xPC564A EVB Freescale User Manual v.1.00.book
Contents
1. e Lg 2 freescale XPC564AEVBUM Alliance Member Purchase Agreement P amp E Microcomputer Systems Inc reserves the right to make changes without further notice to any products herein to improve reliability function or design P amp E Microcomputer Systems Inc does not assume any liability arising out of the application or use of any product or circuit described herein This software and accompanying documentation are protected by United States Copyright law and also by International Treaty provisions Any use of this software in violation of copyright law or the terms of this agreement will be prosecuted All the software described in this document is copyrighted by P amp E Microcomputer Systems Inc Copyright notices have been included in the software P amp E Microcomputer Systems authorizes you to make archival copies of the software and documentation for the sole purpose of back up and protecting your investment from loss Under no circumstances may you copy this software or documentation for the purpose of distribution to others Under no conditions may you remove the copyright notices from this software or documentation This software may be used by one person on as many computers as that person uses provided that the software is never used on two computers at the same time P amp E expects that group programming projects making use of this software will purchase a copy of the software and doc2. cccccccccceesencceceeeencceeeseseccceeeedeeneaceeseedenecereeeet 3 2 2 xPC564AADPT Mini Module Board Features 5 2 3 Pin Numbering for Jumpers 6 3 xPC56XXMB HARDWARE 8 JUMPER SETTINGS oooccocccccconcnoncncnnncnnncnnnnns 7 3 1 Power Supplies nun UA Nata dica 9 3 2 LADOS cti iia Ade aa EENEG Eeer ee 13 3 3 Bong seed ENER EEN eREEA RENE EER ENEE ernennen a banana EEN EEeeEA EE 14 3 4 Plot A Eeer 15 3 5 SC TT TT 20 3 6 CAN EE 22 3 7 SI coccion rieron cada edici 25 3 8 PotentioMete amoniaco iria 29 3 9 A east Rand 31 3 10 Expansion Port Pin Mapping DIN41612 4x32 32 3 11 Expansion Port Pin Mapping DIN41612 2x32 ii 33 4 xPC564AADPT324S HARDWARE 8 JUMPER SETTINGS 34 4 1 Boot Configuration rei rn cnc rnn rra rrrnr rra 34 4 2 Power ConfigUr MOM iiooiici a O 36 4 3 System Clock Configuration sirene 40 4 4 General Configuration eee nr carrnnnr rr 41 4 5 E RE 42 4 6 ell ET 43 4 7 External SRAM configuration irinna Taane a 44 5 xPC564AADPT208S xPC564AADPT176S HARDWARE amp JUMPER SET INL Le 47 SPC564A EVB User Manual ii RE mc Ge 5 1 Boot C nfiguration consi assista pala Saddi pasa Spas aaa ind pack a ba 47 5 2 Power Configuration iii illa ideas estaanadasise si daaa res ENEE EEN 48 5 3 System Clock Configuration rrenan 55 5 4 General Configuration
3. MPC564xA Internal Logic Supply Input pins are On default connected to 1 2V MPC564xA Internal Logic Supply Input pins are Off unpowered 4 3 System Clock Configuration The xPC564A Mini Modules support the usage of crystal clock sources as well as external clock sources J16 Crystal clock source enable Both of the jumpers below need to be installed to enable the crystal clock source Jumper Setting Effect The MPC564xA EXTAL signal is connected to the 1 2 default crystal clock source on the xPC564A Mini Module The MPC564xA XTAL signal is connected to the 3 4 default Ar crystal clock source on the xPC564A Mini Module J11 External clock source enable 40 xPC564A EVB User Manual RE micro www pemicro com The xPC564A Mini Module contains a footprint for an SMA connector which can be used to provide an external clock source to the system Jumper Setting Effect The MPC564xA EXTAL signal is connected to the On SMA connector on the xPC564A Mini Module The SMA connector on the xPC564A Mini Module is Off default a disconnected from the processor cio VSSPLL LOpF NX8045GB 40 000M Cll VSSPLL LOpF CLOCK CIRCUIT P2 DONOT POPULATE SMA CONNECTOR O O CLK EXT EN Figure 4 2 System Clock schematic 4 4 General Configuration J13 Reset Enable A RESET push button on the xPC56
4. RE micro www pemicro com 2 2 xPC564AADPT Mini Module Board Features e Can be used as a stand alone board by providing external 5V power supply input e ON OFF Power Switch w LED indicator Reset button with filter and LED indicator e xPC564AADPT176S has socket for MPC564xA in 176LQFP footprint e xXPC564AADPT208S has socket for MPC564xA in 208BGA footprint e xPC564AADPT324S has socket for MPC564xA in 324BGA footprint Debug ports 38 pin Mictor Nexus port and or 14 pin JTAG port e Direct clock input through SMA connector footprint only Jumpers for boot configuration _ ON OFF _ EXTERNAL SU OR 3U3 A A W e SO MPOSEAM COMPATIBLE Garay HPCSS4xA COMPATIBLE 00001 nn W ER o JO 000000000 CEU sn Fe Figure 2 2 xPC564AADPT176S Top Component Placement xPC564A EVB User Manual 5 iniero www pemicro com ON OFF EXTERNAL 5U OR 3U3 e Ze 5 Ed recse Spee COMPATIBLE Kee B ZS COMPATIBLE 5 NN O 0000000 0000000 00000 O ZU en Gaga LE O Figure 2 4 xPC564AADPT324S Top e Placement 2 3 Pin Numbering for Jumpers Jumpers for both the xPC56XXMB motherboard and the xPC564A Mini Modules have a rounded corner to ind
5. naar 56 DEBUGGING PROGRAMMING xPC564A EVB 58 6 1 Hardware Solutions At A Glance uuu02s4440esensnnnnnnnnsnnnnnnnnnnnnnnnnn san 58 6 2 Working With P amp E s USB ML PPCNEXUS nn 59 6 3 Working With P amp E s Cyclone MAX arena 60 SPC564A EVB User Manual RE micro www pemicro com 1 OVERVIEW The xPC564A EVB is an evaluation system supporting Freescale MPC564xA microprocessors The complete system consists of an xPC56XXMB Motherboard and an xPC564AADPT Mini Module which plugs into the motherboard Different Mini Modules are available for evaluating devices with different footprints in the MPC564xA family of microprocessors The evaluation system allows full access to the CPU all of the CPU s I O signals and the motherboard peripherals such as CAN SCI LIN The Mini Module may be used as a stand alone unit which allows access to the CPU but no access to the I O pins or any motherboard peripherals 5V Standalone Reset Debug 12V Power Input Supply Button Connections LO Headers mm wi 3953114 O A TOT TOS nn e Massas WR I WR gel S ar ala LIEF User LEDs Se oh esci I and Buttons FlexRay Trimmer High Speed Left Low Speed Right Figure 1 1 Overview of the xPC564A EVB xPC564A EVB User Manual 1 RE micro www pemicro com 1 1 Package Contents An xPC564A Evaluation Kit includes the followi
6. 2x32 GND ANI GND PANT AN AN AN AN AN AN AN AN NO N2 N4 N N9 PANG AN32 Expansion Port Pin Mapping DIN41612 2x32 xPC564A EVB User Manual 33 RE micro www pemicro com 4 xPC564AADPT324S HARDWARE amp JUMPER SETTINGS 4 1 Boot Configuration The following jumpers affect the operation of the processor as it initially comes out of the reset state J7 BOOTCFGO Configuration Controls the status of the BOOTCFGO pin Jumper Setting Effect 1 2 The BOOTCFGO pin on the processor is pulled up 2 3 default The BOOTCFGO pin on the processor is pulled down J8 BOOTCFG1 Configuration Controls whether the processor boots from internal FLASH or from a serial interface CAN SCI Jumper Setting Effect 1 2 The MPC564xA processor uses serial boot mode 2 3 default The MPC564xA processor uses internal boot mode J9 PLLCFG1 Configuration Controls the status of the PLLCFG1 pin Jumper Setting Effect 34 xPC564A EVB User Manual RE micro www pemicro com 1 2 The PLLCFG1 pin on the processor is pulled up 2 3 default The PLLCFG1 pin on the processor is pulled down J10 WKPCFG Configuration Controls whether specified eTPU and eMIOS pins on the processor are configured with weak pull up or a weak pull down when the processor comes out of reset Jump
7. can be used to connect each button to any processor I O pin if desired Jumper Setting Effect 1 2 default S1 connected to eMIOS18 on the MPC564xA on processor xPC564A EVB User Manual RE micro www pemicro com 3 4 default S2 connected to eMIOS19 on the MPC564xA on processor Si KEY BUTTON USER LED C42 0 luF J15 E EMIOSI8 4 3 EMIOS19 2 KEY BUTTON C43 0 luF Figure 4 5 Buttons circuitry schematic Key Input Circuit 4 7 External SRAM configuration There is an external SRAM module U9 on the xPC564xA Mini Module which is able to be configured for byte write J25 Byte Write A Enable Controls whether Byte Write A Enable is connected to ADDR13 of the MPC564xA processor or ground Jumper Setting Effect 1 2 Byte Write A Enable is connected to ADDR13 of the MPC564xA processor 2 3 Byte Write A Enable is connected to Ground 44 xPC564A EVB User Manual RE micro www pemicro com J26 Byte Write B Enable Controls whether Byte Write B Enable is connected to ADDR14 of the MPC564xA processor or ground Jumper Setting Effect 1 2 Byte Write B Enable is connected to ADDR14 of the MPC564xA processor 2 3 Byte Write B Enable is connected to ground J27 ADDR13 Controls whether ADDR13 of the MPC564xA processor is connected to the external SRAM module U9 Jumper Setti
8. can be used to reset the processor Jumper Setting Effect The RESET button on the xPC564A Mini Module is On default bled enable The RESET button on the xPC564A Mini Module is disabled Off 56 xPC564A EVB User Manual Iniero www pemicro com PsV PsV PsV _ A RI5 RESETOUT RESET ADM6315 26D3ARTZ Figure 5 3 Reset circuitry schematic xPC564A EVB User Manual 57 RE micro www pemicro com 6 DEBUGGING PROGRAMMING xPC564A EVB P amp E provides hardware and software tools for debugging and programming the xPC564A EVB system P amp E s USB ML PPCNEXUS and Cyclone MAX offer two effective hardware solutions depending on your needs The USB ML PPCNEXUS is a development tool that will enable you to debug your code and program it onto your target The Cyclone MAX is a more versatile and robust development tool with advanced features and production programming capabilities as well as Ethernet support More information is available below to assist you in choosing the appropriate development tool for your needs 6 1 Hardware Solutions At A Glance The USB ML PPCNEXUS offers an affordable and compact solution for your development needs and allows debugging and programming to be accomplished simply and efficiently Those doing rapid development will find the USB ML PPCNEXUS easy to use and fully capable of fast paced debugging and programming The Cyclone MAX is a more com
9. the Pin Array headers AND ANS 1 LAN AND 1 AMA ANA PANG LI AL 1 L AND AND ANA AN 1 L ANE x L vn 1 Web Figure 3 10 Pin Mapping xPC564A EVB User Manual 31 micro www pemicro com 032 031 030 029 028 D27 D26 025 D24 023 022 021 020 019 018 017 016 015 014 013 012 011 010 09 OS 07 D6 05 D4 03 C32 C31 C30 C29 C28 C27 C26 C25 C24 C23 C22 C21 C20 C19 C18 C17 C16 C15 C14 C13 C12 C11 C10 C9 ca C7 C6 C5 ca C 832 B31 B30 829 B28 827 B26 B25 824 B23 B22 821 820 819 818 B17 B16 815 814 B813 B12 811 810 B9 BS B7 B6 BS Ba B3 A32 A31 A30 A29 A28 A27 A26 A25 A24 A23 A22 A21 A20 A19 A18 A17 A16 A15 A14 A13 A12 A11 A10 AS AB A7 AG AS A4 A3 A2 mm mm mm wm wm XPCSEXX CUB MOTHERBOMRO 32 GPIO204 Mmoo6 EMIOS16 EMIOS18 MDOH EMIOS20 EMIOS22 ETPUALY ETPUA O ETPUAZI ETPUAZ 3 ETPUA25 ETPUA27 ETPUAZO ETPUAJ I ANO EMIOS2 IV EMIOSIO ANO EMIOS8 ANG EMIOS12 AND EMIOS23 EMIOS15 EMIOS3 EMIOS SV Figure 3 11 Expansion Port Pin Mapping DIN41612 4x32 xPC564A EVB User Manual iniero www pemicro com 3 11 Expansion Port Pin Mapping DIN41612
10. 25 LIN1 SCI TxD selection J19 J17 LIN2 enable J21 J18 LIN2 VBUS configuration J31 J20 LIN2 VSUP configuration J20 J21 LIN2 master selection J30 J12 LIN2 SCI RxD selection J29 J19 LIN2 SCI TxD selection J17 J23 SCI RxD Enable J16 J24 SCI TxD Enable J27 J25 LIN1 SCI TxD selection xPC564A EVB User Manual RE miero J28 J22 LIN1 SCI RxD selection J14 J28 CAN H Transmit Enable J15 J27 CAN H TxD RxD Enable J13 J31 CAN L CTE J12 J30 CAN L Enable J11 J29 CAN L TxD RxD Enable J25 J32 FlexRay Bus Driver 1 Enable J26 J35 FlexRay Bus Driver 1 Configuration J34 J34 FlexRay 1 Terminal Resistor Connection J35 J33 FlexRay 1 Terminal Resistor Connection J32 J36 FlexRay Bus Driver 2 Enable J33 J39 FlexRay Bus Driver 2 Configuration J38 J38 FlexRay 2 Terminal Resistor Connection J39 J37 FlexRay 2 Terminal Resistor Connection J18 J40 POT Enable 3 1 Power Supplies The xPC56XXMB obtains its power from the 12VDC Center Positive input barrel connector The following jumpers are used to configure the power supply output xPC564A EVB User Manual RE micro www pemicro com J3 VBat low voltage detection Jumper Setting Effect On Low battery detection is enabled Off default Low battery detection is disabled J4 VIO Peripherals Logic Level Jumper Setting Effect 1 2 Onboard peripherals are configured for 3 3V l
11. 4A Mini Module can be used to reset the xPC564A EVB User Manual 41 RE micro www pemicro com processor Jumper Setting Effect The RESET button on the xPC564A Mini Module is On default bled enable The RESET button on the xPC564A Mini Module is Off disabled RED LED D5 PsV PsV PsV 77 510 Ohm Us RESET SN74LVCI G08 vec en r MR RESET 0 1uF i GND ADM6315 26D3ARTZ RESET CIRCUIT Figure 4 3 Reset circuitry schematic 4 5 LEDs There are two user LEDs available on the xPC564A Mini Module All LEDs are active low J12 LEDs Enable Controls whether the LEDs on the xPC564A Mini Module are connected to O pins of the processor The jumpers can be removed and wires can be used 42 xPC564A EVB User Manual RE moore www pemicro com to connect each LED to any processor I O pin if desired Jumper Setting Effect 1 2 default LED1 connected to eMIOS16 on the MPC564xA on processor 3 4 default LED2 connected to eMIOS17 on the MPC564xA on processor LED R20 PsV 510 Ohm EMIOSI6 EMIOS17 PsV 510 Ohm xy Figure 4 4 LEDs circuitry schematic 4 6 Buttons There are two user buttons available on the xPC564A Mini Module J15 Buttons Enable Controls whether the buttons on the xPC564A Mini Module are connected to I O pins of the MPC564xA processor The jumpers can be removed and wires
12. 4xA processor xPC564A EVB User Manual micro www pemicro com us TXD vec RXD cann E 1 37K 4 s cant ES Jon vee BK OR TIATOSOT CAN Interface Circuit un SNZALVC2G126 10E E VDDS 130 12VVDD5 ot ES IXI HEADER 129 PA s gt NRX CNTXA 5 l GRXG 5 e CNIXC VIO_REF An vo LM7219M5 Figure 3 7 CAN schematic 3 7 FlexRay The xPC56XXMB has footprints for two FlexRay interfaces However only one circuit is assembled by default The FlexRay circuit comprises of two DB9 connectors DB3 contains signals for both FlexRay channels and is compatible with major FlexRay tools DB5 contains channel B signal thereby also allowing 2 separate FlexRay connectors for channel A and channel B operation J32 FlexRay Bus Driver 1 Enable Controls whether the TxD TxEN RxD pins on FlexRay channel A is xPC564A EVB User Manual 25 RE micro www pemicro com 26 connected to the default I O pin on the MPC564xA processor Jumper Setting Effect 1 2 The TxD pin of the FlexRay Channel A interface is connected to the FR A TX pin of the MPC564xA processor 3 4 The TxEN pin of the FlexRay Channel A interface is connected tothe FR A TX EN pin of the MPC564xA processor 5 6 The RxD pin of the FlexRay Channel A interfa
13. 50 xPC564A EVB User Manual RE micro www pemicro com J17 Debug Ports Power Configuration Controls whether the power pins on the debug ports VDDE7 on the 14 pin JTAG port and VRE F on the 28 pin Mictor port are connected to 3 3V or 5V Jumper Setting Effect 1 2 2 3 default The power pins on the debug ports are connected to 5V The power pins on the debug ports are connected to 3 3V J18 Processor I O Voltage Configuration Sets the voltage level applied to the I O Supply Input pins of the MPC564xA processor Jumper Setting Effect 1 2 default The I O Supply Input pins of the MPC564xA processor are powered by 5V 2 3 The I O Supply Input pins of the MPC564xA processor are powered by 3 3V J19 Voltage Regulator Configuration Controls whether power is provided to the voltage regulator and LVI block Jumper Setting Effect On default The regulator on the MPC564xA processor is powered xPC564A EVB User Manual 51 RE micro www pemicro com The regulator on the MPC564xA processor is Off unpowered external regulation and low voltage control must be supplied CT1 VRL enable Controls whether ground is provided to the Voltage Reference Low VRL input pin used by the eQADC module on the MPC564xA processor Jumper Setting Effect Connected The VRL pin is
14. XXMB By default xPC564A EVB User Manual 15 RE micro www pemicro com one LIN circuit is assembled LIN 1 and the other circuit is left unpopulated LIN2 J13 LIN1 enable Jumper Setting Effect On Enables the LIN1 transceiver Off default Disables the LIN1 transceiver J14 LIN1 VBUS configuration Jumper Setting On Effect LIN1 VBUS is connected to 12V Off default LIN1 VBUS is not connected to 12V J15 LIN1 VSUP configuration Jumper Setting Effect On LIN1 VSUP is connected to 12V Off default LIN1 VSUP is not connected to 12V 16 xPC564A EVB User Manual RE micro www pemicro com J16 LIN1 master selection Jumper Setting Effect On LIN1 is configured as a master node Off default LIN1 is configured as a slave node J22 LIN1 SCI RxD selection Controls whether the RxD pin on LIN1 or SCI is connected to the default I O pin on the MPC564xA processor Jumper Setting Effect The LIN1 RxD pin is connected to the RXDA pin on 1 2 the MPC564xA processor This should be set if enabling LIN1 The SCI RxD pin is connected to the RXDA pin on the MPC564xA processor 2 3 J25 LIN1 SCI TxD selection Controls whether the TxD pin on LIN1 or SCI is connected to the default I O pin on the MPC564xA processor Jumper Settin
15. ated by jumpers J18 and J19 Jumper Setting Effect Connected VDDREG is powered by DV from the xPC56XXMB default motherboard Disconnected VDDREG is not powered by 5V from the xPC56XXMB motherboard and its power is instead dictated by J18 and J19 CT5 VDDE7 5V Configuration xPC564AADPT208S only This cut trace along with CT3 determine whether the VDDE7 pins are powered by external 3 3V or by the 3 3V VRC33 voltage regulator output from xPC564A EVB User Manual 53 RE micro www pemicro com the MPC564xA processor Jumper Setting Effect Connected VDDE7 is powered by the VRC33 output from the MPC564xA processor Disconnected default VDDE7 is not powered by the VRC33 output from the MPC564xA processor CT6 1 2V Power Generation Controls whether the 1 2 power supply is generated from the NPN transistor or supplied directly from the xPC56XXMB motherboard Jumper Setting Effect Connected 1 2V power is provided directly by the xPC56XXMB motherboard Disconnected default 1 2V power is generated by the NPN transistor circuit on the xPC564A Mini Module CT8 Mictor VEN 102 Configuration Controls whether the VEN_102 pin on the 38 pin Mictor port is connected to the BOOTCFG1 pin on the MPC564xA processor Jumper Setting Effect Connected The VEN_102 pin is connected to BOOTCFG1 54 xPC564A EVB User Manua
16. ce is connected to the FR_A_RX pin of the MPC564xA processor J35 FlexRay Bus Driver 1 Configuration Controls configuration pins on the FlexRay Bus Driver Jumper Setting Effect 1 2 The BGE pin on the FlexRay Bus Driver is pulled up to 5V 3 4 The STBN pin on the FlexRay Bus Driver is pulled up to 5V 5 6 default on The EN pin on the FlexRay Bus Driver is pulled up to 5V 7 8 default on The WAKE pin on the FlexRay Bus Driver is pulled down to GND xPC564A EVB User Manual RE micro www pemicro com J33 amp J34 FlexRay 1 Terminal Resistor Connection Jumper Setting Effect On Terminal resistors connected Off default Terminal resistors not connected J36 FlexRay Bus Driver 2 Enable Controls whether the TxD TxEN RxD pins on FlexRay channel B is connected to the default I O pin on the MPC564xA processor Jumper Setting Effect 1 2 The TxD pin of the FlexRay Channel A interface is connected to the FR B TX pin of the MPC564xA processor The TxEN pin of the FlexRay Channel A interface is connected to the FR B TX EN pin of the MPC564xA processor 5 6 The RxD pin of the FlexRay Channel A interface is connected to the FR_B_RX pin of the MPC564xA processor J39 FlexRay Bus Driver 2 Configuration Controls configuration pins on the FlexRay Bus Driver Jumper Set
17. connected to ground default Disconnected The VRL pin is left disconnected CT2 VRC33 Configuration Controls whether the VRC33 pin of the MPC564xA processor is connected to 3 3V Jumper Setting Effect Connected The VRC33 pin is connected to 3 3V not recommended by the MPC564xA reference manual Disconnected The VRC33 pin is connected only to a bypass capacitor default CT3 VDDE7 3 3V Configuration xPC564AADPT208S only This cut trace along with CT5 determines whether the VDDE7 pins are 52 xPC564A EVB User Manual RE micro www pemicro com powered by external 3 3V or by the 3 3V VRC33 voltage regulator output from the MPC564xA processor When the Mini Module is attached to the xPC56XXMB motherboard the 3 3V external power is directly derived from the motherboard itself When the Mini Module is operated as a stand alone unit the 3 3V power is derived from the voltage supply that is powering the Mini Module Note that if the Mini Module is powered by 5V instead of 3 3V the 3 3V will be unavailable to power VDDE7 Jumper J18 should be set correctly to prevent damage Jumper Setting Effect Connected VDDE7 is powered by external 3 3V default Disconnected VDDE7 is not powered by external 3 3V CT4 VDDREG 5V Configuration xPC564AADPT176S only This cut trace determines whether the VDDREG pin is powered by 5V from the xPC56XXMB motherboard or dict
18. controllers It connects between a USB port on a Windows 2000 XP 2003 Vista machine and a standard 14 pin JTAG Nexus connector on the target By using the USB ML PPCNEXUS Interface the user can take advantage of the background debug mode to halt normal processor execution and use a PC to control the processor The user can then directly control the target s execution read write registers and memory values debug code on the processor and program internal or external FLASH memory devices The USB ML PPCNEXUS enables you to debug program and test your code on your board xPC564A EVB User Manual 59 RE micro www pemicro com 6 2 2 6 3 6 3 1 60 Software The USB ML PPCNEXUS Interface works with Codewarrior as well as P amp E s in circuit debugger and flash programmer to allow debug and flash programming of the target processor P amp E s USB ML PPCNEXUS Development Packages come with the USB ML PPCNEXUS Interface as well as flash programming software in circuit debugging software Windows IDE and register file editor Working With P amp E s Cyclone MAX Figure 6 2 P amp E s Cyclone MAX Product Features 8 Implementation P amp E s Cyclone MAX is an extremely flexible tool designed for debugging testing and in circuit flash programming of Freescale s ColdFireV2 3 4 PowerPC 5xx 8xx 55xx 56xx and ARM7 microcontrollers The Cyclone MAX connects your target to the PC via USB Ethernet or Serial Port and enab
19. er Setting Effect 1 2 Pins are configured as weak pull up 2 3 default Pins are configured as weak pull down J22 PLLREF Configuration Controls the clock source the processor uses a crystal source or an external source Jumper Setting Effect 1 2 default The MPC564xA processor uses a crystal clock source 2 3 The MPC564xA processor uses an external clock source xPC564A EVB User Manual 35 RE micro www pemicro com 4 2 36 J23 RSTCFG Configuration Controls the status of the RSTCFG pin Jumper Setting Effect 1 2 default The RSTCFG pin on the processor is pulled up 2 3 The RSTCFG pin on the processor is pulled down r Figure 4 1 Boot Configuration Jumpers Power Configuration When the xPC564A Mini Module is plugged into the xPC56XXMB motherboard power is supplied directly by the motherboard In this setup the external power supply input available on the Mini Module should NOT be used When the xPC564A Mini Module is used as a stand alone board an external 5V power supply must be used The following jumpers affect the power supply pins of the MPC564xA processor xPC564A EVB User Manual RE micro www pemicro com J3 VRH enable Controls whether power is provided to the Voltage Reference High VRH input pin used by the eQADC module on the MPC564xA processor Ju
20. es xPC564A EVB User Manual ON OFF Power Switch w LED indicators A 12VDC power supply input barrel connector Onboard STMicroelectronics L9758 regulator provides three different power voltages simultaneously 5V 3 3V and 1 2V Onboard peripherals can be configured to operate at 5V or 3 3V logic levels Two CAN channels with jumper enables e One CAN channel with High Speed transceiver and DB9 male connector One CAN channel with Low Speed Fault Tolerant and High Speed transceiver selectable with jumpers and DB9 male connector Two LIN channels with jumper enables One channel with transceiver and pin header connector populated e One channel with footprints only One SCI channel with jumper enables e Transceiver with DB9 female connector Two FlexRay channels with jumper enables RE iniero www pemicro com e One channel with transceiver and DB9 male connector e One channel with footprint only Four user push buttons with jumper enables and polarity selection e Four user LED s with jumper enables One potentiometer for analog voltage input e Pin array for accessing all UO signals e Expansion connectors for accessing all I O signals Development zone with 0 1 spacing and SOIC footprint prototyping e Specifications Board Size 5 5 x 9 0 e 12VDC Center Positive power supply with 2 5 5 5mm barrel connector Figure 2 1 xPC56XXMB Top Component Placement xPC564A EVB User Manual
21. fault Effect The VRH pin is connected to 5V or 3 3V power determined by J18 Off The VRH pin is left disconnected J4 VSTBY Configuration Jumper Setting Effect On default Off The MPC564xA VSTBY pin is pulled down to GND The MPC564xA VSTBY pin is only connected to a 100nF bypass capacitor External 1V supply should be provided to this pin J14 I O Supply Input Enable Controls whether power is provided to the I O Supply Input pins on the MPC564xA processor Jumper Setting Effect xPC564A EVB User Manual RE micro www pemicro com MPC564xA I O Supply Input pins are connected to On default 3 3V or 5V determined by J18 off MPC564xA I O Supply Input pins are unpowered J15 Internal VDD enable Controls whether power is provided to the Internal Logic Supply Input pins on the MPC564xA processor Jumper Setting Effect MPC564xA Internal Logic Supply Input pins are On default connected to 1 2V off MPC564xA Internal Logic Supply Input pins are unpowered J16 VDDE12 Voltage Configuration xPC564AADPT176S only Controls whether power is provided to the VDDE12 pins on the MPC564xA processor Jumper Setting Effect On MPC564xA VDDE12 pins are connected to 3 3V MPC564xA VDDE12 pins are only connected to Off default ei bypass capacitors
22. g Effect The LIN1 TxD pin is connected to the TXDA pin on 1 2 the MPC564xA processor This should be set if enabling LIN1 xPC564A EVB User Manual 17 RE Gro www pemicro com 343 The SCI TxD pin is connected to the TXDA pin on the MPC564xA processor US C24 C25 12V Ar J LIN TXD INH 3 RXD VSUP WAKE LIN EN GND VO Figure 3 4 LIN1 Schematic J17 LIN2 enable Jumper Setting Effect On Enables the LIN2 transceiver Off default Disables the LIN2 transceiver J18 LIN2 VBUS configuration Jumper Setting Effect On LIN2 VBUS is connected to 12V Off default LIN2 VBUS is not connected to 12V 18 xPC564A EVB User Manual RE micro www pemicro com J20 LIN2 VSUP configuration Jumper Setting Effect On LIN2 VSUP is connected to 12V Off default LIN2 VSUP is not connected to 12V J21 LIN2 master selection Jumper Setting Effect On LIN2 is configured as a master node Off default LIN2 is configured as a slave node J12 LIN2 SCI RxD selection Controls whether the RxD pin on LIN2 or SCI is connected to the default I O pin on the MPC564xA processor Jumper Setting Effect 1 2 2 3 default The LIN2 RxD pin is connected to the RXDB pin on the MPC564xA processor This s
23. he CNRXA pin of the MPC564xA processor The RxD pin of the CAN H interface is connected to the CNRXC pin of the MPC564xA processor 3 5 The TxD pin of the CAN H interface is connected to 2 4 default u PE the CNTXA pin of the MPC564xA processor The TxD pin of the CAN H interface is connected to the CNTXC pin of the MPC564xA processor 4 6 J30 CAN L Enable Jumper Setting Effect xPC564A EVB User Manual 23 RE micro www pemicro com 24 On default Enables CAN L transceiver Off Disables CAN L transceiver J31 CAN L CTE Jumper Setting Effect On Enables CAN transmission Off default Disables CAN transmission 329 CAN L TxD RxD Enable Controls which I O pins on the MPC564xA processor are connected to the TxD and RxD pins on CAN L If CAN L is not used it is recommended that all jumpers are removed Jumper Setting Effect 1 3 The RxD pin of the CAN L interface is connected to the CNRXA pin of the MPC564xA processor 3 5 default The RxD pin of the CAN L interface is connected to the CNRXC pin of the MPC564xA processor 2 4 4 6 default The TxD pin of the CAN L interface is connected to the CNTXA pin of the MPC564xA processor The TxD pin of the CAN L interface is connected to the CNTXC pin of the MPC56
24. hould be set if enabling LIN2 The SCI RxD pin is connected to the RXDB pin on the MPC564xA processor xPC564A EVB User Manual 19 RE micro www pemicro com J19 LIN2 SCI TxD selection Controls whether the TxD pin on LIN2 or SCI is connected to the default I O pin on the MPC564xA processor Jumper Setting Effect 1 2 The LIN2 TxD pin is connected to the TXDB pin on the MPC564xA processor This should be set if enabling LIN2 2 3 default The SCI TxD pin is connected to the TXDB pin on the MPC564xA processor y 5 e J18 U6 c26 2 n 12 Y BUS am 3 Figure 3 5 LIN2 schematic Not populated by default 3 5 SCI One SCI interface is available on the xPC56XXMB 20 xPC564A EVB User Manual RE micro www pemicro com J23 SCI RxD Enable Jumper Setting Effect On default Enables SCI receive Off J24 SCI TxD Enable Disables SCI receive Jumper Setting Effect On default Enables SCI transmit Off Disables SCI transmit J25 LIN1 SCI TxD selection Controls whether the TxD pin on LIN1 or SCI is connected to the default I O pin on the MPC564xA processor Jumper Setting Effect 1 2 The LIN1 TxD pin is connected to the TXDA pin on the MPC564xA processor 2 3 The SCI TxD pin is connected to the TXDA pin on the MPC564xA processo
25. icate the position of pin 1 See 6 xPC564A EVB User Manual DE micro www pemicro com examples below for the numbering convention used in this manual for jumper settings 1 2 1 2 3 3 4 2 5 6 3 7 8 3 pin single row Horizontal Jumper 3 pin single row Vertical Jumper 8 pin double row Vertical Jumper Figure 2 5 Pin Numbering 3 xPC56XXMB HARDWARE 8 JUMPER SETTINGS Please note that this section of the manual is written for revision B of the xPC56XXMB motherboard Revision B motherboards are indicated by the Rev B silkscreen text in the center of the motherboard Revision A motherboards have different jumper numbers These differences can be found in the table below Revision A Revision B Jumper Description J3 J6 pins 1 2 VSA Tracking Regulator Configuration J4 J7 VPROG Regulators Control J5 pins 1 2 J5 IGN Control J5 pins 3 4 J6 pins 3 4 Regulators Enable amp Standby 5 6 7 8 5 6 7 8 J36 J4 VIO Peripherals Logic Level xPC564A EVB User Manual T RE micro www pemicro com J37 J3 VBat low voltage detection J7 J8 LEDs Enable J8 J9 Buttons Enable J9 J10 Buttons Driving Configuration J40 J11 Buttons Idle Configuration J22 J13 LIN1 enable J24 J14 LIN1 VBUS configuration J6 J15 LIN1 VSUP configuration J23 J16 LIN1 master selection J28 J22 LIN1 SCI RxD selection J27 J
26. l RE micro www pemicro com Disconnected The VEN_102 pin is left disconnected default 5 3 System Clock Configuration The xPC564A Mini Modules support the usage of crystal clock sources as well as external clock sources J10 Crystal clock source enable Both of the jumpers below need to be installed to enable the crystal clock source Jumper Setting Effect The MPC564xA EXTAL signal is connected to the 1 2 default o crystal clock source on the xPC564A Mini Module The MPC564xA XTAL signal is connected to the 3 4 default SS crystal clock source on the xPC564A Mini Module J11 External clock source enable The xPC564A Mini Module contains a footprint for an SMA connector which can be used to provide an external clock source to the system Jumper Setting Effect The MPC564xA EXTAL signal is connected to the On SMA connector on the xPC564A Mini Module The SMA connector on the xPC564A Mini Module is Off default di disconnected from the processor xPC564A EVB User Manual 55 RE micro www pemicro com Rs cg VSSPLL XTAL 3 4 S EXTAL 1 2l uta CI gaer soon CLK EN P co VSSPLL 122pF CLOCK CIRCUIT P2 DONOT POPULATE SMA CONNECTOR EXTAL Figure 5 2 System Clock Schematic 5 4 General Configuration J13 Reset Enable A RESET push button on the xPC564A Mini Module
27. l 2010 P amp E Microcomputer Systems Inc All rights reserved P amp E Micrcomputer Systems Inc 98 Galen St Watertown MA 02472 www pemicro com Freescale and the Freescale logo are trademarks of Freescale Semiconductor Inc All other product or service names are the property of their respective owners O Freescale Semiconductor Inc 2010 XPC564AEVBUM
28. les you to debug your code program and test it on your board After development is complete the Cyclone MAX can be used as a production tool on your manufacturing floor For production the Cyclone MAX may be operated interactively via Windows based programming applications as well as under batch or dll commands from a PC Once loaded with data by a PC it can be disconnected and operated manually in a stand alone mode via the LCD menu and control buttons The Cyclone MAX has over 3Mbytes of non volatile memory which allows the on board storage of multiple programming images When connected to a PC for programming or loading it can communicate via the ethernet USB or serial interfaces xPC564A EVB User Manual RE micro www pemicro com 6 3 2 Software The Cyclone MAX comes with intuitive configuration software and interactive programming software as well as easy to use automated control software The Cyclone MAX also functions as a full featured debug interface and is supported by Freescale s CodeWarrior as well as development software from P amp E P amp E s Cyclone MAX is also available bundled with additional software as part of various Development Packages In addition to the Cyclone MAX these Development Packages include in circuit debugging software flash programming software a Windows IDE and register file editor xPC564A EVB User Manual 61 NE micro www pemicro com 62 xPC564A EVB User Manua
29. mper Setting Effect On default Off The VRH pin is connected to 5V power The VRH pin is left disconnected J4 VSTBY Configuration Jumper Setting Effect On default Off The MPC564xA VSTBY pin is pulled down to GND The MPC564xA VSTBY pin is only connected to a 100nF bypass capacitor External 1V supply should be applied to this pin J14 1 O Supply Input Enable Controls whether power is provided to the I O Supply Input pins on the MPC564xA processor Jumper Setting Effect On default MPC564xA I O Supply Input pins are connected to 3 3V or 5V determined by J18 Off MPC564xA I O Supply Input pins are unpowered xPC564A EVB User Manual 37 RE micro www pemicro com J17 Debug Ports Power Configuration Controls whether the power pins on the debug ports VDDE7 on the 14 pin JTAG port and VREF on the 28 pin Mictor port are connected to 3 3V or 5V Jumper Setting Effect 1 2 The power pins on the debug ports are connected to 5V 2 3 default The power pins on the debug ports are connected to 3 3V J18 Processor I O Voltage Configuration Sets the voltage level applied to the I O Supply Input pins of the MPC564xA processor Jumper Setting Effect The I O Supply Input pins of the MPC564xA 1 2 default processor are powered by 5V The I O Supply Input pin
30. ng Effect On ADDR13 is connected to external SRAM Off ADDR13 is not connected to the external SRAM J28 ADDR14 enable Controls whether ADDR14 of the processor is connected to the external SRAM module U9 Jumper Setting Effect On ADDR14 is connected to the external SRAM Off ADDR14 is not connected to the external SRAM xPC564A EVB User Manual 45 mero www pemicro com 46 ADDR 13 ADDR 14 ITT DATAIS DATAI4 DATA13 DATA12 DATA DATALO DATAS DATAR oo a Lo LR 88888888 833333338 DATA7 DATA6 DATAS DATA4 DATA3 2 DATA DATA DATAO J27_ADDRI3_EN Cle O RE ADDRI4 EN 325 J26 BWa 3 BWa 1 ADDRI4 CLKOUT ADDRI6 ADDR17 ADDRI8 ADDR19 ADDR20 ADDR21 ADDR22 ADDR23 ADDR24 2_ADDR25 ADDR26 ADDR27 7 ADDR28 ADDR29 ADDR30 ADDR31 I861LF25636A 7 STQLI Q A Figure 4 6 External SRAM schematic xPC564A EVB User Manual RE micro www pemicro com 5 xPC564AADPT208S xPC564AADPT176S HARDWARE amp JUMPER SETTINGS 5 1 Boot Configuration The following jumpers affect the operation of the processor as it initially comes out of the reset state J7 BOOTCFG Configuration Controls whether the processor boots from internal FLASH or from a serial interface CAN SCI Jumper Setting Effect 1 2 The MPC564xA processor uses serial boot mode 2 3 default The MPC564xA processor uses internal boot m
31. ng items One xPC56XXMB Motherboard One xPC564AADPT176S or xPC564AADPT208S or xPC564AADPT324S Mini Module One xPC56XX Resources CD ROM One P amp E USB ML PPCNEXUS Hardware Interface Cable One USB A to B Cable Freescale Warranty Card An xPC564A Adapter Package includes the following items One xPC564AADPT176S or xPC564AADPT208S or xPC564AADPT324S Mini Module One xPC56XX Resources CD ROM Freescale Warranty Card 1 2 Supported Devices The xPC564AADPT176S Mini Module supports the following devices MPC564xA 176 LQFP package The xPC564AADPT208S Mini Module supports the following devices MPC564xA 208 BGA package The xPC564AADPT324S Mini Module supports the following devices MPC564xA 324 BGA package 1 3 Recommended Materials Freescale MPC5646A reference manual and datasheet xPC56XXMB schematic xPC564AADPT176S schematic xPC564AADPT208S schematic xPC564AADPT324S schematic xPC564A EVB User Manual RE micro www pemicro com 1 4 Handling Precautions Please take care to handle the package contents in a manner such as to prevent electrostatic discharge 2 HARDWARE FEATURES The xPC564A EVB is an evaluation system for Freescale s MPC564xA microprocessors A 38 pin Mictor Nexus port and or a 14 pin JTAG port are provided on the Mini Module to allow usage of an external PowerPC Nexus interface such as P amp E USB ML PPCNEXUS cable and Cyclone MAX automated programmer 2 1 xPC56XXMB Board Featur
32. ode J8 PLLREF Configuration Controls the clock source the processor uses a crystal source or an external source Jumper Setting Effect 1 2 default The MPC564xA processor uses a crystal clock source 243 The MPC564xA processor uses an external clock source J9 WKPCFG Configuration Controls whether specified eTPU and eMIOS pins on the processor are configured as a weak pull up or a weak pull down when the processor comes xPC564A EVB User Manual 47 RE 5 2 48 Gro www pemicro com out of reset Jumper Setting Effect 1 2 Pins are configured as weak pull up 2 3 default Pins are configured as weak pull down PsV R6 10k 9 2 WKPCEG WKPCFG Figure 5 1 Boot Configuration Jumpers Power Configuration When the xPC564A Mini Module is plugged into the xPC56XXMB motherboard power is supplied directly by the motherboard In this setup the external power supply input available on the Mini Module should NOT be used When the xPC564A Mini Module is used as a stand alone board an external 5V power supply must be used xPC564A EVB User Manual RE micro www pemicro com The following jumpers affect the power supply pins of the MPC564xA processor J3 VRH enable Controls whether power is provided to the Voltage Reference High VRH input pin used by the eQADC module on the MPC564xA processor Jumper Setting On de
33. ogic 2 3 default J5 IGN Control Jumper Setting Onboard peripherals are configured for 5V logic Effect On default The power regulator is always on off If 5 6 is also OFF on J6 the power regulator is in standby J6 Regulators Enable amp Standby Setting Jumper Position Effect 10 xPC564A EVB User Manual RE micro www pemicro com 1 2 On The ST L9758 tracking regulator VSA tracks the input voltage at its TRACK_REF pin Off default The ST L9758 tracking regulator VSA tracks 5V 3 4 On VSB VSC and VSD tracking regulators are disabled Off default VSB VSC and VSD tracking regulators are enabled 5 6 On default The power regulator is always on off The power regulator is in standby if jumpers 1 2 are also in the off position 7 8 On VDLL and VCORE regulators are disabled Off default VDLL and VCORE regulators are enabled J7 VPROG Regulators Control xPC564A EVB User Manual Jumper Position Effect Setting 1 2 On VKAM regulator output is programmed to 1V Off default VKAM regulator output is programmed to 1 5V 3 4 On VSTBY regulator output is programmed to 2 6V Off default VSTBY regulator output is programmed to 3 3V 11 micro www pemicro com 5 6 On VDLL regulator output is programmed to 2 6V Off default VDLL reg
34. plete solution designed for both development and production The Cyclone MAX features multiple communications interfaces including USB Ethernet and Serial stand alone programming functionality high speed data transfer a status LCD and many other advanced capabilities Below is an overview of the features and intended use of the USB ML PPCNEXUS and Cyclone MAX 6 1 1 USB ML PPCNEXUS Key Features e Programming and debugging capabilities e Compact and lightweight e Communication via USB 2 0 e Supported by P amp E software and Freescale s CodeWarrior 6 1 2 Cyclone MAX Key Features Advanced programming and debugging capabilities including 58 xPC564A EVB User Manual RE micro www pemicro com e PC Controlled and User Controlled Stand Alone Operation Interactive Programming via Host PC e In Circuit Debugging Programming and Testing e Compatible with Freescale s ColdFireV2 3 4 PowerPC 5xx 8xx 55xx 56xx and ARMY microcontroller families Communication via USB Serial and Ethernet Ports e Multiple image storage LCD screen menu interface e Supported by P amp E software and Freescale s CodeWarrior 6 2 Working With P amp E s USB ML PPCNEXUS 6 2 1 Figure 6 1 P amp E s USB ML PPCNEXUS Product Features 8 Implementation P amp E s USB ML PPCNEXUS Interface USB ML PPCNEXUS connects your target to your PC and allows the PC access to the debug mode on Freescale s PowerPC 5xx 8xx 55xx 56xx micro
35. r This should be set if enabling SCI xPC564A EVB User Manual 21 RE micro www pemicro com J22 LIN1 SCI RxD selection Controls whether the RxD pin on LIN1 or SCI is connected to the default I O pin on the MPC564xA processor Jumper Setting Effect in The LIN1 RxD pin is connected to the RXDA pin on the MPC564xA processor The SCI RxD pin is connected to the RXDA pin on the 2 3 MPC564xA processor This should be set if enabling SCI HOST T2 EE A ROUT p MAX RXD2 a 2 HOST R2 Tout Tan 0 MAX TXD2 5 TXDA 3 nor Tun H TXD_EN 12 E 23 RIIN RIOUT EA SE nm y S RXDA FB3 ck cz ci Pp c20 O luF 0 luF RXD_EN MAX RXD2 2 ci 3 I HOST T2 VIO Figure 3 6 SCI schematic 3 6 CAN Two CAN interfaces are implemented on the xPC56XXMB a high speed CAN interface and a low speed CAN interface 22 xPC564A EVB User Manual RE micro www pemicro com J28 CAN H Transmit Enable Jumper Setting Effect On Enables CAN transmission Off default Disables CAN transmission J27 CAN H TxD RxD Enable Controls which I O pins on the MPC564xA processor are connected to the TxD and RxD pins on CAN H If CAN H is not used it is recommended that all jumpers are removed Jumper Setting Effect The RxD pin of the CAN H interface is connected to 1 3 default y M t
36. s of the MPC564xA 2 3 processor are powered by 3 3V J19 3 3V Voltage Source Controls whether the voltage source for 3 3V on the MPC564xA processor is provided by the motherboard or by the 5V external source on the Mini Module via a voltage regulator Jumper Setting Effect 38 xPC564A EVB User Manual RE micro www pemicro com 3 3V is provided to the MPC564xA processor by the en motherboard 3 3V is provided to the MPC564xA processor by the 2 3 5V external source on the xPC564A Mini Module J20 5V Voltage Source Controls whether the voltage source for 5V on the MPC564xA processor is provided by the motherboard or by the 5V external source on the Mini Module Jumper Setting Effect 5V is provided to the MPC564xA processor by the EE motherboard 5V is provided to the MPC564xA processor by the 5V 2 3 external source on the xPC564A Mini Module J21 VDDEH Voltage Selector Controls whether the voltage provided to the VDDEH pins on the MPC564xA processor is 3 3V or 5V Jumper Setting Effect 1 2 default 3 3V is provided to the VDDEH pins 2 3 5V is provided to the VDDEH pins xPC564A EVB User Manual 39 RE micro www pemicro com J24 Internal VDD enable Controls whether power is provided to the Internal Logic Supply Input pins on the MPC564xA processor Jumper Setting Effect
37. ting Effect xPC564A EVB User Manual 27 RE 28 Gro www pemicro com 1 2 The BGE pin on the FlexRay Bus Driver is pulled up to 5V 3 4 The STBN pin on the FlexRay Bus Driver is pulled up to 5V 5 6 The EN pin on the FlexRay Bus Driver is pulled up to 5V 7 8 The WAKE pin on the FlexRay Bus Driver is pulled down to GND J37 amp J38 FlexRay 2 Terminal Resistor Connection Jumper Setting Effect On Terminal resistors connected Off default Terminal resistors not connected xPC564A EVB User Manual nero www pemicro com 332 1 2 3 4 5 6 35 VDDS RP3 1 3 5 wann 10K nto e ann d oy i Mami VDDS RP4 aan 0K Figure 3 8 FlexRay Schematic 3 8 Potentiometer A potentiometer is available on the xPC56XXMB to allow an analog voltage input J40 POT Enable Jumper Setting Effect The potentiometer wiper terminal is connected to the On default AN17 pin on the MPC564xA processor off The potentiometer wiper terminal is left disconnected xPC564A EVB User Manual 29 RE micro www pemicro com 30 Figure 3 9 Potentiometer schematic xPC564A EVB User Manual micro www pemicro com 3 9 Pin Mapping The following is the xPC564A EVB pin assignment for
38. tons on the xPC56XXMB motherboard are connected to l O pins of the processor The jumpers can be removed and wires can be used to connect each button to any processor UO pin if desired Jumper Setting Effect 1 2 default KEY1 connected to eMIOSO on 3 4 default KEY2 connected to eMIOS2 on 5 6 default KEY3 connected to eMIOS4 on 7 8 default KEY4 connected to eMIOS8 on J10 Buttons Driving Configuration Selects whether the buttons drive logic high or drive logic low when pressed Jumper Setting Effect e When pressed buttons will send logic high to the connected I O pin When pressed buttons will send logic low to the 2 3 default i connected I O pin 14 xPC564A EVB User Manual RE micro www pemicro com J11 Buttons Idle Configuration Selects whether the I O pins are pulled logic high or pulled logic low This controls the default logic level of the I O pins when the buttons are not pressed Jumper Setting Effect I O pins connected to the buttons are pulled up to code POB E logic high Se 1 O pins connected to the buttons are pulled down to logic low Jil VIO VIO VIO L vo J9 KEYI 10 EMOS I 1 O go KEY2 ma 3 O KEY EN KEY3 gt O 0 luF 0 luF O 4 INPUT SWITCHES Figure 3 3 Buttons circuitry schematic 3 4 LIN There are footprints for two LIN connections on the xPC56
39. ulator output is programmed to 3 3V J37 VBat low voltage detection Jumper Setting Effect On Low battery detection is enabled Off default Low battery detection is disabled prontos Fr vr VaAT_S wot roer ES e ar TESE J ven VEROGI E PST EN VDDLNOORE_EN yso VPROGZ Ka via BE XE HEADER Lg 2a ws 8 E u Y X ND ken an System Power T T Figure 3 1 Power Supply circuitry schematic 12 xPC564A EVB User Manual DE micro www pemicro com 3 2 LEDs There are four user LEDs available on the xPC56XXMB All LEDs are active low J8 LEDs Enable Controls whether the LEDs on the xPC56XXMB motherboard are connected to I O pins of the processor The jumpers can be removed and wires can be used to connect each LED to any processor UO pin if desired Jumper Setting Effect 1 2 default LED1 connected to eMIOS9 on 3 4 default LED2 connected to eMIOS10 on 5 6 default LED3 connected to eMIOS11 on 7 8 default LED4 connected to eMIOS12 on tuto Go Ch E HA 144 Figure 3 2 LEDs circuitry schematic xPC564A EVB User Manual 13 RE micro www pemicro com 3 3 Buttons There are four user buttons available on the xPC56XXMB J9 Buttons Enable Controls whether the but
40. umentation for each user in the group Contact P amp E for volume discounts and site licensing agreements P amp E Microcomputer Systems does not assume any liability for the use of this software beyond the original purchase price of the software In no event will P amp E Microcomputer Systems be liable for additional damages including any lost profits lost savings or other incidental or consequential damages arising out of the use or inability to use these programs even if P amp E Microcomputer Systems has been advised of the possibility of such damage By using this software you accept the terms of this agreement O 2010 P amp E Microcomputer Systems Inc MS DOS and Windows are registered trademarks of Microsoft Corporation Freescale and ColdFire are registered trademarks of Freescale Inc The Power Architecture and Power org wordmarks and the Power and Power org logos and related marks are trademarks and service marks licensed by Power org P amp E Microcomputer Systems Inc 98 Galen St Watertown MA 02472 617 923 0053 http www pemicro com Manual version 1 00 Septermber 2010 RE micro 1 OVERVIEW HL 1 1 1 Package Contents r nun ech See Ed Edge ee 2 1 2 Supported Devices aeateeeeeananaa aaa aaaaarenaeaaranannaa 2 1 3 Recommended Materials 2 4 24444244 4444444 annann e AnA 2 1 4 eieiei EE 3 2 HARDWARE FEATURES cette eee aar Ea a aas 3 2 1 xPC56XXMB Board Features
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