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| 型号: | TMDXEVM5515 |
| 厂商: | Texas Instruments |
| 文件页数: | 65/159页 |
| 文件大小: | 0K |
| 描述: | EVAL MODULE DSP FOR C55XX |
| 标准包装: | 1 |
| 类型: | DSP |
| 适用于相关产品: | TMS320C55x 系列 |
| 所含物品: | 板,线缆,CD,电源 |
| 产品目录页面: | 718 (CN2011-ZH PDF) |
| 其它名称: | 296-25753 |
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���SPRS645F� –� AUGUST� 2010� –� REVISED� OCTOBER� 2013�
�3.8�
�3.8.1�
�Debugging� Considerations�
�Pullup/Pulldown� Resistors�
�Proper� board� design� should� ensure� that� input� pins� to� the� device� DSP� always� be� at� a� valid� logic� level� and�
�not� floating.� This� may� be� achieved� via� pullup/pulldown� resistors.� The� DSP� features� internal� pullup� (IPU)�
�and� internal� pulldown� (IPD)� resistors� on� many� pins,� including� all� GPIO� pins,� to� eliminate� the� need,� unless�
�otherwise� noted,� for� external� pullup/pulldown� resistors.�
�An� external� pullup/pulldown� resistor� may� need� to� be� used� in� the� following� situations:�
�?�
�?�
�Configuration� Pins:� An� external� pullup/pulldown� resistor� is� recommended� to� set� the� desired� value/state�
�(see� the� configuration� pins� listed� in� Table� 3-4� ,� Default� Functions� Affected� by� Device� Configuration�
�Pins� ).� Note� that� some� configuration� pins� must� be� connected� directly� to� ground� or� to� a� specific� supply�
�voltage.�
�Other� Input� Pins:� If� the� IPU/IPD� does� not� match� the� desired� value/state,� use� an� external�
�pullup/pulldown� resistor� to� pull� the� signal� to� the� opposite� rail.�
�For� the� configuration� pins� (listed� in� Table� 3-4� ,� Default� Functions� Affected� by� Device� Configuration� Pins� ),� if�
�they� are� both� routed� out� and� in� a� high-impedance� state� (not� driven),� it� is� strongly� recommended� that� an�
�external� pullup/pulldown� resistor� be� implemented.� In� addition,� applying� external� pullup/pulldown� resistors�
�on� the� configuration� pins� adds� convenience� to� the� user� in� debugging� and� flexibility� in� switching� operating�
�modes.�
�When� an� external� pullup� or� pulldown� resistor� is� used� on� a� pin,� the� pin’s� internal� pullup� or� pulldown� resistor�
�should� be� disabled� through� the� Pullup/Pulldown� Inhibit� Registers� (PDINHIBR1/2/3)� [1C17h,� 1C18h,� and�
�1C19h,� respectively]� to� minimize� power� consumption.�
�Tips� for� choosing� an� external� pullup/pulldown� resistor:�
�?�
�?�
�?�
�?�
�?�
�?�
�Consider� the� total� amount� of� current� that� may� pass� through� the� pullup� or� pulldown� resistor.� Make� sure�
�to� include� the� leakage� currents� of� all� the� devices� connected� to� the� net,� as� well� as� any� internal� pullup� or�
�pulldown� (IPU/IPD)� resistors.�
�Decide� a� target� value� for� the� net.� For� a� pulldown� resistor,� this� should� be� below� the� lowest� V� IL� level� of�
�all� inputs� connected� to� the� net.� For� a� pullup� resistor,� this� should� be� above� the� highest� V� IH� level� of� all�
�inputs� on� the� net.� A� reasonable� choice� would� be� to� target� the� V� OL� or� V� OH� levels� for� the� logic� family� of�
�the� limiting� device;� which,� by� definition,� have� margin� to� the� V� IL� and� V� IH� levels.�
�Select� a� pullup/pulldown� resistor� with� the� largest� possible� value;� but,� which� can� still� ensure� that� the� net�
�will� reach� the� target� pulled� value� when� maximum� current� from� all� devices� on� the� net� is� flowing� through�
�the� resistor.� The� current� to� be� considered� includes� leakage� current� plus,� any� other� internal� and�
�external� pullup/pulldown� resistors� on� the� net.�
�For� bidirectional� nets,� there� is� an� additional� consideration� which� sets� a� lower� limit� on� the� resistance�
�value� of� the� external� resistor.� Verify� that� the� resistance� is� small� enough� that� the� weakest� output� buffer�
�can� drive� the� net� to� the� opposite� logic� level� (including� margin).�
�Remember� to� include� tolerances� when� selecting� the� resistor� value.�
�For� pullup� resistors,� also� remember� to� include� tolerances� on� the� DV� DD� rail.�
�For� most� systems,� a� 1-k� ?� resistor� can� be� used� to� oppose� the� IPU/IPD� while� meeting� the� above� criteria.�
�Users� should� confirm� this� resistor� value� is� correct� for� their� specific� application.�
�For� most� systems,� a� 20-k� ?� resistor� can� be� used� to� compliment� the� IPU/IPD� on� the� configuration� pins�
�while� meeting� the� above� criteria.� Users� should� confirm� this� resistor� value� is� correct� for� their� specific�
�application.�
�For� more� detailed� information� on� input� current� (I� I� ),� and� the� low-/high-level� input� voltages� (V� IL� and� V� IH� )� for�
�the� device� DSP,� see� Section� 4.3� ,� Electrical� Characteristics� Over� Recommended� Ranges� of� Supply�
�Voltage� and� Operating� Temperature� .�
�For� the� internal� pullup/pulldown� resistors� for� all� device� pins,� see� the� peripheral/system-specific� terminal�
��Copyright� ?� 2010–2013,� Texas� Instruments� Incorporated�
��Product� Folder� Links:� TMS320C5515�
�Device� Configuration�
�65�
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