Fujitsu Microelectronics Europe
FMEMCU-UG-960014-10
User Guide
MB96300 SERIES
EVALUATION BOARD
SK-96370-144PMC-GDC
USER GUIDE
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SK-96370-144PMC-GDC 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-96370-144PMC-GDC Board and all its deliverables (e.g.
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 unauthorized decompiling and/or reverse
engineering and/or disassembling. Note, the SK-96370-144PMC-GDC Board 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.
4.
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.
To the maximum extent permitted by applicable law, Fujitsu Microelectronics Europe GmbH´s
and its supplier’s liability are 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
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Contents
0 Contents
REVISION HISTORY............................................................................................................ 2
WARRANTY AND DISCLAIMER ......................................................................................... 3
0 CONTENTS...................................................................................................................... 4
1 OVERVIEW...................................................................................................................... 6
1.1 Abstract................................................................................................................... 6
1.2 Features.................................................................................................................. 7
1.3 General Description................................................................................................. 8
2 INSTALLATION............................................................................................................. 10
2.1 Connection/Power-On........................................................................................... 10
2.2 Default Jumper settings for MB96370 Series......................................................... 11
2.3 Jumper Location.................................................................................................... 13
3 JUMPERS AND SWITCHES.......................................................................................... 14
3.1 Operating Mode (S1)............................................................................................. 14
3.2 Power Supply (S2, JP: 8, 15, 16, 17, 22)............................................................... 15
3.3 Subclock (JP: 1, 2) ................................................................................................ 16
3.4 Analog Power Supply Voltage (JP: 11, 12, 13, 14) ................................................ 17
3.5 Alarm Comparator (JP: 85).................................................................................... 17
3.6 Reset Generation (JP: 33, 41, 46, 47, 48) ............................................................. 18
3.7 User Buttons SW1, SW2, SW3, SW4, SW5, SW6 (JP: 3, 4, 5, 6, 7)...................... 19
3.8 I2C pull-up resistor (JP: 9, 10)................................................................................ 19
3.9 LIN / UART............................................................................................................ 20
3.10 CAN interfaces (JP: 24, 26, 34, 35) ....................................................................... 21
3.11 External Flash memory (JP: 49, 52, 56) ................................................................ 22
3.12 External SRAM memory (JP: 50, 53, 59)............................................................... 22
3.13 Graphic Display Controller interface (JP: 54, 55, 56, 57, 58, 60, 85, 86)................ 23
4 CONNECTORS.............................................................................................................. 24
4.1 Power connector (X7)............................................................................................ 24
4.2 MCU pin header connectors (X20A, X20B, X21, X22 and X23)............................. 24
4.3 LIN-UART connectors (X5, X9) ............................................................................. 24
4.4 CAN Connector (X6, X8) ....................................................................................... 25
4.5 USER-LEDs & optional LC-Display (J1) ................................................................ 26
4.6 In-Circuit-Programming Connector (X4) ................................................................ 27
4.7 Alarm Comparator Connector (J2)......................................................................... 28
4.8 External Supply Voltage Vin (J3)........................................................................... 28
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Contents
4.9 Vcc 5 Volts (J4)..................................................................................................... 28
4.10 Vcc 3.3 Volts (J5) .................................................................................................. 28
4.11 Vcc 2.5 Volts (J9) .................................................................................................. 28
4.12 Vcc 1.8 Volts (J10) ................................................................................................ 28
4.13 LIN Bus Inhibit (J6)................................................................................................ 28
4.14 LIN Bus Inhibit (J11).............................................................................................. 28
4.15 VCC Connector (J7).............................................................................................. 28
4.16 GND Connector (J8).............................................................................................. 28
5 PROGRAMMING THE INTERNAL FLASH MEMORY................................................... 29
5.1 Asynchronous Mode.............................................................................................. 29
5.2 Synchronous Mode ............................................................................................... 31
6 APPENDIX..................................................................................................................... 32
6.1 Related Products................................................................................................... 32
7 INFORMATION IN THE WWW....................................................................................... 33
8 CHINA-ROHS REGULATION........................................................................................ 34
9 RECYCLING .................................................................................................................. 36
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Chapter 1 Overview
1 Overview
1.1 Abstract
The SK-96370-144PMC-GDC is a multifunctional evaluation board for the Fujitsu 16FX
Flash microcontroller MB96370 Series.
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.
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Chapter 1 Overview
1.2 Features
< Supports Fujitsu’s 16FX MB96370 Series with 144 pin PMC / M08 package
or the MB2198 Emulator System with the Probe Cable MB2198-507-E.
< 9-15V unregulated external DC power supply
< On-board 3.3V switching mode voltage regulator
< Power-LEDs for all supply voltages
< Onboard voltage supervisor monitor
< In-Circuit serial Flash programming (UART0 or UART2)
< All resources available for evaluation
< All MCU pins routed to connectors
< 4 MHz main crystal
< 32 kHz crystal for sub clock operation
< Two RS232- or LIN interfaces
< Two CAN interfaces
< 3 V capable CAN, LIN, and RS232 transceivers
< 8 User LEDs
< Optional: alphanumeric standard LC-Display connectable instead of LEDs
< Reset button, Reset LED
< 5 User buttons
< 8 MByte FLASH
< 2 MByte SRAM
< Connector for Fujitsu Graphic-Controller boards (e.g.: CREMSON-STARTERKITLIME)
< External bus interface routed to 96 pin and 48 pin DIN 41612 (VG) connectors
< Power Supply: 5V, 3.3V, 2.5V and 1.8V
This board must only be used for test applications
in an evaluation laboratory environment.
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Chapter 1 Overview
1.3 General Description
The SK-96370-144PMC-GDC supports the F2MC-16FX microcontrollers of MB96370 Series
with LQFP144-M08 (PMC) package.
It can be used as a stand-alone evaluation board or as a target board for the emulator
debugger.
1.3.1 MCU Clocks
The board is supplied with a socketed 4 MHz crystal as main oscillation source. Using the
internal PLL of the µC, internal clock rates up to 56 MHz can be achieved.
1.3.2 RS-232 and LIN
Two separate RS232 transceivers and two single-wire LIN-transceivers (TLE7259) are
available to connect two out of three on-chip UARTs to 9-pin D-Sub connectors (X5, X9).
The transceivers generate the adequate RS232 levels for the receive (RXD) and transmit
(TXD) and LIN bus lines. In RS232 mode, either the DTR line or the RTS line can be
selected with jumpers (JP23 and JP38) to generate a system reset. The RTS signal can be
shortcut to CTS using the jumpers JP19 and JP36. Each of the four D-Sub connectors can
be configured as RS232 or LIN. The LIN Vs line can be powered by the unregulated supply
input of the board, so no additional supply is needed (JP28 and JP42).
All transceivers are fully 3.3V IO compatible to enable low voltage applications.
In-circuit programming (asynchronous) can be done via LIN-UART 0 and 2 (X5, X9).
1.3.3 CAN Bus
Two high-speed CAN transceivers (TLE6250GV33) can be connected to the CAN interfaces
of the MCU to allow easy connection to CAN networks.
All transceivers are fully 3.3V IO compatible to enable low voltage applications.
1.3.4 MCU Pins
All pins of the microcontroller except the oscillator pins X0/X1 and X0A/X1A are connected
to edge connectors and are directly available to the user.
1.3.5 Power Supply
The on-board switching mode voltage regulators allow the user to connect an unregulated
DC input voltage of +9V to +15V, and supplies all voltages needed by the board and an
optional graphic sub-board. The regulators are rated with 3A (5V and 3.3V) resp. 1.5A (2.5V,
1.8V) and are thermally protected against overload.
1.3.6 User Buttons
There are six push button switches on the board, which can be connected to input ports of
the microcontroller. This allows the user to evaluate external Interrupts, external timer trigger
or Input Capture functions as well as simple input polling. One button is reserved as ‘Reset’-
button for the microcontroller, controlled by the supply monitor IC.
1.3.7 User LEDs and optional LCD
Eight user LEDs are connected to Port 09 and grounded by two 1k resistor networks (RN1,
RN2). If these LEDs are not required, these resistor networks can be removed to disconnect
the LEDs and to free the I/O port.
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Chapter 1 Overview
1.3.8 I2C Bus
Additional 10 kOhm pull-up resistors can be connected to the I²C bus lines by setting the
according jumpers. JP9 is for SDA0 and JP10 for SCL0.
1.3.9 Emulator System
If the board is used as an emulator target board, the microcontroller must be removed from
the socket and the corresponding probe cable has to be mounted:
Series
V-Chip
Probe cable
Socket
NQPACK144SD-ND
HQPACK144SD
MB96370
MB96V300B
MB2198-507-E
Table 1-1: Emulation System
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Chapter 2 Installation
2 Installation
2.1 Connection/Power-On
Carefully remove the board from the shipping carton.
First, check if there are any damages before powering up the evaluation board.
For the power supply a DC input voltage of 9V – 15V is recommended. The positive
voltage (+) must be connected to the center pin, and ground (GND) must be
connected to the shield of the connector X7!
After power-on (Switch S2 or JP22), the red power-on LEDs (LD9, LD10, LD11, and LD12)
should be lit. If the LEDs do not light up, switch off the power supply and check input polarity
and current capability of the DC supply used. Please do not look directly into the LEDs to
prevent harming your eyes.
The in-circuit programming allows the user to program own applications into the Flash
memory. The procedures for Flash programming are described in chapter 5.
If the board shall be used as an emulator target board, switch off the power supply and
remove the microcontroller from the socket. Now the probe cable can be mounted on the
socket. Take care of the pin 1 marking on the socket and fasten the probe cable with the
provided screws.
Do not use any other probe cable than MB2198-507-E only!
Connect the probe cable to the MB2198-500 emulation Adapter Board. Check all jumper
settings of the evaluation board, the Probe Cable, and the Adapter Board.
When turning on the system, be sure to use the following power-up sequence:
1. Power up the Emulator Main Unit (MB2198-01)
2. Power up the Adapter Board (MB2198-500), if needed
3. Power up the target Board (SK-96370-144PMC-GDC)
To turn off the system, switch off the components in reverse order, beginning with the target
Board.
Please refer to the corresponding user manuals and application notes for the emulator how
to set up the emulator system. After power on the ‘UVCC’-LED of the emulator must be on.
Note:
Some customers experience connectivity problems when connecting the MCU into
the socket adapter. Only the small red screwdriver available in your box should be
used to connect the cover (HQPACK) onto the socket (NQPACK).
If the four screws are not tightening equally, then it may cause a poor contact.
Do not screw the cover too tight (max 0.054 Nm). If you have connectivity problems
then please loosen the screws and tighten again the screws equally.
Do not clean NQPACK, YQPACK, and YQSOCKET with steam. Cleaning material will
contaminate inside of connector.
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Chapter 2 Installation
2.2 Default Jumper settings for MB96370 Series
The following table lists all jumpers including its default setting and location on the starterkit.
Default
Setting
Jumper
Description / Function
Type
Coordinates
JP1
JP2
X1A
X0A
Jumper 3 pin
Jumper 4 pin
Jumper 2 pin
Jumper 2 pin
Jumper 2 pin
Jumper 2 pin
Jumper 2 pin
Jumper 2 pin
Jumper 2 pin
Jumper 2 pin
Jumper 2 pin
Jumper 2 pin
Jumper 2 pin
Jumper 2 pin
1-2
J 10
J 10
G 6
1-2
JP3
Switch SW1 : INT0/NMI
Switch SW2 : INT5
Switch SW3 : TIN1
Switch SW4 : IN0 / TTG4/0
Switch SW5 : IN1 / TTG5/1
C pin
Closed
Closed
Closed
Closed
Closed
Closed
Open
JP4
G 6
JP5
H 6
JP6
H 6
JP7
H 6
JP8
I 14
G 15
G 15
J 16
J 15
J 15
K 15
JP9
SDA0 pull-up
SCL0 pull-up
AVCC
JP10
JP11
JP12
JP13
JP14
Open
Closed
Closed
Closed
Closed
AVRH
AVRL
AVSS
Voltage selection for MCUVCC
(3.3V only for SK-96370-144PMC-GDC with extern. memory)
2-3
Do not change!
JP15
Jumper 3 pin
J 17
JP16
JP17
JP18
JP19
JP20
JP21
JP22
JP23
JP24
JP25
JP26
JP27
JP28
JP29
JP30
JP31
JP32
JP33
JP34
JP35
JP36
JP37
JP38
JP39
JP40
JP41
MCUVCC
DVCC
Jumper 2 pin
Jumper 3 pin
Jumper 2 pin
Jumper 2 pin
Solder JP 3 pin
Jumper 3 pin
Jumper 2 pin
Jumper 3 pin
Jumper 2 pin
Jumper 3 pin
Jumper 2 pin
Jumper 3 pin
Jumper 2 pin
Jumper 2 pin
Solder JP 3 pin
Jumper 2 pin
Solder JP 3 pin
Jumper 3 pin
Jumper 2 pin
Jumper 2 pin
Jumper 2 pin
Jumper 3 pin
Jumper 3 pin
Jumper 3 pin
Jumper 3 pin
Jumper 3 pin
Closed
2-3
K 17
L 12
L 10
I 3
DVSS
Closed
Closed
1-2
UART0 : CTS / RTS
CAN0 Transceiver type
SIN0 : RS232 / LIN transceiver
Mains Switch
D 4
H 5
L 17
H 3
D 4
I 5
1-2
Open
Open
Closed
1-2
UART0 : DTR / RTS
CAN0 RxD
SOT0 : RS232 / LIN transceiver
CAN0 TxD
Closed
1-2
D 3
I 3
UART0 : RS232 / LIN
UART0 : LIN VBat
UART0 : LIN-Enable
LIN0 Transceiver type
UART0 : LIN Master
CAN1 Transceiver type
Reset by UART 0 / 2
CAN1 RxD
Open
Open
1-2
H 3
I 3
I 5
Open
1-2
J 3
G 4
J 5
Open
Closed
Closed
Closed
1-2
G 4
G 3
K 3
K 5
K 3
K 5
K 3
J 7
CAN1 TxD
UART2 : CTS / RTS
SIN2 : RS232 / LIN
UART2 : DTR / RTS
SOT2 : RS232 / LIN
UART2 : RS232 / LIN
UART Reset / Inverter
Open
1-2
1-2
Open
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Chapter 2 Installation
Default
Setting
Jumper
Description / Function
Type
Coordinates
JP42
JP43
JP44
JP45
JP46
JP47
JP48
JP49
JP50
JP52
JP53
JP54
JP55
JP56
JP57
JP58
JP59
JP60
JP70
JP71
JP85
UART2 : LIN VBat
UART2 : LIN-Enable
Jumper 2 pin
Jumper 2 pin
Solder JP 3 pin
Jumper 2 pin
Solder JP 3 pin
Solder JP 3 pin
Jumper 2 pin
Jumper 3 pin
Jumper 3 pin
Jumper 3 pin
Jumper 3 pin
Solder JP 2 pin
Solder JP 2 pin
Jumper 4 pin
Jumper 2 pin
Solder JP 2 pin
Jumper 3 pin
Solder JP 2 pin
Solder JP 2 pin
Solder JP 2 pin
Jumper 2 pin
Open
Open
1-2
K 3
L 3
LIN2 Transceiver type
UART2 : LIN Master
L 5
Open
1-2
M 3
J 7
Direct Reset / Delayed
Voltage Monitor
2-3
J 8
MCU Reset
Closed
1-2
J 8
FLASH : Word / Byte access
SRAM : Word / Byte access
FLASH : 16-bit / 8-bit interface
SRAM : 16-bit / 8-bit interface
Set A24 to GND for GDC interface
Set A25 to GND for GDC interface
FLASH / LIME
D 13
F 13
D 13
F 13
C 15
C 16
E 14
E 14
C 4
1-2
1-2
1-2
Closed
Closed
2-4
Select CS3/CS2 for GDC interface
Supply 1V8 to GDC interface
SRAM
Open
Closed
2-3
E 13
C 8
External Vin
Open
Closed
Closed
Closed
Manual GDC reset (GLRST)
Manual GDC reset (FLRST)
ALARM0
C 7
C 7
L 15
Table 2-1: Jumper Settings
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Chapter 2 Installation
2.3 Jumper Location
The following picture shows the silk plot of the starter-kit with marked default jumper
settings.
A
B
C
D
E
F
G
H
I
J
K
L
M
1
2
1
2
3
3
4
4
5
5
6
6
7
7
8
8
9
9
10
11
12
13
14
15
16
17
18
19
20
10
11
12
13
14
15
16
17
18
19
20
A
B
C
D
E
F
G
H
I
J
K
L
M
Figure 2-1: Default Jumper Settings
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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 is shown with a grey shaded area.
3.1 Operating Mode (S1)
This switch controls the MCU operation mode after Reset.
Please take care of the following mode settings:
DIP switch
Setting
Logical value
1 (high)
ON (closed)
OFF (open)
S1-1
(MD0)
0 (low)
ON (closed)
OFF (open)
ON (closed)
1 (high)
0 (low)
1 (high)
S1-2
(MD1)
S1-3
(MD2)
OFF (open)
ON (closed)
OFF (open)
0 (low)
Not connected
Not connected
S1-4
(Not used)
Table 3-1: MCU Operating Mode
MD0 MD1 MD2 nc
ON
DIP-Switch S1
(RUN Mode)
OFF
1 2 3 4
Figure 3-1: MCU mode switch: RUN mode (Fixed Vector Mode)
MD0 MD1 MD2 nc
ON
DIP-Switch S1
OFF
(Programming Mode)
1 2 3 4
Figure 3-2: MCU mode switch: Flash Programming mode
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Chapter 3 Jumpers and Switches
3.2 Power Supply (S2, JP: 8, 15, 16, 17, 22)
The on-board voltage regulator provides stabilized 5V *1 and 3.3V supplies to the MCU *1 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 jumpers. 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.
S2
Power Switch
JP8 Core power supply stabilization capacitor
JP15 Selects the power supply voltage for the microcontroller
For SK-96370-144PMC-GDC use only 3.3V, because of the external memory
JP16 Connects the power supply voltage to the microcontroller. An ampere meter can be
used instead for power consumption measurement.
JP17 Selects the Stepper Motor Driver Voltage (3.3V or 5V)
JP22 Jumper to override the power switch S2
Jumper
Setting
Closed
Open
Description
An external capacitor is connected
An external capacitor is not connected
JP8
(C-pin)
Power supply (VCC) for MCU is set to 5V
(Not allowed for SK-96370-144PMC-GDC)
JP15 *1
1 - 2
(MCUVCC)
2 - 3
1 - 2
Power supply (VCC) for MCU is set to 3V3
MCU is disconnected from VCC
JP16
(MCUVCC)
2 - 3
MCU is connected to VCC
1 - 2
SMC (DVCC) supply voltage is set to 5V
SMC (DVCC) supply voltage is set to 3.3V
Board is always switched on
JP17
(DVCC)
2 - 3
Closed
Open
JP22
(Mains)
Board power is controlled by switch S2
Table 3-2: Power Supply Configuration
By default, all Board supplies are set to 3.3V.
*1 For SK-96370-144PMC-GDC use only 3.3V, because of the external memory
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Chapter 3 Jumpers and Switches
3.3 Subclock (JP: 1, 2)
Some devices like e.g. MB96F37xRW support a 32 kHz sub-clock (X0A, X1A), other devices
like e.g. MB96F37xRS do not support a sub-clock but will offer additional port-pins (e.g.
P04_0, P04_1) instead.
Please check the related datasheet.
3
Pin-out JP2:
JP1: defines usage of pin 69 (X1A)
JP2: defines usage of pin 68 (X0A)
4
1
2
Jumper
Setting
1-4
Description
Pin 68 is connected to the 32 kHz sub-clock (X0A)
Pin 68 is used as port pin P04_0
JP2
2-4
(X0A)
Pin 68 is connected to GND (in case that subclock-
device is used, but no 32 kHz crystal is connected)
3-4
1-2
2-3
Pin 69 is connected to the 32 kHz sub-clock (X1A)
Pin 69 is used as port pin P04_1
JP1
(X1A)
Default: JP1: 1-2, JP2: 1-4
By default, the 32 kHz sub-clock-crystal is connected to the microcontroller.
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Chapter 3 Jumpers and Switches
3.4 Analog Power Supply Voltage (JP: 11, 12, 13, 14)
The power supply as well as the positive reference voltage for the A/D-converter can be
provided internally or externally.
JP11, JP14 connects analog power supply voltages (AVcc and AVss)
JP12
JP13
connects the low pass filtered analog reference voltage AVRH to AVcc
connects the low pass filtered analog reference voltage AVRL to AVss
Jumper
Setting
Closed
Open
Description
AVcc is connected to Vcc
JP11
(AVcc)
AVcc is disconnected from Vcc
AVRH is connected to AVcc
AVRH defined by resistor network*1
AVRL is connected to AVss
AVRL defined by resistor network*1
AVss is connected to GND
AVss is disconnected from GND
Closed
Open
JP12
(AVRH)
Closed
Open
JP13
(AVRL)
Closed
Open
JP14
(AVss)
*1By default the resistor network (R16, R17, R20, R21) is not mounted on the board
Table 3-3: ADC Supply
Default: JP11, JP12, JP13, and JP14 are closed
By default, the A/D-converter supply and reference voltage is the same as the
microcontroller supply voltage.
Note:
If JP11 and JP14 are open, the user has to supply an adequate analog voltage supply (AVcc
and AVss) to the A/D-converter.
If JP12 and JP13 are open, the resistors R16, R17, R20, and R21 define AVRH and AVRL.
By default the resistor network (R16, R17, R20, and R21) is not mounted on the board.
3.5 Alarm Comparator (JP: 85)
Potentiometer RP2 is connected to ALARM0 in order to evaluate comparator 0 of the
microcontroller. Any voltage between VCC and GND can be set. Additionally the adjusted
voltage can be measured at connector J2.
JP78 One potentiometer can be connected to the ALARM0/AN8
Jumper
Setting
Closed
Open
Description
Pin 26 (ALRAM0/AN8) of the MCU is connected to RP2
Pin 26 (ALRAM0/AN8) of the MCU is not connected
JP85
(ALARM0)
Table 3-4: Alarm Comparator
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Chapter 3 Jumpers and Switches
3.6 Reset Generation (JP: 33, 41, 46, 47, 48)
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. Refer to the chapter ‘LIN /
UART Connectors (X5 or X9)’ for DTR / RTS selection.
JP33
JP41
Selects X5 or X9 as reset source.
The signal on the DTR/RTS line can be negated with this jumper.
Remove the jumper in order to disable the RS232 reset circuit.
JP46
JP47
JP48
Selects the mode of the reset button SW6.
A voltage supply monitor allows monitoring of 1V8 or 2V5 power supply.
Open this jumper if no external Reset shall be generated.
In this case only the internal reset is active (e.g.: power-on).
Jumper
Setting
1-2
Description
X5 (UART0) is used to generate Reset
X9 (UART2) is used to generate Reset
No polarity inversion for the DTR/RTS signal
Polarity inversion for the DTR/RTS signal
Reset is applied immediately when SW6 is pressed
Reset is applied when SW6 is pressed > 2sec
The voltage supply monitor observes 1V8
The voltage supply monitor observes 2V5
External reset generation is active
JP33
(UART RESET)
2-3
1-2
JP41
(DTR / DTRx)
2-3
1-2
JP46
(Reset imm./delayed)
2-3
1-2
JP47
(Monitor 1V8 / 2V5)
2-3
Closed
Open
JP48
(RST MCU)
No external reset generation
Table 3-5: Reset Connection
By default, the external reset is enabled and set to immediate reset while the reset by UART
is disabled.
Note:
While a reset signal is asserted the red Reset-LED LD13 is lit.
During normal operation, this LED should be off!
If JP41 (DTR/DTRx) is set, the UART RESET jumper (JP33) and the according DTR/RTS
(JP23 and JP38) jumper 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.
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Chapter 3 Jumpers and Switches
3.7 User Buttons SW1, SW2, SW3, SW4, SW5, SW6 (JP: 3, 4, 5, 6, 7)
Five user push buttons (SW1-SW5) can be connected to the microcontroller.
JP3, 4, 5, 6, 7 Each push button can be connected separately.
Jumper
Setting
Closed
Open
Description
Pin 139 (INT0/NMI) of the MCU is connected to “SW1”
No connection to the microcontroller
JP3
(SW1)
Closed
Open
Pin 19 (FRCK0) of the MCU is connected to “SW2”
No connection to the microcontroller
JP4
(SW2)
Closed
Open
Pin 22 (TIN1) of the MCU is connected to “SW3”
No connection to the microcontroller
JP5
(SW3)
Closed
Open
Pin 20 (IN0/TTG4/0) of the MCU is connected to “SW4”
No connection to the microcontroller
JP6
(SW4)
Closed
Open
Pin 21 (IN1/TTG5/1) of the MCU is connected to “SW5”
No connection to the microcontroller
JP7
(SW5)
Table 3-6: User Push Buttons
Default: JP3, 4, 5, 6, 7 closed
By default, all push-buttons are connected to the microcontroller.
3.8 I2C pull-up resistor (JP: 9, 10)
Two 10k pull-up resistors can be connected to the I2C signal line.
JP9, 10 10k pull-up resistors can be connected to SDA0 and SCL0
Jumper
Setting
Closed
Open
Description
A 10k pull-up resistor is connected to SDA0
No pull-up resistor is connected to SDA0
A 10k pull-up resistor is connected to SCL0
No pull-up resistor is connected to SCL0
JP9
(SDA0)
Closed
Open
JP10
(SCL0)
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Chapter 3 Jumpers and Switches
3.9 LIN / UART
There are two identical circuit blocks for LIN or RS232 connections. Each of the two D-Sub
connectors can be configured as LIN or RS232 interface. DTS or RTS can be selected as
reset source, and RTS and CTS can be connected by a jumper, since some terminals and
Flash programming tools need this connection. Pin 1 (Vs) of X5 and X9 can be connected to
the voltage input of the board by jumpers in order to supply the LIN bus.
3.9.1 LIN-UART 0 (JP: 19, 21, 23, 25, 27, 28, 29, 31)
Jumper
Setting
1-2
Description
SIN0 is connected to RS232 transceiver
SIN0 is connected to LIN transceiver
SOT0 is connected to RS232 transceiver
SOT0 is connected to LIN transceiver
X5 pin 2 is connected to RS232 transceiver
JP21
(RXD)
2-3
1-2
JP25
(TXD)
2-3
1-2
JP27
(RS232/LIN)
2-3
Closed
Open
1-2
X5 pin 2 is connected to LIN transceiver
RTS and CTS of X5 are connected
RTS and CTS of X5 are not connected
DTR signal (pin 6 of X5) is used as reset source
RTS signal (pin 7 of X5) is used as reset source
LIN transceiver is enabled
JP19
(RTS-CTS)
JP23
(DTR/RTS)
2-3
Closed
Open
Closed
Open
Closed
Open
JP29
(LIN enable)
LIN transceiver is disabled
LIN-UART0 is LIN Master
JP31
(LIN master)
LIN-UART0 is LIN Slave
LIN bus (X5 pin 1) is powered by the board
LIN bus (X5 pin 1) is not powered by the board
JP28
(LIN Vbat)
Table 3-7: UART0 Settings
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Chapter 3 Jumpers and Switches
3.9.2 LIN-UART 2 (JP: 36, 37, 38, 39, 40, 42, 43, 45)
Jumper
Setting
1-2
Description
SIN2 is connected to RS232 transceiver
SIN2 is connected to LIN transceiver
SOT2 is connected to RS232 transceiver
SOT2 is connected to LIN transceiver
X9 pin 2 is connected to RS232 transceiver
X9 pin 2 is connected to LIN transceiver
RTS and CTS of X9 are connected
RTS and CTS of X9 are not connected
DTR signal (pin 6 of X9) is used as reset source
JP37
(RXD)
2-3
1-2
JP39
(TXD)
2-3
1-2
JP40
(RS232/LIN)
2-3
Closed
Open
1-2
JP36
(RTS-CTS)
JP38
(DTR/RTS)
2-3
RTS signal (pin 7 of X9) is used as reset source
LIN transceiver for X5 is enabled
Closed
Open
JP43
(LIN enable)
LIN transceiver for X5 is disabled
LIN-UART2 is LIN Master
Closed
Open
JP45
(LIN master)
LIN-UART2 is LIN Slave
Closed
Open
LIN bus (X9 pin 1) is powered by the board
LIN bus (X9 pin 1) is not powered by the board
JP42
(LIN Vbat)
Table 3-8: UART2 Settings
3.10 CAN interfaces (JP: 24, 26, 34, 35)
Two high-speed CAN-transceivers can be connected to the microcontroller’s CAN interfaces
(CAN0 and CAN1).
Jumper
Setting
Description
JP24
(CAN0 RX)
Closed
RX0 is connected to CAN0 (X6)
JP26
(CAN0 TX)
Closed
Closed
Closed
TX0 is connected to CAN0 (X6)
RX1 is connected to CAN1 (X8)
TX1 is connected to CAN1 (X8)
JP34
(CAN1 RX)
JP35
(CAN1 TX)
Table 3-9: CAN Settings
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Chapter 3 Jumpers and Switches
3.11 External Flash memory (JP: 49, 52, 56)
The SK-96370-144PMC-GDC is equipped with an additional 8 MByte Flash memory
connected to the external bus interface.
JP49
JP52
JP56
Selects Flash data width (16 bit / 8 bit)
Selects between address A0 or data D15 based on the Flash data width
Signal sharing of A22 and CS2 for FLASH and GDC
3
4
2
Jumper
Setting
1-2
Description
JP49
16 bit data width
(8 / 16 bit)
2-3
8 bit data width
JP52
1-2
AD15 is connected (16 bit data width)
A0 is connected (8 bit data width)
(8 / 16 bit)
2-3
2-4
Address line A22 is connected to the FLASH
JP56
1-2
3-4
CS2 is connected to the connector (see jumper JP57), too
Address A22 of FLASH is connected to GND
(GDC/FLASH)
Table 3-10: External Flash Configuration
3.12 External SRAM memory (JP: 50, 53, 59)
The SK-96370-144PMC-GDC is equipped with an additional 2 MByte SRAM memory
connected to the external bus interface.
JP50
JP53
JP59
Selects SRAM data width (16 bit / 8 bit)
Selects between address A0 or data D15 based on the Flash data width
Enables or disables the SRAM
Jumper
Setting
1-2
Description
JP50
16 bit data width
(8 / 16 bit)
2-3
8 bit data width
JP53
1-2
AD15 is connected (16 bit data width)
A0 is connected (8 bit data width)
Connect CS3 to the SRAM
Disables the SRAM
(8 / 16 bit)
2-3
JP59
1-2
(SRAM)
2-3
Table 3-11: Flash Configuration Jumpers
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Chapter 3 Jumpers and Switches
3.13 Graphic Display Controller interface (JP: 54, 55, 56, 57, 58, 60, 85, 86)
The SK-96370-144PMC-GDC provides the external bus interface on the two connectors
X10 and X11 in order to support Graphic Display Controller sub-boards,
e.g.: CREMSON-STARTERKITLIME.
Take care of proper jumper settings, in case those external sub-boards will be connected.
Some signals, like A22, CS2 and CS3, are shared with the on-board FLASH and SRAM
memory (see also chapter 3.11 and 3.12).
JP54
JP55
JP56
JP57
JP58
JP60
Address line A24 is not supported by the microcontroller
Address line A25 is not supported by the microcontroller
Signal sharing of A22 and CS2 for FLASH and GDC
Chip selection for external sub board
1.8V power supply
3
4
2
Mains power supply
JP70, 71 The port P08_0 may be used e.g. to generate manual reset on the sub board.
Jumper
Setting
Open
Closed
Open
Closed
2-4
Description
JP54
(A24)
Address line A24 is floating
Address line A24 is connected to GND
Address line A25 is floating
JP55
(A25)
Address line A25 is connected to GND
Address line A22 is connected to the FLASH
JP56
1-2
3-4
CS2 is connected to the connector (see jumper JP57), too
Address A22 of FLASH is connected to GND
(GDC/FLASH)
JP57
1-2
Connect CS3 to the connector
(CS2/CS3)
2-3
Connect CS2 to the connector
JP58
(1V8)
Open
Closed
Open
Closed
Open
Closed
Open
Closed
1.8V is not supplied to connector X11B
1.8V is supplied to connector X11B
Mains is not connected to connector X11B
Mains is connected to X11B
JP60
(Mains)
JP70
P08_0 is not connected to X11A_11A
P08_0 is connected to X11A_11A
P08_0 is not connected to X11A_12A
P08_0 is connected to X11A_12A
(GLRST)
JP71
(FLRST)
Table 3-12: Graphic Display Controller interface
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Chapter 4 Connectors
4 Connectors
4.1 Power connector (X7)
The following figure shows the power connection jack X7. This connector is used to connect
an external unregulated DC power supply voltage (9V-15V DC) to the evaluation board.
Shield is connected to GND (-)
Connector X7:
+
Center is connected to positive voltage supply (+)
Figure 4-1: Power Connector
4.2 MCU pin header connectors (X20A, X20B, X21, X22 and X23)
All pins (except oscillator and supply pins) of the microcontroller are directly connected to pin
headers. Pin 1 of the MCU corresponds to Pin 1 of the connector. Pin 2 of the MCU
corresponds to Pin 2 of the connector, and so on.
4.3 LIN-UART connectors (X5, X9)
Two 9-pin D-Sub female connectors are used for the serial interfaces. Note that X5 and X9
are shared between the RS232- and LIN transceivers and must be configured to the desired
functionality (refer to chapter 3.9 for details).
Figure 4-2: UART Connector
Pin Number
Pin Signal
+VBat
TXD
Description
1
Power from / to LIN bus
RS-232 transmit output
2
LIN
Bi-directional LIN-interface bus
RS-232 receive input
3
RXD
4
DTR
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
5
GND
DSR
6
7
RTS
8
9
CTS
LGND
GND
Shield
Table 4-1: UART Connector Signals
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Chapter 4 Connectors
4.4 CAN Connector (X6, X8)
Two 9-pin D-Sub male connectors are used for the CAN interfaces CAN0 and CAN1. Both
CAN interfaces can be used simultaneously.
Figure 4-3: CAN Connector
Pin Number
Pin Signal
NC
Description
1
Not used
2
CANL
GND
NC
LOW-level CAN voltage input/output
3
Ground
4
Not used
5
NC
Not used
6
NC
Not used
7
CANH
NC
HIGH-level CAN voltage input/output
8
9
Not used
Not used
Ground
NC
Shield
GND
Table 4-2: CAN Connector Signals
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Chapter 4 Connectors
4.5 USER-LEDs & optional LC-Display (J1)
Eight LEDs are supplied for user applications. In order to disconnect the LEDs from the
related microcontroller port (Port P09), the resistor network RN1 can be removed.
Instead of the user-LEDs, an alphanumeric LC-Display (optional) can be connected to J1.
The potentiometer RP1 can be used to adjust the contrast of the LC-Display. Pin 15 and 16
of J1 are normally not mounted. If the used LC-Display has pins for LED backlight at this
position, they can be connected here (Pin15: Vcc via 39Ω/0.5W, Pin16: GND).
The contrast of an optional LC-Display connected to J1 can be adjusted by RP1.
The following control signals are provided:
Figure 4-4: User LEDs/LCD
15*1
16
1
2
3
4
5
6
7
-
8
-
9 10 11
12
13
14*
LCD
LED
LCD
GND GND VCC V0
RS R/W
E
-
-
DB4 DB5 DB6 DB7
LED
Port
-
-
-
-
-
-
-
-
-
-
LD1 LD2 LD3 LD4
09_0 09_1 09_2 09_3
-
-
-
-
-
-
LD5 LD6 LD7 LD8
09_4 09_5 09_6 09_7
Table 4-3: User LEDs/LCD
*1 Pin 15: Vcc via 39Ω/0.5W for LCD backlight
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Chapter 4 Connectors
4.6 In-Circuit-Programming Connector (X4)
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 pin MD0 and reset signal are also
available at this connector.
Figure 4-5: In-circuit programming connector
Pin Number
Pin Signal
NC
Description
1
2
Not used
NC
Not used
3
MD0
MCU mode pin MD0
Not used
4
NC
5
RSTX
SIN3
SOT3
SCK3
VCC
MCU reset signal
UART2 receive data
UART2 transmit data
UART2 clock
6
7
8
9
Board supply voltage
Ground
10
GND
Table 4-4: In-circuit programming connector
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Chapter 4 Connectors
4.7 Alarm Comparator Connector (J2)
On the Connector J2 the adjusted analog voltage of potentiometer RP2 can be measured.
This voltage is used for the alarm comparator ALARM0 or analogue input AN8 on pin 28.
4.8 External Supply Voltage Vin (J3)
This connector is connected to the external supply voltage (Vin).
4.9 Vcc 5 Volts (J4)
On this connector the VCC5V supply can be measured.
4.10 Vcc 3.3 Volts (J5)
On this connector the VCC3V3 supply can be measured.
4.11 Vcc 2.5 Volts (J9)
On this connector the VCC2V5 supply can be measured.
4.12 Vcc 1.8 Volts (J10)
On this connector the VCC1V8 supply can be measured.
4.13 LIN Bus Inhibit (J6)
To this connector the INH pin of the LIN0 transceiver is connected.
4.14 LIN Bus Inhibit (J11)
To this connector the INH pin of the LIN1 transceiver is connected.
4.15 VCC Connector (J7)
On this connector the VCC supply (see chapter 3.2) can be measured.
4.16 GND Connector (J8)
Ground reference terminal GND.
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Chapter 5 Programming the internal Flash memory
5 Programming the internal Flash memory
All Flash devices have an internal bootloader for asynchronous- as well as for synchronous-
Flash-programming:
< Asynchronous serial Flash programming via X5 or X9 (UART0 or UART2)
< Synchronous serial Flash programming via X4 (UART3)
5.1 Asynchronous Mode
This chapter describes the serial asynchronous programming of the internal Flash memory
using ‘Flash Memory Programmer 16FX’ in automatic mode.
For serial asynchronous programming SUB-D9 connectors X5 or X9, which are connected to
UART0 and UART2 respectively, can be used on the starter kit.
The following jumper settings are necessary:
5.1.1 Uart0
Programming
Jumper
Setting Description
UART
JP21
(SIN0)
UART0
1-2
1-2
SIN0 is connected to RxD of X5
JP25
(SOT0)
UART0
UART0
UART0
SOT0 is connected to TxD of X5
JP27
(RS232/LIN)
1-2
RS232 transceiver is selected for X5
X5-1 is disconnected from the power supply
JP28
(Vbat)
Open
Table 5-1: Jumper Settings for Programming via UART 0 (X5)
5.1.2 Uart2
Programming
Setting Description
UART
Jumper
JP37
(SIN2)
UART2
UART2
UART2
UART2
1-2
1-2
SIN2 is connected to RxD of X9
JP39
(SOT2)
SOT2 is connected to TxD of X9
JP40
(RS232/LIN)
1-2
RS232 transceiver is selected for X9
X9-1 is disconnected from the power supply
JP42
(Vbat)
Open
Table 5-2: Jumper Settings for Programming via UART 2 (X9)
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Chapter 5 Programming the internal Flash memory
5.1.3 Reset (optional)
Depending on the programming software a reset signal might be generated by RTS or DTR
line. In order to use this optional feature additional jumper have to be set:
Jumper
Programming Setting Description
UART
1-2
2-3
1-2
2-3
1-2
2-3
1-2
2-3
JP23
DTR signal of X5 is used as reset source
RTS signal of X5 is used as reset source
DTR signal of X9 is used as reset source
RTS signal of X9 is used as reset source
LIN-UART 0 (X5) is used to generate reset
LIN-UART 2 (X9) is used to generate reset
No negation for the DTR/RTS signal
DTR/RTS signal is negated
UART0
UART2
(DTR/RTS)
JP38
(DTR/RTS)
JP33
UART0 or
UART2
(RESET A/B)
JP41
UART0 or
UART2
(DTR / DTRx)
Table 5-3: Jumper Settings for reset signal
5.1.4 Flash Programming
1) Configure the microcontroller mode:
MD0 MD1 MD2 nc
ON
DIP-Switch S1
OFF
(Programming Mode)
1 2 3 4
2) Connect the configured UART (see above) to your serial PC communication port.
A straight 1:1 cable connection has to be used.
3) Start the tool “Fujitsu Flash MCU Programmer” software and make the settings:
Set Device Type
Select COM Port
MB96F379R/Y
4 MHz
Select Crystal
Open Source
(MHX-File)
Application.MHX
Start
programming
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Chapter 5 Programming the internal Flash memory
4) After programming the Flash-device, switch off the power supply and set back the
mode according to the usage of the application, e.g.:
MD0 MD1 MD2 nc
ON
DIP-Switch S1
(RUN Mode)
OFF
1 2 3 4
5) Power on the board. The user application is started directly.
5.2 Synchronous Mode
In order to program the Flash-ROM synchronously special third-party soft- and hardware has
A dedicated Flash programming socket (X4) is provided on the evaluation-board for direct
connection to this programmer.
n/c 1
MD0 3
RST 5
SOT3 7
VCC 9
2 n/c
4 n/c
X4: Flash programming socket
6 SIN3
8 SCK3
10 GND
Figure 5-1: Flash Programming Socket
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Chapter 6 Appendix
6 Appendix
6.1 Related Products
< SK-96370-144PMC-GDC
Evaluation board for the MB96F37xxxPMC MCU
in FPT-144P-M08 (LQFP-144) package
including external memory and GDC connector
< SK-96370-144PMC
Evaluation board for the MB96F37xxxPMC MCU
in FPT-144P-M08 (LQFP-144) package
< MB2198-01
< MB2198-500
Emulator debugger main unit
Emulation Pod
<
NQPACK144SD-ND
Socket for package FPT-144P-M08 (LQFP-144)
<
HQPACK144SD
Socket header for package FPT-144P-M08 (LQFP-144)
< MB2198-507-E
< MB96300 Series
< MB96V300
Emulator probe cable for MB96F37x MCU
MB96300 Series Evaluation chip
Flash MCU (Single Clock)
Flash MCU (Dual Clock)
< MB96F37xRS
< MB96F37xRW
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Chapter 7 Information in the WWW
7 Information in the WWW
Information about FUJITSU MICROELECTRONICS Products
can be found on the following Internet pages:
Microcontrollers (8-, 16- and 32bit), Graphics Controllers
Datasheets and Hardware Manuals, Support Tools (Hard- and Software)
Power Management Products
Media Products: SAW filters, acoustic resonators and VCOs
For more information about FUJITSU MICROELECTRONICS
© Fujitsu Microelectronics Europe GmbH
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FMEMCU-UG-960014-10
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SK-96370-144PMC-GDC User Guide
Chapter 8 China-RoHS regulation
8 China-RoHS regulation
Evaluation Board幓↿㨎
Emulation Board 䦮㨎
㫈㗽SJ/T11364-2006
ᇵ䟄≰㋾ℶ❐㻰㩢㘶Ⓟ㪖幕尐㻑ᇶ䔈㙟∪Ⱁₚ㦘␂㻰㩢㘶Ⓟ㡈槱䤓≰㋾ᇭ
The following product pollution control information is provided according to SJ/T11364-2006
Marking for Control of Pollution caused by Electronic Information Products.
1᧪䟄≰㋾ℶ❐㻰㩢㘶Ⓟ㪖㉦広㢝 Explanation of Pollution Control Label
年㪖㉦嫷㢝㦻ℶ❐⚺㦘怔扖₼⦌㪖SJ/T11363-2006
ᇵ䟄≰㋾ℶ❐₼㦘㹡㦘⹂䓸德䤓棟摞尐㻑ᇶ₼棟摞䤓㦘㹡㦘⹂䓸德ᇭ㪖㉦₼䤓㟿ⷦ㦻ℶ❐
䤓䘾≬∎䞷㦮᧨嫷㢝㦻ℶ❐⦷㷲デ∎䞷䤓㧰ↅₚ᧨㦘㹡㦘⹂䓸德ₜ↩♠䞮⮥㽓㒥䴐♧᧨䞷㓆∎
䞷㦻ℶ❐ₜ↩⺈䘾⬒抯㒟₴摜㻰㩢㒥⺈␅ⅉ愺ᇬ徱ℶ抯㒟₴摜㗮⹂䤓㦮棟᧨◤⇜ᇭ
≬幐㓏䟂㢝䤓䘾≬∎䞷㦮棟᧨ㄣ㖘ℶ❐㓚␛₼㓏屓⸩䤓䘾⬒㧰ↅ✛㡈㽤扪嫛㷲デ∎䞷᧨ㄅ₴
㫋挄⸗ℶ❐冃≽㓚␛₼屓⸩䤓⸩㦮冃≽✛≬␊尐㻑ᇭ
ℶ❐₼䤓䀗劦ↅ✛㩟K榅捷ↅ♾厌㦘␅◤䕻䤓䘾≬∎䞷㦮棟㪖㉦᧨ㄅ₣␅䘾≬∎䞷㦮棟㦘♾厌
㹣㠃₹ℶ❐㦻愺䤓䘾≬∎䞷㦮棟䩼ᇭㄣⒿ㦮㖘ℶ❐冃≽䲚ㄞ㦃㗱挲K䀗劦ↅ✛榅捷ↅ᧨ⅴ≬幐
㓏䟂㢝䤓㠃₹ℶ❐䤓䘾≬∎䞷㦮棟ᇭ
㦻ℶ❐⦷∎䞷⺎✌兢㧮㢅ₜ♾⇫㣽抩䞮㿊⨒⧍⮓䚕᧨ㄣ嬺◤䕻㟅楕ⰴ⠓⮓䚕ᇭ
庆㽷㎞᧶䘾≬∎䞷㦮棟ꢀꢁ䤓㖖⸩ₜ㢾ℶ❐䤓功⃔┪᧨∎䞷㦮棟㒥↊⇤㕔≬尐㻑䷘⚛䤓ᇭ
This symbol to be added to all EIO sold to China, indicates the product contains hazardous
materials in excess of the limits established by the Chinese standard SJ/T11363-2006
Requirements for Concentration Limits for Certain Hazardous Substances in Electronic
Information Products. The number in the symbol is the Environment-friendly Use Period
(EFUP), which indicates the period, starting from the manufacturing date, during which the
toxic or hazardous substances or elements contained in electronic information products will
not leak or mutate under normal operating conditions so that the use of such electronic
information products will not result in any severe environmental pollution, any bodily injury or
damage to any assets, the unit of the period is “Year”.
FMEMCU-UG-960014-10
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© Fujitsu Microelectronics Europe GmbH
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SK-96370-144PMC-GDC User Guide
Chapter 8 China-RoHS regulation
In order to maintain the declared EFUP, the product shall be operated normally according to
the instructions and environmental conditions as defined in the product manual, and periodic
maintenance schedules specified in Product Maintenance Procedures shall be followed
strictly.
Consumables or certain parts may have their own label with an EFUP value less than the
product. Periodic replacement of those consumables or parts to maintain the declared EFUP
shall be done in accordance with the Product Maintenance Procedures.
This product must not be disposed of as unsorted municipal waste, and must be collected
separately and handled properly after decommissioning.
Please note: The designation of 10 years EFUP is not to be equated with the durability, use-
duration or any warranty-claims of the product.
ℶ❐₼㦘㹡㦘⹂䓸德㒥⏒侯䤓⚜䱿♙⚺摞
Table of hazardous substances name and concentration
㦘㹡㦘⹂䓸德㒥⏒侯
捷ↅ⚜䱿
Hazardous substances name
Component Name
杔
㻭
柘
⏼ↆ杻
⮩䅃勣啾
⮩䅃ℛ啾搩
(Pb)
(Hg)
(Cd)
(Cr(VI))
(PBB)
(PBDE)
SK-96370-144PMC-GDC
x
o
o
o
o
o
O: 嫷䯉年㦘㹡㦘⹂䓸德⦷年捷ↅ㓏㦘⧖德㧟㠨₼䤓⚺摞⧖⦷SJ/T11363-2006 㪖屓⸩䤓棟摞尐㻑ⅴₚ
X: 嫷䯉年㦘㹡㦘⹂䓸德咂⺠⦷年捷ↅ䤓㩟⧖德㧟㠨₼䤓⚺摞怔⒉SJ/T11363-2006 㪖屓⸩䤓棟摞尐㻑
•
•
㷳嫷㓏⒦㟿㗽♠を㢅㓏厌噆㈦䤓㦏∂≰㋾
䟀ℝ凉⺠兞㿝ₙ㒥㔏㦾ₙ⚗䚕♾嫛䤓㦎ⅲ䓸德㒥㡈㫗᧨㷳◊䠦幍扟䞷ⅴₙK㦘㹡㦘⹂䓸德㧴⸭䘿幍䤓欓㦮
ㄙ┮厌᧨㒥全ⅉ⛧㒥䘾⬒㙟∪㦃Ⰼ䤓≬㔳㟗㨫ᇭ
O: Indicates that this toxic or hazardous substance contained in all of the homogeneous
materials for this part is below the limit requirement in SJ/T11363-2006.
X: Indicates that this toxic or hazardous substance contained in at least one of the
homogeneous materials used for this part is above the limit requirement in SJ/T11363-2006.
•
Data listed in the table represents best information available at the time of publication
© Fujitsu Microelectronics Europe GmbH
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FMEMCU-UG-960014-10
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SK-96370-144PMC-GDC 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/Disposal
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/Disposal
Monzastraße 4a
63225 Langen
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