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参数资料
| 型号: | PE43601MLI-Z |
| 厂商: | Peregrine Semiconductor |
| 文件页数: | 8/13页 |
| 文件大小: | 0K |
| 描述: | IC RF DSA 6BIT 50 OHM 32QFN |
| 标准包装: | 3,000 |
| 系列: | UltraCMOS™, HaRP™ |
| 衰减值: | 0dB ~ 15.75dB |
| 容差: | ±0.2dB |
| 频率范围: | 9kHz ~ 6GHz |
| 阻抗: | 50 欧姆 |
| 封装/外壳: | 32-VFQFN 裸露焊盘 |
| 其它名称: | PE43601 |
��
�
�PE43601�
�Product� Specification�
�Programming� Options�
�Parallel/Serial� Selection�
�Either� a� parallel� or� serial-addressable� interface� can�
�be� used� to� control� the� PE43601.� The� P� /� ?� S� bit�
�provides� this� selection,� with� P� /� ?� S=LOW� selecting� the�
�parallel� interface� and� P� /� ?� S=HIGH� selecting� the� serial-�
�addressable� interface.�
�Parallel� Mode� Interface�
�The� parallel� interface� consists� of� six� CMOS-�
�compatible� control� lines� that� select� the� desired�
�attenuation� state,� as� shown� in� Table� 7� .�
�The� parallel� interface� timing� requirements� are�
�defined� by� Fig.� 21� (Parallel� Interface� Timing�
�Diagram),� Table� 12� (Parallel� Interface� AC�
�Characteristics),� and� switching� speed� (� Table� 1� ).�
�For� latched� -parallel� programming� the� Latch� Enable�
�(LE)� should� be� held� LOW� while� changing� attenuation�
�state� control� values,� then� pulse� LE� HIGH� to� LOW�
�(� per� Fig.� 21� )� to� latch� new� attenuation� state� into�
�device.�
�For� direct� parallel� programming,� the� Latch� Enable�
�(LE)� line� should� be� pulled� HIGH.� Changing�
�attenuation� state� control� values� will� change� device�
�state� to� new� attenuation.� Direct� Mode� is� ideal� for�
�manual� control� of� the� device� (using� hardwire,�
�switches,� or� jumpers).�
�shift� register.� Serial� data� is� clocked� in� LSB� first,�
�beginning� with� the� Attenuation� Word.�
�The� shift� register� must� be� loaded� while� LE� is� held�
�LOW� to� prevent� the� attenuator� value� from� changing�
�as� data� is� entered.� The� LE� input� should� then� be�
�toggled� HIGH� and� brought� LOW� again,� latching� the�
�new� data� into� the� DSA.� Address� word� and�
�attenuation� word� truth� tables� are� listed� in� Table� 8� &�
�Table� 9� ,� respectively.� A� programming� example� of� the�
�Serial-Addressable� register� is� illustrated� in� Table� 10� .�
�The� serial-addressable� timing� diagram� is� illustrated�
�in� Fig.� 20.�
�Power-up� Control� Settings�
�The� PE43701� will� always� initialize� to� the� maximum�
�attenuation� setting� (15.75� dB)� on� power-up� for� both�
�the� serial-addressable� and� latched-parallel� modes� of�
�operation� and� will� remain� in� this� setting� until� the� user�
�latches� in� the� next� programming� word.� In� direct-�
�parallel� mode,� the� DSA� can� be� preset� to� any� state�
�within� the� 15.75� dB� range� by� pre-setting� the� parallel�
�control� pins� prior� to� power-up.� In� this� mode,� there� is�
�a� 400-μs� delay� between� the� time� the� DSA� is�
�powered-up� to� the� time� the� desired� state� is�
�set.� During� this� power-up� delay,� the� device�
�attenuates� to� the� maximum� attenuation� setting�
�(15.75� dB)� before� defaulting� to� the� user� defined�
�state.� If� the� control� pins� are� left� floating� in� this� mode�
�during� power-up,� the� device� will� default� to� the�
�minimum� attenuation� setting� (insertion� loss� state).�
�Serial-Addressable� Interface�
�The� serial-addressable� interface� is� a� 16-bit� serial-in,�
�parallel-out� shift� register� buffered� by� a� transparent�
�latch.� The� 16-bits� make� up� two� words� comprised� of�
�8-bits� each.� The� first� word� is� the� Attenuation� Word,�
�which� controls� the� state� of� the� DSA.� The� second�
�word� is� the� Address� Word,� which� is� compared� to� the�
�static� (or� programmed)� logical� states� of� the� A0,� A1�
�and� A2� digital� inputs.� If� there� is� an� address� match,�
�the� DSA� changes� state;� otherwise� its� current� state�
�will� remain� unchanged.� Fig.� 20� illustrates� an�
�example� timing� diagram� for� programming� a� state.� It�
�is� required� that� all� parallel� control� inputs� be�
�grounded� when� the� DSA� is� used� in� serial-�
�addressable� mode.�
�Dynamic� operation� between� serial-addressable� and�
�parallel� programming� modes� is� possible.�
�If� the� DSA� powers� up� in� serial-addressable� mode� (� P� ?� /�
�S� =� HIGH),� all� the� parallel� control� inputs� DI[6:0]� must�
�be� set� to� logic� low.� Prior� to� toggling� to� parallel� mode,�
�the� DSA� must� be� programmed� serially� to� ensure�
�D[7]� is� set� to� logic� low.�
�If� the� DSA� powers� up� in� either� latched� or� direct-�
�parallel� mode,� all� parallel� pins� DI[6:0]� must� be� set� to�
�logic� low� prior� to� toggling� to� serial-addressable� mode�
�(� P� /� ?� S� =� HIGH),� and� held� low� until� the� DSA� has� been�
�programmed� serially� to� ensure� bit� D[7]� is� set� to� logic�
�low.�
�The� serial-addressable� interface� is� controlled� using�
�three� CMOS-compatible� signals:� Serial-In� (SI),�
�Clock� (CLK),� and� Latch� Enable� (LE).� The� SI� and�
�CLK� inputs� allow� data� to� be� serially� entered� into� the�
�The� sequencing� is� only� required� once� on� power-�
�up.� Once� completed,� the� DSA� may� be� toggled�
�between� serial-addressable� and� parallel�
�programming� modes� at� will.�
�?2008-2009� Peregrine� Semiconductor� Corp.� All� rights� reserved.�
�Document� No.� 70-0253-05�
�│� UltraCMOS?� RFIC� Solutions�
�Page� 8� of� 13�
�Logo� updated� under� non-rev� change.� Peregrine� products� are� protected� under� one� or� more� of� the� following� U.S.� Patents:� http://patents.psemi.com�
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