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参数资料
| 型号: | MAX2140ETH+T |
| 厂商: | Maxim Integrated |
| 文件页数: | 10/13页 |
| 文件大小: | 0K |
| 描述: | RECEIVER SDARS COMPLETE 44TQFN |
| 产品培训模块: | Lead (SnPb) Finish for COTS Obsolescence Mitigation Program |
| 标准包装: | 2,500 |
| 类型: | 接收器 |
| 频率: | 2.4GHz |
��
�
�Complete� SDARS� Receiver�
�Detailed� Description�
�Front� End�
�The� front� end� of� the� MAX2140,� which� downconverts� the�
�RF� signal� to� IF,� is� defined� from� the� differential� RF� inputs�
�(pins� RFIN+� and� RFIN-)� to� the� output� (pins� IFOUT+� and�
�IFOUT-)� to� the� SAW� filter.�
�The� front� end� includes� a� self-contained� analog� RF� AGC�
�loop.� The� engagement� threshold� of� the� loop� can� be�
�programmed� from� -35dBm� to� -15dBm� referred� to� the�
�RF� input� in� 1dB� steps� using� the� RF4–RF0� programming�
�bits.� The� time� constant� of� the� loop� is� set� externally� by�
�the� capacitor� connected� to� RFAGC_C.�
�The� image� reject� first� mixer� ensures� a� good� image� and�
�half� IF� rejection.�
�The� front-end� gain� can� be� reduced� by� programming�
�bits� PM3–PM0� over� a� 22dB� range,� with� a� step� of� 2dB.�
�This� allows� the� selections� of� SAW� filters� with� different�
�insertion� loss.�
�The� IF� output� is� nominally� 900� ?� differentially� and� requires�
�pullup� inductors� to� V� CC� ,� which� can� be� used� as� part� of� the�
�matching� network� to� the� SAW� filter� impedance.�
�Back� End�
�The� back� end,� which� downconverts� the� IF� signal� to�
�quadrature� baseband,� is� defined� from� the� SAW� filter�
�inputs� (pins� IFIN+� and� IFIN-)� to� the� baseband� outputs�
�(pins� IOUT+,� IOUT-,� QOUT+,� QOUT-).�
�The� back� end� contains� an� IF� AGC� loop,� which� is� closed�
�by� the� baseband� controller.� The� IF� AGC� control� voltage�
�is� applied� at� the� AGCPWM� pin.� The� gain� can� be�
�reduced� over� 53dB� (typ)� and� exhibits� a� log-linear� char-�
�acteristic.�
�The� back� end� also� contains� individual� lowpass� filters� on�
�each� channel.� The� lowpass-filter� bandwidth� is� the� use-�
�ful� SDARS� downconverted� bandwidth� (6.25MHz).� The�
�lowpass-filter� performance� is� factory� trimmed.� The� bit�
�IOT� switches� between� the� factory-trimmed� set� and� the�
�control� through� the� I� 2� C-compatible� bus� using� bits�
�B4–B1.� Even� when� using� the� factory-trimmed� set,� the�
�user� can� still� slightly� modify� the� cutoff� frequency� (by�
�±250kHz)� by� varying� bits� LP1/LP0.�
�Highpass� filters� are� also� inserted� in� the� back-end� signal�
�paths.� Their� purpose� is� to� remove� the� DC� offset.� They�
�are� designed� for� a� low� corner� frequency� so� as� not� to�
�degrade� the� SDARS� content.� Their� exact� cutoff� frequen-�
�cy� is� set� by� the� external� capacitors� connected� between�
�IF2� access� pins,� given� by� the� following� equation:�
�f� cutoff� =� 1/(2� x� π� x� R� x� C)� [Hz]�
�where� R� =� 8000� ?� ,� C� =� external� capacitor� to� be�
�connected.�
�Finally,� the� HPF� bit� allows� an� increase� to� the� back-end�
�gain� by� 4dB� at� the� slight� expense� of� a� degraded� in-�
�band� linearity.�
�Frequency� Generation�
�An� on-chip� VCO� and� a� low-step� fractional-N� PLL�
�ensure� the� necessary� frequency� generation.� The� 1st�
�mixer’s� LO� is� at� the� VCO� frequency� itself,� while� the� 2nd�
�mixer’s� LO� is� the� VCO� frequency� divided� by� 4� or� by� 8�
�(bit� D48).� Hence,� the� two� possible� IF� frequencies� for�
�SDARS� are� 467MHz� and� 259MHz.� Typical� applications�
�are� based� on� 259MHz� IF� frequency.�
�The� reference� divider� path� in� the� PLL� can� either� use� an�
�external� crystal� and� the� on-chip� crystal� oscillator� or� an�
�external� TCXO� that� can� overdrive� the� on-chip� crystal�
�oscillator.� A� reference� division� ratio� of� 1� or� 2� is� set� by�
�the� REF� bit.� The� crystal� oscillator� (or� TCXO)� signal� is�
�available� at� pin� REFOUT.� The� output� is� either� at� the�
�same� frequency� as� the� reference� signal,� or� divided� by�
�two,� based� on� the� setting� of� bit� RFD.�
�The� VCO� main� division� ratio� is� set� by� bits� N6–N0� (for�
�the� integer� part)� and� bits� F19–F00� (for� the� fractional�
�part).� The� minimum� step� is� below� 30Hz,� small� enough�
�for� effective� AFC� to� be� implemented� by� the� baseband.�
�The� charge-pump� (pin� CPOUT)� is� to� be� connected� to�
�the� VCO� tuning� input� (pin� VTUNE)� through� an� appropri-�
�ate� loop� filter.�
�Overcurrent� Protection�
�This� DC� function� allows� external� circuitry� consuming� up�
�to� 150mA� and� connected� to� the� pin� VOUTANT� to� sink�
�current� from� a� V� CC� line� (pin� VINANT)� through� overcur-�
�rent-protection� circuitry.�
�When� no� overcurrent� is� present,� a� low� dropout� voltage�
�exists� between� pins� VINANT� and� VOUTANT.� In� over-�
�current� conditions� (including� short-circuit� from�
�VOUTANT� to� GND),� the� current� is� limited� to� approxi-�
�mately� 300mA� and� bit� ACP� in� the� READ� byte� status�
�goes� high.�
�This� circuit� also� senses� if� the� current� drawn� at� the� pin�
�VOUTANT� is� typically� larger� than� 20mA,� in� which� case�
�the� bit� AND� from� the� READ� byte� status� goes� high� (the�
�purpose� is� to� inform� the� baseband� controller� if� there� is�
�any� device� drawing� current� from� VOUTANT).�
�10�
�______________________________________________________________________________________�
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相关代理商/技术参数 |
参数描述 |
|---|---|
| MAX2140ETH-TD | 制造商:Maxim Integrated Products 功能描述:COMPLETE SDARS RECEIVER - Tape and Reel |
| MAX2140EVKIT | 功能描述:射频开发工具 MAX2140 Eval Kit RoHS:否 制造商:Taiyo Yuden 产品:Wireless Modules 类型:Wireless Audio 工具用于评估:WYSAAVDX7 频率: 工作电源电压:3.4 V to 5.5 V |
| MAX2141ETH/V+ | 功能描述:射频接收器 XM Satellite Radio Receiver RoHS:否 制造商:Skyworks Solutions, Inc. 类型:GPS Receiver 封装 / 箱体:QFN-24 工作频率:4.092 MHz 工作电源电压:3.3 V 封装:Reel |
| MAX2141ETH/V+T | 功能描述:射频接收器 XM Satellite Radio Receiver RoHS:否 制造商:Skyworks Solutions, Inc. 类型:GPS Receiver 封装 / 箱体:QFN-24 工作频率:4.092 MHz 工作电源电压:3.3 V 封装:Reel |
| MAX2141ETH+ | 功能描述:射频接收器 XM Satellite Radio Receiver RoHS:否 制造商:Skyworks Solutions, Inc. 类型:GPS Receiver 封装 / 箱体:QFN-24 工作频率:4.092 MHz 工作电源电压:3.3 V 封装:Reel |
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