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参数资料
| 型号: | HSP50216KIZ |
| 厂商: | Intersil |
| 文件页数: | 11/58页 |
| 文件大小: | 0K |
| 描述: | IC DOWNCONVERTER DGTL 4CH 196BGA |
| 标准包装: | 1 |
| 功能: | 降频器 |
| RF 型: | W-CDMA |
| 封装/外壳: | 196-LFBGA |
| 包装: | 托盘 |
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��
�
�HSP50216�
�Backend� Data� Routing�
�MAG:� I�
�PATH� 0�
�AGC�
�LOOP�
�FILTER�
�dphi/dt:� Q�
�I1�
�Q1�
�MUX�
�GAIN�
�x1,� x2�
�MAG�
�FROM�
�CIC�
�M�
�U�
�X�
�(4:0)�
�FILTER�
�COMPUTE�
�ENGINE�
�PATH� 1�
�FIFO/�
�TIMER�
�PATH� 2�
�AGC�
�MULT�
�CART�
�TO�
�POLAR�
�SHIFT�
�d/dt�
�x4,� x8�
�M�
�U�
�X�
�PHASE�
�I2�
�Q2�
�EXT� AGC�
�GAIN�
�DESTINATION� BIT� MAP�
�(BITS� 28:18� OF� FIR� INSTRUCTIONS� BIT� FIELD)�
�28�
�28�
�27�
�27� 26� 25� 24� 23� 22� 21� 20� 19� 18�
�AGC� LOOP� GAIN� SELECT� (PATH� 01� ONLY)�
�UPDATE� AGC� LOOP� (PATH� 01� ONLY)�
�26,� 25�
�24�
�23�
�22:18�
�PATH� 00� -� -� IMMEDIATE� FILTER� PROCESSOR� FEEDBACK� PATH�
�01� -� -� FIFO/AGC� PATH�
�10� -� -� DIRECT� OUT/CASCADE� PATH�
�11� -� -� BOTH� 00� AND� 10� PATHS� (FOR� TEST)�
�STROBE� OUTPUT� SECTION� (START� SERIAL� OUTPUT� WITH� THIS� SAMPLE)�
�FEED� MAG/PHASE� BACK� TO� FILTER� PROCESSOR�
�FILTER� PROCESSOR� SEQUENCE� STEP� NUMBER�
�A� CIC� filter� has� a� gain� of� R� N� ,� where� R� is� the� decimation� factor�
�and� N� is� the� number� of� stages.� Because� the� CIC� filter� gain�
�can� become� very� large� with� decimation,� an� attenuator� is�
�provided� ahead� of� the� CIC� to� prevent� overflow.� The� 24� bits� of�
�sample� data� are� placed� on� the� low� 24� bits� of� a� 69� bit� bus�
�(width� of� the� first� CIC� integrator)� for� a� gain� of� 2� -45� .� A� 32� bit�
�barrel� shifter� then� provides� a� gain� of� 2� 0� to� 2� 31� inclusive�
�before� passing� the� data� onto� the� CIC.� The� overall� gain� in� the�
�pre-CIC� attenuator� can� therefore� be� programmed� to� be� any�
�one� of� 32� values� from� 2� -45� to� 2� -14� ,� inclusive� (see� IWA=*004,�
�bits� 18:14).� This� shift� factor� is� adjusted� to� keep� the� total�
�barrel� shifter� and� CIC� filter� between� 0.5� and� 1.0.� The�
�equation� which� should� be� used� to� compute� the� necessary�
�shift� factor� is:�
�Shift� Factor� =� 45� -� Ceiling(log� 2� (R� N� )).�
�NOTE:� With� a� CIC� order� of� zero,� the� CIC� shifter� does� not� have�
�sufficient� range� to� route� more� than� 10� bits� to� the� back� end� since� the�
�maximum� gain� is� 2� -14� (the� least� significant� 14� bits� are� lost).�
�11�
�Back� End� Section�
�One� back-end� processing� section� is� provided� per� channel.�
�Each� back� end� section� consists� of� a� filter� compute� engine,� a�
�FIFO/timer� for� evenly� spacing� samples� (important� when�
�implementing� interpolation� filters� and� resamplers),� an� AGC�
�and� a� cartesian-to-polar� coordinate� conversion� block.� A�
�block� diagram� showing� the� major� functional� blocks� and� data�
�routing� is� shown� above.� The� data� input� to� the� back� end�
�section� is� through� the� filter� compute� engine.� There� are� two�
�other� inputs� to� the� filter� compute� engine,� they� are� a� data�
�recirculation� path� for� cascading� filters� and� a� magnitude� and�
�d� φ� /dt� feedback� path� for� AM� and� FM� filtering.� There� are� seven�
�outputs� from� each� back� end� processing� section.� These� are� I�
�and� Q� directly� out� of� the� filter� compute� engine� (I2,� Q2),� I� and�
�Q� passed� through� the� FIFO� and� AGC� multipliers� (I1,� Q1),�
�magnitude� (MAG),� phase� (or� d� φ� /dt),� and� the� AGC� gain�
�control� value� (GAIN).� The� I2/Q2� outputs� are� used� when�
�cascading� back� end� stages.� The� routing� of� signals� within� the�
�back� end� processing� section� is� controlled� by� the� filter�
�compute� engine.� The� routing� information� is� embedded� in� the�
�instruction� bit� fields� used� to� define� the� digital� filter� being�
�implemented� in� the� filter� compute� engine.�
�FN4557.6�
�August� 17,� 2007�
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