| 110 | | If there are special jumper or ROM monitor settings, describe them. |
| | 110 | [wiki:File:1.jpg center] |
| | 111 | |
| | 112 | |
| | 113 | <p> |
| | 114 | • Connect the included USB cable to the host PC. |
| | 115 | • Connect the P&E USB ColdFire Multilink adapter to the other end of the USB standard B |
| | 116 | connector. |
| | 117 | • Connect the P&E Microcomputer Multilink adapter to the 26-pin BDM header on the Carrier Board |
| | 118 | at X2. This connection is used for communication between the Freescale’s CodeWarrior |
| | 119 | development suite and the phyCORE-MCF548x target hardware. Ensure that pin one marked on |
| | 120 | the adapter connects with pin one of the X2 connector. |
| | 121 | • Connect the included serial cable to the lower socket (P2A) of the double DB-9 connector on the |
| | 122 | Carrier Board and to a free serial port of your host-PC. This will enable you to monitor board-host |
| | 123 | communication via a terminal emulation program, such as Windows HyperTerminal. |
| | 124 | • Using the included 5VDC power adapter, connect the power socket on the board (X10) to a power |
| | 125 | supply (refer to Figure 3 for the correct polarity). The phyCORE module/Carrier Board combination |
| | 126 | requires a 5 VDC@1A ±5 % regulated supply.</p> |
| | 127 | |
| | 128 | [wiki:File:2.jpg center] |
| | 129 | |
| | 130 | <p> |
| | 131 | <h4> Figure 3: Connecting the Supply Voltage at X10 </h4> |
| | 132 | |
| | 133 | |
| | 134 | The LEDs D31 and D32 (two green LEDs) should light, indicating that all voltages are supplied to the |
| | 135 | phyCORE module. |
| | 136 | The phyCORE-MCF548x should now be properly connected via the Carrier Board to a host-PC and |
| | 137 | power supply and you are now ready to use the Freescale’s CodeWarrior tool chain to establish |
| | 138 | communication. This phyCORE module/Carrier Board combination shall also be referred to as "target |
| | 139 | hardware".</p> |
| | 140 | |
| | 141 | |
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