Freescale Semiconductor Daughter Card for DEMOEM DCF51EM256 DCF51EM256 Manual De Usuario
Los códigos de productos
DCF51EM256
DEMOEM User Manual
17
DEMOEM CODE DEVELOPMENT SOFTWARE for more information.
5.3
Run Mode
The DEMOEM’s rich component list empowers it to perform a variety of tasks.
Once an application is developed, debugged, and programmed properly into
the EM internal flash memory, it can run with or without connecting to a host.
Once an application is developed, debugged, and programmed properly into
the EM internal flash memory, it can run with or without connecting to a host.
5.4
External BDM Mode
The DEMOEM has an optional BDM header for debugging and programming
the on-board EM device using an external BDM hardware tool, such as P&E’s
USB Multilink or Cyclone PRO. Please refer to Section 9 - TRANSITIONING
TO YOUR OWN TARGET for more information. A user can take advantage of
this mode to develop a target-specific EM system and compare it with the
DEMOEM when necessary.
the on-board EM device using an external BDM hardware tool, such as P&E’s
USB Multilink or Cyclone PRO. Please refer to Section 9 - TRANSITIONING
TO YOUR OWN TARGET for more information. A user can take advantage of
this mode to develop a target-specific EM system and compare it with the
DEMOEM when necessary.
6
P&E EMBEDDED MULTILINK TOOLKIT PC APPLICATIONS
P&E provides several Windows PC-based applications which work with the
DEMOEM board. These applications are collectively referred to as the P&E
Embedded Multilink Toolkit. The following applications are included in the
toolkit:
DEMOEM board. These applications are collectively referred to as the P&E
Embedded Multilink Toolkit. The following applications are included in the
toolkit:
6.1
Logic Analyzer Application
The DEMOEM board has a built-in two-channel logic analyzer. This analyzer
allows the IN0 and IN1 signals to be captured by the PC and displayed for the
user. The IN0 and IN1 signals may be connected to any of the MCU signals
which the user would like to view. By default, they are connected to the PTA5
and PTA6 pins of the MCU by jumper J18. At the time of this release, the logic
analyzer runs at a capture rate of 10KHz.
allows the IN0 and IN1 signals to be captured by the PC and displayed for the
user. The IN0 and IN1 signals may be connected to any of the MCU signals
which the user would like to view. By default, they are connected to the PTA5
and PTA6 pins of the MCU by jumper J18. At the time of this release, the logic
analyzer runs at a capture rate of 10KHz.