Related Manuals for Fujitsu Flash-64P-M01
Summary of Contents for Fujitsu Flash-64P-M01
- Page 1 Flash-64P-M01/M09 Flash-64P-M01/M09 Evaluation Board Documentation © Fujitsu Mikroelektronik GmbH Rev. 1.1 Page 1...
- Page 2 Flash-64P-M01/M09 History Revision Date Comment V1.0 10.05.99 New Document V1.1 09.07.99 History Table added on page 2, addendum 1 included in chapter 1.4.2 Page 2...
- Page 3 1 year from the date of receipt by the customer. Should a Product turn out to be defect, Fujitsu Mikroelektronik GmbH´s entire liability and the customer´s exclusive remedy shall be, at Fujitsu Mikroelektronik GmbH´s sole discretion, either return of the purchase...
- Page 4 NO LIABILITY FOR CONSEQUENTIAL DAMAGES To the maximum extent permitted by applicable law, in no event shall Fujitsu Mikroelektronik GmbH and its suppliers be liable for any damages whatsoever (including but without limitation, consequential and/or indirect damages for personal injury, assets of...
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Page 5: Table Of Contents
1.6 Related Products 1.7 Connectors 1.7.1 Edge connectors (J16, J17, J18, J19) 1.7.2 Serial Interface connectors X2, X3 1.7.3 Power connector X1 2. Installation 3. Schematics and Drawings 3.1 Top Assembly Flash-64P-M01/M09 evluation board 3.2 Schematics Flash-64P-M01/M09 evaluation board Page 5... -
Page 6: Hardware Description
1. Hardware description 1.1 Overview The Flash-64P-M01/M09 is a low cost multifunctional evaluation board for the Fujitsu 16-Bit Flash microcontroller series MB90560, MB90560L and MB90565. It can be used stand alone for software development and testing or as a simple target board to work with the emulator system. -
Page 7: Jumpers And Switches
Flash-64P-M01/M09 By default the board is working with a 4MHz crystal as the main oscillation clock, so internal clock rates up to 16MHz can be generated using the internal PLL of the µC. Two separate RS232 transceiverss can be used to connect directly the two on-chip UARTs to the 9 pin D-Sub connectors. -
Page 8: Define Μc Operating Mode (Dip Switch S1)
Flash-64P-M01/M09 1.4.1 Define µC Operating Mode (DIP Switch S1) The DIP switch S1 is used to set the operating mode of the µC and to configure the two serial interfaces. S1/1, S1/2 and S1/3 are used to set the three mode pins MD0, MD1, MD2 of the microcontroller. -
Page 9: Power Supply Voltage (J1, J7)
Flash-64P-M01/M09 1.4.2. Power Supply Voltage (J1, J7) The evaluation board can be configured to work with +3.3V or +5.25V power supply voltage. So even the serial interfaces will work with +3.3V or +5.25V power supply. Note: The MB90F562 is a 5V only device. The MB90F562L is a 3V only device. -
Page 10: Define External Interrupts Int0, Int1 (J8, J24)
Flash-64P-M01/M09 1.4.3 Define External Interrupts INT0, INT1 (J8, J24) J8 and J24 are used to connect the push buttons INT1 and INT0 to the external interrupts INT1 and INT0. The push buttons are connected to the external interrupts INT0 and INT1. Additionally a 10k/10µF RC low pass filter is used for both interrupt inputs to suppress glitches. -
Page 11: Reset Generation (J9, J10)
Flash-64P-M01/M09 Jumper setting Description ON (closed) SIN1 connected SIN1 (J22) OFF (open) No connection ON (closed) SOT1 connected SOT1 (J23) OFF (open) No connection Figure 7: J22, J23 jumper setting for the Serial Interface (default: SIN1= 0N, SOT1 = ON) Some DIP switches of switch S1 (S1/5 and S1/6) are used to shortcut RTS to CTS of the corresponding serial UART interface. -
Page 12: Configuration Of The Analog Interface (J2, J3, J4)
Flash-64P-M01/M09 Jumper setting Description 1-2 (RST0) DTR of UART0 used to RST0 / RST1 (J9) generate Reset 2-3 (RST1) DTR of UART1 used to generate Reset 1-2 (DTR) No polarity inversion DTR / /DTR (J10) for the DTR signal 2-3 (/DTR) - Page 13 Flash-64P-M01/M09 If J2 and J3 are open, the user has to take care to supply an adequate analog voltage supply AVcc and analog ground Avss to the analog interface. Otherwise the analog unit will not work correctly. If J4 is set to OFF, the analog reference voltage AVR is defined by the resistors R5/R6.
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Page 14: Serial Programming Interface
The Flash memory of the MB90560/L series can be programmed in-circuit via the serial UART1 interface. Therefore a special software PC frontend must be used which is available on the Fujitsu Micros CD-ROM. To prepare the evaluation board for the serial programming the following settings must be done: 1. -
Page 15: Related Products
Flash-64P-M01/M09 1.6 Related Products 1. Flash-64P-M01/M09 Evaluation board for MB90560/L Series 2. MB2141A Emulator debugger main unit 3. MB2145-507 Emulation pod 4. MB2132-461 Emulator probe cable for QFP package (FPT- 64P-M09) 5. MB2132-434 Emulator probe cable for SH-DIP package (DIP-64P-M01) 6. -
Page 16: Connectors
Flash-64P-M01/M09 1.7 Connectors 1.7.1 Edge connectors J16, J17, J18, J19 The following table shows the pinning of the edge connectors J16-J19. The pins of the QFP-64 and DIP-64 package are directly connected to these connectors. J16 and J17 are connected to the pins 1-32, J18 and J19 are connected to the pins 33- 64 of the µC. - Page 17 Flash-64P-M01/M09 P10/INT0 P10/INT0 P11/INT1 P11/INT1 P12/INT2 P12/INT2 P13/INT3 P13/INT3 P14/INT4 P14/INT4 P15/INT5 P15/INT5 P16/INT6 P16/INT6 P17/FRCK P17/FRCK P20/TIN0 P20/TIN0 P21/TO0 P21/TO0 P22/TIN P22/TIN P23/T01 P23/T01 P24/IN0 P24/IN0 P25/IN1 P25/IN1 P26/IN2 P26/IN2 P27/IN3 P27/IN3 P30/RTO0 P30/RTO0 P31/RTO1 P31/RTO1 P32/RTO2 P32/RTO2 P33/RTO3...
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Page 18: Serial Interface Connectors
Flash-64P-M01/M09 1.7.2 Serial Interface connectors X2, X3 The following diagram shows the connection of the 9-pin D-Sub female connectors X2 and X3 which are used for the serial interfaces GND DTR RXD TXD TXD is the transmit output, RXD is the receive input. The DTR signal is used as an input ,which can be connected to generate a reset. -
Page 19: Installation
Flash-64P-M01/M09 2.0 Installation Carefully remove the board from the shipping carton. Check first if there are any damages before power on the evaluation board. Note: For the power supply a DC input voltage of about 7,5V is recommended. The positive voltage (+) must be connected to the shield, and ground (GND) must be connected to the centre of the connector X1! After power-on, the green power-on LED should be on. -
Page 20: Schematics And Drawings
Flash-64P-M01/M09 3. Schematics and Drawings 3.1 Top Assembly Flash-64P-M01/M09 evaluation board 3.2 Schematics of Flash-64P-M01/M09 evaluation board Page 20... - Page 21 Flash-64P-M01/M09 Page 21...