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参数资料
| 型号: | MICRF022YM-FS48 |
| 厂商: | Micrel Inc |
| 文件页数: | 8/17页 |
| 文件大小: | 0K |
| 描述: | IC RECEIVER ASK 300-440MHZ 8SOIC |
| 标准包装: | 95 |
| 频率: | 300MHz ~ 440MHz |
| 灵敏度: | -97dBm |
| 数据传输率 - 最大: | 10 kbps |
| 调制或协议: | ASK,OOK |
| 应用: | RKE |
| 电流 - 接收: | 2.2mA |
| 数据接口: | PCB,表面贴装 |
| 天线连接器: | PCB,表面贴装 |
| 电源电压: | 4.75 V ~ 5.5 V |
| 工作温度: | -40°C ~ 85°C |
| 封装/外壳: | 8-SOIC(0.154",3.90mm 宽) |
| 供应商设备封装: | 8-SOIC |
| 包装: | 管件 |
| 产品目录页面: | 571 (CN2011-ZH PDF) |
| 其它名称: | 576-2421 MICRF022YM-FS48-ND |
��
�
�f� LO� =� f� TX� ±� ?� ?� 0.86� TX� ?� ?�
�?� f� ?�
�f� T� =�
�f� LO�
�Micrel,� Inc.�
�MICRF002,� allowing� the� device� to� operate� in� applications�
�where� significant� transmitter-receiver� frequency�
�misalignment� may� exist.� The� transmit� frequency� may� vary�
�up� to� ±0.5%� over� initial� tolerance,� aging,� and� temperature.�
�In� sweep-mode� a� band� approximately� 1.5%� around� the�
�nominal� transmit� frequency� is� captured.� The� transmitter�
�may� drift� up� to� ±0.5%� without� the� need� to� retune� the�
�receiver� and� without� impacting� system� performance.�
�The� swept-LO� technique� does� not� affect� the� IF� bandwidth,�
�therefore� noise� performance� is� not� degraded� relative� to�
�fixed-mode.� The� IF� bandwidth� is� 430kHz� whether� the�
�device� is� operating� in� fixed-� or� sweep-mode.� Due� to�
�limitations� imposed� by� the� LO� sweeping� process,� the� upper�
�limit� on� data� rate� in� sweep� mode� is� approximately� 5.0kbps.�
�Similar� performance� is� not� currently� available� with�
�crystalbased� superheterodyne� receivers� which� can� operate�
�only� with� SAW-� or� crystal-based� transmitters.� In� sweep-�
�mode,� a� range� reduction� will� occur� in� installations� where�
�there� is� a� strong� interferer� in� the� swept� RF� band.� This� is�
�MICRF002/RF022�
�the� appropriate� f� LO� for� a� given� f� TX� :�
�(1)�
�?� 315� ?�
�Frequencies� f� TX� and� f� LO� are� in� MHz.� Note� that� two� values� of�
�f� LO� exist� for� any� given� f� TX� ,� distinguished� as� “high-side�
�mixing”� and� “low-side� mixing”.� High-side� mixing� results� in�
�an� image� frequency� above� the� frequency� of� interest� and�
�low-side� mixing� results� in� a� frequency� below.�
�After� choosing� one� of� the� two� acceptable� values� of� f� LO� ,� use�
�Equation� 2� to� compute� the� reference� oscillator� frequency� f� T� :�
�(2)�
�64.5�
�Frequency� f� T� is� in� MHz.� Connect� a� crystal� of� frequency� f� T� to�
�REFOSC� on� the� MICRF002.� Four-decimal-place� accuracy�
�on� the� frequency� is� generally� adequate.� The� following� table�
�identifies� f� T� for� some� common� transmit� frequencies� when�
�the� MICRF002� is� operated� in� fixed� mode.�
�because� the� process� indiscriminately� includes� all� signals�
�within� the� sweep� range.� An� MICRF002� may� be� used� in�
�place� of� a� superregenerative� receiver� in� most� applications.�
�Step� 2:� Selecting� the� Reference� Oscillator�
�All� timing� and� tuning� operations� on� the� MICRF002� are�
�derived� from� the� internal� Colpitts� reference� oscillator.�
�Timing� and� tuning� is� controlled� through� the� REFOSC� pin� in�
�one� of� three� ways:�
�Transmit� Frequency� f� TX�
�315MHz�
�390MHz�
�418MHz�
�433.92MHz�
�Reference� Oscillator�
�Frequency� f� T�
�4.8970MHz�
�6.0630MHz�
�6.4983MHz�
�6.7458MHz�
�f� T� =�
�f� LO�
�1.� Connect� a� ceramic� resonator�
�2.� Connect� a� crystal�
�3.� Drive� this� pin� with� an� external� timing� signal�
�The� specific� reference� frequency� required� is� related� to� the�
�system� transmit� frequency� and� to� the� operating� mode� of�
�the� receiver� as� set� by� the� SWEN� pin.�
�Crystal� or� Ceramic� Resonator� Selection�
�Do not use resonators with integral capacitors since�
�capacitors are included in the IC, also care should be taken�
�to ensure low ESR capacitors are selected. Application Hint�
�34 and Application Hint 35 provide additional information�
�and recommended sources for crystals and resonators.�
�If� operating� in� fixed-mode,� a� crystal� is� recommended.� In�
�sweep-mode� either� a� crystal� or� ceramic� resonator� may� be�
�used.� When� a� crystal� of� ceramic� resonator� is� used� the�
�Table� 2.� Fixed-Mode� Recommended� Reference� Oscillator�
�Values� for� Typical� Transmit� Frequencies�
�(high-side� mixing)�
�Selecting� REFOSC� Frequency� f� T� (Sweep-Mode)�
�Selection� of� the� reference� oscillator� frequency� f� T� in� sweep-�
�mode� is� much� simpler� than� in� fixed� mode� due� to� the� LO�
�sweeping� process.� Also,� accuracy� requirements� of� the�
�frequency� reference� component� are� significantly� relaxed.�
�In� sweep-mode,� f� T� is� given� by� Equation� 3:�
�(3)�
�64.25�
�In� sweep-mode� a� reference� oscillator� with� frequency�
�accurate� to� two-decimal-places� is� generally� adequate.� A�
�crystal� may� be� used� and� may� be� necessary� in� some� cases�
�if� the� transmit� frequency� is� particularly� imprecise.�
�minimum� voltage� is� 300mV� PP� .� If� using� an� externally� applied�
�signal� it� should� be� AC-coupled� and� limited� to� the� operating�
�range� of� 0.1V� PP� to� 1.5V� PP� .�
�Transmit� Frequency� f� TX�
�315MHz�
�Reference� Oscillator�
�Frequency� f� T�
�4.88MHz�
�Selecting� Reference� Oscillator� Frequency� f� T� (Fixed-�
�Mode)�
�As� with� any� superheterodyne� receiver,� the� mixing�
�between� the� internal� LO� (local� oscillator)� frequency� f� LO� and�
�the� incoming� transmit� frequency� f� TX� ideally� must� equal� the�
�IF� center� frequency.� Equation� 1� may� be� used� to� compute�
�390MHz� 6.05MHz�
�418MHz� 6.48MHz�
�433.92MHz� 6.73MHz�
�Table� 3.� Sweep-Mode� Recommended� Reference� Oscillator�
�Values� for� Typical� Transmit� Frequencies�
�July� 2008�
�8�
�M9999-070808�
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| MICRF022YM-FS48 TR | 功能描述:射频接收器 300-440MHz RF Receiver With Shutdown( Lead Free) 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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