is read, an indeterminate value is returned.
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MB95710M Series
MB95770M Series
18. I/O Ports (MB95710M Series)
• List of port registers
Register name
Read/Write
Initial value
Port 0 data register
PDR0
R, RM/W
0b00000000
Port 0 direction register
DDR0
R/W
0b00000000
Port 1 data register
PDR1
R, RM/W
0b00000000
Port 1 direction register
DDR1
R/W
0b00000000
Port 2 data register
PDR2
R, RM/W
0b00000000
Port 2 direction register
DDR2
R/W
0b00000000
Port 4 data register
PDR4
R, RM/W
0b00000000
Port 4 direction register
DDR4
R/W
0b00000000
Port 5 data register
PDR5
R, RM/W
0b00000000
Port 5 direction register
DDR5
R/W
0b00000000
Port 6 data register
PDR6
R, RM/W
0b00000000
Port 6 direction register
DDR6
R/W
0b00000000
Port 9 data register
PDR9
R, RM/W
0b00000000
Port 9 direction register
DDR9
R/W
0b00000000
Port A data register
PDRA
R, RM/W
0b00000000
Port A direction register
DDRA
R/W
0b00000000
Port B data register
PDRB
R, RM/W
0b00000000
Port B direction register
DDRB
R/W
0b00000000
Port C data register
PDRC
R, RM/W
0b00000000
Port C direction register
DDRC
R/W
0b00000000
Port E data register
PDRE
R, RM/W
0b00000000
Port E direction register
DDRE
R/W
0b00000000
Port F data register
PDRF
R, RM/W
0b00000000
Port F direction register
DDRF
R/W
0b00000000
Port G data register
PDRG
R, RM/W
0b00000000
Port G direction register
DDRG
R/W
0b00000000
Port 1 pull-up register
PUL0
R/W
0b00000000
Port 2 pull-up register
PUL1
R/W
0b00000000
Port 5 pull-up register
PUL5
R/W
0b00000000
Port G pull-up register
PULG
R/W
0b00000000
A/D input disable register (lower)
AIDRL
R/W
0b00000000
R/W
: Readable/writable (The read value is the same as the write value.)
R, RM/W : Readable/writable (The read value is different from the write value. The write value is read by the readmodify-write (RMW) type of instruction.)
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MB95710M Series
MB95770M Series
18.1 Port 0
Port 0 is a general-purpose I/O port. This section focuses on its functions as a general-purpose I/O port. For details of
peripheral functions, refer to their respective chapters in “New 8FX MB95710M/770M Series Hardware Manual”.
18.1.1 Port 0 configuration
Port 0 is made up of the following elements.
• General-purpose I/O pins/peripheral function I/O pins
• Port 0 data register (PDR0)
• Port 0 direction register (DDR0)
• A/D input disable register (lower) (AIDRL)
18.1.2 Block diagrams of port 0
• P00/INT00/AN00/UO2 pin
This pin has the following peripheral functions:
• External interrupt input pin (INT00)
• 8/12-bit A/D converter analog input pin (AN00)
• UART/SIO ch. 2 data output pin (UO2)
• P02/INT02/AN02/SEG35/UCK2 pin
This pin has the following peripheral functions:
• External interrupt input pin (INT02)
• 8/12-bit A/D converter analog input pin (AN02)
• LCDC SEG35 output pin (SEG35)
• UART/SIO ch. 2 clock I/O pin (UCK2)
• P03/INT03/AN03/SEG34/UO1 pin
This pin has the following peripheral functions:
• External interrupt input pin (INT03)
• 8/12-bit A/D converter analog input pin (AN03)
• LCDC SEG34 output pin (SEG34)
• UART/SIO ch. 1 data output pin (UO1)
• P05/INT05/AN05/SEG32/UCK1 pin
This pin has the following peripheral functions:
• External interrupt input pin (INT05)
• 8/12-bit A/D converter analog input pin (AN05)
• LCDC SEG32 output pin (SEG32)
• UART/SIO ch. 1 clock I/O pin (UCK1)
• P06/INT06/AN06/SEG31 pin
This pin has the following peripheral functions:
• External interrupt input pin (INT06)
• 8/12-bit A/D converter analog input pin (AN06)
• LCDC SEG31 output pin (SEG31)
• P07/INT07/AN07/SEG30 pin
This pin has the following peripheral functions:
• External interrupt input pin (INT07)
• 8/12-bit A/D converter analog input pin (AN07)
• LCDC SEG30 output pin (SEG30)
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MB95710M Series
MB95770M Series
• Block diagram of P00/INT00/AN00/UO2, P02/INT02/AN02/SEG35/UCK2, P03/INT03/AN03/SEG34/UO1,
P05/INT05/AN05/SEG32/UCK1, P06/INT06/AN06/SEG31 and P07/INT07/AN07/SEG30
LCD output
Peripheral function input
Peripheral function input enable
(INT00, INT02, INT03, INT05, INT06 and INT07)
A/D analog input
Peripheral function output enable
Peripheral function output
LCD output enable
0
1
PDR0 read
1
PDR0
0
Pin
PDR0 write
Internal bus
Executing bit manipulation instruction
DDR0 read
DDR0
DDR0 write
Stop mode, watch mode (SPL = 1)
AIDRL read
AIDRL
AIDRL write
• P01/INT01/AN01/SEG36/UI2 pin
This pin has the following peripheral functions:
• External interrupt input pin (INT01)
• 8/12-bit A/D converter analog input pin (AN01)
• LCDC SEG36 output pin (SEG36)
• UART/SIO ch. 2 data input pin (UI2)
• P04/INT04/AN04/SEG33/UI1 pin
This pin has the following peripheral functions:
• External interrupt input pin (INT04)
• 8/12-bit A/D converter analog input pin (AN04)
• LCDC SEG33 output pin (SEG33)
• UART/SIO ch. 1 data input pin (UI1)
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MB95710M Series
MB95770M Series
• Block diagram of P01/INT01/AN01/SEG36/UI2 and P04/INT04/AN04/SEG33/UI1
LCD output
Peripheral function input
A/D analog input
Peripheral function input enable
(INT01 and INT04)
LCD output enable
Peripheral function output enable
Peripheral function output
0
1
CMOS
PDR0 read
1
PDR0
Pin
0
PDR0 write
Internal bus
Executing bit manipulation instruction
DDR0 read
DDR0
DDR0 write
Stop mode, watch mode (SPL = 1)
AIDRL read
AIDRL
AIDRL write
18.1.3 Port 0 registers
• Port 0 register functions
Register
abbreviation
PDR0
DDR0
AIDRL
Data
Read
Read by read-modify-write
(RMW) instruction
Write
0
Pin state is “L” level.
PDR0 value is “0”.
As output port, outputs “L” level.
1
Pin state is “H” level.
PDR0 value is “1”.
As output port, outputs “H” level.
0
Port input enabled
1
Port output enabled
0
Analog input enabled
1
Port input enabled
• Correspondence between registers and pins for port 0
Correspondence between related register bits and pins
Pin name
P07
P06
P05
P04
P03
P02
P01
P00
bit7
bit6
bit5
bit4
bit3
bit2
bit1
bit0
PDR0
DDR0
AIDRL
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MB95710M Series
MB95770M Series
18.1.4 Port 0 operations
• Operation as an output port
• A pin becomes an output port if the bit in the DDR0 register corresponding to that pin is set to “1”.
• For a pin shared with other peripheral functions, disable the output of such peripheral functions.
• When a pin is used as an output port, it outputs the value of the PDR0 register to external pins.
• If data is written to the PDR0 register, the value is stored in the output latch and is output to the pin set as an output
port as it is.
• Reading the PDR0 register returns the PDR0 register value.
• To use a pin shared with the LCDC as an output port, set a corresponding function select bit in the LCDC enable
register 6 (LCDCE6:SEG[31:30]) or in the LCDC enable register 7 (LCDCE7:SEG[36:32]) to “0” to select the general-purpose I/O port function, and then set the port input control bit in the LCDC enable register 1 (LCDCE1:PICTL) to “1”.
• Operation as an input port
• A pin becomes an input port if the bit in the DDR0 register corresponding to that pin is set to “0”.
• For a pin shared with other peripheral functions, disable the output of such peripheral functions.
• When using an analog input shared pin as an input port, set the corresponding bit in the A/D input disable register
(lower) (AIDRL) to “1”.
• If data is written to the PDR0 register, the value is stored in the output latch but is not output to the pin set as an
input port.
• Reading the PDR0 register returns the pin value. However, if the read-modify-write (RMW) type of instruction is
used to read the PDR0 register, the PDR0 register value is returned.
• To use a pin shared with the LCDC as an input port, set a corresponding function select bit in the LCDC enable
register 6 (LCDCE6:SEG[31:30]) or in the LCDC enable register 7 (LCDCE7:SEG[36:32]) to “0” to select the general-purpose I/O port function, and then set the PICTL bit in the LCDCE1 register to “1”.
• Operation as a peripheral function output pin
• A pin becomes a peripheral function output pin if the peripheral output function is enabled by setting the output
enable bit of a peripheral function corresponding to that pin.
• The pin value can be read from the PDR0 register even if the peripheral function output is enabled. Therefore, the
output value of a peripheral function can be read by the read operation on the PDR0 register. However, if the readmodify-write (RMW) type of instruction is used to read the PDR0 register, the PDR0 register value is returned.
• Operation as a peripheral function input pin
• To set a pin as an input port, set the bit in the DDR0 register corresponding to the input pin of a peripheral function
to “0”.
• When using the analog input shared pin as another peripheral function input pin, configure it as an input port, which
is the same as the operation as an input port.
• Reading the PDR0 register returns the pin value, regardless of whether the peripheral function uses that pin as its
input pin. However, if the read-modify-write (RMW) type of instruction is used to read the PDR0 register, the PDR0
register value is returned.
• Operation as an LCDC segment output pin
• Set the bit in the DDR0 register corresponding to an LCDC segment output pin to “0”.
• To use a pin shared with a general-purpose I/O port as an LCDC segment output pin, set a corresponding function
select bit in the LCDC enable register 6 (LCDCE6:SEG[31:30]) or in the LCDC enable register 7 (LCDCE7:SEG[36:32]) to “1” to select the LCDC segment output function, and then set the PICTL bit in the LCDCE1
register to “1”.
• Operation at reset
If the CPU is reset, all bits in the DDR0 register are initialized to “0” and port input is enabled. As for a pin shared with
analog input, its port input is disabled because the AIDRL register is initialized to “0”.
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• Operation in stop mode and watch mode
• If the pin state setting bit in the standby control register (STBC:SPL) is set to “1” and the device transits to stop
mode or watch mode, the pin is compulsorily made to enter the high impedance state regardless of the DDR0 register value. The input of that pin is locked to “L” level and blocked in order to prevent leaks due to input open. However, if the interrupt input is enabled for the external interrupt (INT00 to INT07), the input is enabled and not
blocked.
• If the pin state setting bit is “0”, the state of the port I/O or that of the peripheral function I/O remains unchanged
and the output level is maintained.
• Operation as an analog input pin
• Set the bit in the DDR0 register bit corresponding to the analog input pin to “0” and the bit corresponding to that pin
in the AIDRL register to “0”.
• For a pin shared with other peripheral functions, disable the output of such peripheral functions.
• Operation as an external interrupt input pin
• Set the bit in the DDR0 register corresponding to the external interrupt input pin to “0”.
• For a pin shared with other peripheral functions, disable the output of such peripheral functions.
• The pin value is always input to the external interrupt circuit. When using a pin for a function other than the interrupt,
disable the external interrupt function corresponding to that pin.
18.2 Port 1
Port 1 is a general-purpose I/O port. This section focuses on its functions as a general-purpose I/O port. For details of
peripheral functions, refer to their respective chapters in “New 8FX MB95710M/770M Series Hardware Manual”.
18.2.1 Port 1 configuration
Port 1 is made up of the following elements.
• General-purpose I/O pins/peripheral function I/O pins
• Port 1 data register (PDR1)
• Port 1 direction register (DDR1)
• Port 1 pull-up register (PUL1)
18.2.2 Block diagrams of port 1
• P10/UI0 pin
This pin has the following peripheral function:
• UART/SIO ch. 0 data input pin (UI0)
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• Block diagram of P10/UI0
Peripheral function input
Peripheral function input enable
CMOS
0
Pull-up
1
PDR1 read
Pin
PDR1
PDR1 write
Internal bus
Executing bit manipulation instruction
DDR1 read
DDR1
DDR1 write
Stop mode, watch mode (SPL = 1)
PUL1 read
PUL1
PUL1 write
• P12/DBG pin
This pin has the following peripheral function:
• DBG input pin (DBG)
• Block diagram of P12/DBG
Hysteresis
0
1
PDR1 read
Internal bus
PDR1
Pin
OD
PDR1 write
Executing bit manipulation instruction
DDR1 read
DDR1
DDR1 write
Stop mode, watch mode (SPL = 1)
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• P11/UO0 pin
This pin has the following peripheral function:
• UART/SIO ch. 0 data output pin (UO0)
• P13/ADTG pin
This pin has the following peripheral function:
• 8/12-bit A/D converter trigger input pin (ADTG)
• P14/UCK0 pin
This pin has the following peripheral function:
• UART/SIO ch. 0 clock I/O pin (UCK0)
• P17/CMP0_O pin
This pin has the following peripheral function:
• Comparator ch. 0 digital output pin (CMP0_O)
• Block diagram of P11/UO0, P13/ADTG, P14/UCK0 and P17/CMP0_O
Peripheral function input
Peripheral function input enable
Peripheral function output enable
Peripheral function output
Pull-up
0
1
PDR1 read
1
PDR1
0
Pin
PDR1 write
Internal bus
Executing bit manipulation instruction
DDR1 read
DDR1
DDR1 write
Stop mode, watch mode (SPL = 1)
PUL1 read
PUL1
PUL1 write
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• P15/PPG11 pin
This pin has the following peripheral function:
• 8/16-bit PPG ch. 1 output pin (PPG11)
• P16/PPG10 pin
This pin has the following peripheral function:
• 8/16-bit PPG ch. 1 output pin (PPG10)
• Block diagram of P15/PPG11 and P16/PPG10
Peripheral function output enable
Peripheral function output
0
1
PDR1 read
1
Internal bus
PDR1
Pin
0
PDR1 write
Executing bit manipulation instruction
DDR1 read
DDR1
DDR1 write
Stop mode, watch mode (SPL = 1)
18.2.3 Port 1 registers
• Port 1 register functions
Register
abbreviation
PDR1
DDR1
PUL1
Data
Read
Read by read-modify-write
(RMW) instruction
Write
0
Pin state is “L” level.
PDR1 value is “0”.
As output port, outputs “L” level.
1
Pin state is “H” level.
PDR1 value is “1”.
As output port, outputs “H” level.*
0
Port input enabled
1
Port output enabled
0
Pull-up disabled
1
Pull-up enabled
*: If the pin is an N-ch open drain pin, the pin state becomes Hi-Z.
• Correspondence between registers and pins for port 1
Correspondence between related register bits and pins
Pin name
P17
PDR1
DDR1
PUL1
bit7
P16
P15
bit6
bit5
-
-
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P14
P13
bit4
bit3
P12
bit2
P11
P10
bit1
bit0
-
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18.2.4 Port 1 operations
• Operation as an output port
• A pin becomes an output port if the bit in the DDR1 register corresponding to that pin is set to “1”.
• For a pin shared with other peripheral functions, disable the output of such peripheral functions.
• When a pin is used as an output port, it outputs the value of the PDR1 register to external pins.
• If data is written to the PDR1 register, the value is stored in the output latch and is output to the pin set as an output
port as it is.
• Reading the PDR1 register returns the PDR1 register value.
• Operation as an input port
• A pin becomes an input port if the bit in the DDR1 register corresponding to that pin is set to “0”.
• For a pin shared with other peripheral functions, disable the output of such peripheral functions.
• If data is written to the PDR1 register, the value is stored in the output latch but is not output to the pin set as an
input port.
• Reading the PDR1 register returns the pin value. However, if the read-modify-write (RMW) type of instruction is
used to read the PDR1 register, the PDR1 register value is returned.
• Operation as a peripheral function output pin
• A pin becomes a peripheral function output pin if the peripheral output function is enabled by setting the output
enable bit of a peripheral function corresponding to that pin.
• The pin value can be read from the PDR1 register even if the peripheral function output is enabled. Therefore, the
output value of a peripheral function can be read by the read operation on the PDR1 register. However, if the readmodify-write (RMW) type of instruction is used to read the PDR1 register, the PDR1 register value is returned.
• Operation as a peripheral function input pin
• To set a pin as an input port, set the bit in the DDR1 register corresponding to the input pin of a peripheral function
to “0”.
• Reading the PDR1 register returns the pin value, regardless of whether the peripheral function uses that pin as its
input pin. However, if the read-modify-write (RMW) type of instruction is used to read the PDR1 register, the PDR1
register value is returned.
• Operation at reset
If the CPU is reset, all bits in the DDR1 register are initialized to “0” and port input is enabled.
• Operation in stop mode and watch mode
• If the pin state setting bit in the standby control register (STBC:SPL) is set to “1” and the device transits to stop
mode or watch mode, the pin is compulsorily made to enter the high impedance state regardless of the DDR1 register value. The input of that pin is locked to “L” level and blocked in order to prevent leaks due to input open. However, if the interrupt input of P10/UI0 and P14/UCK0 is enabled by the external interrupt control register ch. 0
(EIC00) of the external interrupt circuit and the interrupt pin selection circuit control register (WICR) of the interrupt
pin selection circuit, the input is enabled and is not blocked.
• If the pin state setting bit is “0”, the state of the port I/O or that of the peripheral function I/O remains unchanged
and the output level is maintained.
• Operation of the pull-up register
Setting the bit in the PUL1 register to “1” makes the pull-up resistor be internally connected to the pin. When the pin
output is “L” level, the pull-up resistor is disconnected regardless of the value of the PUL1 register.
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18.3 Port 2
Port 2 is a general-purpose I/O port. This section focuses on its functions as a general-purpose I/O port. For details of
peripheral functions, refer to their respective chapters in “New 8FX MB95710M/770M Series Hardware Manual”.
18.3.1 Port 2 configuration
Port 2 is made up of the following elements.
• General-purpose I/O pins/peripheral function I/O pins
• Port 2 data register (PDR2)
• Port 2 direction register (DDR2)
• Port 2 pull-up register (PUL2)
18.3.2 Block diagrams of port 2
• P20/PPG00/CMP0_N pin
This pin has the following peripheral functions:
• 8/16-bit PPG ch. 0 output pin (PPG00)
• Comparator ch. 0 inverting analog input (negative input) pin (CMP0_N)
• P21/PPG01/CMP0_P pin
This pin has the following peripheral functions:
• 8/16-bit PPG ch. 0 output pin (PPG01)
• Comparator ch. 0 non-inverting analog input (positive input) pin (CMP0_P)
• Block diagram of P20/PPG00/CMP0_N and P21/PPG01/CMP0_P
Analog input
Peripheral function output enable
Peripheral function output
Analog input enable
Pull-up
0
1
PDR2 read
1
PDR2
0
Pin
PDR2 write
Internal bus
Executing bit manipulation instruction
DDR2 read
DDR2
DDR2 write
Stop mode, watch mode (SPL = 1)
PUL2 read
PUL2
PUL2 write
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• P22/SCL pin
This pin has the following peripheral function:
• I2C bus interface ch. 0 clock I/O pin (SCL)
• P23/SDA pin
This pin has the following peripheral function:
• I2C bus interface ch. 0 data I/O pin (SDA)
• Block diagram of P22/SCL and P23/SDA
Peripheral function input
Peripheral function input enable
Peripheral function output enable
Peripheral function output
CMOS
0
1
PDR2 read
Internal bus
Pin
1
PDR2
OD
0
PDR2 write
Executing bit manipulation instruction
DDR2 read
DDR2
DDR2 write
Stop mode, watch mode (SPL = 1)
18.3.3 Port 2 registers
• Port 2 register functions
Register
abbreviation
PDR2
DDR2
PUL2
Data
Read
Read by read-modify-write
(RMW) instruction
Write
0
Pin state is “L” level.
PDR2 value is “0”.
As output port, outputs “L” level.
1
Pin state is “H” level.
PDR2 value is “1”.
As output port, outputs “H” level.*
0
Port input enabled
1
Port output enabled
0
Pull-up disabled
1
Pull-up enabled
*: If the pin is an N-ch open drain pin, the pin state becomes Hi-Z.
• Correspondence between registers and pins for port 2
Correspondence between related register bits and pins
Pin name
-
-
-
-
-
-
-
-
PDR2
DDR2
PUL2
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P23
P22
bit3
bit2
-
-
P21
P20
bit1
bit0
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18.3.4 Port 2 operations
• Operation as an output port
• A pin becomes an output port if the bit in the DDR2 register corresponding to that pin is set to “1”.
• For a pin shared with other peripheral functions, disable the output of such peripheral functions.
• When a pin is used as an output port, it outputs the value of the PDR2 register to external pins.
• If data is written to the PDR2 register, the value is stored in the output latch and is output to the pin set as an output
port as it is.
• Reading the PDR2 register returns the PDR2 register value.
• Operation as an input port
• A pin becomes an input port if the bit in the DDR2 register corresponding to that pin is set to “0”.
• For a pin shared with other peripheral functions, disable the output of such peripheral functions.
• If data is written to the PDR2 register, the value is stored in the output latch but is not output to the pin set as an
input port.
• Reading the PDR2 register returns the pin value. However, if the read-modify-write (RMW) type of instruction is
used to read the PDR2 register, the PDR2 register value is returned.
• Operation as a peripheral function output pin
• A pin becomes a peripheral function output pin if the peripheral output function is enabled by setting the output
enable bit of a peripheral function corresponding to that pin.
• The pin value can be read from the PDR2 register even if the peripheral function output is enabled. Therefore, the
output value of a peripheral function can be read by the read operation on the PDR2 register. However, if the readmodify-write (RMW) type of instruction is used to read the PDR2 register, the PDR2 register value is returned.
• Operation as a peripheral function input pin
• To set a pin as an input port, set the bit in the DDR2 register corresponding to the input pin of a peripheral function
to “0”.
• Reading the PDR2 register returns the pin value, regardless of whether the peripheral function uses that pin as its
input pin. However, if the read-modify-write (RMW) type of instruction is used to read the PDR2 register, the PDR2
register value is returned.
• Operation at reset
If the CPU is reset, all bits in the DDR2 register are initialized to “0” and port input is enabled.
• Operation in stop mode and watch mode
• If the pin state setting bit in the standby control register (STBC:SPL) is set to “1” and the device transits to stop
mode or watch mode, the pin is compulsorily made to enter the high impedance state regardless of the DDR2 register value. The input of that pin is locked to “L” level and blocked in order to prevent leaks due to input open.
• If the pin state setting bit is “0”, the state of the port I/O or that of the peripheral function I/O remains unchanged
and the output level is maintained.
• Operation of the pull-up register
Setting the bit in the PUL2 register to “1” makes the pull-up resistor be internally connected to the pin. When the pin
output is “L” level, the pull-up resistor is disconnected regardless of the value of the PUL2 register.
• Operation as a comparator input pin
• Regardless of the value of the PDR2 register and that of the DDR2 register, if the comparator analog input enable
bit in the comparator control register ch. 0 (CMR0:VCID) is set to “0”, the comparator input function is enabled.
• To disable the comparator input function, set the VCID bit to “1”.
• For details of the comparator, refer to “CHAPTER 29 COMPARATOR” in “New 8FX MB95710M/770M Series Hardware Manual”.
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18.4 Port 4
Port 4 is a general-purpose I/O port. This section focuses on its functions as a general-purpose I/O port. For details of
peripheral functions, refer to their respective chapters in “New 8FX MB95710M/770M Series Hardware Manual”.
18.4.1 Port 4 configuration
Port 4 is made up of the following elements.
• General-purpose I/O pins/peripheral function I/O pins
• Port 4 data register (PDR4)
• Port 4 direction register (DDR4)
18.4.2 Block diagrams of port 4
• P40/SEG21 pin
This pin has the following peripheral function:
• LCDC SEG21 output pin (SEG21)
• P41/SEG20 pin
This pin has the following peripheral function:
• LCDC SEG20 output pin (SEG20)
• P42/SEG19 pin
This pin has the following peripheral function:
• LCDC SEG19 output pin (SEG19)
• P43/SEG18 pin
This pin has the following peripheral function:
• LCDC SEG18 output pin (SEG18)
• Block diagram of P40/SEG21, P41/SEG20, P42/SEG19 and P43/SEG18
LCD output
LCD output enable
0
1
PDR4 read
Internal bus
PDR4
Pin
PDR4 write
Executing bit manipulation instruction
DDR4 read
DDR4
DDR4 write
Stop mode, watch mode (SPL = 1)
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18.4.3 Port 4 registers
• Port 4 register functions
Register
abbreviation
PDR4
DDR4
Data
Read
Read by read-modify-write
(RMW) instruction
Write
0
Pin state is “L” level.
PDR4 value is “0”.
As output port, outputs “L” level.
1
Pin state is “H” level.
PDR4 value is “1”.
As output port, outputs “H” level.
0
Port input enabled
1
Port output enabled
• Correspondence between registers and pins for port 4
Correspondence between related register bits and pins
Pin name
PDR4
DDR4
-
-
-
-
P43
P42
P41
P40
-
-
-
-
bit3
bit2
bit1
bit0
18.4.4 Port 4 operations
• Operation as an output port
• A pin becomes an output port if the bit in the DDR4 register corresponding to that pin is set to “1”.
• For a pin shared with other peripheral functions, disable the output of such peripheral functions.
• When a pin is used as an output port, it outputs the value of the PDR4 register to external pins.
• If data is written to the PDR4 register, the value is stored in the output latch and is output to the pin set as an output
port as it is.
• Reading the PDR4 register returns the PDR4 register value.
• To use a pin shared with the LCDC as an output port, set a corresponding function select bit in the LCDC enable
register 5 (LCDCE5:SEG[21:18]) to “0” to select the general-purpose I/O port function, and then set the port input
control bit in the LCDC enable register 1 (LCDCE1:PICTL) to “1”.
• Operation as an input port
• A pin becomes an input port if the bit in the DDR4 register corresponding to that pin is set to “0”.
• For a pin shared with other peripheral functions, disable the output of such peripheral functions.
• If data is written to the PDR4 register, the value is stored in the output latch but is not output to the pin set as an
input port.
• Reading the PDR4 register returns the pin value. However, if the read-modify-write (RMW) type of instruction is
used to read the PDR4 register, the PDR4 register value is returned.
• To use a pin shared with the LCDC as an input port, set a corresponding function select bit in the LCDC enable
register 5 (LCDCE5:SEG[21:18]) to “0” to select the general-purpose I/O port function, and then set the PICTL bit
in the LCDCE1 register to “1”.
• Operation as an LCDC segment output pin
• Set the bit in the DDR4 register corresponding to an LCDC segment output pin to “0”.
• To use a pin shared with a general-purpose I/O port as an LCDC segment output pin, set a corresponding function
select bit in the LCDC enable register 5 (LCDCE5:SEG[21:18]) to “1” to select the LCDC segment output function,
and then set the PICTL bit in the LCDCE1 register to “1”.
• Operation at reset
If the CPU is reset, all bits in the DDR4 register are initialized to “0” and port input is enabled.
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• Operation in stop mode and watch mode
• If the pin state setting bit in the standby control register (STBC:SPL) is set to “1” and the device transits to stop
mode or watch mode, the pin is compulsorily made to enter the high impedance state regardless of the DDR4 register value. The input of that pin is locked to “L” level and blocked in order to prevent leaks due to input open.
• If the pin state setting bit is “0”, the state of the port I/O or that of the peripheral function I/O remains unchanged
and the output level is maintained.
18.5 Port 5
Port 5 is a general-purpose I/O port. This section focuses on its functions as a general-purpose I/O port. For details of
peripheral functions, refer to their respective chapters in “New 8FX MB95710M/770M Series Hardware Manual”.
18.5.1 Port 5 configuration
Port 5 is made up of the following elements.
• General-purpose I/O pins/peripheral function I/O pins
• Port 5 data register (PDR5)
• Port 5 direction register (DDR5)
• Port 5 pull-up register (PUL5)
18.5.2 Block diagrams of port 5
• P50/TO01 pin
This pin has the following peripheral function:
• 8/16-bit composite timer ch. 0 output pin (TO01)
• P51/EC0 pin
This pin has the following peripheral function:
• 8/16-bit composite timer ch. 0 clock input pin (EC0)
• P52/TI0/TO00 pin
This pin has the following peripheral functions:
• 16-bit reload timer ch. 0 input pin (TI0)
• 8/16-bit composite timer ch. 0 output pin (TO00)
• P53/TO0 pin
This pin has the following peripheral function:
• 16-bit reload timer ch. 0 output pin (TO0)
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• Block diagram of P50/TO01, P51/EC0, P52/TI0/TO00 and P53/TO0
Peripheral function input
Peripheral function input enable
Peripheral function output enable
Peripheral function output
Pull-up
0
1
PDR5 read
1
PDR5
Pin
0
PDR5 write
Internal bus
Executing bit manipulation instruction
DDR5 read
DDR5
DDR5 write
Stop mode, watch mode (SPL = 1)
PUL5 read
PUL5
PUL5 write
18.5.3 Port 5 registers
• Port 5 register functions
Register
abbreviation
PDR5
DDR5
PUL5
Data
Read
Read by read-modify-write
(RMW) instruction
Write
0
Pin state is “L” level.
PDR5 value is “0”.
As output port, outputs “L” level.
1
Pin state is “H” level.
PDR5 value is “1”.
As output port, outputs “H” level.
0
Port input enabled
1
Port output enabled
0
Pull-up disabled
1
Pull-up enabled
• Correspondence between registers and pins for port 5
Correspondence between related register bits and pins
Pin name
-
-
-
-
P53
P52
P51
P50
-
-
-
-
bit3
bit2
bit1
bit0
PDR5
DDR5
PUL5
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18.5.4 Port 5 operations
• Operation as an output port
• A pin becomes an output port if the bit in the DDR5 register corresponding to that pin is set to “1”.
• For a pin shared with other peripheral functions, disable the output of such peripheral functions.
• When a pin is used as an output port, it outputs the value of the PDR5 register to external pins.
• If data is written to the PDR5 register, the value is stored in the output latch and is output to the pin set as an output
port as it is.
• Reading the PDR5 register returns the PDR5 register value.
• Operation as an input port
• A pin becomes an input port if the bit in the DDR5 register corresponding to that pin is set to “0”.
• For a pin shared with other peripheral functions, disable the output of such peripheral functions.
• If data is written to the PDR5 register, the value is stored in the output latch but is not output to the pin set as an
input port.
• Reading the PDR5 register returns the pin value. However, if the read-modify-write (RMW) type of instruction is
used to read the PDR5 register, the PDR5 register value is returned.
• Operation as a peripheral function output pin
• A pin becomes a peripheral function output pin if the peripheral output function is enabled by setting the output
enable bit of a peripheral function corresponding to that pin.
• The pin value can be read from the PDR5 register even if the peripheral function output is enabled. Therefore, the
output value of a peripheral function can be read by the read operation on the PDR5 register. However, if the readmodify-write (RMW) type of instruction is used to read the PDR5 register, the PDR5 register value is returned.
• Operation as a peripheral function input pin
• To set a pin as an input port, set the bit in the DDR5 register corresponding to the input pin of a peripheral function
to “0”.
• Reading the PDR5 register returns the pin value, regardless of whether the peripheral function uses that pin as its
input pin. However, if the read-modify-write (RMW) type of instruction is used to read the PDR5 register, the PDR5
register value is returned.
• Operation at reset
If the CPU is reset, all bits in the DDR5 register are initialized to “0” and port input is enabled.
• Operation in stop mode and watch mode
• If the pin state setting bit in the standby control register (STBC:SPL) is set to “1” and the device transits to stop
mode or watch mode, the pin is compulsorily made to enter the high impedance state regardless of the DDR5 register value. The input of that pin is locked to “L” level and blocked in order to prevent leaks due to input open.
• If the pin state setting bit is “0”, the state of the port I/O or that of the peripheral function I/O remains unchanged
and the output level is maintained.
• Operation of the pull-up register
Setting the bit in the PUL5 register to “1” makes the pull-up resistor be internally connected to the pin. When the pin
output is “L” level, the pull-up resistor is disconnected regardless of the value of the PUL5 register.
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18.6 Port 6
Port 6 is a general-purpose I/O port. This section focuses on its functions as a general-purpose I/O port. For details of
peripheral functions, refer to their respective chapters in “New 8FX MB95710M/770M Series Hardware Manual”.
18.6.1 Port 6 configuration
Port 6 is made up of the following elements.
• General-purpose I/O pins/peripheral function I/O pins
• Port 6 data register (PDR6)
• Port 6 direction register (DDR6)
18.6.2 Block diagrams of port 6
• P60/SEG10 pin
This pin has the following peripheral function:
• LCDC SEG10 output pin (SEG10)
• P61/SEG11 pin
This pin has the following peripheral function:
• LCDC SEG11 output pin (SEG11)
• P62/SEG12 pin
This pin has the following peripheral function:
• LCDC SEG12 output pin (SEG12)
• P63/SEG13 pin
This pin has the following peripheral function:
• LCDC SEG13 output pin (SEG13)
• P64/SEG14 pin
This pin has the following peripheral function:
• LCDC SEG14 output pin (SEG14)
• P65/SEG15 pin
This pin has the following peripheral function:
• LCDC SEG15 output pin (SEG15)
• P66/SEG16 pin
This pin has the following peripheral function:
• LCDC SEG16 output pin (SEG16)
• P67/SEG17 pin
This pin has the following peripheral function:
• LCDC SEG17 output pin (SEG17)
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• Block diagram of P60/SEG10, P61/SEG11, P62/SEG12, P63/SEG13, P64/SEG14, P65/SEG15, P66/SEG16 and
P67/SEG17
LCD output
LCD output enable
0
1
PDR6 read
Pin
Internal bus
PDR6
PDR6 write
Executing bit manipulation instruction
DDR6 read
DDR6
DDR6 write
Stop mode, watch mode (SPL = 1)
18.6.3 Port 6 registers
• Port 6 register functions
Register
abbreviation
PDR6
DDR6
Data
Read
Read by read-modify-write
(RMW) instruction
Write
0
Pin state is “L” level.
PDR6 value is “0”.
As output port, outputs “L” level.
1
Pin state is “H” level.
PDR6 value is “1”.
As output port, outputs “H” level.
0
Port input enabled
1
Port output enabled
• Correspondence between registers and pins for port 6
Correspondence between related register bits and pins
Pin name
PDR6
DDR6
P67
P66
P65
P64
P63
P62
P61
P60
bit7
bit6
bit5
bit4
bit3
bit2
bit1
bit0
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18.6.4 Port 6 operations
• Operation as an output port
• A pin becomes an output port if the bit in the DDR6 register corresponding to that pin is set to “1”.
• For a pin shared with other peripheral functions, disable the output of such peripheral functions.
• When a pin is used as an output port, it outputs the value of the PDR6 register to external pins.
• If data is written to the PDR6 register, the value is stored in the output latch and is output to the pin set as an output
port as it is.
• Reading the PDR6 register returns the PDR6 register value.
• To use a pin shared with the LCDC as an output port, set a corresponding function select bit in the LCDC enable
register 4 (LCDCE4:SEG[15:10]) or in the LCDC enable register 5 (LCDCE5:SEG[17:16]) to “0” to select the general-purpose I/O port function, and then set the port input control bit in the LCDC enable register 1 (LCDCE1:PICTL) to “1”.
• Operation as an input port
• A pin becomes an input port if the bit in the DDR6 register corresponding to that pin is set to “0”.
• For a pin shared with other peripheral functions, disable the output of such peripheral functions.
• If data is written to the PDR6 register, the value is stored in the output latch but is not output to the pin set as an
input port.
• Reading the PDR6 register returns the pin value. However, if the read-modify-write (RMW) type of instruction is
used to read the PDR6 register, the PDR6 register value is returned.
• To use a pin shared with the LCDC as an input port, set a corresponding function select bit in the LCDC enable
register 4 (LCDCE4:SEG[15:10]) or in the LCDC enable register 5 (LCDCE5:SEG[17:16]) to “0” to select the general-purpose I/O port function, and then set the PICTL bit in the LCDCE1 register to “1”.
• Operation as an LCDC segment output pin
• Set the bit in the DDR6 register corresponding to an LCDC segment output pin to “0”.
• To use a pin shared with a general-purpose I/O port as an LCDC segment output pin, set a corresponding function
select bit in the LCDC enable register 4 (LCDCE4:SEG[15:10]) or in the LCDC enable register 5 (LCDCE5:SEG[17:16]) to “1” to select the LCDC segment output function, and then set the PICTL bit in the LCDCE1
register to “1”.
• Operation at reset
If the CPU is reset, all bits in the DDR6 register are initialized to “0” and port input is enabled.
• Operation in stop mode and watch mode
• If the pin state setting bit in the standby control register (STBC:SPL) is set to “1” and the device transits to stop
mode or watch mode, the pin is compulsorily made to enter the high impedance state regardless of the DDR6 register value. The input of that pin is locked to “L” level and blocked in order to prevent leaks due to input open.
• If the pin state setting bit is “0”, the state of the port I/O or that of the peripheral function I/O remains unchanged
and the output level is maintained.
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18.7 Port 9
Port 9 is a general-purpose I/O port. This section focuses on its functions as a general-purpose I/O port. For details of
peripheral functions, refer to their respective chapters in “New 8FX MB95710M/770M Series Hardware Manual”.
18.7.1 Port 9 configuration
Port 9 is made up of the following elements.
• General-purpose I/O pins/peripheral function I/O pins
• Port 9 data register (PDR9)
• Port 9 direction register (DDR9)
18.7.2 Block diagrams of port 9
• P90/V4 pin
This pin has the following peripheral function:
• LCD drive power supply pin (V4)
• P91/V3 pin
This pin has the following peripheral function:
• LCD drive power supply pin (V3)
• P92/V2 pin
This pin has the following peripheral function:
• LCD drive power supply pin (V2)
• P93/V1 pin
This pin has the following peripheral function:
• LCD drive power supply pin (V1)
• P94/V0 pin
This pin has the following peripheral function:
• LCD drive power supply pin (V0)
• Block diagram of P90/V4, P91/V3, P92/V2, P93/V1 and P94/V0
LCD power supply
LCD power supply enable
0
1
PDR9 read
Internal bus
PDR9
Pin
PDR9 write
Executing bit manipulation instruction
DDR9 read
DDR9
DDR9 write
Stop mode, watch mode (SPL = 1)
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18.7.3 Port 9 registers
• Port 9 register functions
Register
abbreviation
PDR9
DDR9
Data
Read
Read by read-modify-write
(RMW) instruction
Write
0
Pin state is “L” level.
PDR9 value is “0”.
As output port, outputs “L” level.
1
Pin state is “H” level.
PDR9 value is “1”.
As output port, outputs “H” level.
0
Port input enabled
1
Port output enabled
• Correspondence between registers and pins for port 9
Correspondence between related register bits and pins
Pin name
PDR9
DDR9
-
-
-
P94
P93
P92
P91
P90
-
-
-
bit4
bit3
bit2
bit1
bit0
18.7.4 Port 9 operations
• Operation as an output port
• A pin becomes an output port if the bit in the DDR9 register corresponding to that pin is set to “1”.
• When a pin is used as an output port, it outputs the value of the PDR9 register to external pins.
• If data is written to the PDR9 register, the value is stored in the output latch and is output to the pin set as an output
port as it is.
• Reading the PDR9 register returns the PDR9 register value.
• To use a pin shared with the LCDC as an output port, set the bit corresponding to that pin in the VE[4:0] bits in the
LCDC enable register 1 (LCDCE1) to “0” to select the general-purpose I/O port function.
• Operation as an input port
• A pin becomes an input port if the bit in the DDR9 register corresponding to that pin is set to “0”.
• If data is written to the PDR9 register, the value is stored in the output latch but is not output to the pin set as an
input port.
• Reading the PDR9 register returns the pin value. However, if the read-modify-write (RMW) type of instruction is
used to read the PDR9 register, the PDR9 register value is returned.
• To use a pin shared with the LCDC as an input port, set the bit corresponding to that pin in the VE[4:0] bits in the
LCDCE1 register to “0” to select the general-purpose I/O port function.
• Operation at reset
If the CPU is reset, all bits in the DDR9 register are initialized to “0” and port input is enabled.
• Operation in stop mode and watch mode
• If the pin state setting bit in the standby control register (STBC:SPL) is set to “1” and the device transits to stop
mode or watch mode, the pin is compulsorily made to enter the high impedance state regardless of the DDR9 register value. The input of that pin is locked to “L” level and blocked in order to prevent leaks due to input open.
• If the pin state setting bit is “0”, the state of the port I/O or that of the peripheral function I/O remains unchanged
and the output level is maintained.
• Operation as an LCD drive power supply pin
• Set the bit in the DDR9 register corresponding to an LCD drive power supply pin to “0”.
• To use a pin shared with a general-purpose I/O port as an LCD drive power supply pin, set the bit corresponding
to that pin in the VE[4:0] bits in the LCDCE1 register to “1” to select the LCD drive power supply function.
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18.8 Port A
Port A is a general-purpose I/O port. This section focuses on its functions as a general-purpose I/O port. For details of
peripheral functions, refer to their respective chapters in “New 8FX MB95710M/770M Series Hardware Manual”.
18.8.1 Port A configuration
Port A is made up of the following elements.
• General-purpose I/O pins/peripheral function I/O pins
• Port A data register (PDRA)
• Port A direction register (DDRA)
18.8.2 Block diagrams of port A
• PA0/COM0 pin
This pin has the following peripheral function:
• LCDC COM0 output pin (COM0)
• PA1/COM1 pin
This pin has the following peripheral function:
• LCDC COM1 output pin (COM1)
• PA2/COM2 pin
This pin has the following peripheral function:
• LCDC COM2 output pin (COM2)
• PA3/COM3 pin
This pin has the following peripheral function:
• LCDC COM3 output pin (COM3)
• PA4/COM4 pin
This pin has the following peripheral function:
• LCDC COM4 output pin (COM4)
• PA5/COM5 pin
This pin has the following peripheral function:
• LCDC COM5 output pin (COM5)
• PA6/COM6 pin
This pin has the following peripheral function:
• LCDC COM6 output pin (COM6)
• PA7/COM7 pin
This pin has the following peripheral function:
• LCDC COM7 output pin (COM7)
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• Block diagram of PA0/COM0, PA1/COM1, PA2/COM2, PA3/COM3, PA4/COM4, PA5/COM5, PA6/COM6 and
PA7/COM7
LCD output
LCD output enable
0
1
PDRA read
Pin
Internal bus
PDRA
PDRA write
Executing bit manipulation instruction
DDRA read
DDRA
DDRA write
Stop mode, watch mode (SPL = 1)
18.8.3 Port A registers
• Port A register functions
Register
abbreviation
PDRA
DDRA
Data
Read
Read by read-modify-write
(RMW) instruction
Write
0
Pin state is “L” level.
PDRA value is “0”.
As output port, outputs “L” level.
1
Pin state is “H” level.
PDRA value is “1”.
As output port, outputs “H” level.
0
Port input enabled
1
Port output enabled
• Correspondence between registers and pins for port A
Correspondence between related register bits and pins
Pin name
PDRA
DDRA
PA7
PA6
PA5
PA4
PA3
PA2
PA1
PA0
bit7
bit6
bit5
bit4
bit3
bit2
bit1
bit0
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18.8.4 Port A operations
• Operation as an output port
• A pin becomes an output port if the bit in the DDRA register corresponding to that pin is set to “1”.
• For a pin shared with other peripheral functions, disable the output of such peripheral functions.
• When a pin is used as an output port, it outputs the value of the PDRA register to external pins.
• If data is written to the PDRA register, the value is stored in the output latch and is output to the pin set as an output
port as it is.
• Reading the PDRA register returns the PDRA register value.
• To use a pin shared with the LCDC as an output port, set a corresponding function select bit in the LCDC enable
register 2 (LCDCE2:COM[7:0]) to “0” to select the general-purpose I/O port function, and then set the port input
control bit in the LCDC enable register 1 (LCDCE1:PICTL) to “1”.
• Operation as an input port
• A pin becomes an input port if the bit in the DDRA register corresponding to that pin is set to “0”.
• For a pin shared with other peripheral functions, disable the output of such peripheral functions.
• If data is written to the PDRA register, the value is stored in the output latch but is not output to the pin set as an
input port.
• Reading the PDRA register returns the pin value. However, if the read-modify-write (RMW) type of instruction is
used to read the PDRA register, the PDRA register value is returned.
• To use a pin shared with the LCDC as an input port, set a corresponding function select bit in the LCDC enable
register 2 (LCDCE2:COM[7:0]) to “0” to select the general-purpose I/O port function, and then set the PICTL bit in
the LCDCE1 register to “1”.
• Operation as an LCDC common output pin
• Set the bit in the DDRA register corresponding to an LCDC common output pin to “0”.
• To use a pin shared with a general-purpose I/O port as an LCDC common output pin, set a corresponding function
select bit in the LCDC enable register 2 (LCDCE2:COM[7:0]) to “1” to select the LCDC common output function,
and then set the PICTL bit in the LCDCE1 register to “1”.
• Operation at reset
If the CPU is reset, all bits in the DDRA register are initialized to “0” and port input is enabled.
• Operation in stop mode and watch mode
• If the pin state setting bit in the standby control register (STBC:SPL) is set to “1” and the device transits to stop
mode or watch mode, the pin is compulsorily made to enter the high impedance state regardless of the DDRA register value. The input of that pin is locked to “L” level and blocked in order to prevent leaks due to input open.
• If the pin state setting bit is “0”, the state of the port I/O or that of the peripheral function I/O remains unchanged
and the output level is maintained.
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18.9 Port B
Port B is a general-purpose I/O port. This section focuses on its functions as a general-purpose I/O port. For details of
peripheral functions, refer to their respective chapters in “New 8FX MB95710M/770M Series Hardware Manual”.
18.9.1 Port B configuration
Port B is made up of the following elements.
• General-purpose I/O pins/peripheral function I/O pins
• Port B data register (PDRB)
• Port B direction register (DDRB)
18.9.2 Block diagrams of port B
• PB0/SEG00 pin
This pin has the following peripheral function:
• LCDC SEG00 output pin (SEG00)
• PB1/SEG01 pin
This pin has the following peripheral function:
• LCDC SEG01 output pin (SEG01)
• PB2/SEG37 pin
This pin has the following peripheral function:
• LCDC SEG37 output pin (SEG37)
• PB3/SEG38 pin
This pin has the following peripheral function:
• LCDC SEG38 output pin (SEG38)
• PB4/SEG39 pin
This pin has the following peripheral function:
• LCDC SEG39 output pin (SEG39)
• Block diagram of PB0/SEG00, PB1/SEG01, PB2/SEG37, PB3/SEG38 and PB4/SEG39
LCD output
LCD output enable
0
1
PDRB read
Internal bus
PDRB
Pin
PDRB write
Executing bit manipulation instruction
DDRB read
DDRB
DDRB write
Stop mode, watch mode (SPL = 1)
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18.9.3 Port B registers
• Port B register functions
Register
abbreviation
PDRB
DDRB
Data
Read
Read by read-modify-write
(RMW) instruction
Write
0
Pin state is “L” level.
PDRB value is “0”.
As output port, outputs “L” level.
1
Pin state is “H” level.
PDRB value is “1”.
As output port, outputs “H” level.
0
Port input enabled
1
Port output enabled
• Correspondence between registers and pins for port B
Correspondence between related register bits and pins
Pin name
PDRB
DDRB
-
-
-
PB4
PB3
PB2
PB1
PB0
-
-
-
bit4
bit3
bit2
bit1
bit0
18.9.4 Port B operations
• Operation as an output port
• A pin becomes an output port if the bit in the DDRB register corresponding to that pin is set to “1”.
• For a pin shared with other peripheral functions, disable the output of such peripheral functions.
• When a pin is used as an output port, it outputs the value of the PDRB register to external pins.
• If data is written to the PDRB register, the value is stored in the output latch and is output to the pin set as an output
port as it is.
• Reading the PDRB register returns the PDRB register value.
• To use a pin shared with the LCDC as an output port, set a corresponding function select bit in the LCDC enable
register 3 (LCDCE3:SEG[01:00]) or in the LCDC enable register 7 (LCDCE7:SEG[39:37]) to “0” to select the general-purpose I/O port function, and then set the port input control bit (PICTL) in the LCDC enable register 1 (LCDCE1) to “1”.
• Operation as an input port
• A pin becomes an input port if the bit in the DDRB register corresponding to that pin is set to “0”.
• For a pin shared with other peripheral functions, disable the output of such peripheral functions.
• If data is written to the PDRB register, the value is stored in the output latch but is not output to the pin set as an
input port.
• Reading the PDRB register returns the pin value. However, if the read-modify-write (RMW) type of instruction is
used to read the PDRB register, the PDRB register value is returned.
• To use a pin shared with the LCDC as an input port, set a corresponding function select bit in the LCDC enable
register 3 (LCDCE3:SEG[01:00]) or in the LCDC enable register 7 (LCDCE7:SEG[39:37]) to “0” to select the general-purpose I/O port function, and then set the PICTL bit in the LCDCE1 register to “1”.
• Operation as an LCDC segment output pin
• Set the bit in the DDRB register corresponding to an LCDC segment output pin to “0”.
• To use a pin shared with a general-purpose I/O port as an LCDC segment output pin, set a corresponding function
select bit in the LCDC enable register 3 (LCDCE3:SEG[01:00]) or in the LCDC enable register 7 (LCDCE7:SEG[39:37]) to “1” to select the LCDC segment output function, and then set the PICTL bit in the LCDCE1
register to “1”.
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• Operation at reset
If the CPU is reset, all bits in the DDRB register are initialized to “0” and port input is enabled.
• Operation in stop mode and watch mode
• If the pin state setting bit in the standby control register (STBC:SPL) is set to “1” and the device transits to stop
mode or watch mode, the pin is compulsorily made to enter the high impedance state regardless of the DDRB register value. The input of that pin is locked to “L” level and blocked in order to prevent leaks due to input open.
• If the pin state setting bit is “0”, the state of the port I/O or that of the peripheral function I/O remains unchanged
and the output level is maintained.
18.10 Port C
Port C is a general-purpose I/O port. This section focuses on its functions as a general-purpose I/O port. For details of
peripheral functions, refer to their respective chapters in “New 8FX MB95710M/770M Series Hardware Manual”.
18.10.1 Port C configuration
Port C is made up of the following elements.
• General-purpose I/O pins/peripheral function I/O pins
• Port C data register (PDRC)
• Port C direction register (DDRC)
18.10.2 Block diagrams of port C
• PC0/SEG02 pin
This pin has the following peripheral function:
• LCDC SEG02 output pin (SEG02)
• PC1/SEG03 pin
This pin has the following peripheral function:
• LCDC SEG03 output pin (SEG03)
• PC2/SEG04 pin
This pin has the following peripheral function:
• LCDC SEG04 output pin (SEG04)
• PC3/SEG05 pin
This pin has the following peripheral function:
• LCDC SEG05 output pin (SEG05)
• PC4/SEG06 pin
This pin has the following peripheral function:
• LCDC SEG06 output pin (SEG06)
• PC5/SEG07 pin
This pin has the following peripheral function:
• LCDC SEG07 output pin (SEG07)
• PC6/SEG08 pin
This pin has the following peripheral function:
• LCDC SEG08 output pin (SEG08)
• PC7/SEG09 pin
This pin has the following peripheral function:
• LCDC SEG09 output pin (SEG09)
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• Block diagram of PC0/SEG02, PC1/SEG03, PC2/SEG04, PC3/SEG05, PC4/SEG06, PC5/SEG07, PC6/SEG08 and
PC7/SEG09
LCD output
LCD output enable
0
1
PDRC read
Pin
Internal bus
PDRC
PDRC write
Executing bit manipulation instruction
DDRC read
DDRC
DDRC write
Stop mode, watch mode (SPL = 1)
18.10.3 Port C registers
• Port C register functions
Register
abbreviation
PDRC
DDRC
Data
Read
Read by read-modify-write
(RMW) instruction
Write
0
Pin state is “L” level.
PDRC value is “0”.
As output port, outputs “L” level.
1
Pin state is “H” level.
PDRC value is “1”.
As output port, outputs “H” level.
0
Port input enabled
1
Port output enabled
• Correspondence between registers and pins for port C
Correspondence between related register bits and pins
Pin name
PDRC
DDRC
PC7
PC6
PC5
PC4
PC3
PC2
PC1
PC0
bit7
bit6
bit5
bit4
bit3
bit2
bit1
bit0
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18.10.4 Port C operations
• Operation as an output port
• A pin becomes an output port if the bit in the DDRC register corresponding to that pin is set to “1”.
• For a pin shared with other peripheral functions, disable the output of such peripheral functions.
• When a pin is used as an output port, it outputs the value of the PDRC register to external pins.
• If data is written to the PDRC register, the value is stored in the output latch and is output to the pin set as an output
port as it is.
• Reading the PDRC register returns the PDRC register value.
• To use a pin shared with the LCDC as an output port, set a corresponding function select bit in the LCDC enable
register 3 (LCDCE3:SEG[07:02]) or in the LCDC enable register 4 (LCDCE4:SEG[09:08]) to “0” to select the general-purpose I/O port function, and then set the port input control bit in the LCDC enable register 1 (LCDCE1:PICTL) to “1”.
• Operation as an input port
• A pin becomes an input port if the bit in the DDRC register corresponding to that pin is set to “0”.
• For a pin shared with other peripheral functions, disable the output of such peripheral functions.
• If data is written to the PDRC register, the value is stored in the output latch but is not output to the pin set as an
input port.
• Reading the PDRC register returns the pin value. However, if the read-modify-write (RMW) type of instruction is
used to read the PDRC register, the PDRC register value is returned.
• To use a pin shared with the LCDC as an input port, set a corresponding function select bit in the LCDC enable
register 3 (LCDCE3:SEG[07:02]) or in the LCDC enable register 4 (LCDCE4:SEG[09:08]) to “0” to select the general-purpose I/O port function, and then set the PICTL bit in the LCDCE1 register to “1”.
• Operation as an LCDC segment output pin
• Set the bit in the DDRC register corresponding to an LCDC segment output pin to “0”.
• To use a pin shared with a general-purpose I/O port as an LCDC segment output pin, set a corresponding function
select bit in the LCDC enable register 3 (LCDCE3:SEG[07:02]) or in the LCDC enable register 4 (LCDCE4:SEG[09:08]) to “1” to select the LCDC segment output function, and then set the PICTL bit in the LCDCE1
register to “1”.
• Operation at reset
If the CPU is reset, all bits in the DDRC register are initialized to “0” and port input is enabled.
• Operation in stop mode and watch mode
• If the pin state setting bit in the standby control register (STBC:SPL) is set to “1” and the device transits to stop
mode or watch mode, the pin is compulsorily made to enter the high impedance state regardless of the DDRC register value. The input of that pin is locked to “L” level and blocked in order to prevent leaks due to input open.
• If the pin state setting bit is “0”, the state of the port I/O or that of the peripheral function I/O remains unchanged
and the output level is maintained.
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18.11 Port E
Port E is a general-purpose I/O port. This section focuses on its functions as a general-purpose I/O port. For details of
peripheral functions, refer to their respective chapters in “New 8FX MB95710M/770M Series Hardware Manual”.
18.11.1 Port E configuration
Port E is made up of the following elements.
• General-purpose I/O pins/peripheral function I/O pins
• Port E data register (PDRE)
• Port E direction register (DDRE)
18.11.2 Block diagrams of port E
• PE0/SEG22 pin
This pin has the following peripheral function:
• LCDC SEG22 output pin (SEG22)
• PE1/SEG23 pin
This pin has the following peripheral function:
• LCDC SEG23 output pin (SEG23)
• PE2/SEG24 pin
This pin has the following peripheral function:
• LCDC SEG24 output pin (SEG24)
• PE3/SEG25 pin
This pin has the following peripheral function:
• LCDC SEG25 output pin (SEG25)
• PE4/SEG26 pin
This pin has the following peripheral function:
• LCDC SEG26 output pin (SEG26)
• Block diagram of PE0/SEG22, PE1/SEG23, PE2/SEG24, PE3/SEG25 and PE4/SEG26
LCD output
LCD output enable
0
1
PDRE read
Internal bus
PDRE
Pin
PDRE write
Executing bit manipulation instruction
DDRE read
DDRE
DDRE write
Stop mode, watch mode (SPL = 1)
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• PE5/SEG27/TO11 pin
This pin has the following peripheral functions:
• LCDC SEG27 output pin (SEG27)
• 8/16-bit composite timer ch. 1 output pin (TO11)
• PE6/SEG28/TO10 pin
This pin has the following peripheral functions:
• LCDC SEG28 output pin (SEG28)
• 8/16-bit composite timer ch. 1 output pin (TO10)
• PE7/SEG29/EC1 pin
This pin has the following peripheral functions:
• LCDC SEG29 output pin (SEG29)
• 8/16-bit composite timer ch. 1 clock input pin (EC1)
• Block diagram of PE5/SEG27/TO11, PE6/SEG28/TO10 and PE7/SEG29/EC1
Peripheral function input
Peripheral function input enable
Peripheral function output enable
Peripheral function output
LCD output
LCD output enable
0
1
PDRE read
1
Internal bus
PDRE
Pin
0
PDRE write
Executing bit manipulation instruction
DDRE read
DDRE
DDRE write
Stop mode, watch mode (SPL = 1)
18.11.3 Port E registers
• Port E register functions
Register
abbreviation
PDRE
DDRE
Data
Read
Read by read-modify-write
(RMW) instruction
Write
0
Pin state is “L” level.
PDRE value is “0”.
As output port, outputs “L” level.
1
Pin state is “H” level.
PDRE value is “1”.
As output port, outputs “H” level.
0
Port input enabled
1
Port output enabled
• Correspondence between registers and pins for port E
Correspondence between related register bits and pins
Pin name
PDRE
DDRE
PE7
PE6
PE5
PE4
PE3
PE2
PE1
PE0
bit7
bit6
bit5
bit4
bit3
bit2
bit1
bit0
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18.11.4 Port E operations
• Operation as an output port
• A pin becomes an output port if the bit in the DDRE register corresponding to that pin is set to “1”.
• For a pin shared with other peripheral functions, disable the output of such peripheral functions.
• When a pin is used as an output port, it outputs the value of the PDRE register to external pins.
• If data is written to the PDRE register, the value is stored in the output latch and is output to the pin set as an output
port as it is.
• Reading the PDRE register returns the PDRE register value.
• To use a pin shared with the LCDC as an output port, set a corresponding function select bit in the LCDC enable
register 5 (LCDCE5:SEG[23:22]) or in the LCDC enable register 6 (LCDCE6:SEG[29:24]) to “0” to select the general-purpose I/O port function, and then set the port input control bit in the LCDC enable register 1 (LCDCE1:PICTL) to “1”.
• Operation as an input port
• A pin becomes an input port if the bit in the DDRE register corresponding to that pin is set to “0”.
• For a pin shared with other peripheral functions, disable the output of such peripheral functions.
• If data is written to the PDRE register, the value is stored in the output latch but is not output to the pin set as an
input port.
• Reading the PDRE register returns the pin value. However, if the read-modify-write (RMW) type of instruction is
used to read the PDRE register, the PDRE register value is returned.
• To use a pin shared with the LCDC as an input port, set a corresponding function select bit in the LCDC enable
register 5 (LCDCE5:SEG[23:22]) or in the LCDC enable register 6 (LCDCE6:SEG[29:24]) to “0” to select the general-purpose I/O port function, and then set the PICTL bit in the LCDCE1 register to “1”.
• Operation as a peripheral function output pin
• A pin becomes a peripheral function output pin if the peripheral output function is enabled by setting the output
enable bit of a peripheral function corresponding to that pin.
• The pin value can be read from the PDRE register even if the peripheral function output is enabled. Therefore, the
output value of a peripheral function can be read by the read operation on the PDRE register. However, if the readmodify-write (RMW) type of instruction is used to read the PDRE register, the PDRE register value is returned.
• Operation as a peripheral function input pin
• To set a pin as an input port, set the bit in the DDRE register corresponding to the input pin of a peripheral function
to “0”.
• Reading the PDRE register returns the pin value, regardless of whether the peripheral function uses that pin as its
input pin. However, if the read-modify-write (RMW) type of instruction is used to read the PDRE register, the PDRE
register value is returned.
• Operation as an LCDC segment output pin
• Set the bit in the DDRE register corresponding to an LCDC segment output pin to “0”.
• To use a pin shared with a general-purpose I/O port as an LCDC segment output pin, set a corresponding function
select bit in the LCDC enable register 5 (LCDCE5:SEG[23:22]) or in the LCDC enable register 6 (LCDCE6:SEG[29:24]) to “1” to select the LCDC segment output function, and then set the PICTL bit in the LCDCE1
register to “1”.
• Operation at reset
If the CPU is reset, all bits in the DDRE register are initialized to “0” and port input is enabled.
• Operation in stop mode and watch mode
• If the pin state setting bit in the standby control register (STBC:SPL) is set to “1” and the device transits to stop
mode or watch mode, the pin is compulsorily made to enter the high impedance state regardless of the DDRE register value. The input of that pin is locked to “L” level and blocked in order to prevent leaks due to input open.
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• If the pin state setting bit is “0”, the state of the port I/O or that of the peripheral function I/O remains unchanged
and the output level is maintained.
18.12 Port F
Port F is a general-purpose I/O port. This section focuses on its functions as a general-purpose I/O port. For details of
peripheral functions, refer to their respective chapters in “New 8FX MB95710M/770M Series Hardware Manual”.
18.12.1 Port F configuration
Port F is made up of the following elements.
• General-purpose I/O pins/peripheral function I/O pins
• Port F data register (PDRF)
• Port F direction register (DDRF)
18.12.2 Block diagrams of port F
• PF0/X0 pin
This pin has the following peripheral function:
• Main clock input oscillation pin (X0)
• PF1/X1 pin
This pin has the following peripheral function:
• Main clock I/O oscillation pin (X1)
• Block diagram of PF0/X0 and PF1/X1
Hysteresis
0
1
PDRF read
Internal bus
PDRF
Pin
PDRF write
Executing bit manipulation instruction
DDRF read
DDRF
DDRF write
Stop mode, watch mode (SPL = 1)
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• PF2/RST pin
This pin has the following peripheral function:
• Reset pin (RST)
• Block diagram of PF2/RST
Reset input
Reset input enable
Reset output enable
Reset output
Hysteresis
0
1
PDRF read
Internal bus
Pin
1
PDRF
OD
0
PDRF write
Executing bit manipulation instruction
DDRF read
DDRF
DDRF write
Stop mode, watch mode (SPL = 1)
18.12.3 Port F registers
• Port F register functions
Register
abbreviation
PDRF
DDRF
Data
Read
Read by read-modify-write
(RMW) instruction
Write
0
Pin state is “L” level.
PDRF value is “0”.
As output port, outputs “L” level.
1
Pin state is “H” level.
PDRF value is “1”.
As output port, outputs “H” level.*
0
Port input enabled
1
Port output enabled
*: If the pin is an N-ch open drain pin, the pin state becomes Hi-Z.
• Correspondence between registers and pins for port F
Correspondence between related register bits and pins
Pin name
PDRF
DDRF
-
-
-
-
-
PF2*
PF1
PF0
-
-
-
-
-
bit2
bit1
bit0
*: PF2/RST is the dedicated reset pin on MB95F714M/F716M/F718M.
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18.12.4 Port F operations
• Operation as an output port
• A pin becomes an output port if the bit in the DDRF register corresponding to that pin is set to “1”.
• For a pin shared with other peripheral functions, disable the output of such peripheral functions.
• When a pin is used as an output port, it outputs the value of the PDRF register to external pins.
• If data is written to the PDRF register, the value is stored in the output latch and is output to the pin set as an output
port as it is.
• Reading the PDRF register returns the PDRF register value.
• Operation as an input port
• A pin becomes an input port if the bit in the DDRF register corresponding to that pin is set to “0”.
• For a pin shared with other peripheral functions, disable the output of such peripheral functions.
• If data is written to the PDRF register, the value is stored in the output latch but is not output to the pin set as an
input port.
• Reading the PDRF register returns the pin value. However, if the read-modify-write (RMW) type of instruction is
used to read the PDRF register, the PDRF register value is returned.
• Operation at reset
If the CPU is reset, all bits in the DDRF register are initialized to “0” and port input is enabled.
• Operation in stop mode and watch mode
• If the pin state setting bit in the standby control register (STBC:SPL) is set to “1” and the device transits to stop
mode or watch mode, the pin is compulsorily made to enter the high impedance state regardless of the DDRF register value. The input of that pin is locked to “L” level and blocked in order to prevent leaks due to input open.
• If the pin state setting bit is “0”, the state of the port I/O or that of the peripheral function I/O remains unchanged
and the output level is maintained.
18.13 Port G
Port G is a general-purpose I/O port. This section focuses on its functions as a general-purpose I/O port. For details of
peripheral functions, refer to their respective chapters in “New 8FX MB95710M/770M Series Hardware Manual”.
18.13.1 Port G configuration
Port G is made up of the following elements.
• General-purpose I/O pins/peripheral function I/O pins
• Port G data register (PDRG)
• Port G direction register (DDRG)
• Port G pull-up register (PULG)
18.13.2 Block diagram of port G
• PG1/X0A pin
This pin has the following peripheral function:
• Subclock input oscillation pin (X0A)
• PG2/X1A pin
This pin has the following peripheral function:
• Subclock I/O oscillation pin (X1A)
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• Block diagram of PG1/X0A and PG2/X1A
Hysteresis
0
Pull-up
1
PDRG read
PDRG
Pin
PDRG write
Internal bus
Executing bit manipulation instruction
DDRG read
DDRG
DDRG write
Stop mode, watch mode (SPL = 1)
PULG read
PULG
PULG write
18.13.3 Port G registers
• Port G register functions
Register
abbreviation
PDRG
DDRG
PULG
Data
Read
Read by read-modify-write
(RMW) instruction
Write
0
Pin state is “L” level.
PDRG value is “0”.
As output port, outputs “L” level.
1
Pin state is “H” level.
PDRG value is “1”.
As output port, outputs “H” level.
0
Port input enabled
1
Port output enabled
0
Pull-up disabled
1
Pull-up enabled
• Correspondence between registers and pins for port G
Correspondence between related register bits and pins
Pin name
-
-
-
-
-
PG2
PG1
-
-
-
-
-
-
bit2
bit1
-
PDRG
DDRG
PULG
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18.13.4 Port G operations
• Operation as an output port
• A pin becomes an output port if the bit in the DDRG register corresponding to that pin is set to “1”.
• For a pin shared with other peripheral functions, disable the output of such peripheral functions.
• When a pin is used as an output port, it outputs the value of the PDRG register to external pins.
• If data is written to the PDRG register, the value is stored in the output latch and is output to the pin set as an output
port as it is.
• Reading the PDRG register returns the PDRG register value.
• Operation as an input port
• A pin becomes an input port if the bit in the DDRG register corresponding to that pin is set to “0”.
• For a pin shared with other peripheral functions, disable the output of such peripheral functions.
• If data is written to the PDRG register, the value is stored in the output latch but is not output to the pin set as an
input port.
• Reading the PDRG register returns the pin value. However, if the read-modify-write (RMW) type of instruction is
used to read the PDRG register, the PDRG register value is returned.
• Operation at reset
If the CPU is reset, all bits in the DDRG register are initialized to “0” and port input is enabled.
• Operation in stop mode and watch mode
• If the pin state setting bit in the standby control register (STBC:SPL) is set to “1” and the device transits to stop
mode or watch mode, the pin is compulsorily made to enter the high impedance state regardless of the DDRG register value. The input of that pin is locked to “L” level and blocked in order to prevent leaks due to input open.
• If the pin state setting bit is “0”, the state of the port I/O or that of the peripheral function I/O remains unchanged
and the output level is maintained.
• Operation of the pull-up register
Setting the bit in the PULG register to “1” makes the pull-up resistor be internally connected to the pin. When the pin
output is “L” level, the pull-up resistor is disconnected regardless of the value of the PULG register.
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19. I/O Ports (MB95770M Series)
• List of port registers
Register name
Read/Write
Initial value
Port 0 data register
PDR0
R, RM/W
0b00000000
Port 0 direction register
DDR0
R/W
0b00000000
Port 1 data register
PDR1
R, RM/W
0b00000000
Port 1 direction register
DDR1
R/W
0b00000000
Port 2 data register
PDR2
R, RM/W
0b00000000
Port 2 direction register
DDR2
R/W
0b00000000
Port 6 data register
PDR6
R, RM/W
0b00000000
Port 6 direction register
DDR6
R/W
0b00000000
Port 9 data register
PDR9
R, RM/W
0b00000000
Port 9 direction register
DDR9
R/W
0b00000000
Port A data register
PDRA
R, RM/W
0b00000000
Port A direction register
DDRA
R/W
0b00000000
Port B data register
PDRB
R, RM/W
0b00000000
Port B direction register
DDRB
R/W
0b00000000
Port C data register
PDRC
R, RM/W
0b00000000
Port C direction register
DDRC
R/W
0b00000000
Port E data register
PDRE
R, RM/W
0b00000000
Port E direction register
DDRE
R/W
0b00000000
Port F data register
PDRF
R, RM/W
0b00000000
Port F direction register
DDRF
R/W
0b00000000
Port G data register
PDRG
R, RM/W
0b00000000
Port G direction register
DDRG
R/W
0b00000000
Port 1 pull-up register
PUL1
R/W
0b00000000
Port 2 pull-up register
PUL2
R/W
0b00000000
Port G pull-up register
PULG
R/W
0b00000000
A/D input disable register (lower)
AIDRL
R/W
0b00000000
R/W
: Readable/writable (The read value is the same as the write value.)
R, RM/W : Readable/writable (The read value is different from the write value. The write value is read by the readmodify-write (RMW) type of instruction.)
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19.1 Port 0
Port 0 is a general-purpose I/O port. This section focuses on its functions as a general-purpose I/O port. For details of
peripheral functions, refer to their respective chapters in “New 8FX MB95710M/770M Series Hardware Manual”.
19.1.1 Port 0 configuration
Port 0 is made up of the following elements.
• General-purpose I/O pins/peripheral function I/O pins
• Port 0 data register (PDR0)
• Port 0 direction register (DDR0)
• A/D input disable register (lower) (AIDRL)
19.1.2 Block diagrams of port 0
• P00/INT00/AN00/SEG29/UO2 pin
This pin has the following peripheral functions:
• External interrupt input pin (INT00)
• 8/12-bit A/D converter analog input pin (AN00)
• LCDC SEG29 output pin (SEG29)
• UART/SIO ch. 2 data output pin (UO2)
• P02/INT02/AN02/SEG27/UCK2 pin
This pin has the following peripheral functions:
• External interrupt input pin (INT02)
• 8/12-bit A/D converter analog input pin (AN02)
• LCDC SEG27 output pin (SEG27)
• UART/SIO ch. 2 clock I/O pin (UCK2)
• P03/INT03/AN03/SEG26/UO1 pin
This pin has the following peripheral functions:
• External interrupt input pin (INT03)
• 8/12-bit A/D converter analog input pin (AN03)
• LCDC SEG26 output pin (SEG26)
• UART/SIO ch. 1 data output pin (UO1)
• P05/INT05/AN05/SEG24/UCK1 pin
This pin has the following peripheral functions:
• External interrupt input pin (INT05)
• 8/12-bit A/D converter analog input pin (AN05)
• LCDC SEG24 output pin (SEG24)
• UART/SIO ch. 1 clock I/O pin (UCK1)
• P06/INT06/AN06/SEG23 pin
This pin has the following peripheral functions:
• External interrupt input pin (INT06)
• 8/12-bit A/D converter analog input pin (AN06)
• LCDC SEG23 output pin (SEG23)
• P07/INT07/AN07/SEG22 pin
This pin has the following peripheral functions:
• External interrupt input pin (INT07)
• 8/12-bit A/D converter analog input pin (AN07)
• LCDC SEG22 output pin (SEG22)
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• Block diagram of P00/INT00/AN00/SEG29/UO2, P02/INT02/AN02/SEG27/UCK2, P03/INT03/AN03/SEG26/
UO1, P05/INT05/AN05/SEG24/UCK1, P06/INT06/AN06/SEG23 and P07/INT07/AN07/SEG22
LCD output
Peripheral function input
Peripheral function input enable
(INT00, INT02, INT03, INT05, INT06 and INT07)
A/D analog input
Peripheral function output enable
Peripheral function output
LCD output enable
0
1
PDR0 read
1
PDR0
0
Pin
PDR0 write
Internal bus
Executing bit manipulation instruction
DDR0 read
DDR0
DDR0 write
Stop mode, watch mode (SPL = 1)
AIDRL read
AIDRL
AIDRL write
• P01/INT01/AN01/SEG28/TO00/UI2 pin
This pin has the following peripheral functions:
• External interrupt input pin (INT01)
• 8/12-bit A/D converter analog input pin (AN01)
• LCDC SEG28 output pin (SEG28)
• 8/16-bit composite timer ch. 0 output pin (TO00)
• UART/SIO ch. 2 data input pin (UI2)
• P04/INT04/AN04/SEG25/UI1 pin
This pin has the following peripheral functions:
• External interrupt input pin (INT04)
• 8/12-bit A/D converter analog input pin (AN04)
• LCDC SEG25 output pin (SEG25)
• UART/SIO ch. 1 data input pin (UI1)
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• Block diagram of P01/INT01/AN01/SEG28/TO00/UI2 and P04/INT04/AN04/SEG25/UI1
LCD output
Peripheral function input
A/D analog input
Peripheral function input enable
(INT01 and INT04)
LCD output enable
Peripheral function output enable
Peripheral function output
0
1
CMOS
PDR0 read
1
PDR0
Pin
0
PDR0 write
Internal bus
Executing bit manipulation instruction
DDR0 read
DDR0
DDR0 write
Stop mode, watch mode (SPL = 1)
AIDRL read
AIDRL
AIDRL write
19.1.3 Port 0 registers
• Port 0 register functions
Register
abbreviation
PDR0
DDR0
AIDRL
Data
Read
Read by read-modify-write
(RMW) instruction
Write
0
Pin state is “L” level.
PDR0 value is “0”.
As output port, outputs “L” level.
1
Pin state is “H” level.
PDR0 value is “1”.
As output port, outputs “H” level.
0
Port input enabled
1
Port output enabled
0
Analog input enabled
1
Port input enabled
• Correspondence between registers and pins for port 0
Correspondence between related register bits and pins
Pin name
P07
P06
P05
P04
P03
P02
P01
P00
bit7
bit6
bit5
bit4
bit3
bit2
bit1
bit0
PDR0
DDR0
AIDRL
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19.1.4 Port 0 operations
• Operation as an output port
• A pin becomes an output port if the bit in the DDR0 register corresponding to that pin is set to “1”.
• For a pin shared with other peripheral functions, disable the output of such peripheral functions.
• When a pin is used as an output port, it outputs the value of the PDR0 register to external pins.
• If data is written to the PDR0 register, the value is stored in the output latch and is output to the pin set as an output
port as it is.
• Reading the PDR0 register returns the PDR0 register value.
• To use a pin shared with the LCDC as an output port, set a corresponding function select bit in the LCDC enable
register 5 (LCDCE5:SEG[23:22]) or in the LCDC enable register 6 (LCDCE6:SEG[29:24]) to “0” to select the general-purpose I/O port function, and then set the port input control bit in the LCDC enable register 1 (LCDCE1:PICTL) to “1”.
• Operation as an input port
• A pin becomes an input port if the bit in the DDR0 register corresponding to that pin is set to “0”.
• For a pin shared with other peripheral functions, disable the output of such peripheral functions.
• When using an analog input shared pin as an input port, set the corresponding bit in the A/D input disable register
(lower) (AIDRL) to “1”.
• If data is written to the PDR0 register, the value is stored in the output latch but is not output to the pin set as an
input port.
• Reading the PDR0 register returns the pin value. However, if the read-modify-write (RMW) type of instruction is
used to read the PDR0 register, the PDR0 register value is returned.
• To use a pin shared with the LCDC as an input port, set a corresponding function select bit in the LCDC enable
register 5 (LCDCE5:SEG[23:22]) or in the LCDC enable register 6 (LCDCE6:SEG[29:24]) to “0” to select the general-purpose I/O port function, and then set the PICTL bit in the LCDCE1 register to “1”.
• Operation as a peripheral function output pin
• A pin becomes a peripheral function output pin if the peripheral output function is enabled by setting the output
enable bit of a peripheral function corresponding to that pin.
• The pin value can be read from the PDR0 register even if the peripheral function output is enabled. Therefore, the
output value of a peripheral function can be read by the read operation on the PDR0 register. However, if the readmodify-write (RMW) type of instruction is used to read the PDR0 register, the PDR0 register value is returned.
• Operation as a peripheral function input pin
• To set a pin as an input port, set the bit in the DDR0 register corresponding to the input pin of a peripheral function
to “0”.
• When using the analog input shared pin as another peripheral function input pin, configure it as an input port, which
is the same as the operation as an input port.
• Reading the PDR0 register returns the pin value, regardless of whether the peripheral function uses that pin as its
input pin. However, if the read-modify-write (RMW) type of instruction is used to read the PDR0 register, the PDR0
register value is returned.
• Operation as an LCDC segment output pin
• Set the bit in the DDR0 register corresponding to an LCDC segment output pin to “0”.
• To use a pin shared with a general-purpose I/O port as an LCDC segment output pin, set a corresponding function
select bit in the LCDC enable register 5 (LCDCE5:SEG[23:22]) or in the LCDC enable register 6 (LCDCE6:SEG[29:24]) to “1” to select the LCDC segment output function, and then set the PICTL bit in the LCDCE1
register to “1”.
• Operation at reset
If the CPU is reset, all bits in the DDR0 register are initialized to “0” and port input is enabled. As for a pin shared with
analog input, its port input is disabled because the AIDRL register is initialized to “0”.
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• Operation in stop mode and watch mode
• If the pin state setting bit in the standby control register (STBC:SPL) is set to “1” and the device transits to stop
mode or watch mode, the pin is compulsorily made to enter the high impedance state regardless of the DDR0 register value. The input of that pin is locked to “L” level and blocked in order to prevent leaks due to input open. However, if the interrupt input is enabled for the external interrupt (INT00 to INT07), the input is enabled and not
blocked.
• If the pin state setting bit is “0”, the state of the port I/O or that of the peripheral function I/O remains unchanged
and the output level is maintained.
• Operation as an analog input pin
• Set the bit in the DDR0 register bit corresponding to the analog input pin to “0” and the bit corresponding to that pin
in the AIDRL register to “0”.
• For a pin shared with other peripheral functions, disable the output of such peripheral functions.
• Operation as an external interrupt input pin
• Set the bit in the DDR0 register corresponding to the external interrupt input pin to “0”.
• For a pin shared with other peripheral functions, disable the output of such peripheral functions.
• The pin value is always input to the external interrupt circuit. When using a pin for a function other than the interrupt,
disable the external interrupt function corresponding to that pin.
19.2 Port 1
Port 1 is a general-purpose I/O port. This section focuses on its functions as a general-purpose I/O port. For details of
peripheral functions, refer to their respective chapters in “New 8FX MB95710M/770M Series Hardware Manual”.
19.2.1 Port 1 configuration
Port 1 is made up of the following elements.
• General-purpose I/O pins/peripheral function I/O pins
• Port 1 data register (PDR1)
• Port 1 direction register (DDR1)
• Port 1 pull-up register (PUL1)
19.2.2 Block diagrams of port 1
• P10/UI0/TO0 pin
This pin has the following peripheral functions:
• UART/SIO ch. 0 data input pin (UI0)
• 16-bit reload timer ch. 0 output pin (TO0)
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• Block diagram of P10/UI0/TO0
Peripheral function input
Peripheral function input enable
Peripheral function output enable
Peripheral function output
CMOS
Pull-up
0
1
PDR1 read
1
PDR1
Pin
0
PDR1 write
Internal bus
Executing bit manipulation instruction
DDR1 read
DDR1
DDR1 write
Stop mode, watch mode (SPL = 1)
PUL1 read
PUL1
PUL1 write
• P12/DBG pin
This pin has the following peripheral function:
• DBG input pin (DBG)
• Block diagram of P12/DBG
Hysteresis
0
1
PDR1 read
Internal bus
PDR1
Pin
OD
PDR1 write
Executing bit manipulation instruction
DDR1 read
DDR1
DDR1 write
Stop mode, watch mode (SPL = 1)
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• P11/UO0 pin
This pin has the following peripheral function:
• UART/SIO ch. 0 data output pin (UO0)
• P13/ADTG/TO01 pin
This pin has the following peripheral functions:
• 8/12-bit A/D converter trigger input pin (ADTG)
• 8/16-bit composite timer ch. 0 output pin (TO01)
• P14/UCK0/EC0/TI0 pin
This pin has the following peripheral functions:
• UART/SIO ch. 0 clock I/O pin (UCK0)
• 8/16-bit composite timer ch. 0 clock input pin (EC0)
• 16-bit reload timer ch. 0 input pin (TI0)
• P17/CMP0_O pin
This pin has the following peripheral function:
• Comparator ch. 0 digital output pin (CMP0_O)
• Block diagram of P11/UO0, P13/ADTG/TO01, P14/UCK0/EC0/TI0 and P17/CMP0_O
Peripheral function input
Peripheral function input enable
Peripheral function output enable
Peripheral function output
Pull-up
0
1
PDR1 read
1
PDR1
0
Pin
PDR1 write
Internal bus
Executing bit manipulation instruction
DDR1 read
DDR1
DDR1 write
Stop mode, watch mode (SPL = 1)
PUL1 read
PUL1
PUL1 write
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• P15/SEG31/PPG11 pin
This pin has the following peripheral functions:
• LCDC SEG31 output pin (SEG31)
• 8/16-bit PPG ch. 1 output pin (PPG11)
• P16/SEG30/PPG10 pin
This pin has the following peripheral functions:
• LCDC SEG30 output pin (SEG30)
• 8/16-bit PPG ch. 1 output pin (PPG10)
• Block diagram of P15/SEG31/PPG11 and P16/SEG30/PPG10
LCD output
Peripheral function output enable
Peripheral function output
LCD output enable
0
1
PDR1 read
1
Internal bus
PDR1
Pin
0
PDR1 write
Executing bit manipulation instruction
DDR1 read
DDR1
DDR1 write
Stop mode, watch mode (SPL = 1)
19.2.3 Port 1 registers
• Port 1 register functions
Register
abbreviation
PDR1
DDR1
PUL1
Data
Read
Read by read-modify-write
(RMW) instruction
Write
0
Pin state is “L” level.
PDR1 value is “0”.
As output port, outputs “L” level.
1
Pin state is “H” level.
PDR1 value is “1”.
As output port, outputs “H” level.*
0
Port input enabled
1
Port output enabled
0
Pull-up disabled
1
Pull-up enabled
*: If the pin is an N-ch open drain pin, the pin state becomes Hi-Z.
• Correspondence between registers and pins for port 1
Correspondence between related register bits and pins
Pin name
P17
PDR1
DDR1
PUL1
bit7
P16
P15
bit6
bit5
-
-
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P13
bit4
bit3
P12
bit2
P11
P10
bit1
bit0
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19.2.4 Port 1 operations
• Operation as an output port
• A pin becomes an output port if the bit in the DDR1 register corresponding to that pin is set to “1”.
• For a pin shared with other peripheral functions, disable the output of such peripheral functions.
• When a pin is used as an output port, it outputs the value of the PDR1 register to external pins.
• If data is written to the PDR1 register, the value is stored in the output latch and is output to the pin set as an output
port as it is.
• Reading the PDR1 register returns the PDR1 register value.
• To use a pin shared with the LCDC as an output port, set a corresponding function select bit in the LCDC enable
register 6 (LCDCE6:SEG[31:30]) to “0” to select the general-purpose I/O port function, and then set the port input
control bit in the LCDC enable register 1 (LCDCE1:PICTL) to “1”.
• Operation as an input port
• A pin becomes an input port if the bit in the DDR1 register corresponding to that pin is set to “0”.
• For a pin shared with other peripheral functions, disable the output of such peripheral functions.
• If data is written to the PDR1 register, the value is stored in the output latch but is not output to the pin set as an
input port.
• Reading the PDR1 register returns the pin value. However, if the read-modify-write (RMW) type of instruction is
used to read the PDR1 register, the PDR1 register value is returned.
• To use a pin shared with the LCDC as an input port, set a corresponding function select bit in the LCDC enable
register 6 (LCDCE6:SEG[31:30]) to “0” to select the general-purpose I/O port function, and then set the PICTL bit
in the LCDCE1 register to “1”.
• Operation as a peripheral function output pin
• A pin becomes a peripheral function output pin if the peripheral output function is enabled by setting the output
enable bit of a peripheral function corresponding to that pin.
• The pin value can be read from the PDR1 register even if the peripheral function output is enabled. Therefore, the
output value of a peripheral function can be read by the read operation on the PDR1 register. However, if the readmodify-write (RMW) type of instruction is used to read the PDR1 register, the PDR1 register value is returned.
• Operation as a peripheral function input pin
• To set a pin as an input port, set the bit in the DDR1 register corresponding to the input pin of a peripheral function
to “0”.
• Reading the PDR1 register returns the pin value, regardless of whether the peripheral function uses that pin as its
input pin. However, if the read-modify-write (RMW) type of instruction is used to read the PDR1 register, the PDR1
register value is returned.
• Operation as an LCDC segment output pin
• Set the bit in the DDR1 register corresponding to an LCDC segment output pin to “0”.
• To use a pin shared with a general-purpose I/O port as an LCDC segment output pin, set a corresponding function
select bit in the LCDC enable register 6 (LCDCE6:SEG[31:30]) to “1” to select the LCDC segment output function,
and then set the PICTL bit in the LCDCE1 register to “1”.
• Operation at reset
If the CPU is reset, all bits in the DDR1 register are initialized to “0” and port input is enabled.
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• Operation in stop mode and watch mode
• If the pin state setting bit in the standby control register (STBC:SPL) is set to “1” and the device transits to stop
mode or watch mode, the pin is compulsorily made to enter the high impedance state regardless of the DDR1 register value. The input of that pin is locked to “L” level and blocked in order to prevent leaks due to input open. However, if the interrupt input of P10/UI0/TO0 and P14/UCK0/EC0/TI0 is enabled by the external interrupt control
register ch. 0 (EIC00) of the external interrupt circuit and the interrupt pin selection circuit control register (WICR)
of the interrupt pin selection circuit, the input is enabled and is not blocked.
• If the pin state setting bit is “0”, the state of the port I/O or that of the peripheral function I/O remains unchanged
and the output level is maintained.
• Operation of the pull-up register
Setting the bit in the PUL1 register to “1” makes the pull-up resistor be internally connected to the pin. When the pin
output is “L” level, the pull-up resistor is disconnected regardless of the value of the PUL1 register.
19.3 Port 2
Port 2 is a general-purpose I/O port. This section focuses on its functions as a general-purpose I/O port. For details of
peripheral functions, refer to their respective chapters in “New 8FX MB95710M/770M Series Hardware Manual”.
19.3.1 Port 2 configuration
Port 2 is made up of the following elements.
• General-purpose I/O pins/peripheral function I/O pins
• Port 2 data register (PDR2)
• Port 2 direction register (DDR2)
• Port 2 pull-up register (PUL2)
19.3.2 Block diagrams of port 2
• P20/PPG00/CMP0_N pin
This pin has the following peripheral functions:
• 8/16-bit PPG ch. 0 output pin (PPG00)
• Comparator ch. 0 inverting analog input (negative input) pin (CMP0_N)
• P21/PPG01/CMP0_P pin
This pin has the following peripheral functions:
• 8/16-bit PPG ch. 0 output pin (PPG01)
• Comparator ch. 0 non-inverting analog input (positive input) pin (CMP0_P)
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• Block diagram of P20/PPG00/CMP0_N and P21/PPG01/CMP0_P
Analog input
Peripheral function output enable
Peripheral function output
Analog input enable
Pull-up
0
1
PDR2 read
1
PDR2
Pin
0
PDR2 write
Internal bus
Executing bit manipulation instruction
DDR2 read
DDR2
DDR2 write
Stop mode, watch mode (SPL = 1)
PUL2 read
PUL2
PUL2 write
• P22/SCL pin
This pin has the following peripheral function:
• I2C bus interface ch. 0 clock I/O pin (SCL)
• P23/SDA pin
This pin has the following peripheral function:
• I2C bus interface ch. 0 data I/O pin (SDA)
• Block diagram of P22/SCL and P23/SDA
Peripheral function input
Peripheral function input enable
Peripheral function output enable
Peripheral function output
CMOS
0
1
PDR2 read
Internal bus
Pin
1
PDR2
0
OD
PDR2 write
Executing bit manipulation instruction
DDR2 read
DDR2
DDR2 write
Stop mode, watch mode (SPL = 1)
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19.3.3 Port 2 registers
• Port 2 register functions
Register
abbreviation
PDR2
DDR2
PUL2
Data
Read
Read by read-modify-write
(RMW) instruction
Write
0
Pin state is “L” level.
PDR2 value is “0”.
As output port, outputs “L” level.
1
Pin state is “H” level.
PDR2 value is “1”.
As output port, outputs “H” level.*
0
Port input enabled
1
Port output enabled
0
Pull-up disabled
1
Pull-up enabled
*: If the pin is an N-ch open drain pin, the pin state becomes Hi-Z.
• Correspondence between registers and pins for port 2
Correspondence between related register bits and pins
Pin name
-
-
-
-
-
-
-
-
PDR2
DDR2
PUL2
P23
P22
bit3
bit2
-
-
P21
P20
bit1
bit0
19.3.4 Port 2 operations
• Operation as an output port
• A pin becomes an output port if the bit in the DDR2 register corresponding to that pin is set to “1”.
• For a pin shared with other peripheral functions, disable the output of such peripheral functions.
• When a pin is used as an output port, it outputs the value of the PDR2 register to external pins.
• If data is written to the PDR2 register, the value is stored in the output latch and is output to the pin set as an output
port as it is.
• Reading the PDR2 register returns the PDR2 register value.
• Operation as an input port
• A pin becomes an input port if the bit in the DDR2 register corresponding to that pin is set to “0”.
• For a pin shared with other peripheral functions, disable the output of such peripheral functions.
• If data is written to the PDR2 register, the value is stored in the output latch but is not output to the pin set as an
input port.
• Reading the PDR2 register returns the pin value. However, if the read-modify-write (RMW) type of instruction is
used to read the PDR2 register, the PDR2 register value is returned.
• Operation as a peripheral function output pin
• A pin becomes a peripheral function output pin if the peripheral output function is enabled by setting the output
enable bit of a peripheral function corresponding to that pin.
• The pin value can be read from the PDR2 register even if the peripheral function output is enabled. Therefore, the
output value of a peripheral function can be read by the read operation on the PDR2 register. However, if the readmodify-write (RMW) type of instruction is used to read the PDR2 register, the PDR2 register value is returned.
• Operation as a peripheral function input pin
• To set a pin as an input port, set the bit in the DDR2 register corresponding to the input pin of a peripheral function
to “0”.
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• Reading the PDR2 register returns the pin value, regardless of whether the peripheral function uses that pin as its
input pin. However, if the read-modify-write (RMW) type of instruction is used to read the PDR2 register, the PDR2
register value is returned.
• Operation at reset
If the CPU is reset, all bits in the DDR2 register are initialized to “0” and port input is enabled.
• Operation in stop mode and watch mode
• If the pin state setting bit in the standby control register (STBC:SPL) is set to “1” and the device transits to stop
mode or watch mode, the pin is compulsorily made to enter the high impedance state regardless of the DDR2 register value. The input of that pin is locked to “L” level and blocked in order to prevent leaks due to input open.
• If the pin state setting bit is “0”, the state of the port I/O or that of the peripheral function I/O remains unchanged
and the output level is maintained.
• Operation of the pull-up register
Setting the bit in the PUL2 register to “1” makes the pull-up resistor be internally connected to the pin. When the pin
output is “L” level, the pull-up resistor is disconnected regardless of the value of the PUL2 register.
• Operation as a comparator input pin
• Regardless of the value of the PDR2 register and that of the DDR2 register, if the comparator analog input enable
bit in the comparator control register ch. 0 (CMR0:VCID) is set to “0”, the comparator input function is enabled.
• To disable the comparator input function, set the VCID bit to “1”.
• For details of the comparator, refer to “CHAPTER 29 COMPARATOR” in “New 8FX MB95710M/770M Series Hardware Manual”.
19.4 Port 6
Port 6 is a general-purpose I/O port. This section focuses on its functions as a general-purpose I/O port. For details of
peripheral functions, refer to their respective chapters in “New 8FX MB95710M/770M Series Hardware Manual”.
19.4.1 Port 6 configuration
Port 6 is made up of the following elements.
• General-purpose I/O pins/peripheral function I/O pins
• Port 6 data register (PDR6)
• Port 6 direction register (DDR6)
19.4.2 Block diagrams of port 6
• P60/SEG06 pin
This pin has the following peripheral function:
• LCDC SEG06 output pin (SEG06)
• P61/SEG07 pin
This pin has the following peripheral function:
• LCDC SEG07 output pin (SEG07)
• P62/SEG08 pin
This pin has the following peripheral function:
• LCDC SEG08 output pin (SEG08)
• P63/SEG09 pin
This pin has the following peripheral function:
• LCDC SEG09 output pin (SEG09)
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• P64/SEG10 pin
This pin has the following peripheral function:
• LCDC SEG10 output pin (SEG10)
• P65/SEG11 pin
This pin has the following peripheral function:
• LCDC SEG11 output pin (SEG11)
• P66/SEG12 pin
This pin has the following peripheral function:
• LCDC SEG12 output pin (SEG12)
• P67/SEG13 pin
This pin has the following peripheral function:
• LCDC SEG13 output pin (SEG13)
• Block diagram of P60/SEG06, P61/SEG07, P62/SEG08, P63/SEG09, P64/SEG10, P65/SEG11, P66/SEG12 and
P67/SEG13
LCD output
LCD output enable
0
1
PDR6 read
Pin
Internal bus
PDR6
PDR6 write
Executing bit manipulation instruction
DDR6 read
DDR6
DDR6 write
Stop mode, watch mode (SPL = 1)
19.4.3 Port 6 registers
• Port 6 register functions
Register
abbreviation
PDR6
DDR6
Data
Read
Read by read-modify-write
(RMW) instruction
Write
0
Pin state is “L” level.
PDR6 value is “0”.
As output port, outputs “L” level.
1
Pin state is “H” level.
PDR6 value is “1”.
As output port, outputs “H” level.
0
Port input enabled
1
Port output enabled
• Correspondence between registers and pins for port 6
Correspondence between related register bits and pins
Pin name
PDR6
DDR6
P67
P66
P65
P64
P63
P62
P61
P60
bit7
bit6
bit5
bit4
bit3
bit2
bit1
bit0
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19.4.4 Port 6 operations
• Operation as an output port
• A pin becomes an output port if the bit in the DDR6 register corresponding to that pin is set to “1”.
• For a pin shared with other peripheral functions, disable the output of such peripheral functions.
• When a pin is used as an output port, it outputs the value of the PDR6 register to external pins.
• If data is written to the PDR6 register, the value is stored in the output latch and is output to the pin set as an output
port as it is.
• Reading the PDR6 register returns the PDR6 register value.
• To use a pin shared with the LCDC as an output port, set a corresponding function select bit in the LCDC enable
register 3 (LCDCE3:SEG[07:06]) or in the LCDC enable register 4 (LCDCE4:SEG[13:08]) to “0” to select the general-purpose I/O port function, and then set the port input control bit in the LCDC enable register 1 (LCDCE1:PICTL) to “1”.
• Operation as an input port
• A pin becomes an input port if the bit in the DDR6 register corresponding to that pin is set to “0”.
• For a pin shared with other peripheral functions, disable the output of such peripheral functions.
• If data is written to the PDR6 register, the value is stored in the output latch but is not output to the pin set as an
input port.
• Reading the PDR6 register returns the pin value. However, if the read-modify-write (RMW) type of instruction is
used to read the PDR6 register, the PDR6 register value is returned.
• To use a pin shared with the LCDC as an input port, set a corresponding function select bit in the LCDC enable
register 3 (LCDCE3:SEG[07:06]) or in the LCDC enable register 4 (LCDCE4:SEG[13:08]) to “0” to select the general-purpose I/O port function, and then set the PICTL bit in the LCDCE1 register to “1”.
• Operation as an LCDC segment output pin
• Set the bit in the DDR6 register corresponding to an LCDC segment output pin to “0”.
• To use a pin shared with a general-purpose I/O port as an LCDC segment output pin, set a corresponding function
select bit in the LCDC enable register 3 (LCDCE3:SEG[07:06]) or in the LCDC enable register 4 (LCDCE4:SEG[13:08]) to “1” to select the LCDC segment output function, and then set the PICTL bit in the LCDCE1
register to “1”.
• Operation at reset
If the CPU is reset, all bits in the DDR6 register are initialized to “0” and port input is enabled.
• Operation in stop mode and watch mode
• If the pin state setting bit in the standby control register (STBC:SPL) is set to “1” and the device transits to stop
mode or watch mode, the pin is compulsorily made to enter the high impedance state regardless of the DDR6 register value. The input of that pin is locked to “L” level and blocked in order to prevent leaks due to input open.
• If the pin state setting bit is “0”, the state of the port I/O or that of the peripheral function I/O remains unchanged
and the output level is maintained.
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19.5 Port 9
Port 9 is a general-purpose I/O port. This section focuses on its functions as a general-purpose I/O port. For details of
peripheral functions, refer to their respective chapters in “New 8FX MB95710M/770M Series Hardware Manual”.
19.5.1 Port 9 configuration
Port 9 is made up of the following elements.
• General-purpose I/O pins/peripheral function I/O pins
• Port 9 data register (PDR9)
• Port 9 direction register (DDR9)
19.5.2 Block diagrams of port 9
• P90/V4 pin
This pin has the following peripheral function:
• LCD drive power supply pin (V4)
• P91/V3 pin
This pin has the following peripheral function:
• LCD drive power supply pin (V3)
• P92/V2 pin
This pin has the following peripheral function:
• LCD drive power supply pin (V2)
• P93/V1 pin
This pin has the following peripheral function:
• LCD drive power supply pin (V1)
• Block diagram of P90/V4, P91/V3, P92/V2 and P93/V1
LCD power supply
LCD power supply enable
0
1
PDR9 read
Internal bus
PDR9
Pin
PDR9 write
Executing bit manipulation instruction
DDR9 read
DDR9
DDR9 write
Stop mode, watch mode (SPL = 1)
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19.5.3 Port 9 registers
• Port 9 register functions
Register
abbreviation
PDR9
DDR9
Data
Read
Read by read-modify-write
(RMW) instruction
Write
0
Pin state is “L” level.
PDR9 value is “0”.
As output port, outputs “L” level.
1
Pin state is “H” level.
PDR9 value is “1”.
As output port, outputs “H” level.
0
Port input enabled
1
Port output enabled
• Correspondence between registers and pins for port 9
Correspondence between related register bits and pins
Pin name
PDR9
DDR9
-
-
-
-
P93
P92
P91
P90
-
-
-
-
bit3
bit2
bit1
bit0
19.5.4 Port 9 operations
• Operation as an output port
• A pin becomes an output port if the bit in the DDR9 register corresponding to that pin is set to “1”.
• When a pin is used as an output port, it outputs the value of the PDR9 register to external pins.
• If data is written to the PDR9 register, the value is stored in the output latch and is output to the pin set as an output
port as it is.
• Reading the PDR9 register returns the PDR9 register value.
• To use a pin shared with the LCDC as an output port, set the bit corresponding to that pin in the VE[4:1] bits in the
LCDC enable register 1 (LCDCE1) to “0” to select the general-purpose I/O port function.
• Operation as an input port
• A pin becomes an input port if the bit in the DDR9 register corresponding to that pin is set to “0”.
• If data is written to the PDR9 register, the value is stored in the output latch but is not output to the pin set as an
input port.
• Reading the PDR9 register returns the pin value. However, if the read-modify-write (RMW) type of instruction is
used to read the PDR9 register, the PDR9 register value is returned.
• To use a pin shared with the LCDC as an input port, set the bit corresponding to that pin in the VE[4:1] bits in the
LCDCE1 register to “0” to select the general-purpose I/O port function.
• Operation at reset
If the CPU is reset, all bits in the DDR9 register are initialized to “0” and port input is enabled.
• Operation in stop mode and watch mode
• If the pin state setting bit in the standby control register (STBC:SPL) is set to “1” and the device transits to stop
mode or watch mode, the pin is compulsorily made to enter the high impedance state regardless of the DDR9 register value. The input of that pin is locked to “L” level and blocked in order to prevent leaks due to input open.
• If the pin state setting bit is “0”, the state of the port I/O or that of the peripheral function I/O remains unchanged
and the output level is maintained.
• Operation as an LCD drive power supply pin
• Set the bit in the DDR9 register corresponding to an LCD drive power supply pin to “0”.
• To use a pin shared with a general-purpose I/O port as an LCD drive power supply pin, set the bit corresponding
to that pin in the VE[4:1] bits in the LCDCE1 register to “1” to select the LCD drive power supply function.
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19.6 Port A
Port A is a general-purpose I/O port. This section focuses on its functions as a general-purpose I/O port. For details of
peripheral functions, refer to their respective chapters in “New 8FX MB95710M/770M Series Hardware Manual”.
19.6.1 Port A configuration
Port A is made up of the following elements.
• General-purpose I/O pins/peripheral function I/O pins
• Port A data register (PDRA)
• Port A direction register (DDRA)
19.6.2 Block diagrams of port A
• PA0/COM0 pin
This pin has the following peripheral function:
• LCDC COM0 output pin (COM0)
• PA1/COM1 pin
This pin has the following peripheral function:
• LCDC COM1 output pin (COM1)
• PA2/COM2 pin
This pin has the following peripheral function:
• LCDC COM2 output pin (COM2)
• PA3/COM3 pin
This pin has the following peripheral function:
• LCDC COM3 output pin (COM3)
• PA4/COM4 pin
This pin has the following peripheral function:
• LCDC COM4 output pin (COM4)
• PA5/COM5 pin
This pin has the following peripheral function:
• LCDC COM5 output pin (COM5)
• PA6/COM6 pin
This pin has the following peripheral function:
• LCDC COM6 output pin (COM6)
• PA7/COM7 pin
This pin has the following peripheral function:
• LCDC COM7 output pin (COM7)
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• Block diagram of PA0/COM0, PA1/COM1, PA2/COM2, PA3/COM3, PA4/COM4, PA5/COM5, PA6/COM6 and
PA7/COM7
LCD output
LCD output enable
0
1
PDRA read
Pin
Internal bus
PDRA
PDRA write
Executing bit manipulation instruction
DDRA read
DDRA
DDRA write
Stop mode, watch mode (SPL = 1)
19.6.3 Port A registers
• Port A register functions
Register
abbreviation
PDRA
DDRA
Data
Read
Read by read-modify-write
(RMW) instruction
Write
0
Pin state is “L” level.
PDRA value is “0”.
As output port, outputs “L” level.
1
Pin state is “H” level.
PDRA value is “1”.
As output port, outputs “H” level.
0
Port input enabled
1
Port output enabled
• Correspondence between registers and pins for port A
Correspondence between related register bits and pins
Pin name
PDRA
DDRA
PA7
PA6
PA5
PA4
PA3
PA2
PA1
PA0
bit7
bit6
bit5
bit4
bit3
bit2
bit1
bit0
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19.6.4 Port A operations
• Operation as an output port
• A pin becomes an output port if the bit in the DDRA register corresponding to that pin is set to “1”.
• For a pin shared with other peripheral functions, disable the output of such peripheral functions.
• When a pin is used as an output port, it outputs the value of the PDRA register to external pins.
• If data is written to the PDRA register, the value is stored in the output latch and is output to the pin set as an output
port as it is.
• Reading the PDRA register returns the PDRA register value.
• To use a pin shared with the LCDC as an output port, set a corresponding function select bit in the LCDC enable
register 2 (LCDCE2:COM[7:0]) to “0” to select the general-purpose I/O port function, and then set the port input
control bit in the LCDC enable register 1 (LCDCE1:PICTL) to “1”.
• Operation as an input port
• A pin becomes an input port if the bit in the DDRA register corresponding to that pin is set to “0”.
• For a pin shared with other peripheral functions, disable the output of such peripheral functions.
• If data is written to the PDRA register, the value is stored in the output latch but is not output to the pin set as an
input port.
• Reading the PDRA register returns the pin value. However, if the read-modify-write (RMW) type of instruction is
used to read the PDRA register, the PDRA register value is returned.
• To use a pin shared with the LCDC as an input port, set a corresponding function select bit in the LCDC enable
register 2 (LCDCE2:COM[7:0]) to “0” to select the general-purpose I/O port function, and then set the PICTL bit in
the LCDCE1 register to “1”.
• Operation as an LCDC common output pin
• Set the bit in the DDRA register corresponding to an LCDC common output pin to “0”.
• To use a pin shared with a general-purpose I/O port as an LCDC common output pin, set a corresponding function
select bit in the LCDC enable register 2 (LCDCE2:COM[7:0]) to “1” to select the LCDC common output function,
and then set the PICTL bit in the LCDCE1 register to “1”.
• Operation at reset
If the CPU is reset, all bits in the DDRA register are initialized to “0” and port input is enabled.
• Operation in stop mode and watch mode
• If the pin state setting bit in the standby control register (STBC:SPL) is set to “1” and the device transits to stop
mode or watch mode, the pin is compulsorily made to enter the high impedance state regardless of the DDRA register value. The input of that pin is locked to “L” level and blocked in order to prevent leaks due to input open.
• If the pin state setting bit is “0”, the state of the port I/O or that of the peripheral function I/O remains unchanged
and the output level is maintained.
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19.7 Port B
Port B is a general-purpose I/O port. This section focuses on its functions as a general-purpose I/O port. For details of
peripheral functions, refer to their respective chapters in “New 8FX MB95710M/770M Series Hardware Manual”.
19.7.1 Port B configuration
Port B is made up of the following elements.
• General-purpose I/O pins/peripheral function I/O pins
• Port B data register (PDRB)
• Port B direction register (DDRB)
19.7.2 Block diagrams of port B
• PB0/SEG00 pin
This pin has the following peripheral function:
• LCDC SEG00 output pin (SEG00)
• PB1/SEG01 pin
This pin has the following peripheral function:
• LCDC SEG01 output pin (SEG01)
• Block diagram of PB0/SEG00 and PB1/SEG01
LCD output
LCD output enable
0
1
PDRB read
Internal bus
PDRB
Pin
PDRB write
Executing bit manipulation instruction
DDRB read
DDRB
DDRB write
Stop mode, watch mode (SPL = 1)
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19.7.3 Port B registers
• Port B register functions
Register
abbreviation
PDRB
DDRB
Data
Read
Read by read-modify-write
(RMW) instruction
Write
0
Pin state is “L” level.
PDRB value is “0”.
As output port, outputs “L” level.
1
Pin state is “H” level.
PDRB value is “1”.
As output port, outputs “H” level.
0
Port input enabled
1
Port output enabled
• Correspondence between registers and pins for port B
Correspondence between related register bits and pins
Pin name
PDRB
DDRB
-
-
-
-
-
-
PB1
PB0
-
-
-
-
-
-
bit1
bit0
19.7.4 Port B operations
• Operation as an output port
• A pin becomes an output port if the bit in the DDRB register corresponding to that pin is set to “1”.
• For a pin shared with other peripheral functions, disable the output of such peripheral functions.
• When a pin is used as an output port, it outputs the value of the PDRB register to external pins.
• If data is written to the PDRB register, the value is stored in the output latch and is output to the pin set as an output
port as it is.
• Reading the PDRB register returns the PDRB register value.
• To use a pin shared with the LCDC as an output port, set a corresponding function select bit in the LCDC enable
register 3 (LCDCE3:SEG[01:00]) to “0” to select the general-purpose I/O port function, and then set the port input
control bit in the LCDC enable register 1 (LCDCE1:PICTL) to “1”.
• Operation as an input port
• A pin becomes an input port if the bit in the DDRB register corresponding to that pin is set to “0”.
• For a pin shared with other peripheral functions, disable the output of such peripheral functions.
• If data is written to the PDRB register, the value is stored in the output latch but is not output to the pin set as an
input port.
• Reading the PDRB register returns the pin value. However, if the read-modify-write (RMW) type of instruction is
used to read the PDRB register, the PDRB register value is returned.
• To use a pin shared with the LCDC as an input port, set a corresponding function select bit in the LCDC enable
register 3 (LCDCE3:SEG[01:00]) to “0” to select the general-purpose I/O port function, and then set the PICTL bit
in the LCDCE1 register to “1”.
• Operation as an LCDC segment output pin
• Set the bit in the DDRB register corresponding to an LCDC segment output pin to “0”.
• To use a pin shared with a general-purpose I/O port as an LCDC segment output pin, set a corresponding function
select bit in the LCDC enable register 3 (LCDCE3:SEG[01:00]) to “1” to select the LCDC segment output function,
and then set the PICTL bit in the LCDCE1 register to “1”.
• Operation at reset
If the CPU is reset, all bits in the DDRB register are initialized to “0” and port input is enabled.
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• Operation in stop mode and watch mode
• If the pin state setting bit in the standby control register (STBC:SPL) is set to “1” and the device transits to stop
mode or watch mode, the pin is compulsorily made to enter the high impedance state regardless of the DDRB register value. The input of that pin is locked to “L” level and blocked in order to prevent leaks due to input open.
• If the pin state setting bit is “0”, the state of the port I/O or that of the peripheral function I/O remains unchanged
and the output level is maintained.
19.8 Port C
Port C is a general-purpose I/O port. This section focuses on its functions as a general-purpose I/O port. For details of
peripheral functions, refer to their respective chapters in “New 8FX MB95710M/770M Series Hardware Manual”.
19.8.1 Port C configuration
Port C is made up of the following elements.
• General-purpose I/O pins/peripheral function I/O pins
• Port C data register (PDRC)
• Port C direction register (DDRC)
19.8.2 Block diagrams of port C
• PC0/SEG02 pin
This pin has the following peripheral function:
• LCDC SEG02 output pin (SEG02)
• PC1/SEG03 pin
This pin has the following peripheral function:
• LCDC SEG03 output pin (SEG03)
• PC2/SEG04 pin
This pin has the following peripheral function:
• LCDC SEG04 output pin (SEG04)
• PC3/SEG05 pin
This pin has the following peripheral function:
• LCDC SEG05 output pin (SEG05)
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• Block diagram of PC0/SEG02, PC1/SEG03, PC2/SEG04 and PC3/SEG05
LCD output
LCD output enable
0
1
PDRC read
Pin
Internal bus
PDRC
PDRC write
Executing bit manipulation instruction
DDRC read
DDRC
DDRC write
Stop mode, watch mode (SPL = 1)
19.8.3 Port C registers
• Port C register functions
Register
abbreviation
PDRC
DDRC
Data
Read
Read by read-modify-write
(RMW) instruction
Write
0
Pin state is “L” level.
PDRC value is “0”.
As output port, outputs “L” level.
1
Pin state is “H” level.
PDRC value is “1”.
As output port, outputs “H” level.
0
Port input enabled
1
Port output enabled
• Correspondence between registers and pins for port C
Correspondence between related register bits and pins
Pin name
PDRC
DDRC
-
-
-
-
PC3
PC2
PC1
PC0
-
-
-
-
bit3
bit2
bit1
bit0
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19.8.4 Port C operations
• Operation as an output port
• A pin becomes an output port if the bit in the DDRC register corresponding to that pin is set to “1”.
• For a pin shared with other peripheral functions, disable the output of such peripheral functions.
• When a pin is used as an output port, it outputs the value of the PDRC register to external pins.
• If data is written to the PDRC register, the value is stored in the output latch and is output to the pin set as an output
port as it is.
• Reading the PDRC register returns the PDRC register value.
• To use a pin shared with the LCDC as an output port, set a corresponding function select bit in the LCDC enable
register 3 (LCDCE3:SEG[05:02]) to “0” to select the general-purpose I/O port function, and then set the port input
control bit in the LCDC enable register 1 (LCDCE1:PICTL) to “1”.
• Operation as an input port
• A pin becomes an input port if the bit in the DDRC register corresponding to that pin is set to “0”.
• For a pin shared with other peripheral functions, disable the output of such peripheral functions.
• If data is written to the PDRC register, the value is stored in the output latch but is not output to the pin set as an
input port.
• Reading the PDRC register returns the pin value. However, if the read-modify-write (RMW) type of instruction is
used to read the PDRC register, the PDRC register value is returned.
• To use a pin shared with the LCDC as an input port, set a corresponding function select bit in the LCDC enable
register 3 (LCDCE3:SEG[05:02]) to “0” to select the general-purpose I/O port function, and then set the PICTL bit
in the LCDCE1 register to “1”.
• Operation as an LCDC segment output pin
• Set the bit in the DDRC register corresponding to an LCDC segment output pin to “0”.
• To use a pin shared with a general-purpose I/O port as an LCDC segment output pin, set a corresponding function
select bit in the LCDC enable register 3 (LCDCE3:SEG[05:02]) to “1” to select the LCDC segment output function,
and then set the PICTL bit in the LCDCE1 register to “1”.
• Operation at reset
If the CPU is reset, all bits in the DDRC register are initialized to “0” and port input is enabled.
• Operation in stop mode and watch mode
• If the pin state setting bit in the standby control register (STBC:SPL) is set to “1” and the device transits to stop
mode or watch mode, the pin is compulsorily made to enter the high impedance state regardless of the DDRC register value. The input of that pin is locked to “L” level and blocked in order to prevent leaks due to input open.
• If the pin state setting bit is “0”, the state of the port I/O or that of the peripheral function I/O remains unchanged
and the output level is maintained.
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19.9 Port E
Port E is a general-purpose I/O port. This section focuses on its functions as a general-purpose I/O port. For details of
peripheral functions, refer to their respective chapters in “New 8FX MB95710M/770M Series Hardware Manual”.
19.9.1 Port E configuration
Port E is made up of the following elements.
• General-purpose I/O pins/peripheral function I/O pins
• Port E data register (PDRE)
• Port E direction register (DDRE)
19.9.2 Block diagrams of port E
• PE0/SEG14 pin
This pin has the following peripheral function:
• LCDC SEG14 output pin (SEG14)
• PE1/SEG15 pin
This pin has the following peripheral function:
• LCDC SEG15 output pin (SEG15)
• PE2/SEG16 pin
This pin has the following peripheral function:
• LCDC SEG16 output pin (SEG16)
• PE3/SEG17 pin
This pin has the following peripheral function:
• LCDC SEG17 output pin (SEG17)
• PE4/SEG18 pin
This pin has the following peripheral function:
• LCDC SEG18 output pin (SEG18)
• Block diagram of PE0/SEG14, PE1/SEG15, PE2/SEG16, PE3/SEG17 and PE4/SEG18
LCD output
LCD output enable
0
1
PDRE read
Internal bus
PDRE
Pin
PDRE write
Executing bit manipulation instruction
DDRE read
DDRE
DDRE write
Stop mode, watch mode (SPL = 1)
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• PE5/SEG19/TO11 pin
This pin has the following peripheral functions:
• LCDC SEG19 output pin (SEG19)
• 8/16-bit composite timer ch. 1 output pin (TO11)
• PE6/SEG20/TO10 pin
This pin has the following peripheral functions:
• LCDC SEG20 output pin (SEG20)
• 8/16-bit composite timer ch. 1 output pin (TO10)
• PE7/SEG21/EC1 pin
This pin has the following peripheral functions:
• LCDC SEG21 output pin (SEG21)
• 8/16-bit composite timer ch. 1 clock input pin (EC1)
• Block diagram of PE5/SEG19/TO11, PE6/SEG20/TO10 and PE7/SEG21/EC1
Peripheral function input
Peripheral function input enable
Peripheral function output enable
Peripheral function output
LCD output
LCD output enable
0
1
PDRE read
1
Internal bus
PDRE
Pin
0
PDRE write
Executing bit manipulation instruction
DDRE read
DDRE
DDRE write
Stop mode, watch mode (SPL = 1)
19.9.3 Port E registers
• Port E register functions
Register
abbreviation
PDRE
DDRE
Data
Read
Read by read-modify-write
(RMW) instruction
Write
0
Pin state is “L” level.
PDRE value is “0”.
As output port, outputs “L” level.
1
Pin state is “H” level.
PDRE value is “1”.
As output port, outputs “H” level.
0
Port input enabled
1
Port output enabled
• Correspondence between registers and pins for port E
Correspondence between related register bits and pins
Pin name
PDRE
DDRE
PE7
PE6
PE5
PE4
PE3
PE2
PE1
PE0
bit7
bit6
bit5
bit4
bit3
bit2
bit1
bit0
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19.9.4 Port E operations
• Operation as an output port
• A pin becomes an output port if the bit in the DDRE register corresponding to that pin is set to “1”.
• For a pin shared with other peripheral functions, disable the output of such peripheral functions.
• When a pin is used as an output port, it outputs the value of the PDRE register to external pins.
• If data is written to the PDRE register, the value is stored in the output latch and is output to the pin set as an output
port as it is.
• Reading the PDRE register returns the PDRE register value.
• To use a pin shared with the LCDC as an output port, set a corresponding function select bit in the LCDC enable
register 4 (LCDCE4:SEG[15:14]) or in the LCDC enable register 5 (LCDCE5:SEG[21:16]) to “0” to select the general-purpose I/O port function, and then set the port input control bit in the LCDC enable register 1 (LCDCE1:PICTL) to “1”.
• Operation as an input port
• A pin becomes an input port if the bit in the DDRE register corresponding to that pin is set to “0”.
• For a pin shared with other peripheral functions, disable the output of such peripheral functions.
• If data is written to the PDRE register, the value is stored in the output latch but is not output to the pin set as an
input port.
• Reading the PDRE register returns the pin value. However, if the read-modify-write (RMW) type of instruction is
used to read the PDRE register, the PDRE register value is returned.
• To use a pin shared with the LCDC as an input port, set a corresponding function select bit in the LCDC enable
register 4 (LCDCE4:SEG[15:14]) or in the LCDC enable register 5 (LCDCE5:SEG[21:16]) to “0” to select the general-purpose I/O port function, and then set the PICTL bit in the LCDCE1 register to “1”.
• Operation as a peripheral function output pin
• A pin becomes a peripheral function output pin if the peripheral output function is enabled by setting the output
enable bit of a peripheral function corresponding to that pin.
• The pin value can be read from the PDRE register even if the peripheral function output is enabled. Therefore, the
output value of a peripheral function can be read by the read operation on the PDRE register. However, if the readmodify-write (RMW) type of instruction is used to read the PDRE register, the PDRE register value is returned.
• Operation as a peripheral function input pin
• To set a pin as an input port, set the bit in the DDRE register corresponding to the input pin of a peripheral function
to “0”.
• Reading the PDRE register returns the pin value, regardless of whether the peripheral function uses that pin as its
input pin. However, if the read-modify-write (RMW) type of instruction is used to read the PDRE register, the PDRE
register value is returned.
• Operation as an LCDC segment output pin
• Set the bit in the DDRE register corresponding to an LCDC segment output pin to “0”.
• To use a pin shared with a general-purpose I/O port as an LCDC segment output pin, set a corresponding function
select bit in the LCDC enable register 4 (LCDCE4:SEG[15:14]) or in the LCDC enable register 5 (LCDCE5:SEG[21:16]) to “1” to select the LCDC segment output function, and then set the PICTL bit in the LCDCE1
register to “1”.
• Operation at reset
If the CPU is reset, all bits in the DDRE register are initialized to “0” and port input is enabled.
• Operation in stop mode and watch mode
• If the pin state setting bit in the standby control register (STBC:SPL) is set to “1” and the device transits to stop
mode or watch mode, the pin is compulsorily made to enter the high impedance state regardless of the DDRE register value. The input of that pin is locked to “L” level and blocked in order to prevent leaks due to input open.
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• If the pin state setting bit is “0”, the state of the port I/O or that of the peripheral function I/O remains unchanged
and the output level is maintained.
19.10 Port F
Port F is a general-purpose I/O port. This section focuses on its functions as a general-purpose I/O port. For details of
peripheral functions, refer to their respective chapters in “New 8FX MB95710M/770M Series Hardware Manual”.
19.10.1 Port F configuration
Port F is made up of the following elements.
• General-purpose I/O pins/peripheral function I/O pins
• Port F data register (PDRF)
• Port F direction register (DDRF)
19.10.2 Block diagrams of port F
• PF0/X0 pin
This pin has the following peripheral function:
• Main clock input oscillation pin (X0)
• PF1/X1 pin
This pin has the following peripheral function:
• Main clock I/O oscillation pin (X1)
• Block diagram of PF0/X0 and PF1/X1
Hysteresis
0
1
PDRF read
Internal bus
PDRF
Pin
PDRF write
Executing bit manipulation instruction
DDRF read
DDRF
DDRF write
Stop mode, watch mode (SPL = 1)
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• PF2/RST pin
This pin has the following peripheral function:
• Reset pin (RST)
• Block diagram of PF2/RST
Reset input
Reset input enable
Reset output enable
Reset output
Hysteresis
0
1
PDRF read
Internal bus
Pin
1
PDRF
OD
0
PDRF write
Executing bit manipulation instruction
DDRF read
DDRF
DDRF write
Stop mode, watch mode (SPL = 1)
19.10.3 Port F registers
• Port F register functions
Register
abbreviation
PDRF
DDRF
Data
Read
Read by read-modify-write
(RMW) instruction
Write
0
Pin state is “L” level.
PDRF value is “0”.
As output port, outputs “L” level.
1
Pin state is “H” level.
PDRF value is “1”.
As output port, outputs “H” level.*
0
Port input enabled
1
Port output enabled
*: If the pin is an N-ch open drain pin, the pin state becomes Hi-Z.
• Correspondence between registers and pins for port F
Correspondence between related register bits and pins
Pin name
PDRF
DDRF
-
-
-
-
-
PF2*
PF1
PF0
-
-
-
-
-
bit2
bit1
bit0
*: PF2/RST is the dedicated reset pin on MB95F774M/F776M/F778M.
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19.10.4 Port F operations
• Operation as an output port
• A pin becomes an output port if the bit in the DDRF register corresponding to that pin is set to “1”.
• For a pin shared with other peripheral functions, disable the output of such peripheral functions.
• When a pin is used as an output port, it outputs the value of the PDRF register to external pins.
• If data is written to the PDRF register, the value is stored in the output latch and is output to the pin set as an output
port as it is.
• Reading the PDRF register returns the PDRF register value.
• Operation as an input port
• A pin becomes an input port if the bit in the DDRF register corresponding to that pin is set to “0”.
• For a pin shared with other peripheral functions, disable the output of such peripheral functions.
• If data is written to the PDRF register, the value is stored in the output latch but is not output to the pin set as an
input port.
• Reading the PDRF register returns the pin value. However, if the read-modify-write (RMW) type of instruction is
used to read the PDRF register, the PDRF register value is returned.
• Operation at reset
If the CPU is reset, all bits in the DDRF register are initialized to “0” and port input is enabled.
• Operation in stop mode and watch mode
• If the pin state setting bit in the standby control register (STBC:SPL) is set to “1” and the device transits to stop
mode or watch mode, the pin is compulsorily made to enter the high impedance state regardless of the DDRF register value. The input of that pin is locked to “L” level and blocked in order to prevent leaks due to input open.
• If the pin state setting bit is “0”, the state of the port I/O or that of the peripheral function I/O remains unchanged
and the output level is maintained.
19.11 Port G
Port G is a general-purpose I/O port. This section focuses on its functions as a general-purpose I/O port. For details of
peripheral functions, refer to their respective chapters in “New 8FX MB95710M/770M Series Hardware Manual”.
19.11.1 Port G configuration
Port G is made up of the following elements.
• General-purpose I/O pins/peripheral function I/O pins
• Port G data register (PDRG)
• Port G direction register (DDRG)
• Port G pull-up register (PULG)
19.11.2 Block diagram of port G
• PG1/X0A pin
This pin has the following peripheral function:
• Subclock input oscillation pin (X0A)
• PG2/X1A pin
This pin has the following peripheral function:
• Subclock I/O oscillation pin (X1A)
Document Number: 002-09307 Rev. *D
Page 121 of 172
MB95710M Series
MB95770M Series
• Block diagram of PG1/X0A and PG2/X1A
Hysteresis
0
Pull-up
1
PDRG read
PDRG
Pin
PDRG write
Internal bus
Executing bit manipulation instruction
DDRG read
DDRG
DDRG write
Stop mode, watch mode (SPL = 1)
PULG read
PULG
PULG write
19.11.3 Port G registers
• Port G register functions
Register
abbreviation
PDRG
DDRG
PULG
Data
Read
Read by read-modify-write
(RMW) instruction
Write
0
Pin state is “L” level.
PDRG value is “0”.
As output port, outputs “L” level.
1
Pin state is “H” level.
PDRG value is “1”.
As output port, outputs “H” level.
0
Port input enabled
1
Port output enabled
0
Pull-up disabled
1
Pull-up enabled
• Correspondence between registers and pins for port G
Correspondence between related register bits and pins
Pin name
-
-
-
-
-
PG2
PG1
-
-
-
-
-
-
bit2
bit1
-
PDRG
DDRG
PULG
Document Number: 002-09307 Rev. *D
Page 122 of 172
MB95710M Series
MB95770M Series
19.11.4 Port G operations
• Operation as an output port
• A pin becomes an output port if the bit in the DDRG register corresponding to that pin is set to “1”.
• For a pin shared with other peripheral functions, disable the output of such peripheral functions.
• When a pin is used as an output port, it outputs the value of the PDRG register to external pins.
• If data is written to the PDRG register, the value is stored in the output latch and is output to the pin set as an output
port as it is.
• Reading the PDRG register returns the PDRG register value.
• Operation as an input port
• A pin becomes an input port if the bit in the DDRG register corresponding to that pin is set to “0”.
• For a pin shared with other peripheral functions, disable the output of such peripheral functions.
• If data is written to the PDRG register, the value is stored in the output latch but is not output to the pin set as an
input port.
• Reading the PDRG register returns the pin value. However, if the read-modify-write (RMW) type of instruction is
used to read the PDRG register, the PDRG register value is returned.
• Operation at reset
If the CPU is reset, all bits in the DDRG register are initialized to “0” and port input is enabled.
• Operation in stop mode and watch mode
• If the pin state setting bit in the standby control register (STBC:SPL) is set to “1” and the device transits to stop
mode or watch mode, the pin is compulsorily made to enter the high impedance state regardless of the DDRG register value. The input of that pin is locked to “L” level and blocked in order to prevent leaks due to input open.
• If the pin state setting bit is “0”, the state of the port I/O or that of the peripheral function I/O remains unchanged
and the output level is maintained.
• Operation of the pull-up register
Setting the bit in the PULG register to “1” makes the pull-up resistor be internally connected to the pin. When the pin
output is “L” level, the pull-up resistor is disconnected regardless of the value of the PULG register.
Document Number: 002-09307 Rev. *D
Page 123 of 172
MB95710M Series
MB95770M Series
20. Interrupt Source Table
Interrupt source
External interrupt ch. 0
Interrupt
request
number
Vector table
address
Upper
Lower
Interrupt level
setting register
Register
Bit
IRQ00
0xFFFA 0xFFFB
ILR0
L00 [1:0]
IRQ01
0xFFF8 0xFFF9
ILR0
L01 [1:0]
IRQ02
0xFFF6 0xFFF7
ILR0
L02 [1:0]
IRQ03
0xFFF4 0xFFF5
ILR0
L03 [1:0]
IRQ04
0xFFF2 0xFFF3
ILR1
L04 [1:0]
8/16-bit composite timer ch. 0
(lower)
IRQ05
0xFFF0 0xFFF1
ILR1
L05 [1:0]
8/16-bit composite timer ch. 0
(upper)
IRQ06
0xFFEE 0xFFEF
ILR1
L06 [1:0]
UART/SIO ch. 2
IRQ07
0xFFEC 0xFFED
ILR1
L07 [1:0]
LCDC
IRQ08
0xFFEA 0xFFEB
ILR2
L08 [1:0]
IRQ09
0xFFE8 0xFFE9
ILR2
L09 [1:0]
8/16-bit PPG ch. 1 (upper)
IRQ10
0xFFE6 0xFFE7
ILR2
L10 [1:0]
16-bit reload timer ch. 0
IRQ11
0xFFE4 0xFFE5
ILR2
L11 [1:0]
8/16-bit PPG ch. 0 (upper)
IRQ12
0xFFE2 0xFFE3
ILR3
L12 [1:0]
8/16-bit PPG ch. 0 (lower)
IRQ13
0xFFE0 0xFFE1
ILR3
L13 [1:0]
8/16-bit composite timer ch. 1
(upper)
IRQ14
0xFFDE 0xFFDF
ILR3
L14 [1:0]
Comparator ch. 0
IRQ15
0xFFDC 0xFFDD
ILR3
L15 [1:0]
I C bus interface ch. 0
IRQ16
0xFFDA 0xFFDB
ILR4
L16 [1:0]
IRQ17
0xFFD8 0xFFD9
ILR4
L17 [1:0]
8/12-bit A/D converter
IRQ18
0xFFD6 0xFFD7
ILR4
L18 [1:0]
Time-base timer
IRQ19
0xFFD4 0xFFD5
ILR4
L19 [1:0]
IRQ20
0xFFD2 0xFFD3
ILR5
L20 [1:0]
IRQ21
0xFFD0 0xFFD1
ILR5
L21 [1:0]
8/16-bit composite timer ch. 1
(lower)
IRQ22
0xFFCE 0xFFCF
ILR5
L22 [1:0]
Flash memory
IRQ23
0xFFCC 0xFFCD
ILR5
L23 [1:0]
External interrupt ch. 4
External interrupt ch. 1
External interrupt ch. 5
External interrupt ch. 2
External interrupt ch. 6
External interrupt ch. 3
External interrupt ch. 7
UART/SIO ch. 0
Low-voltage detection circuit
8/16-bit PPG ch. 1 (lower)
UART/SIO ch. 1
2
—
Watch prescaler
Watch counter
—
Document Number: 002-09307 Rev. *D
Priority order of
interrupt sources
of the same level
(occurring
simultaneously)
High
Low
Page 124 of 172
MB95710M Series
MB95770M Series
21. Pin States In Each Mode
Pin name
Normal
operation
Sleep mode
Oscillation input Oscillation input
PF0/X0
I/O port*2
I/O port*2
Oscillation input Oscillation input
PF1/X1
PF2/RST
I/O port*2
I/O port*2
Reset input
Reset input
I/O port*2
I/O port*2
Oscillation input Oscillation input
PG1/X0A
I/O port*2
I/O port*2
Oscillation input Oscillation input
PG2/X1A
I/O port*2
P00/INT00/
AN00/
SEG29*8/
UO2
P01/INT01/
AN01/
SEG28*8/
SEG36*8/
TO00*9/UI2
P02/INT02/
AN02/
SEG27*8/
SEG35*8/
UCK2
P03/INT03/
AN03/
SEG26*8/
SEG34*8/
UO1
I/O port/
peripheral
function I/O/
analog input
I/O port*2
I/O port/
peripheral
function I/O/
analog input
Document Number: 002-09307 Rev. *D
Stop mode
SPL=0
SPL=1
Hi-Z
Hi-Z
- Previous state
- Hi-Z
kept
- Input
- Input
blocked*2, *3
2,
3
blocked* *
Hi-Z
Hi-Z
- Previous state
- Hi-Z
kept
- Input
- Input
blocked*2, *3
blocked*2, *3
Reset input
Reset input
- Previous state
- Hi-Z
kept
- Input
- Input
blocked*2, *3
blocked*2, *3
Hi-Z
Hi-Z
- Previous state
- Hi-Z*7
kept
- Input
- Input
blocked*2, *3
2,
3
blocked* *
Hi-Z
Hi-Z
Watch mode
SPL=0
SPL=1
Hi-Z
Hi-Z
- Previous state
- Hi-Z
kept
- Input
- Input
blocked*2, *3
2,
3
blocked* *
Hi-Z
-
Hi-Z
- Previous state
- Hi-Z*7
kept
- Input
- Input
blocked*2, *3
2,
3
blocked* *
Hi-Z
-
Reset input
- Previous state
- Hi-Z
kept
- Input
- Input
blocked*2, *3
blocked*2, *3
Hi-Z
-
Hi-Z
- Previous state
- Hi-Z
kept
- Input
- Input
blocked*2, *3
blocked*2, *3
Reset input
On reset
-
Hi-Z
- Previous state
- Hi-Z*7
kept
- Input
- Input
blocked*2, *3
blocked*2, *3
- Previous state
- Hi-Z*7
kept
- Input
- Input
blocked*2, *3
blocked*2, *3
- Previous state
- Hi-Z
kept
- Input
- Input
blocked*3, *10
blocked*3, *10
- Previous state
- Hi-Z
kept
- Input
- Input
blocked*3, *10
blocked*3, *10
-
Oscillation
input*1
Hi-Z
Input enabled*4
(However, it
does not
function.)
Oscillation
input*1
Hi-Z
Input enabled*4
(However, it
does not
function.)
Reset input*5
Hi-Z
Input enabled*4
(However, it
does not
function.)
Oscillation
input*6
Hi-Z
Input enabled*4
(However, it
does not
function.)
Oscillation
input*6
Hi-Z
Input enabled*4
(However, it
does not
function.)
- Hi-Z
- Input blocked*3
Page 125 of 172
MB95710M Series
MB95770M Series
Pin name
P04/INT04/
AN04/
SEG25*8/
SEG33*8/
UI1
P05/INT05/
AN05/
SEG24*8/
SEG32*8/
UCK1
P06/INT06/
AN06/
SEG23*8/
SEG31*8
P07/INT07/
AN07/
SEG22*8/
SEG30*8
Normal
operation
Sleep mode
Stop mode
SPL=0
SPL=1
Watch mode
SPL=0
SPL=1
On reset
I/O port/
peripheral
function I/O/
analog input
I/O port/
peripheral
function I/O/
analog input
- Previous state
- Hi-Z
kept
- Input
- Input
blocked*3, *10
3
10
blocked* , *
I/O port/
peripheral
function I/O
I/O port/
peripheral
function I/O
- Hi-Z
- Previous state
- Input enabled*4
- Previous state
7
7
- Hi-Z*
- Hi-Z*
kept
kept
(However, it
- Input blocked*3
- Input blocked*3
- Input blocked*3
- Input blocked*3
does not
function.)
I/O port/
peripheral
function I/O
I/O port/
peripheral
function I/O
- Previous state
kept
- Input blocked*3
P13/ADTG/
TO01*9
I/O port/
peripheral
P14/UCK0/ function I/O
I/O port/
peripheral
function I/O
- Hi-Z
- Previous state
- Input enabled*4
Previous
state
- Hi-Z*7
- Hi-Z*7
kept
kept
(However, it
- Input blocked*3
- Input blocked*3
- Input blocked*3
- Input blocked*3
does not
function.)
P10/UI0/
TO0*9
P11/UO0
P12/DBG
EC0*9/TI0*9
“H”
- Previous state
- Hi-Z
kept
- Input
- Input
blocked*3, *10
3
10
blocked* , *
- Previous state
kept
- Input blocked*3
“H”
- Hi-Z
- Input blocked*3
“H”
P15/
SEG31*8/
PPG11
P16/
SEG30*8/
PPG10
I/O port/
peripheral
function I/O
I/O port/
peripheral
function I/O
- Previous state
- Previous state
- Hi-Z
- Hi-Z
- Hi-Z
kept
kept
3
- Input blocked*
- Input blocked*3 - Input blocked*3
3
3
- Input blocked*
- Input blocked*
P17/
CMP0_O
I/O port/
peripheral
function I/O
I/O port/
peripheral
function I/O
- Hi-Z
- Previous state
- Input enabled*4
- Previous state
7
7
- Hi-Z*
- Hi-Z*
11
kept*11
kept*
(However, it
- Input blocked*3
- Input blocked*3
does not
- Input blocked*3
- Input blocked*3
function.)
I/O port/
peripheral
function I/O/
analog input
I/O port/
peripheral
function I/O/
analog input
- Previous state
- Previous state
- Hi-Z*7
- Hi-Z*7
kept
kept
- Hi-Z
3,
Input
blocked*
- Input blocked*3,
- Input blocked*3, 12
- Input blocked*3, 12
- Input enabled*4
*
*
*12
*12
I/O port/
peripheral
function I/O
I/O port/
peripheral
function I/O
- Previous state
- Hi-Z
kept
- Input
- Input
blocked*3, *13
blocked*3, *13
P20/
PPG00/
CMP0_N
P21/
PPG01/
CMP0_P
P22/SCL
P23/SDA
Document Number: 002-09307 Rev. *D
- Previous state
- Hi-Z
kept
- Input
- Input
blocked*3, *13
blocked*3, *13
- Hi-Z
- Input enabled*4
Page 126 of 172
MB95710M Series
MB95770M Series
Pin name
Normal
operation
Sleep mode
Stop mode
SPL=0
SPL=1
Watch mode
SPL=0
SPL=1
On reset
P40/
SEG21*14
P41/
SEG20*14
I/O port/
peripheral
function I/O
I/O port/
peripheral
function I/O
- Previous state
- Previous state
- Hi-Z
- Hi-Z
- Hi-Z
kept
kept
3
- Input blocked*
- Input blocked*3 - Input blocked*3
- Input blocked*3
- Input blocked*3
P51/EC0*14 I/O port/
peripheral
P52/TI0/
function I/O
TO00*14
I/O port/
peripheral
function I/O
- Hi-Z
- Previous state
- Input enabled*4
Previous
state
- Hi-Z*7
- Hi-Z*7
kept
kept
(However, it
- Input blocked*3
- Input blocked*3
- Input blocked*3
- Input blocked*3
does not
function.)
I/O port/
peripheral
function I/O
I/O port/
peripheral
function I/O
- Previous state
- Previous state
- Hi-Z
- Hi-Z
- Hi-Z
kept
kept
- Input blocked*3
- Input blocked*3 - Input blocked*3
- Input blocked*3
- Input blocked*3
I/O port/
peripheral
function I/O
I/O port/
peripheral
function I/O
- Previous state
- Previous state
- Hi-Z
- Hi-Z
- Hi-Z
kept
kept
3
- Input blocked*
- Input blocked*3 - Input blocked*3
3
3
- Input blocked*
- Input blocked*
P42/
SEG19*14
P43/
SEG18*14
P50/
TO01*14
P53/TO0*14
P60/
SEG06*8/
SEG10*8
P61/
SEG07*8/
SEG11*8
P62/
SEG08*8/
SEG12*8
P63/
SEG09*8/
SEG13*8
P64/
SEG10*8/
SEG14*8
P65/
SEG11*8/
SEG15*8
P66/
SEG12*8/
SEG16*8
P67/
SEG13*8/
SEG17*8
P90/V4
P91/V3
P92/V2
P93/V1
P94/V0*14
Document Number: 002-09307 Rev. *D
Page 127 of 172
MB95710M Series
MB95770M Series
Pin name
Normal
operation
PA0/COM0
PA1/COM1
PA2/COM2
I/O port/
PA3/COM3
peripheral
PA4/COM4
function I/O
PA5/COM5
PA6/COM6
PA7/COM7
PB0/SEG00
PB1/SEG01
PB2/
I/O port/
SEG37*14
peripheral
PB3/
function I/O
SEG38*14
PB4/
SEG39*14
PC0/
SEG02
PC1/
SEG03
PC2/
SEG04
PC3/
I/O port/
SEG05
peripheral
PC4/
function I/O
SEG06*14
PC5/
SEG07*14
PC6/
SEG08*14
PC7/
SEG09*14
Sleep mode
Stop mode
SPL=0
SPL=1
Watch mode
SPL=0
SPL=1
On reset
I/O port/
peripheral
function I/O
- Previous state
- Previous state
- Hi-Z
- Hi-Z
- Hi-Z
kept
kept
3
- Input blocked*
- Input blocked*3 - Input blocked*3
3
3
- Input blocked*
- Input blocked*
I/O port/
peripheral
function I/O
- Previous state
- Previous state
- Hi-Z
- Hi-Z
- Hi-Z
kept
kept
3
- Input blocked*
- Input blocked*3 - Input blocked*3
3
3
- Input blocked*
- Input blocked*
I/O port/
peripheral
function I/O
- Previous state
- Previous state
- Hi-Z
- Hi-Z
- Hi-Z
kept
kept
3
- Input blocked*
- Input blocked*3 - Input blocked*3
3
3
- Input blocked*
- Input blocked*
Document Number: 002-09307 Rev. *D
Page 128 of 172
MB95710M Series
MB95770M Series
Pin name
PE0/
SEG14*8/
SEG22*8
PE1/
SEG15*8/
SEG23*8
PE2/
SEG16*8/
SEG24*8
PE3/
SEG17*8/
SEG25*8
PE4/
SEG18*8/
SEG26*8
PE5/
SEG19*8/
SEG27*8/
TO11
PE6/
SEG20*8/
SEG28*8/
TO10
PE7/
SEG21*8/
SEG29*8/
EC1
Normal
operation
I/O port/
peripheral
function I/O
Sleep mode
I/O port/
peripheral
function I/O
Stop mode
SPL=0
SPL=1
Watch mode
SPL=0
SPL=1
On reset
- Previous state
- Previous state
- Hi-Z
- Hi-Z
- Hi-Z
kept
kept
3
Input
blocked*
- Input blocked*3 - Input blocked*3
3
3
- Input blocked*
- Input blocked*
SPL: Pin state setting bit in the standby control register (STBC:SPL)
Hi-Z: High impedance
*1: PF0/X0 and PF1/X1 transit to this state on a reset when configured as a main clock oscillation pins.
*2: The pin stays at the state shown when configured as a general-purpose I/O port.
*3: “Input blocked” means direct input gate operation from the pin is disabled.
*4: “Input enabled” means that the input function is enabled. While the input function is enabled, execute a pull-up operation or a pull-down operation to prevent leaks due to external input. If a pin is used as an output port, its pin state
is the same as that of other ports.
*5: The PF2/RST pin stays at the state shown when configured as a reset pin.
*6: PG1/X0A and PG2/X1A transit to this state on a reset when configured as subclock oscillation pins.
*7: The pull-up control setting is still effective.
*8: The MB95710M Series and the MB95770M Series have different SEG output assignment as shown below.
SEG output
Pin on MB95710M Series
Pin on MB95770M Series
SEG06
PC4
P60
SEG07
PC5
P61
SEG08
PC6
P62
SEG09
PC7
P63
SEG10
P60
P64
SEG11
P61
P65
SEG12
P62
P66
SEG13
P63
P67
SEG14
P64
PE0
SEG15
P65
PE1
SEG16
P66
PE2
Document Number: 002-09307 Rev. *D
Page 129 of 172
MB95710M Series
MB95770M Series
SEG output
Pin on MB95710M Series
Pin on MB95770M Series
SEG17
P67
PE3
SEG18
P43
PE4
SEG19
P42
PE5
SEG20
P41
PE6
SEG21
P40
PE7
SEG22
PE0
P07
SEG23
PE1
P06
SEG24
PE2
P05
SEG25
PE3
P04
SEG26
PE4
P03
SEG27
PE5
P02
SEG28
PE6
P01
SEG29
PE7
P00
SEG30
P07
P16
SEG31
P06
P15
SEG32
P05
—
SEG33
P04
—
SEG34
P03
—
SEG35
P02
—
SEG36
P01
—
*9: On the MB95770M Series, TO00 is assigned to P01, TO0 to P10, TO01 to P13, and EC0 and TI0 to P14.
*10: Though input is blocked, an external interrupt can be input when the external interrupt request is enabled.
*11: The output function of the comparator is still in operation in stop mode and watch mode.
*12: Though input is blocked, an analog signal can also be input to generate a comparator interrupt when the comparator
interrupt is enabled.
*13: The I2C bus interface can wake up the MCU in stop mode or watch mode when its MCU standby mode wakeup
function is enabled. For details of the MCU standby mode wakeup function, refer to “CHAPTER 23 I2C BUS INTERFACE” in “New 8FX MB95710M/770M Series Hardware Manual”.
*14: P40/SEG21, P41/SEG20, P42/SEG19, P43/SEG18, P50/TO01, P51/EC0, P52/TI0/TO00, P53/TO0, P94/V0,
PB2/SEG37, PB3/SEG38, PB4/SEG39, PC4/SEG06, PC5/SEG07, PC6/SEG08 and PC7/SEG09 are only available on the MB95710M Series.
Document Number: 002-09307 Rev. *D
Page 130 of 172
MB95710M Series
MB95770M Series
22. Electrical Characteristics
22.1 Absolute Maximum Ratings
Rating
Parameter
Symbol
Power supply voltage*1
VCC
VSS − 0.3 VSS + 6
V
Input voltage*1
VI
VSS − 0.3 VSS + 6
V
*2
Output voltage*1
VO
VSS − 0.3 VSS + 6
V
*2
Min
Max
Unit
Remarks
ICLAMP
−2
+2
mA Applicable to specific pins*3
Σ|ICLAMP|
—
20
mA Applicable to specific pins*3
IOL
—
15
mA
“L” level average current
IOLAV
—
4
mA
“L” level total maximum
output current
ΣIOL
—
100
mA
ΣIOLAV
—
50
Total average output current =
mA operating current × operating ratio
(Total number of pins)
IOH
—
−15
mA
“H” level average
current
IOHAV
—
−4
mA
“H” level total maximum
output current
ΣIOH
—
−100
mA
ΣIOHAV
—
−50
Total average output current =
mA operating current × operating ratio
(Total number of pins)
Power consumption
Pd
—
320
mW
Operating temperature
TA
−40
+85
Storage temperature
Tstg
−55
+150
°C
°C
Maximum clamp current
Total maximum clamp
current
“L” level maximum
output current
“L” level total average
output current
“H” level maximum
output current
“H” level total average
output current
Average output current =
operating current × operating ratio (1 pin)
Average output current =
operating current × operating ratio (1 pin)
*1: These parameters are based on the condition that VSS is 0.0 V.
*2: V1 and V0 must not exceed VCC + 0.3 V. V1 must not exceed the rated voltage. However, if the maximum current
to/from an input is limited by means of an external component, the ICLAMP rating is used instead of the VI rating.
*3: Specific pins: P00 to P07, P10, P11, P13 to P16, P20 to P22, P40 to P43, P50 to P53, P60 to P67, P90 to P94, PA0
to PA7, PB0 to PB4, PC0 to PC7, PE0 to PE7, PF0, PF1, PG1, PG2 (P40 to P43, P50 to P53, P94, PB2 to PB4 and
PC4 to PC7 are only available on the MB95710M Series.)
• Use under recommended operating conditions.
• Use with DC voltage (current).
• The HV (High Voltage) signal is an input signal exceeding the VCC voltage. Always connect a limiting resistor between
the HV (High Voltage) signal and the microcontroller before applying the HV (High Voltage) signal.
Document Number: 002-09307 Rev. *D
Page 131 of 172
MB95710M Series
MB95770M Series
• The value of the limiting resistor should be set to a value at which the current to be input to the microcontroller pin
when the HV (High Voltage) signal is input is below the standard value, irrespective of whether the current is transient
current or stationary current.
• When the microcontroller drive current is low, such as in low power consumption modes, the HV (High Voltage)
input potential may pass through the protective diode to increase the potential of the VCC pin, affecting other devices.
• If the HV (High Voltage) signal is input when the microcontroller power supply is off (not fixed at 0 V), since power
is supplied from the pins, incomplete operations may be executed.
• If the HV (High Voltage) input is input after power-on, since power is supplied from the pins, the voltage of power
supply may not be sufficient to enable a power-on reset.
• Do not leave the HV (High Voltage) input pin unconnected.
• Example of a recommended circuit:
• Input/Output equivalent circuit
Protective diode
VCC
P-ch
Limiting
resistor
HV(High Voltage) input (0 V to 16 V)
N-ch
R
WARNING: Semiconductor devices may be permanently damaged by application of stress (including, without
limitation, voltage, current or temperature) in excess of absolute maximum ratings.
Do not exceed any of these ratings.
Document Number: 002-09307 Rev. *D
Page 132 of 172
MB95710M Series
MB95770M Series
22.2 Recommended Operating Conditions
Parameter
Symbol
(VSS = 0.0 V)
Value
Min
Max
Unit
Remarks
Power supply voltage
VCC
1.8*1
5.5
V
In normal operation
Decoupling capacitor
CS
0.2
10
µF
A capacitor of about 1.0 µF is
recommended. *2
Operating temperature
TA
−40
+85
+5
+35
°C
Other than on-chip debug mode
On-chip debug mode
*1: The minimum power supply voltage becomes 2.18 V when a product with the low-voltage detection reset is used or
when the on-chip debug mode is used.
*2: Use a ceramic capacitor or a capacitor with equivalent frequency characteristics. For the connection to a decoupling
capacitor CS, see the diagram below. To prevent the device from unintentionally entering an unknown mode due to
noise, minimize the distance between the C pin and CS and the distance between CS and the VSS pin when designing
the layout of a printed circuit board.
• DBG / RST / C pins connection diagram
*
DBG
C
RST
Cs
*: Connect the DBG pin to an external pull-up resistor of 2 kΩ or above. After power-on, ensure that the
DBG pin does not stay at “L” level until the reset output is released. The DBG pin becomes a communication pin in debug mode. Since the actual pull-up resistance depends on the tool used and the
interconnection length, refer to the tool document when selecting a pull-up resistor.
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 under these conditions.
Any use of semiconductor devices will be under their recommended operating condition.
Operation under any conditions other than these conditions may adversely affect reliability of device and
could result in device failure.
No warranty is made with respect to any use, operating conditions or combinations not represented on this
data sheet. If you are considering application under any conditions other than listed herein, please contact
sales representatives beforehand.
Document Number: 002-09307 Rev. *D
Page 133 of 172
MB95710M Series
MB95770M Series
22.3 DC Characteristics
Parameter Symbol
VIHI
“H” level
input
voltage
VIHS
VIHM
VILI
“L” level
input
voltage
VILS
VILM
Open-drain
output
application
voltage
“H” level
output
voltage
Pin name
P01, P04, P10,
P22, P23
P00 to P07,
P10 to P17,
P20 to P23,
P40 to P43*2,
P50 to P53*2,
P60 to P67,
P90 to P93,
P94*2,
PA0 to PA7,
PB0, PB1,
PB2 to PB4*2,
PC0 to PC3,
PC4 to PC7*2,
PE0 to PE7,
PF0, PF1, PG1,
PG2
PF2
P01, P04, P10,
P22, P23
P00 to P07,
P10 to P17,
P20 to P23,
P40 to P43*2,
P50 to P53*2,
P60 to P67,
P90 to P93,
P94*2,
PA0 to PA7,
PB0, PB1,
PB2 to PB4*2,
PC0 to PC3,
PC4 to PC7*2,
PE0 to PE7,
PF0, PF1, PG1,
PG2
PF2
Condition
*1
0.7 VCC
—
VCC + 0.3
V
*1
0.8 VCC
—
VCC + 0.3
V
Hysteresis input
—
0.7 VCC
—
VCC + 0.3
V
Hysteresis input
*1
VSS − 0.3
—
0.3 VCC
V
*1
VSS − 0.3
—
0.2 VCC
V
Hysteresis input
—
VSS − 0.3
—
0.3 VCC
V
Hysteresis input
—
VSS − 0.3
—
VSS + 5.5
V
VCC − 0.5
—
—
V
VD
P12, P22, P23,
PF2
VOH
Output pins
other than P12, IOH = −4 mA*3
P22, P23, PF2
Document Number: 002-09307 Rev. *D
(VCC = 3.0 V±10%, VSS = 0.0 V, TA = −40 °C to +85 °C)
Value
Unit
Remarks
Min
Typ
Max
Page 134 of 172
MB95710M Series
MB95770M Series
(VCC = 3.0 V±10%, VSS = 0.0 V, TA = −40 °C to +85 °C)
Parameter
“L” level
output
voltage
Input leak
current (Hi-Z
output leak
current)
Internal
pull-up
resistor
Input
capacitance
Symbol
VOL
ILI
RPULL
CIN
Pin name
Condition
Value
Unit
Remarks
Min
Typ
Max
All output pins IOL = 4 mA*4
—
—
0.4
V
All input pins
−5
—
+5
µA
P10, P11, P13,
P14, P17,
P20, P21,
VI = 0 V
P50 to P53*2,
PG1, PG2
75
100
150
When the internal
kΩ pull-up resistor is
enabled
Other than VCC
f = 1 MHz
and VSS
—
5
15
pF
Document Number: 002-09307 Rev. *D
0.0 V < VI < VCC
When the internal
pull-up resistor is
disabled
Page 135 of 172
MB95710M Series
MB95770M Series
(VCC = 3.0 V±10%, VSS = 0.0 V, TA = −40 °C to +85 °C)
Parameter
Symbol
Pin name
FCH = 32 MHz
FMP = 16 MHz
Main clock mode
(divided by 2)
ICC
Value
Min
—
Typ*1 Max*5
4.7
Unit
Remarks
7.3
Except during
Flash memory
mA
programming and
erasing
—
9.8
15.8
During Flash
memory
mA
programming and
erasing
—
2.1
3.4
mA
ICCL
VCC
(External clock FCL = 32 kHz
FMPL = 16 kHz
operation)
Subclock mode
(divided by 2)
TA = +25 °C
—
35
60
µA
ICCLS
FCL = 32 kHz
FMPL = 16 kHz
Subsleep mode
(divided by 2)
TA = +25 °C
—
2
7
µA
ICCT
FCL = 32 kHz
Watch mode
Main stop mode
TA = +25 °C
—
1.2
6.2
µA
ICCMPLL
FMPLL = 16 MHz
FMP = 16 MHz
Main PLL clock
mode
(multiplied by 4)
—
5.3
8.5
mA
FMCRPLL = 16 MHz
FMP = 16 MHz
Main CR PLL clock
mode
(multiplied by 4)
—
4.9
8.3
mA
ICCMCR
FCRH = 4 MHz
FMP = 4 MHz
Main CR clock mode
—
1.7
3.4
mA
ICCSCR
Sub-CR clock mode
TA = +25 °C
—
54
100
µA
ICCS
Power supply
current*6
Condition
ICCMCRPLL VCC
Document Number: 002-09307 Rev. *D
FCH = 32 MHz
FMP = 16 MHz
Main sleep mode
(divided by 2)
Page 136 of 172
MB95710M Series
MB95770M Series
Parameter
Symbol
ICCTS
ICCH
IA
IAH
IV
IPLVD
Power
supply
current*6
IILVD
IILVDL
ICRH
ICRL
ISOSC
Pin name
Condition
FCH = 32 MHz
Time-base timer
VCC
mode
(External clock
TA = +25 °C
operation)
Substop mode
TA = +25 °C
FCH = 16 MHz
Current
consumption of the
A/D converter
FCH = 16 MHz
Current
consumption with
AVCC
the A/D converter
halted
FCH = 16 MHz
Current
consumption of the
comparator
Current
consumption of the
low-voltage
detection reset
circuit in operation
Current
consumption of the
low-voltage
detection interrupt
circuit operating in
normal mode
Current
consumption of the
low-voltage
detection interrupt
VCC
circuit operating in
low power
consumption mode
Current
consumption of the
main CR oscillator
Current
consumption of the
sub-CR oscillator
oscillating at
100 kHz
Current
consumption of the
suboscillator
Document Number: 002-09307 Rev. *D
(VCC = 3.0 V±10%, VSS = 0.0 V, TA = −40 °C to +85 °C)
Value
Unit
Remarks
Min Typ*1 Max*5
—
450
500
µA
—
0.7
5
µA
—
1.8
3.2
mA
—
0.1
1.7
µA
—
160
700
µA
—
6
26
µA
—
6
14
µA
—
3
10
µA
—
270
320
µA
—
5
20
µA
—
0.8
7
µA
Page 137 of 172
MB95710M Series
MB95770M Series
(VCC = 3.0 V±10%, VSS = 0.0 V, TA = −40 °C to +85 °C)
Parameter
Symbol
Pin name
LCD internal
division
resistance
RLCD
—
COM0 to
COM7
output
impedance
RVCOM
SEG00 to
SEG39*7
output
impedance
RVSEG
SEG00 to
SEG39*7
ILCDL
V0*8 to V4,
COM0 to
COM7,
SEG00 to
SEG39*7
LCD leakage
current
Condition
Between V4 and
VSS
COM0 to
COM7
Value
Min
Typ*1 Max*5
Unit
—
400
—
kΩ
—
40
—
kΩ
—
—
5
kΩ
—
—
7
kΩ
−1
—
+1
µA
Remarks
V1 to V4 = 4.1 V
—
*1: VCC = 3.0 V, TA = +25 °C
*2: P40 to P43, P50 to P53, P94, PB2 to PB4 are only available on the MB95710M Series.
*3: When VCC is smaller than 4.5 V, the condition becomes IOH = −2 mA.
*4: When VCC is smaller than 4.5 V, the condition becomes IOL = 2 mA.
*5: VCC = 3.3 V, TA = +85 °C (unless otherwise specified)
*6: • The power supply current is determined by the external clock. When the low-voltage detection reset circuit is selected, the power supply current is the sum of adding the current consumption of the low-voltage detection reset
circuit (IPLVD) to one of the values from ICC to ICCH. In addition, when both the low-voltage detection reset circuit and
a CR oscillator are selected, the power supply current is the sum of adding up the current consumption of the lowvoltage detection reset circuit (IPLVD), the current consumption of the CR oscillator (ICRH or ICRL) and one of the values from ICC to ICCH. In on-chip debug mode, the main CR oscillator (ICRH) and the low-voltage detection reset circuit
are always in operation, and current consumption therefore increases accordingly.
• See “4. AC Characteristics Clock Timing” for FCH, FCL, FCRH, FMCRPLL and FMPLL.
• See “4. AC Characteristics Source Clock/Machine Clock” for FMP and FMPL.
• The power supply current in subclock mode is determined by the external clock. In subclock mode, current consumption in using the crystal oscillator is higher than that in using the external clock. When the crystal oscillator is
used, the power supply current is the sum of adding ISOSC (current consumption of the suboscillator) to the power
supply current in using the external clock. For details of controlling the subclock, refer to “CHAPTER 3 CLOCK
CONTROLLER” and “CHAPTER 30 SYSTEM CONFIGURATION REGISTER” in “New 8FX MB95710M/770M Series Hardware Manual”.
*7: SEG32 to SEG39 are only available on the MB95710M Series.
*8: V0 is only available on the MB95710M Series.
Document Number: 002-09307 Rev. *D
Page 138 of 172
MB95710M Series
MB95770M Series
22.4 AC Characteristics
22.4.1 Clock Timing
Parameter
Clock
frequency
(VCC = 1.8 V to 5.5 V, VSS = 0.0 V, TA = −40 °C to +85 °C)
Value
Symbol Pin name Condition
Unit
Remarks
Min
Typ
Max
When the main oscillation
X0, X1
—
1
—
16.25 MHz
circuit is used
When the main external clock
X0
—
1
—
32.5 MHz
is used
Operating conditions
4
—
8.13 MHz • The main clock is used.
• PLL multiplication rate: 2
Operating conditions
FCH
4
—
6.5 MHz • The main clock is used.
• PLL multiplication rate: 2.5
X0, X1
—
Operating conditions
4
—
5.41 MHz • The main clock is used.
• PLL multiplication rate: 3
Operating conditions
4
—
4.06 MHz • The main clock is used.
• PLL multiplication rate: 4
Operating conditions
3.92
4
4.08 MHz • The main CR clock is used.
• 0 °C ≤ TA ≤ +70 °C
FCRH
—
—
Operating conditions
• The main CR clock is used.
3.8
4
4.2 MHz
• − 40 °C ≤ TA < 0 °C,
+ 70 °C < TA ≤ + 85 °C
Operating conditions
7.84
8
8.16 MHz • PLL multiplication rate: 2
• 0 °C ≤ TA ≤ +70 °C
Operating conditions
• PLL multiplication rate: 2
7.6
8
8.4 MHz
• − 40 °C ≤ TA < 0 °C,
+ 70 °C < TA ≤ + 85 °C
Operating conditions
9.8
10
10.2 MHz • PLL multiplication rate: 2.5
• 0 °C ≤ TA ≤ +70 °C
FMCRPLL
—
—
Operating conditions
• PLL multiplication rate: 2.5
9.5
10
10.5 MHz
• − 40 °C ≤ TA < 0 °C,
+ 70 °C < TA ≤ + 85 °C
Operating conditions
11.76
12
12.24 MHz • PLL multiplication rate: 3
• 0 °C ≤ TA ≤ +70 °C
Operating conditions
• PLL multiplication rate: 3
11.4
12
12.6 MHz
• − 40 °C ≤ TA < 0 °C,
+ 70 °C < TA ≤ + 85 °C
Document Number: 002-09307 Rev. *D
Page 139 of 172
MB95710M Series
MB95770M Series
(VCC = 1.8 V to 5.5 V, VSS = 0.0 V, TA = −40 °C to +85 °C)
Parameter
Symbol Pin name Condition
FMCRPLL
Clock
frequency
—
FMPLL
FCL
—
X0A, X1A
Input clock
rising time and
falling time
CR oscillation
start time
Max
15.68
16
Operating conditions
16.32 MHz • PLL multiplication rate: 4
• 0 °C ≤ TA ≤ +70 °C
15.2
16
16.8
Operating conditions
• PLL multiplication rate: 4
MHz
• − 40 °C ≤ TA < 0 °C,
+ 70 °C < TA ≤ + 85 °C
8
—
16
MHz
When the main PLL clock is
used
—
32.768
—
kHz
When the sub-oscillation
circuit is used
—
32.768
—
kHz
When the sub-external clock
is used
——
—
50
100
150
kHz
When the sub-CR clock is
used
X0, X1
—
61.5
—
1000
ns
When the main oscillation
circuit is used
X0
—
30.8
—
1000
ns
When an external clock is
used
X0, X1
—
—
250
—
ns
When the main PLL clock is
used
X0A, X1A
—
—
30.5
—
µs When the subclock is used
X0
—
12.4
—
—
ns
When an external clock is
used, the duty ratio should
range between 40% and 60%.
X0, X1
—
—
125
—
ns
When the main PLL clock is
used
tWH2,
tWL2
X0A
—
—
15.2
—
When an external clock is
µs used, the duty ratio should
range between 40% and 60%.
tCR,
tCF
X0, X0A
—
—
—
5
ns
When an external clock is
used
tHCYL
tLCYL
Input clock
pulse width
Remarks
Typ
—
—
Unit
Min
—
FCRL
Clock cycle
time
Value
tWH1,
tWL1
tCRHWK
—
—
—
—
50
µs
When the main CR clock is
used
tCRLWK
—
—
—
—
30
µs
When the sub-CR clock is
used
—
—
—
—
100
µs
When the main CR PLL clock
is used
PLL oscillation
tMCRPLLWK
start time
Document Number: 002-09307 Rev. *D
Page 140 of 172
MB95710M Series
MB95770M Series
• Input waveform generated when an external clock (main clock) is used
tHCYL
tWH1
tWL1
tCR
tCF
0.8 VCC 0.8 VCC
X0, X1
0.2 VCC
0.2 VCC
0.2 VCC
• Figure of main clock input port external connection
When a crystal oscillator or
a ceramic oscillator is used
X0
When an external clock
is used
X0
X1
FCH
FCH
• Input waveform generated when an external clock (subclock) is used
tLCYL
tWH2
tCR
tWL2
tCF
0.8 VCC 0.8 VCC
X0A
0.2 VCC
0.2 VCC
0.2 VCC
• Figure of subclock input port external connection
When a crystal oscillator or
a ceramic oscillator is used
X0A
X1A
When an external clock
is used
X0A
FCL
FCL
Document Number: 002-09307 Rev. *D
Page 141 of 172
MB95710M Series
MB95770M Series
• Input waveform generated when an internal clock (main CR clock) is used
tCRHWK
1/FCRH
Main CR clock
Oscillation starts
Oscillation stabilizes
• Input waveform generated when an internal clock (sub-CR clock) is used
tCRLWK
1/FCRL
Sub-CR clock
Oscillation starts
Oscillation stabilizes
• Input waveform generated when an internal clock (main CR PLL clock) is used
1/FMCRPLL
tMCRPLLWK
Main CR PLL clock
Oscillation starts
Document Number: 002-09307 Rev. *D
Oscillation stabilizes
Page 142 of 172
MB95710M Series
MB95770M Series
22.4.2 Source Clock/Machine Clock
Parameter
Source clock
cycle time*1
Symbol
tSCLK
(VCC = 1.8 V to 5.5 V, VSS = 0.0 V, TA = −40 °C to +85 °C)
Pin
name
—
FSPL
Machine clock
cycle time*2
(minimum
instruction
execution time)
tMCLK
Unit
Typ
Max
61.5
—
2000
ns
When the main external clock is used
Min: FCH = 32.5 MHz, divided by 2
Max: FCH = 1 MHz, divided by 2
—
250
—
ns
When the main CR clock is used
62.5
—
250
ns
When the main PLL clock is used
Min: FCH = 4 MHz, multiplied by 4
Max: FCH = 4 MHz, no division
62.5
—
250
ns
When the main CR PLL clock is used
Min: FCRH = 4 MHz, multiplied by 4
Max: FCRH = 4 MHz, no division
—
61
—
µs
When the sub-oscillation clock is used
FCL = 32.768 kHz, divided by 2
—
20
—
µs
When the sub-CR clock is used
FCL = 100 kHz, divided by 2
0.5
—
16.25
—
4
—
MHz When the main CR clock is used
8
—
16
MHz When the main PLL clock is used
8
—
16
MHz When the main CR PLL clock is used
—
16.384
—
kHz When the sub-oscillation clock is used
—
50
—
kHz
61.5
—
32000
ns
When the main oscillation clock is used
Min: FSP = 16.25 MHz, no division
Max: FSP = 0.5 MHz, divided by 16
250
—
4000
ns
When the main CR clock is used
Min: FSP = 4 MHz, no division
Max: FSP = 4 MHz, divided by 16
62.5
—
2000
ns
When the main PLL clock is used
Min: FSP = 4 MHz, multiplied by 4
Max: FSP = 4 MHz, divided by 16
62.5
—
2000
ns
When the main CR PLL clock is used
Min: FSP = 4 MHz, multiplied by 4
Max: FSP = 4 MHz, divided by 16
61
—
976.5
µs
When the sub-oscillation clock is used
Min: FSPL = 16.384 kHz, no division
Max: FSPL = 16.384 kHz, divided by 16
20
—
320
µs
When the sub-CR clock is used
Min: FSPL = 50 kHz, no division
Max: FSPL = 50 kHz, divided by 16
MHz When the main oscillation clock is used
—
Document Number: 002-09307 Rev. *D
Remarks
Min
—
FSP
Source clock
frequency
Value
When the sub-CR clock is used
FCRL = 100 kHz, divided by 2
Page 143 of 172
MB95710M Series
MB95770M Series
(VCC = 1.8 V to 5.5 V, VSS = 0.0 V, TA = −40 °C to +85 °C)
Parameter
Symbol
Pin
name
FMP
Machine clock
frequency
—
FMPL
Value
Unit
Remarks
Min
Typ
Max
0.031
—
16.25
0.25
—
4
MHz When the main CR clock is used
0.5
—
16
MHz When the main PLL clock is used
0.5
—
16
MHz When the main CR PLL clock is used
1.024
—
16.384
kHz When the sub-oscillation clock is used
3.125
—
50
MHz When the main oscillation clock is used
kHz
When the sub-CR clock is used
FCRL = 100 kHz
*1: This is the clock before it is divided according to the division ratio set by the machine clock division ratio select bits
(SYCC:DIV[1:0]). This source clock is divided to become a machine clock according to the division ratio set by the
machine clock division ratio select bits (SYCC:DIV[1:0]). In addition, a source clock can be selected from the following.
• Main clock divided by 2
• PLL multiplication of main clock (Select a multiplication rate from 2, 2.5, 3 and 4.)
• Main CR clock
• PLL multiplication of main CR clock (Select a multiplication rate from 2, 2.5, 3 and 4.)
• Subclock divided by 2
• Sub-CR clock divided by 2
*2: This is the operating clock of the microcontroller. A machine clock can be selected from the following.
• Source clock (no division)
• Source clock divided by 4
• Source clock divided by 8
• Source clock divided by 16
Document Number: 002-09307 Rev. *D
Page 144 of 172
MB95710M Series
MB95770M Series
• Schematic diagram of the clock generation block
FCH
(Main oscillation clock)
Divided by 2
FMPLL
(Main PLL clock)
FCRH
(Main CR clock)
SCLK
(Source clock)
FMCRPLL
(Main CR PLL clock)
FCL
(Suboscillation clock)
Divided by 2
FCRL
(Sub-CR clock)
Divided by 2
Division circuit
×
1
× 1/4
× 1/8
× 1/16
MCLK
(Machine clock)
Machine clock divide ratio select bits
(SYCC:DIV[1:0])
Clock mode select bits
(SYCC:SCS[2:0])
• Operating voltage - Operating frequency (TA = −40 °C to +85 °C)
5.5
5.0
Operating voltage (V)
4.5
4.0
A/D converter operation range
3.5
3.0
2.5
2.0
1.8
1.5
≈
0.0
16 kHz
3 MHz
10 MHz
16.25 MHz
Source clock frequency (FSP/FSPL)
Document Number: 002-09307 Rev. *D
Page 145 of 172
MB95710M Series
MB95770M Series
22.4.3 External Reset
Parameter
(VCC = 3.0 V to 5.5 V, VSS = 0.0 V, TA = −40 °C to +85 °C)
Value
Symbol
RST “L” level
pulse width
tRSTL
Min
Max
2 tMCLK*
—
Unit
Remarks
ns
*: See “Source Clock/Machine Clock” for tMCLK.
tRSTL
RST
0.2 VCC
0.2 VCC
22.4.4 Power-on Reset
Parameter
(VSS = 0.0 V, TA = −40 °C to +85 °C)
Symbol
Value
Pin
name
Min
Typ
Max
Unit
Remarks
Power supply
rising time
dV/dt
0.1
—
—
V/ms
Power supply
cutoff time
Toff
1
—
—
ms
Reset release
voltage
Vdeth
1.44
1.60
1.76
V
At voltage rise
Reset detection
voltage
Vdetl
1.39
1.55
1.71
V
At voltage fall
Reset release
delay time
Tond
—
—
10
ms dV/dt ≥ 0.1 mV/µs
Reset detection
delay time
Toffd
—
—
0.4
ms dV/dt ≥ −0.04 mV/µs
VCC
Toff
Vdeth
Vdetl
VCC
dV
0.2 V
dt
Power-on reset
Document Number: 002-09307 Rev. *D
Tond
0.2 V
Toffd
Page 146 of 172
MB95710M Series
MB95770M Series
22.4.5 Peripheral Input Timing
Parameter
Peripheral input “H” pulse width
Peripheral input “L” pulse width
(VCC = 3.0 V to 5.5 V, VSS = 0.0 V, TA = −40 °C to +85 °C)
Value
Symbol
Pin name
Unit
Min
Max
tILIH
2 tMCLK*
ns
⎯
INT00 to INT07, EC0, EC1,
ADTG
tIHIL
2 tMCLK*
ns
⎯
*: See “Source Clock/Machine Clock” for tMCLK.
tILIH
0.8 VCC
INT00 to INT07,
EC0, EC1, ADTG
tIHIL
0.8 VCC
0.2 VCC
0.2 VCC
22.4.6 Low-voltage Detection
• Normal mode
Parameter
Symbol
VPDL+
VPDL−
VIDL0+
VIDL0−
VIDL1+
VIDL1−
VIDL2+
VIDL2−
VIDL3+
VIDL3−
VIDL4+
VIDL4−
VIDL5+
VIDL5−
Voff
Von
Min
1.88
1.8
2.13
2.05
2.41
2.33
2.69
2.61
3.06
2.98
3.43
3.35
3.81
3.73
—
4.39
Power supply voltage change time
(at power supply rise)
tr
697.5
Power supply voltage change time
(at power supply fall)
tf
697.5
tdp1
tdp2
tdi1
tdi2
—
—
—
—
tstb
—
Reset release voltage
Reset detection voltage
Interrupt release voltage 0
Interrupt detection voltage 0
Interrupt release voltage 1
Interrupt detection voltage 1
Interrupt release voltage 2
Interrupt detection voltage 2
Interrupt release voltage 3
Interrupt detection voltage 3
Interrupt release voltage 4
Interrupt detection voltage 4
Interrupt release voltage 5
Interrupt detection voltage 5
Power supply start voltage
Power supply end voltage
Reset release delay time
Reset detection delay time
Interrupt release delay time
Interrupt detection delay time
Interrupt threshold voltage
transition stabilization time
Document Number: 002-09307 Rev. *D
(VCC = 1.8 V to 5.5 V, VSS = 0.0 V, TA = −40 °C to +85 °C)
Value
Unit
Remarks
Typ
Max
2.03
2.18
V At power supply rise
1.93
2.06
V At power supply fall
2.3
2.47
V At power supply rise
2.2
2.35
V At power supply fall
2.6
2.79
V At power supply rise
2.5
2.67
V At power supply fall
2.9
3.11
V At power supply rise
2.8
2.99
V At power supply fall
3.3
3.54
V At power supply rise
3.2
3.42
V At power supply fall
3.7
3.97
V At power supply rise
3.6
3.85
V At power supply fall
4.1
4.39
V At power supply rise
4
4.27
V At power supply fall
—
1.6
V
—
—
V
Slope of power supply that the
—
—
µs reset release signal generates
within the rating (VPDL+/VIDL+)
Slope of power supply that the
reset detection signal
—
—
µs
generates within the rating
(VPDL-/VIDL-)
—
30
µs
—
30
µs
—
30
µs
—
30
µs
—
30
µs
Page 147 of 172
MB95710M Series
MB95770M Series
• Low power consumption mode
(VCC = 1.8 V to 5.5 V, VSS = 0.0 V, TA = −40 °C to +85 °C)
Parameter
Symbol
Value
Min
Typ
Max
Unit
Remarks
Interrupt release voltage 0
VIDLL0+
2.06
2.3
2.54
V
At power supply rise
Interrupt detection voltage 0
VIDLL0−
1.98
2.2
2.42
V
At power supply fall
Interrupt release voltage 1
VIDLL1+
2.33
2.6
2.87
V
At power supply rise
Interrupt detection voltage 1
VIDLL1−
2.25
2.5
2.75
V
At power supply fall
Interrupt release voltage 2
VIDLL2+
2.6
2.9
3.2
V
At power supply rise
Interrupt detection voltage 2
VIDLL2−
2.52
2.8
3.08
V
At power supply fall
Interrupt release voltage 3
VIDLL3+
2.96
3.3
3.64
V
At power supply rise
Interrupt detection voltage 3
VIDLL3−
2.88
3.2
3.52
V
At power supply fall
Interrupt release voltage 4
VIDLL4+
3.32
3.7
4.08
V
At power supply rise
Interrupt detection voltage 4
VIDLL4−
3.24
3.6
3.96
V
At power supply fall
Interrupt release voltage 5
VIDLL5+
3.68
4.1
4.52
V
At power supply rise
Interrupt detection voltage 5
VIDLL5−
3.6
4
4.4
V
At power supply fall
Power supply start voltage
VoffL
—
—
1.6
V
Power supply end voltage
VonL
4.52
—
—
V
Power supply voltage change time
(at power supply rise)
Power supply voltage change time
(at power supply fall)
trL
7300
—
—
µs
Slope of power supply that the
interrupt release signal
generates within the rating
(VIDLL+)
Slope of power supply that the
interrupt detection signal
generates within the rating
(VIDLL-)
tfL
7300
—
—
µs
Interrupt release delay time
tdiL1
—
—
400
µs
Interrupt detection delay time
tdiL2
—
—
400
µs
Interrupt threshold voltage
transition stabilization time
tstbL
—
—
400
µs
Interrupt low-voltage detection
mode switch time
tmdsw
—
—
400
µs
Normal mode ⇔ Low power
consumption mode
Note: When being used for interrupt, the low-voltage detection circuit can be switched between normal mode and low
power consumption mode. Compared with normal mode, in low power consumption mode, while the detection
voltage and release voltage are less accurate, and the detection delay time and the release delay time become
longer, there is less power consumption. For the difference in power consumption between normal mode and low
power consumption mode, see “22.3 DC Characteristics”. For the method of switching between normal mode and
low power consumption mode, refer to “CHAPTER 16 LOW-VOLTAGE DETECTION CIRCUIT” in “New 8FX
MB95710M/770M Series Hardware Manual”.
Document Number: 002-09307 Rev. *D
Page 148 of 172
MB95710M Series
MB95770M Series
VCC
Von/VonL
Voff/VoffL
Time
tf/tfL
tr/trL
VPDL+/VIDL+
VPDL-/VIDL-
Internal reset signal or
interrupt signal
Time
tdp2/tdi2/tdiL2
Document Number: 002-09307 Rev. *D
tdp1/tdi1/tdiL1
Page 149 of 172
MB95710M Series
MB95770M Series
22.4.7 I2C Bus Interface Timing
(VCC = 3.0 V to 5.5 V, AVSS = VSS = 0.0 V, TA = −40 °C to +85 °C)
Value
Parameter
Standardmode
Fast-mode
Min
Max
Min
Max
0
100
0
400
kHz
SCL, SDA
4.0
—
0.6
—
µs
Symbol Pin name Condition
SCL clock frequency
fSCL
(Repeated) START condition hold
time
SDA ↓ → SCL ↓
tHD;STA
SCL
Unit
SCL clock “L” width
tLOW
SCL
4.7
—
1.3
—
µs
SCL clock “H” width
tHIGH
SCL
4.0
—
0.6
—
µs
4.7
—
0.6
—
µs
(Repeated) START condition setup
time
SCL ↑ → SDA ↓
tSU;STA
SCL, SDA
Data hold time
SCL ↓ → SDA ↓↑
tHD;DAT
SCL, SDA
0
3.45*2
0
0.9*3
µs
Data setup time
SDA ↓↑ → SCL ↑
tSU;DAT
SCL, SDA
0.25
—
0.1
—
µs
STOP condition setup time
SCL ↑ → SDA ↑
tSU;STO
SCL, SDA
4
—
0.6
—
µs
tBUF
SCL, SDA
4.7
—
1.3
—
µs
Bus free time between STOP
condition and START condition
R = 1.7 kΩ,
C = 50 pF*1
*1: R represents the pull-up resistor of the SCL and SDA lines, and C the load capacitor of the SCL and SDA lines.
*2: The maximum tHD;DAT in the Standard-mode is applicable only when the time during which the device is holding the
SCL signal at “L” (tLOW) does not extend.
*3: A Fast-mode I2C-bus device can be used in a Standard-mode I2C-bus system, provided that the condition of tSU;DAT
≥ 250 ns is fulfilled.
tWAKEUP
SDA
tLOW
tHD;DAT
tHIGH
tHD;STA
tBUF
SCL
tHD;STA
Document Number: 002-09307 Rev. *D
tSU;DAT
fSCL
tSU;STA
tSU;STO
Page 150 of 172
MB95710M Series
MB95770M Series
(VCC = 3.0 V to 5.5 V, AVSS = VSS = 0.0 V, TA = −40 °C to +85 °C)
Value*2
Pin
Unit
Remarks
Parameter Symbol
Condition
name
Min
Max
SCL clock
tLOW SCL
(2 + nm/2)tMCLK − 20
—
ns Master mode
“L” width
SCL clock
tHIGH SCL
(nm/2)tMCLK − 20
(nm/2)tMCLK + 20
ns Master mode
“H” width
Master mode
Maximum value
is applied when
START
SCL,
(-1 + nm/2)tMCLK − 20 (-1 + nm)tMCLK + 20 ns m, n = 1, 8.
condition
tHD;STA
SDA
Otherwise, the
hold time
minimum value is
applied.
STOP
SCL,
condition
tSU;STO
(1 + nm/2)tMCLK − 20 (1 + nm/2)tMCLK + 20 ns Master mode
SDA
setup time
START
SCL,
condition
tSU;STA
(1 + nm/2)tMCLK − 20 (1 + nm/2)tMCLK + 20 ns Master mode
SDA
setup time
Bus free time
between
STOP
SCL,
tBUF
(2 nm + 4)tMCLK − 20
—
ns
condition
SDA
and START
condition
R = 1.7 kΩ,
SCL,
Data hold
C = 50 pF*1
3 tMCLK − 20
—
ns Master mode
tHD;DAT
SDA
time
Master mode
It is assumed that
“L” of SCL is not
extended. The
minimum value is
Data setup
SCL,
tSU;DAT
(-2 + nm/2)tMCLK − 20 (-1 + nm/2)tMCLK + 20 ns
applied to the first
time
SDA
bit of continuous
data. Otherwise,
the maximum
value is applied.
The minimum
value is applied
Setup time
to the interrupt at
between
the ninth SCL↓.
clearing
tSU;INT SCL
(nm/2)tMCLK − 20 (1 + nm/2)tMCLK + 20 ns
The maximum
interrupt and
value is applied
SCL rising
to the interrupt at
the eighth SCL↓.
SCL clock
tLOW SCL
4 tMCLK − 20
—
ns At reception
“L” width
SCL clock
tHIGH SCL
4 tMCLK − 20
—
ns At reception
“H” width
Document Number: 002-09307 Rev. *D
Page 151 of 172
MB95710M Series
MB95770M Series
Parameter
Pin
Symbol
Condition
name
START condition
detection
tHD;STA
SCL,
SDA
STOP condition
detection
tSU;STO
SCL,
SDA
RESTART
condition detection
condition
tSU;STA
SCL,
SDA
Bus free time
tBUF
Data hold time
tHD;DAT
Data setup time
tSU;DAT
Data hold time
tHD;DAT
Data setup time
tSU;DAT
SDA↓ → SCL↑
(with wakeup
function in use)
tWAKEUP
SCL,
SDA
SCL,
SDA
SCL,
SDA
SCL,
SDA
SCL,
SDA
SCL,
SDA
R = 1.7 kΩ,
C = 50 pF*1
(VCC = 3.0 V to 5.5 V, AVSS = VSS = 0.0 V, TA = −40 °C to +85 °C)
Value*2
Unit
Remarks
Min
Max
No START
condition is
2 tMCLK − 20
—
ns detected when 1
tMCLK is used at
reception.
No STOP condition
is detected when 1
2 tMCLK − 20
—
ns
tMCLK is used at
reception.
No RESTART
condition is
2 tMCLK − 20
—
ns detected when 1
tMCLK is used at
reception.
2 tMCLK − 20
—
ns At reception
2 tMCLK − 20
—
ns
tLOW − 3 tMCLK − 20
—
0
—
ns At reception
tMCLK − 20
—
ns At reception
Oscillation
stabilization wait time
+2 tMCLK − 20
—
ns
At slave
transmission mode
At slave
ns
transmission mode
*1: R represents the pull-up resistance of the SCL and SDA lines, and C the load capacitance of the SCL and SDA lines.
*2: • See “Source Clock/Machine Clock” for tMCLK.
• m represents the CS[4:3] bits in the I2C clock control register ch.0 (ICCR0).
• n represents the CS[2:0] bits in the I2C clock control register ch.0 (ICCR0).
• The actual timing of the I2C bus interface is determined by the values of m and n set by the machine clock (tMCLK)
and the CS[4:0] bits in the ICCR0 register.
• Standard-mode:
m and n can be set to values in the following range: 0.9 MHz < tMCLK (machine clock) < 16.25 MHz.
The usable frequencies of the machine clock are determined by the settings of m and n as shown below.
(m, n) = (1, 8)
: 0.9 MHz < tMCLK ≤ 1 MHz
(m, n) = (1, 22), (5, 4), (6, 4), (7, 4), (8, 4)
: 0.9 MHz < tMCLK ≤ 2 MHz
(m, n) = (1, 38), (5, 8), (6, 8), (7, 8), (8, 8)
: 0.9 MHz < tMCLK ≤ 4 MHz
(m, n) = (1, 98), (5, 22), (6, 22), (7, 22)
: 0.9 MHz < tMCLK ≤ 10 MHz
(m, n) = (8, 22)
: 0.9 MHz < tMCLK ≤ 16.25 MHz
• Fast-mode:
m and n can be set to values in the following range: 3.3 MHz < tMCLK (machine clock) < 16.25 MHz.
The usable frequencies of the machine clock are determined by the settings of m and n as shown below.
(m, n) = (1, 8)
: 3.3 MHz < tMCLK ≤ 4 MHz
(m, n) = (1, 22), (5, 4)
: 3.3 MHz < tMCLK ≤ 8 MHz
(m, n) = (1, 38), (6, 4), (7, 4), (8, 4)
: 3.3 MHz < tMCLK ≤ 10 MHz
(m, n) = (5, 8)
: 3.3 MHz < tMCLK ≤ 16.25 MHz
Document Number: 002-09307 Rev. *D
Page 152 of 172
MB95710M Series
MB95770M Series
22.4.8 UART/SIO, Serial I/O Timing
Parameter
(VCC = 3.0 V to 5.5 V, AVSS = VSS = 0.0 V, TA = −40 °C to +85 °C)
Symbol
Pin name
Condition
Serial clock cycle time
tSCYC
UCK ↓ → UO time
tSLOV
Valid UI → UCK ↑
tIVSH
UCK ↑ → valid UI hold time
tSHIX
Serial clock “H” pulse width
Serial clock “L” pulse width
tSHSL
tSLSH
UCK ↓ → UO time
tSLOV
Valid UI → UCK ↑
tIVSH
UCK ↑ → valid UI hold time
tSHIX
UCK0, UCK1, UCK2
UCK0, UCK1, UCK2,
UO0, UO1, UO2
UCK0, UCK1, UCK2,
UI0, UI1, UI2
UCK0, UCK1, UCK2,
UI0, UI1, UI2
UCK0, UCK1, UCK2
UCK0, UCK1, UCK2
UCK0, UCK1, UCK2,
UO0, UO1, UO2
UCK0, UCK1, UCK2,
UI0, UI1, UI2
UCK0, UCK1, UCK2,
UI0, UI1, UI2
Value
Min
Max
4 tMCLK*
—
−190
Internal clock
operation output pin:
2 tMCLK*
CL = 80 pF + 1 TTL
Unit
ns
+190
ns
—
ns
2 tMCLK*
—
ns
4 tMCLK*
4 tMCLK*
—
—
ns
ns
190
ns
—
ns
—
ns
External clock
—
operation output pin:
CL = 80 pF + 1 TTL
2 tMCLK*
2 tMCLK*
*: See “Source Clock/Machine Clock” for tMCLK.
• Internal shift clock mode
UCK0,
UCK1,
UCK2
tSCYC
0.8 VCC
0.2 VCC
0.2 VCC
tSLOV
UO0,
UO1,
UO2
0.8 VCC
0.2 VCC
tIVSH
UI0,
UI1,
UI2
Document Number: 002-09307 Rev. *D
tSHIX
0.7 VCC 0.7 VCC
0.3 VCC 0.3 VCC
Page 153 of 172
MB95710M Series
MB95770M Series
• External shift clock mode
tSLSH
UCK0,
UCK1,
UCK2
tSHSL
0.8 VCC
0.2 VCC
0.8 VCC
0.2 VCC
tSLOV
UO0,
UO1,
UO2
0.8 VCC
0.2 VCC
tIVSH
UI0,
UI1,
UI2
0.7 VCC 0.7 VCC
0.3 VCC 0.3 VCC
22.4.9 Comparator Timing
Parameter
tSHIX
(AVCC = 1.8 V to 5.5 V, AVSS = 0.0 V, TA = −40 °C to +85 °C)
Pin name
Value
Min
Typ
Max
Unit
Remarks
Voltage range
CMP0_P,
CMP0_N
0
—
AVCC
V
Offset voltage
CMP0_P,
CMP0_N
−20
—
+20
mV
Delay time
CMP0_O
—
600
1200
ns
Overdrive 5 mV
—
120
420
ns
Overdrive 50 mV
—
—
1200
ns
Power down recovery
PD: 1 → 0
0
—
150
ns
Power down
PD: 0 → 1
—
—
1200
ns
Output stabilization time at power up
1.15
1.21
1.27
V
Power down delay
Power up
stabilization time
Bandgap reference
voltage
CMP0_O
CMP0_O
—
Document Number: 002-09307 Rev. *D
Page 154 of 172
MB95710M Series
MB95770M Series
22.5 A/D Converter
22.5.1 A/D Converter Electrical Characteristics
Parameter
Symbol
Resolution
Total error
Linearity error
—
Differential linearity
error
(AVCC = 1.8 V to 5.5 V, VSS = 0.0 V, TA = −40 °C to +85 °C)
Value
Unit
Remarks
Min
Typ
Max
—
—
12
−6
—
+6
LSB VCC ≥ 2.7 V
−10
—
+10
LSB VCC < 2.7 V
−3
—
+3
LSB VCC ≥ 2.7 V
−5
—
+5
LSB VCC < 2.7 V
−1.9
—
+1.9
LSB VCC ≥ 2.7 V
−2.9
—
+2.9
LSB VCC < 2.7 V
bit
Zero transition
voltage
V0T
VSS − 6 LSB
—
VSS + 8.2 LSB
V
Full-scale transition
voltage
VFST
AVCC − 6.2 LSB
—
AVCC + 9.2 LSB
V
Sampling time
TS
*
—
10
µs
Compare time
Tcck
0.861
—
14
µs
VCC ≥ 2.7 V
2.8
—
14
µs
VCC < 2.7 V
Time for transiting to
operation enabled
state
Tstt
1
—
—
µs
Analog input current
IAIN
−0.3
—
+0.3
µA
Analog input voltage
VAIN
VSS
—
AVCC
V
*: See “Notes on Using A/D Converter” for details of the minimum sampling time.
Document Number: 002-09307 Rev. *D
Page 155 of 172
MB95710M Series
MB95770M Series
22.5.2 Notes on Using A/D Converter
• External impedance of analog input and its sampling time
The A/D converter of the MB95710M/770M Series has a sample and hold circuit. If the external impedance is too
high to keep sufficient sampling time, the analog voltage charged to the capacitor of the internal sample and hold
circuit is insufficient, adversely affecting A/D conversion precision. Therefore, to satisfy the A/D conversion precision
standard, considering the relationship between the external impedance and minimum sampling time, either adjust
the register value and operating frequency or decrease the external impedance so that the sampling time is longer
than the minimum value. In addition, if sufficient sampling time cannot be secured, connect a capacitor of about 0.1
µF to the analog input pin.
• Analog input equivalent circuit
Comparator
Analog signal source
Rext
Analog input pins
(AN00 to AN07)
Rin
Cin
VCC
4.5 V ≤ VCC ≤ 5.5 V
Rin
0.9 kΩ (max)
2.7 V ≤ VCC < 4.5 V
1.6 kΩ (max)
13 pF (max)
13 pF (max)
Cin
1.8 V ≤ VCC < 2.7 V
4.0 kΩ (max)
13 pF (max)
Note: The values are reference values.
• Relationship between external impedance and minimum sampling time
The necessary sampling time varies according to external impedance. Ensure that the following conditions are fulfilled when setting the sampling time.
Ts ≥ ( Rin + Rext ) × Cin × 9
Ts : Sampling time
Rin : Input resistance of A/D converter
Cin : Input capacitance of A/D converter
Rext : Output impedance of external circuit
• A/D conversion error
As |VCC − VSS| decreases, the A/D conversion error increases proportionately.
Document Number: 002-09307 Rev. *D
Page 156 of 172
MB95710M Series
MB95770M Series
22.5.3 Definitions of A/D Converter Terms
• Resolution
It indicates the level of analog variation that can be distinguished by the A/D converter.
When the number of bits is 12, analog voltage can be divided into 212 = 4096.
• Linearity error (unit: LSB)
It indicates how much an actual conversion value deviates from the straight line connecting the zero transition point
(“000000000000” ← → “000000000001”) of a device to the full-scale transition point (“111111111111” ← →
“111111111110”) of the same device.
• Differential linear error (unit: LSB)
It indicates how much the input voltage required to change the output code by 1 LSB deviates from an ideal value.
• Total error (unit: LSB)
It indicates the difference between an actual value and a theoretical value. The error can be caused by a zero transition error, a full-scale transition errors, a linearity error, a quantum error, or noise.
Ideal I/O characteristics
Total error
VFST
0xFFF
0xFFF
0xFFE
2 LSB
0xFFD
Digital output
Digital output
0xFFD
0x004
0x003
Actual conversion
characteristic
0xFFE
V0T
{1 LSB × (N − 1) + 0.5 LSB}
0x004
VNT
0x003
1 LSB
0x002
0x002
0x001
Actual conversion
characteristic
Ideal characteristic
0x001
0.5 LSB
VSS
Analog input
1 LSB =
VCC
VCC − VSS
V
4096
N
VSS
Analog input
Total error of digital output N =
VCC
VNT − {1 LSB × (N − 1) + 0.5 LSB}
LSB
1 LSB
: A/D converter digital output value
VNT : Voltage at which the digital output transits from 0x(N − 1) to 0xN
Document Number: 002-09307 Rev. *D
Page 157 of 172
MB95710M Series
MB95770M Series
Zero transition error
Full-scale transition error
0x004
Ideal characteristic
Actual conversion
characteristic
0xFFF
Actual conversion
characteristic
0x002
Ideal
characteristic
Digital output
Digital output
0x003
Actual conversion
characteristic
0xFFE
VFST
(measurement
value)
0xFFD
Actual conversion
characteristic
0x001
0xFFC
V0T (measurement value)
VSS
Analog input
VCC
VSS
Linearity error
0xFFF
0xFFE
Ideal characteristic
0x(N+1)
Actual conversion
characteristic
{1 LSB × N + V0T}
VFST
Digital output
Digital output
0xFFD
(measurement
value)
VNT
0x004
0x002
VCC
Differential linearity error
Actual conversion
characteristic
Actual conversion
characteristic
0x003
Analog input
V(N+1)T
0xN
VNT
0x(N-1)
Ideal
characteristic
Actual conversion
characteristic
0x(N-2)
0x001
V0T (measurement value)
VSS
Analog input
VCC
Linearity error of digital output N =
VSS
VCC
VNT − {1 LSB × N + V0T}
1 LSB
Differential linearity error of digital output N =
N
Analog input
V(N+1)T − VNT
− 1
1 LSB
: A/D converter digital output value
VNT : Voltage at which the digital output transits from 0x(N − 1) to 0xN
V0T (ideal value) = VSS + 0.5 LSB [V]
VFST (ideal value) = VCC − 2 LSB [V]
Document Number: 002-09307 Rev. *D
Page 158 of 172
MB95710M Series
MB95770M Series
22.6 Flash Memory Program/Erase Characteristics
Parameter
Value
Unit
Remarks
1.6*2
s
The time of writing “0x00” prior to erasure is excluded.
0.6*1
3.1*2
s
The time of writing “0x00” prior to erasure is excluded.
17
272
µs
System-level overhead is excluded.
Program/erase cycle 100000
—
—
cycle
Power supply voltage
at program/erase
1.8
—
5.5
V
20*3
—
—
Average TA = +85 °C
Number of program/erase cycles: 1000 or below
10*3
—
—
Average TA = +85 °C
year Number of program/erase cycles: 1001 to 10000
inclusive
5*3
—
—
Min
Typ
Max
Sector erase time
(2 Kbyte sector)
—
0.3*1
Sector erase time
(24 Kbyte sector and
32 Kbyte sector)
—
Byte writing time
—
Flash memory data
retention time
Average TA = +85 °C
Number of program/erase cycles: 10001 or above
*1: VCC = 5.5 V, TA = +25 °C, 0 cycle
*2: VCC = 1.8 V, TA = +85 °C, 100000 cycles
*3: These values were converted from the result of a technology reliability assessment. (These values were converted
from the result of a high temperature accelerated test using the Arrhenius equation with the average temperature
being +85 °C.)
Document Number: 002-09307 Rev. *D
Page 159 of 172
MB95710M Series
MB95770M Series
23. Sample Characteristics
• Power supply current temperature characteristics
ICC − VCC
TA = +25 °C, FMP = 2, 4, 8, 10, 16 MHz (divided by 2)
Main clock mode with the external clock operating
ICC − TA
VCC = 3.3 V, FMP = 2, 4, 8, 10, 16 MHz (divided by 2)
Main clock mode with the external clock operating
10
10
FMP = 16 MHz
FMP = 10 MHz
FMP = 8 MHz
FMP = 4 MHz
FMP = 2 MHz
8
FMP = 16 MHz
FMP = 10 MHz
FMP = 8 MHz
FMP = 4 MHz
FMP = 2 MHz
8
6
ICC[mA]
ICC[mA]
6
4
4
2
2
0
0
1
2
3
4
5
6
−50
7
0
ICCS − VCC
TA = +25 °C, FMP = 2, 4, 8, 10, 16 MHz (divided by 2)
Main sleep mode with the external clock operating
+150
4
FMP = 16 MHz
FMP = 10 MHz
FMP = 8 MHz
FMP = 4 MHz
FMP = 2 MHz
FMP = 16 MHz
FMP = 10 MHz
FMP = 8 MHz
FMP = 4 MHz
FMP = 2 MHz
3
ICCS[mA]
3
ICCS[mA]
+100
ICCS − TA
VCC = 3.3 V, FMP = 2, 4, 8, 10, 16 MHz (divided by 2)
Main sleep mode with the external clock operating
4
2
1
2
1
0
0
1
2
3
4
5
6
−50
7
0
VCC[V]
+50
+100
+150
TA[°C]
ICCL − VCC
TA = +25 °C, FMPL = 16 kHz (divided by 2)
Subclock mode with the external clock operating
ICCL − TA
VCC = 3.3 V, FMPL = 16 kHz (divided by 2)
Subclock mode with the external clock operating
140
140
120
120
100
100
80
80
ICCL[μA]
ICCL[μA]
+50
TA[°C]
VCC[V]
60
60
40
40
20
20
0
0
1
2
3
4
5
VCC[V]
Document Number: 002-09307 Rev. *D
6
7
−50
0
+50
+100
+150
TA[°C]
Page 160 of 172
MB95710M Series
MB95770M Series
ICCLS − TA
VCC = 3.3 V, FMPL = 16 kHz (divided by 2)
Subsleep mode with the external clock operating
10
10
9
9
8
8
7
7
6
6
ICCLS[μA]
ICCLS[μA]
ICCLS − VCC
TA = +25 °C, FMPL = 16 kHz (divided by 2)
Subsleep mode with the external clock operating
5
5
4
4
3
3
2
2
1
1
0
0
1
2
3
4
5
6
−50
7
0
ICCT − VCC
TA = +25 °C, FMPL = 16 kHz (divided by 2)
Watch mode with the external clock operating
+100
+150
ICCT − TA
VCC = 3.3 V, FMPL = 16 kHz (divided by 2)
Watch mode with the external clock operating
5
4
4
3
3
ICCT[μA]
ICCT[μA]
5
2
2
1
1
0
0
1
2
3
4
5
6
−50
7
0
VCC[V]
+50
+100
+150
TA[°C]
ICCTS − VCC
TA = +25 °C, FMP = 2, 4, 8, 10, 16 MHz (divided by 2)
Time-base timer mode with the external clock
operating
ICCTS − TA
VCC = 3.3 V, FMP = 2, 4, 8, 10, 16 MHz (divided by 2)
Time-base timer mode with the external clock
operating
600
600
FMP = 16 MHz
FMP = 10 MHz
FMP = 8 MHz
FMP = 4 MHz
FMP = 2 MHz
500
FMP = 16 MHz
FMP = 10 MHz
FMP = 8 MHz
FMP = 4 MHz
FMP = 2 MHz
500
400
400
ICCTS[μA]
ICCTS[μA]
+50
TA[°C]
VCC[V]
300
300
200
200
100
100
0
0
1
2
3
4
5
VCC[V]
Document Number: 002-09307 Rev. *D
6
7
−50
0
+50
+100
+150
TA[°C]
Page 161 of 172
MB95710M Series
MB95770M Series
ICCH − VCC
TA = +25 °C, FMPL = (stop)
Substop mode with the external clock stopping
ICCH − TA
VCC = 3.3 V, FMPL = (stop)
Substop mode with the external clock stopping
5
4
4
3
3
ICCH[μA]
ICCH[μA]
5
2
2
1
1
0
0
1
2
3
4
5
6
−50
7
0
ICCMCR − VCC
TA = +25 °C, FMP = 4 MHz (no division)
Main CR clock mode
+100
+150
ICCMCR − TA
VCC = 3.3 V, FMP = 4 MHz (no division)
Main CR clock mode
5
5
4
4
3
3
ICCMCR[mA]
ICCMCR[mA]
+50
TA[°C]
VCC[V]
2
2
1
1
0
0
1
2
3
4
5
6
−50
7
0
+50
+100
+150
TA[°C]
VCC[V]
10
10
8
8
ICCMCRPLL[mA]
ICCMCRPLL[mA]
ICCMCRPLL − TA
ICCMCRPLL − VCC
TA = +25 °C, FMP = 16 MHz (PLL multiplication rate: 4) VCC = 3.3 V, FMP = 16 MHz (PLL multiplication rate: 4)
Main CR PLL clock mode
Main CR PLL clock mode
6
4
6
4
2
2
0
0
1
2
3
4
5
VCC[V]
Document Number: 002-09307 Rev. *D
6
7
−50
0
+50
+100
+150
TA[°C]
Page 162 of 172
MB95710M Series
MB95770M Series
(Continued)
10
10
8
8
6
6
ICCMPLL[mA]
ICCMPLL[mA]
ICCMPLL − VCC
ICCMPLL − TA
TA = +25 °C, FMP = 16 MHz (PLL multiplication rate: 4) VCC = 3.3 V, FMP = 16 MHz (PLL multiplication rate: 4)
Main PLL clock mode
Main PLL clock mode
4
2
4
2
0
0
1
2
3
4
5
6
−50
7
0
VCC[V]
ICCSCR − VCC
TA = +25 °C, FMPL = 50 kHz (divided by 2)
Sub-CR clock mode
+100
+150
ICCSCR − TA
VCC = 3.3 V, FMPL = 50 kHz (divided by 2)
Sub-CR clock mode
200
200
150
150
ICCSCR[μA]
ICCSCR[μA]
+50
TA[°C]
100
50
100
50
0
0
1
2
3
4
5
6
−50
7
0
VCC[V]
+50
+100
+150
TA[°C]
IA − AVCC
TA = +25 °C, FMP = 16 MHz (divided by 2)
Main clock mode with the external clock operating
IA − TA
VCC = 3.3 V, FMP = 16 MHz (divided by 2)
Main clock mode with the external clock operating
10
8
8
6
6
IA[mA]
IA[mA]
10
4
4
2
2
0
0
1
2
3
4
5
AVCC[V]
Document Number: 002-09307 Rev. *D
6
7
−50
0
+50
+100
+150
TA[°C]
Page 163 of 172
MB95710M Series
MB95770M Series
• Input voltage characteristics
VIHI − VCC and VILI − VCC
TA = +25 °C
VIHS − VCC and VILS − VCC
TA = +25 °C
5
5
VIHS
VILS
4
4
3
3
VIHS/VILS[V]
VIHI/VILI[V]
VIHI
VILI
2
1
2
1
0
0
1
2
3
4
5
6
1
2
3
VCC[V]
4
5
6
VCC[V]
VIHM − VCC and VILM − VCC
TA = +25 °C
5
VIHM
VILM
VIHM/VILM[V]
4
3
2
1
0
1
2
3
4
5
6
VCC[V]
Document Number: 002-09307 Rev. *D
Page 164 of 172
MB95710M Series
MB95770M Series
• Output voltage characteristics
VOL − IOL
TA = +25 °C
1.0
1.0
0.8
0.8
0.6
0.6
VOL[V]
VCC − VOH[V]
(VCC − VOH) − IOH
TA = +25 °C
0.4
0.4
0.2
0.2
0.0
0.0
0
−1 −2 −3 −4 −5 −6 −7 −8 −9 −10 −11 −12 −13 −14 −15
IOH[mA]
VCC = 1.8 V
VCC = 2.0 V
VCC = 2.4 V
VCC = 2.7 V
VCC = 3.0 V
VCC = 3.6 V
VCC = 4.0 V
VCC = 4.5 V
VCC = 5.0 V
VCC = 5.5 V
Document Number: 002-09307 Rev. *D
0
1
2
3
4
5
6
7
8
9
10 11 12 13 14 15
IOL[mA]
VCC = 1.8 V
VCC = 2.0 V
VCC = 2.4 V
VCC = 2.7 V
VCC = 3.0 V
VCC = 3.6 V
VCC = 4.0 V
VCC = 4.5 V
VCC = 5.0 V
VCC = 5.5 V
Page 165 of 172
MB95710M Series
MB95770M Series
• Pull-up characteristics
RPULL − VCC
TA = +25 °C
300
250
RPULL[kΩ]
200
150
100
50
0
1
2
3
4
5
6
VCC[V]
24. Mask Options
Part number
No.
MB95F714M
MB95F716M
MB95F718M
MB95F774M
MB95F776M
MB95F778M
MB95F714J
MB95F716J
MB95F718J
MB95F774J
MB95F776J
MB95F778J
Selectable/Fixed
Fixed
1
Low-voltage detection
reset
With low-voltage detection reset
Without low-voltage detection reset
2
Reset
Without dedicated reset input
With dedicated reset input
Document Number: 002-09307 Rev. *D
Page 166 of 172
MB95710M Series
MB95770M Series
25. Ordering Information
Part number
Package
MB95F714JPMC-G-SNE2
MB95F714MPMC-G-SNE2
MB95F716JPMC-G-SNE2
MB95F716MPMC-G-SNE2
MB95F718JPMC-G-UNE2
MB95F718MPMC-G-SNE2
80-pin plastic LQFP
(LQH080)
MB95F774JPMC1-G-SNE2
MB95F774MPMC1-G-SNE2
MB95F776JPMC1-G-SNE2
MB95F776MPMC1-G-SNE2
MB95F778JPMC1-G-SNE2
MB95F778MPMC1-G-SNE2
64-pin plastic LQFP
(LQD064)
MB95F774JPMC2-G-SNE2
MB95F774MPMC2-G-SNE2
MB95F776JPMC2-G-SNE2
MB95F776MPMC2-G-SNE2
MB95F778JPMC2-G-UNE2
MB95F778MPMC2-G-SNE2
64-pin plastic LQFP
(LQG064)
Document Number: 002-09307 Rev. *D
Page 167 of 172
MB95710M Series
MB95770M Series
26. Package Dimension
Package Type
Package Code
LQFP 80
LQH 080
D
D1
60
4
5 7
41
41
40
61
60
40
61
21
80
5
7
E1
E
4
3
6
80
21
1
20
D
e
20
2 5 7
0.10 C A-B D
3
b
0.08
C A-B
1
BOTTOM VIEW
D
0.20 C A-B D
8
TOP VIEW
2
A
A
A'
0.08 C
SIDE VIEW
SYMBOL
SEATING
PLANE
9
L1
L
0.25
A1
10
c
b
SECTION A-A'
DIMENSIONS
MIN. NOM. MAX.
A
A1
1. 70
0.05
0.15
b
0.15
0.27
c
0.09
0.20
D
14.00 BSC.
D1
12.00 BSC.
e
0.50 BSC
E
14.00 BSC.
E1
12.00 BSC.
L
0.45
0.60
0.75
L1
0.30
0.50
0.70
002-11501 **
PACKAGE OUTLINE, 80 LEAD LQFP
12.0X12.0X1.7 MM LQH080 Rev **
Document Number: 002-09307 Rev. *D
Page 168 of 172
MB95710M Series
MB95770M Series
Package Type
Package Code
LQFP 64
LQD 064
4
D
D1
48
5 7
33
33
32
49
48
32
49
17
64
5
7
E1
E
4
3
6
17
64
1
16
e
1
16
2 5 7
3
BOTTOM VIEW
0.10 C A-B D
0.20 C A-B D
b
0.08
C A-B
D
8
TOP VIEW
A
2
9
A
A'
0.08 C
SEATING
PLANE
L1
0.25
L
A1
c
b
SECTION A-A'
10
SIDE VIEW
SYMBOL
DIMENSIONS
MIN. NOM. MAX.
A
A1
1. 70
0.00
0.20
b
0.15
0.2
c
0.09
0.20
D
12.00 BSC.
D1
10.00 BSC.
e
0.50 BSC
E
12.00 BSC.
E1
10.00 BSC.
L
0.45
0.60
0.75
L1
0.30
0.50
0.70
002-11499 **
PACKAGE OUTLINE, 64 LEAD LQFP
10.0X10.0X1.7 MM LQD064 Rev**
Document Number: 002-09307 Rev. *D
Page 169 of 172
MB95710M Series
MB95770M Series
Package Type
Package Code
LQFP 64
LQG 064
D
D1
48
4
5 7
33
33
32
49
48
32
49
17
64
E1 E
5
7
4
3
17
64
1
16
e
1
16
2 5 7
3
BOTTOM VIEW
0.10 C A-B D
0.20 C A-B D
b
0.13
C A-B
D
8
TOP VIEW
2
A
θ
A
A'
0.10 C
SEATI NG
PLA NE
0.2 5
L1
L
9
A1
10
c
b
SEC TION A -A'
SIDE VIEW
SYMBOL
DIMENSION
MIN.
NOM. MAX.
1.70
A
A1
0.00
0.20
b
0.27
c
0.09
0.32
0.37
0.20
D
14.00 BSC
D1
12.00 BSC
e
0.65 BSC
E
14.00 BSC
E1
12.00 BSC
L
0.45
0.60
0.75
L1
0.30
0.50
0.70
θ
0°
8°
002-13881 **
PACKAGE OUTLINE, 64 LEAD LQFP
12.0X12.0X1.7 MM LQG064 REV**
Document Number: 002-09307 Rev. *D
Page 170 of 172
MB95710M Series
MB95770M Series
Document History Page
Document Title: MB95710M Series, MB95770M Series, New 8FX 8-bit Microcontrollers
Document Number: 002-09307
Revision
ECN
Orig. of
Change
Submission
Date
**
-
YSKA
07/31/2013
Migrated Spansion DS702-00019-1v0-E to Cypress and assigned document number
002-09307.
No change to document contents or format.
*A
5511943
YSKA
11/08/2016
Updated to Cypress template
*B
5633448
HTER
03/07/2017
Changed the package codes as the following
from “FPT-80P-M37” to “LQH080”
from “FPT-64P-M38” to “LQD064”
from “FPT-64P-M39” to “LQG064”
in chapter:
1.Product Line-up (Page 6, 9)
2.Packages And Corresponding Products (Page 9)
4.Pin Assignment (Page 11 to 12)
25.Ordering Information (Page 167)
26.Package Dimensions (Page 168 to 170).
Description of Change
Changed the Part numbers from “MB95F778JPMC2-G-SNE2” to “MB95F778JPMC2-G-UNE2”
in chapter 25.Ordering Information (Page 167).
*C
5772061
YSAT
06/15/2017
Adapted new Cypress logo
*D
5900838
HUAL
09/29/2017
Modified from “MB95F718JPMC-G-SNE2” to “MB95F718JPMC-G-UNE2” in 25.Ordering
Information (Page 167).
Document Number: 002-09307 Rev. *D
Page 171 of 172
MB95710M Series
MB95770M Series
Sales, Solutions, and Legal Information
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All other trademarks or registered trademarks referenced herein are the property of their respective owners.
© Cypress Semiconductor Corporation, 2013-2017. This document is the property of Cypress Semiconductor Corporation and its subsidiaries, including Spansion LLC ("Cypress"). This document,
including any software or firmware included or referenced in this document ("Software"), is owned by Cypress under the intellectual property laws and treaties of the United States and other countries
worldwide. Cypress reserves all rights under such laws and treaties and does not, except as specifically stated in this paragraph, grant any license under its patents, copyrights, trademarks, or other
intellectual property rights. If the Software is not accompanied by a license agreement and you do not otherwise have a written agreement with Cypress governing the use of the Software, then Cypress
hereby grants you a personal, non-exclusive, nontransferable license (without the right to sublicense) (1) under its copyright rights in the Software (a) for Software provided in source code form, to
modify and reproduce the Software solely for use with Cypress hardware products, only internally within your organization, and (b) to distribute the Software in binary code form externally to end users
(either directly or indirectly through resellers and distributors), solely for use on Cypress hardware product units, and (2) under those claims of Cypress's patents that are infringed by the Software (as
provided by Cypress, unmodified) to make, use, distribute, and import the Software solely for use with Cypress hardware products. Any other use, reproduction, modification, translation, or compilation
of the Software is prohibited.
TO THE EXTENT PERMITTED BY APPLICABLE LAW, CYPRESS MAKES NO WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, WITH REGARD TO THIS DOCUMENT OR ANY SOFTWARE
OR ACCOMPANYING HARDWARE, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE. To the extent
permitted by applicable law, Cypress reserves the right to make changes to this document without further notice. Cypress does not assume any liability arising out of the application or use of any
product or circuit described in this document. Any information provided in this document, including any sample design information or programming code, is provided only for reference purposes. It is
the responsibility of the user of this document to properly design, program, and test the functionality and safety of any application made of this information and any resulting product. Cypress products
are not designed, intended, or authorized for use as critical components in systems designed or intended for the operation of weapons, weapons systems, nuclear installations, life-support devices or
systems, other medical devices or systems (including resuscitation equipment and surgical implants), pollution control or hazardous substances management, or other uses where the failure of the
device or system could cause personal injury, death, or property damage ("Unintended Uses"). A critical component is any component of a device or system whose failure to perform can be reasonably
expected to cause the failure of the device or system, or to affect its safety or effectiveness. Cypress is not liable, in whole or in part, and you shall and hereby do release Cypress from any claim,
damage, or other liability arising from or related to all Unintended Uses of Cypress products. You shall indemnify and hold Cypress harmless from and against all claims, costs, damages, and other
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Cypress, the Cypress logo, Spansion, the Spansion logo, and combinations thereof, WICED, PSoC, CapSense, EZ-USB, F-RAM, and Traveo are trademarks or registered trademarks of Cypress in
the United States and other countries. For a more complete list of Cypress trademarks, visit cypress.com. Other names and brands may be claimed as property of their respective owners.
Document Number: 002-09307 Rev. *D
Revised September 29, 2017
Page 172 of 172
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