ISM3010D系列产品规格书

Dell OptiPlex 3010 小型计算机用户手册管制型号： D04S管制类型： D04S001注、小心和警告注: “注”表示可以帮助您更好地使用计算机的重要信息。

小心: “小心”表示可能会损坏硬件或导致数据丢失，并说明如何避免此类问题。

警告: “警告”表示可能会造成财产损失、人身伤害甚至死亡。

© 2013 Dell Inc.本文中使用的商标： Dell™、 DELL 徽标、 Dell Precision™、 Precision ON™、ExpressCharge™、 Latitude™、Latitude ON™、 OptiPlex™、 Vostro™和 Wi-Fi Catcher™是 Dell Inc. 的商标。

Intel®、 Pentium®、 Xeon®、 Core™、 Atom™、 Centrino®和 Celeron®是 Intel Corporation 在美国和/或其他国家或地区的注册商标。

AMD®是注册商标， AMD Opteron™、 AMD Phenom™、AMD Sempron™、 AMD Athlon™、 ATI Radeon™和 ATI FirePro™是 Advanced Micro Devices, Inc. 的商标。

Microsoft®、 Windows®、 MS-DOS®、 Windows Vista®、Windows Vista 开始按钮和 Office Outlook®是 Microsoft Corporation 在美国和/或其他国家或地区的注册商标。

Blu-ray Disc™是 Blu-ray Disc Association (BDA) 拥有的商标，经其许可在磁盘和播放器上使用。

Bluetooth®文字标记是 Bluetooth® SIG, Inc. 拥有的注册商标，Dell Inc. 经其许可使用这些标记。

MS—3010D稳压电源说明书
MS-3010D电源说明书
输入电压 220V+10%需要110V+10%请备注或联系客服
输入频率 50Hz/60Hz
输出电压恒压值范围:0-V额定值连续可调
输出电流怕流值范围:0-A额定值连续可调
工作方式稳压稳流状态自动切换
恒压指示 CV灯亮表示电源处于恒压模式，调节到所需电压，带上负载，电流随负载变化
恒流指示 CC灯亮表示电源处于恒流模式，调节到所需电流，带上负载，电压随负载变化
稳压状态由压稳定度:CV<0.05%+1mV
负载稳定度:CV<0.1%+5mV
纹波及噪声:CV<10mVrms
稳流状态电流稳定度:CC<0.05%+1mA
负载稳定度:CC<0.1%+10mA
纹波及噪声:CC<20mAmms
电压显示精度 3位LED显示±1%+1字
电流显示精度 3位LED显示+1%+1字
显示分辨率0.1V0.01A自动显示0-999mA(5A及5A以下型号)/0.1V01A(5A以上型号)
保护功能过压保护，短路限流，过温保护
配件(标配) 使用手册1份，电源线1根，合格证冷却方式智能温控风扇，根据负载情况调整转速工作环境 -10-40相对度<80%
存储环境 -20-80℃相对湿度<80%
尺寸 260(长)*125(宽)*155(高)mm
重量约2Kg，包装后约2.5Kg。

Dell™ Inspiron™ N3010 服务手册注、小心和警告本说明文件中的信息如有更改，恕不另行通知。

© 2010 Dell Inc. 版权所有，翻印必究。

未经 Dell Inc. 书面许可，严禁以任何形式复制这些材料。

在此文本中使用的商标：Dell 和 DELL 徽标是 Dell Inc. 的商标；Bluetooth 是 Bluetooth SIG, Inc. 拥有的注册商标，由 Dell 公司依许可证使用；Microsoft 和 Windows 是 Microsoft Corporation 在美国和/或其它国家或地区的商标或注册商标。

本说明文件中述及的其它商标和商品名称是指拥有相应标记和名称的公司或其制造的产品。

Dell Inc. 对不属于自己的商标和商品名称不拥有任何专有权益。

管制型号：P10S 系列管制类型：P10S0012010 年 3 月 Rev. A00开始之前电池内存模块护盖内存模块键盘掌垫部件电源按钮板采用 Bluetooth ® 无线技术的内部模块显示屏摄像头模块处理器散热器风扇 中心控制护盖 VGA 连接器板 系统板 硬盘驱动器 处理器散热器 处理器模块 无线小型插卡 币形电池 扬声器 刷新 BIOS注：“注”表示可以帮助您更好地使用计算机的重要信息。

小心：“小心”表示如果不遵循说明，有可能会损坏硬件或导致数据丢失。

警告：“警告”表示可能会造成财产损失、人身伤害甚至死亡。

1 电池释放闩锁23 电池锁定闩锁返回目录页面开始之前Dell™ Inspiron™ N3010 服务手册建议工具关闭计算机电源拆装计算机内部组件之前本手册提供卸下和安装计算机中组件的步骤。

除非另有说明，否则将假设在执行每个过程时均满足以下条件：l您已经执行了关闭计算机电源和拆装计算机内部组件之前中的步骤。

l您已经阅读了计算机附带的安全信息。

l 以相反顺序执行拆卸步骤可以装回组件或安装单独购买的组件。

rks3010d使用手册摘要：1.rks3010d 简介2.rks3010d 的基本功能3.rks3010d 的使用方法4.rks3010d 的维护和保养5.安全注意事项6.结论正文：1.rks3010d 简介rks3010d 是一款功能强大的设备，适用于各种场合。

它具有多种功能，可以满足不同用户的需求。

rks3010d 的设计考虑到了用户的便捷性，操作起来非常简单。

2.rks3010d 的基本功能rks3010d 的基本功能包括但不限于：数据采集、数据处理、数据存储和数据传输。

它可以对各种数据进行实时采集，并通过强大的处理能力进行分析和处理。

同时，rks3010d 还可以将处理后的数据存储到本地存储设备中，也可以通过数据传输功能将数据传输到其他设备中。

3.rks3010d 的使用方法使用rks3010d 非常简单。

首先，用户需要将设备连接到电源，然后打开设备。

接下来，用户可以通过设备的触摸屏界面进行操作。

对于初次使用者，建议先阅读设备附带的使用手册，以便更好地理解设备的使用方法。

4.rks3010d 的维护和保养为了保证rks3010d 的正常运行，用户需要定期对其进行维护和保养。

这包括清洁设备表面，确保设备连接处紧固，以及定期检查设备电池等。

如果设备出现故障，用户应立即停止使用，并联系专业的维修人员进行维修。

5.安全注意事项在使用rks3010d 时，用户需要注意以下几点：首先，不要将设备暴露在极端的温度下，以免损坏设备；其次，不要将设备浸入水中，以免造成短路；最后，不要将设备放在易燃易爆的环境中，以免发生意外。

6.结论总的来说，rks3010d 是一款功能强大，易于使用，安全可靠的设备。

PESD 301030kV Electrostatic Discharge GeneratorBringing dissimilar insulation materials together and then parting them creates electrostatic charges. The resultant electrostatic discharge (ESD) can cause failures in electronic circuits.There are two principal methods of discharge: Air discharge and contact discharge. Contact discharge is the preferred test method because test results are more reproducible.There are many standards which require discharge component (Resistor & Capacitor) values other than those described in the IEC/EN 61000-4-2 standard. With PESD 3010 it is possible to meet these requirements due to the changeable R&C modules.PESD 3010 features a unique NO CONTACT detection circuit. During contact discharge tests, PESD 3010 continuously monitors if ESD pulses are really discharged to the EUT (E quipment u nder T est). In case of no contact to the EUT, the operator receives a warning message in the LCD display. This prevents the user from potentially wrong test results.PESD 3010 has a highly ergonomic design. This includes a firm handle that insures safe and comfortable operation under any circumstances, and dedicated, large conventional pushbuttons for easy and convenient setting of all test parameters.For long running tests, a screw socket on the bottom enables to mount the gun on a standard tripod.IEC test levels L1 to L4 are predefined and are shown in the LCD together with thetest voltage.Capacitor modulesfor the PESD 3010 are available with any value in the range from 50pF to 1000pF and Resistor modules with any value in the range from 50 ohms to 5000 ohms, in any combination ensuring maximum flexibility. Features30kV Air discharge30kV Contact dischargeUser selectable R&C networksUnique integrated self test functionContact discharge current flow detectionRemote trigger inputSlow repetition rates for Automotive testingBenefitsFlexible System – PESD 3010 is a modular design that enables users to meet many different test specifications with maximum cost effectiveness. Efficiency and Reliability – The integrated self test function verifies all the relevant functions of the ESD generator at the push of a button within30 seconds.This ensures correct test of the device under test at any time, without doing time-consuming manual verifications of the ESD generator.Comfortable to use – The lightweight, balanced weight distribution and ergonomic handle design mean that testing can be performed over long periods without operators becoming fatigued.All actual test parameters are showed in a comfortable, large LCD.Sturdy and Reliable – Careful component selection ensures that the PESD 3010 will continue to operate under the most strenuous testing regime.ApplicationsIEC/EN 61000-4-2ISO/TR 10605 for Automotive TestingMIL 464 system requirementsMIL 331B Fuse & Fuse componentsMIL 1542B space system facilitiesMany more international product standardsl i s h e d1981Headquarters Haefely Test AGLehenmattstrasse 353 CH-4052, Basel Switzerland+ 41 61 373 41 11 + 41 61 373 45 99*********************Locate your local sales representative at North American OfficeHipotronics Inc. Haefely EMC Division1650 Route 22 Brewster, NY 10509++1 845 279 3644 x264++1 845 279 2467****************************Haefely has a policy of continuous product improvement. Therefore we reserve the right to change design and specification without notice.PESD3010_2006-05-23.docTechnical SpecificationsAir Discharge Voltage 1 – 30kV Voltage resolution 100 volt steps Cont. Discharge Volt. 1 – 30kV Discharge Polarity Positive & Negative Discharge Repetition Single/0.1/0.2/1/2/5/10/20 Hz Operating Modes Single & Continuous Discharge Counter1 - 9999Power Supply 85 – 264V 50/60Hz Default RC-Network 150 pF / 330 Ohm Power consumption30VAWeights and Dimensions (W x H x D, net weight) PESD 3010 Gun10 x 21 x 29 cm 1.5 kg PESD 3010 Controller 17 x 10 x 28 cm1.5 kgScope of Supply Art. No. 249963Qty. 1 PESD 3010 ESD Generator Qty. 1 Carrying caseQty. 1 Control and Power supply unit Qty. 1 Ground CableQty. 1 Test Finger Air dischargeQty. 1 Test Finger Contact discharge Qty. 1 Polarity moduleQty. 1 Capacitor module 150 pF IEC 61000-4-2 Qty. 1 Resistor module 330 Ohm IEC 61000-4-2 Qty. 1User ManualOptions & AccessoriesCapacitor Modules Available with any value in the rangefrom 50 to 1000pF. Fit in PESD 3010 rear panel. The Controller automati-cally shows the value in the LCD Resistor ModulesAvailable with any value in the range from 50 to 5000Ω. Fit in PESD 3010 rear panel. The system automatically shows the value in the LCD display VCPVertical Coupling Plane 0.5m x 0.5m, for indirect application of the ESD. Includes cable with 2 integrated 470 kOhm HV-ResistorsHCPHorizontal Coupling Plane 1.6m x 0.8m for indirect application of the ESD. Includes cable with 2 integrated 470 kOhm HV-ResistorsRemote Control Fibre optical RS 232 interface for remote control of ESD gunTest Table Made of wood without any metallic parts, as required by IEC 61000-4-2Verification SetFor wave shape verification according to IEC/EN 61000-4-2. Includes 2 Ohm Target, Attenuators, BNC Cable, user manualCapacitor, Resistor & Polarity ModulesESD Test Table with VCP & HCP。

产品概述：products description➢AT3010D控制器是一款带LCD显示，无线遥控，音频输入，地址编辑的DMX 控制器。

➢AT3010D controller is a DMX controller with LCD display,wireless control,audio input,IP edition.主要特点：main features➢输入电压：AC110V或AC220V。

input voltage:AC110V or AC220v➢输出DMX信号符合DMX512/1990标准。

Input DMX signal by DMX DMX512/1990 standard➢具有一个标准的DMX512输出通道，可以实现最多170个全彩点的控制。

➢With a standard DMX512 output channel,it can realize 170 full color dot control at most➢内部具有常亮七彩，一致跳变，一致渐变，流水，追逐，中分，堆积等灯光模式。

➢Internal has normally on seven color,consistency flash,consistency strobe,smooth,pursuit,halve,accumulate and other lighting mode➢各种变化效果可分别设定16种不同的变化速度和颜色选择设定。

➢Each change effects can set 16 different change speed and color selection➢具有简易的编程功能，可以方便的定义输出灯光效果。

➢Simple program function,can easliy define input lighting effects➢编程可自由定义内部的各种变化模式为一个步骤。

➢Program can easily define all change mode inside to a step.➢最多可定义8个独立的循环的步骤。

Hardware DesignDocument Title:SIM3XXDZ Hardware DesignVersion: 2.07Date:2008-11-18Status:ReleaseDocument Control ID:SIM3XXDZ_HD_V2.07General NotesSIMCom offers this information as a service to its customers, to support application and engineering efforts that use the products designed by SIMCom. The information provided is based upon requirements specifically provided to SIMCom by the customers. SIMCom has not undertaken any independent search for additional relevant information, including any information that may be in the customer’s possession. Furthermore, system validation of this product designed by SIMCom within a larger electronic system remains the responsibility of the customer or the customer’s system integrator. All specifications supplied herein are subject to change.CopyrightThis document contains proprietary technical information which is the property of SIMCom Limited., copying of this document and giving it to others and the using or communication of the contents thereof, are forbidden without express authority. Offenders are liable to the payment of damages. All rights reserved in the event of grant of a patent or the registration of a utility model or design. All specification supplied herein are subject to change without notice at any time.Copyright © Shanghai SIMCom Wireless Solutions Ltd. 2008ContentsContents (3)Version history (7)Scope of the document (7)1.1 Related documents (8)1.2 Terms and abbreviations (9)3.11 SIM interface (49)3.11.1 SIM card application (49)3.11.2 Design considerations for SIM card holder (50)3.12.2 Design considerations for SIM card holder (50)3.13 General purpose input & output (GPIO) (52)3.14 ADC (52)3.15 Behaviors of the RI line (Serial port1 interface only) (53)3.16 Network status indication LED lamp (54)Table IndexTABLE 1: RELATED DOCUMENTS (8)TABLE 2: TERMS AND ABBREVIATIONS (9)TABLE 3: SIM3XXDZ KEY FEATURES (13)TABLE 4: CODING SCHEMES AND MAXIMUM NET DATA RATES OVER AIR INTERFACE..14 TABLE 5: PIN DESCRIPTION (17)TABLE 6: OVERVIEW OF OPERATING MODES (21)Figure IndexFIGURE 1: SIM3XXDZ FUNCTIONAL DIAGRAM (15)FIGURE 2: TOP VIEW OF SIM3XXDZ EVB (16)FIGURE 3: VBAT INPUT (22)FIGURE 4: REFERENCE CIRCUIT OF THE SOURCE POWER SUPPLY INPUT (23)FIGURE 5: VBAT VOLTAGE DROP DURING TRANSMIT BURST (23)FIGURE 6: TURN ON SIM3XXDZ USING DRIVING CIRCUIT (25)Version historyVersion Description of change Author 2006-03-8 1.00 Origin2006-06-27 2.01 Pin description2006-9-13 2.02 Delete the SIM_presence PINModify the figure of the timing of turn on systemModify the figure of the timing of turn off systemModify the high voltage and low voltage of the PWRKEY2007-01-10 02.03 Modify the SIM3XXDZ key featuresModify the overview of operating modesModify the MIC input characteristicsAdd the note in the chapter of the Serial Interfaces aboutRTS connected to GND2007-04-03 2.04 Modify the figure of the timing of turn on systemModify the figure of the timing of turn off systemModify the table 132008-03-15 2.05 Modify the figure 4: Timing of turn off system (pulldowntime of the PWRKEY from 1s-2s to 0.5s-1s)Add notes about Restricted operation2008-06-04 2.06 Modify the figure 1: SIM interface reference circuit with 6pins SIM card2008-11-18 2.07 Modify the figure 1: SIM340DZ functional diagramModify the operating temperature and has been proved bytest.Scope of the documentThis document is intended for the following versions of the SIMCom modules•SIM300DZ: GSM 900 MHz, DCS 1800 MHz and PCS1900 MHz Version•SIM340DZ: GSM/GPRS 900/1800 MHz and 850/1900MHz Version1 IntroductionThis document describes the hardware interface of the SIMCom SIM3XXDZ module that connects to the specific application and the air interface. As SIM3XXDZ can be integrated with a wide range of applications, all functional components of SIM3XXDZ are described in great detail.SN Document name Remark[1] SIM3XXDZ_ATC SIM3XXDZ_ATCSerial asynchronous automatic dialing and control[2] ITU-T Draft newrecommendation V.25ter:[3] GSM 07.07: Digital cellular telecommunications (Phase 2+); ATcommand set for GSM Mobile Equipment (ME)[4] GSM 07.05: Digital cellular telecommunications (Phase 2+); Use ofData Terminal Equipment – Data Circuit terminatingEquipment (DTE – DCE) interface for Short MessageService (SMS) and Cell Broadcast Service (CBS)[5] GSM 11.14: Digital cellular telecommunications system (Phase 2+);Specification of the SIM Application Toolkit for theSubscriber Identity Module – Mobile Equipment (SIM –ME) interface[6] GSM 11.11: Digital cellular telecommunications system (Phase 2+);Specification of the Subscriber Identity Module – MobileEquipment (SIM – ME) interface[7] GSM 03.38: Digital cellular telecommunications system (Phase 2+);Alphabets and language-specific information[8] GSM 11.10 Digital cellular telecommunications system (Phase 2)；Mobile Station (MS) conformance specification； Part 1:Conformance specification[9] GSM 11.10 Digital cellular telecommunications system (Phase 2)；Mobile Station (MS) conformance specification； Part 1:Conformance specification[10] AN_SerialPort AN_SerialPort1.2 Terms and abbreviationsTable 2: Terms and abbreviationsDescriptionADC Analog-to-Digital ConverterAMR Adaptive Multi-RateARP Antenna Reference PointASIC Application Specific Integrated CircuitBER Bit Error RateBTS Base Transceiver StationCHAP Challenge Handshake Authentication ProtocolCS Coding SchemeCSD Circuit Switched DataCTS Clear to SendDAC Digital-to-Analog ConverterDRX Discontinuous ReceptionDSP Digital Signal ProcessorDTE Data Terminal Equipment (typically computer, terminal, printer) DTR Data Terminal ReadyDTX Discontinuous TransmissionEFR Enhanced Full RateEGSM Enhanced GSMEMC Electromagnetic CompatibilityESD Electrostatic DischargeETS European Telecommunication StandardFCC Federal Communications Commission (U.S.)FDMA Frequency Division Multiple AccessFR Full RateGMSK Gaussian Minimum Shift KeyingGPRS General Packet Radio ServiceGSM Global Standard for Mobile CommunicationsHR Half RateI/O Input/OutputIC Integrated CircuitIMEI International Mobile Equipment IdentityInorm Normal CurrentImax Maximum Load CurrentDescriptionkbps Kilo bits per secondLED Light Emitting DiodeLi-Ion Lithium-IonMO Mobile OriginatedMS Mobile Station (GSM engine), also referred to as TEMT Mobile TerminatedPAP Password Authentication ProtocolPBCCH Packet Switched Broadcast Control ChannelPCB Printed Circuit BoardPCS Personal Communication System, also referred to as GSM 1900 PDU Protocol Data UnitPPP Point-to-point protocolRF Radio FrequencyRMS Root Mean Square (value)RTC Real Time ClockRx Receive DirectionSIM Subscriber Identification ModuleSMS Short Message ServiceTDMA Time Division Multiple AccessTE Terminal Equipment, also referred to as DTETX Transmit DirectionURC Unsolicited Result CodeUSSD Unstructured Supplementary Service DataVSWR Voltage Standing Wave RatioVmax Maximum Voltage ValueVnorm Normal Voltage ValueVmin Minimum Voltage ValueVIHmax Maximum Input High Level Voltage ValueVIHmin Minimum Input High Level Voltage ValueVILmax Maximum Input Low Level Voltage ValueVILmin Minimum Input Low Level Voltage ValueVImax Absolute Maximum Input Voltage ValueVImin Absolute Minimum Input Voltage ValueVOHmax Maximum Output High Level Voltage ValueVOHmin Minimum Output High Level Voltage ValueVOLmax Maximum Output Low Level Voltage ValueVOLmin Minimum Output Low Level Voltage ValueFD SIM fix dialing phonebookLD SIM last dialing phonebook (list of numbers most recently dialed)MC Mobile Equipment list of unanswered MT calls (missed calls)ME Mobile Equipment phonebookRC Mobile Equipment list of received callsSM SIM phonebookDC ME dialed calls list(+CPBW may not be applicableor this storage)(same as LD)LA Last Number All list (LND/LNM/LNR)ON SIM (or ME) own numbers (MSISDNs) listSD SIM service dial numberVM SIM voice mailboxBN SIM barred dialed number2 Product concept2.1 SIM3XXDZ key features at a glanceTable 3: SIM3XXDZ key featuresImplementationPower supply Single supply voltage 3.4V – 4.5VPower saving Typical power consumption in SLEEP mode to 2.5mA ( BS-PA-MFRMS=5 )Charging Supports charging control for Li-Ion batteryFrequency Bandsz SIM300DZ tri-band: GSM 900, DCS 1800, PCS 1900. TheSIM300DZ can search the 3 frequency bands automatically. The frequency bands also can be set by AT command. z SIM340DZ quad-band: GSM/GPRS 900/1800 MHz and850/1900MHz. The SIM340DZ can search the 4 frequency bands automatically. The frequency bands also can be set by AT command.z Compliant to GSM Phase 2/2+ GSM class Small MSTransmiting power z Class 4 (2W) at EGSM900/GSM850 z Class 1 (1W) at DCS1800/PCS1900 GPRS connectivityz GPRS multi-slot class 8 （optional ） z GPRS multi-slot class 10 ( default) z GPRS mobile station class BTemperature rangez Normal operation: -30°C to +80°Cz Restricted operation: -40°C to -30°C and +80°C to +85°C (1) z Storage temperature: -45°C to +90°C DATA GPRS:CSD:z GPRS data downlink transfer: max. 85.6 kbps z GPRS data uplink transfer: max. 42.8 kbps z Coding scheme: CS-1, CS-2, CS-3 and CS-4z SIM3XXDZ supports the protocols PAP (PasswordAuthentication Protocol) usually used for PPP connections. z The SIM3XXDZ integrates the TCP/IP protocol.z Support Packet Switched Broadcast Control Channel (PBCCH) z CSD transmission rates: 2.4, 4.8, 9.6, 14.4 kbps, non-transparentzUnstructured Supplementary Services Data (USSD) supportSMS z MT, MO, CB, Text and PDU mode z SMS storage: SIM card FAX Group 3 Class 1SIM interface Support SIM card: 1.8V ,3VExternal antennaConnected via 50 Ohm antenna connector or antenna padSpeech codec modes:z Half Rate (ETS 06.20)z Full Rate (ETS 06.10)z Enhanced Full Rate (ETS 06.50 / 06.60 / 06.80) z Adaptive multi rate (AMR)z Echo CancellationSerial interface and Debug interface z Serial Port: Seven lines on Serial Port Interfacez Serial Port can be used for CSD FAX, GPRS service and sending AT command of controlling module.z Autobauding supports baud rates from 1200 bps to 115200bps. z Debug port ：provide two lines on Serial Port Interface /TXD and /RXDz Debug port is only used for debuggingPhonebook management Support phonebook types: SM, FD, LD, MC, RC, ON,ME,BN,VM,LA,DC,SDSIM Application Toolkit Support SAT class 3, GSM 11.14 Release 99Real time clock ImplementedTimer function Programmable via AT commandPhysical characteristics Size: 33±0.15 x 33±0.15 x 3±0.3 mmWeight: 8gFirmware upgrade Firmware upgrade over serial interfaceNote: The Adaptive multi rate (AMR) of Speech codec mode and Echo Cancellation function only supported on the Release 16 firmware.(1) The SIM3XXDZ does works, but deviations from the GSM specification may error, For example, both the frequency error and the phase error will be large.Table 4: Coding schemes and maximum net data rates over air interfaceCoding scheme 1 Timeslot 2 Timeslot 4 TimeslotCS-1: 9.05kbps 18.1kbps 36.2kbpsCS-2: 13.4kbps 26.8kbps 53.6kbpsCS-3: 15.6kbps 31.2kbps 62.4kbpsCS-4: 21.4kbps 42.8kbps 85.6kbps2.2 SIM3XXDZ functional diagramThe following figure shows a functional diagram of the SIM3XXDZ and illustrates the mainly functional part:z The GSM baseband enginez Flash and SRAMz The GSM radio frequency part z The antenna interface z The external interfaceModuleAudio interfaceRadio FrequencyFigure 2: SIM3XXDZ functional diagram2.3 SIM3XXDZ evaluation boardIn order to help you on the application of SIM3XXDZ, SIMCom can supply an Evaluation Board (EVB) that interfaces the SIM3XXDZ directly with appropriate power supply, SIM card holder, RS232 serial port, handset port, earphone port, antenna and all GPIO of the SIM3XXDZ.Figure 3: Top view of SIM3XXDZ EVB For details please refer to the SIM3XXDZ-EVB_UGD document.3 Application interfaceAll hardware interfaces are described in detail in following chapters: z Power supply and charging control(see Chapters 3.3 and 3.5))z Two analog audio interfaces (see chapter 3.10) z SIM interface (see chapter 3.11)3.1 SIM3XXDZ Pin descriptionTable 5: Pin description Power Supply PIN NAMEI/ODESCRIPTIONDCCHARACTERIS TICSCOMMENTVBAT2 VBAT pins are dedicated to connect the supply voltage. The power supply of SIM3XXDZ has to be a single voltage source of VBAT= 3.4V ...4.5V . It must be able to provide sufficient current in a transmit burst which typically rises to 2A.mostly, these 2 pins arevoltage input, however ,when use the charge circuit to charge the battery ,these pins become the current output, select one of these pins as the charge current output PinVmax= 4.5V Vmin=3.4V Vnorm=4.0VVRTC I/OCurrent input for RTC when the battery is not supplied for the system.Current output for backupVmax=2.0V Vmin=1.2V Vnorm=1.8V I out(max)= 20uADo not keep Pin open, it should be connected to a battery or abattery is present and thebackup battery is in lowvoltage state.I in=5 uA capacitor.VCHG I V oltage input for the chargecircuit, as the signal fordetecting the chargerconnectingVmax=5.25VVmin=1.1 *VBATVnorm=5.1VImin=650mAIf unused keep PinopenGND Digital groundPower on or power offPIN NAME I/O DESCRIPTION DCCHARACTERISTICSCOMMENTPWRKEY I V oltage input for power on key.Press the key , the PWRKEYget a low level voltage for userto power on or power off thesystem, the user should keeppressing the key for a momentwhen power on or power offthe system. Because the systemneed margin time assert thesoftware.VILmax=0.2*VBATVIHmin=0.6*VBATVImax=VBATPull up to VBATinside.Audio interfacesPIN NAME I/O DESCRIPTION DCCHARACTERISTICSCOMMENTMIC1PMIC1NI Positive and negativevoiceband inputAudio DCCharacteristicsrefer to chapter3.10If unused keep PinopenMIC2PMIC2NI Auxiliary positive and negativevoiceband inputIf unused keep PinopenSPK1PSPK1NO Positive and negativevoiceband outputIf unused keep PinopenSPK2PSPK2NO Auxiliary positive and negativevoiceband outputIf unused keep PinopenAGND Analog ground Separate groundconnection forexternal audioIf unused keep Pin openGERNERAL PURPOSE input/output PIN NAMEI/ODESCRIPTIONDCCHARACTERI STICS COMMENTSTATUS O Indicate work status If unused keep pins openGPO1 O Normal Output Port If unused keep pins openDISP_DATAI/O /4mA DISP _CLK O/4mA DISP _CS O/4mA DISP _D/C O/4mA DISP _RST O/4mA Display interfaceIf unused keep pins openKBR0I/4mAVILmin=0V VILmax=0.3 *2.93VVIHmin=0.7*2.93VVIHmax= 2.93V+0.3 VOLmin=GND VOLmax=0.2V VOHmin= 2.93V-0.2 VOHmax= 2.93VPull up inside, if unused keep pins openSerial interface PIN NAMEI/ODESCRIPTIONDCCHARACTERI STICS COMMENTRXD I/8mA Receive data DTR I/8mA Data terminal Ready TXD O/8mA Transmit data RTS I/8mA Request to send CTS O/8mA Clear to send RIO/8mARing indicatorVILmin=0V VILmax=0.3*2.93VVIHmin=0.7*2.93VVIHmax= 2.93V+0.3 VOLmin=GND VOLmax=0.2V VOHmin= 2.93V-0.2 VOHmax= 2.93VIf use only TXD, RXD GND threepins to communicate,RTS Pin connect to GND directly. DTR Pin is pulled up inside. If unused keep pins openO/4mADebug interface PIN NAMEI/ODESCRIPTIONDCCHARACTERI STICSCOMMENTDBG_TXD O/4mA DBG_RXD I/4mA Serial interface for debugging only If unused keep pins openSIM interface PIN NAMEI/ODESCRIPTIONDCCHARACTERI STICS COMMENTSIM_VDD O V oltage supply for SIM card The voltage can be select by software either 1.8v or 3VSIM_DATAI/O /4mA SIM data outputSIM_CLK O/4mA SIM clock SIM_RSTO/4mASIM resetVILmin=0V VILmax=0.3*SI M_VDDVIHmin=0.7*SI M_VDD VIHmax= SIM_VDD+0.3VOLmin=GND VOLmax=0.2V VOHmin= SIM_VDD-0.2 VOHmax= SIM_VDD All signals of SIMinterface are protected against ESD with a TVS diode array.Maximum cable length 200mm from the module connector to SIM card holder.ADC PIN NAMEI/ODESCRIPTIONDCCHARACTERI STICSCOMMENTADC0 IGeneral purpose analog to digital converter. Input voltage value scope 0V to 2.4V If unused keep Pin openTEMP_BAT IFor measure the battery temperatureIf unused keep Pin open3.2 Operating modesThe table below briefly summarizes the various operating modes referred to in the following chapters.Table 6: Overview of operating modesFunctionNormal operation GSM/GPRSSLEEP Module will automatically go into SLEEP mode if DTR is set to high level and there is no on air or audio activity is requiredand no hardware interrupt (such as GPIO interrupt or data onserial port).In this case, the current consumption of module will reduce tothe minimal level.During sleep mode, the module can still receive pagingmessage and SMS from the system normally.GSM IDLE Software is active. Module has registered to the GSM network,and the module is ready to send and receive.GSM TALK Connection is going on between two subscribers. In this case,the power consumption depends on network settings such asDTX off/on, FR/EFR/HR, hopping sequences, antenna.GPRS STANDBY Module is ready for GPRS data transfer, but no data iscurrently sent or received. In this case, power consumptiondepends on network settings and GPRS configuration (e.g.multi-slot settings).GPRS DATAThere is GPRS data in transfer (PPP or TCP or UDP). In thiscase, power consumption is related with network settings (e.g.power control level), uplink / downlink data rates and GPRSconfiguration (e.g. used multi-slot settings). POWER DOWN Normal shutdown by sending the “AT+CPOWD” command or using thePWRKEY. The power management ASIC disconnects the power supply fromthe baseband part of the module ，and only the power supply for the RTC isremained. Software is not active. The serial interfaces are not accessible.Operating voltage (connected to BATT+) remains applied.Minimum functionality mode (without remove power supply) Use the “AT+CFUN” command can set the module to a minimum functionalitymode without remove the power supply. In this case, the RF part of the modulewill not work or the SIM card will not be accessible, or both RF part and SIMcard will be closed all, and the serial interfaces is still accessible. The powerconsumption in this case is very low.Alarm modeRTC alert function launches this restricted operation while the module is inPOWER DOWN mode. SIM3XXDZ will not be registered to GSM network andonly parts of AT commands can be available.(Charge-onlymode) GHOST mode means off and charging mode. In this mode, the module can not be registered to GSM network and only limited AT commands can be accessible, the following way will launch GHOST mode:z From POWER DOWN mode: Connect charger to the module’s VCHG Pinand VBAT Pin while SIM3XXDZ is power down.z From Normal mode: Connect charger to the module’s VCHG Pin andVBAT Pin, then power down the module by “AT+CPOWD”Charge mode during normaloperationStart charging while the module is in normal mode including: SLEEP, IDLE,TALK, GPRS IDLE and GPRS DATA)3.3 Power supplyThe power supply of SIM3XXDZ is from a single voltage source of VBAT= 3.4V...4.5V. In some case, the ripple in a transmitting burst may cause voltage drops when current consumption rise to typical peaks of 2A, So the power supply must be able to provide sufficient current up to 2A..For the VBAT input, a local bypass capacitor is recommended. A capacitor (about 100µF, low ESR) is recommended. Multi-layer ceramic chip (MLCC) capacitors can provide the bestcombination of low ESR and small size but may not be cost effective. A lower cost choice may be a 100 µF tantalum capacitor (low ESR) with a small (0.1 µF to 1 µF) ceramic in parallel, which is illustrated as figure1. The capacitors should be put as closer as possible to the SIM3XXDZ VBAT pins.Figure 4: VBAT inputThe circuit design of the power supply depends strongly from the power source where this power is drained. The following figure is the reference design of +5V input source power supply. The designed output for the power supply is 4V, thus a linear regulator can be used. If there’s a big difference between the input source and the desired output (VBAT), a switching converter power supply will be preferable because of its better efficiency especially with the 2A peak current in burst mode of the module.The single 3.6V Li-Ion cell battery type can be connected to the power supply of the SIM3XXDZ VBAT directly. But the Ni_Cd or Ni_MH battery types must be used carefully, since their maximum voltage can rise over the absolute maximum voltage for the module and damage it.Figure 5: Reference circuit of the source power supply inputThe following figure is the VBAT voltage ripple wave at the maximum power transmit phase, the test condition is VBAT=4.0V, VBAT maximum output current =2A, C A=100µF tantalum capacitor (ESR=0.7Ω) and C B=1µF.Figure 6: VBAT voltage drop during transmit burst3.3.1 Power supply pinsTwo VBAT pins of SIM3XXDZ are dedicated to connect the supply voltage. Nine GND pins are recommended for grounding. The VCHG Pin serves as a control signal for charging a Li-Ionbattery. VRTC Pin can be used to back up the RTC.3.3.2 Minimizing power lossesPlease pay special attention to the supply power when you are designing your applications. Please make sure that the input voltage will never drop below 3.4V even in a transmiting burst during which the current consumption may rise up to 2A. If the power voltage drops below 3.4V, the module may be switched off. You should also take the resistance from the power supply lines on the host board or from battery pack into account.figures.Figure 7: Turn on SIM3XXDZ using driving circuitFigure 8: Turn on SIM3XXDZ using button The power on scenarios illustrates as following figure.Figure 9: Timing of turn on systemWhen power on procedure completed, SIM3XXDZ will send out following result code to indicate the module is ready to operate, when set as fixed baud rate. STATUS Pin will drive to 2.8V and keep this level when in work mode. If configured to a fixed baud rate, SIM3XXDZ will send the result code “RDY” to indicate that it is ready to operate. This result code does not appear when autobauding is active.RDY3.4.1.2 Turn on the SIM3XXDZ using the VCHG signalAs described in chapter 3.4, charger can be connected to SIM3XXDZ’s VCHG Pin regardless of the module’s operating mode.If the charger is connected to the module’s VCHG Pin while SIM3XXDZ is in POWER DOWN mode, SIM3XXDZ will go into the GHOST mode (Off and charging). In this mode, the module will not register to network, and only a few AT commands can work in this mode. For detailed information please refers to chapter 3.5.When module is powered on using the VCHG signal, SIM3XXDZ sends out result code as following when fixed baud rate:RDYGHOST MODEIn GHOST mode, by driving the PWRKEY to a low level voltage for period time (Please refer to the power on scenarios in 3.4), SIM3XXDZ will power up and go into charge mode (charging in normal mode), all operation and AT commands can be available. In this case, SIM3XXDZ will send out result code as following:From GHOST MODE to NORMAL MODE3.4.1.3 Turn on SIM3XXDZ using the RTC (Alarm mode)AT command USEAT+CALARM Set alarm timeAT+CCLK Set data and time of RTCAT+CPOWD Power downAT+CFUN Start or close the protocol stack3.4.2 Turn off SIM3XXDZFollowing procedure can be used to turn off the SIM3XXDZ:z Normal power down procedure: Turn off SIM3XXDZ using the PWRKEY Pinz Normal power down procedure: Turn off SIM3XXDZ using AT commandz Under-voltage automatic shutdown: Take effect if Under-voltage is detectedz Over-temperature automatic shutdown: Take effect if Over-temperature is detectedFigure 10: Timing of turn off system3.4.2.2 Turn off SIM3XXDZ using AT commandYou can use an AT command “AT+CPOWD=1” to turn off the module. This command will make the module log off from the network and allow the software to enter into a secure state and save data before completely disconnecting the power supply.Before the completion of the switching off procedure the module will send out result code: NORMAL POWER DOWNAfter this moment, any AT commands can not be executed. Module enters into the POWER DOWN mode, only the RTC is still active. POWER DOWN can also be indicated by STATUS Pin, which is a low level voltage in this mode.Please refer to document [1] for detail about the AT command of “AT+CPOWD”.3.4.2.3 Over-voltage or under-voltage automatic shutdownIf the temperature ≤ -45℃, the following URC will be presented:+CMTE:-2After this moment, the AT commands can’t be executed. The module logs off from network and enters POWER DOWN mode, and only the RTC is still active. POWER DOWN can also be indicated by STATUS Pin, which is a low level voltage in this mode.Figure 11:Timing of restart system3.5 Charging interfaceSIM3XXDZ has integrated a charging circuit inside the module for Li-Ion batteries charging control, which make it very convenient for applications to manage their battery charging. A common connection is shown in the following figure:Figure 12: Battery charger and packThe function of detecting the temperature of battery should be supported by the software in the module. It’s a customization function. The R TEMP is a NTC thermistor. We recommend to use℃NCP15XH103F03RC from MURATA. The impedance of the NTC thermistor is 10Kohm in 25. Please refer to the fore figure for the reference circuit.3.5.1 Battery pack characteristicsSIM3XXDZ has optimized the charging algorithm for the Li-Ion battery that meets the characteristics listed below. To use SIM3XXDZ’s charging algorithm properly, it is recommended that the battery pack you integrated into your application is compliant with these specifications. The battery pack compliant with these specifications is also important for the AT command “AT+CBC” to monitor the voltage of battery, or the “AT+CBC” may return incorrect battery capacity values.z The maximum charging voltage of the Li-Ion battery pack is 4.2V and the recommended capacity is 580mAh. If the Battery packs with a capacity more than 580 mAh, it will costmore time for charging.z The pack should have a protection circuit to avoid overcharging, deep discharging and over-current. This circuit should be insensitive to pulsed current.z On the SIM3XXDZ, the build-in circuit of SIM3XXDZ’s power management chipset monitors the supply voltage constantly. Once the Under-voltage is detected, the SIM3XXDZ will be power down automatically. Under-voltage thresholds are specific to the battery pack. z The internal resistance of the battery and the protection circuit should be as low as possible.It is recommended not to exceed200mΩ.z The battery pack must be protected from reverse pole connection.。

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