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参数资料
| 型号: | MAX2009ETI+T |
| 厂商: | Maxim Integrated |
| 文件页数: | 15/19页 |
| 文件大小: | 0K |
| 描述: | IC RF PREDISTORT ADJ 28-TQFN |
| 产品培训模块: | Lead (SnPb) Finish for COTS Obsolescence Mitigation Program |
| 标准包装: | 2,500 |
| 功能: | RF 前置补偿器 |
| 频率: | 1.2GHz ~ 2.5GHz |
| RF 型: | CDMA2000,DCS1800,WCMDA/UMTS |
| 次要属性: | 高达 12dB ACPR 性能改善 |
| 封装/外壳: | 28-WFQFN 裸露焊盘 |
| 包装: | 带卷 (TR) |
��
�
�1200MHz� to� 2500MHz� Adjustable�
�RF� Predistorter�
�MAX� 2009� _� SLOPE� =�
�Gain� Expansion� Breakpoint�
�The� gain� expansion� breakpoint� is� usually� controlled� by� a�
�DAC� connected� through� the� GBP� pin.� The� GBP� input�
�voltage� range� of� 0.5V� to� 5V� corresponds� to� a� breakpoint�
�input� power� range� of� 3dBm� to� 23dBm.� To� achieve� the�
�optimal� performance,� the� gain� expansion� breakpoint� of�
�the� MAX2009� must� be� set� to� equal� the� gain� compres-�
�sion� point� of� the� PA.� The� GBP� control� has� a� minimal�
�effect� on� the� small-signal� gain� when� operated� from� 0.5V�
�to� 5V.�
�Gain� Expansion� Slope�
�In� addition� to� properly� setting� the� breakpoint,� the� gain�
�expansion� slope� of� the� MAX2009� must� also� be� adjusted�
�to� compensate� for� the� PA� ’s� gain� compression.� The�
�slope� should� be� set� using� the� following� equation:�
�?� PA� _� SLOPE�
�1� +� PA� _� SLOPE�
�where:�
�MAX2009_SLOPE� =� MAX2009� gain� section’s� slope� in�
�dB/dB.�
�PA_SLOPE� =� PA� ’s� gain� slope� in� dB/dB,� a� negative�
�number� for� compressive� behavior.�
�To� modify� the� gain� expansion� slope,� two� adjustments�
�must� be� made� to� the� biases� applied� on� pins� GCS� and�
�GFS.� Both� GCS� and� GFS� have� an� input� voltage� range� of�
�0V� to� V� CC� ,� corresponding� to� a� slope� of� approximately�
�0.1dB/dB� to� 0.6dB/dB.� The� slope� is� set� to� maximum�
�when� V� GCS� =� 0V� and� V� GFS� =� +5V,� and� the� slope� is� at� its�
�minimum� when� V� GCS� =� +5V� and� V� GFS� =� 0V.�
�Unlike� the� GBP� pin,� modifying� the� gain� expansion� slope�
�bias� on� the� GCS� pin� causes� a� change� in� the� part’s� inser-�
�tion� loss� and� noise� figure.� For� example,� a� smaller� slope�
�caused� by� GCS� results� in� a� better� insertion� loss� and�
�lower� noise� figure.� The� GFS� does� not� affect� the� insertion�
�loss.� It� can� provide� up� to� -30%� or� +30%� total� slope� varia-�
�tion� around� the� nominal� slope� set� by� GCS.�
�Large� amounts� of� GCS� bias� adjustment� can� also� lead� to�
�an� undesired� (or� residual)� phase� expansion/compres-�
�sion� behavior.� There� exists� an� optimal� bias� voltage� that�
�minimizes� this� parasitic� behavior� (typically� GCS� =� 1.0V).�
�Control� voltages� higher� than� the� optimal� result� in� para-�
�sitic� phase� expansion,� lower� control� voltages� result� in�
�phase� compression.� GFS� does� not� contribute� to� the�
�phase� behavior� and� is� preferred� for� slope� control.�
�Applications� Information�
�The� following� section� describes� the� tuning� methodology�
�best� implemented� with� a� class� A� amplifier.� Other� classes�
�of� operation� may� require� significantly� different� settings.�
�Gain� and� Phase� Expansion� Optimization�
�The� best� approach� to� improve� the� ACPR� of� a� PA� is� to�
�first� optimize� the� AM-PM� response� of� the� phase� sec-�
�tion.� For� most� high-frequency� LDMOS� amplifiers,�
�improving� the� AM-PM� response� provides� the� bulk� of� the�
�ACPR� improvement.� Figure� 4� shows� a� typical� configu-�
�ration� of� the� phase� tuning� circuit.� A� power� sweep� on� a�
�network� analyzer� allows� quick� real-time� tuning� of� the�
�AM-PM� response.� First,� tune� PBIN� to� achieve� the� phase�
�expansion� starting� point� (breakpoint)� at� the� same� point�
�where� the� PA’s� phase� compression� begins.� Next,� use�
�control� pins� PF_S1,� PDCS1,� and� PDCS2� to� obtain� the�
�optimal� AM-PM� response.� The� typical� values� for� these�
�pins� are� shown� in� Figure� 4.�
�To� further� improve� the� ACPR,� connect� the� phase� out-�
�put� to� the� gain� input� through� a� preamplifier.� The� pre-�
�amplifier� is� used� to� compensate� for� the� high� insertion�
�loss� of� the� gain� section.� Figure� 5� shows� a� typical� appli-�
�cation� circuit� of� the� MAX2009� with� the� phase� section�
�cascaded� to� the� gain� section� for� further� ACPR� opti-�
�mization.� Similar� to� tuning� the� phase� section,� first� tune�
�the� gain� expansion� breakpoint� through� the� GBP� pin�
�and� adjust� for� the� desired� gain� expansion� with� pins�
�GCS� and� GFS.� To� minimize� the� effect� of� GCS� on� the�
�parasitic� phase� response,� minimize� the� control� voltage�
�to� around� 1V.� Some� retuning� of� the� AM-PM� response�
�may� be� necessary.�
�Layout� Considerations�
�A� properly� designed� PC� board� is� an� essential� part� of�
�any� high-frequency� circuit.� To� minimize� external� com-�
�ponents,� the� PC� board� can� be� designed� to� incorporate�
�small� values� of� inductance� and� capacitance� to� optimize�
�the� input� and� output� VSWR� (refer� to� the� MAX2009).� The�
�phase� section’s� PFS1� and� PFS2� pins� are� sensitive� to�
�external� parasitics.� Minimize� trace� lengths� and� keep�
�varactor� diodes� close� to� the� pins.� Remove� the� ground�
�plane� underneath� the� traces� can� further� help� reduce�
�the� parasitic� capacitance.� For� best� performance,� route�
�the� ground� pin� traces� directly� to� the� grounded� EP�
�underneath� the� package.� Solder� the� EP� on� the� bottom�
�of� the� device� package� evenly� to� the� board� ground�
�plane� to� provide� a� heat� transfer� path� along� with� signal�
�grounding.�
�______________________________________________________________________________________�
�15�
�相关PDF资料 |
PDF描述 |
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| MAX2015EVKIT | EVAL KIT FOR MAX2015 |
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| MAX200CPP | 功能描述:RS-232接口集成电路 RoHS:否 制造商:Exar 数据速率:52 Mbps 工作电源电压:5 V 电源电流:300 mA 工作温度范围:- 40 C to + 85 C 安装风格:SMD/SMT 封装 / 箱体:LQFP-100 封装: |
| MAX200CWP | 功能描述:RS-232接口集成电路 RoHS:否 制造商:Exar 数据速率:52 Mbps 工作电源电压:5 V 电源电流:300 mA 工作温度范围:- 40 C to + 85 C 安装风格:SMD/SMT 封装 / 箱体:LQFP-100 封装: |
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