Genmcf548x
From RTEMSWiki
| Genmcf548x | |
 PhyCORE-MCF548x | |
| Board Name | MCF548x |
|---|---|
| Manufacturer | ColdFire |
| Reference | http://pdf1.alldatasheet.com/datasheet-pdf/view/184676/FREESCALE/mcf5485.html |
| Architecture | Freescale Coldfire |
| CPU Model | MCF548x |
| Monitor | uBoot, uMon |
| Runs on Simulator? | N/A |
| Aliases | No |
| RAM | DDR SDRAM: 64 to 128 MB. |
| Non-volatile Memory | 32 MB Flash |
| Serial Ports | Two RS-232 Serial Ports & Two TTL Serial Ports. |
| Video | Video Unspecified. |
Contents |
Overview
Features
- ColdM5485CFE Fire Engine Module (SOM-ETX), including:
- MCF5485CZP200 Processor
- 64MB DDR-SDRAM
- 16MB Flash
- Graphics Controller
- USB Host Controller
- LCD Display Connector - includes integrated LCD, touch, and backlight connector for Display Kits
- DVI Connector
- Two 10/100 RJ45 Ethernet connectors
- Two PCI slots (32 bit, 33 or 66MHz, 3.3V)
- Serial Ports
- Two RS-232 Serial Ports
- Two TTL Serial Ports
- Two CAN 2.0B Interfaces
- USB 2.0
- One High Speed Device (on Fire Engine)
- Four High Speed Host ports
- SPI
- RTC
- Mechanical: Mini-ITX
- 6.7" (170mm) long by 6.7" (170mm) wide by 1.3" (33mm) high
- Cables
- Serial Cable (null modem)
- Universal 5V Power Supply
- BDM Cable
- Ethernet Crossover
- USB Function Cable
- Modules offered in industrial temp range: -40 to 85C
Fire Engines
The M5485EVBGHS development kit contains a module, called a Fire Engine, which can be purchased from Freescale in production volumes. The MCF5485 Fire Engine is a complete system on module (in SOM-ETX format) offering essential features for industrial and embedded networking applications. The use of the Mini-ITX baseboard included in the M5485EVB, or a custom peripheral board generated by the customer makes the Fire Engine the ideal foundation for developing embedded computing products. The Fire Engine provides a common reference pin-out on its expansion connectors, which enables customers to easily scale to next generation microprocessor Fire Engines when new functionality or performance is required.
Board Setup
Board
• Connect the included USB cable to the host PC.
• Connect the P&E USB ColdFire Multilink adapter to the other end of the USB standard B connector.
• Connect the P&E Microcomputer Multilink adapter to the 26-pin BDM header on the Carrier Board at X2. This connection is used for communication between the Freescale’s CodeWarrior development suite and the phyCORE-MCF548x target hardware. Ensure that pin one marked on the adapter connects with pin one of the X2 connector.
• Connect the included serial cable to the lower socket (P2A) of the double DB-9 connector on the Carrier Board and to a free serial port of your host-PC. This will enable you to monitor board-host communication via a terminal emulation program, such as Windows HyperTerminal.
• Using the included 5VDC power adapter, connect the power socket on the board (X10) to a power supply (refer to Figure 3 for the correct polarity). The phyCORE module/Carrier Board combination requires a 5 VDC@1A ±5 % regulated supply.
Figure: Connecting the Supply Voltage at X10
The LEDs D31 and D32 (two green LEDs) should light, indicating that all voltages are supplied to the
phyCORE module.
The phyCORE-MCF548x should now be properly connected via the Carrier Board to a host-PC and
power supply and you are now ready to use the Freescale’s CodeWarrior tool chain to establish
communication. This phyCORE module/Carrier Board combination shall also be referred to as "target
Downloading and Executing
Describe the download procedure.
Debugging
It has 26-pin BDM connector provides a debugging interface.
Test Reports
CVS head -- DATE: User:WhoTestedThis: reports that something happened.
References
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