P&E Microcomputer Systems XPC560S EVB User Manual Download

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Summary of Contents for XPC560S EVB

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Page 2: ... 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 E expects that group programming projects making use of this software will purchase a copy of the software and documentation for each user in the group Contact P E for volume discounts and site licensing agreements ...

Page 3: ...15 3 5 CAN 23 3 6 Potentiometer 25 3 7 Pin Mapping 27 4 xPC560SADPT144S HARDWARE JUMPER SETTINGS 28 4 1 Boot Configuration 28 4 2 Power Configuration 29 4 3 System Clock Configuration 35 4 4 General Configuration 37 5 xPC560SADPT176S HARDWARE JUMPER SETTINGS 39 5 1 Boot Configuration 39 5 2 Power Configuration 40 5 3 System Clock Configuration 46 5 4 General Configuration 48 6 xPC560SADPT208S HARD...

Page 4: ...iii xPC560S EVB User Manual 7 DEBUGGING PROGRAMMING THE xPC560S EVB 61 7 1 Hardware Solutions At A Glance 61 7 2 Working With P E s USB ML PPCNEXUS 62 7 3 Working With P E s Cyclone MAX 63 ...

Page 5: ...d Different Mini Modules are available for evaluating devices with different footprints in the MPC560xS 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 periphe...

Page 6: ...tems One xPC560SADPT144S or xPC560SADPT176S or xPC560SADPT208S Mini Module One xPC56XX Resources CD ROM Freescale Warranty Card 1 2 Supported Devices The xPC560SADPT144S Mini Module supports the following devices MPC5606SEMLQ 144LQFP The xPC560SADPT176S Mini Module supports the following devices MPC5606SEMLU 176LQFP The xPC560SADPT208S Mini Module supports the following devices MPC5606SEMMG 208BGA...

Page 7: ...xPC560S EVB User Manual 3 1 4 Handling Precautions Please take care to handle the package contents in a manner such as to prevent electrostatic discharge ...

Page 8: ...taneously 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 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...

Page 9: ...ent zone with 0 1 spacing and SOIC footprint prototyping Specifications Board Size 5 5 x 9 0 12VDC Center Positive power supply with 2 5 5 5mm barrel connector Figure 2 1 xPC56XXMB Top Component Placement 2 1 xPC560SADPT Mini Module Board Features Can be used as a stand alone board by providing external 5V power supply input ON OFF Power Switch w LED indicator Reset button with filter and LED indi...

Page 10: ... has socket for MPC560xS in 144LQFP footprint xPC560SADPT208S has socket for MPC560xS in 208BGA footprint Debug ports 38 pin Mictor Nexus port and or 14 pin JTAG port Direct clock input through SMA connector footprint only Jumpers for boot configuration Figure 2 2 xPC560SADPT144S Top Component Placement ...

Page 11: ...xPC560S EVB User Manual 7 Figure 2 3 xPC560SADPT176S Top Component Placement ...

Page 12: ...ponent Placement 2 2 Pin Numbering for Jumpers Jumpers for both the xPC56XXMB motherboard and the xPC560S Mini Modules have a rounded corner to indicate the position of pin 1 See examples below for the numbering convention used in this manual for jumper settings ...

Page 13: ...xPC560S EVB User Manual 9 Figure 2 5 Pin Numbering ...

Page 14: ...ulator Configuration J4 VPROG Regulators Control Jumper Setting Effect 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 Jumper Setting Position Effect 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 6...

Page 15: ...n Off default The power regulator is in standby if jumpers 5 6 are also in the off position 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...

Page 16: ...ion Figure 3 1 Power Supply circuitry schematic Jumper Setting Effect 1 2 Onboard peripherals are configured for 3 3V logic 2 3 default Onboard peripherals are configured for 5V logic Jumper Setting Effect On Low battery detection is enabled Off default Low battery detection is disabled ...

Page 17: ...ires can be used to connect each LED to any processor I O pin if desired Please note that although the schematics indicate that the processor I O pins are eMIOSx those are not the I O pins for the xPC560S EVB The table below has the correct pins listed Figure 3 2 LEDs circuitry schematic Jumper Setting Effect 1 2 default on LED1 connected to PE4 3 4 default on LED2 connected to PE5 5 6 default on ...

Page 18: ...I O pins are eMIOSx those are not the I O pins for the xPC560S EVB The table below has the correct pins listed J9 Buttons Driving Configuration Selects whether the buttons drive logic high or drive logic low when pressed J40 Buttons Idle Configuration Jumper Setting Effect 1 2 default on KEY1 connected to PE0 3 4 default on KEY2 connected to PE1 5 6 default on KEY3 connected to PE2 7 8 default on ...

Page 19: ...e not pressed Figure 3 3 Buttons circuitry schematic 3 4 LIN There are footprints for two LIN connections on the xPC56XXMB By default one LIN circuit is assembled LIN1 and the other circuit is left unpopulated Jumper Setting Effect 1 2 default I O pins connected to the buttons are pulled up to logic high 2 3 I O pins connected to the buttons are pulled down to logic low ...

Page 20: ...ffect On Pin 2 of the LIN1 connector is connected to 12V Off default Pin 2 of the LIN1 connector is not connected to 12V Jumper Setting Effect On default Enables the LIN1 transceiver Off Disables the LIN1 transceiver Jumper Setting Effect On LIN1 is configured as a master node Off default LIN1 is configured as a slave node Jumper Setting Effect ...

Page 21: ...IN1 connector is connected to 12V Off default Pin 1 of the LIN1 connector is not connected to 12V Jumper Setting Effect 1 2 The LIN1 TxD pin is connected to the PB3 pin on the MPC560xS processor This should be set if enabling LIN1 2 3 The SCI TxD pin is connected to the PB3 pin on the MPC560xS processor Jumper Setting Effect 1 2 The LIN1 RxD pin is connected to the PB2 pin on the MPC560xS processo...

Page 22: ...n2 configuration J19 LIN2 enable Jumper Setting Effect On Pin 2 of the LIN2 connector is connected to 12V Off default Pin 2 of the LIN2 connector is not connected to 12V Jumper Setting Effect On Enables the LIN2 transceiver Off default Disables the LIN2 transceiver ...

Page 23: ...ect On LIN2 is configured as a master node Off default LIN2 is configured as a slave node Jumper Setting Effect On Pin 1 of the LIN2 connector is connected to 12V Off default Pin 1 of the LIN2 connector is not connected to 12V Jumper Setting Effect 1 2 The LIN2 TxD pin is connected to the PI6 pin on the MPC560xS processor This should be set if enabling LIN2 2 3 The SCI TxD pin is connected to the ...

Page 24: ...CI is connected to the default I O pin on the MPC560xS processor Figure 3 5 LIN2 schematic Jumper Setting Effect 1 2 The LIN2 RxD pin is connected to the PI7 pin on the MPC560xS processor This should be set if enabling LIN2 2 3 The SCI RxD pin is connected to the PI7 pin on the MPC560xS processor ...

Page 25: ...s whether the TxD pin on LIN1 or SCI is connected to the default I O pin on the MPC560xS processor Jumper Setting Effect On default Enables SCI transmit Off Disables SCI transmit Jumper Setting Effect On default Enables SCI receive Off Disables SCI receive Jumper Setting Effect 1 2 The LIN1 TxD pin is connected to the PB3 pin on the MPC560xS processor ...

Page 26: ... processor Figure 3 6 SCI schematic 2 3 The SCI TxD pin is connected to the PB3 pin on the MPC560xS processor This should be set if enabling SCI Jumper Setting Effect 1 2 The LIN1 RxD pin is connected to the PB2 pin on the MPC560xS processor 2 3 The SCI RxD pin is connected to the PB2 pin on the MPC560xS processor This should be set if enabling SCI ...

Page 27: ...per Setting Effect On Enables CAN transmission Off default Disables CAN transmission Jumper Setting Effect 1 3 default The RxD pin of the CAN H interface is connected to the PB1 pin of the MPC560xS processor 3 5 The RxD pin of the CAN H interface is connected to the PB10 pin of the MPC560xS processor 2 4 default The TxD pin of the CAN H interface is connected to the PB0 pin of the MPC560xS process...

Page 28: ...les CAN transmission Jumper Setting Effect 1 3 The RxD pin of the CAN L interface is connected to the PB1 pin of the MPC560xS processor 3 5 default The RxD pin of the CAN L interface is connected to the PB10 pin of the MPC560xS processor 2 4 The TxD pin of the CAN L interface is connected to the PB0 pin of the MPC560xS processor 4 6 default The TxD pin of the CAN L interface is connected to the PB...

Page 29: ...r Manual 25 Figure 3 7 High Speed CAN schematic Figure 3 8 Low Speed CAN schematic 3 6 Potentiometer A potentiometer is available on the xPC56XXMB to allow an analog voltage input J18 POT Enable Jumper Setting Effect ...

Page 30: ...0S EVB User Manual Figure 3 9 Potentiometer schematic On default The potentiometer wiper terminal is connected to the PB0 pin on the MPC560xS processor Off The potentiometer wiper terminal is left disconnected ...

Page 31: ...xPC560S EVB User Manual 27 3 7 Pin Mapping The following is the xPC560S EVB pin assignment for the Pin Array headers Figure 3 10 Pin Mapping ...

Page 32: ...l interface CAN SCI J8 ABS0 Configuration If J7 is configured for serial boot mode this jumper selects between UART or CAN If J7 is configured for internal boot mode this jumper has no effect Jumper Setting Effect 1 2 The MPC560xS processor uses serial boot mode 2 3 default The MPC560xS processor uses internal boot mode Jumper Setting Effect 1 2 The MPC560xS processor uses the CAN interface for se...

Page 33: ...d NOT be used When the xPC560S Mini Module is used as a stand alone board an external 5V or 3 3V power supply must be used Note that when using the xPC560S Mini Module as a stand alone board only one power supply is available 5V or 3 3V and all appropriate jumpers must be configured to use that power supply The following jumpers affect the power supply pins of the MPC560xS processor J4 VIO Voltage...

Page 34: ...Enable Controls whether power is provided to the VDD 1V2 pins on the MPC560xS processor Jumper Setting Effect 1 2 default VIO voltage is 5V 2 3 VIO voltage is 3 3V Jumper Setting Effect On default 5V is available to power the various power supply pins on the MPC560xS processor Off 5V cannot be used to power any of the various power supply pins on the MPC560xS processor Jumper Setting Effect On def...

Page 35: ... power pins on the MPC560xS processor J22 VDDE_A Voltage Selection Sets the voltage level on the MPC560xS VDD_IO_B and VDD_IO_C Off MPC560xS VDD 1V2 pins are left disconnected Jumper Setting Effect 1 2 default Debug port s are configured for 5V logic 2 3 Debug port s are configured for 3 3V logic Jumper Setting Effect On default 3 3V is available to power the various power supply pins on the MPC56...

Page 36: ... pin Jumper Setting Effect 1 2 default MPC560xS VDD_IO_B and VDD_IO_C pins are powered by 5V J14 must be ON 2 3 MPC560xS VDD_IO_B and VDD_IO_C pins are powered by 3 3V J18 must be ON Jumper Setting Effect 1 2 default MPC560xS VDD_IO_A is powered by 5V J14 must be ON 2 3 MPC560xS VDD_IO_A is powered by 3 3V J18 must be ON Jumper Setting Effect 1 2 default MPC560xS VDD_IO_D is powered by 5V J14 must...

Page 37: ...he MPC560xS VDD_SMD_B power pin 2 3 MPC560xS VDD_IO_D is powered by 3 3V J18 must be ON Jumper Setting Effect 1 2 default MPC560xS VDD_SMD_C is powered by 5V J14 must be ON 2 3 MPC560xS VDD_SMD_C is powered by 3 3V J18 must be ON Jumper Setting Effect 1 2 default MPC560xS VDD_SMD_B is powered by 5V J14 must be ON 2 3 MPC560xS VDD_SMD_B is powered by 3 3V J18 must be ON ...

Page 38: ...ion Sets the voltage level on the MPC560xS VDD_IO_E power pin Jumper Setting Effect 1 2 default MPC560xS VDD_SMD_A is powered by 5V J14 must be ON 2 3 MPC560xS VDD_SMD_A is powered by 3 3V J18 must be ON Jumper Setting Effect 1 2 default MPC560xS VDD_IO_F is powered by 5V J14 must be ON 2 3 MPC560xS VDD_IO_F is powered by 3 3V J18 must be ON Jumper Setting Effect 1 2 default MPC560xS VDD_IO_E is p...

Page 39: ...pers below need to be installed to enable the crystal clock source 2 3 MPC560xS VDD_IO_E is powered by 3 3V J18 must be ON Jumper Setting Effect 1 2 default MPC560xS VDD_ADC is powered by 5V J14 must be ON 2 3 MPC560xS VDD_ADC is powered by 3 3V J18 must be ON Jumper Setting Effect 1 2 default The MPC560xS EXTAL signal is connected to the crystal clock source on the xPC560S Mini Module 3 4 default...

Page 40: ...tprint for an SMA connector which can be used to provide an external clock source to the system Jumper Setting Effect On The MPC560xS EXTAL signal is connected to the SMA connector on the xPC560S Mini Module Off default The SMA connector on the xPC560S Mini Module is disconnected from the processor ...

Page 41: ...560S EVB User Manual 37 Figure 4 2 System Clock schematic 4 4 General Configuration J13 Reset Enable A RESET push button on the xPC560S Mini Module can be used to reset the processor Jumper Setting Effect ...

Page 42: ...ltage Figure 4 3 Reset circuitry schematic On default The RESET button on the xPC560S Mini Module is enabled Off The RESET button on the xPC560S Mini Module is disabled Jumper Setting Effect 1 2 The RESET signal on the MPC560xS processor is pulled up to 5V 2 3 The RESET signal on the MPC560xS processor is pulled up to 3 3V ...

Page 43: ...l interface CAN SCI J8 ABS0 Configuration If J7 is configured for serial boot mode this jumper selects between UART or CAN If J7 is configured for internal boot mode this jumper has no effect Jumper Setting Effect 1 2 The MPC560xS processor uses serial boot mode 2 3 default The MPC560xS processor uses internal boot mode Jumper Setting Effect 1 2 The MPC560xS processor uses the CAN interface for se...

Page 44: ...d NOT be used When the xPC560S Mini Module is used as a stand alone board an external 5V or 3 3V power supply must be used Note that when using the xPC560S Mini Module as a stand alone board only one power supply is available 5V or 3 3V and all appropriate jumpers must be configured to use that power supply The following jumpers affect the power supply pins of the MPC560xS processor J4 VIO Voltage...

Page 45: ...Enable Controls whether power is provided to the VDD 1V2 pins on the MPC560xS processor Jumper Setting Effect 1 2 default VIO voltage is 5V 2 3 VIO voltage is 3 3V Jumper Setting Effect On default 5V is available to power the various power supply pins on the MPC560xS processor Off 5V cannot be used to power any of the various power supply pins on the MPC560xS processor Jumper Setting Effect On def...

Page 46: ... power pins on the MPC560xS processor J22 VDDE_A Voltage Selection Sets the voltage level on the MPC560xS VDD_IO_B VDD_IO_C and Off MPC560xS VDD 1V2 pins are left disconnected Jumper Setting Effect 1 2 default Debug port s are configured for 5V logic 2 3 Debug port s are configured for 3 3V logic Jumper Setting Effect On default 3 3V is available to power the various power supply pins on the MPC56...

Page 47: ...the MPC560xS VDD_IO_D power pin Jumper Setting Effect 1 2 default MPC560xS VDD_IO_B VDD_IO_C and VDD_IO_G pins are powered by 5V J14 must be ON 2 3 MPC560xS VDD_IO_B VDD_IO_C and VDD_IO_G pins are powered by 3 3V J18 must be ON Jumper Setting Effect 1 2 default MPC560xS VDD_IO_A is powered by 5V J14 must be ON 2 3 MPC560xS VDD_IO_A is powered by 3 3V J18 must be ON Jumper Setting Effect ...

Page 48: ... 1 2 default MPC560xS VDD_IO_D is powered by 5V J14 must be ON 2 3 MPC560xS VDD_IO_D is powered by 3 3V J18 must be ON Jumper Setting Effect 1 2 default MPC560xS VDD_SMD_C is powered by 5V J14 must be ON 2 3 MPC560xS VDD_SMD_C is powered by 3 3V J18 must be ON Jumper Setting Effect 1 2 default MPC560xS VDD_SMD_B is powered by 5V J14 must be ON 2 3 MPC560xS VDD_SMD_B is powered by 3 3V J18 must be ...

Page 49: ...23 VDDE_B Voltage Selection Sets the voltage level on the MPC560xS VDD_IO_A and VDD_IO_E power pins Jumper Setting Effect 1 2 default MPC560xS VDD_SMD_A is powered by 5V J14 must be ON 2 3 MPC560xS VDD_SMD_A is powered by 3 3V J18 must be ON Jumper Setting Effect 1 2 default MPC560xS VDD_IO_F is powered by 5V J14 must be ON 2 3 MPC560xS VDD_IO_F is powered by 3 3V J18 must be ON Jumper Setting Eff...

Page 50: ...the jumpers below need to be installed to enable the crystal clock source 1 2 default MPC560xS VDD_IO_A and VDD_IO_E are powered by 5V J14 must be ON 2 3 MPC560xS VDD_IO_A and VDD_IO_E are powered by 3 3V J18 must be ON Jumper Setting Effect 1 2 default MPC560xS VDD_ADC is powered by 5V J14 must be ON 2 3 MPC560xS VDD_ADC is powered by 3 3V J18 must be ON Jumper Setting Effect 1 2 default The MPC5...

Page 51: ...vide an external clock source to the system 3 4 default The MPC560xS XTAL signal is connected to the crystal clock source on the xPC560S Mini Module Jumper Setting Effect On The MPC560xS EXTAL signal is connected to the SMA connector on the xPC560S Mini Module Off default The SMA connector on the xPC560S Mini Module is disconnected from the processor ...

Page 52: ...xPC560S EVB User Manual Figure 5 2 System Clock schematic 5 4 General Configuration J13 Reset Enable A RESET push button on the xPC560S Mini Module can be used to reset the processor Jumper Setting Effect ...

Page 53: ...ltage Figure 5 3 Reset circuitry schematic On default The RESET button on the xPC560S Mini Module is enabled Off The RESET button on the xPC560S Mini Module is disabled Jumper Setting Effect 1 2 The RESET signal on the MPC560xS processor is pulled up to 5V 2 3 The RESET signal on the MPC560xS processor is pulled up to 3 3V ...

Page 54: ...l interface CAN SCI J8 ABS0 Configuration If J7 is configured for serial boot mode this jumper selects between UART or CAN If J7 is configured for internal boot mode this jumper has no effect Jumper Setting Effect 1 2 The MPC560xS processor uses serial boot mode 2 3 default The MPC560xS processor uses internal boot mode Jumper Setting Effect 1 2 The MPC560xS processor uses the CAN interface for se...

Page 55: ...e is used as a stand alone board an external 5V or 3 3V power supply must be used Note that when using the xPC560S Mini Module as a stand alone board only one power supply is available 5V or 3 3V and all appropriate jumpers must be configured to use that power supply The following jumpers affect the power supply pins of the MPC560xS processor J4 VIO Voltage Selection Controls whether certain I O p...

Page 56: ...the MPC560xS processor Jumper Setting Effect 1 2 default VIO voltage is 5V 2 3 VIO voltage is 3 3V Jumper Setting Effect On default 5V is available to power the various power supply pins on the MPC560xS processor Off 5V cannot be used to power any of the various power supply pins on the MPC560xS processor Jumper Setting Effect On default MPC560xS VDD 1V2 pins are connected to 1 2V power Off MPC560...

Page 57: ...ous power pins on the MPC560xS processor J22 VDDE_A Voltage Selection Sets the voltage level on the MPC560xS VDD_IO_B VDD_IO_C and VDD_IO_G power pins Jumper Setting Effect 1 2 default Debug port s are configured for 5V logic 2 3 Debug port s are configured for 3 3V logic Jumper Setting Effect On default 3 3V is available to power the various power supply pins on the MPC560xS processor Off 3 3V ca...

Page 58: ...O_B VDD_IO_C and VDD_IO_G pins are powered by 5V J14 must be ON 2 3 MPC560xS VDD_IO_B VDD_IO_C and VDD_IO_G pins are powered by 3 3V J18 must be ON Jumper Setting Effect 1 2 default MPC560xS VDD_IO_A is powered by 5V J14 must be ON 2 3 MPC560xS VDD_IO_A is powered by 3 3V J18 must be ON Jumper Setting Effect 1 2 default MPC560xS VDD_IO_D is powered by 5V J14 must be ON 2 3 MPC560xS VDD_IO_D is pow...

Page 59: ... pin J19 VDDMA Voltage Selection Sets the voltage level on the MPC560xS VDD_SMD_A power pin Jumper Setting Effect 1 2 default MPC560xS VDD_SMD_C is powered by 5V J14 must be ON 2 3 MPC560xS VDD_SMD_C is powered by 3 3V J18 must be ON Jumper Setting Effect 1 2 default MPC560xS VDD_SMD_B is powered by 5V J14 must be ON 2 3 MPC560xS VDD_SMD_B is powered by 3 3V J18 must be ON Jumper Setting Effect ...

Page 60: ...efault MPC560xS VDD_SMD_A is powered by 5V J14 must be ON 2 3 MPC560xS VDD_SMD_A is powered by 3 3V J18 must be ON Jumper Setting Effect 1 2 default MPC560xS VDD_IO_F is powered by 5V J14 must be ON 2 3 MPC560xS VDD_IO_F is powered by 3 3V J18 must be ON Jumper Setting Effect 1 2 default MPC560xS VDD_IO_A and VDD_IO_E are powered by 5V J14 must be ON 2 3 MPC560xS VDD_IO_A and VDD_IO_E are powered ...

Page 61: ...alled to enable the crystal clock source J11 External clock source enable The xPC560S Mini Module contains a footprint for an SMA connector which Jumper Setting Effect 1 2 default MPC560xS VDD_ADC is powered by 5V J14 must be ON 2 3 MPC560xS VDD_ADC is powered by 3 3V J18 must be ON Jumper Setting Effect 1 2 default The MPC560xS OSCIN signal is connected to the crystal clock source on the xPC560S ...

Page 62: ...clock source to the system Figure 6 2 System Clock schematic Jumper Setting Effect On The MPC560xS EXTAL signal is connected to the SMA connector on the xPC560S Mini Module Off default The SMA connector on the xPC560S Mini Module is disconnected from the processor ...

Page 63: ...T signal of the MPC560xS processor can be pulled up to a logic high voltage Jumper Setting Effect On default The RESET button on the xPC560S Mini Module is enabled Off The RESET button on the xPC560S Mini Module is disabled Jumper Setting Effect 1 2 The RESET signal on the MPC560xS processor is pulled up to 5V 2 3 The RESET signal on the MPC560xS processor is pulled up to 3 3V ...

Page 64: ...60 xPC560S EVB User Manual Figure 6 3 Reset circuitry schematic ...

Page 65: ...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 complete solution designed for both development and production The Cyclone MAX features multiple communications interfaces including USB Ether...

Page 66: ...and allows the PC access to the debug mode on Freescale s PowerPC 5xx 8xx 55xx 56xx microcontrollers 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 Th...

Page 67: ...target to the PC via USB Ethernet or Serial Port and enables 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 ...

Page 68: ...face and is supported by Freescale s CodeWarrior as well as development software from P E P 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 ...

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