Huawei MC509 CDMA LGA manual Polarization, Radiation Pattern, Gain and Directivity

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Hardware Guide

RF Specifications

expression of S11. S11 relates to the antenna efficiency. S11 can be measured with a vector analyzer.

The following S11 values are recommended for the antenna of MC509: S11 of the master antenna < –6dB

Polarization

The polarization of an antenna is the orientation of the electric field vector that rotates with time in the direction of maximum radiation.

The linear polarization is recommended for the antenna of MC509.

Radiation Pattern

The radiation pattern of an antenna reflects the radiation features of the antenna in the remote field region. The radiation pattern of an antenna commonly describes the power or field strength of the radiated electromagnetic waves in various directions from the antenna. The power or field strength varies with the angular coordinates (θ and φ), but is independent of the radial coordinates.

The radiation pattern of half wave dipole antennas can be used for wireless terminals. The radiation pattern of half wave dipole antennas is omnidirectional in the horizontal plane, and the incident waves of base stations are often in the horizontal plane. For this reason, the receiving performance is optimal.

The following radiation patterns are recommended for the antenna of MC509: Master

antenna: omnidirectional

Gain and Directivity

The radiation pattern of an antenna represents the field strength of the radiated electromagnetic waves in all directions, but not the power density that the antenna radiates in the specific direction. The directivity of an antenna, however, measures the power density that the antenna radiates.

Gain, as another important parameter of antennas, correlates closely to the directivity. The gain of an antenna takes both the directivity and the efficiency of the antenna into account. The appropriate antenna gain prolongs the service life of relevant batteries.

The following antenna gain is recommended for MC509: Gain of the master antenna ≤ 2.5dBi

The antenna consists of the antenna body and the relevant RF transmission cable. Take the RF transmission cable into account when measuring any of the preceding antenna indicators.

Huawei cooperates with various famous antenna suppliers who are able to make suggestions on antenna design, for example, Amphenol, Skycross, Pulse, etc.

Issue 01 (2011-04-08)

Huawei Proprietary and Confidential

46

Copyright © Huawei Technologies Co., Ltd.

 

 

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Contents Issue Date Hardware GuideNo Warranty History About This DocumentVersion Date Chapter Descriptions Summary Chapter DetailsContent Description of the Application InterfacesElectrical and Reliability Features Safety Information Introduction Product name RF Band BandwidthAbout This Chapter Feature DescriptionOverall Description Function OverviewSMS TBDCircuit Block Diagram  Waste Electrical and Electronic Equipment DirectiveWEEEApplication Block Diagram 2Application block diagram of the MC509 moduleDescription of the Application Interfaces LGA InterfacePin Name Description DC Characteristics Normal Min Typical MaxVCCEXT1 JtagtmsVCCEXT2 UimvccMIC1P WdisableMIC2N MIC1NUartdsr Gpio Wakeupout GpioJtagtdo Uartrts GpioUartring Gpio PoweronoffUimreset Uartrx GpioSpkroutp EaroutnEaroutp SpkroutnGpsant Auxant134 132133 135Power Interface OverviewVbat Interface Vcoin Interface Sudden momentary power lossSmpl timer setting Capacitor value Capacitor package Real-time clockParameter Specifications HB-414 ML-series Output Power Supply Interface4Coin cell characteristics Uimvcc PINSignal Control Interface Pin Pin Name Description DC Characteristics Min Typical MaxInput Signal Control Pins Power-On Time Sequence 3shows the connections of the Poweronoff and Resinn pinsParameter Comments TimeNominal Units Values Parameter Comments TimeNominal values UnitsOutput Signal Control Pin TBD Wakeupin Signal Resinn6Connections of the Wakeupin and Wakeupout pins Uart InterfaceCircuit Recommended for the Uart Interface USB Interface USB data signal D+USB data signal D Pin No Pin Name Description10DC Electrical Characteristics of USB VOHmin VOLmax VIHmin VILmaxUIM Card Interface Circuit Recommended for the UIM Card InterfaceUimpwr NullESD Protection for the UIM Card Interface Audio InterfaceAnalogue Audio DCE Pcmdin Digital AudioPcmsync PcmdouPin No Description Primary ModeGeneral Purpose I/O Interface Name Min Type MaxJtag Interface Pin No Pin Name Description DC Characteristics Min Type MaxVCCEXT2 6V Power RF Antenna InterfacePin No Description DC Characteristics Name Min Typical Max NC PinsGpsant RF GPS Operating Frequencies RF SpecificationsAntenna Installation Guidelines 错误!未找到引用源。 shows the RF bands supported by MC509 RF bandsTest Environment Conducted Rx Sensitivity and Tx PowerConducted RF Measurement Test StandardsAntenna Design Requirements Conducted Transmit PowerAntenna Design Indicators Antenna EfficiencyRadiation Pattern PolarizationGain and Directivity Antenna for MC509 must fulfill the following requirements InterferenceCdma Antenna Requirements Cdma Antenna RequirementsPassive Tests Radio Test EnvironmentActive Tests External power voltage Electrical and Reliability FeaturesSymbol Specification Minimum Maximum Unit Value Input voltage of standby Power for the RTC Data pin voltageSpecification Minimum Value Maximum Value Unit Working and Storage Temperatures and HumidityElectrical Features of Application Interfaces Parameter Description Minimum Value Maximum Value UnitPower Peak Maximum Normal Maximum Power Supply FeaturesInput Power Supply Parameter Minimum Typical Maximum Ripple Unit ValueWorking mode Max Unit Reliability FeaturesPower Consumption Test Condition StandardTest Condition Standard EMC and ESD Features − USBMechanical Specifications Dimensions and interfacesPCB Pad Design Label 2PCB pad designPacking System NameplateFCC CCC NCC Tick CertificationsCertification JgpssiSGS RoHS Test Environmental Protection Certification and TestRoHS Restricted Substance Density Threshold ppmWeee Product Certification National Compulsory CertificationPVC-free Importance of Product CertificationCertification Modes Product Certification Classifications DOC CE Certification Certification TypesFCC Certification Comply with the following rules when making DGT marks NCC DGT CertificationAn example of the DGT mark Tick CertificationTelec and Jate Certification Japan  Telecom Engineer Center Telec Jate Xxxxxx is the company number issued by the IC Huawei 6369AIC Certification Canada IC XXXXXX-YYYYYYYYChinese Certifications  YyyyyyyyIssue 01 Huawei Proprietary and Confidential  CCC RoHS, REACH, JGPSSI, and Chinese Environmental Protection− PBB − Pbde Huawei MC509 Cdma LGA Module Hardware Guide Certifications Guide to Product Certification CE Certification and FCC CertificationIC Certification GCF and PtcrbGCF Certification NCC CertificationHuawei MC509 Cdma LGA Module Hardware Guide Certifications Overall-System Certification Ptcrb CertificationWcdma FDD Overall-System GCF Certification Overall-System Ptcrb Certification GCF and Ptcrb Certification Medical Device Safety InformationInterference Area with Inflammables and ExplosivesAirline Security Safety of ChildrenTraffic Security Environment ProtectionEmergency Call Care and MaintenanceLaws and Regulations Observance Specific Absorption Rate SARCE Approval European Union Regulatory InformationFCC Statement Appendix a Circuit of Typical Interfaces Page Appendix B Acronyms and Abbreviations Acronym or Abbreviation ExpansionUIM PDURTC TTL

MC509 CDMA LGA specifications

The Huawei MC509 CDMA LGA (Local Gateway Access) is a versatile and efficient communication device designed for CDMA (Code Division Multiple Access) networks. It serves as a gateway that facilitates high-speed data transmission and reliable voice services in mobile communications. This device is particularly well-suited for businesses and service providers looking to enhance their CDMA infrastructure.

One of the standout features of the Huawei MC509 is its ability to support multiple user connections simultaneously. This capability allows it to handle a large volume of calls and data transfers, making it ideal for environments with heavy communication demands. The device is built with robust processing power, ensuring it can manage traffic effectively without any degradation in service quality.

In terms of technology, the Huawei MC509 is designed to seamlessly integrate with existing CDMA networks. It employs advanced signal processing techniques to optimize call quality and data throughput. Additionally, the device supports a variety of bandwidth options, which ensures flexibility in deployment based on specific network requirements.

The MC509 also boasts a modular design, allowing for easy upgrades and scalability. As network demands evolve, service providers can expand the functionality of the device by adding new modules without the need for significant hardware changes. This future-proofing aspect makes it a smart investment for organizations aiming to grow their communication capabilities over time.

Security is another critical characteristic of the Huawei MC509. It features comprehensive security protocols to ensure that voice and data transmissions remain private and secure from unauthorized access. This focus on security makes the device suitable for enterprises that handle sensitive information.

Moreover, the Huawei MC509 has been engineered for energy efficiency. Its smart power management capabilities not only reduce operational costs but also contribute to a greener technology solution. This aspect is increasingly important in today’s environmentally conscious market.

Overall, the Huawei MC509 CDMA LGA is a powerful and adaptable communication solution. With its superior call handling capacity, integration capabilities, modular design, security features, and energy efficiency, it stands out as an essential tool for enhancing CDMA network infrastructure. Organizations that invest in this device will benefit from improved communication services, ultimately leading to increased productivity and customer satisfaction.
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