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<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.01//EN" "http://www.w3.org/TR/html4/strict.dtd">
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<html><head><title>openMSP430 Integration and Connectivity</title></head><body><br>
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<a name="TOC"></a>
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<h3>Table of content</h3>
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<ul>
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        <li><a href="#1.%20Overview">              1. Overview</a></li>
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        <li><a href="#2.%20Clocks">                2. Clocks</a></li>
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        <li><a href="#3.%20Resets">                3. Resets</a></li>
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        <li><a href="#4.%20Program%20Memory">      4. Program Memory</a></li>
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        <li><a href="#5.%20Data%20Memory">         5. Data Memory</a></li>
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        <li><a href="#6.%20Peripherals">           6. Peripherals</a></li>
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        <li><a href="#7.%20Interrupts">            7. Interrupts</a></li>
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        <li><a href="#8.%20Serial%20Debug%20Interface">8. Serial Debug Interface</a></li>
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        <ul>
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           <li><a href="#8.1%20UART">                  8.1 UART Configuration</a></li>
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        <li><a href="#8.2%20I2C">                   8.2 I2C Configuration</a></li>
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        </ul>
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</ul>
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<a name="1. Overview"></a>
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<h1>1. Overview</h1>
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This chapter aims to give a comprehensive description of all openMSP430
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core interfaces in order to facilitate its integration within an ASIC
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or FPGA.<br><br>The
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following diagram shows an overview of the openMSP430 core connectivity
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in an FPGA system (i.e. all ASIC specific pins are left unused):<br><br>
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<img src="http://opencores.org/usercontent,img,1353268529" alt="Core Integration" title="Core Integration" width="100%">
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<br><br>
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The full pinout of the core is summarized in the following table.<br>
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<br>
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<table border="1">
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        <tbody><tr> <td align="center"><b>Port Name</b></td> <td align="center"><b>Direction</b></td> <td align="center"><b>Width</b>    </td> <td style="vertical-align: top; text-align: center;"><span style="font-weight: bold;">Clock</span><br style="font-weight: bold;">
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      <span style="font-weight: bold;">Domain</span><br>
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      </td>
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<td align="center"><b>Description</b></td> </tr>
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        <tr> <td colspan="5" align="center"> <b><i>Clocks</i></b>                         </td></tr>
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        <tr>
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             <td> <a href="#2.%20Clocks">cpu_en</a>                                 </td>
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             <td style="text-align: center;"> Input                                                            </td>
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             <td style="text-align: center;"> 1                                                                </td>
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             <td style="vertical-align: top; text-align: center;">&lt;async&gt;<br>
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or mclk<b><sup><font color="#ff0000">4</font></sup></b></td>
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<td><span class="Apple-style-span" style="color: rgb(0, 0, 0); font-family: 'Times New Roman'; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px; font-size: medium;">Enable CPU code execution (asynchronous and non-glitchy).<br>Set to 1 if unused.</span>                         </td>
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        </tr>
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        <tr>
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             <td> <a href="#2.%20Clocks">dco_clk</a>                                </td>
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             <td style="text-align: center;"> Input                                                            </td>
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             <td style="text-align: center;"> 1                                                                </td>
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             <td style="vertical-align: top; text-align: center;">-<br>
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      </td>
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<td><span class="Apple-style-span" style="color: rgb(0, 0, 0); font-family: 'Times New Roman'; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px; font-size: medium;">Fast oscillator (fast clock)</span>                          </td>
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        </tr>
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        <tr>
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             <td> <a href="#2.%20Clocks">lfxt_clk</a>                               </td>
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             <td style="text-align: center;"> Input                                                            </td>
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             <td style="text-align: center;"> 1                                                                </td>
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             <td style="vertical-align: top; text-align: center;">-<br>
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      </td>
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<td><span class="Apple-style-span" style="color: rgb(0, 0, 0); font-family: 'Times New Roman'; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px; font-size: medium;">Low frequency oscillator (typ. 32kHz)<br>Set to 0 if unused.</span></td>
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   </tr>
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        <tr>
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             <td> <a href="#2.%20Clocks">mclk</a>                                   </td>
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             <td style="text-align: center;"> Output                                                           </td>
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             <td style="text-align: center;"> 1                                                                </td>
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             <td style="vertical-align: top; text-align: center;">-<br>
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      </td>
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<td> Main system clock                                                </td>
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        </tr>
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        <tr>
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             <td> <a href="#2.%20Clocks">aclk_en</a>                                </td>
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             <td style="text-align: center;"> Output                                                           </td>
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             <td style="text-align: center;"> 1                                                                </td>
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             <td style="vertical-align: top; text-align: center;">mclk<br>
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      </td>
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<td><span class="Apple-style-span" style="color: rgb(0, 0, 0); font-family: 'Times New Roman'; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px; font-size: medium;">FPGA ONLY: ACLK enable</span>                                                      </td>
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   </tr>
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        <tr>
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             <td> <a href="#2.%20Clocks">smclk_en</a>                               </td>
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             <td style="text-align: center;"> Output                                                           </td>
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             <td style="text-align: center;"> 1                                                                </td>
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             <td style="vertical-align: top; text-align: center;">mclk<br>
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      </td>
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<td> <span class="Apple-style-span" style="color: rgb(0, 0, 0); font-family: 'Times New Roman'; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px; font-size: medium;">FPGA ONLY: SMCLK enable</span>                                                     </td>
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   </tr>
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        <tr>
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      <td style="vertical-align: top;"><a href="integration.html#2.%20Clocks">dco_enable</a></td>
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      <td style="vertical-align: top; text-align: center;">Output<br>
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      </td>
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      <td style="vertical-align: top; text-align: center;">1<br>
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      </td>
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      <td style="vertical-align: top; text-align: center;">dco_clk<br>
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      </td>
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      <td style="vertical-align: top;"><span class="Apple-style-span" style="color: rgb(0, 0, 0); font-family: 'Times New Roman'; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px; font-size: medium;">ASIC ONLY: Fast oscillator enable</span></td>
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    </tr>
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    <tr>
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      <td style="vertical-align: top;"><a href="integration.html#2.%20Clocks">dco_wkup</a></td>
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      <td style="vertical-align: top; text-align: center;">Output</td>
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      <td style="vertical-align: top; text-align: center;">1<br>
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      </td>
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      <td style="vertical-align: top; text-align: center;">&lt;async&gt;<br>
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      </td>
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      <td style="vertical-align: top;"><span class="Apple-style-span" style="color: rgb(0, 0, 0); font-family: 'Times New Roman'; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px; font-size: medium;">ASIC ONLY: Fast oscillator wakeup (asynchronous)</span></td>
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    </tr>
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    <tr>
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      <td style="vertical-align: top;"><a href="integration.html#2.%20Clocks">lfxt_enable</a></td>
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      <td style="vertical-align: top; text-align: center;">Output</td>
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      <td style="vertical-align: top; text-align: center;">1<br>
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      </td>
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      <td style="vertical-align: top; text-align: center;">lfxt_clk<br>
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      </td>
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      <td style="vertical-align: top;"><span class="Apple-style-span" style="color: rgb(0, 0, 0); font-family: 'Times New Roman'; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px; font-size: medium;">ASIC ONLY: Low frequency oscillator enable</span></td>
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    </tr>
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    <tr>
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      <td style="vertical-align: top;"><a href="integration.html#2.%20Clocks">lfxt_wkup</a></td>
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      <td style="vertical-align: top; text-align: center;">Output</td>
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      <td style="vertical-align: top; text-align: center;">1<br>
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      </td>
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      <td style="vertical-align: top; text-align: center;">&lt;async&gt;<br>
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      </td>
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      <td style="vertical-align: top;"><span class="Apple-style-span" style="color: rgb(0, 0, 0); font-family: 'Times New Roman'; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px; font-size: medium;">ASIC ONLY: Low frequency oscillator wakeup (asynchronous)</span></td>
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    </tr>
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    <tr>
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      <td style="vertical-align: top;"><a href="integration.html#2.%20Clocks">aclk</a></td>
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      <td style="vertical-align: top; text-align: center;">Output</td>
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      <td style="vertical-align: top; text-align: center;">1<br>
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      </td>
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      <td style="vertical-align: top; text-align: center;">-<br>
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      </td>
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      <td style="vertical-align: top;"><span class="Apple-style-span" style="color: rgb(0, 0, 0); font-family: 'Times New Roman'; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px; font-size: medium;">ASIC ONLY: ACLK</span></td>
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    </tr>
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    <tr>
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      <td style="vertical-align: top;"><a href="integration.html#2.%20Clocks">smclk</a></td>
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      <td style="vertical-align: top; text-align: center;">Output</td>
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      <td style="vertical-align: top; text-align: center;">1<br>
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      </td>
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      <td style="vertical-align: top; text-align: center;">-<br>
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      </td>
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      <td style="vertical-align: top;"><span class="Apple-style-span" style="color: rgb(0, 0, 0); font-family: 'Times New Roman'; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px; font-size: medium;">ASIC ONLY: SMCLK</span></td>
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    </tr>
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    <tr>
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      <td style="vertical-align: top;"><a href="integration.html#2.%20Clocks">wkup</a></td>
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      <td style="vertical-align: top; text-align: center;">Input<br>
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      </td>
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      <td style="vertical-align: top; text-align: center;">1<br>
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      </td>
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      <td style="vertical-align: top; text-align: center;">&lt;async&gt;<br>
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      </td>
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      <td style="vertical-align: top;"><span class="Apple-style-span" style="color: rgb(0, 0, 0); font-family: 'Times New Roman'; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px; font-size: medium;">ASIC ONLY: System Wake-up (asynchronous and non-glitchy)<br>Set to 0 if unused.</span></td>
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    </tr>
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<tr> <td colspan="5" align="center"> <b><i>Resets</i></b>                         </td></tr>
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        <tr>
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             <td> <a href="#3.%20Resets">puc_rst</a>                                </td>
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             <td style="text-align: center;"> Output                                                           </td>
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             <td style="text-align: center;"> 1                                                                </td>
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             <td style="vertical-align: top; text-align: center;">mclk<br>
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      </td>
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<td> Main system reset                                                </td>
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   </tr>
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        <tr>
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             <td> <a href="#3.%20Resets">reset_n</a>                                </td>
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             <td style="text-align: center;"> Input                                                            </td>
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             <td style="text-align: center;"> 1                                                                </td>
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             <td style="vertical-align: top; text-align: center;">&lt;async&gt;<br>
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      </td>
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<td><span class="Apple-style-span" style="color: rgb(0, 0, 0); font-family: 'Times New Roman'; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px; font-size: medium;">Reset Pin (active low, asynchronous and non-glitchy)</span>                             </td>
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        </tr>
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        <tr> <td colspan="5" align="center"> <b><i>Program Memory interface</i></b>       </td></tr>
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        <tr>
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             <td> <a href="#4.%20Program%20Memory">pmem_addr</a>                      </td>
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             <td style="text-align: center;"> Output                                                           </td>
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             <td style="text-align: center;"><small> `PMEM_AWIDTH</small><sup style="color: red; font-weight: bold;">1</sup>                                        </td>
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             <td style="vertical-align: top; text-align: center;">mclk<br>
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      </td>
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<td> Program Memory address                                           </td>
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        </tr>
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        <tr>
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             <td> <a href="#4.%20Program%20Memory">pmem_cen</a>                       </td>
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             <td style="text-align: center;"> Output                                                           </td>
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             <td style="text-align: center;"> 1                                                                </td>
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             <td style="vertical-align: top; text-align: center;">mclk</td>
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<td> Program Memory chip enable (low active)                          </td>
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        </tr>
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        <tr>
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             <td> <a href="#4.%20Program%20Memory">pmem_din</a>                       </td>
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             <td style="text-align: center;"> Output                                                           </td>
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             <td style="text-align: center;"> 16                                                               </td>
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             <td style="vertical-align: top; text-align: center;">mclk</td>
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<td> Program Memory data input<span class="Apple-style-span" style="color: rgb(0, 0, 0); font-family: 'Times New Roman'; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px; font-size: medium;"> (optional<span class="Apple-converted-space">&nbsp;</span><b><sup><font color="#ff0000">2</font></sup></b>)</span>                                        </td>
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        </tr>
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        <tr>
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             <td> <a href="#4.%20Program%20Memory">pmem_dout</a>                      </td>
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             <td style="text-align: center;"> Input                                                            </td>
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             <td style="text-align: center;"> 16                                                               </td>
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             <td style="vertical-align: top; text-align: center;">mclk</td>
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<td> Program Memory data output                                       </td>
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        </tr>
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        <tr>
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             <td> <a href="#4.%20Program%20Memory">pmem_wen</a>                       </td>
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             <td style="text-align: center;"> Output                                                           </td>
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             <td style="text-align: center;"> 2                                                                </td>
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             <td style="vertical-align: top; text-align: center;">mclk</td>
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<td> Program Memory write byte enable (low active) <span class="Apple-style-span" style="color: rgb(0, 0, 0); font-family: 'Times New Roman'; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px; font-size: medium;">(optional<span class="Apple-converted-space">&nbsp;</span><b><sup><font color="#ff0000">2</font></sup></b>)</span>                    </td>
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        </tr>
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        <tr> <td colspan="5" align="center"> <b><i>Data Memory interface</i></b>          </td></tr>
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        <tr>
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             <td> <a href="#5.%20Data%20Memory">dmem_addr</a>                         </td>
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             <td style="text-align: center;"> Output                                                           </td>
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             <td style="text-align: center;"><small> `DMEM_AWIDTH</small><sup style="font-weight: bold; color: red;">1</sup>                                        </td>
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             <td style="vertical-align: top; text-align: center;">mclk</td>
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<td> Data Memory address                                              </td>
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        </tr>
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        <tr>
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             <td> <a href="#5.%20Data%20Memory">dmem_cen</a>                          </td>
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             <td style="text-align: center;"> Output                                                           </td>
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             <td style="text-align: center;"> 1                                                                </td>
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             <td style="vertical-align: top; text-align: center;">mclk</td>
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<td> Data Memory chip enable (low active)                             </td>
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        </tr>
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        <tr>
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             <td> <a href="#5.%20Data%20Memory">dmem_din</a>                          </td>
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             <td style="text-align: center;"> Output                                                           </td>
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             <td style="text-align: center;"> 16                                                               </td>
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             <td style="vertical-align: top; text-align: center;">mclk</td>
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<td> Data Memory data input                                           </td>
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        </tr>
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        <tr>
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             <td> <a href="#5.%20Data%20Memory">dmem_dout</a>                         </td>
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             <td style="text-align: center;"> Input                                                            </td>
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             <td style="text-align: center;"> 16                                                               </td>
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             <td style="vertical-align: top; text-align: center;">mclk</td>
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<td> Data Memory data output                                          </td>
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        </tr>
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        <tr>
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             <td> <a href="#5.%20Data%20Memory">dmem_wen</a>                          </td>
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             <td style="text-align: center;"> Output                                                           </td>
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             <td style="text-align: center;"> 2                                                                </td>
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             <td style="vertical-align: top; text-align: center;">mclk</td>
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<td> Data Memory write byte enable (low active)                       </td>
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        </tr>
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        <tr> <td colspan="5" align="center"> <b><i>External Peripherals interface</i></b> </td></tr>
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        <tr>
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             <td> <a href="#6.%20Peripherals">per_addr</a>                          </td>
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             <td style="text-align: center;"> Output                                                           </td>
251
             <td style="text-align: center;"> 14                                                               </td>
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             <td style="vertical-align: top; text-align: center;">mclk</td>
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<td> Peripheral address                                               </td>
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        </tr>
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        <tr>
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             <td> <a href="#6.%20Peripherals">per_din</a>                           </td>
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             <td style="text-align: center;"> Output                                                           </td>
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             <td style="text-align: center;"> 16                                                               </td>
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             <td style="vertical-align: top; text-align: center;">mclk</td>
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<td> Peripheral data input                                            </td>
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   </tr>
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        <tr>
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             <td> <a href="#6.%20Peripherals">per_dout</a>                          </td>
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             <td style="text-align: center;"> Input                                                            </td>
265
             <td style="text-align: center;"> 16                                                               </td>
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             <td style="vertical-align: top; text-align: center;">mclk</td>
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<td> Peripheral data output                                           </td>
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        </tr>
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        <tr>
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             <td> <a href="#6.%20Peripherals">per_en</a>                            </td>
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             <td style="text-align: center;"> Output                                                           </td>
272
             <td style="text-align: center;"> 1                                                                </td>
273
             <td style="vertical-align: top; text-align: center;">mclk</td>
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<td> Peripheral enable (high active)                                  </td>
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        </tr>
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        <tr>
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             <td> <a href="#6.%20Peripherals">per_we</a>                            </td>
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             <td style="text-align: center;"> Output                                                           </td>
279
             <td style="text-align: center;"> 2                                                                </td>
280
             <td style="vertical-align: top; text-align: center;">mclk</td>
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<td> Peripheral write byte enable (high active)                       </td>
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        </tr>
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        <tr> <td colspan="5" align="center"> <b><i>Interrupts</i></b>                     </td></tr>
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        <tr>
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                  <td> <a href="#7.%20Interrupts">irq</a>                                </td>
287
                  <td style="text-align: center;"> Input                                                            </td>
288
                  <td style="text-align: center;"> 14                                                               </td>
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                  <td style="vertical-align: top; text-align: center;">mclk</td>
290
<td> Maskable interrupts (one-hot signal)                             </td>
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   </tr>
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        <tr>
293 135 olivier.gi
             <td> <a href="#7.%20Interrupts">nmi</a>                                </td>
294
             <td style="text-align: center;"> Input                                                            </td>
295
             <td style="text-align: center;"> 1                                                                </td>
296
             <td style="vertical-align: top; text-align: center;">&lt;async&gt;<br>
297
 
298
or mclk<b><sup><font color="#ff0000">4</font></sup></b></td>
299
<td> Non-maskable interrupt (asynchronous)                            </td>
300 50 olivier.gi
        </tr>
301
        <tr>
302 135 olivier.gi
             <td> <a href="#7.%20Interrupts">irq_acc</a>                            </td>
303
             <td style="text-align: center;"> Output                                                           </td>
304
             <td style="text-align: center;"> 14                                                               </td>
305
             <td style="vertical-align: top; text-align: center;">mclk</td>
306
<td> Interrupt request accepted (one-hot signal)                      </td>
307 50 olivier.gi
        </tr>
308
 
309 135 olivier.gi
        <tr> <td colspan="5" align="center"> <b><i>Serial Debug interface</i></b>         </td></tr>
310 50 olivier.gi
        <tr>
311 135 olivier.gi
             <td> <a href="#8.%20Serial%20Debug%20Interface">dbg_en</a>                 </td>
312
             <td style="text-align: center;"> Input                                                            </td>
313
             <td style="text-align: center;"> 1                                                                </td>
314
             <td style="vertical-align: top; text-align: center;">&lt;async&gt;<br>
315
 
316
or mclk<b><sup><font color="#ff0000">4</font></sup></b></td>
317
<td> Debug interface enable (asynchronous)<span class="Apple-style-span" style="color: rgb(0, 0, 0); font-family: 'Times New Roman'; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px; font-size: medium;"><span class="Apple-converted-space">&nbsp;</span><b><sup><font color="#ff0000">3</font></sup></b></span>                            </td>
318 116 olivier.gi
        </tr>
319
        <tr>
320 135 olivier.gi
             <td> <a href="#8.%20Serial%20Debug%20Interface">dbg_freeze</a>             </td>
321
             <td style="text-align: center;"> Output                                                           </td>
322
             <td style="text-align: center;"> 1                                                                </td>
323
             <td style="vertical-align: top; text-align: center;">mclk</td>
324
<td> Freeze peripherals                                               </td>
325 50 olivier.gi
        </tr>
326
        <tr>
327 166 olivier.gi
             <td> <a href="#8.1%20UART">dbg_uart_txd</a>           </td>
328 135 olivier.gi
             <td style="text-align: center;"> Output                                                           </td>
329
             <td style="text-align: center;"> 1                                                                </td>
330
             <td style="vertical-align: top; text-align: center;">mclk</td>
331
<td> Debug interface: UART TXD                                        </td>
332 50 olivier.gi
        </tr>
333
        <tr>
334 166 olivier.gi
             <td> <a href="#8.1%20UART">dbg_uart_rxd</a>           </td>
335 135 olivier.gi
             <td style="text-align: center;"> Input                                                            </td>
336
             <td style="text-align: center;"> 1                                                                </td>
337
             <td style="vertical-align: top; text-align: center;">&lt;async&gt;<br>
338
      </td>
339
<td> Debug interface: UART RXD (asynchronous)                         </td>
340 166 olivier.gi
        </tr><tr>
341
      <td><a href="#8.2%20I2C">dbg_i2c_addr</a></td>
342
      <td style="text-align: center;">Input</td>
343
      <td style="text-align: center;"> 1</td>
344
      <td style="vertical-align: top; text-align: center;">mclk<br>
345
      </td>
346
 <td> Debug interface: I2C Address </td>
347
    </tr>
348
    <tr>
349
      <td><a href="#8.2%20I2C">dbg_i2c_broadcast</a></td>
350
      <td style="text-align: center;">Input</td>
351
      <td style="text-align: center;"> 1</td>
352
      <td style="vertical-align: top; text-align: center;">mclk<br>
353
      </td>
354
 <td> Debug interface: I2C Broadcast Address (for multicore only) </td>
355
    </tr>
356
    <tr>
357
      <td><a href="#8.2%20I2C">dbg_i2c_scl</a></td>
358
      <td style="text-align: center;">Input</td>
359
      <td style="text-align: center;"> 1</td>
360
      <td style="vertical-align: top; text-align: center;">&lt;async&gt;</td>
361
 <td> Debug interface: I2C SCL </td>
362
    </tr>
363
    <tr>
364
      <td><a href="#8.2%20I2C">dbg_i2c_sda_in</a></td>
365
      <td style="text-align: center;">Input</td>
366
      <td style="text-align: center;"> 1</td>
367
      <td style="vertical-align: top; text-align: center;">&lt;async&gt;</td>
368
<td> Debug interface: I2C SDA input </td>
369
    </tr>
370
    <tr>
371
      <td><a href="#8.2%20I2C">dbg_i2c_sda_out</a></td>
372
      <td style="text-align: center;">Output</td>
373
      <td style="text-align: center;"> 1</td>
374
      <td style="vertical-align: top; text-align: center;">mclk<br>
375
      </td>
376
 <td> Debug interface: I2C SDA output </td>
377
    </tr>
378
<tr align="center">
379 135 olivier.gi
      <td colspan="5" rowspan="1" style="vertical-align: top;"><b><i>Scan</i></b></td>
380
    </tr>
381
    <tr>
382
      <td style="vertical-align: top;">scan_enable<br>
383
      </td>
384
      <td style="vertical-align: top; text-align: center;">Input<br>
385
      </td>
386
      <td style="vertical-align: top; text-align: center;">1<br>
387
      </td>
388
      <td style="vertical-align: top; text-align: center;">dco_clk<br>
389
      </td>
390
      <td style="vertical-align: top;">ASIC ONLY: Scan enable (active during scan shifting)</td>
391
    </tr>
392
    <tr>
393
      <td style="vertical-align: top;">scan_mode<br>
394
      </td>
395
      <td style="vertical-align: top; text-align: center;">Input<br>
396
      </td>
397
      <td style="vertical-align: top; text-align: center;">1<br>
398
      </td>
399
      <td style="vertical-align: top; text-align: center;">&lt;stable&gt;<br>
400
      </td>
401
      <td style="vertical-align: top;">ASIC ONLY: Scan mode</td>
402
    </tr>
403 50 olivier.gi
 
404 135 olivier.gi
</tbody></table>
405
<br>
406
<span class="Apple-style-span" style="color: rgb(0, 0, 0); font-family: 'Times New Roman'; font-style: normal; font-variant: normal; font-weight: normal; letter-spacing: normal; line-height: normal; orphans: 2; text-indent: 0px; text-transform: none; white-space: normal; widows: 2; word-spacing: 0px; font-size: medium;"><b><sup><font color="#ff0000">1</font></sup></b>: This parameter is declared in the "openMSP430_defines.v" file and defines the RAM/ROM size.<br><b><sup><font color="#ff0000">2</font></sup></b>:
407
These two optional ports can be connected whenever the program memory
408
is a RAM. This will allow the user to load a program through the serial
409
debug interface and to use software breakpoints.<br><b><sup><font color="#ff0000">3</font></sup></b>: When disabled, the debug interface is hold into reset (and clock gated in ASIC mode). As a consequence, the<span class="Apple-converted-space">&nbsp;</span><b><i>dbg_en</i></b><span class="Apple-converted-space">&nbsp;</span>port can be used to reset the debug interface without disrupting the CPU execution.<br><b><sup><font color="#ff0000">4</font></sup></b>: Clock domain is selectable through configuration in the "openMSP430_defines.v" file (see Advanced System Configuration).</span><sup></sup><br>
410
<br>
411 50 olivier.gi
 
412 135 olivier.gi
 
413 50 olivier.gi
<a name="2. Clocks"></a>
414 135 olivier.gi
<div style="text-align: right;"><a href="#TOC">Top</a></div>
415 50 olivier.gi
<h1>2. Clocks</h1>
416
 
417 135 olivier.gi
The different clocks in the design are managed by the Basic Clock Module as following in the FPGA configuration:
418
<br><br>
419 166 olivier.gi
<img src="http://opencores.org/usercontent,img,1319831724" alt="Clock structure diagram" title="Clock structure diagram" width="75%">
420 135 olivier.gi
<br>
421
<br>
422
or as following in the ASIC configuration:<br>
423
<br>
424 166 olivier.gi
<img src="http://opencores.org/usercontent,img,1319832480" alt="Clock structure diagram" title="Clock structure diagram" width="75%">
425 135 olivier.gi
<br>
426 50 olivier.gi
<ul>
427 116 olivier.gi
        <li>
428 135 olivier.gi
             <b><font color="#0000b0">CPU_EN</font></b>: this input port provides a hardware mean to stop or resume CPU execution. When unused, this port should be set to 1.
429
             <br><br>
430 116 olivier.gi
        </li>
431
        <li>
432 135 olivier.gi
             <b><font color="#0000b0">DCO_CLK</font></b>: this input port is typically connected to a PLL, RC oscillator or any clock resource the target FPGA/ASIC might provide.<br>For the FPGA configuration, from a synthesis tool perspective (ISE, Quartus, Libero, Design
433
Compiler...), this the only port where a clock needs to be declared. <br><br>
434 50 olivier.gi
        </li>
435 135 olivier.gi
 
436
  <li>
437
             <b><font color="#0000b0">LFXT_CLK</font></b>:
438
in an FPGA system, if ACLK_EN or SMCLK_EN are going to be used in the project (for example
439
through the Watchdog or TimerA peripherals), then this port needs to be
440
connected to a clock running at least two time slower as DCO_CLK
441
(typically 32kHz). It can be connected to 0 or 1 otherwise.<br>
442 166 olivier.gi
 
443 135 olivier.gi
In an ASIC, if ACLK or SMCLK are used and if the clock muxes are
444
included, then this port can be connected to any kind of clock source
445
(it doesn't need to be low-frequency. The name was just
446
kept to be consistent with TI's documentation).<br><br>
447 50 olivier.gi
        </li>
448 135 olivier.gi
 
449 50 olivier.gi
        <li>
450 135 olivier.gi
        <b><font color="#00b000">MCLK</font></b>:
451
the main system clock drives the complete openMSP430 clock domain,
452
including program/data memories and the peripheral interfaces. <br><br>
453 50 olivier.gi
        </li>
454
        <li>
455 135 olivier.gi
             <b><font color="#00b000">ACLK_EN / SMCLK_EN</font></b>:
456
these two clock enable signals can be used in order to emulate the
457
original ACLK and SMCLK from the MSP430 specification when the core is
458
targeting an FPGA.<br>
459
            An example of this can be found in the Watchdog and TimerA modules, where it is implemented as following:<br><br>
460 166 olivier.gi
<img src="http://opencores.org/usercontent,img,1246434793" alt="Clock implementation example" title="Clock implementation example"><br>
461 135 olivier.gi
</li>
462 50 olivier.gi
</ul>
463 135 olivier.gi
<ul>
464
  <li>
465
             <b><font color="#00b000">ACLK / SMCLK</font></b>: ACLK and MCLK are available through these two ports when targeting an ASIC.<br>&nbsp;</li>
466
  <li>
467
             <b><font color="#00b000">DCO_ENABLE / DCO_WKUP</font></b>: ASIC specific signals controlling the fast clock generator for low power mode support (SCG0 bit in the status register).<br><br></li>
468
  <li>
469
             <b><font color="#00b000">LFXT_ENABLE / LFXT_WKUP</font></b>:
470
ASIC specific signals controlling the low frequency clock generator for
471
low power mode support (OSCOFF bit in the status register).<br>&nbsp;</li>
472
  <li><b><font color="#0000b0">WKUP</font></b>:
473
When activated, this signal allows a peripheral to restore all CPU
474
clocks (i.e. wakeup the cpu) prior IRQ generation.&nbsp; Note that IRQs
475
MUST always be generated from the MCLK clock domain. </li>
476
</ul>
477 50 olivier.gi
 
478 135 olivier.gi
As an FPGA system illustration, the following waveform shows the different
479
clocks where the software running on the openMSP430 configures the
480
BCSCTL1 and BCSCTL2 registers so that <i>ACLK_EN</i> and <i>SMCLK_EN</i> are respectively running at <i>LFXT_CLK/2</i> and <i>DCO_CLK/4</i>.<br><br>
481 166 olivier.gi
<img src="http://opencores.org/usercontent,img,1263320613" alt="Waveforms: Clocks - Jan 12. 2010" title="Waveforms: Clocks - Jan 12. 2010" width="100%">
482 135 olivier.gi
<br><br>
483
 
484 50 olivier.gi
<a name="3. Resets"></a>
485 135 olivier.gi
<div style="text-align: right;"><a href="#TOC">Top</a></div>
486 50 olivier.gi
<h1>3. Resets</h1>
487
 
488
<ul>
489
        <li><b><font color="#0000b0">RESET_N</font></b>: this input port is typically connected to a board push button and is generally combined with the system power-on-reset.
490 135 olivier.gi
             <br><br>
491 50 olivier.gi
        </li>
492
        <li>
493 135 olivier.gi
            <b><font color="#00b000">PUC_RST</font></b>: the Power-Up-Clear signal is asynchronously set with the reset pin (<i>RESET_N</i>),
494
the watchdog reset or the serial debug interface reset. In order to get
495
clean timings, it is synchronously cleared with MCLK. As
496
a general rule, this signal should be used as the reset of the <i>MCLK</i> clock domain.
497
             <br><br>
498 50 olivier.gi
        </li>
499
</ul>
500 135 olivier.gi
The following waveform illustrates this:<br><br>
501 166 olivier.gi
<img src="http://opencores.org/usercontent,img,1263320655" alt="Waveforms: Resets - Jan 12. 2010" title="Waveforms: Resets - Jan 12. 2010" width="100%">
502 135 olivier.gi
 <br><br>
503 50 olivier.gi
 
504
<a name="4. Program Memory"></a>
505 135 olivier.gi
<div style="text-align: right;"><a href="#TOC">Top</a></div>
506 50 olivier.gi
<h1>4. Program Memory</h1>
507
 
508 135 olivier.gi
Depending on the project needs, the program memory can be either implemented as a ROM or RAM.<br>
509
<br>
510
If a ROM is selected then the <i>PMEM_DIN</i> and <i>PMEM_WEN</i>
511
ports won't be connected. In that case, the software debug capabilities
512
are limited because the serial debug interface can only use hardware
513
breakpoints in order to stop the program execution. In addition,
514
updating the software will require a reprogramming of the FPGA... or a new ROM mask for an ASIC.<br>
515
<br>
516
If the program memory is a RAM, the developer gets full flexibility
517
regarding software debugging. The serial debug interface can be used to
518
update the program memory and software breakpoints can be used.<br>
519
<br><br>
520 50 olivier.gi
That said, the protocol between the openMSP430 and the program memory is quite standard. Signal description goes as following:
521
<ul>
522
        <li><b><font color="#00b000">PMEM_CEN</font></b>: when this signal is active, the read/write access will be executed with the next <i>MCLK</i> rising edge. Note that this signal is LOW ACTIVE.
523 135 olivier.gi
             <br><br>
524 50 olivier.gi
        </li>
525
        <li>
526 135 olivier.gi
            <b><font color="#00b000">PMEM_ADDR</font></b>: Memory address of the 16 bit word which is going to be accessed.<br>
527 50 olivier.gi
            <b>Note:</b> in order to calculate the core logical address from the program memory physical address, the formula goes as following: <i>LOGICAL@=2*PHYSICAL@+0x10000-PMEM_SIZE</i>
528 135 olivier.gi
             <br><br>
529 50 olivier.gi
        </li>
530
        <li>
531
            <b><font color="#0000b0">PMEM_DOUT</font></b>: the memory output word will be updated with every valid read/write access (i.e. <i>PMEM_DOUT</i> is not updated if <i>PMEM_CEN</i>=1).
532 135 olivier.gi
             <br><br>
533 50 olivier.gi
        </li>
534
        <li>
535 135 olivier.gi
            <b><font color="#00b000">PMEM_WEN</font></b>:
536
this signal selects which byte should be written during a valid access.
537
PMEM_WEN[0] will activate a write on the lower byte, PMEM_WEN[1] a
538
write on the upper byte. Note that these signals are LOW ACTIVE. <br><br>
539 50 olivier.gi
        </li>
540
        <li>
541
            <b><font color="#00b000">PMEM_DIN</font></b>: the memory input word will be written with the valid write access according to the <i>PMEM_WEN</i> value.
542 135 olivier.gi
             <br><br>
543 50 olivier.gi
        </li>
544
</ul>
545 135 olivier.gi
The following waveform illustrates some read accesses of the program
546
memory (write access are illustrated in the data memory section):<br><br>
547 166 olivier.gi
<img src="http://opencores.org/usercontent,img,1263320706" alt="Waveforms: Program memory - Jan " title="Waveforms: Program memory - Jan " width="100%">
548 135 olivier.gi
<br><br>
549 50 olivier.gi
<a name="5. Data Memory"></a>
550 135 olivier.gi
<div style="text-align: right;"><a href="#TOC">Top</a></div>
551 50 olivier.gi
<h1>5. Data Memory</h1>
552
 
553 135 olivier.gi
The data memory is always implemented as a RAM.<br>
554
<br>
555
The protocol between the openMSP430 and the data memory is the same as
556
the one of the program memory. Therefore, the signal description is the
557
same:
558 50 olivier.gi
<ul>
559
        <li><b><font color="#00b000">DMEM_CEN</font></b>: when this signal is active, the read/write access will be executed with the next <i>MCLK</i> rising edge. Note that this signal is LOW ACTIVE.
560 135 olivier.gi
             <br><br>
561 50 olivier.gi
        </li>
562
        <li>
563 135 olivier.gi
            <b><font color="#00b000">DMEM_ADDR</font></b>: Memory address of the 16 bit word which is going to be accessed.<br>
564 50 olivier.gi
            <b>Note:</b> in order to calculate the core logical address from the data memory physical address, the formula goes as following: <i>LOGICAL@=2*PHYSICAL@+0x200</i>
565 135 olivier.gi
             <br><br>
566 50 olivier.gi
        </li>
567
        <li>
568
            <b><font color="#0000b0">DMEM_DOUT</font></b>: the memory output word will be updated with every valid read/write access (i.e. <i>DMEM_DOUT</i> is not updated if <i>DMEM_CEN</i>=1).
569 135 olivier.gi
             <br><br>
570 50 olivier.gi
        </li>
571
        <li>
572 135 olivier.gi
            <b><font color="#00b000">DMEM_WEN</font></b>:
573
this signal selects which byte should be written during a valid access.
574
DMEM_WEN[0] will activate a write on the lower byte, DMEM_WEN[1] a
575
write on the upper byte. Note that these signals are LOW ACTIVE. <br><br>
576 50 olivier.gi
        </li>
577
        <li>
578
            <b><font color="#00b000">DMEM_DIN</font></b>: the memory input word will be written with the valid write access according to the <i>DMEM_WEN</i> value.
579 135 olivier.gi
             <br><br>
580 50 olivier.gi
        </li>
581
</ul>
582 135 olivier.gi
The following waveform illustrates some read/write access to the data memory:<br><br>
583 166 olivier.gi
<img src="http://opencores.org/usercontent,img,1263320770" alt="Waveforms: Data memory - Jan 12." title="Waveforms: Data memory - Jan 12." width="100%">
584 135 olivier.gi
<br><br>
585 50 olivier.gi
 
586
<a name="6. Peripherals"></a>
587 135 olivier.gi
<div style="text-align: right;"><a href="#TOC">Top</a></div>
588 50 olivier.gi
<h1>6. Peripherals</h1>
589 135 olivier.gi
The protocol between the openMSP430 core and its peripherals is the
590
exactly same as the one with the data and program memories in regard
591
to write access and differs slightly for read access.<br>
592
<br>
593
On the connectivity side, the specificity is that the read data bus of
594
all peripherals should be ORed together before being connected to the
595
core, as showed in the diagram of the <a href="#1.%20Overview">Overview</a> section.<br>
596
From the logical point of view, during a read access, each peripheral
597
outputs the combinatorial value of its read mux and returns 0 if it
598
doesn't contain the addressed register. On the waveforms, this
599
translates by seeing the register value on <i>PER_DOUT</i> while <i>PER_EN</i> is valid and not one clock cycle afterward as it is the case with the program and data memories.<br>
600
In any case, it is recommended to use the templates provided with the core in order to develop your own custom peripherals.<br>
601 50 olivier.gi
The signal description therefore goes as following:
602
<ul>
603
        <li><b><font color="#00b000">PER_EN</font></b>: when this signal is active, read access are executed during the current <i>MCLK</i> cycle while write access will be executed with the next <i>MCLK</i> rising edge. Note that this signal is HIGH ACTIVE.
604 135 olivier.gi
             <br><br>
605 50 olivier.gi
        </li>
606
        <li>
607 135 olivier.gi
            <b><font color="#00b000">PER_ADDR</font></b>:
608
peripheral register address of the 16 bit word which is currently
609
accessed. It is to be noted that a 14 bit address will always be
610
provided from the openMSP430 to the peripheral in order to accommodate
611
the biggest possible PER_SIZE Verilog configuration option (i.e. 32kB
612
as opposed to 512B by default).<br>
613 50 olivier.gi
            <b>Note:</b> in order to calculate the core logical address from the peripheral register physical address, the formula goes as following: <i>LOGICAL@=2*PHYSICAL@</i>
614 135 olivier.gi
             <br><br>
615 50 olivier.gi
        </li>
616
        <li>
617
            <b><font color="#0000b0">PER_DOUT</font></b>: the peripheral output word will be updated with every valid read/write access, it will be set to 0 otherwise.
618 135 olivier.gi
             <br><br>
619 50 olivier.gi
        </li>
620
        <li>
621 135 olivier.gi
            <b><font color="#00b000">PER_WE</font></b>:
622
this signal selects which byte should be written during a valid access.
623
PER_WE[0] will activate a write on the lower byte, PER_WE[1] a write on
624
the upper byte. Note that these signals are HIGH ACTIVE. <br><br>
625 50 olivier.gi
        </li>
626
        <li>
627
            <b><font color="#00b000">PER_DIN</font></b>: the peripheral input word will be written with the valid write access according to the <i>PER_WEN</i> value.
628 135 olivier.gi
             <br><br>
629 50 olivier.gi
        </li>
630
</ul>
631 135 olivier.gi
The following waveform illustrates some read/write access to the peripheral registers:<br><br>
632 166 olivier.gi
<img src="http://opencores.org/usercontent,img,1263320825" alt="Waveforms: Peripherals - Jan 12." title="Waveforms: Peripherals - Jan 12." width="100%">
633 135 olivier.gi
<br><br>
634 50 olivier.gi
 
635
 
636
<a name="7. Interrupts"></a>
637 135 olivier.gi
<div style="text-align: right;"><a href="#TOC">Top</a></div>
638
<h1>7. Interrupts</h1> As with the original MSP430, the interrupt
639
priorities of the openMSP430 are fixed in hardware accordingly to the
640
connectivity of the <i>NMI</i> and <i>IRQ</i> ports.<br>
641
If two interrupts are pending simultaneously, the higher priority interrupt will be serviced first.<br>
642
The following table summarize this:<br><br>
643 50 olivier.gi
<table border="1">
644 135 olivier.gi
<tbody><tr>
645 50 olivier.gi
   <td align="center"><b>&nbsp;&nbsp;Interrupt Port&nbsp;&nbsp;</b></td>
646
   <td align="center"><b>&nbsp;&nbsp;Vector address&nbsp;&nbsp;</b></td>
647
   <td align="center"><b>&nbsp;&nbsp;Priority&nbsp;&nbsp;</b></td>
648
</tr>
649
<tr>
650
   <td align="center">RESET_N</td>
651
   <td align="center">0xFFFE</td>
652
   <td align="center">15 (highest)</td>
653
</tr>
654
<tr>
655
   <td align="center">NMI</td>
656
   <td align="center">0xFFFC</td>
657
   <td align="center">14</td>
658
</tr>
659
<tr>
660
   <td align="center">IRQ[13]</td>
661
   <td align="center">0xFFFA</td>
662
   <td align="center">13</td>
663
</tr>
664
<tr>
665
   <td align="center">IRQ[12]</td>
666
   <td align="center">0xFFF8</td>
667
   <td align="center">12</td>
668
</tr>
669
<tr>
670
   <td align="center">IRQ[11]</td>
671
   <td align="center">0xFFF6</td>
672
   <td align="center">11</td>
673
</tr>
674
<tr>
675
   <td align="center">IRQ[10]</td>
676
   <td align="center">0xFFF4</td>
677
   <td align="center">10</td>
678
</tr>
679
<tr>
680
   <td align="center">IRQ[9]</td>
681
   <td align="center">0xFFF2</td>
682
   <td align="center">9</td>
683
</tr>
684
<tr>
685
   <td align="center">IRQ[8]</td>
686
   <td align="center">0xFFF0</td>
687
   <td align="center">8</td>
688
</tr>
689
<tr>
690
   <td align="center">IRQ[7]</td>
691
   <td align="center">0xFFEE</td>
692
   <td align="center">7</td>
693
</tr>
694
<tr>
695
   <td align="center">IRQ[6]</td>
696
   <td align="center">0xFFEC</td>
697
   <td align="center">6</td>
698
</tr>
699
<tr>
700
   <td align="center">IRQ[5]</td>
701
   <td align="center">0xFFEA</td>
702
   <td align="center">5</td>
703
</tr>
704
<tr>
705
   <td align="center">IRQ[4]</td>
706
   <td align="center">0xFFE8</td>
707
   <td align="center">4</td>
708
</tr>
709
<tr>
710
   <td align="center">IRQ[3]</td>
711
   <td align="center">0xFFE6</td>
712
   <td align="center">3</td>
713
</tr>
714
<tr>
715
   <td align="center">IRQ[2]</td>
716
   <td align="center">0xFFE4</td>
717
   <td align="center">2</td>
718
</tr>
719
<tr>
720
   <td align="center">IRQ[1]</td>
721
   <td align="center">0xFFE2</td>
722
   <td align="center">1</td>
723
</tr>
724
<tr>
725
   <td align="center">IRQ[0]</td>
726
   <td align="center">0xFFE0</td>
727
   <td align="center">0 (lowest)</td>
728
</tr>
729 135 olivier.gi
</tbody></table>
730
<br><br>
731 50 olivier.gi
The signal description goes as following:
732
<ul>
733
        <li>
734 135 olivier.gi
            <b><font color="#0000b0">NMI</font></b>: The <b>N</b>on-<b>M</b>askable <b>I</b>nterrupt has higher priority than other IRQs and is masked by the NMIIE bit instead of GIE.<br>
735
It is internally synchronized to the <i>MCLK</i>
736
domain and can therefore be connected to any asynchronous signal of the
737
chip (which could for example be a pin of the FPGA). If unused, this
738
signal should be connected to 0. <br><br>
739 50 olivier.gi
        </li>
740
        <li>
741 135 olivier.gi
            <b><font color="#0000b0">IRQ</font></b>: The standard interrupts can be connected to any signal coming from the <i>MCLK</i> domain (typically a peripheral). Priorities can be chosen by selecting the proper bit of the <i>IRQ</i> bus as shown in the table above. Unused interrupts should be connected to 0.<br>
742
<b>Note</b>: <i>IRQ[10]</i> is internally connected to the Watchdog
743
interrupt. If this bit is also used by an external peripheral, they
744
will both share the same interrupt vector. <br><br>
745 50 olivier.gi
        </li>
746
        <li>
747 135 olivier.gi
            <b><font color="#00b000">IRQ_ACC</font></b>:
748
Whenever an interrupt request is serviced, some peripheral
749
automatically clear their pending flag in hardware. In order to do so,
750
the <i>IRQ_ACC</i> bus can be used by using the bit matching the corresponding <i>IRQ</i> bit. An example of this is shown in the implementation of the TACCR0 Timer A interrupt.
751
            <br><br>
752 50 olivier.gi
        </li>
753
</ul>
754 135 olivier.gi
The following waveform illustrates a TAIV interrupt issued by the Timer-A, which is connected to <i>IRQ[8]</i> :<br><br>
755 166 olivier.gi
<img src="http://opencores.org/usercontent,img,1263320861" alt="Waveforms: Interrupts - Jan 12. " title="Waveforms: Interrupts - Jan 12. " width="100%">
756 50 olivier.gi
 
757 135 olivier.gi
<br><br>
758 50 olivier.gi
 
759
 
760
<a name="8. Serial Debug Interface"></a>
761 135 olivier.gi
<div style="text-align: right;"><a href="#TOC">Top</a></div>
762 50 olivier.gi
<h1>8. Serial Debug Interface</h1>
763 135 olivier.gi
The serial debug interface module provides a two-wires communication
764 166 olivier.gi
bus (UART or I2C) for remote debugging and an additional freeze signal which might be
765 135 olivier.gi
useful for some peripherals (typically timers).<br>
766
<br>
767 50 olivier.gi
<ul>
768
        <li>
769 135 olivier.gi
            <b><font color="#0000b0">DBG_EN</font></b>: this signal
770
allows the user to enable or disable the serial debug interface without
771
interfering with the CPU execution. It is to be noted that when
772
disabled (i.e. DBG_EN=0), the debug interface is held into reset. <br><br>
773 116 olivier.gi
        </li>
774
        <li>
775 135 olivier.gi
            <b><font color="#00b000">DBG_FREEZE</font></b>: this signal will be set whenever the debug interface stops the CPU (and if the <i>FRZ_BRK_EN</i> field of the <a href="http://www.opencores.org/project,openmsp430,serial%20debug%20interface#2.2.2%20CPU_CTL">CPU_CTL</a> debug register is set). As its name implies, the purpose of <i>DBG_FREEZE</i> is to freeze a peripheral whenever the CPU is stopped by the software debugger.<br>
776
For example, it is used by the Watchdog timer in order to stop its
777
free-running counter. This prevents the CPU from being reseted by the
778
watchdog every times the user stops the CPU during a debugging session.
779
<br><br>
780 50 olivier.gi
        </li>
781 166 olivier.gi
</ul>
782
<a name="8.1 UART"></a>
783
<h2>8.1 UART Configuration</h2>
784
<ul>
785 50 olivier.gi
        <li>
786
            <b><font color="#00b000">DBG_UART_TXD</font>&nbsp;/&nbsp;<font color="#0000b0">DBG_UART_RXD</font></b>: these signals are typically connected to an RS-232 transceiver and will allow a PC to communicate with the openMSP430 core.
787 135 olivier.gi
            <br><br>
788 50 olivier.gi
        </li>
789
</ul>
790 166 olivier.gi
The following waveform shows some communication traffic on the UART serial bus :<br><br>
791
<img src="http://opencores.org/usercontent,img,1263320887" alt="Waveforms: SDI - Jan 12. 2010" title="Waveforms: SDI - Jan 12. 2010" width="100%">
792 135 olivier.gi
<br><br>
793 166 olivier.gi
<a name="8.2 I2C"></a>
794
<h2>8.2 I2C Configuration</h2>
795
<ul>
796
        <li>
797
            <b><font color="#0000b0">DBG_I2C_ADDR</font></b>: I2C Device address of the oMSP core (between 8 and 119). In a multi-core configuration each core has its own address.
798
            <br><br>
799
        </li>
800
        <li>
801
            <b><font color="#0000b0">DBG_I2C_BROADCAST</font></b>:
802
I2C Device broadcast address of the oMSP core (between 8 and 119). In a
803
multi-core configuration all cores have the same broadcast address. <br><br>
804
        </li>
805
        <li>
806
            <b><font color="#0000b0">DBG_I2C_SCL</font></b>: I2C bus clock input (SCL).
807
            <br><br>
808
        </li>
809
        <li>
810
            <b><font color="#00b000">DBG_I2C_SDA_OUT</font>&nbsp;/&nbsp;<font color="#0000b0">DBG_I2C_SDA_IN</font></b>: these signals are connected to the SDA I/O cell as following:<br><br>
811
    <div style="text-align: center;"><img src="http://opencores.org/usercontent,img,1353268717" alt="I2C SDA IO Connect" title="I2C SDA IO Connect" width="50%">
812
            <br>
813
    </div>
814
<br>
815
        </li>
816
</ul>
817
 
818
The following waveform shows some communication traffic on the I2C serial bus :<br><br>
819
<img src="http://opencores.org/usercontent,img,1353272928" alt="Waveforms: SDI I2C" title="Waveforms: SDI I2C" width="100%">
820
<br><br>
821
<div style="text-align: right;"><a href="#TOC">Top</a></div>
822
 
823 135 olivier.gi
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