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Summary of Contents for Phytec phyCORE-XC167
- Page 1 Hardware Manual Edition June 2003 A product of a PHYTEC Technology Holding company...
- Page 2 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. PHYTEC Meßtechnik GmbH reserves the right to alter the information contained herein without prior notification and accepts no responsibility for any damages which might result.
- Page 3 Table of Contents Preface ......................1 Introduction ..................3 1.1 Block Diagram................6 1.2 View of the phyCORE-XC167 .............7 Pin Description..................9 Jumpers ....................17 3.1 J1, J2 A/D Reference Voltage ...........23 3.2 J3 Internal or External Program Memory ........23 3.3 J4, J35 SRAM U6/U7 Chip Select ..........24 3.4 J5 SRAM Memory Size.............25...
- Page 4 11.1 Fundamentals................53 11.2 Memory Mode ................53 Debug Interface ................. 55 Technical Specifications..............59 Hints for Handling the phyCORE-XC167 ........61 The phyCORE-XC167 on the phyCORE Development Board HD200 2.5V ................63 15.1 Concept of the phyCORE Development Board HD200..... 63 15.2 Development Board HD200 2.5V Connectors and Jumpers..
- Page 5 Table of Contents Index of Figures Figure 1: Block Diagram phyCORE-XC167 ..........6 Figure 2: View of the phyCORE-XC167 .............7 Figure 3: Pinout of the phyCORE-Connector (Top View, with Cross Section Insert)................11 Figure 4: Numbering of the Jumper Pads...........17 Figure 5: Location of the Jumpers (Controller / Connector Side)....18 Figure 6: Timing Phases for Multiplexed Bus Mode.........40...
- Page 6 Table 11: J11, J12, J15, J16 CAN Interface Configuration....... 28 Table 12: J19 P2.11 / RTC Interrupt Configuration........29 Table 13: J20, J21 P9.4, P9.5 / I C Bus Configuration ......29 Table 14: J22 RTC Clock Output Configuration........30 © PHYTEC Meßtechnik GmbH 2003 L-623e_1...
- Page 7 Table 36: JP22, JP23, JP10 Configuration of Boot via RS-232 ....74 Table 37: Improper Jumper Settings for Boot via RS-232 ......74 Table 38: Jumper Configuration for the First RS-232 Interface....75 Table 39: Improper Jumper Settings for DB-9 Socket P1A as First RS-232................76 © PHYTEC Meßtechnik GmbH 2003 L-623e_1...
- Page 8 Table 44: Improper Jumper Settings for DB-9 Socket P1B (no Second RS-232) ..................81 Table 45: Jumper Configuration for CAN Plug P2A using the CAN Transceiver on the phyCORE-XC167........82 Table 46: Jumper Configuration for CAN Plug P2A using the CAN Transceiver on the Development Board ........83 Table 47: Improper Jumper Settings for the CAN Plug P2A (CAN Transceiver on the Development Board)........
- Page 9 Table 58: Pin Assignment Port P1, P2, P3 for the phyCORE-XC167 / Development Board / Expansion Board ........96 Table 59: Pin Assignment Port P4, P5, P6, P7 for the phyCORE-XC167 / Development Board / Expansion Board ........97 Table 60: Pin Assignment Port P9 for the phyCORE-XC167 / Development Board / Expansion Board ........98...
- Page 10 © PHYTEC Meßtechnik GmbH 2003 L-623e_1...
- Page 11 (such as electricians, technicians and engineers) handle and/or operate these products. Moreover, PHYTEC products should not be operated without protection circuitry if connections to the product's pin header rows or connectors are longer than 3 meters.
- Page 12 The phyCORE-XC167 is one of a series of PHYTEC Single Board Computers that can be populated with different controllers and, hence, offers various functions and configurations. PHYTEC supports...
- Page 13 Introduction 1 Introduction The phyCORE-XC167 belongs to PHYTEC’s phyCORE Single Board Computer module family. The phyCORE SBCs represent the continuous development of PHYTEC Single Board Computer technology. Like its mini-, micro- and nanoMODUL predecessors, the phyCORE boards integrate all core elements of a microcontroller...
- Page 14 The phyCORE-XC167 is a subminiature (60 x 53 mm) insert-ready Single Board Computer populated with Infineon’s XC167CI microcontroller. Its universal design enables its insertion in a wide range of embedded applications. All controller signals and ports extend from the controller to high-density pitch (0.635 mm) connectors aligning two sides of the board, allowing it to be plugged like a "big chip"...
- Page 15 • RS-232 transceiver for two serial interfaces • optional CS8900A 10Base-T Ethernet controller Please contact PHYTEC for more information about additional modul configurations. Number of available /CS signals depends on configuration of the phyCORE module. © PHYTEC Meßtechnik GmbH 2003...
- Page 16 RxD1/TxD1 Transceiver RxD1/TxD1 CAN0H/CAN0L CAN0 Transceiver CAN1H/CAN1L CAN1 Transceiver I/O Ports Ports I²C Bus I²C JTAG Port JTAG Port Reset Port 1 Reset EEPROM JTAG RTC8564 MAX690A FRAM Connector Figure 1: Block Diagram phyCORE-XC167 © PHYTEC Meßtechnik GmbH 2003 L-623e_1...
- Page 17 Introduction View of the phyCORE-XC167 Figure 2: View of the phyCORE-XC167 © PHYTEC Meßtechnik GmbH 2003 L-623e_1...
- Page 18 © PHYTEC Meßtechnik GmbH 2003 L-623e_1...
- Page 19 (SMT) connectors (0.635 mm) lining two sides of the module (referred to as phyCORE-connector). This allows the phyCORE-XC167 to be plugged into any target application like a “big chip”. A new numbering scheme for the pins on the phyCORE-connector has been introduced with the phyCORE specifications.
- Page 20 Development Board/user target circuitry. The upper left-hand corner of the numbered matrix (pin 1A) is thus covered with the corner of the phyCORE-XC167 marked with a white triangle. The numbering scheme is always in relation to the PCB as viewed from above, even if all connector contacts extend to the bottom of the module.
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