F2MC-8FX Family MCU BOARD for MB95FV100D-101

The following document contains information on Cypress products.
FUJITSU SEMICONDUCTOR
SUPPORT SYSTEM
SS01-26021-1E
F2MC-8FX Family
MCU BOARD for MB95FV100D-101
MB2146-301A
OPERATION MANUAL
PREFACE
Thank you for purchasing the MCU board for the F2MC*-8FX family MB95FV100D-101 (model
number: MB2146-301A).
The MB2146-301A is a development support tool for developing and evaluating applied products
based on the F2MC-8FX family of microcontrollers manufactured by Fujitsu.
This manual is intended for engineers who use the MB2146-301A (referred to below as the MCU
board) to develop applied products based on Fujitsu's F2MC-8FX family microcontrollers. The manual describes how to handle the MCU board and its functions as well as the setting procedures.
Be sure to read this manual before using the MCU board.
* : F2MC is the abbreviation of FUJITSU Flexible Microcontroller.
■ Using the product safely
This manual contains important information required for using the MB2146-301A safely. Be sure to
read through the manual before using the product and follow the instructions contained therein to use
it correctly.
In particular, carefully read the “Caution of the products described in this document” at the beginning
of this manual to understand the requirements for safe use of the product before using it.
After reading the manual, keep it handy for future reference.
■ Warranty and liability disclaimers
The specifications of the product are subject to change without notice.
In no event shall Fujitsu be liable for any loss or damages whatsoever directly or indirectly arising
out of the use of the product.
■ Product operating environment
The operating temperature for the product ranges from 5 °C to 35 °C and the operating relative humidity from 20% to 80%. Avoid using the product in hot or humid environment and prevent condensation.
The product is a printed circuit board unit without a chassis such that all of the electronic components
are exposed. Therefore, neither put anything on the product nor touch or let an electrically charged
material contact a metal part of it. Once the product has been powered, try to keep those objects away
from it which can short-circuit it or easily catch fire and burn. Use the product as horizontal as possible and avoid operating it at a place exposed to strong vibration, dust, or explosive gas.
Note that using the product not in the above operating environment may unexpectedly cause personal
injury to the user (or another person if present near the product) or physical damage to properties
around the product.
You should also keep the packaging materials used for shipping the product. They work well as they
are when you transport the product again, for example, if it becomes out of order and needs to be
repaired.
■ Related manuals
Refer to the following manuals for additional information:
• Hardware Manual of the MCU used
• Data Sheet of the MCU used
• “MB2146-09 BGM Adapter Instruction Manual”
• Related “Header Board Instruction Manuals”
• “SOFTUNE Workbench Operation Manual”
• “SOFTUNE Workbench USER’S Manual”
i
■ Caution of the products described in this document
The following precautions apply to the product described in this manual.
CAUTION
Indicates a potentially hazardous situation which, if not avoided appropriately, may
result in minor or moderate injury and/or damage to the product or the equipment
to which the product is connected, to software resources such as data, or to other
properties.
Cuts, Damage
Before moving the product, be sure to turn off all the power supplies and unplug the
cables. Watch your steps when carrying the product. Do not use the product in an
unstable location such as a place exposed to strong vibration or a sloping surface.
Doing so may let the product fall, resulting in an injury or fault.
Cuts
The product has some sharp-pointed or edged parts inevitably exposed, such as
jumper plugs. Use meticulous care in handling the product not to get injured with
such pointed parts.
Damage
Neither put anything on or apply shock to the product. Once the product has been
powered, do not carry it.
Doing either may cause a fault due to overloading or shock.
Damage
Since the product contains many electronic components, keep it away from direct
sunlight, high temperature, and high humidity to prevent condensation. Do not use
or store the product where it is exposed to much dust or a strong magnetic or electric field for an extended period of time.
An adverse operating or storage environment can cause a fault.
Damage
Use the product within the ranges of its general specifications.
Operating it outside the range of any general specification may cause a fault.
Damage
To prevent electrostatic breakdown, do not let your finger or an object touch any
metal part of the connector. Before handling the product, touch a metal object (such
as a door knob) to discharge static electricity from your body.
Damage
Before turning the power on, in particular, be sure to finish making all the required
connections. To set up and use the product, follow the instructions given in this document.
Using the product incorrectly or inappropriately may cause a fault.
Damage
Before plugging or unplugging any cable for this product, be sure to turn the power
supply off. When unplugging a cable, remove it while holding the connector without
pulling the cable itself. Pulling the cable itself or bending it may expose or disconnect the cable core, resulting in a fault.
Damage
Because the product has no casing, it is recommended that it be stored in the original packaging. Re-transporting the product may damage it to cause a fault. Keep
the packaging materials used for shipment of the product and use them when retransporting it.
ii
• 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.
Copyright ©2007 FUJITSU LIMITED All rights reserved
iii
1. Product Outline
The MB2146-301A is the MCU board (model number: MB2146-301A) mounting an evaluation
MCU for the F2MC-8FX Family of Fujitsu 8-bit microcontrollers. The F2MC-8FX evaluation environment, consists of a combination of three products: the header board, MCU board, and BGM
adapter (model number: MB2146-09) as shown in Figure 1.
MB2146-09
MCU board
BGM adapter
Header board
Figure 1 System configuration
■ Product configuration
Tables 1 lists the product configuration in the MCU board package. Table 2 lists optional parts for
the MCU board package that can be purchased separately.
Table 1 Product configuration
Name
F2MC-8FX MCU board*
Model number
MB2146-301A
Description
MCU board with built-in MB95FV100D-101
* : Neither the oscillator nor the capacitor is bundled with the MB2146-301A. Therefore, prepare
them separately.
Table 2 Optional parts
Name
Model number
Description
BGM adapter*1
MB2146-09
ICE unit for F2MC-8FX
Header board*2
MB2146-2xx
Connector/package conversion header board
*1 : To use the BGM adapter, you need additional tools such as debugger software.
*2 : The header board is an interface board to connect the MCU board to your user system. Choose
and purchase a type of header board which is applicable to the production MCU to be used.
1
■ Appearance and part name
The appearance of a MCU board and the part name are shown in Figure 2.
(11)
(1)
(2)
(13)
(12)
3V
LVD2
5V
(4)
1 2 3 4
SUB CLOCK
1
2
C
B
A
(8)
HEADER I/F CONNECTOR B
1 2 3 4
(7)
(6)
HEADER I/F CONNECTOR A
OFF
ON
LVD1
ON
MAIN CLOCK
PRODUCT SELECT
X0
X1
X0A
X1A
F01
(5)
CLK
CLK S.V.
APB8
C
23
789
CD
AB E
4 56
(3)
LVD4
LVD3
LVD2
LVD1
LVD0
GNDVCC
BGM
ADAPTER
(9)
(10)
Top view
(1)
(2)
(3)
(4)
(5)
(6)
(7)
(8)
(9)
(10)
(11)
(12)
(13)
(14)
(14)
Bottom view
LVD2 detection voltage selector jumper plug*
Voltage selector switch
Product selector switch
LVD selector switch
Clock selector switch (SW1-1: CLK)
Clock supervisor selector switch (SW1-2 : CLK S.V.)
APB8 bus output selector switch (SW1-3: APB8) (for extension) *
C-pin selector switch (SW1-4: C)
Clock input selector switch (SW2-1: X0, SW2-2: X1, SW2-3: X0A, SW2-4: X1A)
Sub clock crystal oscillator mounting socket
Main clock crystal oscillator mounting socket
Sub clock selector jumper plug
BGM adapter connector
Header board I/F connector A
Header board I/F connector B
Evaluation MCU (MB95FV100D-101)
Incorrect insertion prevention guard
* : Note used during debugging.
Figure 2 MCU board appearance figure
2. Checking the Delivered Product
Before using the MCU board, confirm that the following components are included in the box:
• MCU board
:1
• Operation manual (English version, this manual)
:1
• Operation manual (Japanese version)
:1
2
3. Connections
■ Connecting the MCU board to the header board
Align the MCU board the header board facing each other, then plug their mating connectors together.
Those connectors are provided with incorrect insertion prevention guards located diagonally. Position the two boards so that the incorrect insertion prevention guards do not interfere with each other
and plug the connectors together completely (see “Figure 3”).
MCU board
Incorrect insertion
prevention guard
Header board
Figure 3 Connection of MCU board and header board
■ Connecting the MCU board to the BGM adapter
Connect the BGM adapter to the MCU board. Plug the BGM adapter's interface connector completely into the BGM adapter connector on the MCU board such that the index marks (▼) aligned (see
“Figure 4”).
BGM adapter connector (CN3)
MCU board
01
EF 2
BCD
5V
ON
CLK
CLK S.V.
APB8
C
1 2 3 4
ON
X0
X1
X0A
X1A
B
1 2 3 4
C
MB2146-09
LVD4
LVD3
LVD2
LVD1
LVD0
GND VCC
SUB CLOCK
3 45
89
67 A
BGM
ADAPTER
PRODUCT SELECT
BGM adapter
A
1
2
3V
MAIN CLOCK
LVD1
OFF
LVD2
Index mark
LVD2 detection voltage
selector jumper plug (S2) *
* : Be sure to connect the BGM adapter correctly to the BGM adapter connector (CN3) on the MCU board.
It can damage the MCU board if it is accidentally connected to the LVD2 detection voltage selector
jumper plug (S2).
Figure 4 Connection of MCU board and BGM adapter
3
■ Note on connection
• Be sure to connect the BGM adapter connector (CN3). The BGM adapter connector and the
LVD2 detection voltage selector jumper plug have the same shape (see “Figure 5”). The MCU
board may break if the BGM adapter connector is accidentally plugged into the LVD2 detection voltage selector jumper plug (S2) on the other side of the board.
LVD4
LVD3
LVD2
LVD1
LVD0
GNDVCC
01
EF 2
3 45
89
67 A
BCD
5V
SUB CLOCK
ON
CLK
CLK S.V.
APB8
C
1 2 3 4
ON
X0
X1
X0A
X1A
B
1 2 3 4
C
MB2146-09
PRODUCT SELECT
BGM
ADAPTER
OK
A
1
2
3V
MAIN CLOCK
LVD1
LVD2
LVD1
OFF
A
X0
X1
X0A
X1A
C
BGM
ADAPTER
LVD4
LVD3
LVD2
LVD1
LVD0
GNDVCC
5V
CLK
CLK S.V.
APB8
C
89
67 A
SUB CLOCK
01
EF 2
BCD
PRODUCT SELECT
B
1 2 3 4
1 2 3 4
2
ON
ON
MB2146-09
1
LVD2
3V
MAIN CLOCK
NG
OFF
34 5
Figure 5 Connection direction of BGM adapter
• To supply a main clock signal and sub clock signal from the user system, provide an oscillation circuit on the user system so that it supplies the clock signal to the MCU board via a buffer
circuit.
■ Disconnection
1. Remove the BGM adapter from the MCU board. Holding the MCU board firmly, pull the BGM
adapter vertically from the BGM adapter connector on the MCU board.
2. Remove the header board from the MCU board. Remove it with uniform force without applying
force to only one point.
4
4. How to Setup
■ How to the switch and jumper plug on a MCU board setup
Please set the following switches referring to “Figure 6 The switch and jumper plug on a MCU
board”.
1. Set the clock selector switch (SW1-1) to ON or OFF to disable or enable the sub clock, respectively.
2. Set the clock supervisor selector switch (SW1-2) to OFF.
3. Set the C-pin selector switch (SW1-4) to OFF.
4. Set the clock input selector switch (SW2).
Check that value with “■ Setting of the clock input selector switch (SW2)”.
5. Set the product selector switch (SW3) to the value corresponding to the number of pins on the
production MCU.
Check that value with “■ Setting of the product selector switch (SW3)”.
6. Set the LVD selector switch (SW4) to OFF.
7. Set the power supply selector switch (SW5) to 3V.
8. Set the sub clock selector jumper plug (S1).
Check that value with “■ Setting of the sub clock selector jumper plug (S1)”.
Please use with following settings, because APB8 bus and LVD2 functions are not available.
• Set the APB8 bus output selector switch (SW1-3) to OFF.
• Set the LVD2 detection voltage selector jumper plug (S2) to LVD0.
Check that value with “■ Setting of the LVD2 detection voltage selector jumper plug (S2)”.
S2
OFF
ON
ON
LVD1
X0
X1
X0A
X1A
SW3
CLK
CLK S.V.
APB8
C
F0 1
SC6
SC3
1 2 3 4
SUB CLOCK
SC4
SW4
SC2
1 2 3 4
SW1
SW2
1
S1
2
C
B
A
MAIN CLOCK
23
SW5
PRODUCT SELECT
SC5
3V
LVD2
5V
789
CD
AB E
4 56
LVD4
LVD3
LVD2
LVD1
LVD0
GND VCC
SC1
BGM
ADAPTER
Figure 6 The switch and jumper plug on a MCU board
5
■ How to oscillator mounting on a MCU board
Mount a crystal or ceramic oscillator in the crystal oscillator mounting sockets (for the main clock
and sub clock) on the MCU board.
The MCU board has one crystal oscillator mounting socket for the main clock and the other for the
sub clock. To distinguish them from each other, the board has the “MAIN CLOCK” and “SUB
CLOCK” labels are printed on the board near the main clock socket and sub clock socket. Mount the
crystal or ceramic oscillator along with the capacitors on the MCU board (see “Figure 7”).
GND
Capacitor mounting socket
Capacitor mounting socket
Ceramic oscillator
Crystal oscillator
Crystal oscillator
mounting socket
• For information on the crystal oscillator such as its frequency, refer to the datasheet
for the evaluation MCU.
• For the capacitance of the capacitor, refer to the datasheet for the crystal oscillator,
etc.
• Neither the crystal oscillator nor the capacitor is bundled with this product.
Figure 7 The example of mount of crystal or ceramic oscillator
■ Handling notes
• Data can not be written/erased to lower banks (1000H to 3FFFH) in the software development support environment
for the F2MC-8FX (MB95FV100D and MB2146-09).
• Do not perform a chip erase when using the software development support environment for the F2MC-8FX
(MB95FV100D and MB2146-09).
6
LVD4
LVD3
LVD2
LVD1
LVD0
■ Setting of the switch and jumper plug
The positions of the switch and jumper plug on the MCU board is shown in Figure 8, and specifications are shown in Table 3.
S2
OFF
ON
ON
LVD1
X0
X1
X0A
X1A
SW3
CLK
CLK S.V.
APB8
C
F0 1
SC6
SC3
1 2 3 4
SUB CLOCK
SC4
SW4
SC2
1 2 3 4
SW1
SW2
1
S1
2
C
B
A
MAIN CLOCK
23
SW5
PRODUCT SELECT
SC5
3V
LVD2
5V
7 89
CD
AB E
4 56
LVD4
LVD3
LVD2
LVD1
LVD0
GNDVCC
SC1
BGM
ADAPTER
Figure 8 Positions of switches and jumper plugs on the MCU board
Table 3 Switch and jumper plug settings
Switch/Jumper plug
Settings
Shipment
setting
Clock selector switch
SW1-1
ON : Disable the sub clock
OFF : Enable the sub clock
OFF
Clock supervisor
selector switch
SW1-2
ON : Enable the clock supervisor function
OFF : Disable the clock supervisor function
OFF
APB8 bus output selector
switch
SW1-3
ON : Enable the APB8 bus
OFF : Disable the APB8 bus
OFF
C-pin selector switch
SW1-4
ON : Connect the C pin to the on-board 0.1µF capacitor
OFF : Disconnect the C pin from the on-board 0.1µF capacitor
OFF
Clock input selector
switch
SW2
Select the main clock and sub clock source on the MCU board or on
the user system (See “■ Setting of the clock input selector switch
(SW2)”).
OFF
Product selector switch
SW3
Set this switch depending on the number of pins on the target MCU
to be used (See “■ Setting of the product selector switch (SW3)”).
0
SW4
Select the low-voltage detection function.
LVD1 : LVD1 enabled
OFF : LVD function disabled
LVD2 : LVD2 enabled
SW5
Select 5V or 3V supply for the operating voltage of the evaluation
MCU.
5V : 5V supply
3V : 3V supply
LVD selector switch
Voltage selector switch
Sub clock selector
jumper plug
S1
Select whether to use the sub clock.
(See “■ Setting of the sub clock selector jumper plug (S1)”).
LVD2 detection voltage
selector jumper plug
S2
Set the LVD2 detection voltage (See “■ Setting of the LVD2 detection voltage selector jumper plug (S2)”).
OFF
3V
Jumper of
B-C
LVD0
7
X0
X1
X0A
X1A
■ Setting of the clock input selector switch (SW2)
Figure 9 shows the clock input selector switch. Table 4 lists switch positions for the main clock supply source. Table 5 lists switch positions for the sub clock supply source.
ON
1 2 3 4
Figure 9 Clock input selector switch (SW2)
Table 4 Setting of main clock supply source
Main clock supply source
Settings of the clock input selector switch
SW2-1
SW2-2
Clock area
OFF
OFF
User system
ON
ON
Table 5 Setting of the sub clock supply source
Sub clock supply source
Settings of the clock input selector switch
SW2-3
SW2-4
Clock area
OFF
OFF
User system
ON
ON
■ Setting of the product selector switch (SW3)
Table 6 lists the setting of product selector switch and product type.
Table 6 Setting of the product selector switch
Switch setting
Product type
0
100-pin package type
1
80-pin package type
2
64-pin package type
3
48-pin, 52-pin package type
4
32-pin package type
5
28-pin package type
6
20-pin package type
7
Setting Prohibited
8
100-pin package, LCD function integrated type
9
80-pin package, LCD function integrated type
A
64-pin package, LCD function integrated type
B
48-pin, 52-pin package, LCD function integrated type
C
D
E
F
8
Setting Prohibited
■ Setting of the sub clock selector jumper plug (S1)
Table 7 lists jumper plug positions and sub clock selection. Figure 10 shows examples of sub clock
selection.
Table 7 Setting of sub clock selector
Settings of the sub clock
selector jumper plug (S1)
Sub clock
Used
Supply source M1 correspondence pin
Clock area
X0A : R3 pin
X1A : V1 pin
enable
User system*
disable
⎯
X0A
Example of
settings
X1A
Jumper of 1: B - 1: C Jumper of 2: B - 2: C
Example 1
Jumper of 1: A - 1: B Jumper of 2: A - 2: B
Example 2
* : Oscillation is not guaranteed when the crystal oscillator is mounted on the user system.
C
B
1
1
2
2
A
Example 1
C
B
A
Example 2
Figure 10 The example of sub clock selection
LVD4
LVD3
LVD2
LVD1
LVD0
■ Setting of the LVD2 detection voltage selector jumper plug (S2)
Figure 11 shows the setting of the LVD2 detection voltage selector jumper plug (S2). Table 8 lists
jumper plug positions for detection voltages.
These settings cannot be used during debugging. Set the jumper to LVD0 to use the debugger.
Figure 11 The LVD2 detection voltage selector jumper plug (S2)
Table 8 Setting of the LVD2 detection voltage selector jumper plug
Jumper plug position
LVD2 setting value
LVD0
+ 4.17V
LVD1
+ 3.74V
LVD2
+ 3.3V
LVD3
+ 2.9V
LVD4
+ 2.6V
9
5. Product Specifications
■ General specifications
The general specifications of the MCU board are shown in Table 9.
Table 9 MCU board general specifications
Item
Specification
Name
MCU board for the F2MC-8FX MB95FV100D-101
Model number
MB2146-301A
Power supply
Evaluation MCU (MB95FV100D-101) : + 3.3V (UVcc)
MCU board power supply
: + 3.3V (supplied by the user system)
Frequency of operation
Max. 16.25MHz
Operating temperature
5 °C to 35 °C
Operating humidity
20 % to 80 % (No condensation is allowed.)
40.0mm (W) × 40.0mm (D) × 14.6mm (H)
Dimensions
Weight
13g
■ Functional explanation
The functional specifications of the MCU board are shown in Table 10, and a functional block diagram is shown in Figure 12.
Table 10 MCU board functional specifications
Item
Description
MCU board function
Serves as the adapter used in combination with the BGM adapter and
header board to provide connection between the BGM adapter and evaluation MCU and between the evaluation MCU and user system.
Switches
Serve for clock selection, clock supervisor selection, APB8 bus output selection, C-pin setting, clock selection, product selection, low-voltage detection setting, and voltage selection.
Jumper plugs
The jumper plugs on the MCU board can be used to make various settings
for low-voltage detection and clock selection.
The crystal oscillator mounted socket on the MCU board is used to supply
Clock mounting socket clock signals to the main clock (X0/X1) and sub clock (X0A/X1A) pins
on the evaluation MCU from the MCU board.
10
Clock supervisor
selector switch
0
CSVEN
AVcc
AVR
AVss
Voltage
selector
switch
1
1
APBEN
LVDEN
Vcc
Header board
I/F
connector
LVDEN2
1
C
0
1
Clock
selector
circuit
X0,X1,
X0A,X1A
0Clock selector
switch
SEL4
1
0
1
2
LVD
selector
switch
MB95FV100D-101
(Evaluation MCU)
PG0
1
0
1
LVDREXT
AVR3
0
APB8 bus output
selector switch
0
AVcc3
0
0
C-pin
selector
switch
1
Header board
I/F
connector
BGM
adapter
connector
Vcc,GND,BRSTX,
BSIN,BSOUT,
BDBMX,BEXCK
LVDIN
Product
selector
switch
1
2
3
4
1
2
3
4
5
LVR0
LVR1
LVR2
LVR3
LVR4
SEL0
SEL1
SEL2
SEL3
LVD2 detection voltage
setting jumper plug
Other pins
Figure 12 MCU board functional block diagram
■ Clock settings
Figure 13 shows the clock-related circuit diagram.
Clock input
selector switch
X0
T4
1
X1
U2
2
Crystal oscillator mounting
socket (main clock)
3
4
X0
X1
X0A
X1A
(M1)
X0A
R3
X1A
V1
GND
1
2
(R1)
Crystal oscillator
mounting socket
(sub clock)
C
B
A
Sub clock
selector
jumper plug
GND
Figure 13 Clock selector circuit
11
■ Header board specifications
Figure 14 shows recommended dimensions of the header board connected to the MCU board.
Table 11 lists the general specifications of the header board.
20mm
Incorrect insertion prevention guard
13mm
2
1
40mm
20mm
1
18mm
2
120
119
120
MCU board I/F
connector B
119
MCU board I/F
connector A
30mm
40mm
Figure 14 Recommended dimensions of the header board (Top view)
Table 11 General specifications of the header board.
Item
Description
MCU board interface connector
120 pin 0.5mm pitch 2 piece connector (Straight) × 2
Model number: WR-120SB-VF-N1
(Japan Aviation Electronics Industry, Limited)
Incorrect insertion prevention guard
2 pin SIP socket
Model number: PCW-3-1-1PW (MAC EIGHT)
Spacing between the MCU and
header boards when engaged
Approx. 5.0mm
■ Connector socket specifications
The specifications of a connector and a socket is shown in Table 12.
Table 12 Connector and socket specifications
Item
Description
Header board interface connector Connects the MCU board to the header board.
12
BGM adapter connector
Connects the MCU board to the BGM adapter.
Main clock mounting socket
Mounts the main clock crystal oscillator.
Sub clock mounting socket
Mounts the sub clock crystal oscillator.
■ Pin assignment of header board I/F connector
Tables 13 and 14 lists the pin assignments of the header board interface connectors on the MCU
board.
Table 13 Pin assignment of header board I/F connector A
Connector Evaluation
Pin
MCU Pin
Number
Number
Signal line
name
Connector
Pin
Number
Evaluation
MCU Pin
Number
Signal line
name
Connector
Pin
Number
Evaluation
MCU Pin
Number
Signal line
name
PC4
41
E2
LVR3
81
P3
BSOUT
1
A9
2
B9
PC1
42
E1
LVSS *
82
P4
BDBMX
3
C9
PC2
43
F4
LVDREXT
83
R1
P83
4
D9
PC3
44
F3
LVDBGR
84
R2
BRSTX
5
A8
PC0
45
F2
LVDENX
85
R3
X0A
6
B8
PB4
46
F1
P22A
86
R4
RSTX
7
C8
PB5
47
−
GND *
87
T1
ROMS1
8
D8
PB6
48
−
GND *
88
T2
BSIN
9
A7
PB7
49
G4
P20A
89
T3
Vss *
10
B7
PB2
50
G3
NC1
90
T4
X0
11
C7
PB0
51
G2
P21A
91
U1
BEXCK
12
D7
PB1
52
G1
P23A
92
U2
X1
13
A6
PB3
53
H4
P24A
93
U3
MOD
14
B6
PA2
54
H3
P25A
94
U4
PF2
15
C6
P95
55
H2
P26A
95
V1
X1A
16
D6
PA0
56
H1
P27A
96
V2
Vcc53 *
17
A5
PA3
57
J4
P24B
97
−
GND *
18
B5
P94
58
J3
P50
98
−
GND *
19
C5
P90
59
J2
P23B
99
V3
PINT0
20
D5
P91
60
J1
P51
100
V4
PSEL_EXT
21
A4
PA1
61
K1
P52
101
R5
PF1
22
A3
P93
62
K2
P55
102
T5
PF0
23
−
GND *
63
K3
P54
103
U5
NC2
24
−
GND *
64
K4
P53
104
V5
PENABLE
25
A2
CSVENX
65
L1
P70
105
R6
APBENX
26
A1
Vss *
66
L2
P74
106
T6
PINT1
27
B4
P92
67
L3
P73
107
U6
PCLK
28
B3
TCLK
68
L4
P72
108
V6
PADDR0
29
B2
LVCC *
69
M1
P71
109
R7
PACTIVE
30
B1
LVDIN
70
M2
P76
110
T7
PLOCK
31
C4
Cpin
71
M3
P80
111
U7
PWRITE
32
C3
Vcc51 *
72
M4
P77
112
V7
PADDR1
33
C2
LVDENX2
73
−
GND *
113
R8
PADDR2
34
C1
LVR4
74
−
GND *
114
T8
PADDR3
35
D4
TESTO
75
N1
P75
115
U8
PADDR4
36
D3
LVDOUT
76
N2
P82
116
V8
PADDR5
37
D2
LVR2
77
N3
PG0
117
R9
PADDR7
38
D1
BGOENX
78
N4
P84
118
T9
PRDATA0
39
E4
LVR1
79
P1
P81
119
U9
PADDR6
40
E3
LVR0
80
P2
ROMS0
120
V9
PRDATA1
13
Table 14 Pin assignment of header board I/F connector B
Connector
Pin
Number
Evaluation
MCU Pin
Number
1
A10
PC5
41
E17
NC4
81
P16
P34
2
B10
PD0
42
E18
SEL0
82
P15
P35
3
C10
PC6
43
F15
SEL3
83
R18
P44
4
D10
PC7
44
F16
SEL4
84
R17
P36
5
A11
PD1
45
F17
SEL1
85
R16
P31
6
B11
PD2
46
F18
P04C
86
R15
AVcc3
7
C11
PD3
47
−
GND *
87
T18
P40
8
D11
PD4
48
−
GND *
88
T17
P32
Signal line
name
Connector
Pin
Number
Evaluation
MCU Pin
Number
Signal line
name
Connector
Pin
Number
Evaluation
MCU Pin
Number
9
A12
PD5
49
G15
P06C
89
T16
AVss
10
B12
PD7
50
G16
P07C
90
T15
AVR
11
C12
P61
51
G17
P05C
91
U18
P33
12
D12
P60
52
G18
P00C
92
U17
P30
13
A13
PD6
53
H15
P01C
93
U16
AVR3
14
B13
P64
54
H16
P02C
94
U15
P15
15
C13
P66
55
H17
P03C
95
V18
AVcc
16
D13
P65
56
H18
P07A
96
V17
DA0
17
A14
P62
57
J15
P04A
97
−
GND *
18
B14
PE0A
58
J16
P05A
98
−
GND *
19
C14
PE3A
59
J17
P06A
99
V16
P14
20
D14
PE2A
60
J18
P03A
100
V15
P10
21
A15
P63
61
K18
P02A
101
R14
P16
22
A16
P67
62
K17
P07B
102
T14
DA1
23
−
GND *
63
K16
P01A
103
U14
P13
24
−
GND *
64
K15
P00A
104
V14
PWDATA7
25
A17
PE4A
65
L18
P06B
105
R13
P11
26
A18
Vcc54 *
66
L17
P05B
106
T13
P12
27
B15
PE1A
67
L16
P04B
107
U13
NC3
28
B16
PE5A
68
L15
P03B
108
V13
PWDATA3
29
B17
PE7A
69
M18
P02B
109
R12
PWDATA5
30
B18
PE3B
70
M17
P00B
110
T12
PWDATA6
31
C15
PE6A
71
M16
P46
111
U12
PWDATA4
32
C16
Vss *
72
M15
P47
112
V12
PRDATA7
33
C17
PE2B
73
−
GND *
113
R11
PWDATA0
34
C18
PE7B
74
−
GND *
114
T11
PWDATA1
35
D15
PE1B
75
N18
P01B
115
U11
PWDATA2
36
D16
PE0B
76
N17
P43
116
V11
PRDATA6
37
D17
PE6B
77
N16
P41
117
R10
PRDATA3
38
D18
SEL2
78
N15
P42
118
T10
PRDATA4
39
E15
PE5B
79
P18
P45
119
U10
PRDATA5
40
E16
PE4B
80
P17
P37
120
V10
PRDATA2
* : About power supply pins (common to connectors A and B)
Connect the Vcc51, Vcc53 and Vcc54 pins to Vcc. Disconnect the LVCC pin from Vcc.
Connect the Vss pin to GND. Disconnect the LVSS pin from GND.
: 3.3V power supply pins
: GND power supply pins
14
Signal line
name
SS01-26021-1E
FUJITSU SEMICONDUCTOR • SUPPORT SYSTEM
F2MC-8FX Family
MCU BOARD for MB95FV100D-101
MB2146-301A
OPERATION MANUAL
March 2007 the first edition
Published FUJITSU LIMITED Electronic Devices
Edited
Business Promotion Dept.