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参数资料
| 型号: | MDEV-916-ES-USB |
| 厂商: | Linx Technologies Inc |
| 文件页数: | 4/11页 |
| 文件大小: | 0K |
| 描述: | KIT MASTER DEV 916MHZ ES USB |
| 软件下载: | ES Series Master Dev Software |
| 标准包装: | 1 |
| 系列: | ES |
| 类型: | 发射器 |
| 频率: | 916MHz |
| 适用于相关产品: | ES 系列 RF 模块 - 916MHz |
| 已供物品: | 2 个板,2 个发射器,2 个接收器,2 根天线,电池,文档 |
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�USING� THE� DIVIDED� CLOCK� OUTPUT� (/CLK)�
�When� the� ES� is� used� with� a� microcontroller,� the� divided� clock� output� (/CLK)�
�saves� cost� and� space� by� eliminating� the� need� for� a� crystal� or� other� frequency�
�reference� for� the� microprocessor.� This� line� is� an� open� collector� output,� so� an�
�external� pull-up� resistor� (R� L� )� should� be� connected� between� this� line� and� the�
�positive� supply� voltage.� The� value� of� R� L� is� calculated� using� two� factors:�
�1)� Determine� the� clock� frequency� (f� CLKOUT� ).� If� /CLK� SE� is� open,� the� /CLK� output�
�will� be� the� Tx� center� frequency� (in� MHz)� divided� by� 1,024;� if� /CLK� SEL� is�
�grounded,� it� will� be� /256.�
�2)� Determine� the� load� capacitance� of� the� PCB� plus� the� microcontroller’s� input�
�capacitance� (C� LD� in� pF).�
�Using� these� two� factors,� the� value� of� R� L� can� be� easily� calculated:�
�USING� THE� PDN� PIN�
�The� Power� Down� (PDN)� line� can� be� used� to� power� down� the� transmitter� without�
�the� need� for� an� external� switch.� This� line� has� an� internal� pull-up,� so� when� it� is�
�held� high� or� simply� left� floating,� the� module� will� be� active.�
�When� the� PDN� line� is� pulled� to� ground,� the� transmitter� will� enter� into� a� low-�
�current� (<95μA)� power-down� mode.� During� this� time,� the� transmitter� is� off� and�
�cannot� perform� any� function.� The� startup� time� coming� out� of� power-down� will� be�
�the� same� as� applying� V� CC� .�
�The� PDN� line� allows� easy� control� of� the� transmitter� state� from� external�
�components,� such� as� a� microcontroller.� By� periodically� activating� the� transmitter,�
�sending� data,� then� powering� down,� the� transmitter’s� average� current�
�consumption� can� be� greatly� reduced,� saving� power� in� battery� operated�
�applications.�
�“/256”� R� L� =� 1000/(f� CLKOUT� *8*C� LD� )�
�“/1024”� R� L� =� 1000/(f� CLKOUT� *8*C� LD� )�
�USING� THE� LO_V_D� PIN�
�Example:� Example:�
�For� /256:� 1000/((916.48/256)x8x5)=6.98k� Ω� For� /1024:� 1000/((916.48/1024)x8x5)=27.9k� Ω�
�USING� LADJ�
�The� transmitter’s� output� power� can� be� externally� adjusted� by� approximately�
�-65dBm� using� the� LADJ� line.� This� eliminates� the� need� for� external� attenuation�
�and� allows� the� transmitter’s� power� to� be� easily� adjusted� for� range� control,� lower�
�power� consumption,� or� to� meet� legal� requirements.� This� line� can� also� be�
�modulated� to� allow� the� ES� to� operate� as� an� AM� transmitter;� however,� this� is� not�
�recommended� since� the� ES� receiver� is� designed� only� for� FM� /� FSK� recovery� and�
�the� performance� and� noise� immunity� advantages� of� FM� would� be� lost.�
�When� the� LADJ� line� is� open,� the� output� power� will� be� at� its� maximum� and� the�
�transmitter� will� draw� 7mA� typically.� When� LADJ� is� at� 0V,� the� output� power� will� be�
�at� its� minimum� and� the� transmitter� will� draw� 3mA� typically.�
�To� set� the� transmit� power� at� a� particular� level,� simply� create� a� voltage� reference�
�at� the� LADJ� line� at� an� appropriate� level� to� achieve� the� desired� output� power.� The�
�easiest� way� to� accomplish� this� is� with� an� appropriate� value� resistor� from� the�
�In� many� instances,� the� transmitter� may� be� employed� in� a� battery-powered�
�device.� In� such� applications,� it� is� often� useful� to� be� able� to� sense� a� low-battery�
�condition,� either� to� signal� the� need� for� battery� replacement� or� to� power� down�
�components� that� might� otherwise� operate� unpredictably.� Normally,� this�
�supervisory� function� would� require� additional� circuitry,� but� the� ES� Series�
�transmitter� includes� the� function� on-board.�
�The� Low� Voltage� Detect� line� (LO_V_D)� will� transition� low� when� the� supply�
�voltage� to� the� transmitter� falls� below� a� typical� threshold� of� 2.15VDC.� This� output�
�can� be� tied� directly� to� the� module’s� PDN� line� to� shut� off� the� transmitter,� or� used�
�to� indicate� the� low� voltage� condition� to� an� external� circuit� or� microprocessor.� The�
�output� could� also� be� used� to� provide� a� visual� indication� of� the� low� power�
�condition� via� a� LED,� although� a� buffer� transistor� would� generally� be� required� to�
�provide� an� adequate� drive� level.�
�The� output� can� also� be� monitored� in� applications� with� a� power� supply� as� a�
�safeguard� against� brownout� conditions.�
�POWER� SUPPLY� REQUIREMENTS�
�LADJ� line� to� ground.� This� resistor� works� in� combination� with� the� internal� supply�
�pull-up� to� create� a� voltage� divider.� Page� 3� of� this� data� guide� features� a� chart�
�The� module� does� not� have� an� internal� voltage�
�regulator;� therefore� it� requires� a� clean,� well-regulated�
�Vcc� TO�
�MODULE�
�showing� typical� resistor� values� and� corresponding� attenuation� levels.�
�The� LADJ� line� is� very� useful� during� FCC� testing� to� compensate� for� antenna� gain�
�or� other� product-specific� issues� that� may� cause� the� output� power� to� exceed� legal�
�limits.� Often� it� is� wise� to� connect� the� LADJ� line� to� a� variable� resistor� so� that� the�
�power� source.� While� it� is� preferable� to� power� the� unit�
�from� a� battery,� it� can� also� be� operated� from� a� power�
�supply� as� long� as� noise� is� less� than� 20mV.� Power�
�supply� noise� can� affect� the� transmitter� modulation;�
�Vcc� IN�
�10� Ω�
�10� μ� F�
�A� 10� Ω� resistor� in� series� with� the� supply� followed� by� a�
�test lab can precisely adjust the output power to the maximum threshold allowed�
�by� law.� The� resistor’s� value� can� then� be� noted� and� a� fixed� resistor� substituted� for�
�final� testing.� Even� in� designs� where� attenuation� is� not� anticipated,� it� is� a� good�
�idea� to� place� a� resistor� pad� connected� to� LADJ� so� that� it� can� be� used� if� needed.�
�For� more� sophisticated� designs,� LADJ� may� also� be� controlled� by� a� DAC� or� digital�
�potentiometer� to� allow� precise� and� digitally� variable� output� power� control.�
�In� any� case� where� the� voltage� on� the� LADJ� line� may� fall� below� 1.5VDC,� a� low-�
�value� ceramic� capacitor� (200� to� 4,700pF)� must� be� placed� from� the� module’s�
�power� supply� to� the� LADJ� pin.� This� is� necessary� to� meet� the� module’s� minimum�
�enable� voltage� at� start-up.�
�Page� 6�
�therefore,� providing� a� clean� power� supply� for� the�
�module� should� be� a� high� priority� during� design.�
�Figure� 9:� Supply� Filter�
�10μF� tantalum� capacitor� from� V� CC� to� ground� will� help� in� cases� where� the� quality�
�of� supply� power� is� poor.� Note� that� operation� from� 4.3� to� 5.2� volts� requires� the�
�use� of� an� external� 270� Ω� resistor� placed� in� series� with� the� supply� to� prevent� V� CC�
�from� exceeding� 4.0� volts,� so� the� dropping� resistor� can� take� the� place� of� the� 10� Ω�
�resistor� in� the� supply� filter.� These� values� may� need� to� be� adjusted� depending� on�
�the� noise� present� on� the� supply� line.�
�Page� 7�
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