adapter board ada-96340-88121-flexray...its warranties and its liability for the...

Fujitsu Microelectronics Europe User Guide

FMEMCU-UG-900007-10

MB88121 ADAPTER BOARD

ADA-96340-88121-FLEXRAY

USER GUIDE


User Guide

Revision History

UG-900007-10 - 2 - © Fujitsu Microelectronics Europe GmbH

Revision History

Date Issue 06/08/2007 V1.0, MSt

Initial version

This document contains 40 pages.


User Guide

Warranty and Disclaimer

© Fujitsu Microelectronics Europe GmbH - 3 - UG-900007-10

Warranty and Disclaimer To the maximum extent permitted by applicable law, Fujitsu Microelectronics Europe GmbH restricts its warranties and its liability for the ADA-96340-88121-FLEXRAY

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 ADA-96340-88121-FLEXRAY

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


User Guide

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 FlexRay CC Clocks.................................................................................... 7 1.3.2 FlexRay CC Operating Mode..................................................................... 7 1.3.3 FlexRay Physical Layer ............................................................................. 7 1.3.4 User Button................................................................................................ 7 1.3.5 Power Supply ............................................................................................ 7

2 INSTALLATION ............................................................................................................... 8 2.1 Jumper Settings .................................................................................................... 10 2.2 Jumper Coordinates .............................................................................................. 11

3 JUMPERS AND SWITCHES.......................................................................................... 12 3.1 Operating Mode (S1)............................................................................................. 12

3.1.1 16-bit multiplexed mode........................................................................... 13 3.1.2 SPI mode................................................................................................. 14

3.2 Power supply......................................................................................................... 15 3.2.1 Power switching by FlexRay physical layer.............................................. 16

3.3 FlexRay “Channel A” (FR-A).................................................................................. 17 3.4 FlexRay “Channel B” (FR-B).................................................................................. 18 3.5 Interrupt settings.................................................................................................... 19 3.6 Chip Select: JP28/JP29/JP30/JP31/JP32.............................................................. 21 3.7 Reset-Generation .................................................................................................. 22 3.8 Button SW1 (WAKE) ............................................................................................. 22

4 CONNECTORS.............................................................................................................. 23 4.1 Power Connector (X4)........................................................................................... 23 4.2 FlexRay Connector (J2, J4)................................................................................... 23 4.3 Debug Pin Header (X1) ......................................................................................... 24 4.4 VG96 connector (J1) ............................................................................................. 25


User Guide

Contents


5 SILK-PLOT OF THE BOARD ........................................................................................ 28 5.1 Silk-plot Top-side................................................................................................... 28 5.2 Silk-plot bottom side .............................................................................................. 29

6 FLASH-CAN-100P-340 V2.0.......................................................................................... 30 6.1 Overview ............................................................................................................... 30 6.2 Features................................................................................................................ 30 6.3 Jumper setting for MB96340 Series....................................................................... 31 6.4 Power Supply Voltage ........................................................................................... 34 6.5 External bus interface............................................................................................ 35

7 TROUBLE SHOOTING .................................................................................................. 36

8 APPENDIX..................................................................................................................... 37 8.1 Tables ................................................................................................................... 37 8.2 Figures .................................................................................................................. 38

9 RELATED PRODUCTS ................................................................................................. 39

10 RECYCLING .................................................................................................................. 40


User Guide

Chapter 1 Introduction


1 Introduction

1.1 Abstract The ADA-96340-88121-FLEXRAY is an adapter board for the Fujitsu’s 16-bit F2MC-16FX Flash microcontroller series. It facilitates to add FlexRay connectivity to 16-bit MCU that do not comprise embedded FlexRay protocol cores.

The ADA-96340-88121-FLEXRAY must be used together with the FLASH-CAN-100P-340 evaluation board for software development and testing. All configuration of evaluation board in this user guide aims for the MB96340 series! The board allows the designer immediately to start software development before his own final target system is available.

1.2 Features � Includes Fujitsu's FlexRay communication controller MB88121B

� 12V unregulated external DC power supply

� 5V and 3.3V onboard voltage regulators

� Onboard voltage supervisor monitors both supply voltages

� Power-LEDs for all supply voltages (D10, D11, D3)

� 10 MHz crystal

� Two FlexRay interfaces (channel A, B) are usable simultaneously � Onboard FlexRay transceiver (AS8221B) � Supports Power switching via FlexRay transceiver

� One VG96 connector (J1)

� One User button (SW1) for local WAKE UP function

This board must only be used for test applications in an evaluation laboratory environment.


User Guide

Chapter 1 Introduction


1.3 General Description The ADA-96340-88121-FLEXRAY

supports the FUJITSU stand alone FlexRay Communication Controller MB88121B.

This user guide is describing PCB version V1.1. The PCB version is printed at the TOP side of the adapter board between the two Sub-D connectors J2 and J4.

The Adapter board is connected to 16-bit FLASH-CAN-100P-340 evaluation board via VG96 connector.

1.3.1 FlexRay CC Clocks The board is supplied with a 10MHz crystal as the main oscillation clock for the FlexRay CC. Using the internal PLL of the FlexRay CC, internal clock rates up to 80MHz can be achieved.

1.3.2 FlexRay CC Operating Mode The operation mode of the FlexRay communication controller can be selected by the DIP-switch S1.

1.3.3 FlexRay Physical Layer The connection to the physical layer of the FlexRay bus with 9-pin Sub-D connectors (J2 and J4) is realized with AMS8221B transceiver. The transceiver provides differential transmit and receive capability between FlexRay-controller and FlexRay-bus.

1.3.4 User Button There is one user button (SW1) on board, which is connected to the FlexRay physical layer. Button SW1 issues a local wake up request to the FlexRay physical layers (AMS8221B).

1.3.5 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 Adapter board. The switching regulator provide the voltages of 5V (1.6A), 3.3V (1.6A) on the Adapter board. The switching regulators are short circuit protected and provide a thermal shutdown. The adapter board must also supply the FLASH-CAN-100P-340 evaluation board. The Jumpers at FLASH-CAN-100P-340 need to be set accordingly.


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 adapter board.

To supply the adapter board, 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 X4 at the ADA-96340-88121-FLEXRAY 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


User Guide



Now connect the adapter board to the FLASH-CAN-100P-340 evaluation board via VG96 connector as shown below (see also chapter 6 for details).

Figure 2-5: Connection between evaluation board and adapter board

After that connect the DC low voltage adapter to the adapter board and plug in the In-Plug power supply to a power socket. The adapter board can be turned on with the on board power switch S2.

For the power supply of the ADA-96340-88121-FLEXRAY 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 X4! After power-on of the ADA-96340-88121-FLEXRAY, the two power-on LEDs D11 (5V) and D10 (3.3V) should be light. The LED D10 (board voltage) should also be light.

Note: The power supply is different depending which version of FLASH-VAN-100P-340 is used. Please refer to the chapter 3.7


User Guide



2.1 Jumper Settings

Jumper Description / Function Type Default Setting Coordinates

JP1 INT0 – MCU Pin47 Jumper 2 pin Closed D12 JP2 INT1 – MCU Pin48 Jumper 2 pin Closed E12 JP3 AD05 Jumper 3 pin 1-2 C11 / C12 JP4 AD04 Jumper 3 pin 1-2 D11 / D12 JP5 AD03 Jumper 3 pin 1-2 D11 / D12 JP6 INH1-A / INH2-A Jumper 3 pin 1-2 H13 / J13 JP7 INHx-A / INHx-B Jumper 4 pin 1-2 Closed H9 / J9 JP8 INH1-B / INH2-B Jumper 3 pin 1-2 H5 / J5 JP9 INH / Vin Jumper 3 pin 1-2 H9 / J9

JP10 BM-B termination Solder JP 2 pin Closed K7 JP11 BP-B termination Solder JP 2 pin Closed K6 JP12 J2 Shield – pin 5 (FlexRay B) Jumper 2 pin Open L4 JP13 J2 - GND / network Jumper 3 pin 1-2 K4 / K5 JP14 J4 Shield – pin 5 (FlexRay A) Jumper 2 pin Open L11 / L12 JP15 J4 - GND / network Jumper 3 pin 1-2 K11 / K12 JP16 BM-A termination Solder JP 2 pin Closed K14 JP17 BP-A termination Solder JP 2 pin Closed K13 / K14

JP18 WAKE-A (1-2) WAKE-B (3-4)

Jumper 4 pin Closed J17 / J18

JP19 STBN-A – MCU Pin29 Jumper 2 pin Open G14 / H14 JP20 STBN-B – MCU Pin97 Jumper 2 pin Open G7 / H7 JP21 ERRN-A – MCU Pin30 Jumper 2 pin Open G14 / H14 JP22 ERRN-B – MCU Pin98 Jumper 2 pin Open G7 / H7 JP23 EN-A – MCU Pin31 Jumper 2 pin Open G13 / H13 JP24 EN-B – MCU Pin99 Jumper 2 pin Open G6 / H6 JP25 VHost – VFlexRay Jumper 2 pin Closed F12 JP26 VFlexRay – V88121 Jumper 2 pin Closed E12 JP27 DMAreq – MCU pin 4 Solder JP 2 pin Open C7 JP28 CS-CC – MCU CS1 Solder JP 2 pin Open F15 JP29 CS-CC – MCU CS2 Solder JP 2 pin Closed F15 JP30 CS-CC – MCU CS3 Solder JP 2 pin Open F14 JP31 CS-CC – MCU CS4 Solder JP 2 pin Open F14 JP32 CS-CC – MCU CS5 Solder JP 2 pin Open F14 JP33 AD08 / MDS0 Jumper 3 pin 1-2 D17 / D18 JP34 AD09 / MDS1 Jumper 3 pin 1-2 D17 / D18 JP35 AD10 / MDS2 Jumper 3 pin 1-2 C17 / C18 JP36 Vcc 5V / 3V3 Jumper 3 pin 1-2 H12 / J12 JP37 INT2 – MCU pin 49 Solder JP 2 pin Closed C13 JP38 INT3 – MCU pin 50 Solder JP 2 pin Closed C13 JP39 INT4 – MCU pin 55 Solder JP 2 pin Closed D13 JP40 Vio-A – STBN-A Jumper 2 pin Closed G15 / H15 JP41 Vio-B – STBN-B Jumper 2 pin Closed G7 / H7 JP42 Vio-A – EN-A Jumper 2 pin Closed G13 / H13 JP43 Vio-B – EN-B Jumper 2 pin Closed G6 / H6

Table 2-1: Default jumper settings


User Guide



2.2 Jumper Coordinates

A B C D E F G H J K L M N

1 1

2 2

3 3

4 4

5 5

6 6

7 7

8 8

9 9

10 10

11 11

12 12

13 13

14 14

15 15

16 16

17 17

18 18

19 19

20 20

21 21

22 2

23 2A B C D E F G H J K L M N

Figure 2-6: Jumper Coordinates

FlexRay channel B

FlexRay channel A

96-pin female VG connector


User Guide

Chapter 3 Jumpers and Switches


3 Jumpers and Switches This chapter describes all jumpers and switches that can be modified on the adapter board. The default settings are shown with a grey shaded area.

3.1 Operating Mode (S1) The DIP-switch S1 is used to set the operating mode of the CC. Ensure that the mode pin settings correspond to the operation-mode of the application. For more detailed information please check the MB88121 preliminary data sheet.

DIP switch Setting Logical value

ON (closed) 0 (low) S1/1 (MDS2)

OFF (open) 1 (high)


OFF (open) 1 (high)


OFF (open) 1 (high)

ON (closed) 0 (low) S1/4 (MD1)

OFF (open) 1 (high)

ON (closed) 0 (low) S1/5 (MDE0)

OFF (open) 1 (high)

ON (closed) 0 (low) S1/6 (MDE1)

OFF (open) 1 (high)

ON (closed) 0 (high) S1/7 (MDE2)

OFF (open) 1 (low)

S1/8 not connected (OFF)

Table 3-1: Default DIP Switch settings

Figure 3-1: Default DIP Switch settings

DIP-Switch S1

(default setting)

ON OFF

1 2 3 4 5 6 7 8


User Guide



3.1.1 16-bit multiplexed mode The default jumper and DIP switch settings are suitable for 16-bit multiplexed mode between MCU und CC. The corresponding pin values of CC are:

CC pin Settings

MD2 MD1 MD0

1 0 0

MD2 and MD0 have fixed value

Default settings of S1/4 for MD1:

16-bit multiplexed mode

MDE2 MDE1 MDE0

0 0 1

Default settings of S1/5, S1/6 and S1/7:

16-bit FX

MDS2 MDS1 MDS0

\ \ \

JP33, JP34, JP35 connect 1-2:

S1/1, S1/2, S1/3 have no effect

JP27 By default JP27 is open.

CC DMA request output is disconnected to MCU pin 4

Table 3-2: Multiplexed operating mode The block diagram of this operation mode is shown below:

Figure 3-2: Multiplexed operating mode


User Guide



3.1.2 SPI mode For serial communication between MCU and CC the DIP switch and jumpers must be adjusted properly. The corresponding pin values of CC are:

CC pin Settings

MD2 MD1 MD0

1 1 0S1/4 is set OFF for MD1: Serial mode between MCU and CC

MDE2 MDE1 MDE0

0/1 0/1 0

S1/5 is set ON for MDE0: Serial interface type is SPI

MDE2 and MDE1 are set by S1/6, S1/7:

Frequency selection in serial mode

MDS2 MDS1 MDS0

0/1 0/1 0/1

JP33, JP34, JP35 connect 2-3:

MDS0-2 are set by S1/1, S1/2, S1/3:

Specific SPI settings

Table 3-3: SPI operating mode

Figure 3-3: DIP switch by SPI operating mode The block diagram of this operation mode is shown below:

Figure 3-4: SPI operating mode

DIP-Switch S1

(SPI mode)

ON OFF

1 2 3 4 5 6 7 8


User Guide



Jumper Setting Description

Close 1-2

Multiplexed mode between MCU and CC:

AD10(MCU) connected to AD10/MDS2(CC)

Address and data line JP35 (AD10/MDS2)

Close 2-3

SPI mode between MCU and CC:

DIP S1/1 connected to AD10/MDS2(CC)

SPI mode setting input

Close 1-2




Close 2-3




Close 1-2




Close 2-3




Table 3-4: Jumper settings by SPI operating mode

3.2 Power supply The onboard voltage regulator (U2) provides stabilized 5V and 3.3V supplies to the CC. Even though they are thermally protected against overload, care must be taken when supplying current for additional circuitry.

JP36 Selects the VCC voltage (VCC = 3.3V or 5V)

JP25 Connects the board voltage (VHost) to VFlexRay. It can be used for current measurement of whole board.

JP26 Connects the CC voltage (V88121) to VFlexRay. It can be used for current measurement of CC

JP9 Selects the Gate input voltage of MOSFET Q1 (Vin / INHx)


User Guide




1 - 2 CC @ 5V (Vcc) JP36

2 - 3 CC @ 3.3V (Vcc)

Closed Power supply VHost connected to VFlexRay JP25

Open Power supply VHost not connected to VFlexRay

Closed Power supply V88121 connected to VFlexRay JP26

Open Power supply V88121 not connected to VFlexRay

1-2 Gate of MOSFET (Q1) connected to INH pin of FlexRay transceiver (X2, X3) JP9

2-3 Gate of MOSFET (Q1) connected to Vin

Default: grey

Table 3-5: Power supply jumper settings

3.2.1 Power switching by FlexRay physical layer

This board supports power switching by FlexRay physical layer (X2, X3).

For this reason the Vcc voltage (Selected by JP36) is controlled by a MOSFET (Q1).

12V level at the Gate pin will pass the Vcc voltage to the board. Connecting 0V at the Gate pin the MOSFET (Q1) switches off the Vcc power supply of the board.

JP9 selects if Vin (12V) or the FlexRay physical layer INHx pins are connected to the Gate pin. JP7 selects if INHx pin of FlexRay Physical layer channel A or channel B is used for power switching. JP6 and JP8 selects if INH1 or INH2 pins (channel A / B).


1-2 Gate of MOSFET (Q1) connected to INH pin of FlexRay transceiver (X2, X3) JP9

2-3 Gate of MOSFET (Q1) connected to Vin

1-2 INHx-A connected to JP9 JP7

3-4 INHx-B connected to JP9

1-2 Select Channel A INH1-A JP6

2-3 Select Channel A INH2-A

1-2 Select Channel B INH1-B JP8

2-3 Select Channel B INH2-B

Default: grey

Table 3-6: Jumper Settings of FlexRay power switching


User Guide



3.3 FlexRay “Channel A” (FR-A) FlexRay transceivers X2 is responsible for channel A. Three test points TP3-TP5 are available for transceiver pins TXD, RXD and TXEN.

JP19, JP40 Selects FlexRay transceiver STBN pin to Vio or MCU pin29.

JP23, JP42 Selects FlexRay transceiver EN pin to Vio or MCU pin31. JP21 Connects FlexRay transceiver ERRN pin to MCU pin30.


JP19 open

JP40 closed

STBN of the FR-A is connected to Vio-A. JP19, JP40

(STBN-A)

JP19 closed

JP40 open

STBN of the FR-A is connected to MCU pin29.

JP23 open

JP42 closed

EN of the FR-A is connected to Vio-A. JP23, JP42

(EN-A)

JP23 closed

JP42 open

EN of the FR-A is connected to MCU pin31.

Open ERRN of the FR-A is not connected to MCU pin30. JP21

(ERRN-A) Closed ERRN of the FR-A is connected to MCU pin30.

Default: grey

Table 3-7: FlexRay “Channel A” jumper settings


User Guide



3.4 FlexRay “Channel B” (FR-B) FlexRay transceivers X3 is responsible for channel B. Three test points TP6-TP8 are available for transceiver pins TXD, RXD and TXEN.

JP20, JP41 Selects FlexRay transceiver STBN pin to Vio or MCU pin97.

JP24, JP43 Selects FlexRay transceiver EN pin to Vio or MCU pin99. JP22 Connects FlexRay transceiver ERRN pin to MCU pin98.


JP20 open

JP41 closed

STBN of the FR-B is connected to Vio-B. JP20, JP41

(STBN-B)

JP20 closed

JP41 open

STBN of the FR-B is connected to MCU pin97.

JP24 open

JP43 closed

EN of the FR-B is connected to Vio-B. JP24, JP43

(EN-B)

JP24 closed

JP43 open

EN of the FR-B is connected to MCU pin99.

Closed ERRN of the FR-B is connected to MCU pin98. JP22

(ERRN-B) Open ERRN of the FR-b is not connected to MCU pin98.

Default: grey

Table 3-8: FlexRay “Channel B” jumper settings


User Guide



3.5 Interrupt settings The CC has five interrupt outputs. Their pin assignment can be changed in different operation mode. The jumper should be adapted properly as shown in the Table 3-10.

16-bit multiplexed parallel mode

INT signal CC pin assignment

INT0 Pin10

INT1 Pin34

INT2 Pin35

INT3 Pin36

INT4 Pin37

SPI mode

INT signal CC pin assignment

INT0 Pin10

INT1 Pin34

INT2 Pin58

INT3 Pin59

INT4 Pin60

Table 3-9: Pin assignment by different mode


User Guide




JP3 close 1-2

JP37 closed

connect CC INT2 (pin 35) to MCU INT4 for 16-bit multiplexed parallel mode

JP3, JP37

JP3 close 2-3

JP37 open

connect CC INT2 (pin 58) to MCU INT4 for SPI mode

JP4 close 1-2

JP38 closed

connect CC INT3 (pin36) to MCU INT5 for 16-bit multiplexed parallel mode

JP4, JP38

JP4 close 2-3

JP38 open

connect CC INT3 (pin59) to MCU INT5 for SPI mode

JP5 close 1-2

JP39 closed

connect CC INT4 (pin 37) to MCU INT6 for 16-bit multiplexed parallel mode

JP5, JP39

JP5 close 2-3

JP39 open

connect CC INT4 (pin 60) to MCU INT6 for SPI mode

Open disconnect CC INT0 to MCU INT2 JP1

Closed connect CC INT0 to MCU INT2

Open disconnect CC INT1 to MCU INT3 JP2

Closed connect CC INT1 to MCU INT3

Default: grey

Table 3-10: Jumper settings for Interrupt pin assignment


User Guide



3.6 Chip Select: JP28/JP29/JP30/JP31/JP32 By default settings of solder jumpers, JP29 is closed while others remain open. Therefore by 16-bit multiplexed operating mode between MCU and CC the external bus area is from h’100000 to h’3fffff (see 16-bit MCU hardware manual for details).

External area Available address area Corresponding chip select

Default address area

External area 0

h’00.00f0...h’00.00ff

CS0 h’00.00f0...h’00.00ff (fixed)

External area 1

h’00.c000...(RAM-Start - 1)

CS1 h’00.c000...(RAM-Start - 1) (fixed)

External area 2

CS2 h’10.0000...h’3f.ffff (3MByte)

External area 3

CS3 h’40.0000...h’7f.ffff (4MByte)

External area 4

CS4 h’80.0000...h’bf,ffff (4MByte)

External area 5

h’10.0000...h’ff.ffff

CS5 h’c0.0000...h’ff.ffff (=4MByte incl. external Reset vector)

Table 3-11: Address range of external bus areas


Open disconnect CC chip select input (pin 19) to MCU CS1 (pin73) JP28

Closed connect CC chip select input (pin 19) to MCU CS1 (pin73)









Default: grey

Table 3-12: Default jumper settings for external bus areas


User Guide



3.7 Reset-Generation In addition to the internal Power-On reset, the CC can be reset by an external reset, which can be generated by RESET user button (SW6) of the evaluation board FLASH-CAN-100P-340. The reset signal (low active) is transmitted to CC via VG96 connector (pin 19A) and pulled up by resistor R11.

3.8 Button SW1 (WAKE) JP18 Button SW1 can be connected to FlexRay Transceiver Local WAKE pin.


1-2 WAKE of FlexRay Transceiver Ch. A (X2) is connected to SW1 JP18 (WAKE)

3-4 WAKE of FlexRay Transceiver Ch. B (X3) is connected to SW1

Default: grey

Table 3-13: Button SW1

Note: For the FLASH-CAN-100P-340 V2.0 the RESET button works only when the board is also supplied by an external unregulated DC power (power connector X12), respectively, it needs two power supplies in case of the usage of RESET button: one for adapter board, the other for evaluation board.


User Guide

Chapter 4 Connectors


4 Connectors

4.1 Power Connector (X4) The following figure shows the power connection jack of the adapter board. This connector is used to connect an external unregulated DC power supply voltage (12V DC max. 2600mA).

Figure 4-1: Power Connector

4.2 FlexRay Connector (J2, J4) Two 9-pin D-Sub male connectors are used for the two FlexRay channels A and B.

Figure 4-2: FlexRay Connector

Pin Number Pin Signal Description 1 NC Not used 2 BM Bus line Minus 3 GND Ground 4 NC Not used 5 User Connected to Jumper (CH-A: JP14; CH-B: JP12) 6 NC Not used 7 BP Bus line Plus 8 NC Not used 9 NC Not used

Shield Shield Connected to GND via Jumper (CH-A: JP15; CH-B: JP13)

Table 4-1: FlexRay Connector Signals

Shield is connected to positive voltage supply (+)

Centre is connected to ground (GND)


User Guide



4.3 Debug Pin Header (X1) The MB88121B series offers the usage of debug signals, which can be activated via internal register DBGS (Debug support Register) of MB88121 series.

Pin Number Pin Signal Description 1 SDS Connected to CC pin 7: start of dynamic segment 2 CYCS0 Connected to CC pin 8: cycle 0 start 3 STPWT Connected to CC pin 9: stop watch trigger input 4 CYCS Connected to CC pin 14: cycle start 5 MT Connected to CC pin 23: macro tick start 6 MBSU RX2 Connected to CC pin 45: message buffer status update 7 MBSU TX2 Connected to CC pin 44: message buffer status update 8 MBSU RX1 Connected to CC pin 39: message buffer status update 9 MBSU TX1 Connected to CC pin 38: message buffer status update 10 GND Ground

Table 4-2: Debug Pin


User Guide



4.4 VG96 connector (J1) The Adapter board is connected to FLASH-CAN-100P-340 evaluation board via VG96 connector. The connector-pin cross-reference is shown below.

CC Pin Nr. J1 CC Pin Signal Jumper/ DIP SW CC Pin Nr. J1 CC Pin Signal Jumper/

DIP SW 1 3A,B,C VSS - 33 3A,B,C VSS - 2 - X1 - 34 16C INT1 JP2 3 - X0 - 35 17B INT2 JP37 4 - MD1 DIP-4 36 17C INT3 JP38 5 - MD0 - 37 19B INT4 JP39 6 19A RST - 38 - MBSU_TX1 - 7 - SDS - 39 - MBSU_RX1 - 8 - CYCS0 - 40 10C SCK - 9 - STPWT - 41 10B SDI -

10 16B INT0 JP1 42 10A SDO - 11 - TXDA - 43 - - - 12 - TXENA - 44 - MBSU_TX2 - 13 - RXDA - 45 - MBSU_RX2 - 14 - CYCS - 46 31A D15 - 15 7C BCLK - 47 30C D14 - 16 1A,B,C VCC - 48 1A,B,C VCC - 17 3A,B,C VSS - 49 3A,B,C VSS - 18 - C - 50 30B D13 - 19 24B CS JP29 51 30A D12 - 20 5C RD - 52 29C D11 - 21 6A WR - 53 29B AD10/MDS2 JP35/DIP1 22 5B ALE/AS - 54 29A AD9/MDS1 JP34/DIP2 23 - MT - 55 28C AD8/MDS0 JP33/DIP3 24 - RXDB - 56 28B AD7 - 25 - TXENB - 57 28A AD6 - 26 - TXDB - 58 27C AD5 JP3 27 7B RDY - 59 27B AD4 JP4 28 - MDE2 DIP-7 60 27A AD3 JP5 29 - MDE1 DIP-6 61 26C AD2 - 30 - MDE0 DIP-5 62 26B AD1 - 31 - DMA_REQ JP27 63 26A AD0 - 32 1A,B,C VCC - 64 - MD2 -

Table 4-3: J1 connector by default settings


User Guide



J1 CC pin MCU pin Jumper/Function 1A \ \ VHost 2A \ \ \ 3A \ \ GND 4A \ \ \ 5A \ Pin4 JP27 6A WR Pin7 Pulled up by R18 7A \ \ \ 8A \ \ \ 9A \ \ \

10A SDO SIN2 (Pin24) Pulled up by R20 11A \ \ \ 12A \ P05_6/AN14 (Pin30) JP21 13A \ \ \ 14A \ \ \ 15A \ \ \ 16A \ \ \ 17A \ \ \ 18A \ \ \ 19A RST RSTX (Pin54) RESET 20A \ \ \ 21A \ \ \ 22A \ \ \ 23A \ \ \ 24A \ CS3 (Pin71) JP30 25A \ \ \ 26A AD0 AD00 (Pin77) Address/Data line 27A \ AD03 (Pin80) JP5 28A AD6 AD06 (Pin83) Address/Data line 29A \ AD09 (Pin86) JP34 30A D12 AD12 (Pin89) Data line 31A D15 AD15 (Pin96) Data line 32A \ P02_2/A18/PPG14 (Pin99) JP24

1B \ \ VHost 2B \ \ \ 3B \ \ GND 4B \ \ \ 5B ALE ALE (Pin5) Pulled up by R10 6B \ \ \ 7B RDY RDY (Pin11) READY 8B \ \ \ 9B \ \ \

10B SDI SOT2 (Pin25) Pulled up by R52 11B \ \ \ 12B \ P05_7/AN15 (Pin31) JP23 13B \ \ \ 14B \ \ \ 15B \ \ \ 16B \ INT2 (Pin47) JP1 17B \ INT4 (Pin49) JP37 18B \ \ \ 19B \ INT6 (Pin55) JP39 20B \ \ \ 21B \ \ \


User Guide



J1 CC pin MCU pin Jumper/Function 22B \ \ \ 23B \ CS5 (Pin69) JP32 24B \ CS2 (Pin72) JP29 25B \ \ \ 26B AD01 AD01 (Pin78) Address/Data line 27B \ AD04 (Pin81) JP4 28B AD07 AD07 (Pin84) Address/Data line 29B \ AD10 (Pin87) JP35 30B D13 AD13 (Pin94) Data line 31B \ P02_0/A16/PPG12 (Pin97) JP20 32B \ \ \

1C \ \ VHost 2C \ \ \ 3C \ \ GND 4C \ \ \ 5C RD RDX (Pin6) Pulled up by R16 6C \ \ \ 7C BCLK CLK (Pin12) Clock 8C \ \ \ 9C \ \ \

10C SCK SCK2 (Pin26) Pulled up by R53 11C \ P05_5/AN13 (Pin29) JP19 12C \ \ \ 13C \ \ \ 14C \ \ \ 15C \ \ \ 16C \ INT3 (Pin48) JP2 17C \ INT5 (Pin50) JP38 18C \ \ \ 19C \ \ \ 20C \ \ \ 21C \ \ \ 22C \ \ \ 23C \ CS4 (Pin70) JP31 24C \ CS1 (Pin73) JP28 25C \ \ \ 26C AD02 AD02 (Pin79) Address/Data line 27C \ AD05 (Pin82) JP3 28C \ AD08 (Pin85) JP33 29C D11 AD11 (Pin88) Data line 30C D14 AD14 (Pin95) Data line 31C \ P02_1/A17/PPG13 (Pin98) JP22 32C \ \ \

Table 4-4: Entire J1 connection


User Guide

Chapter 5 Silk-Plot of the Board


5 Silk-Plot of the Board

5.1 Silk-plot Top-side

Figure 5-1: Silk-plot top side


User Guide

Chapter 5 Silk-Plot of the Board


5.2 Silk-plot bottom side

Figure 5-2: Silk-plot Bottom side


User Guide

Chapter 6 FLASH-CAN-100P-340 V2.0


6 FLASH-CAN-100P-340 V2.0

6.1 Overview The FLASH-CAN-100P-340 V2.0 is a multifunctional evaluation board for the Fujitsu 16LX Flash microcontroller MB90340 Series, MB90800 Series, MB90860 Series and MB90945 Series and 16FX MB96340 Series.

In this user guide MB96340 series are taken as the target MCU!

6.2 Features < Supports the following series in FPT-100P-M06/M22 package:

< MB90340 Series: MB90V340A, MB90F347/SxPF, MB90F34xPF

< MB90800 Series: MB90V800, MB90F804xPF (MB90800 Series does not support CAN, 3V device)

< MB90860 Series: MB90V340A, MB90F867/SxPF (MB90860 Series does not support CAN)

< MB90945 Series: MB90V390H, MB90F945PF

< MB96340 Series: MB96V300, MB90F34xPQC, MB90F347x < 9-12 V unregulated external DC power supply usable

< 5 V and 3.3 V internal power supply, Power-LED (D17, D18, D16)

< In-Circuit serial Flash programming (X3)

< All resources available for evaluation

< All pins routed to connectors (X1, X2)

< 4 MHz main-crystal, 32 kHz subclock-crystal (selectable by jumpers)

< Two UART interfaces (X3 ,X5)

< Two LIN interfaces (X6, X8)

< Two High-Speed CAN Transceivers (X10, X11)

< 8 User LEDs, optional: alphanumeric standard LC-Display connectable instead of LEDs

< Reset-Button, Reset-LED (SW6)

< 5 User-buttons (SW1-SW5)

< 96 pin VG connector (X4)


User Guide



6.3 Jumper setting for MB96340 Series The following jumpers on the evaluation board are set for the MB96340 Series.

Jumper Description / Function Type Default MB96340 Coordinates

JP1a UART A (TXD) / UART0(MB90340/MB96340) Jumper 2 pol Closed D14JP1b UART A (TXD) / UART0(MB90800) / SIO4(MB90945) Jumper 2 pol Open D14JP1c UART A (TXD) / UART0(MB90945) Jumper 2 pol Open D14JP2a UART A (RXD) / UART0(MB90340/MB96340) Jumper 2 pol Closed EF9JP2b UART A (RXD) / UART0(MB90800) / SIO4(MB90945) Jumper 2 pol Open EF9JP2c UART A (RXD) / UART0(MB90945) Jumper 2 pol Open EF10JP3 DTR/RTS A Jumper 3 pol Open D4JP4 RESET UART A/B Jumper 3 pol Open E10JP5 DTR/RTS B Jumper 3 pol Open D8

JP6a UART B (RXD) / UART2(MB90340/MB96340) Jumper 2 pol Closed EF12JP6b UART B (RXD) / UART1(MB90800) Jumper 2 pol Open EF12JP6c UART B (RXD) / UART3(MB90945) Jumper 2 pol Open EF13JP8a UART B (TXD) / UART2(MB90340/MB96340) Jumper 2 pol Closed EF11JP8b UART B (TXD) / UART1(MB90800) Jumper 2 pol Open EF11JP8c UART B (TXD) / UART3(MB90945) Jumper 2 pol Open EF12JP7 Direct/Delay Reset Jumper 3 pol 1-2 D11JP9 LIN B enable Jumper 2 pol Open G13

JP10 LIN B Master-Mode Jumper 2 pol Open E3JP11 AVcc Jumper 2 pol Closed K21JP12 SW1 Jumper 2 pol Closed G9JP13 AVcc=AVRH Jumper 2 pol Closed J21JP14 SW2 Jumper 2 pol Closed G9JP15 AVss Jumper 2 pol Closed K19JP16 SW3 Jumper 2 pol Closed F10JP17 LIN A enable Jumper 2 pol Open H13JP18 LIN A Master-Mode Jumper 2 pol Open H3JP19 AVSS=AVRL Jumper 2 pol Closed J20JP20 SW4 Jumper 2 pol Closed F10JP21a LIN A (RXD) / LINUART1(90340/MB96340) Jumper 2 pol Open H13JP21c LIN A (RXD) / LINUART3(90945) Jumper 2 pol Open H13JP22a LIN A (TXD) / LINUART1(90340) Jumper 2 pol Open H13JP22c LIN A (TXD) / LINUART3(90945) Jumper 2 pol Open H13JP23 SW5 Jumper 2 pol Closed F9JP24 RESET Jumper 2 pol Closed D14JP25 CAN A (TXD) / CAN0(MB90340/MB96340) Jumper 2 pol Closed J12JP26 CAN A (RXD) / CAN0(MB90340/MB96340) Jumper 2 pol Closed J12JP27a CAN B (TXD) / CAN1(MB90340/MB96340) Jumper 2 pol Closed J12JP27c CAN B (TXD) / CAN1(MB90945) Jumper 2 pol Open J12JP28a CAN B (RXD) / CAN1(MB90340/MB96340) Jumper 2 pol Closed K13JP28c CAN B (RXD) / CAN1(MB90945) Jumper 2 pol Open K13JP29 int/ext VCC Jumper 3 pol 1-2 J17JP30 VCC 5V/3V3 Jumper 3 pol 1-2 J17JP31 RTS-CTS A Jumper 2 pol Closed D4JP32 RTS-CTS B Jumper 2 pol Closed D8JP33 C-Pin to MCU_VCC sold-Jumper Open H22JP34 MCU VCC Jumper 2pol Closed J17JP35 DTR / DTRx Jumper 3 pol Open F11JP36 X0A select Jumper 4 pol 1-4 G22JP37 X1A select Jumper 3 pol 1-2 G22JP38 LIN B (RXD) / LINUART3(90340/MB96340) Jumper 2 pol Open G12JP39 LIN B (TXD) / LINUART3(90340/MB96340) Jumper 2 pol Open G12JP40 C-Pin Jumper 2 pol Closed G22JP41 P00/P65 Jumper 3 pol 1-2 E17JP42 P01/P66 Jumper 3 pol 1-2 E17JP43a SCK0(MB90340/MB96340) Jumper 2 pol Closed D16JP43b SCK0(MB90800) / SCK4(MB90945) Jumper 2 pol Open D16JP44 SIN_A Jumper 2 pol Closed F8JP45 VBat A Jumper 2 pol Open E4JP46 VBat B Jumper 2 pol Open G4JP47 Power Jumper 2 pol Closed L12JP48 VCC CAN-transceiver, CAN A Sold-Jumper 3 pol 1-2 J11JP49 VCC CAN-transceiver, CAN B Sold-Jumper 3 pol 1-2 J11


User Guide



Jumper Description / Function Type Default MB96340 Coordinates

JP52 TLE6259(2-3)/TLE7259(1-2) “WAKE” Sold-Jumper 3 pol 1-2 G11JP53 TLE6259(2-3)/TLE7259(1-2) “WAKE” Sold-Jumper 3 pol 1-2 F11

Table 6-1: Jumper setting for MB96340


User Guide



A B C D E F G H J K L M N

1 1

2 2

3 3

4 4

5 5

6 6

7 7

8 8

9 9

10 10

11 11

12 12

13 13

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 6-1: Jumper Coordinates

UA

RT2

UA

RT0

CA

N0

(CA

N1)

(LIN-UART3)

(LIN-UART1)


User Guide



6.4 Power Supply Voltage The ADA-96340-88121-FLEXRAY

must work together with the FLASH-CAN-100P-340 evaluation board. They are connected via VG96 connector. In terms of power supply only the adapter board is powered via external unregulated DC power supply voltage (9 V - 12 V DC). The evaluation board is powered via the VG96 connector (X4).

By default JP36 on the adapter board is set to connect 1-2. Therefore CC is powered by the on-board 5V Voltage regulation. By connecting 2-3 of the JP29 on the evaluation board, the MCU is supplied by a regulated 5V power source via X4 pin 1. In this case only the LED D16 on evaluation board is light. For more details please reference the USER GUIDE of the evaluation board FLASH-CAN-100P-340 V2.0.

JP29 Power Supply selection


1 - 2 On-board voltage regulation (5V/3.3V) JP29 (Vcc)

2 - 3 External power-supply from VG96 connector (X4 pin 1)

Table 6-2: Jumper settings for power supply


User Guide



6.5 External bus interface External bus interface is used by MCU for 16-bit parallel communication with CC. Some pins of MCU are reserved for the external bus interface.

In addition to the default jumper settings in Table 6-1, following changes on the FLASH-CAN-100P-340 evaluation board must be done to make the corresponding pins available for the external bus interface. For more details please reference the USER GUIDE of the evaluation board FLASH-CAN-100P-340 V2.0.

UART B (X5)


JP6a Open Disconnected from MCU pin 24

JP8a Open Disconnected from MCU pin 25

User Buttons (SW1-SW5)


JP16 (SW3) Open Disconnected from MCU pin 85

LEDs (D1-D8)

Resistor network

Setting Description

N1 Removed LEDs disconnected from MCU pin 77--pin 84

Table 6-3: Jumper settings for external bus


User Guide

Chapter 7 Trouble Shooting


7 Trouble Shooting

Problem Solution

Reset button does not work

Check voltage supply:

In case of using FLAS-CAN-100P-340 V2.0 the board need to be supplied via power connector X12. The reset device is monitoring both supplies 3.3V and 5V which cannot be supplied by Vcc extern line. (ADA-96340-88121-FLEXRAY board).

The FLASH-CAN-100P-340 V1.0 and V1.1 are using another reset device. For this version no power supply at Flash-CAN-100P-340 is required.


User Guide

Chapter 8 Appendix


8 Appendix

8.1 Tables Table 2-1: Default jumper settings........................................................................................ 10 Table 3-1: Default DIP Switch settings ................................................................................. 12 Table 3-2: Multiplexed operating mode ................................................................................ 13 Table 3-3: SPI operating mode ............................................................................................ 14 Table 3-4: Jumper settings by SPI operating mode.............................................................. 15 Table 3-5: Power supply jumper settings.............................................................................. 16 Table 3-6: Jumper Settings of FlexRay power switching ...................................................... 16 Table 3-7: FlexRay “Channel A” jumper settings.................................................................. 17 Table 3-8: FlexRay “Channel B” jumper settings.................................................................. 18 Table 3-9: Pin assignment by different mode ....................................................................... 19 Table 3-10: Jumper settings for Interrupt pin assignment..................................................... 20 Table 3-11: Address range of external bus areas................................................................. 21 Table 3-12: Default jumper settings for external bus areas .................................................. 21 Table 3-13: Button SW1....................................................................................................... 22 Table 4-1: FlexRay Connector Signals................................................................................. 23 Table 4-2: Debug Pin ........................................................................................................... 24 Table 4-3: J1 connector by default settings .......................................................................... 25 Table 4-4: Entire J1 connection............................................................................................ 27 Table 6-1: Jumper setting for MB96340 ............................................................................... 32 Table 6-2: Jumper settings for power supply........................................................................ 34 Table 6-3: Jumper settings for external bus ......................................................................... 35


User Guide

Chapter 8 Appendix


8.2 Figures Figure 2-1: AC plug adapter ................................................................................................... 8 Figure 2-2: AC plug adapter selection .................................................................................... 8 Figure 2-3: DC voltage selection ............................................................................................ 8 Figure 2-4: Low voltage adapter selection.............................................................................. 8 Figure 2-5: Connection between evaluation board and adapter board ................................... 9 Figure 2-6: Jumper Coordinates........................................................................................... 11 Figure 3-1: Default DIP Switch settings................................................................................ 12 Figure 4-1: Power Connector ............................................................................................... 23 Figure 4-2: FlexRay Connector ............................................................................................ 23 Figure 5-1: Silk-plot top side................................................................................................. 28 Figure 5-2: Silk-plot Bottom side .......................................................................................... 29 Figure 6-1: Jumper Coordinates........................................................................................... 33


User Guide

Chapter 9 Related Products


9 Related Products < FLASH-CAN-100P340 Evaluation board for the 16FX series < MB88121B FlexRay stand alone Communication transceiver


User Guide

Chapter 10 Recycling


10 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 --

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