ug-910056-10-sk-91465x-100pmc.pdf

Fujitsu Microelectronics Europe
User Guide
FMEMCU-UG-910056-10
MB91F465XA
EVALUATION BOARD
SK-91465X-100PMC
USER GUIDE
SK-91465X-100PMC User Guide
Revision History
Revision History
Date
2007-04-11
Issue
V1.0, MSt
Initial version
This document contains 38 pages.
UG-910056-10
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© Fujitsu Microelectronics Europe GmbH
SK-91465X-100PMC User Guide
Warranty and Disclaimer
Warranty and Disclaimer
To the maximum extent permitted by applicable law, Fujitsu Microelectronics Europe GmbH restricts
its warranties and its liability for the SK-91465X-100PMC and all its deliverables (eg. software
include or header files, application examples, target boards, evaluation boards, engineering samples
of IC’s etc.), its performance and any consequential damages, on the use of the Product in
accordance with (i) the terms of the License Agreement and the Sale and Purchase Agreement under
which agreements the Product has been delivered, (ii) the technical descriptions and (iii) all
accompanying written materials. In addition, to the maximum extent permitted by applicable law,
Fujitsu Microelectronics Europe GmbH disclaims all warranties and liabilities for the performance of
the Product and any consequential damages in cases of unauthorised decompiling and/or reverse
engineering and/or disassembling. Note, the SK-91465X-100PMC and all its deliverables are
intended and must only be used in an evaluation laboratory environment.
1.
Fujitsu Microelectronics Europe GmbH warrants that the Product will perform substantially in
accordance with the accompanying written materials for a period of 90 days form the date of
receipt by the customer. Concerning the hardware components of the Product, Fujitsu
Microelectronics Europe GmbH warrants that the Product will be free from defects in material
and workmanship under use and service as specified in the accompanying written materials
for a duration of 1 year from the date of receipt by the customer.
2.
Should a Product turn out to be defect, Fujitsu Microelectronics Europe GmbH´s entire liability
and the customer´s exclusive remedy shall be, at Fujitsu Microelectronics Europe GmbH´s
sole discretion, either return of the purchase price and the license fee, or replacement of the
Product or parts thereof, if the Product is returned to Fujitsu Microelectronics Europe GmbH in
original packing and without further defects resulting from the customer´s use or the transport.
However, this warranty is excluded if the defect has resulted from an accident not attributable
to Fujitsu Microelectronics Europe GmbH, or abuse or misapplication attributable to the
customer or any other third party not relating to Fujitsu Microelectronics Europe GmbH.
3.
To the maximum extent permitted by applicable law Fujitsu Microelectronics Europe GmbH
disclaims all other warranties, whether expressed or implied, in particular, but not limited to,
warranties of merchantability and fitness for a particular purpose for which the Product is not
designated.
4.
To the maximum extent permitted by applicable law, Fujitsu Microelectronics Europe GmbH´s
and its suppliers´ liability is restricted to intention and gross negligence.
NO LIABILITY FOR CONSEQUENTIAL DAMAGES
To the maximum extent permitted by applicable law, in no event shall Fujitsu
Microelectronics Europe GmbH and its suppliers be liable for any damages whatsoever
(including but without limitation, consequential and/or indirect damages for personal
injury, assets of substantial value, loss of profits, interruption of business operation,
loss of information, or any other monetary or pecuniary loss) arising from the use of
the Product.
Should one of the above stipulations be or become invalid and/or unenforceable, the remaining
stipulations shall stay in full effect
© Fujitsu Microelectronics Europe GmbH
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Contents
Contents
REVISION HISTORY ............................................................................................................ 2
WARRANTY AND DISCLAIMER ......................................................................................... 3
CONTENTS .......................................................................................................................... 4
1 INTRODUCTION.............................................................................................................. 6
1.1
Abstract................................................................................................................... 6
1.2
Features.................................................................................................................. 6
1.3
General Description................................................................................................. 7
1.3.1
MCU Clocks............................................................................................... 7
1.3.2
MCU Operating Mode ................................................................................ 7
1.3.3
FlexRay Physical Layer ............................................................................. 7
1.3.4
CAN Bus.................................................................................................... 7
1.3.5
RS-232 and LIN......................................................................................... 7
1.3.6
I²C ............................................................................................................. 7
1.3.7
MCU Pins .................................................................................................. 8
1.3.8
User Buttons.............................................................................................. 8
1.3.9
User LEDs and optional LCD ..................................................................... 8
1.3.10
Power Supply ............................................................................................ 8
2 INSTALLATION ............................................................................................................... 9
2.1
Jumper Settings .................................................................................................... 10
2.2
Jumper Coordinates .............................................................................................. 12
3 JUMPERS AND SWITCHES.......................................................................................... 13
3.1
Operating Mode (S1)............................................................................................. 13
3.2
Power supply......................................................................................................... 14
3.2.1
Power switching by FlexRay physical layer.............................................. 15
3.3
Analogue Power Supply Voltage ........................................................................... 16
3.4
UART”A” ............................................................................................................... 17
3.5
UART”B” / LIN “A” ................................................................................................. 17
3.6
UART ”C” / LIN “B” ................................................................................................ 18
3.7
CAN “A”................................................................................................................. 19
3.8
CAN “B”................................................................................................................. 19
3.9
FlexRay “Channel A” (FR-A).................................................................................. 20
3.10 FlexRay “Channel B” (FR-B).................................................................................. 21
3.11 Reset-Generation .................................................................................................. 22
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SK-91465X-100PMC User Guide
Contents
3.12 Buttons SW1, SW2, SW3, SW4, SW5, SW6, SW7................................................ 23
4 PROGRAMMING THE INTERNAL FLASH.................................................................... 24
4.1
Asynchronous Mode.............................................................................................. 24
4.2
Synchronous Mode ............................................................................................... 26
5 CONNECTORS.............................................................................................................. 27
5.1
Power Connector (X13) ......................................................................................... 27
5.2
Edge connector (X4, X5) ....................................................................................... 27
5.3
UART / LIN Connector (X6, X8, X12) .................................................................... 28
5.4
CAN Connector (X1, X2) ....................................................................................... 29
5.5
FlexRay Connector (X3, X7).................................................................................. 29
5.6
USER-LEDs & optional LC-Display ....................................................................... 30
5.7
In-Circuit-Programming Connector (J4) ................................................................. 31
5.8
VG96 connector (J1) ............................................................................................. 32
6 SILK-PLOT OF THE BOARD ........................................................................................ 33
6.1
Silk-plot Top-side................................................................................................... 33
6.2
Silk-plot bottom side .............................................................................................. 34
7 RELATED PRODUCTS ................................................................................................. 35
8 APPENDIX ..................................................................................................................... 36
8.1
Tables ................................................................................................................... 36
8.2
Figures .................................................................................................................. 37
9 RECYCLING .................................................................................................................. 38
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Chapter 1 Introduction
1 Introduction
1.1
Abstract
The SK-91465X-100PMC is a multifunctional evaluation board for the Fujitsu 32-bit FR60
Flash microcontroller series MB91F465XA.
It can be used stand-alone for software development and testing or as a simple target board
to work with the emulator system.
The board allows the designer immediately to start software development before his own
final target system is available.
1.2
Features
Supports Fujitsu's MB91F465XA MCU with embedded FlexRay interface in LQFP100
package
Can be used with the MB2198 Emulator System with the Socket Adapter Board
EMA-MB91F465X-NLS-100M20 and the Adapter Board EMA-MB91V460A-00x
together with the MB91V460A-100 FlexRay extension board
12V unregulated external DC power supply
5V and 3.3V onboard voltage regulators
Power-LEDs for all supply voltages
Onboard voltage supervisor monitors both supply voltages
In-Circuit serial Flash programming
All resources available for evaluation
All MCU pins routed to edge connectors
4 MHz main crystal
32 kHz crystal for sub clock operation
Two RS232 or LIN, one RS232, two CAN and two FlexRay interfaces (Channel A, B)
are usable simultaneously
Supports Power switching via FlexRay transceiver
8 User LEDs
optional: alphanumeric standard LC-Display connectable instead of LEDs
Reset button, Reset LED
6 User buttons
This board must only be used for test applications
in an evaluation laboratory environment.
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© Fujitsu Microelectronics Europe GmbH
SK-91465X-100PMC User Guide
Chapter 1 Introduction
1.3
General Description
The SK-91F465X-100PMC
MB91F465XA.
supports
the
FUJITSU
32-bit
Flash
microcontroller
The Starter Kit can be used as a stand-alone development platform, or with the emulation
system.
This User Guide is describing PCB version V1.1. The PCB version is printed at the TOP side
of the starter kit between Header X5 and MB91F465XA MCU [U1].
1.3.1 MCU Clocks
The board is supplied with a 4MHz crystal as the main oscillation clock for the MCU. Using
the internal PLL of the MCU, internal clock rates up to 100MHz can be achieved. The MCU
sub clock is connected to a 32.768 kHz crystal.
1.3.2 MCU Operating Mode
The operating mode of the microcontroller can be selected with the Dip-switch S1.
1.3.3 FlexRay Physical Layer
The connection to the physical layer of the FlexRay bus with 9-pin D-Sub connectors (X3
and X7) is realized with AMS8221B transceiver, it is also possible to deselect the termination
network connected to the channels. The transceivers provides differential transmit and
receive capability between FlexRay-controller and FlexRay-bus.
1.3.4 CAN Bus
Two high-speed CAN-transceivers (TLE6250GV33) are available to connect all available onchip CAN-controllers to 9-pin D-Sub connectors (X1 and X2). The transceivers provides
differential transmit and receive capability between CAN-controller and CAN-bus.
1.3.5 RS-232 and LIN
RS-232 and LIN signals are shared on the 9-pin D-Sub connectors (X8 and X12). It can be
selected, if RS-232 or LIN will be used. D-Sub X6 is connected to RS232.
Three RS-232 transceivers and two LIN transceivers are available, to connect the on-chip
USARTs to the 9-pin D-Sub connectors.
The RS-232 transceivers generate the adequate RS-232 levels for receive (RXD) and
transmit (TXD) lines. The RTS signal can be shortcut to CTS using jumpers (some PC
software needs this connection, when a 1:1 cable is used).
Either the DTR line or the RTS line of X1, X4 or X8 connectors can be selected to generate
a system reset.
The LIN transceivers (TLE7259) generate the adequate levels to drive the bus line in LINsystems for automotive and industrial applications.
1.3.6 I²C
Two additional pull-up resistors R24 and R25 can be connected to the I²C bus lines by
setting the according Jumpers (JP18, JP22).
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Chapter 1 Introduction
1.3.7 MCU Pins
All pins of the microcontroller except the oscillator pins X0/1(A) are connected to the edge
connectors X4 and X5 and are directly available to the user. Furthermore, most signals are
available on the VG96 connector J1.
1.3.8 User Buttons
There are five push buttons on board, which can be connected to input-ports of the
microcontroller. Some ports may support additional functions like external interrupts (INT0,
INT1 and INT2), trigger for the Reload Timer or Input-Capture (TIN0 / ICU0, TIN2 / ICU2)
and analogue trigger (ATGX). Button SW7 issues a local wake up request to the Flexray
physical layers (AMS8221B). One additional button is reserved as System-Reset-button to
reset the MCU, but it is possible to disconnect the RST-port with JP14.
1.3.9 User LEDs and optional LCD
Eight user-LEDs are connected via two pull-down resistor networks to port P27_D0 P27_D3 and to port P16_D0 - P16_D3. Parallel to the LEDs, the connector J2 can be used
to connect a standard alphanumeric display. The resistor networks RN1 and RN2 can be
removed, to free the ports.
1.3.10 Power Supply
The on-board step-down switching regulators allow the user to connect an unregulated DC
input voltage of +12V (max. 2600 mA) to the starter-kit. The switching regulator provide the
voltages of 5V (1.6A), 3.3V (1.6A) on the starter kit. The switching regulators are short circuit
protected and provide a thermal shutdown.
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SK-91465X-100PMC User Guide
Chapter 2 Installation
2 Installation
Remove the board carefully from the shipping carton.
First check if there are any damages before power on the starter kit.
To supply the starter kit, use the delivered In-Plug AC-DC Adapter (UPA 2000). Select the
AC plug adapter suitable for your country power sockets
Figure 2-1: AC plug adapter
and insert this adapter into the connection terminal on the AC-DC adapter.
Figure 2-2: AC plug adapter selection
Check the selected output DC voltage of the AC-DC In-Plug adapter at the voltage selection
key. It should be 12V! Change the output voltage only in a powered-down condition!
Figure 2-3: DC voltage selection
Select the low voltage adapter suitable to the power connector X13 at the SK-91465X100PMC and plug it to the connecting socket in the right orientation (+ connected to shield
and GND connected to centre pin).
Figure 2-4: Low voltage adapter selection
© Fujitsu Microelectronics Europe GmbH
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Chapter 2 Installation
Now connect the DC low voltage adapter to the Starter kit and plug in the In-Plug Power
Supply to a power socket. The SK-91465X-100PMC can be turned on with the on board
power switch S2.
For the power supply of the SK-91465XA-100PMC a DC input voltage of 12V is
recommended. The positive voltage (+) must be connected to the shield, and ground
(GND) must be connected to the centre of the connector X13!
After power-on of the SK-91465X-100PMC, the two red power-on LEDs D25 (5V) and D24
(3.3V) should be light. The LED D10 should light and the reset LED D1 should be off.
2.1
Jumper Settings
Jumper
Description / Function
Type
Default
Setting
Coordinates
JP1
CAN A (TXD) / CAN4
Solder JP 3 pin
1-2
J5
JP2
AVcc
Jumper 2 pin
Closed
J22
JP3
AVcc=AVRH
Jumper 2 pin
Closed
J22
JP4
SW1 (INT0)
Jumper 2 pin
Closed
H10
JP5
RX CAN A / CAN4
Jumper 2 pin
Closed
J6
JP6
SW2 (INT1)
Jumper 2 pin
Closed
H10
JP7
AVss
Jumper 2 pin
Closed
J22
JP8
TX CAN A / CAN4
Jumper 2 pin
Closed
K6
JP9
SW3 (ATGX)
Jumper 2 pin
Closed
G10
JP10
SW4 (TIN0)
Jumper 2 pin
Closed
G10
JP11
CAN B (TXD) / CAN0
Solder JP 3 pin
1-2
J10
JP12
SW5 (TIN2)
Jumper 2 pin
Closed
G10
JP13
Reset immediate / delayed
Solder JP 3 pin
1-2
E7
JP14
RESET
Jumper 2 pin
Closed
F9 / F8
JP15
RX CAN B / CAN0
Jumper 2 pin
Closed
K11
JP16
TX CAN A / CAN4
Jumper 2 pin
Closed
K11
JP17
X3 Shield – pin 5 (FlexRay B)
Jumper 2 pin
Open
E15
JP18
SDA0 Pull-up
Jumper 2 pin
Open
H21
JP19
INH1 / INH2 FlexRay Channel A
Jumper 3 pin
1-2
F11
JP20
BM-B termination
Jumper 2 pin
Closed
E14
JP21
BP-B termination
Jumper 2 pin
Closed
E13
JP22
SCL0 Pull-up
Jumper 2 pin
Open
H21
JP23
X3 - GND / network
Jumper 3 pin
1-2
E15
JP24
RTS-CTS A
Jumper 2 pin
Open
E5
JP25
INH / Vin
Jumper 3 pin
1-2
H16
JP26
UART A (RXD) / UART4
Jumper 2 pin
Closed
F14
JP27
INHxA / INHxB
Jumper 4 pin
Closed
H16
JP28
DTR/RTS A
Jumper 3 pin
Open
E5
JP29
UART A (TXD) / UART4
Jumper 2 pin
Closed
F14
JP30
X7 Shield – pin 5 (FlexRay A)
Jumper 2 pin
Open
E11
JP31
INH1 / INH2 FlexRay Channel B
Jumper 3 pin
1-2
E15
JP32
LIN A Master-Mode
Jumper 2 pin
Open
H12
JP33
DTR / DTRx
Jumper 3 pin
Open
H15
JP34
BM-A termination
Jumper 2 pin
Closed
E10
JP35
“WAKE” LIN-transceiver, LIN A
Solder JP 3 pin
1-2
G12
JP36
BP-A termination
Jumper 2 pin
Closed
E9
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© Fujitsu Microelectronics Europe GmbH
SK-91465X-100PMC User Guide
Chapter 2 Installation
Jumper
Description / Function
Type
Default
Setting
Coordinates
JP37
LIN A enable
Jumper 2 pin
Open
G11
JP38
VBAT LIN A
Jumper 2 pin
Open
E5
JP39
X7 - GND / network
Jumper 3 pin
1-2
E11
JP40
TX (UART B) / BUS (LIN A)
Jumper 3 pin
2-3
F5
JP41
STBN-A
Jumper 3 pin
1-2
F12
JP42
RXD (UART B / LIN A) UART7
Jumper 3 pin
1-2
G13
JP43
STBN-B
Jumper 3 pin
1-2
F16
JP44
TXD (UART B / LIN A) UART7
Jumper 3 pin
1-2
G13
JP45
TXD FlexRay A
Jumper 2 pin
Closed
E12
JP46
TXEN FlexRay A
Jumper 2 pin
Closed
E12
JP47
ERRN-A
Jumper 2 pin
Open
F12
JP48
RXD FlexRay A
Jumper 2 pin
Closed
F12
JP49
RTS-CTS B
Jumper 2 pin
Open
F5
JP50
DTR/RTS B
Jumper 3 pin
Open
F5
JP51
ERRN-B
Jumper 2 pin
Open
F16
JP52
V_ALL
Jumper 2 pin
Closed
H16
JP53
C-pin
Solder JP 2 pin
Closed
G22
JP54
LIN B Master-Mode
Jumper 2 pin
Open
J12 / K12
JP55
V_MCU
Jumper 2 pin
Closed
H20
JP56
“WAKE” LIN-transceiver, LIN B
Solder JP 3 pin
1-2
J12
JP57
LIN B enable
Jumper 2 pin
Open
J12
JP58
TXD FlexRay B
Jumper 2 pin
Closed
E16
JP59
TXEN FlexRay B
Jumper 2 pin
Closed
E16
JP60
VBAT LIN B
Jumper 2 pin
Open
H5
JP61
EN-A
Jumper 3 pin
1-2
E13
JP62
RXD FlexRay B
Jumper 2pin
Closed
E16
JP63
Vcc (5V / 3.3V)
Jumper 3 pin
1-2
H15 / H16
JP64
VDD5R (V_ALL / 3.3V)
Jumper 3 pin
1-2
H20
JP65
TX (UART C) / BUS (LIN B)
Jumper 3 pin
2-3
H5
JP66
EN-B
Jumper 3 pin
1-2
E16
JP67
RXD (UART B / LIN A) UART6
Jumper 3 pin
1-2
J13
JP68
TXD (UART B / LIN A) UART6
Jumper 3 pin
1-2
J13
JP69
RTS-CTS C
Jumper 2 pin
Open
J5
Jumper 4 pin
Closed
D16
JP70
WAKE-A (1-2)
WAKE-B (3-4)
JP71
DTR/RTS C
Jumper 3 pin
Open
J5
JP72
RESET UART A/B/C
Jumper 6 pin
Open
G14
JP73
Clock BNC X0/Pin16
Solder JP 3 pin
Open
F22
JP74
X14 / X1
Solder JP 2 pin
Closed
F22
JP75
X14 / X0
Solder JP 2 pin
Closed
F22
Table 2-1: Default jumper settings
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Chapter 2 Installation
2.2
Jumper Coordinates
A
B
C
D
E
1
F
G
UART “B“ /
LIN“B“
UART7
2
H
J
K
L
M
N
1
UART “C“
LIN“A“
UART6
2
3
3
4
4
5
UART “A”
CAN “A”
UART4
CAN4
5
6
6
7
7
8
FlexRay
CAN “B”
8
9
Channel A
CAN0
9
10
10
11
11
12
12
13
FlexRay
13
Channel B
14
14
15
15
16
16
17
17
18
18
19
19
20
20
21
21
22
22
23
23
24
24
25
25
26
26
27
27
A
B
C
D
E
F
G
H
J
K
L
M
N
Figure 2-5: Jumper Coordinates
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© Fujitsu Microelectronics Europe GmbH
SK-91465X-100PMC User Guide
Chapter 3 Jumpers and Switches
3 Jumpers and Switches
This chapter describes all jumpers and switches that can be modified on the evaluation
board. The default setting (MB91F465XA Series) is shown with a grey shaded area.
3.1
Operating Mode (S1)
The DIP-switch S1 is used to set the operating mode of the MCU. Ensure that the mode pin
settings correspond to the operation-mode of the application. For more detailed information
please check the Hardware-Manual of the microcontroller.
DIP switch
S1/1 (MD0)
S1/2 (MD1)
S1/3 (MD2)
Setting
Logical value
ON (closed)
1 (high)
OFF (open)
0 (low)
ON (closed)
1 (high)
OFF (open)
0 (low)
ON (closed)
1 (high)
OFF (open)
0 (low)
S1/4
not connected
Default: grey
Table 3-1: MCU operating mode
MD0 MD1 MD2 nc
Dip-Switch S2
ON
(default setting)
OFF
1
2
3
4
Figure 3-1: MCU Mode Switch
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Chapter 3 Jumpers and Switches
3.2
Power supply
The onboard voltage regulator (U9) provide stabilized 5V and 3.3V supplies to the MCU and
peripherals. Even though they are thermally protected against overload, care must be taken
when supplying current for additional circuitry.
The LIN Vs line can be connected directly to the input supply of the board by JP40 and
JP60. In this case, the input voltage to the board has to be suitable for the connected bus
devices (mostly around 12V). Since there is a protection diode between Vin and Vs, it is not
possible to power the board over the LIN bus.
JP63 Selects the MCU IO and peripherals Vcc voltage (V_ALL = 3.3V or 5V)
JP64 Selects the MCU Core voltage regulator input voltage (3.3V / V_ALL)
JP52 Connects the Board voltage to V_ALL. Can be used for current measurement of
whole board.
JP55 Connects the MCU Io voltage (V_MCU) to V_ALL. Can be used for current
measurement of MCU.
JP25 Selects the Gate input voltage of MOSFET Q2 (Vin / INHx)
JP40 Connects Vs (Pin 1 of X8) to Vin
JP60 Connects Vs (Pin 1 of X12) to Vin
JP1
Selects Vcc of CAN A (Pin 3 of U2) (5V or V_ALL)
JP11 Selects Vcc of CAN B (Pin 3 of U4) (5V or V_ALL)
Jumper
Setting
Description
JP63
1-2
MCU / Peripherals @ 5V (Vcc)
(Vcc 5V / 3V)
2-3
MCU / Peripherals @ 3.3V (Vcc)
JP64
1-2
(VDD5R
3V/V_ALL)
Supply to Core voltage regulator same as JP63
selection(V_ALL)
2-3
Supply to Core voltage regulator is 3.3V
JP52
Closed
(V_ALL)
Open
JP55
Closed
(V_MCU)
Open
Power supply VBoard connected to V_ALL
Power supply VBoard not connected to V_ALL
Power supply V_ALL connected to V_MCU
Power supply V_ALL not connected to V_MCU
1-2
Gate of MOSFET (Q2) connected to Vin
JP25
2-3
Gate of MOSFET (Q2) connected to INH pin of
FlexRay transceiver (X9, X1)
JP40
Closed
(Vin_A)
Open
JP60
Closed
(Vin_B)
Open
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No voltage supply to Vs of LIN A
Vs of LIN B is powered by the board (Vin)
No voltage supply to Vs of LIN B
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© Fujitsu Microelectronics Europe GmbH
SK-91465X-100PMC User Guide
Chapter 3 Jumpers and Switches
Jumper
Setting
Description
JP1
1-2
Vcc of CAN A is supplied with 5V
(CAN A Vcc)
2-3
Vcc of CAN A is supplied with V_ALL
JP11
1-2
Vcc of CAN B is supplied with 5V
(CAN B Vcc)
2-3
Vcc of CAN B is supplied with V_ALL
Default: grey
Table 3-2: Power supply jumper settings
Power measurements:
Via JP52 it is possible to measure the power consumption of the whole board.
Via JP55 the consumption of MCU Vcc pins can be measured.
For VDD5R consumption measurements JP64 must be used.
3.2.1 Power switching by FlexRay physical layer
This board supports power switching by FlexRay physical layer (X9, X11).
For this reason the Vcc voltage (Selected by JP63) is controlled by a MOSFET (Q2).
12V level at the Gate pin will pass the Vcc voltage to the board. Connecting 0V at the Gate
pin the MOSFET (Q2) switch off the Vcc power supply of the board.
JP25 selects if Vin (12V) or the FlexRay physical layer INHx pins are connected to the Gate
pin. JP27 selects if INHx pin of FlexRay Physical layer channel A or channel B is used for
power switching. JP19 and JP31 selects if INH1 or INH2 pins (channel A / B).
Jumper
Setting
JP25
JP27
JP19
JP31
Description
1-2
Gate of MOSFET (Q2) connected to Vin
2-3
Gate of MOSFET (Q2) connected to INH pin
of FlexRay transceiver (X9, X1)
1-2
INHx-A connected to JP25
3-4
INHx-B connected to JP25
1-2
Select Channel A INH1
2-3
Select Channel A INH2
1-2
Select Channel B INH1
2-3
Select Channel B INH2
Default: grey
Table 3-3: Jumper Settings FlexRay power switching
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Chapter 3 Jumpers and Switches
3.3
Analogue Power Supply Voltage
The power supply as well as the positive reference voltage for the A/D-converter can be
provided internally or externally.
JP2, JP8
connects analogue power supply voltages (AVcc and AVss)
JP3
connects the analogue reference voltage AVRH to AVcc
Jumper
JP2 (AVcc)
JP3 (AVRH)
JP7 (AVss)
Setting
Description
Closed
AVcc is connected to Vcc
Open
Closed
Open
Closed
Open
AVcc is disconnected from Vcc
AVRH is connected to AVcc
AVRH defined by resistor network*1
AVss is connected to GND
AVss is disconnected from GND
Default: grey
Table 3-4: Jumper settings for Analogue Power supply
*1
By default the resistor network (R8, R11) is not mounted on the board
By default, the A/D-converter supply and reference voltage is same as the microcontroller
supply voltage.
Note:
If JP2 and JP7 are open, the user has to supply an
adequate analogue voltage supply (AVcc and AVss) to
the A/D-converter.
If JP3 is open, the resistors R8 and R11 define AVRH.
By default the resistor network (R8, R11) is not
mounted on the board.
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Chapter 3 Jumpers and Switches
3.4
UART”A”
One RS232-transceiver (U5, X6) can be connected to one of the microcontroller’s UART
interfaces.
JP26, JP29
JP24
connect UART 3 to the RS232-transceiver (U1, X3)
Some programs (e.g. Terminals) need a connection between CTS and RTS
Jumper
JP26 (UART”A”RxD)
Setting
Description
Closed
SIN4 of the MCU is connected to UART”A”
Open
Closed
JP29 (UART”A”TxD)
Open
Closed
JP24 (RTS-CTS)
Open
SIN4 of the MCU is not connected to UART”A”
SOT4 of the MCU is connected to UART”A”
SOT4 of the MCU is not connected to UART”A”
RTS and CTS of X6 are connected
RTS and CTS of X6 are not connected
Default: grey
Table 3-5: UART “A” jumper settings
3.5
UART”B” / LIN “A”
One RS232-transceiver (U7) or one LIN-transceiver (U6) can be connected to one of the
microcontroller’s UART interfaces. Connect to D-Sub X8 corresponding RS232 or LIN cable.
By default RS232 is selected to X8.
JP42 Selects if RS232 or LIN is connected to SIN7 of MCU
JP44 Selects if RS232 or LIN is connected to SOT7 of MCU
JP40 Selects if UARTB or LINA is connected to pin2 of X8
JP49 Some programs (e.g. Terminals) need a connection between CTS and RTS
JP37 Enable LIN-Transceiver
JP32 Selects LIN Master mode
JP38 Connects Vs (Pin 1 of X8) to Vin
Jumper
Setting
JP42
1-2
SIN7 of the MCU is connected to U7 (RS232)
(UART B / LIN A)
2-3
SIN7 of the MCU is connected to U6 (LIN)
JP44
1-2
SOT7 of the MCU is connected to U7 (RS232)
(UART B / LIN A)
2-3
SOT7 of the MCU is connected to U6 (LIN)
JP40
1-2
BUS Signal (LINA) is connected to pin2 of X8
(X8 pin2)
2-3
Tx Signal (UARTB) is connected to pin2 of X8
JP49
Closed
(RTS-CTS)
Open
© Fujitsu Microelectronics Europe GmbH
Description
RTS and CTS of X8 are connected
RTS and CTS of X8 are not connected
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Chapter 3 Jumpers and Switches
Jumper
Setting
Description
JP37
Closed
LIN-transceiver is enabled
(LIN A enable)
Open
LIN-transceiver is disabled
JP32
Closed
LIN Master-mode
(LIN A Master)
Open
LIN Slave-mode
JP38
Closed
(VBAT_A)
Open
Vs of LIN B is powered by the board
No voltage supply to Vs of LIN B
Default: grey
Table 3-6: UART “B”/ LIN “A” jumper settings
3.6
UART ”C” / LIN “B”
One RS232-transceiver (U10) or one LIN-transceiver (U8) can be connected to one of the
microcontroller’s UART interfaces. Connect to D-Sub X12 corresponding RS232 or LIN
cable. By default RS232 is selected to X12.
JP67 Selects if RS232 or LIN is connected to SIN6 of MCU
JP68 Selects if RS232 or LIN is connected to SOT6 of MCU
JP65 Selects if UARTC or LINB is connected to pin2 of X12
JP69 Some programs (e.g. Terminals) need a connection between CTS and RTS
JP57 Enable LIN-Transceiver
JP54 Selects LIN Master mode
JP60 Connects Vs (Pin 1 of X12) to Vin
Jumper
Setting
JP67
1-2
SIN6 of the MCU is connected to U10 (RS232)
(UART C / LIN B)
2-3
SIN6 of the MCU is connected to U8 (LIN)
JP68
1-2
SOT6 of the MCU is connected to U10 (RS232)
(UART C / LIN B)
2-3
SOT6 of the MCU is connected to U8 (LIN)
JP65
1-2
BUS Signal (LINB) is connected to pin2 of X12
(X12 pin2)
2-3
Tx Signal (UARTC) is connected to pin2 of X12
JP69
Closed
(RTS-CTS)
Open
JP57
Closed
LIN-transceiver is enabled
(LIN B enable)
Open
LIN-transceiver is disabled
JP54
Closed
LIN Master-mode
(LIN B Master)
Open
LIN Slave-mode
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RTS and CTS of X12 are connected
RTS and CTS of X12 are not connected
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Chapter 3 Jumpers and Switches
Jumper
Setting
Description
JP60
Closed
Vs of LIN B is powered by the board
(VBAT_B)
Open
No voltage supply to Vs of LIN B
Default: grey
Table 3-7: UART “C”/ LIN “B” jumper settings
3.7
CAN “A”
One high-speed CAN-transceiver can be connected to the microcontroller’s CAN interface.
JP5, JP8
connects a CAN-port to the CAN-transceiver (U2, X1).
If the CAN interface is not used then the jumpers should be left open.
Jumper
JP5 (CAN”A”RxD)
JP8 (CAN”A”TxD)
Setting
Description
Closed
RX4 of the MCU is connected to CAN”A” (X1)
Open
RX4 of the MCU is not connected to CAN”A”
Closed
TX4 of the MCU is connected to CAN”A” (X1)
Open
TX4 of the MCU is not connected to CAN”A”
Default: grey
Table 3-8: CAN “A” jumper settings
3.8
CAN “B”
One high-speed CAN-transceiver can be connected to the microcontroller’s CAN interface.
JP15, JP16 connects a CAN-port to the CAN-transceiver (U4, X2).
If the CAN interface is not used then the jumpers should be left open.
Jumper
JP15 (CAN”B”RxD)
JP16 (CAN”B”TxD)
Setting
Description
Closed
RX0 of the MCU is connected to CAN”B” (X2)
Open
RX0 of the MCU is not connected to CAN”B”
Closed
TX0 of the MCU is connected to CAN”B” (X2)
Open
TX0 of the MCU is not connected to CAN”B”
Default: grey
Table 3-9: CAN “B” jumper settings
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Chapter 3 Jumpers and Switches
3.9
FlexRay “Channel A” (FR-A)
One FlexRay transceiver (X9, X7) can be connected to one of the microcontroller’s FlexRay
interface (one channel). In addition further pins of the MCU can be connected to the FlexRay
transceiver for Error-read out feature and power supply switching.
JP45 Connects FlexRay transceiver TXD pin to microcontroller FlexRay TXDA pin
JP46 Connects FlexRay transceiver TXEN pin to microcontroller FlexRay TXENA pin
JP48 Connects FlexRay transceiver RXD pin to microcontroller FlexRay RXDA pin
JP41 Selects FlexRay transceiver STBN pin to Vio or microcontroller pin.
JP61 Selects FlexRay transceiver EN pin to Vio or microcontroller pin.
JP47 Connects FlexRay transceiver ERRN pin to microcontroller pin.
Jumper
Setting
Description
JP45
Closed
TXDA of the MCU is connected to FR-A
(TXDA)
Open
JP46
Closed
(TXENA)
Open
JP48
Closed
(RXDA)
Open
JP41
1-2
STBN of the FR-A is connected to Vio-A.
(STBN-A)
2-3
STBN of the FR-A is connected to MCU pin.
JP61
1-2
EN of the FR-A is connected to Vio-A.
(EN-A)
2-3
EN of the FR-A is connected to MCU pin.
JP47
Closed
(ERRN-A)
Open
TXDA of the MCU is not connected to FR-A
TXENA of the MCU is connected to FR-A
TXENA of the MCU is not connected to FR-A
RXDA of the MCU is connected to FR-A
RXDA of the MCU is not connected to FR-A
ERRN of the FR-A is connected to MCU pin.
ERRN of the FR-A is not connected to MCU pin.
Default: grey
Table 3-10: FlexRay “Channel A” jumper settings
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Chapter 3 Jumpers and Switches
3.10 FlexRay “Channel B” (FR-B)
One FlexRay transceiver (X11, X3) can be connected to one of the microcontroller’s FlexRay
interface (one channel). In addition further pins of the MCU can be connected to the FlexRay
transceiver for Error-read out feature and power supply switching.
JP58 Connects FlexRay transceiver TXD pin to microcontroller FlexRay TXDA pin
JP59 Connects FlexRay transceiver TXEN pin to microcontroller FlexRay TXENA pin
JP62 Connects FlexRay transceiver RXD pin to microcontroller FlexRay RXDA pin
JP43 Selects FlexRay transceiver STBN pin to Vio or microcontroller pin.
JP66 Selects FlexRay transceiver EN pin to Vio or microcontroller pin.
JP51 Connects FlexRay transceiver ERRN pin to microcontroller pin.
Jumper
Setting
Description
JP58
Closed
TXDB of the MCU is connected to FR-B
(TXDB)
Open
JP59
Closed
(TXENB)
Open
JP62
Closed
(RXDB)
Open
JP43
1-2
STBN of the FR-B is connected to Vio-B.
(STBN-B)
2-3
STBN of the FR-B is connected to MCU pin.
JP66
1-2
EN of the FR-B is connected to Vio-B.
(EN-B)
2-3
EN of the FR-B is connected to MCU pin.
JP51
Closed
(ERRN-B)
Open
TXDB of the MCU is not connected to FR-B
TXENB of the MCU is connected to FR-B
TXENB of the MCU is not connected to FR-B
RXDB of the MCU is connected to FR-B
RXDB of the MCU is not connected to FR-B
ERRN of the FR-B is connected to MCU pin.
ERRN of the FR-b is not connected to MCU pin.
Default: grey
Table 3-11: FlexRay “Channel B” jumper settings
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Chapter 3 Jumpers and Switches
3.11 Reset-Generation
In addition to the internal Power-On reset, the microcontroller can be reset by an external
reset circuit (Voltage Monitor) and also by a RS232 interface.
JP28, 50, 71 As well the DTR-line as the RTS-Line of UART”A” or UART “B” or
UART “C”can be used to generate a system reset.
JP72
This jumper selects whether the DTR/RTS line from UART”A” or UART”B”
or UART “C”will generate a system reset.
JP13
This solder jumper selects between normal (immediate) reset and delayed reset.
In delayed reset mode, the reset button has to be held down for 2 sec before a
reset is generated to avoid accidental resets.
JP14
Open this jumper if no external Reset shall be generated.
In this case only the internal reset is active (e.g.: power-on)
JP33
The signal on the DTR/RTS line can be negated with this jumper.
Remove the jumper in order to disable the RS232 reset circuit.
Jumper
Setting
Description
1-2
DTR of UART”A” is selected
2-3
RTS of UART”A” is selected
1-2
DTR of UART”B” is selected
2-3
RTS of UART”B” is selected
1-2
DTR of UART”C” is selected
2-3
RTS of UART”C” is selected
1-2
UART”A” is used to generate Reset
3-4
UART”B” is used to generate Reset
5-6
UART”C” is used to generate Reset
JP13
1-2
Reset is applied immediately when SW6 is pressed
(Reset imm./delayed)
2-3
Reset is applied when SW6 is pressed >2sec
JP28 (DTR / RTS “A”)
JP50 (DTR / RTS “B”)
JP71 (DTR / RTS “C”)
JP72 (UART”A”/”B/C”)
JP14 (Main Reset)
JP33 (Polarity)
Closed
Open
External Reset generation is active
No external Reset generation
1-2
No negation for the DTR/RTS signal
2-3
DTR/RTS signal is negated
Default: grey
Table 3-12: Reset Jumper Settings
Note 1:
JP28, JP33, JP50, JP71 and JP72 default setting is
open.
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Chapter 3 Jumpers and Switches
Note 2:
While a reset signal is asserted the red Reset-LED D1
is lit.
During normal operation, this LED should be off!
If JP33 (Polarity) is set, JP72 and either JP28 or JP50
or JP71 have to be set, too.
If the reset LED is steadily on, check the power supply
input voltage and the settings for the reset-generation
by UART.
3.12 Buttons SW1, SW2, SW3, SW4, SW5, SW6, SW7
JP4, JP6, JP9, JP10, JP12
Five user push buttons SW1-SW5 can be connected to the microcontroller.
JP14
External reset circuit and button SW6 can be connected to the microcontroller.
JP70
Button SW7 can be connected to FlexRay Transceiver Local WAKE pin.
Jumper
JP4(SW1)
JP6 (SW2)
JP9 (SW3)
JP10 (SW4)
JP12 (SW5)
JP14(Reset)
JP70 (WAKE)
Setting
Description
Closed
Pin 74 (INT0) of the MCU is connected to “SW1”
Open
Closed
Open
Closed
Open
Closed
Open
Closed
Open
Closed
Open
No connection to the microcontroller
Pin 77 (INT1) of the MCU is connected to “SW2”
No connection to the microcontroller
Pin 53 (ATGX) of the MCU is connected to “SW3”
No connection to the microcontroller
Pin 2 (ICU0/TIN0) of the MCU is connected to “SW4”
No connection to the microcontroller
Pin 4 (ICU2/TIN2) of the MCU is connected to “SW5”
No connection to the microcontroller
INITX is connected to the reset IC and SW6
No connection to INITX
1-2
WAKE of FlexRay Transceiver Ch. A is connected to SW7
3-4
WAKE of FlexRay Transceiver Ch. B is connected to SW7
Default: grey
Table 3-13: Buttons Jumper settings
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Chapter 4 Programming the internal Flash
4 Programming the internal Flash
All Flash devices have an internal bootloader for asynchronous as well as synchronous
Flash-programming:
<
asynchronous-serial Flash-programming via X6 (UART A)
<
synchronous-serial Flash-programming via J4
4.1
Asynchronous Mode
To use the asynchronous Flash programming mode, follow these steps:
1. Install the FME FR Flash programmer.
2. Connect the Starterkit (UART A) to the PC using a 1:1 cable.
3. Start the Flash programmer by double-clicking on the flashprg.exe icon
4. Select appropriate MCU type, COM-Port, baudrate, and the path to your HEX-File
(.mhx)
5. Power-off the board or assert and hold RESET
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Chapter 4 Programming the internal Flash
6. Press the “Automatic” button to start programming and release the RESET button or
power up the board.
CAUTION : DO NOT INTERRUPT OR CUT OFF POWER DURING ERASE !!!
7. When download and programming is completed successfully, following screen
appears:
8. After successful programming, reset or Power off/on the board to start the application.
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Chapter 4 Programming the internal Flash
4.2
Synchronous Mode
In order to program the Flash-ROM synchronously special third-party soft- and hardware has
to be used, e.g. GALEP-4 from www.conitec.de. This tool is not available for free.
A dedicated Flash programming socket (J4) is provided on the evaluation-board for direct
connection to this programmer.
n/c 1
2 n/c
MD0 3
4 MD2
RST 5
6 SIN4
SOT4 7
8 SCK4
VCC 9
10 GND
Figure 4-1: J4 Flash programming socket
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Chapter 5 Connectors
5 Connectors
5.1
Power Connector (X13)
The following figure shows the power connection jack of the starter kit. This connector is
used to connect an external unregulated DC power supply voltage (12V DC max. 2600mA).
Shield is connected to positive voltage supply (+)
Centre is connected to ground (GND)
Figure 5-1: Power Connector
5.2
Edge connector (X4, X5)
All pins (except oscillator Pins) of the microcontroller are directly connected to X4 and X5 as
follows:
Connector
MCU Pins
X4 (1 – 50)
1 – 50
X25 (51 – 100)
51 – 100
Table 5-1: MCU Pin Connectors
The odd pin numbers are located on the one side and the even pin numbers are located on
the other side of the connector.
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Chapter 5 Connectors
5.3
UART / LIN Connector (X6, X8, X12)
Three 9-pin D-Sub female connectors are used for the serial interfacesUART4 (X6),
LIN/UART6 (X12) and LIN/UART7(X8).
Take care, that the RS232 as well as the LIN signals are shared at the connectors and have
to be selected by jumpers.
Figure 5-2: UART Connector
Pin Number
1
2
3
4
5
6
7
8
9
Shield
Pin Signal
+VBat
TXD
LIN
RXD
DTR
GND
DSR
RTS
CTS
LGND
GND
Description
Power from LIN bus
RS-232 transmit output
Bi-directional LIN-interface
RS-232 receive input
Connected to DSR (pin 6)
Ground normally used for RS232 connection
Connected to DTR (pin 4)
Can be connected with CTS by jumper
Can be connected with RTS by jumper
Ground normally used for LIN connection
Ground
Table 5-2: UART Connector Signals
Note:
Connector X6 is connected to RS232, only.
Connector X8 and X12 can be connected to RS232 or
LIN.
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Chapter 5 Connectors
5.4
CAN Connector (X1, X2)
Two 9-pin D-Sub male connectors are used for the CAN interfaces CAN0 and CAN4.
Figure 5-3: CAN Connector
Pin Number
1
2
3
4
5
6
7
8
9
Shield
Pin Signal
NC
CANL
GND
NC
NC
NC
CANH
NC
NC
GND
Description
Not used
LOW-level CAN voltage input/output
Ground
Not used
Not used
Not used
HIGH-level CAN voltage input/output
Not used
Not used
Ground
Table 5-3: CAN Connector Signals
5.5
FlexRay Connector (X3, X7)
Two 9-pin D-Sub male connectors are used for the two FlexRay channels A and B.
Figure 5-4: FlexRay Connector
Pin Number
1
2
3
4
5
6
7
8
9
Shield
Pin Signal
NC
BM
GND
NC
User
NC
BP
NC
NC
Shield
Description
Not used
Bus line Minus
Ground
Not used
Connected to Jumper (CH-A: JP30; CH-B: JP17)
Not used
Bus line Plus
Not used
Not used
Connected to GND via Jumper
(CH-A: JP39; CH-B: JP23)
Table 5-4: FlexRay Connector Signals
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Chapter 5 Connectors
5.6
USER-LEDs & optional LC-Display
Eight LEDs are supplied for user applications. In order to disconnect the LEDs from the
related microcontroller port (Port 16_D0..D3, P27_D0..D3), the resistor networks RN1 and
RN2 can be removed.
Instead of the user-LEDs an alphanumeric LC-Display (optional) can be connected.
The following control signals are provided:
16
14
13
12
11
10
9
8
7
6
5
4
3
LCD VLSS VLED
D7
D6
D5
D4
-
-
-
-
E
R/W
RS
V0
LED
D15
D14
D13
D9
D8
D6
D4
D3
MCU
23
22
21
20
19
18
17
16
Port
15
27_3 27_2 27_1 27_0
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SK-91465X-100PMC User Guide
Chapter 5 Connectors
5.7
In-Circuit-Programming Connector (J4)
There is a Flash-programming socket on the starter kit which makes it possible to program
the Flash MCU with a special programming adapter. Mode pins and reset signal is also
available at this connector.
Figure 5-5: In Circuit Programming Connector
Pin Number
1
2
3
4
5
6
7
8
9
10
Pin Signal
NC
NC
MD0
MD2
INITX
SIN4
SOT4
SCK4
VCC
GND
Description
Not used
Not used
MCU mode-pin 0
MCU mode-pin 2
MCU reset signal
UART4 receive data
UART4 transmit data
UART4 clock
Board supply voltage
Ground
Table 5-5: In-Circuit Programming Connector
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Chapter 5 Connectors
5.8
VG96 connector (J1)
Connector-Pin cross-reference:
MCU
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
J1
4A
4B
4C
5A
5B
5C
6A
6B
6C
7A
7B
7C
8A
8B
8C
9A
9B
9C
10A
3A,B,C
10B
10C
11A
11B
11C
12A
12B
12C
13A
13B
13C
14A
3A,B,C
14B
14C
15A
15B
15C
16A
16B
-
Function
VDD5
P23_0
P23_1
P31_0
P31_1
P31_2
P31_3
P31_4
P31_5
P15_4
P15_5
VDD5R
VCC18C
VSS5
VDD5
P16_0/PPG8
P16_1/PPG9
P16_2/PPG10
P16_3/PPG11
P27_0/AN16
P27_1/AN17
P27_2/AN18
P27_3/AN19
P28_0/AN8
VDD5
VSS5
P28_1/AN9
P28_2/AN10
P28_3/AN11
P28_4/AN12
AVCC5
AVRH5
AVSS5
P29_0/AN0
P29_1/AN1
P29_2/AN2
P29_3/AN3
P29_4/AN4
P29_5/AN5
P29_6/AN6
P29_7/AN7
VSS5
P22_4/SDA0
P22_5/SCL0
P19_0/SIN4
P19_1/SOT4
P19_2/SCK4
P17_0/PPG0
P17_1/PPG1
VDD5
Evaboard
MCU
51
VDD5
52
JP15 (CAN B)
53
JP16 (CAN B)
54
JP45 (TXD-A)
55
JP46 (TXEN-A)
56
JP48 (RXD-A)
57
JP58 (TXD-B)
58
JP59 (TXEN-B)
59
JP62 (RXD-B)
60
JP51 (ERRN-B)
61
JP66 (EN-B)
62
VDD5R
63
JP40 (C50, C29)
64
GND
65
VDD5
66
LED D3
67
LED D4
68
LED D5
69
LED D6
70
LED D7
71
LED D8
72
LED D9
LED D10
73
74
75
VDD5
76
GND
77
78
79
80
81
AVCC5
82
AVRH5
83
AVSS5
84
85
86
87
88
89
90
91
92
GND
JP18 (Pullup 10k) 93
JP22 (Pullup 10k) 94
95
JP26 (UART A)
96
JP29 (UART A)
97
X17
98
99
100
GND
J1
3A,B,C
16C
17A
17B
17C
18A
18B
18C
19A
19B
19C
20A
3A,B,C
20B
20C
21A
21B
21C
22A
22B
22C
23A
23B
3A,B,C
23C
24A
24B
24C
25A
25B
25C
26A
26B
26C
27A
27B
27C
28A
28B
3A,B,C
3A,B,C
Function
VSS5
INITX
P16_7/ATGX
P17_2/PPG2
P17_3/PPG3
P17_4/PPG4
P18_0/SIN6
P18_1/SOT6
P18_2/SCK6
P18_4/SIN7
P18_5/SOT7
P18_6/SCK7
VDD5
VSS5
P17_5/PPG5
P17_6/PPG6
P17_7/PPG7
P15_0/OCU0/TOT0
P15_1/OCU1/TOT1
P15_2/OCU2/TOT2
P15_3/OCU3/TOT3
P22_0/RX4/INT12
P22_1/TX4
P24_0/INT0
VSS5
VDD5
P24_1/INT1
P24_2/INT2
P24_3/INT3
P24_4/INT4
P24_5/INT5
P24_6/INT6
P24_7/INT7
P14_0/ICU0
P14_1/ICU1
P14_2/ICU2
P14_3/ICU3
P14_4/ICU4
P14_5/ICU5
P14_6/ICU6
P14_7/ICU7
MD0
X0A
X1A
VSS5
X1
X0
MD1
MD2
VSS5
Evaboard
GND
JP14 (Reset)
JP9 (SW3)
JP21 (UART C)
JP22 (UART C)
JP38 (UART B)
JP39 (UART B)
VDD5
GND
JP41 (STBN-A)
JP47 (ERRN-A)
JP61 (EN-A)
JP43 (STBN-B)
JP 5 (CAN A)
JP 8 (CAN A)
JP4 (SW1)
GND
VDD5
JP6 (SW2)
JP10 (SW4)
JP12 (SW5)
Pulldown 1k
Crystal 32kHz
Crystal 32kHz
GND
Crystal 4MHz
Crystal 4MHz
Pulldown 1k
Pulldown 1k
GND
Table 5-6: VG96 (J1) Signals
UG-910056-10
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© Fujitsu Microelectronics Europe GmbH
SK-91465X-100PMC User Guide
Chapter 6 Silk-Plot of the Board
6 Silk-Plot of the Board
6.1
Silk-plot Top-side
Figure 6-1: Silk-plot top side
© Fujitsu Microelectronics Europe GmbH
- 33 -
UG-910056-10
SK-91465X-100PMC User Guide
Chapter 6 Silk-Plot of the Board
6.2
Silk-plot bottom side
Figure 6-2: Silk-plot Bottom side
UG-910056-10
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© Fujitsu Microelectronics Europe GmbH
SK-91465X-100PMC User Guide
Chapter 7 Related Products
7 Related Products
<
SK-91465X-100PMC
Evaluation board for the MB91F465X MCU
in FPT-100P-M20 package
<
MB2198-01
Emulator debugger main unit
<
MB2198-10
DSU cable
<
EMA-MB91V460A-00x
Emulation Pod including MB91V460A
<
EMA-MB91V460A-100
FlexRay extension board
<
EMA-MB91465X-NLS-100M20 Emulator probe cable for MB91F465X MCU
<
NQPack100SD-ND
Socket for package FPT-100P-M20
(Tokyo Eletech Corp. www.tetc.co.jp/e_tet.htm)
<
HQPack100SD
Header for NQPACK100SD
<
MB91460 Series
<
MB91V460A
MB91460 Series Evaluation chip
<
MB91F465XAPMC
Flash MCU
© Fujitsu Microelectronics Europe GmbH
- 35 -
UG-910056-10
SK-91465X-100PMC User Guide
Chapter 8 Appendix
8 Appendix
8.1
Tables
Table 2-1: Default jumper settings........................................................................................ 11
Table 3-1: MCU operating mode .......................................................................................... 13
Table 3-2: Power supply jumper settings.............................................................................. 15
Table 3-3: Jumper Settings FlexRay power switching .......................................................... 15
Table 3-4: Jumper settings for Analogue Power supply........................................................ 16
Table 3-5: UART “A” jumper settings ................................................................................... 17
Table 3-6: UART “B”/ LIN “A” jumper settings ...................................................................... 18
Table 3-7: UART “C”/ LIN “B” jumper settings ...................................................................... 19
Table 3-8: CAN “A” jumper settings...................................................................................... 19
Table 3-9: CAN “B” jumper settings...................................................................................... 19
Table 3-10: FlexRay “Channel A” jumper settings ................................................................ 20
Table 3-11: FlexRay “Channel B” jumper settings ................................................................ 21
Table 3-12: Reset Jumper Settings ...................................................................................... 22
Table 3-13: Buttons Jumper settings................................................................................... 23
Table 5-1: MCU Pin Connectors .......................................................................................... 27
Table 5-2: UART Connector Signals .................................................................................... 28
Table 5-3: CAN Connector Signals ...................................................................................... 29
Table 5-4: FlexRay Connector Signals................................................................................. 29
Table 5-5: In-Circuit Programming Connector ...................................................................... 31
Table 5-6: VG96 (J1) Signals ............................................................................................... 32
UG-910056-10
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© Fujitsu Microelectronics Europe GmbH
SK-91465X-100PMC User Guide
Chapter 8 Appendix
8.2
Figures
Figure 2-1: AC plug adapter ................................................................................................... 9
Figure 2-2: AC plug adapter selection .................................................................................... 9
Figure 2-3: DC voltage selection ............................................................................................ 9
Figure 2-4: Low voltage adapter selection.............................................................................. 9
Figure 2-5: Jumper Coordinates........................................................................................... 12
Figure 3-1: MCU Mode Switch ............................................................................................. 13
Figure 4-1: J4 Flash programming socket ............................................................................ 26
Figure 5-1: Power Connector ............................................................................................... 27
Figure 5-2: UART Connector................................................................................................ 28
Figure 5-3: CAN Connector.................................................................................................. 29
Figure 5-4: FlexRay Connector ............................................................................................ 29
Figure 5-5: In Circuit Programming Connector ..................................................................... 31
Figure 6-1: Silk-plot top side................................................................................................. 33
Figure 6-2: Silk-plot Bottom side .......................................................................................... 34
© Fujitsu Microelectronics Europe GmbH
- 37 -
UG-910056-10
SK-91465X-100PMC User Guide
Chapter 9 Recycling
9 Recycling
Gültig für EU-Länder:
Gemäß der Europäischen WEEE-Richtlinie und deren Umsetzung in landesspezifische
Gesetze nehmen wir dieses Gerät wieder zurück.
Zur Entsorgung schicken Sie das Gerät bitte an die folgende Adresse:
Fujitsu Microelectronics Europe GmbH
Warehouse
Monzastraße 4a
63225 Langen
Valid for European Union Countries:
According to the European WEEE-Directive and its implementation into national laws we
take this device back.
For disposal please send the device to the following address:
Fujitsu Microelectronics Europe GmbH
Warehouse
Monzastraße 4a
63225 Langen
-- END -UG-910056-10
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© Fujitsu Microelectronics Europe GmbH