FUJITSU MB90F867ES

FUJITSU SEMICONDUCTOR
DATA SHEET
DS07-13748-1E
16-bit Proprietary Microcontroller
CMOS
F2MC-16LX MB90860E Series
MB90867E(S), MB90F867E(S),
MB90V340E-101/102
■ DESCRIPTION
MB90860E-series with Flash ROM is especially designed for automotive and other industrial applications. With
the new 0.35 µm CMOS technology, Fujitsu now offers on-chip Flash ROM program memory up to 512 Kbytes.
The power supply (3 V) is supplied to the internal MCU core from an internal regulator circuit. This creates a
major advantage in terms of EMI and power consumption.
The internal PLL clock frequency multiplier provides an internal 42 ns instruction cycle time from an external
4 MHz clock.
The unit features an 8 channel Output Compare Unit and 8 channel Input Capture Unit with 2 separate 16-bit free
running timers. 4 UARTs constitute additional functionality for communication purposes.
Note : F2MC is the abbreviation of FUJITSU Flexible Microcontroller.
Be sure to refer to the “Check Sheet” for the latest cautions on development.
“Check Sheet” is seen at the following support page
URL : http://www.fujitsu.com/global/services/microelectronics/product/micom/support/index.html
“Check Sheet” lists the minimal requirement items to be checked to prevent problems beforehand in system
development.
Copyright©2006 FUJITSU LIMITED All rights reserved
MB90860E Series
■ FEATURES
• CPU
• Instruction system best suited to controller
• Wide choice of data types (bit, byte, word, and long word)
• Wide choice of addressing modes(23 types)
• Enhanced multiply-divide instructions and RETI instructions
• Enhanced high-precision computing with 32-bit accumulator
• Instruction system compatible with high-level language (C language) and multitask
• Employing system stack pointer
• Enhanced various pointer indirect instructions
• Barrel shift instructions
• Increased processing speed
• 4-byte instruction queue
• Serial interface
• UART (LIN/SCI) : up to 4 channels
• Equipped with full-duplex double buffer
• Clock-asynchronous or clock-synchronous serial transmission is available
• I2C interface* : up to 2 channels
• Up to 400 Kbits/s transfer rate
• Interrupt controller
• Powerful interrupt function
• Powerful 8-level, 34-condition interrupt feature
• Up to 16 external interrupts are supported
• Automatic data transfer function independent of CPU
• Expanded intelligent I/O service function (EI2OS) : up to 16 channels
• I/O port
• General-purpose input/output port (CMOS output)
- 80 ports (devices without S-suffix)
- 82 ports (devices with S-suffix)
• 8/10-bit A/D converter
• 8/10-bit A/D converter : 24 channels
• Resolution is selectable between 8-bit and 10-bit.
• Activation by external trigger input is allowed.
• Conversion time : 3 µs (at 24-MHz machine clock, including sampling time)
• Program patch function
• Timer
• Time-base timer, clock timer, watchdog timer : 1 channel
• 8/16-bit PPG timer : 8-bit × 16 channels, or 16-bit × 8 channels
• 16-bit reload timer : 4 channels
• 16-bit input/output timer
- 16-bit free run timer : 2 channel
(FRT0 : ICU 0/1/2/3, OCU 0/1/2/3, FRT1 : ICU 4/5/6/7, OCU 4/5/6/7)
- 16-bit input capture: (ICU) : 8 channels
- 16-bit output compare : (OCU) : 8 channels
2
MB90860E Series
• Variety of mode
• Low power consumption (standby) mode
• Sleep mode (a mode that halts CPU operating clock)
• Main timer mode (time-base timer mode that is transferred from main clock mode)
• PLL timer mode (time-base timer mode that is transferred from PLL clock mode)
• Watch mode (a mode that operates sub clock and clock timer only)
• Stop mode (a mode that stops oscillation clock and sub clock)
• CPU blocking operation mode
• Technology
• 0.35 µm CMOS technology
* : I2C license :
Purchase of Fujitsu I2C components conveys a license under the Philips I2C Patent Rights to use, these components in an I2C system provided that the system conforms to the I2C Standard Specification as defined by
Philips.
3
MB90860E Series
■ PRODUCT LINEUP
Part Number
MB90867E(S)
MB90F867E(S)
MB90V340E-101/102
Parameter
F2MC-16LX CPU
CPU
Type
System clock
MASK ROM product
Flash memory product
Evaluation product
On-chip PLL clock multiplier (×1, ×2, ×3, ×4, ×6, 1/2 when PLL stops)
Minimum instruction execution time : 42 ns (4 MHz osc. PLL × 6)
ROM
MASK ROM
128 Kbytes
Flash memory
128 Kbytes
External
RAM
6 Kbytes
6 Kbytes
30 Kbytes
Emulator-specific
power supply*1
⎯
Yes
Technology
0.35 µm CMOS with on-chip
0.35 µm CMOS with on-chip voltage regulator for internal 0.35 µm CMOS with on-chip
voltage regulator for internal power supply + Flash memory voltage regulator for internal
power supply
with on-chip charge pump for power supply
programming voltage
Operating
voltage range
3.5 V to 5.5 V : at normal operating (not using A/D converter)
4.0 V to 5.5 V : at using A/D converter/Flash programming
4.5 V to 5.5 V : at using external bus
5 V ± 10%
−40 °C to +105 °C
⎯
QFP-100, LQFP-100
PGA-299
4 channels
5 channels
Temperature range
Package
UART
I2C (400 kbps)
8/10-bit
A/D converter
Wide range of baud rate settings using a dedicated reload timer
Special synchronous options for adapting to different synchronous serial protocols
LIN functionality working either as master or slave LIN device
2 channels
24 channels
10-bit or 8-bit resolution
Conversion time : Min 3 µs include sample time (per one channel)
16-bit reload timer
(4 channels)
Operation clock frequency : fsys/21, fsys/23, fsys/25 (fsys = Machine clock frequency)
Supports External Event Count function
16-bit
I/O timer
(2 channels)
Signals an interrupt when overflowing
Supports Timer Clear when a match with Output Compare (ch.0, ch.4)
Operation clock freq. : fsys, fsys/21, fsys/22, fsys/23, fsys/24, fsys/25, fsys/26, fsys/27
(fsys = Machine clock freq.)
I/O Timer 0 (clock input FRCK0) corresponds to ICU 0/1/2/3, OCU 0/1/2/3
I/O Timer 1 (clock input FRCK1) corresponds to ICU 4/5/6/7, OCU 4/5/6/7
16-bit output
compare
(8 channels)
Signals an interrupt when 16-bit I/O Timer match output compare registers.
A pair of compare registers can be used to generate an output signal.
16-bit input capture
(8 channels)
Rising edge, falling edge or rising & falling edge sensitive
Signals an interrupt upon external event
(Continued)
4
MB90860E Series
(Continued)
Part Number
MB90867E(S)
MB90F867E(S)
MB90V340E-101/102
Parameter
Supports 8-bit and 16-bit operation modes
Sixteen 8-bit reload counters
8/16-bit
Sixteen 8-bit reload registers for L pulse width
programmable pulse Sixteen 8-bit reload registers for H pulse width
generator
A pair of 8-bit reload counters can be configured as one 16-bit reload counter or as
(8 channels)
8-bit prescaler plus 8-bit reload counter
Operation clock freq. : fsys, fsys/21, fsys/22, fsys/23, fsys/24 or 128 µs@fosc = 4 MHz
(fsys = Machine clock frequency, fosc = Oscillation clock frequency)
⎯
CAN interface
External interrupt
(16 channels)
3 channels
Can be used rising edge, falling edge, starting up by H/L level input, external interrupt,
expanded intelligent I/O services (EI2OS) and DMA
⎯
D/A converter
2 channels
Up to 100 kHz
sub clock for low
power operation
Devices without ‘S’-suffix
I/O ports
Virtually all external pins can be used as general purpose I/O port
All push-pull outputs
Bit-wise settable as input/output or peripheral signal
Settable in pin-wise of 8 as CMOS schmitt trigger/automotive inputs (default)
TTL input level settable for external bus (32-pin only for external bus)
Flash memory
Supports automatic programming, Embedded AlgorithmTM*2
Write/Erase/Erase-Suspend/Resume commands
A flag indicating completion of the algorithm
Number of erase cycles : 10,000 times
Data retention time : 20 years
Boot block configuration
Erase can be performed on each block
Block protection with external programming voltage
Flash Security Feature for protecting the content of the Flash
Only for MB90V340E102
⎯
*1 : It is setting of Jumper switch (TOOL VCC) when Emulator (MB2147-01) is used.
Please refer to the Emulator hardware manual about details.
*2 : Embedded Algorithm is a trade mark of Advanced Micro Devices Inc.
5
MB90860E Series
■ PIN ASSIGNMENTS
• MB90V340E-101/102
P03/AD03/INT11
P02/AD02/INT10
P01/AD01/INT9
P00/AD00/INT8
PA1/TX0
PA0/RX0/INT8R
P97/OUT3
P96/OUT2
P95/OUT1
P94/OUT0
P93/PPG7(6)
P92/PPG5(4)
P91/PPG3(2)
P90/PPG1(0)
Vss
Vcc
P87/SCK1
P86/SOT1
P85/SIN1
P84/SCK0/INT15R
P83/SOT0/TOT2
P82/SIN0/TIN2/INT14R
P81/TOT0/CKOT/INT13R
P80/TIN0/ADTG/INT12R
P77/AN23/INT7
P76/AN22/INT6
RST
MD0
MD1
MD2
(TOP VIEW)
P24/A20/IN0
P25/A21/IN1
P26/A22/IN2
P27/A23/IN3
P30/ALE/IN4
X1
X0
P15/AD13/SIN4
P16/AD14/SOT4
P17/AD15/SCK4
P20/A16/PPG9(8)
P21/A17/PPGB(A)
P22/A18/PPGD(C)
P23/A19/PPGF(E)
P75/AN21/INT5
P74/AN20/INT4
P73/AN19/INT3
P72/AN18/INT2
P71/AN17/INT1
P70/AN16/INT0
Vss
P67/AN7/PPGE(F)
P66/AN6/PPGC(D)
P65/AN5/PPGA(B)
P64/AN4/PPG8(9)
P63/AN3/PPG6(7)
P62/AN2/PPG4(5)
P61/AN1/PPG2(3)
P60/AN0/PPG0(1)
AVss
AVRL
AVRH
AVcc
P57/AN15/DA01
P35/HAK/OUT5
P36/RDY/OUT6
P37/CLK/OUT7
P40/X0A*
P41/X1A*
Vcc
Vss
C
P42/IN6/RX1/INT9R
P43/IN7/TX1
P44/SDA0/FRCK0
P45/SCL0/FRCK1
P46/SDA1
P47/SCL1
P50/AN8/SIN2
P51/AN9/SOT2
P52/AN10/SCK2
P53/AN11/TIN3
P54/AN12/TOT3
P55/AN13
P56/AN14/DA00
Vcc
Vss
80 79 78 77 76 75 74 73 72 71 70 69 68 67 66 65 64 63 62 61 60 59 58 57 56 55 54 53 52 51
50
81
82
49
83
48
84
47
85
46
86
45
87
44
88
43
89
42
90
41
QFP - 100
91
40
92
39
93
38
94
37
95
36
96
35
97
34
98
33
99
32
100
31
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30
P31/RD/IN5
P32/WRL/WR/RX2/INT10R
P33/WRH/TX2
P34/HRQ/OUT4
P04/AD04/INT12
P05/AD05/INT13
P06/AD06/INT14
P07/AD07/INT15
P10/AD08/TIN1
P11/AD09/TOT1
P12/AD10/SIN3/INT11R
P13/AD11/SOT3
P14/AD12/SCK3
(FPT-100P-M06)
* : X0A, X1A : MB90V340E-102
P40, P41 : MB90V340E-101
(Continued)
6
MB90860E Series
(Continued)
RST
MD0
MD1
MD2
P75/AN21/INT5
P74/AN20/INT4
P73/AN19/INT3
P72/AN18/INT2
P71/AN17/INT1
P70/AN16/INT0
Vss
P67/AN7/PPGE(F)
P66/AN6/PPGC(D)
P65/AN5/PPGA(B)
P64/AN4/PPG8(9)
P63/AN3/PPG6(7)
P62/AN2/PPG4(5)
P61/AN1/PPG2(3)
P60/AN0/PPG0(1)
AVss
AVRL
AVRH
AVcc
P57/AN15/DA01
P56/AN14/DA00
P55/AN13
P54/AN12/TOT3
P42/IN6/RX1/INT9R
P43/IN7/TX1
P44/SDA0/FRCK0
P45/SCL0/FRCK1
P46/SDA1
P47/SCL1
P50/AN8/SIN2
P51/AN9/SOT2
P52/AN10/SCK2
P53/AN11/TIN3
Vcc
Vss
C
P35/HAK/OUT5
P36/RDY/OUT6
P37/CLK/OUT7
P40/X0A*
P41/X1A*
75 74 73 72 71 70 69 68 67 66 65 64 63 62 61 60 59 58 57 56 55 54 53 52 51
76
50
77
49
78
48
47
79
46
80
45
81
44
82
43
83
42
84
41
85
40
86
39
87
38
88
LQFP - 100
37
89
36
90
35
91
34
92
33
93
32
94
31
95
30
96
29
97
98
28
99
27
100
26
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25
P26/A22/IN2
P27/A23/IN3
P30/ALE/IN4
P31/RD/IN5
P32/WRL/WR/RX2/INT10R
P33/WRH/TX2
P34/HRQ/OUT4
P01/AD01/INT9
P02/AD02/INT10
P03/AD03/INT11
P04/AD04/INT12
P05/AD05/INT13
P06/AD06/INT14
P07/AD07/INT15
P10/AD08/TIN1
P11/AD09/TOT1
P12/AD10/SIN3/INT11R
P13/AD11/SOT3
P14/AD12/SCK3
Vcc
Vss
X1
X0
P15/AD13/SIN4
P16/AD14/SOT4
P17/AD15/SCK4
P20/A16/PPG9(8)
P21/A17/PPGB(A)
P22/A18/PPGD(C)
P23/A19/PPGF(E)
P24/A20/IN0
P25/A21/IN1
P81/TOT0/CKOT/INT13R
P80/TIN0/ADTG/INT12R
P77/AN23/INT7
P76/AN22/INT6
P00/AD00/INT8
PA1/TX0
PA0/RX0/INT8R
P97/OUT3
P96/OUT2
P95/OUT1
P94/OUT0
P93/PPG7(6)
P92/PPG5(4)
P91/PPG3(2)
P90/PPG1(0)
Vss
Vcc
P87/SCK1
P86/SOT1
P85/SIN1
P84/SCK0/INT15R
P83/SOT0/TOT2
P82/SIN0/TIN2/INT14R
(TOP VIEW)
(FPT-100P-M05)
* : X0A, X1A : MB90V340E-102
P40, P41 : MB90V340E-101
7
MB90860E Series
• MB90867E(S)/MB90F867E(S)
RST
MD2
P75/AN21/INT5
P74/AN20/INT4
P73/AN19/INT3
P72/AN18/INT2
P71/AN17/INT1
P70/AN16/INT0
Vss
P67/AN7/PPGE(F)
P66/AN6/PPGC(D)
P65/AN5/PPGA(B)
P64/AN4/PPG8(9)
P63/AN3/PPG6(7)
P62/AN2/PPG4(5)
P61/AN1/PPG2(3)
P60/AN0/PPG0(1)
AVss
AVRL
AVRH
AVcc
P57/AN15
P35/HAK/OUT5
P36/RDY/OUT6
P37/CLK/OUT7
P40/X0A*
P41/X1A*
Vcc
Vss
C
P42/IN6/INT9R
P43/IN7
P44/SDA0/FRCK0
P45/SCL0/FRCK1
P46/SDA1
P47/SCL1
P50/AN8/SIN2
P51/AN9/SOT2
P52/AN10/SCK2
P53/AN11/TIN3
P54/AN12/TOT3
P55/AN13
P56/AN14
P33/WRH
P34/HRQ/OUT4
P31/RD/IN5
P32/WRL/WR/INT10R
80 79 78 77 76 75 74 73 72 71 70 69 68 67 66 65 64 63 62 61 60 59 58 57 56 55 54 53 52 51
50
81
82
49
83
48
84
47
85
46
86
45
87
44
88
43
89
42
QFP - 100
90
41
91
40
92
39
93
38
94
37
95
36
96
35
97
34
98
33
99
32
100
31
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30
P24/A20/IN0
P25/A21/IN1
P26/A22/IN2
P27/A23/IN3
P30/ALE/IN4
P04/AD04/INT12
P05/AD05/INT13
P06/AD06/INT14
P07/AD07/INT15
P10/AD08/TIN1
P11/AD09/TOT1
P12/AD10/SIN3/INT11R
P13/AD11/SOT3
P14/AD12/SCK3
Vcc
Vss
X1
X0
P15/AD13
P16/AD14
P17/AD15
P20/A16/PPG9(8)
P21/A17/PPGB(A)
P22/A18/PPGD(C)
P23/A19/PPGF(E)
MD0
MD1
P03/AD03/INT11
P02/AD02/INT10
P01/AD01/INT9
P00/AD00/INT8
PA1
PA0/INT8R
P97/OUT3
P96/OUT2
P95/OUT1
P94/OUT0
P93/PPG7(6)
P92/PPG5(4)
P91/PPG3(2)
P90/PPG1(0)
Vss
Vcc
P87/SCK1
P86/SOT1
P85/SIN1
P84/SCK0/INT15R
P83/SOT0/TOT2
P82/SIN0/TIN2/INT14R
P81/TOT0/CKOT/INT13R
P80/TIN0/ADTG/INT12R
P77/AN23/INT7
P76/AN22/INT6
(TOP VIEW)
(FPT-100P-M06)
* : X0A, X1A : MB90867E, MB90F867E
P40, P41 : MB90867ES/MB90F867ES
(Continued)
8
MB90860E Series
(Continued)
RST
MD0
MD1
MD2
P75/AN21/INT5
P74/AN20/INT4
P73/AN19/INT3
P72/AN18/INT2
P71/AN17/INT1
P70/AN16/INT0
Vss
P67/AN7/PPGE(F)
P66/AN6/PPGC(D)
P65/AN5/PPGA(B)
P64/AN4/PPG8(9)
P63/AN3/PPG6(7)
P62/AN2/PPG4(5)
P61/AN1/PPG2(3)
P60/AN0/PPG0(1)
AVss
AVRL
AVRH
AVcc
P57/AN15
P56/AN14
P55/AN13
P54/AN12/TOT3
P35/HAK/OUT5
P36/RDY/OUT6
P37/CLK/OUT7
P40/X0A*
P41/X1A*
Vcc
Vss
C
P42/IN6/INT9R
P43/IN7
P44/SDA0/FRCK0
P45/SCL0/FRCK1
P46/SDA1
P47/SCL1
P50/AN8/SIN2
P51/AN9/SOT2
P52/AN10/SCK2
P53/AN11/TIN3
P33/WRH
P34/HRQ/OUT4
P26/A22/IN2
P27/A23/IN3
P30/ALE/IN4
P12/AD10/SIN3/INT11R
P13/AD11/SOT3
P14/AD12/SCK3
Vcc
Vss
X1
X0
P15/AD13
P16/AD14
P17/AD15
P20/A16/PPG9(8)
P21/A17/PPGB(A)
P22/A18/PPGD(C)
P23/A19/PPGF(E)
P24/A20/IN0
P25/A21/IN1
75 74 73 72 71 70 69 68 67 66 65 64 63 62 61 60 59 58 57 56 55 54 53 52 51
76
50
77
49
48
78
47
79
46
80
45
81
44
82
43
83
42
84
41
85
40
86
39
87
LQFP - 100
38
88
37
89
36
90
35
91
34
92
33
93
32
94
31
95
30
96
29
97
98
28
99
27
100
26
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25
P31/RD/IN5
P32/WRL/WR/INT10R
P01/AD01/INT9
P02/AD02/INT10
P03/AD03/INT11
P04/AD04/INT12
P05/AD05/INT13
P06/AD06/INT14
P07/AD07/INT15
P10/AD08/TIN1
P11/AD09/TOT1
P81/TOT0/CKOT/INT13R
P80/TIN0/ADTG/INT12R
P77/AN23/INT7
P76/AN22/INT6
P00/AD00/INT8
PA1
PA0/INT8R
P97/OUT3
P96/OUT2
P95/OUT1
P94/OUT0
P93/PPG7(6)
P92/PPG5(4)
P91/PPG3(2)
P90/PPG1(0)
Vss
Vcc
P87/SCK1
P86/SOT1
P85/SIN1
P84/SCK0/INT15R
P83/SOT0/TOT2
P82/SIN0/TIN2/INT14R
(TOP VIEW)
(FPT-100P-M05)
* : X0A, X1A :
P40, P41 :
MB90867E, MB90F867E
MB90867ES, MB90F867ES
9
MB90860E Series
■ PIN DESCRIPTION
Pin No.
QFP100*1 LQFP100*2
Pin name
I/O
Circuit
type*3
General purpose I/O pins. The register can be set to select
whether to use a pull-up resistor.In external bus mode, the pin is
enabled as a general-purpose I/O port when the corresponding bit
in the external address output control register (HACR) is 1.
P24 to P27
1 to 4
99 to 2
G
A20 to A23
Output pins of the external address bus. When the corresponding
bit in the external address output control register (HACR) is 0, the
pins are enabled as high address output pins (A20 to A23).
IN0 to IN3
Trigger input pins for input captures 0 to 3.
General purpose I/O pin.The register can be set to select whether
to use a pull-up resistor.This function is enabled in single-chip
mode.
P30
5
6
7
3
G
ALE
Address latch enable output pin. This function is enabled when
the external bus is enabled.
IN4
Trigger input pin for input capture 4.
P31
General purpose I/O pin.The register can be set to select whether
to use a pull-up resistor.This function is enabled in single-chip
mode.
4
G
RD
External read strobe output pin. This function is enabled when the
external bus is enabled.
IN5
Trigger input pin for input capture 5.
P32
General purpose I/O pin. The register can be set to select whether
to use a pull-up resistor. This function is enabled either in singlechip mode or with the WR/WRL pin output disabled.
5
G
WR / WRL
INT10R
6
General purpose I/O pin. The register can be set to select whether
to use a pull-up resistor.This function is enabled either in singlechip mode or with the WRH pin output disabled.
G
WRH
Write strobe output pin for the external data bus. This function is
enabled when both the external bus and the WR/WRL pin output
are enabled. WRL is used to write-strobe 8 lower bits of the data
bus in 16-bit access while WR is used to write-strobe 8 bits of the
data bus in 8-bit access.
External interrupt request input pin (sub) .
P33
8
Function
Write strobe output pin for the 8 higher bits of the external data
bus. This function is enabled when the external bus is enabled,
when the external bus 16-bit mode is selected, and when the
WRH output pin is enabled.
(Continued)
10
MB90860E Series
Pin No.
QFP100*1 LQFP100*2
Pin name
I/O
Circuit
type*3
General purpose I/O pin. The register can be set to select
whether to use a pull-up resistor. This function is enabled either
in single-chip mode or with the hold function disabled.
P34
9
7
G
HRQ
Hold request input pin. This function is enabled when both the
external bus and the hold function are enabled.
OUT4
Waveform output pin for output compare 4.
General purpose I/O pin. The register can be set to select
whether to use a pull-up resistor. This function is enabled either
in single-chip mode or with the hold function disabled.
P35
10
8
G
HAK
OUT5
9
General purpose I/O pin. The register can be set to select
whether to use a pull-up resistor. This function is enabled either
in single-chip mode or with the external ready function disabled.
G
RDY
External ready input pin. This function is enabled when both the
external bus and the external ready function are enabled.
OUT6
Waveform output pin for output compare 6.
General purpose I/O pin. The register can be set to select
whether to use a pull-up resistor. This function is enabled either
in single-chip mode or with the clock output disabled.
P37
12
10
G
CLK
OUT7
13, 14
Hold acknowledge output pin. This function is enabled when
both the external bus and the hold function are enabled.
Waveform output pin for output compare 5.
P36
11
Function
Clock output pin. This function is enabled when both the
external bus and clock output are enabled.
Waveform output pin for output compare 7.
P40, P41
F
General purpose I/O pins.
(devices with S-suffix)
X0A , X1A
B
Input pins for sub-clock
(devices without S-suffix)
11, 12
15
13
VCC
⎯
Power (3.5 V to 5.5 V) input pin
16
14
VSS
⎯
GND pin
17
15
C
K
This is the power supply stabilization capacitor pin. It should be
connected to a higher than or equal to 0.1 µF ceramic
capacitor.
P42
18
16
IN6
INT9R
General purpose I/O pin.
F
Trigger input pin for input capture 6.
External interrupt request input pin (sub)
(Continued)
11
MB90860E Series
Pin No.
QFP100*1 LQFP100*2
19
17
Pin name
P43
IN7
I/O
Circuit
type*3
F
P44
20
18
SDA0
H
SCL0
20
23
21
P46
SDA1
P47
SCL1
H
25
22
23
AN8
H
H
O
27
28
25
26
27
30, 31
28, 29
32
30
General purpose I/O pin.
Serial clock I/O pin for I2C 1
Analog input pin for the A/D converter
Serial data input pin for UART2
P51
General purpose I/O pin.
AN9
I
AN10
Analog input pin for the A/D converter
Serial data output pin for UART2
General purpose I/O pin.
I
Analog input pin for the A/D converter
SCK2
Clock I/O pin for UART2
P53
General purpose I/O pin.
AN11
I
Analog input pin for the A/D converter
TIN3
Event input pin for the reload timer 3
P54
General purpose I/O pin.
AN12
I
TOT3
29
Serial data I/O pin for I2C 1
SIN2
P52
24
General purpose I/O pin.
General purpose I/O pin.
SOT2
26
Serial clock I/O pin for I2C 0
Input pin for the 16-bit I/O Timer
P50
24
Serial data I/O pin for I2C 0
General purpose I/O pin.
FRCK1
22
Trigger input pin for input capture 7.
Input pin for the 16-bit I/O Timer 0
P45
19
General purpose I/O pin.
General purpose I/O pin.
FRCK0
21
Function
P55
AN13
P56, P57
AN14, AN15
AVCC
Analog input pin for the A/D converter
Output pin for the reload timer 3
I
J
K
General purpose I/O pin.
Analog input pin for the A/D converter
General purpose I/O pins.
Analog input pin for the A/D converter
Power input pin for the A/D Converter analog
(Continued)
12
MB90860E Series
Pin No.
QFP100*1 LQFP100*2
Pin name
I/O
Circuit
type*3
Function
33
31
AVRH
L
Reference voltage input pin for the A/D Converter. This power
supply must be turned on or off while a voltage higher than or
equal to AVRH is applied to AVCC.
34
32
AVRL
K
Lower reference voltage input pin for the A/D Converter
35
33
AVSS
K
GND pin for the A/D Converter analog
P60 to P67
36 to 43
34 to 41
AN0 to AN7
General purpose I/O pins.
I
PPG0, 2, 4, 6,
8, A, C, E
44
42
VSS
Output pins for PPGs
⎯
P70 to P75
45 to 50
43 to 48
AN16 to AN21
Analog input pins for the A/D converter
GND pin
General purpose I/O pins.
I
INT0 to INT5
Analog input pins for the A/D converter
External interrupt request input pins
51
49
MD2
D
Input pin for specifying the operating mode.
52, 53
50, 51
MD1, MD0
C
Input pins for specifying the operating mode.
54
52
RST
E
Reset input
P76, P77
55, 56
53, 54
AN22, AN23
General purpose I/O pins.
I
INT6, INT7
External interrupt request input pins
P80
57
55
TIN0
ADTG
General purpose I/O pin.
F
INT12R
56
TOT0
CKOT
F
SIN0
TIN2
M
SOT0
F
SCK0
INT15R
Serial data output pin for UART0
Output pin for the reload timer 2
P84
59
Event input pin for the reload timer 2
General purpose I/O pin.
TOT2
61
Serial data input pin for UART0
External interrupt request input pin (sub)
P83
58
Output pin for the clock monitor
General purpose I/O pin.
INT14R
60
Output pin for the reload timer 0
External interrupt request input pin (sub)
P82
57
Trigger input pin for the A/D converter
General purpose I/O pin.
INT13R
59
Event input pin for the reload timer 0
External interrupt request input pin (sub)
P81
58
Analog input pins for the A/D converter
General purpose I/O pin.
F
Clock I/O pin for UART0
External interrupt request input pin (sub)
(Continued)
13
MB90860E Series
Pin No.
QFP100*1 LQFP100*2
Pin name
P85
I/O
Circuit
type*3
General purpose I/O pin.
62
60
63
61
64
62
65
63
VCC
⎯
Power (3.5 V to 5.5 V) input pins
66
64
VSS
⎯
GND pins
67 to 70
65 to 68
71 to 74
69 to 72
75
73
76
74
SIN1
P86
SOT1
P87
SCK1
P90 to P93
PPG1, 3, 5, 7
M
Function
F
F
F
P94 to P97
OUT0 to
OUT3
PA0
INT8R
PA1
75 to 82
F
F
86
Serial data output pin for UART1
General purpose I/O pin.
Clock I/O pin for UART1
General purpose I/O pin
Output pins for PPGs
Waveform output pins for output compares 0 to 3. This function
is enabled when the OCU enables waveform output.
General purpose I/O pin.
External interrupt request input pin (sub)
General purpose I/O pin.
General purpose I/O pins. The register can be set to select
whether to use a pull-up resistor. This function is enabled in
single-chip mode.
G
AD00 to AD07
I/O pins for 8 lower bits of the external address/data bus.
This function is enabled when the external bus is enabled.
INT8 to INT15
External interrupt request input pins.
General purpose I/O pin. The register can be set to select
whether to use a pull-up resistor. This function is enabled in
single-chip mode.
P10
85
General purpose I/O pin.
General purpose I/O pin
F
P00 to P07
77 to 84
Serial data input pin for UART1
83
G
AD08
I/O pin for the external address/data bus.
This function is enabled when the external bus is enabled.
TIN1
Event input pin for the reload timer 1
P11
General purpose I/O pin. The register can be set to select
whether to use a pull-up resistor. This function is enabled in
single-chip mode.
84
G
AD09
I/O pin for the external address/data bus.
This function is enabled when the external bus is enabled.
TOT1
Output pin for the reload timer 1
(Continued)
14
MB90860E Series
Pin No.
QFP100*1 LQFP100*2
Pin name
I/O
Circuit
type*3
General purpose I/O pin. The register can be set to select
whether to use a pull-up resistor. This function is enabled in
single-chip mode.
P12
87
85
AD10
N
SIN3
External interrupt request input pin (sub)
General purpose I/O pin. The register can be set to select
whether to use a pull-up resistor. This function is enabled in
single-chip mode.
P13
86
G
AD11
I/O pin for the external address/data bus.
This function is enabled when the external bus is enabled.
SOT3
Serial data output pin for UART3
General purpose I/O pin. The register can be set to select
whether to use a pull-up resistor. This function is enabled in
single-chip mode.
P14
89
I/O pin for the external address/data bus.
This function is enabled when the external bus is enabled.
Serial data input pin for UART3
INT11R
88
Function
87
G
AD12
I/O pin for the external address/data bus.
This function is enabled when the external bus is enabled.
SCK3
Clock I/O pin for UART3
90
88
VCC
⎯
Power (3.5 V to 5.5 V) input pin
91
89
VSS
⎯
GND pin
92
90
X1
93
91
X0
A
P15
94
92
G
P16
93
G
P17
94
G
AD15
General purpose I/O pin. The register can be set to select
whether to use a pull-up resistor. This function is enabled in
single-chip mode.
General purpose I/O pin. The register can be set to select
whether to use a pull-up resistor. This function is enabled in
single-chip mode.
I/O pin for the external address/data bus.
This function is enabled when the external bus is enabled.
AD14
96
Main clock input pin
I/O pin for the external address/data bus.
This function is enabled when the external bus is enabled.
AD13
95
Main clock output pin
General purpose I/O pin. The register can be set to select
whether to use a pull-up resistor. This function is enabled in
single-chip mode.
I/O pin for the external address/data bus. This function is
enabled when the external bus is enabled.
(Continued)
15
MB90860E Series
(Continued)
Pin No.
QFP100*1 LQFP100*2
Pin name
I/O
Circuit
type*3
General purpose I/O pins. The register can be set to select
whether to use a pull-up resistor.In external bus mode, the pin
is enabled as a general-purpose I/O port when the
corresponding bit in the external address output control
register (HACR) is 1.
P20 to P23
97 to 100
95 to 98
G
A16 to A19
PPG9,PPGB,
PPGD,PPGF
Function
Output pins of the external address bus. When the
corresponding bit in the external address output control
register (HACR) is 0, the pins are enabled as high address
output pins (A16 to A19).
Output pins for PPGs
*1 : FPT-100P-M06
*2 : FPT-100P-M05
*3 : For the I/O circuit type, refer to “■ I/O CIRCUIT TYPE”.
16
MB90860E Series
■ I/O CIRCUIT TYPE
Type
Circuit
X1
A
Remarks
Xout
• Oscillation circuit
High-speed oscillation feedback
resistor = approx. 1 MΩ
X0
Standby control signal
X1A
B
Xout
• Oscillation circuit
Low-speed oscillation feedback
resistor = approx. 10 MΩ
X0A
Standby control signal
Hysteresis
inputs
• Mask ROM and evaluation device:
CMOS Hysteresis input pin
• Flash device:
CMOS input pin
Hysteresis
inputs
• Mask ROM and evaluation device:
CMOS Hysteresis input pin
Pull-down resistor value: approx. 50 kΩ
• Flash memory device:
CMOS input pin
No Pull-down
R
C
R
D
Pull-down
Resistor
CMOS Hysteresis input pin
Pull-up resistor value: approx. 50 kΩ
E
Pull-up
Resistor
R
Hysteresis
inputs
(Continued)
17
MB90860E Series
Type
Circuit
F
Remarks
P-ch
Pout
N-ch
Nout
• CMOS level output (IOL = 4 mA, IOH = −4 mA)
• CMOS hysteresis inputs (With the standbytime input shutdown function)
• Automotive input (With the standby-time
input shutdown function)
R
Hysteresis inputs
Automotive inputs
Standby control for
input shutdown
Pull-up control
P-ch
P-ch
Pout
N-ch
G
Nout
R
Hysteresis inputs
• CMOS level output (IOL = 4 mA, IOH = −4 mA)
• CMOS hysteresis inputs (With the standbytime input shutdown function)
• Automotive input (With the standby-time
input shutdown function)
• TTL input (With the standby-time input
shutdown function)
• Programmable pull-up resistor: 50 kΩ
approx.
Automotive inputs
TTL input
Standby control for
input shutdown
H
P-ch
Pout
N-ch
Nout
• CMOS level output (IOL = 3 mA, IOH = −3 mA)
• CMOS hysteresis inputs (With the standbytime input shutdown function)
• Automotive input (With the standby-time
input shutdown function)
R
Hysteresis inputs
Automotive inputs
Standby control for
input shutdown
(Continued)
18
MB90860E Series
Type
Circuit
Remarks
P-ch
Pout
N-ch
Nout
• CMOS level output (IOL = 4 mA, IOH = −4 mA)
• CMOS hysteresis inputs (With the standbytime input shutdown function)
• Automotive input (With the standby-time input shutdown function)
• A/D converter analog input
R
I
Hysteresis inputs
Automotive inputs
Standby control for
input shutdown
Analog input
P-ch
Pout
N-ch
Nout
• CMOS level output (IOL = 4 mA, IOH = −4 mA)
• D/A analog output
• CMOS hysteresis inputs (With the standbytime input shutdown function)
• Automotive input (With the standby-time input shutdown function)
• A/D converter analog input
R
Hysteresis inputs
J
Automotive inputs
Standby control for
input shutdown
Analog input
Analog output
Power supply input protection circuit
P-ch
K
N-ch
P-ch
L
ANE
• A/D converter reference voltage power
supply input pin, with the protection circuit
• Flash devices do not have a protection
circuit against VCC for pin AVRH
AVR
N-ch
ANE
(Continued)
19
MB90860E Series
(Continued)
Type
Circuit
M
P-ch
Pout
N-ch
Nout
Remarks
• CMOS level output (IOL = 4 mA, IOH = −4 mA)
• CMOS inputs (With the standby-time
input shutdown function)
• Automotive input (With the standby-time
input shutdown function)
R
CMOS inputs
Automotive inputs
Standby control for
input shutdown
Pull-up control
P-ch
P-ch
Pout
N-ch
N
Nout
R
CMOS inputs
• CMOS level output (IOL = 4 mA, IOH = −4 mA)
• CMOS inputs (With the standby-time
input shutdown function)
• Automotive input (With the standby-time
input shutdown function)
• TTL input (With the standby-time input
shutdown function)
Programmable pull-up registor:50 kΩ
approx
Automotive inputs
TTL input
Standby control for
input shutdown
P-ch
Pout
N-ch
Nout
R
O
CMOS inputs
Automotive inputs
Standby control for
input shutdown
Analog input
20
• CMOS level output(IOL = 4 mA, IOH = −4 mA)
• CMOS inputs (With the standby-time
input shutdown function)
• Automotive input (With the standby-time
input shutdown function)
• A/D converter analog input
MB90860E Series
■ HANDLING DEVICES
1. Preventing latch-up
CMOS IC may suffer latch-up under the following conditions :
• A voltage higher than VCC or lower than VSS is applied to an input or output pin.
• A voltage higher than the rated voltage is applied between VCC and VSS pins.
• The AVCC power supply is applied before the VCC voltage.
Latch-up may increase the power supply current drastically, causing thermal damage to the device.
For the same reason, also be careful not to let the analog power-supply voltage (AVCC, AVRH) exceed the digital
power-supply voltage.
2. Handling unused pins
Leaving unused input pins open may result in misbehavior or latch up and possible permanent damage of the
device. Therefore they must be pulled up or pulled down through resistors. In this case those resistors should
be more than 2 kΩ .
Unused bidirectional pins should be set to the output state and can be left open, or the input state with the above
described connection.
3. Power supply pins (VCC/VSS)
• If there are multiple VCC and VSS pins, from the point of view of device design, pins to be of the same potential
are connected the inside of the device to prevent such malfunctioning as latch up.
To reduce unnecessary radiation, prevent malfunctioning of the strobe signal due to the rise of ground level,
and observe the standard for total output current, be sure to connect the VCC and VSS pins to the power supply
and ground externally.
• Connect VCC and VSS to the device from the current supply source at a low impedance.
• As a measure against power supply noise, connect a capacitor of about 0.1 µF as a bypass capacitor between
VCC and VSS in the vicinity of VCC and VSS pins of the device
Vcc
Vss
Vcc
Vss
Vss
Vcc
MB90860E
Series
Vcc
Vss
Vss
Vcc
4. Mode Pin (MD0 to MD2)
Connect the mode pin directly to VCC or VSS pins.
To prevent the device unintentionally entering test mode due to noise, lay out the printed circuit board so as to
minimize the distance from the mode pins to VCC or VSS pins and to provide a low-impedance connection.
21
MB90860E Series
5. Turning-on Sequence of Power Supply to A/D Converter and Analog Inputs
Make sure to turn on the A/D converter power supply (AVCC, AVRH, AVRL) and analog inputs (AN0 to AN23)
after turning-on the digital power supply (VCC) .
Turn-off the digital power after turning off the A/D converter supply and analog inputs. In this case, make sure
that the voltage not exceed AVRH or AVCC (turning on/off the analog and digital power supplies simultaneously
is acceptable) .
6. Connection of Unused Pins of A/D Converter if A/D Converter is used
Connect unused pins of A/D converter to AVCC = VCC, AVSS = AVRH = AVRL = VSS.
7. Crystal Oscillator Circuit
X0, X1 pins and X0A, X1A pins may be possible causes of abnormal operations. Make sure to provide bypass
capacitors via shortest distance from X0, X1 pins and X0A, X1A pins, crystal oscillator (or ceramic oscillator)
and ground lines, and make sure, to the utmost effort, that lines of oscillation circuit not cross the lines of other
circuits.
It is highly recommended to provide a printed circuit board art work surrounding X0, X1 pins and X0A, X1A pins
with a ground area for stabilizing the operation.
8. Pull-up/down resistors
The MB90860E Series does not support internal pull-up/down resistors (Port 0 to Port 3: built-in pull-up resistors).
Use external components where needed.
9. Using external clock
To use external clock, drive the X0 pin and leave X1 pin open.
MB90860E Series
X0
Open
X1
10. Precautions for when not using a sub clock signal
If you do not connect pins X0A and X1A to an oscillator, use pull-down handling on the X0A pin, and leave the
X1A pin open.
11. Notes on during operation of PLL clock mode
If the PLL clock mode is selected, the MB90860 series attempt to be working with the self-oscillating circuit even
when there is no external oscillator or external clock input is stopped. Performance of this operation, however,
cannot be guaranteed.
12. Notes on Energization
To prevent the internal regulator circuit from malfunctioning, set the voltage rise time during energization at 50
or more µs (0.2 V to 2.7 V)
22
MB90860E Series
13. Stabilization of power supply voltage
A sudden change in the supply voltage may cause the device to malfunction even within the specified VCC supply
voltage operating range. Therefore, the VCC supply voltage should be stabilized.
For the reference, stabilize the supply voltage by setting the following value.
• VCC ripple variations (peak-to-peak value) at commercial frequencies (50 Hz/60 Hz) fall below 10% of the
standard VCC supply voltage
• The coefficient of fluctuation does not exceed 0.1 V/ms at instantaneous power switching.
14. Initialization
In the device, there are internal registers which are initialized only by a power-on reset. To initialize these registers,
turn on the power again.
15. Port 0 to port 3 output during Power-on (External-bus mode)
As shown below, when power is turned on in External-Bus mode, in spite of reset input, there is a possibility that
output signal of Port 0 to Port 3 might be unstable.
1/2VCC
VCC
Port 0 to Port 3
Port 0 to Port 3 outputs
might be unstable
Port 0 to Port 3 outputs = Hi-Z
16. Flash security Function
The security bit is located in the area of the flash memory.
If protection code 01H is written in the security bit, the flash memory is in the protected state by security.
Therefore please do not write 01H in this address if you do not use the security function.
Please refer to following table for the address of the security bit.
MB90F867E(S)
Flash memory size
Address for security bit
Embedded 1 Mbit Flash Memory
FE0001H
23
MB90860E Series
■ BLOCK DIAGRAMS
• MB90V340E-101/102
X0,X1
X0A,X1A*
RST
Clock
Controller
16LX
CPU
RAM
30 Kbytes
AVCC
AVSS
AN23 to AN0
AVRH
AVRL
ADTG
DA01, DA00
FRCK0
Input
Capture
8 channels
IN7 to IN0
Output
Compare
8 channels
OUT7 to OUT0
Prescaler
5 channels
I/O Timer 1
UART
5 channels
CAN
Controller
3 channels
RX2 to RX0
TX2 to TX0
16-bit Reload
Timer
4 channels
TIN3 to TIN0
TOT3 to TOT0
8/10-bit
ADC
24 channels
10-bit
DAC
2 channels
FRCK1
AD15 to AD00
F2MC-16 Bus
SOT4 to SOT0
SCK4 to SCK0
SIN4 to SIN0
I/O Timer 0
A23 to A16
ALE
RD
External
Bus
Interface
WR/WRL
WRH
HRQ
PPGF to PPG0
SDA1, SDA0
SCL1, SCL0
I2C
Interface
2 channels
DMAC
* : Only for MB90V340E-102
24
HAK
8/16-bit
PPG
16 channels
RDY
CLK
External
Interrupt
16 channels
Clock
Monitor
INT15 to INT8
(INT15R to INT8R)
INT7 to INT0
CKOT
MB90860E Series
• MB90867E(S), MB90F867E(S)
X0,X1
X0A,X1A*
RST
Clock
Controller
16LX
CPU
RAM
6 Kbytes
ROM/Flash
128 Kbytes
Prescaler
4 channels
AVCC
AVSS
AN15 to AN0
AN23 to AN16
AVRH
AVRL
ADTG
PPGF to PPG0
FRCK0
Input
Capture
8 channels
IN7 to IN0
Output
Compare
8 channels
OUT7 to OUT0
I/O Timer 1
FRCK1
UART
4 channels
16-bit Reload
Timer
4 channels
8/10-bit
ADC
24 channels
TIN3 to TIN0
TOT3 to TOT0
AD15 to AD00
F2MC-16 Bus
SOT3 to SOT0
SCK3 to SCK0
SIN3 to SIN0
I/O Timer 0
A23 to A16
ALE
RD
External
Bus
Interface
8/16-bit
PPG
16 channels
WR/WRL
WRH
HRQ
HAK
RDY
SDA1, SDA0
SCL1, SCL0
I2C
Interface
2 channels
CLK
External
Interrupt
16 channels
INT15 to INT8
(INT15R to INT8R)
INT7 to INT0
DMAC
Clock
Monitor
CKOT
* : Only for devices without ‘S’ Suffix
25
MB90860E Series
■ MEMORY MAP
MB90867E(S)
MB90F867E(S)
MB90V340E-101/102
000000H
0000EFH
000100H
Peripheral
External access area
000000H
0000EFH
000100H
Peripheral
External access area
RAM 6 Kbytes
003FFFH
RAM 30 Kbytes
0078FFH
007900H
007900H
Peripheral
007FFFH
008000H
00FFFFH
ROM
(image of FF bank)
Peripheral
007FFFH
008000H
00FFFFH
ROM (image
of FF bank)
External access area
F80000H
F8FFFFH
F90000H
ROM (F8 bank)
ROM (F9 bank)
F9FFFFH
FA0000H
ROM (FA bank)
FAFFFFH
FB0000H
External
access area
ROM (FB bank)
FBFFFFH
FC0000H
FCFFFFH
FD0000H
ROM (FC bank)
ROM (FD bank)
FDFFFFH
FE0000H
FE0000H
ROM (FE bank)
FEFFFFH
FF0000H
FEFFFFH
FF0000H
ROM (FF bank)
FFFFFFH
ROM (FE bank)
ROM (FF bank)
FFFFFFH
: No access
Note : The high-order portion of bank 00 gives the image of the FF bank ROM to make the small model of the C
compiler effective. Since the low-order 16 bits are the same, the table in ROM can be referenced without
using the far specification in the pointer declaration.
For example, an attempt to access 00C000H accesses the value at FFC000H in ROM.
The ROM area in bank FF exceeds 32 Kbytes, and its entire image cannot be shown in bank 00.
The image between FF8000H and FFFFFFH is visible in bank 00, while the image between FF0000H and
FF7FFFH is visible only in bank FF.
26
MB90860E Series
■ I/O MAP
Abbreviation
Access
Resource name
Initial value
000000H Port 0 Data Register
PDR0
R/W
Port 0
XXXXXXXXB
000001H Port 1 Data Register
PDR1
R/W
Port 1
XXXXXXXXB
000002H Port 2 Data Register
PDR2
R/W
Port 2
XXXXXXXXB
000003H Port 3 Data Register
PDR3
R/W
Port 3
XXXXXXXXB
000004H Port 4 Data Register
PDR4
R/W
Port 4
XXXXXXXXB
000005H Port 5 Data Register
PDR5
R/W
Port 5
XXXXXXXXB
000006H Port 6 Data Register
PDR6
R/W
Port 6
XXXXXXXXB
000007H Port 7 Data Register
PDR7
R/W
Port 7
XXXXXXXXB
000008H Port 8 Data Register
PDR8
R/W
Port 8
XXXXXXXXB
000009H Port 9 Data Register
PDR9
R/W
Port 9
XXXXXXXXB
00000AH Port A Data Register
PDRA
R/W
Port A
XXXXXXXXB
00000BH Port 5 Analog Input Enable Register
ADER5
R/W
Port 5, A/D
11111111B
00000CH Port 6 Analog Input Enable Register
ADER6
R/W
Port 6, A/D
11111111B
00000DH Port 7 Analog Input Enable Register
ADER7
R/W
Port 7, A/D
11111111B
00000EH Input Level Select Register 0
ILSR0
R/W
Ports
XXXXXXXXB
00000FH Input Level Select Register 1
ILSR1
R/W
Ports
XXXX0XXXB
000010H Port 0 Direction Register
DDR0
R/W
Port 0
00000000B
000011H Port 1 Direction Register
DDR1
R/W
Port 1
00000000B
000012H Port 2 Direction Register
DDR2
R/W
Port 2
00000000B
000013H Port 3 Direction Register
DDR3
R/W
Port 3
00000000B
000014H Port 4 Direction Register
DDR4
R/W
Port 4
00000000B
000015H Port 5 Direction Register
DDR5
R/W
Port 5
00000000B
000016H Port 6 Direction Register
DDR6
R/W
Port 6
00000000B
000017H Port 7 Direction Register
DDR7
R/W
Port 7
00000000B
000018H Port 8 Direction Register
DDR8
R/W
Port 8
00000000B
000019H Port 9 Direction Register
DDR9
R/W
Port 9
00000000B
00001AH Port A Direction Register
DDRA
R/W
Port A
00000100B
Address
Register
00001BH
Reserved
00001CH Port 0 Pull-up Control Register
PUCR0
R/W
Port 0
00000000B
00001DH Port 1 Pull-up Control Register
PUCR1
R/W
Port 1
00000000B
00001EH Port 2 Pull-up Control Register
PUCR2
R/W
Port 2
00000000B
00001FH Port 3 Pull-up Control Register
PUCR3
W, R/W
Port 3
00000000B
(Continued)
27
MB90860E Series
Abbreviation
Access
Resource name Initial value
000020H Serial Mode Register 0
SMR0
W,R/W
00000000B
000021H Serial Control Register 0
SCR0
W,R/W
00000000B
000022H Reception/Transmission Data Register 0
RDR0/
TDR0
R/W
00000000B
000023H Serial Status Register 0
SSR0
R,R/W
ECCR0
R,W,
R/W
000025H Extended Status/Control Register 0
ESCR0
R/W
00000100B
000026H Baud Rate Generator Register 00
BGR00
R/W
00000000B
000027H Baud Rate Generator Register 01
BGR01
R/W
00000000B
000028H Serial Mode Register 1
SMR1
W,R/W
00000000B
000029H Serial Control Register 1
SCR1
W,R/W
00000000B
00002AH Reception/Transmission Data Register 1
RDR1/
TDR1
R/W
00000000B
00002BH Serial Status Register 1
SSR1
R,R/W
ECCR1
R,W,
R/W
00002DH Extended Status/Control Register 1
ESCR1
R/W
00000100B
00002EH Baud Rate Generator Register 10
BGR10
R/W
00000000B
00002FH Baud Rate Generator Register 11
BGR11
R/W
00000000B
000030H PPG 0 Operation Mode Control Register
PPGC0
W,R/W
0X000XX1B
000031H PPG 1 Operation Mode Control Register
PPGC1
W,R/W
000032H PPG 0/PPG 1 Count Clock Select Register
PPG01
R/W
000000X0B
0X000XX1B
Address
000024H
00002CH
Register
Extended Communication Control
Register 0
Extended Communication Control
Register 1
000033H
UART0
00001000B
000000XXB
UART1
00001000B
000000XXB
16-bit PPG 0/1
0X000001B
Reserved
000034H PPG 2 Operation Mode Control Register
PPGC2
W,R/W
000035H PPG 3 Operation Mode Control Register
PPGC3
W,R/W
000036H PPG 2/PPG 3 Count Clock Select Register
PPG23
R/W
000000X0B
0X000XX1B
000037H
PPGC4
W,R/W
000039H PPG 5 Operation Mode Control Register
PPGC5
W,R/W
00003AH PPG 4/PPG 5 Clock Select Register
PPG45
R/W
PACSR1
R/W
00003CH PPG 6 Operation Mode Control Register
PPGC6
W,R/W
00003DH PPG 7 Operation Mode Control Register
PPGC7
W,R/W
00003EH PPG 6/PPG 7 Count Clock Control Register
PPG67
R/W
00003FH
0X000001B
Reserved
000038H PPG 4 Operation Mode Control Register
00003BH Address Detect Control Register 1
16-bit PPG 2/3
16-bit PPG 4/5
0X000001B
000000X0B
Address Match
Detection 1
00000000B
0X000XX1B
16-bit PPG 6/7
0X000001B
000000X0B
Reserved
(Continued)
28
MB90860E Series
Abbreviation
Access
000040H PPG 8 Operation Mode Control Register
PPGC8
W,R/W
000041H PPG 9 Operation Mode Control Register
PPGC9
W,R/W
PPG89
R/W
000000X0B
0X000XX1B
Address
000042H
Register
PPG 8/PPG 9 Count Clock Control
Register
000043H
Resource name
Initial value
0X000XX1B
16-bit PPG 8/9
0X000001B
Reserved
000044H PPG A Operation Mode Control Register
PPGCA
W,R/W
000045H PPG B Operation Mode Control Register
PPGCB
W,R/W
PPGAB
R/W
000000X0B
0X000XX1B
000046H
PPG A/PPG B Count Clock Select
Register
000047H
16-bit PPG A/B
0X000001B
Reserved
000048H PPG C Operation Mode Control Register
PPGCC
W,R/W
000049H PPG D Operation Mode Control Register
PPGCD
W,R/W
PPGCD
R/W
000000X0B
0X000XX1B
00004AH
PPG C/PPG D Count Clock Select
Register
00004BH
0X000001B
Reserved
00004CH PPG E Operation Mode Control Register
PPGCE
W,R/W
00004DH PPG F Operation Mode Control Register
PPGCF
W,R/W
PPGEF
R/W
00004EH
16-bit PPG C/D
PPG E/PPG F Count Clock Select
Register
00004FH
16-bit PPG E/F
0X000001B
000000X0B
Reserved
000050H Input Capture Control Status 0/1
ICS01
R/W
000051H Input Capture Edge 0/1
ICE01
R/W, R
000052H Input Capture Control Status 2/3
ICS23
R/W
000053H Input Capture Edge 2/3
ICE23
R
000054H Input Capture Control Status 4/5
ICS45
R/W
000055H Input Capture Edge 4/5
ICE45
R
000056H Input Capture Control Status 6/7
ICS67
R/W
000057H Input Capture Edge 6/7
ICE67
R/W, R
000058H Output Compare Control Status 0
OCS0
R/W
000059H Output Compare Control Status 1
OCS1
R/W
00005AH Output Compare Control Status 2
OCS2
R/W
00005BH Output Compare Control Status 3
OCS3
R/W
00005CH Output Compare Control Status 4
OCS4
R/W
00005DH Output Compare Control Status 5
OCS5
R/W
00005EH Output Compare Control Status 6
OCS6
R/W
00005FH Output Compare Control Status 7
OCS7
R/W
Input Capture 0/1
Input Capture 2/3
Input Capture 4/5
Input Capture 6/7
Output Compare 0/1
Output Compare 2/3
Output Compare 4/5
Output Compare 6/7
00000000B
XXX0X0XXB
00000000B
XXXXXXXXB
00000000B
XXXXXXXXB
00000000B
XXX000XXB
0000XX00B
0XX00000B
0000XX00B
0XX00000B
0000XX00B
0XX00000B
0000XX00B
0XX00000B
(Continued)
29
MB90860E Series
Abbreviation
Access
Resource name
Initial value
000060H Timer Control Status 0
TMCSR0
R/W
00000000B
000061H Timer Control Status 0
TMCSR0
R/W
16-bit Reload
Timer 0
000062H Timer Control Status 1
TMCSR1
R/W
000063H Timer Control Status 1
TMCSR1
R/W
000064H Timer Control Status 2
TMCSR2
R/W
000065H Timer Control Status 2
TMCSR2
R/W
000066H Timer Control Status 3
TMCSR3
R/W
000067H Timer Control Status 3
TMCSR3
R/W
000068H A/D Control Status 0
ADCS0
R/W
000XXXX0B
000069H A/D Control Status 1
ADCS1
R/W
0000000XB
00006AH A/D Data 0
ADCR0
R
00006BH A/D Data 1
ADCR1
R
00006CH ADC Setting 0
ADSR0
R/W
00000000B
00006DH ADC Setting 1
ADSR1
R/W
00000000B
00006EH
Reserved
00006FH ROM Mirror Function Select
ROMM
000070H
to
00009AH
Reserved
Address
00009BH
Register
DMA Descriptor Channel Specified
Register
W
16-bit Reload
Timer 1
16-bit Reload
Timer 2
16-bit Reload
Timer 3
A/D Converter
ROM Mirror
XXXX0000B
00000000B
XXXX0000B
00000000B
XXXX0000B
00000000B
XXXX0000B
00000000B
XXXXXX00B
XXXXXXX1B
DCSR
R/W
00009CH DMA Status L Register
DSRL
R/W
00009DH DMA Status H Register
DSRH
R/W
PACSR0
R/W
DIRR
R/W
0000A0H Low-power Mode Control Register
LPMCR
W,R/W
Low Power
Control Circuit
00011000B
0000A1H Clock Selection Register
CKSCR
R,R/W
Low Power
Control Circuit
11111100B
0000A2H,
0000A3H
Reserved
DMA
00000000B
00009EH Address Detect Control Register 0
00009FH Delayed Interrupt/release
0000A4H DMA Stop Status Register
DSSR
R/W
0000A5H Automatic Ready Function Select Register
ARSR
W
0000A6H External Address Output Control Register
HACR
W
0000A7H Bus Control Signal Selection Register
ECSR
W
0000A8H Watchdog Control Register
WDTC
R,W
00000000B
DMA
00000000B
00000000B
Address Match
Detection 0
00000000B
Delayed Interrupt XXXXXXX0B
0011XX00B
External Memory
Access
00000000B
0000000XB
Watchdog Timer
XXXXX111B
(Continued)
30
MB90860E Series
Abbreviation
Access
Resource name
Initial value
0000A9H Time Base Timer Control Register
TBTC
W,R/W
Time Base Timer
1XX00100B
0000AAH Watch Timer Control Register
WTC
R,R/W
Watch Timer
1X001000B
Address
Register
0000ABH
Reserved
0000ACH DMA Enable L Register
DERL
R/W
0000ADH DMA Enable H Register
DERH
R/W
FMCS
R,R/W
0000AEH
Flash Control Status Register
(Flash Devices only.
Otherwise reserved)
0000AFH
DMA
Flash Memory
00000000B
00000000B
000X0000B
Reserved
0000B0H Interrupt Control Register 00
ICR00
W,R/W
00000111B
0000B1H Interrupt Control Register 01
ICR01
W,R/W
00000111B
0000B2H Interrupt Control Register 02
ICR02
W,R/W
00000111B
0000B3H Interrupt Control Register 03
ICR03
W,R/W
00000111B
0000B4H Interrupt Control Register 04
ICR04
W,R/W
00000111B
0000B5H Interrupt Control Register 05
ICR05
W,R/W
00000111B
0000B6H Interrupt Control Register 06
ICR06
W,R/W
00000111B
0000B7H Interrupt Control Register 07
ICR07
W,R/W
0000B8H Interrupt Control Register 08
ICR08
W,R/W
0000B9H Interrupt Control Register 09
ICR09
W,R/W
00000111B
0000BAH Interrupt Control Register 10
ICR10
W,R/W
00000111B
0000BBH Interrupt Control Register 11
ICR11
W,R/W
00000111B
0000BCH Interrupt Control Register 12
ICR12
W,R/W
00000111B
0000BDH Interrupt Control Register 13
ICR13
W,R/W
00000111B
0000BEH Interrupt Control Register 14
ICR14
W,R/W
00000111B
0000BFH Interrupt Control Register 15
ICR15
W,R/W
00000111B
0000C0H D/A Converter Data 0 Register
DAT0
R/W
XXXXXXXXB
0000C1H D/A Converter Data 1 Register
DAT1
R/W
0000C2H D/A Control 0 Register
DACR0
R/W
0000C3H D/A Control 1 Register
DACR1
R/W
XXXXXXX0B
00000000B
0000C4H,
0000C5H
Interrupt Control
D/A Converter
00000111B
00000111B
XXXXXXXXB
XXXXXXX0B
Reserved
0000C6H External Interrupt Enable 0
ENIR0
R/W
0000C7H External Interrupt Source 0
EIRR0
R/W
0000C8H External Interrupt Level Setting 0
ELVR0
R/W
0000C9H External Interrupt Level Setting 0
ELVR0
R/W
External Interrupt 0
XXXXXXXXB
00000000B
00000000B
(Continued)
31
MB90860E Series
Abbreviation
Access
0000CAH External Interrupt Enable 1
ENIR1
R/W
00000000B
0000CBH External Interrupt Source 1
EIRR1
R/W
XXXXXXXXB
0000CCH External Interrupt Level Setting 1
ELVR1
R/W
0000CDH External Interrupt Level Setting 1
ELVR1
R/W
00000000B
0000CEH External Interrupt Source Select
EISSR
R/W
00000000B
0000CFH PLL/Sub Clock Control Register
PSCCR
W
0000D0H DMA Buffer Address Pointer L Register
BAPL
R/W
XXXXXXXXB
0000D1H DMA Buffer Address Pointer M Register
BAPM
R/W
XXXXXXXXB
0000D2H DMA Buffer Address Pointer H Register
BAPH
R/W
XXXXXXXXB
DMACS
R/W
XXXXXXXXB
Address
Register
0000D3H DMA Control Register
Resource name
External Interrupt 1
PLL
Initial value
00000000B
XXXX0000B
0000D4H
I/O Register Address Pointer L
Register
IOAL
R/W
0000D5H
I/O Register Address Pointer H
Register
IOAH
R/W
XXXXXXXXB
0000D6H Data Counter L Register
DCTL
R/W
XXXXXXXXB
0000D7H Data Counter H Register
DCTH
R/W
XXXXXXXXB
0000D8H Serial Mode Register 2
SMR2
W,R/W
00000000B
0000D9H Serial Control Register 2
SCR2
W,R/W
00000000B
RDR2/
TDR2
R/W
00000000B
SSR2
R,R/W
ECCR2
R,W,
R/W
0000DDH Extended Status Control Register 2
ESCR2
R/W
00000100B
0000DEH Baud Rate Generator Register 20
BGR20
R/W
00000000B
0000DFH Baud Rate Generator Register 21
BGR21
R/W
00000000B
0000E0H
to
0000FFH
External area
0000DAH
Reception/Transmission Data
Register 2
0000DBH Serial Status Register 2
0000DCH
Extended Communication Control
Register 2
DMA
UART2
XXXXXXXXB
00001000B
000000XXB
007900H
Reload Register L0
PRLL0
R/W
007901H
Reload Register H0
PRLH0
R/W
007902H
Reload Register L1
PRLL1
R/W
007903H
Reload Register H1
PRLH1
R/W
XXXXXXXXB
007904H
Reload Register L2
PRLL2
R/W
XXXXXXXXB
007905H
Reload Register H2
PRLH2
R/W
007906H
Reload Register L3
PRLL3
R/W
007907H
Reload Register H3
PRLH3
R/W
XXXXXXXXB
16-bit PPG 0/1
16-bit PPG 2/3
XXXXXXXXB
XXXXXXXXB
XXXXXXXXB
XXXXXXXXB
XXXXXXXXB
(Continued)
32
MB90860E Series
Abbreviation
Access
007908H Reload Register L4
PRLL4
R/W
007909H Reload Register H4
PRLH4
R/W
00790AH Reload Register L5
PRLL5
R/W
00790BH Reload Register H5
PRLH5
R/W
XXXXXXXXB
00790CH Reload Register L6
PRLL6
R/W
XXXXXXXXB
00790DH Reload Register H6
PRLH6
R/W
00790EH Reload Register L7
PRLL7
R/W
00790FH Reload Register H7
PRLH7
R/W
XXXXXXXXB
007910H Reload Register L8
PRLL8
R/W
XXXXXXXXB
007911H Reload Register H8
PRLH8
R/W
007912H Reload Register L9
PRLL9
R/W
007913H Reload Register H9
PRLH9
R/W
XXXXXXXXB
007914H Reload Register LA
PRLLA
R/W
XXXXXXXXB
007915H Reload Register HA
PRLHA
R/W
007916H Reload Register LB
PRLLB
R/W
007917H Reload Register HB
PRLHB
R/W
XXXXXXXXB
007918H Reload Register LC
PRLLC
R/W
XXXXXXXXB
007919H Reload Register HC
PRLHC
R/W
00791AH Reload Register LD
PRLLD
R/W
00791BH Reload Register HD
PRLHD
R/W
XXXXXXXXB
00791CH Reload Register LE
PRLLE
R/W
XXXXXXXXB
00791DH Reload Register HE
PRLHE
R/W
00791EH Reload Register LF
PRLLF
R/W
00791FH Reload Register HF
PRLHF
R/W
XXXXXXXXB
007920H Input Capture 0
IPCP0
R
XXXXXXXXB
007921H Input Capture 0
IPCP0
R
007922H Input Capture 1
IPCP1
R
007923H Input Capture 1
IPCP1
R
XXXXXXXXB
007924H Input Capture 2
IPCP2
R
XXXXXXXXB
007925H Input Capture 2
IPCP2
R
007926H Input Capture 3
IPCP3
R
007927H Input Capture 3
IPCP3
R
XXXXXXXXB
007928H Input Capture 4
IPCP4
R
XXXXXXXXB
007929H Input Capture 4
IPCP4
R
00792AH Input Capture 5
IPCP5
R
00792BH Input Capture 5
IPCP5
R
Address
Register
Resource name
Initial value
XXXXXXXXB
16-bit PPG 4/5
16-bit PPG 6/7
16-bit PPG 8/9
16-bit PPG A/B
16-bit PPG C/D
16-bit PPG E/F
Input Capture 0/1
Input Capture 2/3
Input Capture 4/5
XXXXXXXXB
XXXXXXXXB
XXXXXXXXB
XXXXXXXXB
XXXXXXXXB
XXXXXXXXB
XXXXXXXXB
XXXXXXXXB
XXXXXXXXB
XXXXXXXXB
XXXXXXXXB
XXXXXXXXB
XXXXXXXXB
XXXXXXXXB
XXXXXXXXB
XXXXXXXXB
XXXXXXXXB
XXXXXXXXB
XXXXXXXXB
(Continued)
33
MB90860E Series
Abbreviation
Access
00792CH Input Capture 6
IPCP6
R
00792DH Input Capture 6
IPCP6
R
00792EH Input Capture 7
IPCP7
R
00792FH Input Capture 7
IPCP7
R
XXXXXXXXB
007930H Output Compare 0
OCCP0
R/W
XXXXXXXXB
007931H Output Compare 0
OCCP0
R/W
007932H Output Compare 1
OCCP1
R/W
007933H Output Compare 1
OCCP1
R/W
XXXXXXXXB
007934H Output Compare 2
OCCP2
R/W
XXXXXXXXB
007935H Output Compare 2
OCCP2
R/W
007936H Output Compare 3
OCCP3
R/W
007937H Output Compare 3
OCCP3
R/W
XXXXXXXXB
007938H Output Compare 4
OCCP4
R/W
XXXXXXXXB
007939H Output Compare 4
OCCP4
R/W
00793AH Output Compare 5
OCCP5
R/W
00793BH Output Compare 5
OCCP5
R/W
XXXXXXXXB
00793CH Output Compare 6
OCCP6
R/W
XXXXXXXXB
00793DH Output Compare 6
OCCP6
R/W
00793EH Output Compare 7
OCCP7
R/W
00793FH Output Compare 7
OCCP7
R/W
XXXXXXXXB
007940H Timer Data 0
TCDT0
R/W
00000000B
007941H Timer Data 0
TCDT0
R/W
007942H Timer Control Status 0
TCCSL0
R/W
007943H Timer Control Status 0
TCCSH0
R/W
0XXXXXXXB
007944H Timer Data 1
TCDT1
R/W
00000000B
007945H Timer Data 1
TCDT1
R/W
007946H Timer Control Status 1
TCCSL1
R/W
007947H Timer Control Status 1
TCCSH1
R/W
007948H
Timer 0/Reload 0
TMR0/
TMRLR0
R/W
Timer 1/Reload 1
TMR1/
TMRLR1
R/W
Timer 2/Reload 2
TMR2/
TMRLR2
R/W
Timer 3/Reload 3
TMR3/
TMRLR3
R/W
Address
007949H
00794AH
00794BH
00794CH
00794DH
00794EH
00794FH
Register
R/W
R/W
R/W
R/W
Resource name
Initial value
XXXXXXXXB
Input Capture 6/7
Output Compare 0/1
Output Compare 2/3
Output Compare 4/5
Output Compare 6/7
I/O Timer 0
I/O Timer 1
XXXXXXXXB
XXXXXXXXB
XXXXXXXXB
XXXXXXXXB
XXXXXXXXB
XXXXXXXXB
XXXXXXXXB
XXXXXXXXB
XXXXXXXXB
XXXXXXXXB
00000000B
00000000B
00000000B
00000000B
0XXXXXXXB
16-bit Reload
Timer 0
XXXXXXXXB
16-bit Reload
Timer 1
XXXXXXXXB
16-bit Reload
Timer 2
XXXXXXXXB
16-bit Reload
Timer 3
XXXXXXXXB
XXXXXXXXB
XXXXXXXXB
XXXXXXXXB
XXXXXXXXB
(Continued)
34
MB90860E Series
Abbreviation
Access
007950H Serial Mode Register 3
SMR3
W,R/W
00000000B
007951H Serial Control Register 3
SCR3
W,R/W
00000000B
RDR3/
TDR3
R/W
00000000B
SSR3
R,R/W
Extended Communication Control
Register 3
ECCR3
R,W,
R/W
007955H Extended Status Control Register
ESCR3
R/W
00000100B
007956H Baud Rate Generator Register 30
BGR30
R/W
00000000B
007957H Baud Rate Generator Register 31
BGR31
R/W
00000000B
007958H Serial Mode Register 4
SMR4
W,R/W
00000000B
007959H Serial Control Register 4
SCR4
W,R/W
00000000B
RDR4/
TDR4
R/W
00000000B
SSR4
R,R/W
Extended Communication Control
Register 4
ECCR4
R,W,
R/W
00795DH Extended Status Control Register
ESCR4
R/W
00000100B
00795EH Baud Rate Generator Register 40
BGR40
R/W
00000000B
00795FH Baud Rate generator Register 41
BGR41
R/W
00000000B
Address
007952H
Register
Reception/Transmission Data
Register 3
007953H Serial Status Register 3
007954H
00795AH
Reception/Transmission Data
Register 4
00795BH Serial Status Register 4
00795CH
007960H
to
00796BH
Resource name
UART3
Initial value
00001000B
000000XXB
UART4
00001000B
000000XXB
Reserved
00796CH Clock Output Enable Register
00796DH
to
00796FH
CLKR
R/W
Clock Monitor
XXXX0000B
Reserved
007970H I2C Bus Status Register 0
IBSR0
R
00000000B
007971H I2C bus Control Register 0
IBCR0
W,R/W
00000000B
007972H
ITBAL0
R/W
00000000B
ITBAH0
R/W
007973H
I2C 10-bit Slave Address Register 0
007974H I2C 10-bit Slave Address Mask
007975H Register 0
ITMKL0
R/W
00000000B
2
I C Interface 0
11111111B
ITMKH0
R/W
00111111B
2
ISBA0
R/W
00000000B
2
007977H I C 7-bit Slave Address Mask Register 0
ISMK0
R/W
01111111B
007978H I2C Data Register 0
IDAR0
R/W
00000000B
007976H I C 7-bit Slave Address Register 0
007979H,
00797AH
Reserved
(Continued)
35
MB90860E Series
Address
Register
00797BH I2C Clock Control Register 0
00797CH
to
00797FH
Abbreviation
Access
Resource name
Initial value
ICCR0
R/W
I2C Interface 0
00011111B
Reserved
007980H I2C Bus Status Register 1
IBSR1
R
00000000B
007981H I2C Bus Control Register 1
IBCR1
W,R/W
00000000B
007982H
ITBAL1
R/W
00000000B
ITBAH1
R/W
007983H
I2C 10-bit Slave Address Register 1
007984H I C 10-bit Slave Address Mask
007985H Register 1
2
R/W
I C Interface 1
11111111B
ITMKH1
R/W
00111111B
2
ISBA1
R/W
00000000B
2
ISMK1
R/W
01111111B
2
IDAR1
R/W
00000000B
007986H I C 7-bit Slave Address Register 1
007987H I C 7-bit Slave Address Mask Register 1
007988H I C Data Register 1
007989H,
00798AH
Reserved
00798BH I2C Clock Control Register 1
00798CH
to
0079C1H
0079C2H
ITMKL1
00000000B
2
R/W
I2C Interface 1
00011111B
R, R/W
Clock modulator
(using prohibited)
0001X000B
ICCR1
Reserved
Clock modulator control register
(setting prohibited)
0079C3H
to
0079DFH
CMCR
Reserved
0079E0H Detect Address Setting 0
PADR0
R/W
XXXXXXXXB
0079E1H Detect Address Setting 0
PADR0
R/W
XXXXXXXXB
0079E2H Detect Address Setting 0
PADR0
R/W
XXXXXXXXB
0079E3H Detect Address Setting 1
PADR1
R/W
XXXXXXXXB
Address Match
Detection 0
0079E4H Detect Address Setting 1
PADR1
R/W
0079E5H Detect Address Setting 1
PADR1
R/W
XXXXXXXXB
0079E6H Detect Address Setting 2
PADR2
R/W
XXXXXXXXB
0079E7H Detect Address Setting 2
PADR2
R/W
XXXXXXXXB
0079E8H Detect Address Setting 2
PADR2
R/W
XXXXXXXXB
0079E9H
to
0079EFH
XXXXXXXXB
Reserved
(Continued)
36
MB90860E Series
(Continued)
Abbreviation
Access
0079F0H Detect Address Setting 3
PADR3
R/W
XXXXXXXXB
0079F1H Detect Address Setting 3
PADR3
R/W
XXXXXXXXB
0079F2H Detect Address Setting 3
PADR3
R/W
XXXXXXXXB
0079F3H Detect Address Setting 4
PADR4
R/W
Address
Register
Resource name
Initial value
XXXXXXXXB
Address Match
Detection 1
0079F4H Detect Address Setting 4
PADR4
R/W
0079F5H Detect Address Setting 4
PADR4
R/W
XXXXXXXXB
0079F6H Detect Address Setting 5
PADR5
R/W
XXXXXXXXB
0079F7H Detect Address Setting 5
PADR5
R/W
XXXXXXXXB
0079F8H Detect Address Setting 5
PADR5
R/W
XXXXXXXXB
0079F9H
to
007FFFH
XXXXXXXXB
Reserved
Notes : • Initial value of “X” represents unknown value.
• Any write access to reserved addresses in I/O map should not be performed. A read access to reserved
addresses results in reading “X”.
37
MB90860E Series
■ INTERRUPT FACTORS, INTERRUPT VECTORS, INTERRUPT CONTROL REGISTER
EI2OS
clear
DMA ch
number
Reset
N
INT9 instruction
Interrupt cause
Interrupt vector
Interrupt control
register
Number
Address
Number
Address
⎯
#08
FFFFDCH
⎯
⎯
N
⎯
#09
FFFFD8H
⎯
⎯
Exception
N
⎯
#10
FFFFD4H
⎯
⎯
(Reserved)
N
⎯
#11
FFFFD0H
(Reserved)
N
⎯
#12
FFFFCCH
ICR00
0000B0H
Input Capture 6
Y1
⎯
#13
FFFFC8H
Input Capture 7
Y1
⎯
#14
FFFFC4H
ICR01
0000B1H
I2C0
N
⎯
#15
FFFFC0H
(Reserved)
N
⎯
#16
FFFFBCH
ICR02
0000B2H
16-bit Reload Timer 0
Y1
0
#17
FFFFB8H
16-bit Reload Timer 1
Y1
1
#18
FFFFB4H
ICR03
0000B3H
16-bit Reload Timer 2
Y1
2
#19
FFFFB0H
16-bit Reload Timer 3
Y1
⎯
#20
FFFFACH
ICR04
0000B4H
PPG 0/1/4/5
N
⎯
#21
FFFFA8H
PPG 2/3/6/7
N
⎯
#22
FFFFA4H
ICR05
0000B5H
PPG 8/9/C/D
N
⎯
#23
FFFFA0H
PPG A/B/E/F
N
⎯
#24
FFFF9CH
ICR06
0000B6H
Time Base Timer
N
⎯
#25
FFFF98H
External Interrupt 0 to 3, 8 to 11
Y1
3
#26
FFFF94H
ICR07
0000B7H
Watch Timer
N
⎯
#27
FFFF90H
External Interrupt 4 to 7, 12 to 15
Y1
4
#28
FFFF8CH
ICR08
0000B8H
8/10-bit A/D Converter
Y1
5
#29
FFFF88H
I/O Timer 0, I/O Timer 1
N
⎯
#30
FFFF84H
ICR09
0000B9H
Input Capture 4/5, I2C1
Y1
6
#31
FFFF80H
Output Compare 0/1/4/5
Y1
7
#32
FFFF7CH
ICR10
0000BAH
Input Capture 0 to 3
Y1
8
#33
FFFF78H
Output Compare 2/3/6/7
Y1
9
#34
FFFF74H
ICR11
0000BBH
UART 0 Reception
Y2
10
#35
FFFF70H
UART 0 Transmission
Y1
11
#36
FFFF6CH
ICR12
0000BCH
UART 1 Reception /
UART 3 Reception
Y2
12
#37
FFFF68H
UART 1 Transmission /
UART 3 Transmission
ICR13
0000BDH
Y1
13
#38
FFFF64H
(Continued)
38
MB90860E Series
(Continued)
Interrupt vector
EI2OS
clear
DMA ch
number
UART 2 Reception /
UART 4 Reception
Y2
14
UART 2 Transmission /
UART 4 Transmission
Y1
15
#40
FFFF5CH
Flash Memory
N
⎯
#41
FFFF58H
Delayed interrupt
N
⎯
#42
FFFF54H
Interrupt cause
Number
Address
#39
FFFF60H
Interrupt control
register
Number
Address
ICR14
0000BEH
ICR15
0000BFH
Y1 : Usable
Y2 : Usable, with EI2OS stop function
N : Unusable
Notes : • The peripheral resources sharing the ICR register have the same interrupt level.
• When two peripheral resources share the ICR register, only one can use Extended Intelligent I/O Service
at a time.
• When either of the two peripheral resources sharing the ICR register specifies Extended Intelligent I/O
Service, the other one cannot use interrupts.
39
MB90860E Series
■ ELECTRICAL CHARACTERISTICS
1. Absolute Maximum Ratings
Parameter
Symbol
Rating
Unit
Remarks
Min
Max
VCC
VSS − 0.3
VSS + 6.0
V
AVCC
VSS − 0.3
VSS + 6.0
V
VCC = AVCC*2
AVRH,
AVRL
VSS − 0.3
VSS + 6.0
V
AVCC ≥ AVRH, AVCC ≥ AVRL,
AVRH ≥ AVRL
Input voltage*1
VI
VSS − 0.3
VSS + 6.0
V
*3
Output voltage*1
VO
VSS − 0.3
VSS + 6.0
V
*3
ICLAMP
−4.0
+4.0
mA
*5
Σ|ICLAMP|
⎯
40
mA
*5
IOL
⎯
15
mA
*4
“L” level average output current
IOLAV
⎯
4
mA
*4
“L” level maximum overall output current
ΣIOL
⎯
100
mA
*4
“L” level average overall output current
ΣIOLAV
⎯
50
mA
*4
IOH
⎯
−15
mA
*4
“H” level average output current
IOHAV
⎯
−4
mA
*4
“H” level maximum overall output current
ΣIOH
⎯
−100
mA
*4
“H” level average overall output current
ΣIOHAV
⎯
−50
mA
*4
Power consumption
PD
⎯
340
mW
Operating temperature
TA
−40
+105
°C
TSTG
−55
+150
°C
Power supply voltage*1
Maximum Clamp Current
Total Maximum Clamp Current
“L” level maximum output current
“H” level maximum output current
Storage temperature
*1 : This parameter is based on VSS = AVSS = 0 V.
*2 : Set AVCC and VCC to the same voltage. Make sure that AVCC does not exceed VCC and that the voltage at the
analog inputs does not exceed AVCC when the power is switched on.
*3 : VI and VO should not exceed VCC + 0.3 V. VI should not exceed the specified ratings. However if the maximum
current to/from an input is limited by some means with external components, the ICLAMP rating supersedes the
VI rating.
*4 : Applicable to pins : P00 to P07, P10 to P17, P20 to P27, P30 to P37, P40 to P47, P50 to P57, P60 to P67,
P70 to P77, P80 to P87, P90 to P97, PA0 to PA1
(Continued)
40
MB90860E Series
(Continued)
*5 : • Applicable to pins: P00 to P07, P10 to P17, P20 to P27, P30 to P37, P40 to P47,
P50 to P57 (evaluation device : P50 to P55) , P60 to P67, P70 to P77, P80 to P87,
P90 to P97, PA0 to PA1
• Use within recommended operating conditions.
• Use at DC voltage (current)
• The +B signal should always be applied a limiting resistance placed between the +B signal and the
microcontroller.
• The value of the limiting resistance should be set so that when the +B signal is applied the input current to
the microcontroller pin does not exceed rated values, either instantaneously or for prolonged periods.
• Note that when the microcontroller drive current is low, such as in the power saving modes, the +B input
potential may pass through the protective diode and increase the potential at the VCC pin, and this may affect
other devices.
• Note that if a +B signal is input when the microcontroller power supply is off (not fixed at 0 V) , the power
supply is provided from the pins, so that incomplete operation may result.
• Note that if the +B input is applied during power-on, the power supply is provided from the pins and the
resulting supply voltage may not be sufficient to operate the power-on reset.
• Care must be taken not to leave the +B input pin open.
• Sample recommended circuits:
• Input/output equivalent circuits
Protective diode
VCC
Limiting
resistance
P-ch
+B input (0 V to 16 V)
N-ch
R
WARNING: Semiconductor devices can be permanently damaged by application of stress (voltage, current,
temperature, etc.) in excess of absolute maximum ratings. Do not exceed these ratings.
41
MB90860E Series
2. Recommended Conditions
(VSS = AVSS = 0 V)
Parameter
Power supply voltage
Symbol
VCC,
AVCC
Value
Unit
Remarks
Min
Typ
Max
4.0
5.0
5.5
V
Under normal operation
3.5
5.0
5.5
V
Under normal operation, when not
using the A/D converter and not
Flash programming.
4.5
5.0
5.5
V
When External bus is used.
3.0
⎯
5.5
V
Maintains RAM data in stop mode
Use a ceramic capacitor or capacitor of better AC characteristics.
Capacitor at the VCC should be
greater than this capacitor.
Smooth capacitor
CS
0.1
⎯
1.0
µF
Operating temperature
TA
−40
⎯
+105
°C
C
CS
C Pin Connection Diagram
WARNING: The recommended operating conditions are required in order to ensure the normal operation of the
semiconductor device. All of the device’s electrical characteristics are warranted when the device is
operated within these ranges.
Always use semiconductor devices within their recommended operating condition ranges. Operation
outside these ranges may adversely affect reliability and could result in device failure.
No warranty is made with respect to uses, operating conditions, or combinations not represented on
the data sheet. Users considering application outside the listed conditions are advised to contact their
FUJITSU representatives beforehand.
42
MB90860E Series
3. DC Characteristics
(TA = −40 °C to +105 °C, VCC = 5.0 V ± 10%, fCP ≤ 24 MHz, VSS = AVSS = 0 V)
Parameter
Input H
voltage
(At VCC =
5 V ± 10%)
Input L
voltage
(At VCC =
5 V ± 10%)
Symbol
Pin
Condition
Value
Min
Typ
Max
Unit
Remarks
VIHS
⎯
⎯
0.8 VCC
⎯
VCC + 0.3
V
Port inputs if CMOS
hysteresis input levels
are selected (except
P12, P44, P45, P46,
P47, P50, P82, P83)
VIHA
⎯
⎯
0.8 VCC
⎯
VCC + 0.3
V
Port inputs if
Automotive input levels
are selected
VIHT
⎯
⎯
2.0
⎯
VCC + 0.3
V
Port inputs if TTL input
levels are selected
VIHS
⎯
⎯
0.7 VCC
⎯
VCC + 0.3
V
P12, P50, P82, P85
inputs if CMOS input
levels are selected
VIHI
⎯
⎯
0.7 VCC
⎯
VCC + 0.3
V
P44, P45, P46, P47 inputs if CMOS hysteresis
input levels are selected
VIHR
⎯
⎯
0.8 VCC
⎯
VCC + 0.3
V
RST input pin (CMOS
hysteresis)
VIHM
⎯
⎯
VCC − 0.3
⎯
VCC + 0.3
V
MD input pin
VILS
⎯
⎯
VSS − 0.3
⎯
0.2 VCC
V
Port inputs if CMOS
hysteresis input levels
are selected (except
P12, P44, P45, P46,
P47, P50, P82, P83)
VILA
⎯
⎯
VSS − 0.3
⎯
0.5 VCC
V
Port inputs if
Automotive input levels
are selected
VILT
⎯
⎯
VSS − 0.3
⎯
0.8
V
Port inputs if TTL
input levels are selected
VILS
⎯
⎯
VSS − 0.3
⎯
0.3 VCC
V
P12, P50, P82, P85
inputs if CMOS input
levels are selected
VILI
⎯
⎯
VSS − 0.3
⎯
0.3 VCC
V
P44, P45, P46, P47 inputs if CMOS hysteresis
input levels are selected
VILR
⎯
⎯
VSS − 0.3
⎯
0.2 VCC
V
RST input pin (CMOS
hysteresis)
VILM
⎯
⎯
VSS − 0.3
⎯
VSS + 0.3
V
MD input pin
Output H
voltage
VOH
Normal
outputs
VCC = 4.5 V,
VCC − 0.5
IOH = −4.0 mA
⎯
⎯
V
Output H
voltage
VOHI
I2C current VCC = 4.5 V,
VCC − 0.5
outputs
IOH = −3.0 mA
⎯
⎯
V
Output L
voltage
VOL
Normal
outputs
VCC = 4.5 V,
IOL = 4.0 mA
⎯
⎯
0.4
V
Output L
voltage
VOLI
I2C current VCC = 4.5 V,
outputs
IOL = 3.0 mA
⎯
⎯
0.4
V
(Continued)
43
MB90860E Series
(Continued)
Parameter
(TA = −40 °C to +105 °C, VCC = 5.0 V ± 10%, fCP ≤ 24 MHz, VSS = AVSS = 0 V)
Symbol
Pin
Condition
Typ
Max
−1
⎯
+1
µA
⎯
Pull-up
resistance
RUP
P00 to P07,
P10 to P17,
P20 to P27,
P30 to P37,
RST
⎯
25
50
100
kΩ
Pull-down
resistance
RDOWN
MD2
⎯
25
50
100
Except
kΩ Flash
devices
VCC = 5.0 V,
Internal frequency : 24 MHz,
At normal operation.
⎯
55
70
mA
VCC = 5.0 V,
Internal frequency : 24 MHz,
At writing FLASH memory.
⎯
70
85
mA
Flash
devices
VCC = 5.0 V,
Internal frequency : 24 MHz,
At erasing FLASH memory.
⎯
75
90
mA
Flash
devices
ICCS
VCC = 5.0 V,
Internal frequency : 24 MHz,
At Sleep mode.
⎯
25
35
mA
ICTS
VCC = 5.0 V,
Internal frequency : 2 MHz,
At Main Timer mode
⎯
0.3
0.8
mA
VCC = 5.0 V,
Internal frequency : 24 MHz,
At PLL Timer mode,
external frequency = 4 MHz
⎯
4
7
mA
ICCL
VCC = 5.0 V
Internal frequency : 8 kHz,
At sub operation
TA = +25°C
⎯
70
140
µA
ICCLS
VCC = 5.0 V
Internal frequency : 8 kHz,
At sub sleep
TA = +25°C
⎯
20
50
µA
ICCT
VCC = 5.0 V
Internal frequency : 8 kHz,
At watch mode
TA = +25°C
⎯
10
35
µA
ICCH
VCC = 5.0 V,
At Stop mode,
TA = +25°C
⎯
7
25
µA
⎯
5
15
pF
ICC
Power supply
current*
Input capacity
ICTSPLL6
CIN
VCC
Other than C,
AVCC, AVSS,
AVRH, AVRL,
VCC, VSS,
⎯
* : The power supply current is measured with an external clock.
44
Unit Remarks
Min
IIL
Input leak current
VCC = 5.5 V, VSS < VI < VCC
Value
MB90860E Series
4. AC Characteristics
(1) Clock Timing
(TA = −40 °C to +105 °C, VCC = 5.0 V ± 10%, fCP ≤ 24 MHz, VSS = AVSS = 0 V)
Parameter
Symbol
Value
Pin
Unit
Remarks
Min
Typ
Max
X0, X1
3
⎯
16
MHz
When using an oscillation
circuit
X0, X1
3
⎯
24
MHz
When using an external
clock*
X0A, X1A
—
32.768
100
kHz
X0, X1
62.5
⎯
333
ns
When using an oscillation
circuit
X0, X1
41.67
⎯
333
ns
When using an external
clock
tCYLL
X0A, X1A
10
30.5
—
µs
PWH, PWL
X0
10
⎯
⎯
ns
PWHL, PWLL
X0A
5
15.2
⎯
µs
Duty ratio is about 30% to
70%.
Input clock rise and fall time
tCR, tCF
X0
⎯
⎯
5
ns
When using external clock
Internal operating clock
frequency (machine clock)
fCP
⎯
1.5
⎯
24
MHz
When using main clock
fCPL
⎯
⎯
8.192
50
kHz
When using sub clock
tCP
⎯
41.67
⎯
666
ns
When using main clock
tCPL
⎯
20
122.1
⎯
µs
When using sub clock
fC
Clock frequency
fCL
tCYL
Clock cycle time
Input clock pulse width
Internal operating clock
cycle time (machine clock)
* : When selecting the PLL clock, the range of clock frequency is limited. Use this product within range as
mentioned in “Relation among external clock frequency and machine clock frequency”.
tCYL
0.8 VCC
X0
0.2 VCC
PWH
PWL
tCF
tCR
tCYLL
0.8 VCC
X0A
0.2 VCC
PWHL
PWLL
tCF
tCR
Clock Timing
45
MB90860E Series
• Guaranteed PLL operation range
Guaranteed operation range
Power supply voltage
VCC (V)
5.5
Guaranteed A/D Converter
operation range
4.0
3.5
Guaranteed PLL operation range
1.5
24
4
Machine clock fCP (MHz)
Guaranteed operation range of MB90860E series
Guaranteed oscillation frequency range
×6
Internal clock
fCP (MHz)
24
×4
×3
×2
×1
16
× 1/2
(PLL off)
12
8
4.0
1.5
3
4
8
12
16
24
External clock fC (MHz) *
* : When using crystal oscillator or ceramic oscillator, the maximum oscillation clock frequency is 16 MHz
46
MB90860E Series
(2) Reset Standby Input
(TA = −40 °C to +105 °C, VCC = 5.0 V ± 10%, fCP ≤ 24 MHz, VSS = AVSS = 0.0 V)
Parameter
Reset input
time
Symbol
tRSTL
Pin
RST
Value
Unit
Remarks
Min
Max
500
⎯
ns
Under normal operation
Oscillation time of oscillator*
+ 100 µs
⎯
ns
In Stop mode, Sub Clock
mode, Sub Sleep mode
and Watch mode
100
⎯
µs
In Time Timer mode
* : Oscillation time of oscillator is the time that the amplitude reaches 90%.
In the crystal oscillator, the oscillation time is between several ms and to tens of ms. In ceramic oscillators,
the oscillation time is between hundreds of µs to several ms. With an external clock, the oscillation time is 0 ms.
Under normal operation:
tRSTL
RST
0.2 VCC
0.2 VCC
In Stop mode, Sub Clock mode, Sub Sleep mode, Watch mode, Power-on:
tRSTL
RST
0.2 VCC
X0
0.2 VCC
90% of
amplitude
Internal operation
clock
100 µs
Oscillation time
of oscillator
Oscillation stabilization
waiting time
Instruction execution
Internal reset
47
MB90860E Series
(3) Power On Reset
(TA = −40 °C to +105 °C, VCC = 5.0 V ± 10%, fCP ≤ 24 MHz, VSS = AVSS = 0.0 V)
Parameter
Symbol
Pin
Power on rise time
tR
VCC
tOFF
VCC
Power off time
Value
Condition
⎯
Unit
Min
Max
0.05
30
ms
1
⎯
ms
Remarks
Due to repetitive operation
tR
2.7 V
VCC
0.2 V
0.2 V
0.2 V
tOFF
If you change the power supply voltage too rapidly, a power on reset may occur. We
recommend that you startup smoothly by restraining voltages when changing the
power supply voltage during operation, as shown in the figure below. Perform while
not using the PLL clock. However, if voltage drops are within 1 V/s, you can operate
VCC
We recommend a rise of
50 mV/ms maximum.
3V
Holds RAM data
VSS
(4) Clock Output Timing
(TA = −40 °C to +105 °C, VCC = 5.0 V ± 10%, VSS = 0.0 V, fCP ≤ 24 MHz)
Parameter
Symbol
Pin
Condition
Cycle time
tCYC
CLK
⎯
CLK ↑ → CLK ↓
tCHCL
CLK
⎯
Value
Unit
Max
62.5
⎯
ns
fCP = 16 MHz
41.76
⎯
ns
fCP = 24 MHz
20
⎯
ns
fCP = 16 MHz
13
⎯
ns
fCP = 24 MHz
tCYC
tCHCL
CLK
2.4 V
2.4 V
0.8 V
48
Remarks
Min
MB90860E Series
(5) Bus Timing (Read)
Parameter
Symbol
(TA = −40 °C to +105 °C, VCC = 5.0 V ± 10%, VSS = 0.0 V, fCP ≤ 24 MHz)
Value
Pin
Condition
Unit
Min
Max
ALE pulse width
tLHLL
ALE
tCP/2 − 10
⎯
ns
Valid address → ALE ↓ time
tAVLL
ALE, A23 to A16,
AD15 to AD00
tCP/2 − 20
⎯
ns
ALE ↓ → Address valid time
tLLAX
ALE, AD15 to AD00
tCP/2 − 15
⎯
ns
Valid address → RD ↓ time
tAVRL
A23 to A16,
AD15 to AD00, RD
tCP − 15
⎯
ns
Valid address → Valid data input
tAVDV
A23 to A16,
AD15 to AD00
⎯
5 tCP/2 − 60
ns
RD pulse width
tRLRH
RD
3 tCP/2 − 20
⎯
ns
RD ↓ → Valid data input
tRLDV
RD, AD15 to AD00
⎯
3 tCP/2 − 50
ns
RD ↑ → Data hold time
tRHDX RD, AD15 to AD00
0
⎯
ns
RD ↓ → ALE ↑ time
tRHLH
RD, ALE
tCP/2 − 15
⎯
ns
RD ↑ → Address valid time
tRHAX
RD, A23 to A16
tCP/2 − 10
⎯
ns
Valid address → CLK ↑ time
tAVCH
A23 to A16,
AD15 to AD00, CLK
tCP/2 − 16
⎯
ns
RD ↓ → CLK ↑ time
tRLCH
RD, CLK
tCP/2 − 15
⎯
ns
ALE ↓ → RD ↓ time
tLLRL
ALE, RD
tCP/2 − 15
⎯
ns
⎯
tRLCH
tAVCH
2.4 V
CLK
2.4 V
tLLAX
tAVLL
ALE
2.4 V
tRHLH
2.4 V
2.4 V
0.8 V
tLHLL
tAVRL
tRLRH
2.4 V
RD
0.8 V
tLLRL
tRHAX
2.4 V
A23 to A16
2.4 V
0.8 V
0.8 V
tRLDV
tRHDX
tAVDV
AD15 to AD00
2.4 V
0.8 V
2.4 V
Address
0.8 V
VIH
VIL
VIH
Read data
VIL
49
MB90860E Series
(6) Bus Timing (Write)
Parameter
(TA = −40 °C to +105 °C, VCC = 5.0 V ± 10%, VSS = 0.0 V, fCP ≤ 24 MHz)
Value
Symbol
Pin
Condition
Unit
Min
Max
Valid address → WR ↓ time
tAVWL
A23 to A16,
AD15 to AD00,
WR
WR pulse width
tWLWH
WR
Valid data output → WR ↑ time
tDVWH
AD15 to AD00,
WR
WR ↑ → Data hold time
tWHDX
WR ↑ → Address valid time
tCP−15
⎯
ns
3 tCP/2 − 20
⎯
ns
3 tCP/2 − 20
⎯
ns
AD15 to AD00,
WR
15
⎯
ns
tWHAX
A23 to A16, WR
tCP/2 − 10
⎯
ns
WR ↑ → ALE ↑ time
tWHLH
WR, ALE
tCP/2 − 15
⎯
ns
WR ↓ → CLK ↑ time
tWLCH
WR, CLK
tCP/2 − 15
⎯
ns
⎯
tWLCH
2.4 V
CLK
tWHLH
2.4 V
ALE
tAVWL
tWLWH
2.4 V
WR (WRL, WRH)
0.8 V
tWHAX
A23 to A16
2.4 V
2.4 V
0.8 V
0.8 V
tDVWH
AD15 to AD00
2.4 V
0.8 V
50
2.4 V
2.4 V
Address
0.8 V
tWHDX
Write data
0.8 V
MB90860E Series
(7) Ready Input Timing
Parameter
Symbol
(TA = −40 °C to +105 °C, VCC = 5.0 V ± 10%, VSS = 0.0 V, fCP ≤ 24 MHz)
Rated Value
Test
Pin
Units
Remarks
Condition
Min
Max
RDY setup time
tRYHS
RDY
RDY hold time
tRYHH
RDY
⎯
45
⎯
ns
fCP = 16 MHz
32
⎯
ns
fCP = 24 MHz
0
⎯
ns
Note : If the RDY setup time is insufficient, use the auto-ready function.
2.4 V
CLK
ALE
RD/WR
RDY
When WAIT is not used.
RDY
When WAIT is used.
tRYHS
tRYHH
VIH
VIH
VIL
51
MB90860E Series
(8) Hold Timing
Parameter
(TA = −40 °C to +105 °C, VCC = 5.0 V ± 10%, VSS = 0.0 V, fCP ≤ 24 MHz)
Value
Symbol
Pin
Condition
Units
Min
Max
Pin floating → HAK ↓ time
tXHAL
HAK
HAK ↑ time → Pin valid time
tHAHV
HAK
⎯
30
tCP
ns
tCP
2 tCP
ns
Note : There is more than 1 cycle from when HRQ reads in until the HAK is changed.
2.4 V
HAK
0.8 V
tHAHV
tXHAL
Each pin
2.4 V
0.8 V
52
High-Z
2.4 V
0.8 V
MB90860E Series
(9) UART0/1/2/3/4
Parameter
(TA = −40 °C to +105 °C, VCC = 5.0 V ± 10%, VSS = 0.0 V, fCP ≤ 24 MHz)
Value
Symbol
Pin
Condition
Unit
Min
Max
8 tCP
⎯
ns
−80
+80
ns
100
⎯
ns
SCK0 to SCK4,
SIN0 to SIN4
60
⎯
ns
tSHSL
SCK0 to SCK4
4 tCP
⎯
ns
Serial clock “L” pulse width
tSLSH
SCK0 to SCK4
4 tCP
⎯
ns
SCK ↓ → SOT delay time
tSLOV
SCK0 to SCK4,
SOT0 to SOT4
⎯
150
ns
Valid SIN → SCK ↑
tIVSH
SCK0 to SCK4,
SIN0 to SIN4
60
⎯
ns
SCK ↑ → Valid SIN hold time
tSHIX
SCK0 to SCK4,
SIN0 to SIN4
60
⎯
ns
Serial clock cycle time
tSCYC
SCK0 to SCK4
SCK ↓ → SOT delay time
tSLOV
SCK0 to SCK4,
SOT0 to SOT4
Valid SIN → SCK ↑
tIVSH
SCK0 to SCK4,
SIN0 to SIN4
SCK ↑ → Valid SIN hold time
tSHIX
Serial clock “H” pulse width
Internal clock
operation output pins
are
CL = 80 pF + 1 TTL.
External clock
operation output pins
are
CL = 80 pF + 1 TTL.
Notes : • AC characteristic in CLK synchronized mode.
• CL is load capacity value of pins when testing.
tSCYC
SCK
2.4 V
0.8 V
0.8 V
tSLOV
SOT
2.4 V
0.8 V
tIVSH
SIN
tSHIX
VIH
VIH
VIL
VIL
Internal Shift Clock Mode
53
MB90860E Series
tSLSH
tSHSL
VIH
VIH
SCK
VIL
VIL
tSLOV
2.4 V
SOT
0.8 V
tIVSH
SIN
tSHIX
VIH
VIH
VIL
VIL
External Shift Clock Mode
(10) Trigger Input Timing
Parameter
Input pulse width
Symbol
tTRGH
tTRGL
(TA = −40 °C to +105 °C, VCC = 5.0 V ± 10%, fCP ≤ 24 MHz, VSS = 0.0 V)
Value
Pin
Condition
Unit
Min
Max
INT0 to INT15,
INT0R to INT15R,
ADTG
54
⎯
5 tCP
VIH
VIH
INT0 to INT15,
INT0R to INT15R,
ADTG
⎯
VIL
VIL
tTRGH
tTRGL
ns
MB90860E Series
(11) Timer Related Resource Input Timing
(TA = −40 °C to +105 °C, VCC = 5.0 V ± 10%, fCP ≤ 24 MHz, VSS = 0 V)
Value
Parameter
Symbol
Pin
Condition
Unit
Min
Max
tTIWH
Input pulse width
TIN0 to TIN3,
IN0 to IN7
tTIWL
⎯
4 tCP
ns
VIH
VIH
TIN0 to TIN3,
IN0 to IN7
⎯
VIL
VIL
tTIWH
tTIWL
(12) Timer Related Resource Output Timing
(TA = –40°C to +105°C, VCC = 5.0 V ± 10%, fCP ≤ 24 MHz, VSS = 0.0 V)
Value
Parameter
Symbol
Pin
Condition
Unit
Min
Max
CLK ↑ → TOUT change time
CLK
TOT0 to TOT3,
PPG0 to PPGF
tTO
⎯
30
⎯
ns
2.4 V
2.4 V
TOT0 to TOT3,
PPG0 to PPGF
0.8 V
tTO
55
MB90860E Series
(13) I2C Timing
Parameter
Symbol
(TA = –40°C to +105°C, VCC = 5.0 V ± 10%, VSS = 0.0 V)
Standard-mode Fast-mode*1
Condition
Unit
Min
Max
Min
Max
fSCL
0
100
0
400
kHz
tHDSTA
4.0
⎯
0.6
⎯
µs
“L” width of the SCL clock
tLOW
4.7
⎯
1.3
⎯
µs
“H” width of the SCL clock
tHIGH
4.0
⎯
0.6
⎯
µs
Set-up time for a repeated START condition
SCL ↑ → SDA ↓
tSUSTA
4.7
⎯
0.6
⎯
µs
Data hold time
SCL ↓ → SDA ↓ ↑
tHDDAT
0
3.45*3
0
0.9*4
µs
Data set-up time
SDA ↓ ↑ → SCL ↑
tSUDAT
250
⎯
100
⎯
ns
Set-up time for STOP condition
SCL ↑ → SDA ↑
tSUSTO
4.0
⎯
0.6
⎯
µs
tBUS
4.7
⎯
1.3
⎯
µs
SCL clock frequency
Hold time (repeated) START condition
SDA ↓ → SCL ↓
Bus free time between a STOP and START
condition
R = 1.7 kΩ,
C = 50 pF*2
*1 : For use at over 100 kHz, set the machine clock to at least 6 MHz.
*2 : R,C : Pull-up resistor and load capacitor of the SCL and SDA lines.
*3 : The maximum tHDDAT have only to be met if the device does not stretch the “L” width (tLOW) of the SCL signal.
*4 : A Fast-mode I2C-bus device can be used in a Standard-mode I2C-bus system, but the requirement
tSUDAT ≥ 250 ns must then be met.
SDA
tSUDAT
tLOW
tBUS
tHDSTA
SCL
tHDSTA
56
tHDDAT
tHIGH
tSUSTA
tSUSTO
MB90860E Series
5. A/D Converter
(TA = −40 °C to +105 °C, 3.0 V ≤ AVRH − AVRL, VCC = AVCC = 5.0 V ± 10%, fCP ≤ 24 MHz, VSS = AVSS = 0 V)
Parameter
Symbol
Pin
Resolution
⎯
Total error
Value
Unit
Min
Typ
Max
⎯
⎯
⎯
10
bit
⎯
⎯
⎯
⎯
±3.0
LSB
Nonlinearity error
⎯
⎯
⎯
⎯
±2.5
LSB
Differential
nonlinearity error
⎯
⎯
⎯
⎯
±1.9
LSB
Zero reading
voltage
VOT
AN0 to AN23 AVRL − 1.5 AVRL + 0.5 AVRL + 2.5 LSB
Full scale reading
voltage
VFST
AN0 to AN23 AVRH − 3.5 AVRH − 1.5 AVRH + 0.5 LSB
Compare time
⎯
⎯
Sampling time
⎯
⎯
Analog port input
current
IAIN
AN0 to AN23
Analog input
voltage range
VAIN
Reference
voltage range
Power supply
current
1.0
⎯
16500
µs
⎯
∞
µs
−0.3
⎯
+0.3
µA
AN0 to AN23
AVRL
⎯
AVRH
V
⎯
AVRH
AVRL + 2.7
⎯
AVCC
V
⎯
AVRL
0
⎯
AVRH − 2.7
V
IA
AVCC
⎯
3.5
7.5
mA
IAH
AVCC
⎯
⎯
5
µA
2.0
0.5
1.2
Reference
voltage current
IR
AVRH
⎯
600
900
µA
IRH
AVRH
⎯
⎯
5
µA
Offset between
input channels
⎯
AN0 to AN23
⎯
⎯
4
LSB
Remarks
4.5 V ≤ AVCC ≤ 5.5 V
4.0 V ≤ AVCC < 4.5 V
4.5 V ≤ AVCC ≤ 5.5 V
4.0 V ≤ AVCC < 4.5 V
*
*
* : IF A/D convertor is not operating, a current when CPU is stopped is applicable (VCC = AVCC = AVRH = 5.0 V) .
Note : The accuracy gets worse as AVRH − AVRL becomes smaller.
57
MB90860E Series
6. Definition of A/D Converter Terms
Resolution
Non linearity
error
Differential
linearity error
Total error
Zero reading
voltage
Full scale
reading voltage
: Analog variation that is recognized by an A/D converter.
: Deviation between a line across zero-transition line ( “00 0000 0000” ← → “00 0000 0001” )
and full-scale transition line ( “11 1111 1110” ← → “11 1111 1111” ) and actual conversion
characteristics.
: Deviation of input voltage, which is required for changing output code by 1 LSB, from an ideal
value.
: Difference between an actual value and an ideal value. A total error includes zero transition
error, full-scale transition error, and linear error.
: Input voltage which results in the minimum conversion value.
: Input voltage which results in the maximum conversion value.
Total error
3FFH
3FEH
1.5 LSB
Actual conversion
characteristics
Digital output
3FDH
{1 LSB × (N − 1) + 0.5 LSB}
004H
VNT
(Actually-measured value)
003H
Actual conversion
characteristics
Ideal characteristics
002H
001H
0.5 LSB
AVRL
AVRH
Analog input
VNT − {1 LSB × (N − 1) + 0.5 LSB}
1 LSB
AVRH − AVRL
1 LSB (Ideal value) =
[V]
1024
VOT (Ideal value) = AVRL + 0.5 LSB [V]
Total error of digital output “N” =
[LSB]
VFST (Ideal value) = AVRH − 1.5 LSB [V]
VNT : A voltage at which digital output transitions from (N − 1) to N.
(Continued)
58
MB90860E Series
(Continued)
Non linearity error
Differential linearity error
Ideal
characteristics
3FFH
Actual conversion
characteristics
{1 LSB × (N − 1)
+ VOT }
Digital output
3FDH
N + 1H
VFST (actual
measurement
value)
VNT (actual
measurement value)
004H
Actual conversion
characteristics
003H
Digital output
3FEH
Actual conversion
characteristics
NH
V (N + 1) T
(actual measurement
value)
VNT
(actual measurement value)
N − 1H
002H
Ideal characteristics
Actual conversion
characteristics
N − 2H
001H
VOT (actual measurement value)
AVRL
AVRH
AVRL
AVRH
Analog input
Analog input
Non linearity error of digital output N =
Differential linearity error of digital output N =
1 LSB =
VNT − {1 LSB × (N − 1) + VOT}
1 LSB
V (N+1) T − VNT
1 LSB
VFST − VOT
1022
[LSB]
−1 LSB [LSB]
[V]
VOT : Voltage at which digital output transits from “000H” to “001H.”
VFST : Voltage at which digital output transits from “3FEH” to “3FFH.”
59
MB90860E Series
7. Notes on A/D Converter Section
Use the device with external circuits of the following output impedance for analog inputs :
Recommended output impedance of external circuits are : Approx. 1.5 kΩ or lower (4.0 V ≤ AVCC ≤ 5.5 V,
sampling period ≤ 0.5 µs)
If an external capacitor is used, in consideration of the effect by tap capacitance caused by external capacitors
and on-chip capacitors, capacitance of the external one is recommended to be several thousand times as high
as internal capacitor.
If output impedance of an external circuit is too high, a sampling period for an analog voltage may be insufficient.
• Analog input circuit model
R
Analog input
Comparator
C
4.5 V ≤ AVCC ≤ 5.5 V : R =: 2.52 kΩ, C =: 10.7 pF
4.0 V ≤ AVCC < 4.5 V : R =: 13.6 kΩ, C =: 10.7 pF
Note : Use the values in the figure only as a guideline.
8. Flash Memory Program/Erase Characteristics
Parameter
Conditions
Sector erase time
Chip erase time
TA = +25 °C
VCC = 5.0 V
Word (16-bit width)
programming time
Value
Unit
Remarks
Min
Typ
Max
⎯
1
15
s
Excludes programming
prior to erasure
⎯
9
⎯
s
Excludes programming
prior to erasure
⎯
16
3600
µs
Except for the over head
time of the system
Programs/Erase cycle
⎯
10000
⎯
⎯
cycle
Flash Data Retention
Time
Average
TA = +85 °C
20
⎯
⎯
Year
*
* : This value comes from the technology qualification (using Arrhenius equation to translate high temperature
measurements into normalized value at +85 °C) .
60
MB90860E Series
■ EXAMPLE CHARACTERISTICS
• MB90F867E, MB90F867ES
ICC − VCC
ICCL − VCC
TA = +25 °C, at external clock operating
f = Internal operation frequency
TA = +25 °C, at external clock operating
f = Internal operation frequency
100
90
80
70
60
50
40
30
20
10
0
70
60
ICC (mA)
f = 20 MHz
40
f = 16 MHz
f = 12 MHz
f = 10 MHz
f = 8 MHz
f = 4 MHz
f = 2 MHz
30
20
10
0
2.5
3.5
4.5
5.5
ICCL ( A)
f = 24 MHz
50
6.5
f = 8 kHz
2.5
3.5
ICCS − VCC
30
ICCS (mA)
f = 20 MHz
20
f = 16 MHz
f = 12 MHz
f = 10 MHz
f = 8 MHz
15
10
5
ICCLS ( A)
f = 24 MHz
25
f = 4 MHz
f = 2 MHz
3.5
4.5
5.5
6.5
50
45
40
35
30
25
20
15
10
5
0
f = 8 kHz
2.5
3.5
ICCT − VCC
TA = +25 °C, at external clock operating
f = Internal operation frequency
f = 2 MHz
200
150
ICCT ( A)
300
250
100
50
4.5
5.5
6.5
20
18
16
14
12
10
8
6
4
2
0
f = 8 kHz
2.5
3.5
VCC (V)
4.5
5.5
ICCH − VCC
f = 24 MHz
3.5
4.5
VCC (V)
5.5
6.5
TA = +25 °C, at stop
ICCH ( A)
ICTSPLL6 (mA)
TA = +25 °C, at external clock operating
f = Internal operation frequency
2.5
6.5
VCC (V)
ICTSPLL6 − VCC
10
9
8
7
6
5
4
3
2
1
0
6.5
TA = +25 °C, at external clock operating
f = Internal operation frequency
400
ICTS ( A)
5.5
ICTS − VCC
350
3.5
4.5
VCC (V)
VCC (V)
0
2.5
6.5
TA = +25 °C, at external clock operating
f = Internal operation frequency
35
2.5
5.5
ICCLS − VCC
TA = +25 °C, at external clock operating
f = Internal operation frequency
0
4.5
VCC (V)
VCC (V)
10
9
8
7
6
5
4
3
2
1
0
2.5
3.5
4.5
5.5
6.5
VCC (V)
61
MB90860E Series
• MB90867E, MB90867ES
ICC − VCC
ICCL − VCC
TA = +25 °C, at external clock operating
f = Internal operation frequency
TA = +25 °C, at external clock operating
f = Internal operation frequency
70
60
ICC (mA)
f = 20 MHz
f = 16 MHz
40
f = 12 MHz
f = 10 MHz
f = 8 MHz
30
20
f = 4 MHz
f = 2 MHz
10
0
ICCL (µA)
f = 24 MHz
50
2.5
3.5
4.5
5.5
100
90
80
70
60
50
40
30
20
10
0
6.5
f = 8 kHz
2.5
3.5
ICCS − VCC
f = 24 MHz
25
f = 20 MHz
20
f = 16 MHz
15
f = 12 MHz
f = 10 MHz
f = 8 MHz
45
40
35
30
25
20
15
10
5
0
10
f = 4 MHz
5
ICCLS (µA)
ICCS (mA)
50
30
f = 2 MHz
3.5
4.5
5.5
6.5
f = 8 kHz
2.5
3.5
VCC (V)
ICCT − VCC
TA = +25 °C, at external clock operating
f = Internal operation frequency
f = 2 MHz
200
150
ICCT (µA)
ICTS (µA)
300
100
50
4.5
5.5
6.5
20
18
16
14
12
10
8
6
4
2
0
f = 8 kHz
2.5
3.5
4.5
VCC (V)
VCC (V)
ICTSPLL6 − VCC
ICCH − VCC
f = 24 MHz
3.5
4.5
VCC (V)
62
5.5
6.5
5.5
6.5
TA = +25 °C, at stop
ICCH (µA)
ICTSPLL6 (mA)
TA = +25 °C, at external clock operating
f = Internal operation frequency
2.5
6.5
ICTS − VCC
250
10
9
8
7
6
5
4
3
2
1
0
5.5
TA = +25 °C, at external clock operating
f = Internal operation frequency
400
3.5
4.5
VCC (V)
350
0
2.5
6.5
TA = +25 °C, at external clock operating
f = Internal operation frequency
35
2.5
5.5
ICCLS − VCC
TA = +25 °C, at external clock operating
f = Internal operation frequency
0
4.5
VCC (V)
VCC (V)
10
9
8
7
6
5
4
3
2
1
0
2.5
3.5
4.5
VCC (V)
5.5
6.5
MB90860E Series
• I/O characteristics
(VCC−VOH) − IOH
VOL − IOL
TA = +25 °C, VCC = 4.5 V
TA = +25 °C, VCC = 4.5 V
800
600
VOL (mV)
VCC VOH (mV)
700
500
400
300
200
100
0
0
1
2
3
4
5
7
6
8
9
1000
900
800
700
600
500
400
300
200
100
0
10
0
1
2
3
Automotive VIN − VCC
VIN (V)
VIN (V)
3.0
3.5
4.0
4.5
5.0
6
5.5
6.0
6.5
7.0
5.0
4.5
4.0
3.5
3.0
2.5
2.0
1.5
1.0
0.5
0.0
2.5
3.0
3.5
4.0
4.5
5.0
4.0
4.5
5.0
VCC (V)
6.0
6.5
7.0
UART-SIN pin, I2C pin
TA = +25 °C
VIN (V)
VIN (V)
5.5
CMOS VIN − VCC
VIHT
VILT
3.5
10
VCC (V)
TA = +25 °C
3.0
9
VILS
TTL VIN − VCC
2.5
8
VIHS
VCC (V)
2.5
2.3
2.0
1.8
1.5
1.3
1.0
0.8
0.5
0.3
0.0
7
UART-SIN pin, other than I2C pin
TA = +25 °C
VIHA
VILA
2.5
5
CMOS VIN − VCC
TA = +25 °C
5.0
4.5
4.0
3.5
3.0
2.5
2.0
1.5
1.0
0.5
0.0
4
IOL (mA)
IOH (mA)
5.5
6.0
6.5
7.0
5.0
4.5
4.0
3.5
3.0
2.5
2.0
1.5
1.0
0.5
0.0
VIHS
VILS
2.5
3.0
3.5
4.0
4.5
5.0
5.5
6.0
6.5
7.0
VCC (V)
63
MB90860E Series
■ ORDERING INFORMATION
Part number
MB90F867EPF
MB90F867ESPF
MB90F867EPFV
MB90F867ESPFV
MB90867EPF
MB90867ESPF
MB90867EPFV
MB90867ESPFV
MB90V340E-101
MB90V340E-102
64
Package
Remarks
100-pin Plastic QFP
(FPT-100P-M06)
Flash memory product
100-pin Plastic LQFP
(FPT-100P-M05)
100-pin Plastic QFP
(FPT-100P-M06)
MASK ROM product
100-pin Plastic LQFP
(FPT-100P-M05)
299-pin Ceramic PGA
(PGA-299C-A01)
Evaluation product
MB90860E Series
■ PACKAGE DIMENSIONS
100-pin plastic QFP
Lead pitch
0.65 mm
Package width ×
package length
14.00 × 20.00 mm
Lead shape
Gullwing
Sealing method
Plastic mold
Mounting height
3.35 mm MAX
Code
(Reference)
P-QFP100-14×20-0.65
(FPT-100P-M06)
100-pin plastic QFP
(FPT-100P-M06)
Note 1) * : These dimensions do not include resin protrusion.
Note 2) Pins width and pins thickness include plating thickness.
Note 3) Pins width do not include tie bar cutting remainder.
23.90±0.40(.941±.016)
* 20.00±0.20(.787±.008)
80
51
81
50
0.10(.004)
17.90±0.40
(.705±.016)
*14.00±0.20
(.551±.008)
INDEX
Details of "A" part
100
1
30
0.65(.026)
0.32±0.05
(.013±.002)
0.13(.005)
M
"A"
C
0.25(.010)
+0.35
3.00 –0.20
+.014
.118 –.008
(Mounting height)
0~8˚
31
2002 FUJITSU LIMITED F100008S-c-5-5
0.17±0.06
(.007±.002)
0.80±0.20
(.031±.008)
0.88±0.15
(.035±.006)
0.25±0.20
(.010±.008)
(Stand off)
Dimensions in mm (inches).
Note: The values in parentheses are reference values.
Please confirm the latest Package dimension by following URL.
http://edevice.fujitsu.com/fj/DATASHEET/ef-ovpklv.html
(Continued)
65
MB90860E Series
(Continued)
100-pin plastic LQFP
Lead pitch
0.50 mm
Package width ×
package length
14.0 × 14.0 mm
Lead shape
Gullwing
Sealing method
Plastic mold
Mounting height
1.70 mm MAX
Weight
0.65g
Code
(Reference)
P-LFQFP100-14×14-0.50
(FPT-100P-M05)
100-pin plastic LQFP
(FPT-100P-M05)
Note 1) * : These dimensions do not include resin protrusion.
Note 2) Pins width and pins thickness include plating thickness.
Note 3) Pins width do not include tie bar cutting remainder.
16.00±0.20(.630±.008)SQ
* 14.00±0.10(.551±.004)SQ
75
51
76
50
0.08(.003)
Details of "A" part
+0.20
100
26
1
25
C
0.20±0.05
(.008±.002)
0.08(.003)
M
0.145±0.055
(.0057±.0022)
2003 FUJITSU LIMITED F100007S-c-4-6
Please confirm the latest Package dimension by following URL.
http://edevice.fujitsu.com/fj/DATASHEET/ef-ovpklv.html
66
0.10±0.10
(.004±.004)
(Stand off)
0˚~8˚
"A"
0.50(.020)
+.008
1.50 –0.10 .059 –.004
(Mounting height)
INDEX
0.50±0.20
(.020±.008)
0.60±0.15
(.024±.006)
0.25(.010)
Dimensions in mm (inches).
Note: The values in parentheses are reference values.
MB90860E Series
The information for microcontroller supports is shown in the following homepage.
http://www.fujitsu.com/global/services/microelectronics/product/micom/support/index.html
FUJITSU LIMITED
All Rights Reserved.
The contents of this document are subject to change without notice.
Customers are advised to consult with FUJITSU sales
representatives before ordering.
The information, such as descriptions of function and application
circuit examples, in this document are presented solely for the
purpose of reference to show examples of operations and uses of
Fujitsu semiconductor device; Fujitsu does not warrant proper
operation of the device with respect to use based on such
information. When you develop equipment incorporating the
device based on such information, you must assume any
responsibility arising out of such use of the information. Fujitsu
assumes no liability for any damages whatsoever arising out of
the use of the information.
Any information in this document, including descriptions of
function and schematic diagrams, shall not be construed as license
of the use or exercise of any intellectual property right, such as
patent right or copyright, or any other right of Fujitsu or any third
party or does Fujitsu warrant non-infringement of any third-party’s
intellectual property right or other right by using such information.
Fujitsu assumes no liability for any infringement of the intellectual
property rights or other rights of third parties which would result
from the use of information contained herein.
The products described in this document are designed, developed
and manufactured as contemplated for general use, including
without limitation, ordinary industrial use, general office use,
personal use, and household use, but are not designed, developed
and manufactured as contemplated (1) for use accompanying fatal
risks or dangers that, unless extremely high safety is secured, could
have a serious effect to the public, and could lead directly to death,
personal injury, severe physical damage or other loss (i.e., nuclear
reaction control in nuclear facility, aircraft flight control, air traffic
control, mass transport control, medical life support system, missile
launch control in weapon system), or (2) for use requiring
extremely high reliability (i.e., submersible repeater and artificial
satellite).
Please note that Fujitsu will not be liable against you and/or any
third party for any claims or damages arising in connection with
above-mentioned uses of the products.
Any semiconductor devices have an inherent chance of failure. You
must protect against injury, damage or loss from such failures by
incorporating safety design measures into your facility and
equipment such as redundancy, fire protection, and prevention of
over-current levels and other abnormal operating conditions.
If any products described in this document represent goods or
technologies subject to certain restrictions on export under the
Foreign Exchange and Foreign Trade Law of Japan, the prior
authorization by Japanese government will be required for export
of those products from Japan.
Edited
Business Promotion Dept.
F0610