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Summary of Contents for Phytec PCM-995
- Page 1 Development Board for phyCORE-MPC555 PCM-995 Hardware Manual Edition November 2000 A product of a PHYTEC Technology Holding company...
- Page 2 The information in this document has been carefully checked and is believed to be entirely reliable. However, PHYTEC Meßtechnik GmbH assumes no responsibi- lity for any inaccuracies. PHYTEC Meßtechnik GmbH neither gives any guarantee nor accepts any liability whatsoever for consequential damages resulting from the use of this manual or its associated product.
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Page 3: Table Of Contents
3.3 Target configuration JP4, JP15, JP16 ........19 3.4 Supply Voltages JP10 to JP12, J1..........20 3.5 Interrupt-Push-Button JP18 ............21 3.6 CAN bus termination JP13 and JP14.........22 3.7 Default Jumper Configurations overview........23 Technical Specifications..............25 Index ......................27 © PHYTEC Meßtechnik GmbH 2000 L-525e_2... - Page 4 Figure 9: Numbering of the Jumper-pads ..........15 Figure 10: Location of the Jumpers (top side) ..........15 Figure 11: Default Jumper Configuration............ 23 Figure 12: Physical Dimensions..............25 Table 1: Pinout of the I/O connector VG1 ..........13 © PHYTEC Meßtechnik GmbH 2000 L-525e_2...
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Page 5: Preface
Preface Preface This manual describes only the functions of the PHYTEC Development Board. The controllers and relevant Single Board Computers for use with the Development Board are not described herein. Additional controller- and board-level information and technical descriptions can be found in appropriate Hardware Manual or User’s Manual support documentation. - Page 6 EMV- Statutes. Only after doing so the devices are allowed to be put into circulation. PHYTEC supports all common 8-, 16- and 32-bit controllers in two ways: as the basis for Rapid Development and Starter Kits in which...
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Page 7: Introduction
The PHYTEC phyCORE Development Board, in EURO-card dimensions (160 x 100 mm.), is a universal carrier board for start-up and programming of the PHYTEC phyCORE-MPC555 Single Board Computer module with two high density SMT (160 pins each, 0.63 mm. pitch) pin header connectors. The Development Board is fully... - Page 8 • two DB-9 plugs for two separate CAN interfaces with configurable terminating resistors • DB-25 plug for BDM interface to support direct connection to PC printer-port • 2 x 5 standard width pin header rows to support other BDM- interfaces © PHYTEC Meßtechnik GmbH 2000 L-525e_2...
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Page 9: Development Board Block Diagram
Switch S2 terminator CAN_0 phyCORE- connector Wake-UP RS232_1 Switch S1 RS232_0 jumper field /IRQ[0..7] printer port BDM-interface DB25 Switch S5 debug/run MPIO0 MPIO1 Figure 1: Block Diagram of the Development Board © PHYTEC Meßtechnik GmbH 2000 L-525e_2... -
Page 10: Overview Of The Development Board
Development Board for phyCORE-MPC555 1.2 Overview of the Development Board Figure 2: Development Board Overview (component side) © PHYTEC Meßtechnik GmbH 2000 L-525e_2... -
Page 11: Development Board Connectors
• VG1 – VG-96 periphery connector, • P1 – DB-25 plug of the onboard BDM-Interface, • P2 and P3 – DB-9 sockets for both RS-232 interfaces, • P4 and P5 – DB-9 plugs for both CAN interfaces. © PHYTEC Meßtechnik GmbH 2000 L-525e_2... -
Page 12: Figure 3: Location Of The Connectors
Development Board for phyCORE-MPC555 Figure 3: Location of the Connectors © PHYTEC Meßtechnik GmbH 2000 L-525e_2... -
Page 13: Power Connectors X5
X5 must be used Attention: Please do not use a laboratory or variable power supply, as power spikes during power-up could destroy the PHYTEC module mounted on the Development Board. Please also avoid changing Jumpers or modules while the Development Board is powered up. -
Page 14: Figure 4: Polarity Of The Power Connector At X5
+7V=..13V= 2,0mm 5,5mm 1000mA Figure 4: Polarity of the Power Connector at X5 © PHYTEC Meßtechnik GmbH 2000 L-525e_2... -
Page 15: Socket P1 - Bdm Interface
RXD1 (RS-232) Pin 5: Figure 5: Pinout of DB-9 socket P2 (front view) DB-9 socket P3 Pin 2: TXD2 (RS-232) Pin 3: RXD2 (RS-232) Pin 5: Figure 6: Pinout of DB-9 socket P3 (front view) © PHYTEC Meßtechnik GmbH 2000 L-525e_2... -
Page 16: Plugs P4 And P5 - Can Interfaces
Pinout of the DB-9 plug at P5 (front view) For each CAN channel a terminating resistor of 120R is configurable via jumper. Closing Jumper JP13 terminates CAN channel A (P4), while closing Jumper JP14 terminates CAN channel B (P5). © PHYTEC Meßtechnik GmbH 2000 L-525e_2... -
Page 17: I/O-Connector Vg1
MDA6 MDA7 MDA8 MDA9 MPWM0 MPWM1 MPWM2 MPWM3 MPIO8 MPIO9 MPIO10 MPIO11 MPIO12 MPIO13 MPIO14 MPIO15 QGPIO0 QGPIO1 QGPIO2 QGPIO3 QGPIO4 QGPIO5 QGPIO6 +5VEXT +5VEXT +5VEXT Table 1: Pinout of the I/O connector VG1 © PHYTEC Meßtechnik GmbH 2000 L-525e_2... - Page 18 For 13V input voltage, the maximum current allowed for the +5V path amounts to 250mA. Additional information of the signals can be found in the phyCORE-MPC555 Hardware-manual and in the Motorola User’s Manual MPC555. © PHYTEC Meßtechnik GmbH 2000 L-525e_2...
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Page 19: Jumper Layout
Figure 10 indicates the location of the jumpers on the board. eg.: JP17 eg.: J1, JP4 –JP14 eg.: JP18 eg.: JP1, JP3 eg.: JP2, JP15, .. Figure 9: Numbering of the Jumper-pads Figure 10: Location of the Jumpers (top side) © PHYTEC Meßtechnik GmbH 2000 L-525e_2... - Page 20 • Supply Voltage related jumpers: J1, JP10 to JP12 • Interrupt-Push-Button related jumper: JP18 • Reset-Push-Button related jumper: JP3 • Target configuration jumpers: JP4, JP13, JP16 • CAN bus termination jumper: JP13 and JP14 © PHYTEC Meßtechnik GmbH 2000 L-525e_2...
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Page 21: Bdm Interface Jp1, Jp2, Jp5 To Jp9, Jp17
JP1, JP2, JP5 to JP9 must be removed. Select the appropriated BDM supply voltage with J17. Some BDM interfaces provide their own power supply and do not need the supply voltage of the development board. © PHYTEC Meßtechnik GmbH 2000 L-525e_2... -
Page 22: Reset-Push-Button Jp3
Connects /HRESIN to the push-button. Connects /HRESET to the push-button. Connects /SRESET to the push-button. Connects /PORESET to the push-button. It is not allowed to close more than one jumper at the same time. © PHYTEC Meßtechnik GmbH 2000 L-525e_2... -
Page 23: Target Configuration Jp4, Jp15, Jp16
Enables Hard-Reset-Configuration from internal default. Enables Hard-Reset-Configuration from external sources. Attention: JP16 does not work with phyCORE-MPC555 PCB revision 1169.0 and should be removed. External or internal Reset-Configuration-Word must be configured with jumper J5 on the phyCORE-MPC555. © PHYTEC Meßtechnik GmbH 2000 L-525e_2... -
Page 24: Supply Voltages Jp10 To Jp12, J1
JP12 JP12 connects the +3V3 supply voltage to the closed target module. LED D10 is connected to this voltage and illuminates unaffected by the target power-down mode. © PHYTEC Meßtechnik GmbH 2000 L-525e_2... -
Page 25: Interrupt-Push-Button Jp18
Ensure that push-button S5 is not pressed while /PORESET is active if jumper JP18 is closed at 11+12, 13+14 or 15+16, i.e. ensure that signals connected to /IRQ5 to /IRQ7 remain in tristate while /PORESET is active. © PHYTEC Meßtechnik GmbH 2000 L-525e_2... -
Page 26: Can Bus Termination Jp13 And Jp14
JP13 connects a terminating resistor to the closed CAN bus A signals CANH and CANL at DB- 9 connector P4. JP14 JP14 connects a termination resistor to the closed CAN bus B signals CANH and CANL at DB-9 connector P5. © PHYTEC Meßtechnik GmbH 2000 L-525e_2... -
Page 27: Default Jumper Configurations Overview
In debug mode the CPU is stopped and the red LED D11 illuminates. To start the phyCORE after any reset in normal mode, remove JP6. Figure 11: Default Jumper Configuration © PHYTEC Meßtechnik GmbH 2000 L-525e_2... - Page 28 Development Board for phyCORE-MPC555 © PHYTEC Meßtechnik GmbH 2000 L-525e_2...
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Page 29: Technical Specifications
PCB is ca. 16 mm. The profile of the underside of the Development Board is ca. 3 mm. The PCB itself is approximately 1.6 mm thick. It is not possible to insert the device in a 19‘‘ chassis. Figure 12: Physical Dimensions © PHYTEC Meßtechnik GmbH 2000 L-525e_2... - Page 30 Development Board as of printing of this manual. Please note that storage temperature is only 0°C to +70°C if the Development Board is mounted with a phyCORE module with a battery buffer for the RAM device and the Real-Time Clock. © PHYTEC Meßtechnik GmbH 2000 L-525e_2...
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Page 31: Index
I/O-Connector ......13 Physical Dimensions ....25 Power Connectors......9 J1 ..........20 JP1 ..........17 JP10 ...........20 RS-232 Interface......11 JP11 ...........20 JP12 ...........20 JP15 ...........19 Technical Specifications....25 JP16 ...........19 terminating resistor....12 JP17 ...........17 JP18 ...........21 JP2 ..........17 VG1 ...........13 © PHYTEC Meßtechnik GmbH 2000 L-525e_2... - Page 32 Development Board for phyCORE-MPC555 © PHYTEC Meßtechnik GmbH 2000 L-525e_2...
- Page 33 How would you improve this manual? Did you find any mistakes in this manual? page Submitted by: Customer number: Name: Company: Address: Return to: PHYTEC Technologie Holding AG Postfach 100403 D-55135 Mainz, Germany Fax : +49 (6131) 9221-33 © PHYTEC Meßtechnik GmbH 2000 L-525e_2...
- Page 34 Published by © PHYTEC Meßtechnik GmbH 2000 Ordering No. L-525e_2 Printed in Germany...
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