WDFZ大功率智能发射机说明书样本

激发极化法在找矿中的应用摘要：激发极化法是以地下不同岩、矿石激电效应的差异为基础，通过观测和研究大地激发极化效应来勘查地下地质情况的一种电法勘探方法，近年来，该方法在寻找深部隐伏矿体的找矿中发挥了重要作用，取得了良好的效果。

通过野外实地踏勘，区内矿产伴生有较强黄铁矿化，因而采用激发极化法进行对区内成矿远景进行评价。

本文就借此对找矿中激发极化法的应用进行简要的分析研究。

关键词：找矿；激发极化法；应用引言近些年以来，近地表矿产资源近乎被开发殆尽，寻找深部隐伏矿产已经成为近年来矿产勘探中的重点方向。

利用激发极化法能够较准确的预测深部隐伏矿体的存在。

特别是矿产大多数与金属硫化物伴生，硫化物通常是黄铁矿或毒砂，偶尔也有磁黄铁矿，使用激发极化法测量这些伴生矿的物理场特征，结合地学理论就可以间接找出矿产。

一、激发极化法的工作原理及方法1、激发极化效应。

电阻率法测量时，在向地下供入稳定电流的情况下，仍可观测到测量电极间的电位差随时间而变化，并经相当长时间后趋于某一稳定的饱和值；断开供电电流后，测量电极间的电位差在最初一瞬间很快下降，而后便随时间相对缓慢地下降，并在相当长时间后衰减接近于零。

这种在充电和放电过程中产生随时间缓慢变化的附加电场的现象称为激发极化效应。

2、激发极化法。

激发极化法是以不同岩、矿石激电效应的差异为基础，通过观测和研究大地激电效应来探查地下地质情况的一种分支电法。

激电法的应用范围很广，无论在金属与非金属固体矿产的勘查方面，还是在寻找地下水资源、油气藏和地热田方面，都取得了良好的地质效果。

3、激电测量装置。

矿区激电测量工作分为：中间梯度装置扫面（图1），对称四极装置测深（图2）。

图2对称四极装置示意图二、矿区地质概况本文以我国华北地区某矿产为例，分析了激电中梯、激电测深和联合剖面等方法在勘查中的应用效果。

通过在该区开展勘探工作，发现了区内的极化体范围，查明了区内成矿的有利位置，并利用激电测深和联合剖面对极化体进行解剖，为矿山下一步的找矿工作提供地球物理依据。

激电测深法勘查效果的对比解析摘要：激电测深法是一种典型的地球物理勘探方法，在金属矿勘探及地下水勘查中起着十分重要的作用。

本文在研究区域内通过激电测深法，获得了研究区域的视电阻率数据，并通过广义线性反演方法对采集的数据进行处理解释，获得了视电阻率的反演成果图，从中圈定出了异常带位置，为后期的钻探工作提供了可靠的支撑。

关键词：激电测深法；广义线性反演；视极化率矿产资源是社会发展与国民经济建设的物质基础，但随着勘查的深入，近年来露头矿、易识别矿，地表矿、浅部矿越来越少，找矿工作难度越来越大。

潜在的资源主要是难识别的和埋藏较深的隐伏矿床（体），这就需要新技术、新理论和新方法的应用，来探测和圈定有利的金属成矿地段，确定钻孔的孔位，提高钻孔见矿率。

激发极化法可以根据岩石、矿石的激发极化效应来寻找金属和解决水文地质、工程地质等问题，是一种电法勘探方法。

在多金属硫化物矿床的勘查中，激发极化法是一种公认的、极其有效的勘查手段。

1、地质概况和地球物理特征1.1 地层某地区矿区,区内铜矿等矿化明显受断裂-裂隙构造控制。

目前发现的铜铁矿（化）体多产于北西向、北北东向、近东西向等断裂构造中，构造交汇部位往往矿化规模和强度增强。

矿石中金属矿物主要为孔雀石，其次为蓝铜矿、硅孔雀石、氯铜矿、斑铜矿、黄铜矿、镜铁矿、褐铁矿等。

而含铜铁矿中金属矿物主要为磁铁矿、褐铁矿等，另有少量的孔雀石、镜铁矿等。

1.2 构造某地区点矿区区域大地构造位置属南北向DOMEYKO走滑断裂带构造单元中，区域内以断裂构造为主，构造线呈北东向、北西向及近南北向展布，具有向北撒开、向南收敛的“入”字型帚状断裂构造特征，目前所发现的矿产点就赋存与“入”字型构造的夹持部分。

即不同相的构造岩块分布区内。

其中含断裂主要呈北北西―北西向展布。

1.3 地球物理特征某地区矿区在面状蚀变和围岩接触部位多见受构造控制的脉体或网脉群，脉体规模较大，长约700～1000m，宽约10m～50m，脉体边部见角砾岩化，角砾岩中含铜矿化。

一、井中激电1、主要技术要求（1）按项目设计要求进行测量，进行电阻率、激电测井后，再进行四方位地-井方式井中激电。

（2）井中激电工作使用仪器为重庆奔腾数控技术研究所生产的WDFZ-2型大功率智能发射机及配套的WDZ-10型整流电源，观测仪器为重庆地质仪器厂生产的DZD-6多功能直流电法仪和JGS-1B智能测井系统，井下为MN=5m 的氯化铅不极化电极系。

井下电缆为4芯铠装电缆。

（3）依据《井中激发极化技术规程》（DZ/T0204-1999）的质量评定标准，视电阻率测量质量要达到Ⅰ级精度，视极化率测量质量达到Ⅱ级精度，井中激电测量质量评级达到良好标准。

（4）在测量结束后，及时向委托方提供相关测量信息，并在一周内提交井中激电测量报告，附表及附图等，并完成项目原始资料的移交工作。

2、主要工作量72ZK03：1700m。

二、钻探1、根据主干控矿构造带倾角及施工设备情况，拟采用直孔。

钻探施工严格按设计及《岩心钻探规程》和有关规范、规定执行，强调达到如下要求：（1）工作量：施工钻孔2个，预计工作量分别为1500米和1700米。

（2）相关技术要求及规程严格按照山东省地质调查院设计要求和DZ/T0227-2010——《地质岩心钻探规程》进行钻探施工。

根据调查区具体地质条件、设计本次钻孔施工采用90°直孔进行验证异常、控制矿体、矿化带。

终孔孔径不小于75mm。

（3）原始班报表各班必须指定专人在现场及时填写原始报表，要做到真实、齐全、准确、整洁。

施工过程中发生的情况均要填写。

记录员应认真负责地做好各项记录，机长要每天校对原始记录，发现错误要及时修正，无误后签字并移交地质人员保存。

（4）岩芯采取及岩芯牌、岩芯箱岩芯的采取：岩心分层采取率不低于70%，矿心（包括矿化带及3～5m 顶底板）采取率不低于80%，在厚大矿体内，当采取率连续3～5m低于80％时，要查明原因，采取补救措施。

提岩芯管采芯时，岩芯管要平放，禁止吊敲岩心管；采出的岩芯由机台负责用清水清洗干净，避免人为破碎，严格禁止拉长岩芯；及时用红油漆将岩芯进行编号，对于长度大于5cm的岩芯均要进行编号。

移动多媒体广播（CMMB）发射机产品说明书300W（室内型）发射机产品说明书300W（室内型）发射机AW603A-TSM55XX08奥维通信股份有限公司目录1.产品简介 (2)2.原理框图 (3)3模块介绍 (4)4.技术指标 (5)5.通用技术要求 (7)1.产品简介奥维300W发射机可适用于CMMB，DVB-T，ATSC以及DTMB等多种标准，及应用于数字电视单频网（SFN）和多频网（MFN），具有单向放大数字电视下行链路信号的功能，可有效扩展数字信号覆盖的范围。

本款产品特点：●数字化的全固态功率放大电路设计技术；功放模块：采用的LDMOS晶体管BLF888A。

BLF888A是恩智浦半导体(NXP Semiconductors)推出的目前市场上功能最强大的LDMOS广播发射机晶体管，支持470-860MHz完整超高频带CMMB/DTMB/DVB-T信号，单管平均输出功率120W，效率可达31%以上。

21dB高增益、出色的线性度和耐用性（驻波比VSWR＞ 40:1）使BLF888A 成为CMMB/DTMB/DVB-T等高级数字发射机应用的理想选择。

●每个功放单元都集成自动电平控制（ALC）系统，确保功放单元输出功率稳定度优于±2%。

●采用单激励器配置，可根据客户需求和当地组网情况配置不同品牌激励器。

●可配置IP模块，使发射机具备IP转换功能。

●大功率高选择性的输出带通滤波器可安装于机柜内部。

大大节省安装空间●分配器和合成器采用宽带化设计，插损小，平衡性好。

●精确的监控系统，提供可靠的功放工作信息和适时的过热、过载、过激励和过流保护。

●提供实时监控和报警功能。

监控内容包括：设备工作状态、参数配置和接口工作状态等。

报警内容包括：数据输入数据异常、10MHz时钟输入信号异常、1pps时钟输入信号异常、TOD输入信号异常和设备故障等，发生异常情况时，给出报警指示。

监控和报警可以远程进行控制和查询。

本科生实习报告实习类型生产实习题目电法勘探实习报告学院名称地球物理学院专业名称勘查技术与工程（石油物探）学生姓名学生学号指导教师肖宏跃实习地点成都理工大学实习成绩2015年 9月-2015年11月目录第一章绪论 (1)1.1实习目的 (1)1.2实习安排 (1)1.3实习内容 (2)第二章联合剖面法 (3)2.1方法原理 (3)2.2仪器设备 (4)2.3实施步骤 (4)2.4成果解释 (4)第三章高密度电法 (6)3.1方法原理 (6)3.2仪器设备 (7)3.3实施步骤 (7)3.4成果解释 (8)第四章大功率激发极化法 (11)4.1方法原理 (11)4.2仪器设备 (14)4.3实施步骤 (15)4.4成果解释 (15)第五章实习总结 (18)第一章绪论电法勘探是勘探地球物理学中的一个重要分支，是电学、电磁学、电子学及电化学在解决地质找矿及地质学问题中发展起来的一门应用科学。

电法勘探（常称为电法或电探）的地球物理学基础是地壳中多数岩矿石之间存在的电学性质的差异，它是通过观测和研究由电性差异引起的人工或天然电磁场的空间和时间分布规律及其变化特点，从而达到查明地下地质构造或矿产分布的一组勘探方法的总称。

1.1 实习目的本次实习的主要目的：1）学习一系列电法勘探方法，了解一系列电法勘探仪器的操作及布线；2）学会对所采集数据进行初步整理，以及使用相关软件进行相应处理和成果图的绘制；3）巩固理论知识和培养学生理论与实践相结合的能力，能快速适应生产，解决一系列地质问题。

1.2 实习安排本次实习时间为2015年9月-11月。

实习进度安排如表1-1。

表1-1 实习进度安排一览表1.3 实习内容在电法勘探的实践中已被利用的电学性质有：描述岩、矿石导电性的电阻率（ρ），反映岩、矿石磁性强弱的磁导率（μ），表示岩、矿石电化学活动性的极化率（η）和岩、矿石的介电常数（ε）等。

本次实习包括：联合剖面法、大功率激发极化法、高密度电法以及AMT。

图来呼舒铅锌矿成矿地质条件分析及矿床成因探讨[摘要] 本文分析了内蒙古自治区图来呼舒地区的地质背景、物探异常特征和矿体特征，探讨了本区成矿地质条件，并对本区成矿前景、找矿标志及成因类型进行了简单阐述。

[关键字] 图来呼舒铅锌矿激电异常成矿地质条件0 引言图来呼舒铅锌矿位于内蒙古自治区东乌珠穆沁旗东北部，行政区划隶属满都宝力格镇管辖。

1978年，内蒙古自治区地质局区测队在本区开展了L-50-ⅩⅦ、Ⅺ幅1：20万区域地质调查，编写有区域地质调查报告。

建立了地层系统，划分了侵入岩的期次，查明了构造轮廓。

1992年，原内蒙地矿局第二物化探队在该区开展了1：20万水系（土壤）沉积物测量，圈定化探异常多个，为本区的地质找矿工作提供了靶区。

2008-2009年内蒙古自治区第九地质矿产勘查开发院对图来呼舒矿区开展了普查工作，通过地质填图及激电测量工作，发现矿化带3条，圈定激电异常3个，对本区的成矿地质条件及找矿思路有了一定认识。

1 区域地质简况矿区大地构造位置属兴安地槽褶皱系，东乌旗早华力西地槽褶皱带。

处于大兴安岭中段华力西、燕山期Fe、Zn、W、Au、Pb成矿带（Ⅲ），博克图-朝不楞W、Fe、Pb成矿带（Ⅳ），朝不楞-查干敖包Fe、Zn、Pb成矿带（Ⅴ）。

地处查干敖包-阿荣旗超岩石圈断裂的北侧，额仁戈比复背斜北西翼中段。

区内岩浆活动强烈、断裂构造发育，矿产资源较为丰富。

区内除分布较广的第四系外，主要出露地层有中上泥盆统塔尔巴格特组（D2-3t）、上泥盆统安格尔音乌拉组（D3a）、上侏罗统白音高老组（J3b）。

侵入岩较为发育，总体展布方向呈北东-南西向，与区域构造线方向一致。

以中、酸性岩为主，岩性为花岗闪长岩、花岗岩、花岗斑岩等，时代为从二叠纪到白垩纪。

区内构造以断裂构造为主，断层主构造线方向为北东向，另二组断层方向为北西向和近东西向。

2 矿体地质特征矿体赋存于变质细砂岩及二长花岗岩中。

为断裂构造控制的矿床，分东区和西区两个工作区，西区矿体赋存于北北东向断裂构造中；而东区矿体赋存于北西向断裂构造中，地表及浅部为氧化矿（褐铁矿化带），根据施工各钻孔岩石氧化情况，氧化带深度一般为基岩下40～50m。

Z-Wave ® CertifiedWireless Lighting ControlOn/Off Relay Switch and 3-Way Switch KitControl the On/Off status of permanently installed lighting, fans and more!45740_45760ZW4003Made in ChinaIntroductionThank you for your purchase of a JASCO Z-Wave® control device. Z-Wave technology is designed to automate lighting/home control and provide easy remote operation of all your Z-Wave enabled devices. The JASCO Z-Wave product family includes a variety of devices to control lighting in your home. It is up to you whether you want to control one room or your entire house and whether you want to do it all now or start with one room and add more over time.This switch is one component of a Z-Wave® control system and is designed to work with all other Z-Wave enabled devices in a home control network. It will also act as a wireless repeater to insure that commands intended for another device in the network are received, thereby extending the range of the wireless controller. Z-Wave devices of other types and brands can be added to the system and will also act as range extenders if they support this function of repeating the signal received to other nodes in thesystem.This switch is designed for use only with permanently installed fixtures. The device controlled by this Z-Wave switch must not exceed 960 watts (Incandescent); 15 Amps, 1800W (Resistive); or ½ HP (Motor).NOT FOR USE WITH MEDICAL OR LIFE SUPPORT EQUIPMENT Z-Wave enabled devices should never be used to supply power to or control the On/Off status of medical and/or life support equipment!There are no user serviceable parts in this unit.Z-Wave ® CertifiedWireless Lighting ControlOn/Off Relay Switch and 3-Way Switch KitWIRELESS RANGEThis device complies with the Z-Wave standard of open-air, line of sight transmission distances of 65 feet. Actual performance in a home depends on the number of walls between the remote controller and the destination device, the type of construction and the number of Z-Wave enabled devices installed in the control network. Most Z-Wave devices act as signal repeaters and multiple devices result in more possible transmission routeswhich helps eliminate “RF dead-spots”.Things to consider regarding RF range:• Each wall or obstacle (i.e.: refrigerator, big screen TV, etc.)between the remote or Z-Wave device and the destination device will reduce the maximum range by approximately 25-30%. • Brick, tile or concrete walls block more of the RF signal thanwalls made of wooden studs and plasterboard (drywall). • Wall mounted Z-Wave devices installed in metal junctionboxes may suffer a significant loss of range (approximately 20%) since the metal box blocks a large part of the RF signal.Effects of Home Construction on Wireless Range Between Z-Wave Enabled DevicesNote: The distances shown in the table below are typical examples. Actual performance in your home will vary.* For Plug-in Modules or In-Wall Devices Installed in Plastic Junc-tion Boxes** Line of Sight / no obstructionsPlease Note: Z-Wave home control networks are designed to work properly alongside 802.11 wireless computer networks, Bluetooth and other 2.4GHz or 5.8GHz devices. Some baby cams, wireless video devices and older cordless phones using the 900MHz frequency range may cause interference and limit Z-Wave functionality. Many 900MHz products have a switch to select channel “A” or “B”. You may find that one of these channels will cause less interference than the other.IMPORTANT NOTE ABOUT 3-WAY CIRCUITSThe term “3-way circuit” refers to a circuit with two switches and one load (light) like you find at the top and bottom of a stairway. There are many ways to physically wire a 3-way circuit and it is important to understand how the circuit you wish to upgrade to Z-Wave control is wired. Below is a description of a typical 3-way circuit.From the Remote (or repeating Z-Wave module) to destination device:Type ofConstructionWood Frame with DrywallBrick, Tile or ConcretePlastic J-Boxes*Metal J-Boxes Plastic J-Boxes*Metal J-Boxes Number of Walls or Obstacles0**100’80’100’80’170’56’60’48’249’39’36’29’334’27’21’17’One of the ways to wire a two-switch/one-load circuit is to route the incoming power through the first switch, then to the second switch and then to the load. Although very common and by no means a standard, it is the easiest to convert to Z-Wave control. With this type of circuit, Switch 1 is replaced by the Z-Wave auxiliary switch and Switch 2 is replaced with the primary Z-Wave switch. The auxiliary switch does not actually control the power; instead, it sends a momentary voltage signal through the traveler wire to the primary switch which in turn, controls the power to the load.Typical 3-way circuit:Please consult an electrician if you have trouble identifying the type of wiring circuit you wish to convert or if you do not feel confident in your ability to convert the circuit to Z-Wave control.INSTALLATIONThis switch may be used in new installations or to replace an existing wall switch. It may be used by itself for 2-way control (one switch & one load), with one Auxiliary Switch for 3-way control (two switches & one load) or with two Auxiliary switches for 4-way control (three switches & one load). When used by itself for 2-way control, please make sure that the screw terminal for the traveler wire is insulated (Do Not Remove the tape over theterminal if you are not using the traveler connection).4-Way Wiring Schematic using one primary and two auxiliariesBlack – Load (to light fixture)Green - Ground Black – Line / Hot (from breaker)Single, Dual and Triple Gang BoxesWhen installing the 45740/45760 inmultiple gang boxes it may be necessary to break off one or both of the scored tabs on the front yoke. This does not affect the electrical rating of the 45740/45760.1. Shut off power to the circuit at fuse box or circuit breaker.2. Remove wall plate.! Warning: Verify power is OFF to switch box beforecontinuing. 3. Remove the switch mounting screws.4. Carefully remove the switch from the switch box. DO NOTdisconnect the wires.5. There are five screw terminals on the primary switch;these are marked LINE (Hot), Neutral, LOAD, GROUND and TRAVELER. The Traveler terminal is only used for 3-way or 4-way wiring and should remain insulated if the primary is being installed in a 2-way system (one switch & one load). Match these screw terminals to the wires connected to the existing switch. (Do Not remove the tape over the terminal if you are not using the traveler connection). 6. Disconnect the wires from the existing switch.7. Connect the green or bare copper ground wire to theGROUND terminal.8. Connect the black wire that goes to the light to the terminalmarked LOAD.9. Connect the black wire that comes from the electricalservice panel (Hot) to the terminal marked LINE.10. Connect the white wire to the neutral terminal.Note: UL specifies that the tightening torque for the screws is 14 Kgf-cm (12 lbf-in).TabsTabs Break at this line11. OPTIONAL for 3 or 4-way control): Connect the Travelerwire (usually Red) to the screw terminal marked TRAVELER.The other end of this Traveler wire connects to theTRAVELER screw terminal on the Auxiliary Switch. See the following section for information about wiring theAuxiliary Switch.12. Insert Z-Wave Switch into the switch box being careful notto pinch or crush wires.13. Secure the switch to the box using the supplied screws.14. Mount the wall plate.15. Reapply power to the circuit at fuse box or circuit breakerand test the system.Optional for 3 or 4-Way Control:1. The auxiliary switch requires the following 3 wiringconnections:a. The Traveler wire. This is used to send voltage signals to theprimary Z-Wave switch. The signals tell the Z-wave switch what action to perform.b. Ground.c. Neutral.2. DO NOT connect the auxiliary switch to the home’s blackHot (Line) wire.Observe Important Wiring InformationImportant: This switch is rated for and intended to only be used with copper wire.The home’s electrical wires may be attached to the screw termi-nals or inserted into the holes in the back of the switch enclosure and clamped in place by tightening the screw terminals. Always follow the recommended wire strip lengths when making wiring connections.Wire gauge requirements• Use 14 AWG or larger wires suitable for at least 80°C for supply (HOT), Load, Neutral and Traveler connections.• Use 14 AWG or larger wires suitable for 80°C for ground connection.Wire strip length:• For attachment to screw terminals: Strip insulation 1”(25mm).• For attachment using the enclosure’s holes: Strip insulation 5/8” (16mm).You should now be able to use the rocker to manually turn On/Off the connected load.Use your primary controller to include the switch in the home control network after the switch is wired as shown in the above diagram. It can then be added to groups and/or lighting scenes and managed remotely to control the On/Off status of the connected lighting.Key Features• Remote On/Off control via the Z-Wave controller/network • Manual On/Off control with the front panel rockerBASIC OPERATIONRemote ControlJASCO Z-Wave remotes provide control of an Individual device, Groups of devices and Scenes. Other brands of Z-Wave Certified remotes may not offer as much flexibility in how you can set up your lighting control network. Please refer to your remote control’s instructions for details on its capabilities and instructions for add-ing and controlling devices.Manual ControlThe primary switch allows the user to:Turn ON/OFF the connected lighting.• To turn the connected lighting ON: Tap the top of the rocker.• To turn the connected lighting OFF: Tap the bottom of the rocker.Program your Light Switch (Include or exclude the switchto/from the Z-Wave home control network.)• Refer to the instructions for your primary controller to access the network setup function and include or exclude devices.• When prompted by your primary controller, tap the top or bottom of the rocker.• The primary controller should indicate that the action was successful. If the controller indicates the action wasunsuccessful, please repeat the procedure.• Once the switch is part of the network, the same basic procedure is used to add the switch to groups & scenesor change advanced functions. Refer to the primarycontroller’s instructions for details.Please Note: After a power failure, the Z-Wave primary switch returns to the last used state.ADVANCED OPERATIONThe following Advanced Operation parameters require that you have an advanced controller like the JASCO model 45601 LCD remote. Advanced remotes from other manufacturers may also be able to change these settings; however, basic remotes do not have this capability.All On/All OffDepending upon your primary controller, the primary switch can be set to respond to ALL ON and ALL OFF commands in up to four different ways. Some controllers may not be able to change the response from its default setting. Please refer to your controller’s instructions for information on whether or not it supports the configuration function and if so, how to change this setting.The four possible responses are:It will respond to ALL ON and the ALL OFF command (default).It will not respond to ALL ON or ALL OFF commands.It will respond to the ALL OFF command but will not respond to the ALL ON command.It will respond to the ALL ON command but will not respond to the ALL OFF command.Invert SwitchIf the switch is accidentally installed upside down with “On” at the bottom and “Off” at the top, the default On/Off toggle settings can be reversed by changing parameter 4’s value to “1”.• Parameter No: 4• Length: 1 Byte• Valid Values = 0 or 1 (default 0)Restoring Factory DefaultsAll Configuration Parameters can all be restored to their factory default settings by using your primary controller to delete/reset the device.Interoperability with Z-Wave™ DevicesA Z-Wave™ network can integrate devices of various classes, and these devices can be made by different manufacturers. Al-though every Z-Wave certified product is designed to work with all other Z-Wave certified products, your controller must include the appropriate device classifications in order to control non-lightingZ-wave devices. As an example, the JASCO 45600 basic remoteis designed only for controlling Z-Wave devices using the lighting control classification. The JASCO 45601 deluxe remote with LCD readout can control other Z-Wave certified devices like thermo-stats as well as lighting.WARRANTYJASCO Products warrants this product to be free from manufac-turing defects for a period of two years from the original date of consumer purchase. This warranty is limited to the repair or replace-ment of this product only and does not extend to consequential or incidental damage to other products that may be used with this product. This warranty is in lieu of all other warranties, expressedor implied. Some states do not allow limitations on how long an implied warranty lasts or permit the exclusion or limitation of inci-dental or consequential damage, so the above limitations may not apply to you. This warranty gives you specific rights, and you may also have other rights which vary from state to state. Please contact Customer Service at 800-654-8483 (option 4) between 7:30AM – 5:00PM CST or via our website () if the unit should prove defective within the warranty period:JASCO Products CompanyBuilding B, 10 E Memorial Rd.Oklahoma City, OK 73114FCCU2ZZW4003The Federal Communication Commission Radio Frequency Inter-ference Statement includes the following paragraph:The equipment has been tested and found to comply with the limits for a Class B Digital Device, pursuant to part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation.This equipment uses, generates and can radiate radio frequency energy and, if not installed and used in accordance with the instruction, may cause harmful interference to radio communica-tion. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures:• Reorient or relocate the receiving antenna• Increase the separation between the equipment and receiver• Connect the equipment into an outlet on a circuit different from that to which the receiver is connected• Consult the dealer or an experienced radio/TV technician for helpOperation is subject to the following two conditions:• This device may not cause interference• This device must accept any interference, including interference that may cause undesired operation ofthe device.Important Note: To comply with the FCC RF exposure compliance requirements, no change to the antenna or the device is permit-ted. Any change to the antenna or the device could result in the device exceeding the RF exposure requirements and void user’s authority to operate the device.Compliance with IC Rules and RegulationsIC: 6924A-ZW4003Jasco Products CompanyModel: 45740 ZW4003ICES-3(B) / NMB-3(B)This device complies with Industry Canada license-exempt RSS standard(s). Operation is subject to the following two conditions: (1) this device may not cause interference, and (2) this device must accept any interference, including interference that may cause undesired operation of the device.SPECIFICATIONSZW4003Power: 120 VAC, 60 Hz.Signal (Frequency): 908.42 MHz.Maximum Loads: 960W, incandescent, ½ HP Motor or 1800W (15A) ResistiveRange: Up to 100 feet line of sight between the Wireless Controller and the closest Z-Wave receiver module.Operating Temperature Range: 32-104° F (0-40° C)For indoor use only.Specifications subject to change without notice due to continuingproduct improvementZ-Wave is a registered US trademark of Sigma DesignsJasco Products Company LLC,10 E. Memorial Road,Oklahoma City, OK 73114.© 2013 JascoProducts45740_45760ZW4003rev. 09/06/13。

基于找矿过程的物探技术分析摘要:随着一系列技术和方法的应用,物探技术的应用越来越广泛,在生产实践中有着不可替代的重要作用。

但是,对于某一种物探技术方法来说,我们要根据它的应用范围以及其具体解决地质问题的能力和效率来评估,让各种物探技术方法互相佐证和取长补短,这才是我们要走的一条路,提高物探技术资料的精度与可靠性。

关键词:找矿物探技术矿产发展方向近期,吐哈盆地萨克桑高精度三维找矿勘探项目运作之后,最高日效就突破4620炮,创下国内找矿勘探有史以来最高生产纪录。

这是目前国内第一个采用可控震源滑动扫描技术进行找矿勘探高效采集的项目。

由此,我国可控震源采集技术在国内的应用又揭开了崭新的一页。

在找矿物探生产的激发领域,可控震源是一种找矿勘探信号激发设备。

可控震源找矿采集技术在全球范围内得到大面积的广泛应用,目前,全球陆上找矿勘探总工作量的80%都是使用可控震源采集的。

1 我国找矿物探技术现状由目前的趋势分析,在未来几十年中,找矿勘探的大体方向是朝着成本低,精度高,保真高的方向发展,这就决定了必须把高保真和高效率找矿技术完全结合起来。

我国用可控震源技术找矿应用还是比较少的仅为百分之十几。

根据国内初步统计数据看,大概适合可控震源施工的面积约为100万km2。

正因为这项技术的发展前景非常广阔。

我们一直未停止对这一技术的研究和探索,并且始终努力走在前面。

预计到“十二五”结束,我们国家在找矿时应用这一技术的比例将会增加一倍左右。

2 找矿物探勘查的一些方法技术2.1 航空以及地面甚低频电磁法甚低频电磁法,简称为VLF,它的工作原理是:利用场源,在地面表层、空间和地下测量空间的电磁场分布规律,目的是获取较浅层地质体的电性局部地区不正常常状况,它所用的场源一般用l5—30kHz的甚低频电磁波和广播电台发射的电磁波,这种方法在我国应用的时间还是比较早的。

它有一些优良的特点:装备轻巧,计算处理资料速度快,方法简便特别是在野外观测时。

WDZ-5A整流电源用户手册重庆奔腾数控技术研究所尊敬的用户：请您在开机前仔细阅读《用户手册》和设备上的操作指南，并牢记其中的“注意事项”。

注意事项严禁带电改变仪器上的任何连接线。

在调节平衡负载或改变仪器面板上任何连线、插头时，必须先关闭仪器电源（即“电源开关”置“0”档），在电压表显示电压小于36V 时，方可进行。

严禁输入电源为220V 市电或发电机某一线接地发射机向大地供电时，电源开关置“2”档将损坏仪器！严禁电源开关置“1”或“2”档时，切换电压选择开关。

严禁超功率、超电流使用仪器。

在插拨仪器电源插头时，务必先切断220V 输入电源。

在仪器提示输出开路时，为防高压危及人身安全必须先将“电源开关”置“0”档，再找出断点位置，排除故障后，方可重新供电。

严禁将平衡负载端、直流输出端短路。

仪器在工作之前，应先将平衡负载箱盖取下，以便散热。

220V 电源插头接入时，应保证连接处接触良好，否则易造成连接处“打火”，导致损坏插头和仪器。

目录一、设备主要功能及特 (3)二、主要技术指 (3)三、仪器前面板介绍 (4)四、仪器后面板介绍 (5)五、操作说明 (5)5.1 怎样配置平衡负载 (5)5.2 开机前的准备工作 (5)5.3 开机工作 (6)六、注意事项 (7)七、故障诊断 (8)八、设备保养 (10)九、设备成套性 (10)附：操作指南 (10)一、设备主要功能及特点一体化设计：集整流电源、平衡负载控制器于一体。

数字显示输出电压、电流。

电压、电流具有上下限设置，过限自动报警功能。

蜂鸣器故障报警，同时发光二极管指示故障状态。

根据报警和闪光频率可判定故障原因。

超强保护功能：（1）220V 输入电源欠压保护。

（2）输出电压过压保护。

（3）输出开路、过流保护（含平衡负载输出）。

二、主要技术指标1、供电电压：“1”档：50V、150V、500V、600V、950V。

“2”档：300V、400V、750V、850V、1200V。

The first fully-integrated high-performancephased array UT device with multi-touch screen MULTI-TOUCH SCREEN.STURDINESS. PORTABILITY . CONNECTIVITY .RUN IT wITH A TOUCHA true user experience revolution. Interact just like you would with a smartphone or a tablet. Navigate the interface easily, smoothly and efficiently.ULTRA-BRIgHT MULTI-TOUCH DISPLAYThe TOPAZ has a high-resolutionultra-bright multi-touch display designed to be used indoors or outdoors. The 1024 x 768 pixel resolution of the 10.4” screen is 64% better than that of standard displays. Its optimized format offers 33% more surface than 16:9 displays with the same diagonal. Dedicated outdoor color scheme for amazing outdoor visibility.THUMBS UPOperate the TOPAZ system using only the sensitive control knob and the 3 press buttons.ACTION BUTTONSAction buttons give direct access to the most commonly used functions.NO AIR INTAkEThe TOPAZ housing is designed so there is no air intake. The removable external fan optimizes heat dissipation. Closed housing design prevents dust, humidity or contamination from getting inside, making it a true field-ready instrument.PORTABILITYOnly 6 kg in a robust magnesium housing.CONNECTIVITYConnectivity ports 4 USB 2.0 ports and gigabyte LAN.UT channels 2 high-quality UT channels for conventional UT (pulse echo, pitch-and-catch or TOFD).Quality PAUT connector with solid probe latch Robust connector for fast, easy and low-noise probe connections with secured and solid latch.A NEw MEMBER IN THE fAMIL Y!ULTRAVISION® 3 kEY fEATURESThe TOPAZ is fully compatible with UltraVision® 3, opening the doorto solving the most challenging applications. Data files can be directlyloaded in UltraVision® 3, to benefit from the advanced and 3D features.Advanced setups can also be prepared with UltraVision® 3 and directlyused with the TOPAZ.ULTRAVISION TOUCH™ EMBEDDEDThe TOPAZ is the most versatile portable PA unitavailable today. Powered by the same softwareengine as the entire Zetec UT product family, useit as a standalone unit, connected to a PC withUltraVision Touch™ or driven by UltraVision® 3for extended capabilities.Z-SCAN UTHigh-performance multi- channel UT system for up to 16 simultaneous pulse echo and TOFD channels. ZIRCON32/128 PR portable andbattery-operated phased arrayinstrument with 2 individual UTP/R channels.DYNARAY LITEHigh-performance 64/64 PRphased array instrument.DYNARAYHigh-performance modularphased array instrument.- 64/256 PR multiplexed- From 64/64 PR to 256/256 PRnon-multiplexed12fULL Y-INTEgRATED INSPREPARATIONThe visual feedback of the on-board shape editor and advanced focal law calculator allows easy setup creation and optimization. With TOPAZ, everything you need to efficiently and intuitively build your setup is in the box!ACQUISITIONThe calibration process is made easy with a complete calibration tool. And the superior hardware specifications allow for the most efficient encoded data acquisition process of any portable PA system on the market.34ANAL YSISA full set of basic (cursors, readings) and advanced (merge, gate selectors, volumetric contour, thickness thresholding, etc.) analysis tools are available on-board with fully-configurable display layouts.REPORTINgReady-to-print custom PDF reports, including hardwaresettings, scan plan and indication information, are generated in a single touch. Keep your paperwork to a bare minimum.Image generated with UltraVision ® 3 and 3D packageHIgHPERfORMANCEON-BOARD fOCAL LAw CALCULATORThe on-board advanced calculator allows to configure inspections on complex specimens like axial welds on pipes or K welds.HIgH PERfORMANCE IN ACQUISITION AND PROCESSINgThe 700-MB data file size capability allows for efficient inspections on large components. Create as many inspection groups as needed with up to 512 focal laws.16-BIT AMPLITUDE RESOLUTIONThe amplitude scaling of up to 800% FSH or the software gain can be used to prevent any re-scan due to acquired signal saturation.IMPROVED DATA ACQUISITION SPEEDComputing power and SSD (solid-state drive): perform challenging inspections with large data files without compromising acquisition speed.ON-BOARD DATA MERgINgData acquired from different channels (groups) can be merged directly on the instrument without requiring advanced post-processing software.ULTRAVISION TOUCH™ EMBEDDEDThe embedded advanced focal law calculator with visual feedback allows for easy setup preparation. On-boardvolumetric merge and measurement tools enable powerful data analysis and inspection report generation.875 Charest Ouest Blvd., Suite 100Québec QC G1N 2C9 CANADA Toll free: 800.643.1771P: 418.266.3020F: 418.263.3742***************SEE IT IN ACTIONThe first fully-integratedhigh-performance phased array UT deviceFOR ADDITIONAL INFORMATION:。

（二）激电中梯测量
1、精度要求
电法采用中梯装置，设计总精度为：Mρs≤12%，Mηs≤7%。

2、仪器准备
仪器为重庆地质仪器厂生产的WDJS-2数字直流激电接收机，WDFZ-5型大功率发射机。

开展工作时先应进行系统检查，满足要求后方可投入使用。

3、方法实验
进行方法有效性试验，激电中梯供电极距AB具体应在野外通过试验来确定，应保证二次电位ΔU2最低不小于0.3mv，MN取值范围为（1/30～1/50）AB。

根据以往的工作经验，工作装置初步采用AB=1200米、MN=40米、点距40米，观测范围为AB的中部800米的范围内，旁测距最大为200米。

4、工作方式
激电中梯采用短导线方式，采用双向短脉冲供电，工作周期为8-16秒，占空比1：1，第1个极化率采样断电延时200ms。

5、质量检查
质量检查是评价工作质量的主要依据，并且检查观测方式、仪器性能、自检结果、畸变量处理、二次场电位差等技术要求是否合理。

质检工作量占总工作量的3～5%，剖面性工作应大于10%。

检查方式遵循一同三不同原则，部分检查点要布置在异常地段，检查结果采用相对均方误差来评价。

其它技术要求按《DZ/T 0070-93时间域激发极化法技术规定》。

激电中梯和对称四极测深在广西某铅锌矿区的应用赵荣春;吕玉增;凌嘉宣;戴咸毅;吴玉玲【摘要】本文介绍了大功率激电中梯扫面和激电对称四极测深在广西某铅锌矿区的综合应用.在简要阐述矿区地质构造及地球物理特征的基础上,介绍了大功率激电在该矿区的工作方法与技术原理,绘制了激电ηs、ρs平面异常图,结合已知地质及钻孔资料对激电异常进行了推断解释.在测区平面上圈定了5个主要的高极化率异常区带,分别编号为M1、M2、M3、M4、M5,其中M1和M5钻探揭露少,仍是有利的找矿靶区;在7号线0～500m范围内探明一条自北往南向深部倾斜的低阻高极化异常带.这些异常对该矿区深入开展地质找矿工作提供了有利依据.【期刊名称】《工程地球物理学报》【年(卷),期】2016(013)003【总页数】6页(P271-276)【关键词】激电中梯;对称四极测深;视极化率;视电阻率;铅锌矿【作者】赵荣春;吕玉增;凌嘉宣;戴咸毅;吴玉玲【作者单位】桂林理工大学地球科学学院,广西桂林541006;桂林理工大学地球科学学院,广西桂林541006;桂林理工大学地球科学学院,广西桂林541006;桂林理工大学地球科学学院,广西桂林541006;桂林理工大学地球科学学院,广西桂林541006【正文语种】中文【中图分类】P631.3大功率激电方法是一种比较成熟的勘探方法，可以输出较大的电流，压制各种干扰信号提高信噪比，具有信号强而稳定、工作效率高以及反映异常特征明显等优点[1-3]。

它主要针对含硫化物矿床的金属矿体，特别是激电中梯方法，其最大优点是敷设一次供电导线和供电电极，能在相当大的面积上进行测量，且能用多台接收机同时在多条测线上进行观测。

由于该方法具有工作效率高，扫面速度快的特点而成为近年来电法工作中的主要方法，而且其极化率参数不受地形影响。

因此，在寻找以硫化物为主的矿床中，主要以激电中梯方法进行扫面工作[4-7]。

激电测深是指对于同一个测深点，极距从小到大进行多个极距的供电观测，小极距探测深度浅，主要反映浅部地电信息，大极距探测深度大，反映深部的地电信息，通过改变供电极距从而达到测深的目的，以获取地下不同深度上的地电信息[8-11]。