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�9XTend� ‐� PKG� ‐� E?� ?� Ethernet� ?� RF� ?� Modem� ?� –� ?� Product� ?� Manual� ?� v2.x4x� ?� [2007.01.04]�
�Binary� Command� Mode�
�Sending� and� receiving� parameter� values� using� binary� commands� is� the� fastest� way� to� change�
�operating� parameters� of� the� modem.� Binary� commands� are� used� most� often� to� sample� signal�
�strength� [refer� to� DB� (Received� Signal� Strength)� parameter]� and/or� error� counts;� or� to� change�
�modem� addresses� and� channels� for� polling� systems� when� a� quick� response� is� necessary.� Since� the�
�sending� and� receiving� of� parameter� values� takes� place� through� the� same� serial� data� path� as� 'live'�
�data� (received� RF� payload),� interference� between� the� two� types� of� data� can� be� a� concern.�
�Common� questions� about� using� binary� commands:�
�?� What� are� the� implications� of� asserting� CMD� while� live� data� is� being� sent� or� received?�
�?� After� sending� serial� data,� is� there� a� minimum� time� delay� before� CMD� can� be� asserted?�
�?� Is� a� time� delay� required� after� CMD� is� de-asserted� before� payload� data� can� be� sent?�
�?� How� does� one� discern� between� live� data� and� data� received� in� response� to� a� command?�
�The� CMD� pin� (GPI1)� must� be� asserted� in� order� to� send� binary� commands� to� the� modem.� The� CMD�
�pin� can� be� asserted� to� recognize� binary� commands� anytime� during� the� transmission� or� reception�
�of� data.� The� status� of� the� CMD� signal� is� only� checked� at� the� end� of� the� stop� bit� as� the� byte� is�
�shifted� into� the� serial� port.� The� application� does� not� allow� control� over� when� data� is� received,�
�except� by� waiting� for� dead� time� between� bursts� of� communication.�
�If� the� command� is� sent� in� the� middle� of� a� stream� of� payload� data� to� be� transmitted,� the� command�
�will� essentially� be� executed� in� the� order� it� is� received.� If� the� modem� is� continuously� receiving� data,�
�the� radio� will� wait� for� a� break� in� the� received� data� before� executing� the� command.� The� CTS� signal�
�will� frame� the� response� coming� from� the� binary� command� request� [refer� to� figure� below].�
�A� minimum� time� delay� of� 100� μs� (after� the� stop� bit� of� the� command� byte� has� been� sent)� must� be�
�observed� before� the� CMD� pin� can� be� de-asserted.� The� command� executes� after� all� parameters�
�associated� with� the� command� have� been� sent.� If� all� parameters� are� not� received� within� 0.5� sec-�
�onds,� the� modem� returns� to� Idle� Mode.�
�Note:� When� parameters� are� sent,� they� are� two� bytes� long� with� the� least� significant� byte� sent� first.�
�Binary� commands� that� return� one� parameter� byte� must� be� written� with� two� parameter� bytes.�
�Commands� can� be� queried� for� their� current� value� by� sending� the� command� logically� ORed� (bit-�
�wise)� with� the� value� 0x80� (hexadecimal)� with� CMD� asserted.� When� the� binary� value� is� sent� (with�
�no� parameters),� the� current� value� of� the� command� parameter� is� sent� back� through� the� DO� pin.�
�Figure� ?� 3� ‐� 06.� Binary� ?� Command� ?� Write� ?� then� ?� Read�
�Signal� ?� #4� ?� is� ?� CMD�
�Signal� ?� #1� ?� is� ?� the� ?� DI� ?� signal� ?�
�Signal� ?� #2� ?� is� ?� the� ?� DO� ?� signal� ?� from� ?� the� ?� radio�
�Signal� ?� #3� ?� is� ?� CTS� ?�
�In� this� graph,� a� value� was� written� to� a� reg-�
�ister� and� then� read� out� to� verify� it.� While�
�not� in� the� middle� of� other� received� data,�
�note� that� the� CTS� signal� outlines� the� data�
�response� out� of� the� modem.�
�IMPORTANT:� In� order� for� the� modem� to� recognize� a� binary� command,� the� RT� (GPI1� Configuration)�
�parameter� must� be� set� to� one.� If� binary� programming� is� not� enabled� (RT� parameter� value� is� not� equal�
�to� ‘1’),� the� modem� will� not� recognize� that� the� CMD� pin� is� asserted� and� therefore� will� not� recognize� the�
�data� as� binary� commands.�
�Refer� to� [p21]� for� a� binary� programming� example� (DT� command� example� returns� two� bytes).�
�?� ?� 2007� ?� MaxStream,� ?� Inc.,� ?� Confidential� ?� &� ?� Proprietary� ?‐?� All� ?� Rights� ?� Reserved� ?�
�?????� 19�
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相关代理商/技术参数
XT09-PKI-E-NA
功能描述:射频模块 9XTend 1W Ethernet w/o accessories Intl
RoHS:否 制造商:Linx Technologies 产品:Transceiver Modules 频带:902 MHz to 928 MHz 输出功率:- 15.5 dBm to + 12.5 dBm 接口类型:UART 工作电源电压:- 0.3 VDC to + 5.5 VDC 传输供电电流:38.1 mA 接收供电电流:22.7 mA 天线连接器类型:U.FL 最大工作温度:+ 85 C 尺寸:1.15 mm x 0.63 mm x 0.131 mm
XT09-PKI-R
功能描述:射频模块 9XTend 1W RS232/485 w/o accessories
RoHS:否 制造商:Linx Technologies 产品:Transceiver Modules 频带:902 MHz to 928 MHz 输出功率:- 15.5 dBm to + 12.5 dBm 接口类型:UART 工作电源电压:- 0.3 VDC to + 5.5 VDC 传输供电电流:38.1 mA 接收供电电流:22.7 mA 天线连接器类型:U.FL 最大工作温度:+ 85 C 尺寸:1.15 mm x 0.63 mm x 0.131 mm
XT09-PKI-RA
功能描述:射频模块 900MHz - Xtend software setable
RoHS:否 制造商:Linx Technologies 产品:Transceiver Modules 频带:902 MHz to 928 MHz 输出功率:- 15.5 dBm to + 12.5 dBm 接口类型:UART 工作电源电压:- 0.3 VDC to + 5.5 VDC 传输供电电流:38.1 mA 接收供电电流:22.7 mA 天线连接器类型:U.FL 最大工作温度:+ 85 C 尺寸:1.15 mm x 0.63 mm x 0.131 mm
XT09-PKI-RA-NA
功能描述:射频模块 9XTend 1W RS232/485 w/accessories no AES
RoHS:否 制造商:Linx Technologies 产品:Transceiver Modules 频带:902 MHz to 928 MHz 输出功率:- 15.5 dBm to + 12.5 dBm 接口类型:UART 工作电源电压:- 0.3 VDC to + 5.5 VDC 传输供电电流:38.1 mA 接收供电电流:22.7 mA 天线连接器类型:U.FL 最大工作温度:+ 85 C 尺寸:1.15 mm x 0.63 mm x 0.131 mm
XT09-PKI-RDA
功能描述:射频模块 XTend-PKG 900 MHz IndRS-232class1/div2
RoHS:否 制造商:Linx Technologies 产品:Transceiver Modules 频带:902 MHz to 928 MHz 输出功率:- 15.5 dBm to + 12.5 dBm 接口类型:UART 工作电源电压:- 0.3 VDC to + 5.5 VDC 传输供电电流:38.1 mA 接收供电电流:22.7 mA 天线连接器类型:U.FL 最大工作温度:+ 85 C 尺寸:1.15 mm x 0.63 mm x 0.131 mm
XT09-PKI-R-NA
功能描述:射频模块 9XTend 1W RS232/485 w/o accessories Intl
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XT09-PKI-R-NL
制造商:Digi International Inc 功能描述:MODEM RF 900MHZ 9600/11
XT09-PKT-R
功能描述:MODEM RF 900MHZ RS232/485 RoHS:是 类别:RF/IF 和 RFID >> RF 接收器、发射器及收发器的成品装置 系列:XTend™ 标准包装:5 系列:MultiModem® iCell 功能:收发器,HSPA,调制解调器 调制或协议:GPRS,GSM,EDGE 频率:850MHz,900MHz,1.8GHz,1.9GHz 应用:- 接口:RS-232,USB 灵敏度:- 功率 - 输出:- 数据传输率 - 最大:7.2 Mbps 特点:- 电源电压:9 V ~ 32 V,USB 其它名称:881-1125