美国sensaphone远程环境监控系统

EMS系列环境监控系统解决方案目录一、前言 (3)1.1 编写说明 (3)1.2 目录结构 (5)二、EMS系列环境监控系统概述 (5)2.1 系统定义 (6)2.2 系统组成 (7)三、EMS系列环境监控系统功能 (8)3.1 数据采集与处理 (10)3.2 数据分析与展示 (10)3.3 告警与通知 (11)3.4 数据存储与管理 (13)四、EMS系列环境监控系统应用领域 (14)4.1 工业领域 (15)4.2 农业领域 (17)4.3 林业领域 (18)4.4 交通领域 (19)4.5 生态环境领域 (20)五、EMS系列环境监控系统选型指南 (22)5.1 产品选型原则 (22)5.2 产品特点分析 (23)5.3 适用场景选择 (25)六、EMS系列环境监控系统安装与调试 (26)6.1 安装步骤 (27)6.2 调试方法 (28)七、EMS系列环境监控系统操作与维护 (29)7.1 操作界面介绍 (29)7.2 常用操作说明 (31)7.3 系统维护要点 (32)八、EMS系列环境监控系统实例 (33)8.1 工业自动化监控案例 (35)8.2 农业环境监测案例 (36)8.3 生态环境监测案例 (37)九、技术支持与服务 (38)9.1 技术支持内容 (40)9.2 服务流程 (40)十、总结与展望 (42)10.1 系统优势总结 (42)10.2 发展趋势与展望 (44)一、前言随着社会的快速发展和科技的日新月异，环境问题日益凸显，对环境监控系统的需求也愈发迫切。

EMS系列环境监控系统解决方案应运而生，旨在为用户提供高效、稳定、可靠的环境监测与管理系统，帮助用户实现对环境参数的实时监控、数据分析和预警，从而确保环境安全，提升生态环境质量。

本解决方案结合了先进的环境监测技术、物联网技术和大数据分析技术，通过对各类环境参数的实时采集、传输、处理和分析，为用户提供全面、准确的环境信息。

整体机房施工方案一、机房工程设计概述数据中心基础设施的建设，很重要的一个环节就是计算机机房的建设。

计算机机房工程不仅集建筑、电气、安装、网络等多个专业技术于一体,更需要丰富的工程实施和管理经验.计算机房设计与施工的优劣直接关系到机房内计算机系统是否能稳定可靠地运行，是否能保证各类信息通讯畅通无阻。

由于计算机机房的环境必须满足计算机等各种微机电子设备和工作人员对温度、湿度、洁净度、电磁场强度、噪音干扰、安全保安、防漏、电源质量、振动、防雷和接地等的要求。

所以，一个合格的现代化计算机机房,应该是一个安全可靠、舒适实用、节能高效和具有可扩充性的机房.本机房方案施工项目包括：➢抗静电地板➢供配电工程➢KVM 系统➢防雷接地工程➢设备安装等五大部分。

根据国家标准及行业标准设计和施工。

机房工程设计原则数据机房是整个大楼的基础设施，数据机房的设计必须满足当前各项需求应用,又面向未来快速增长的发展需求，因此必须是高质量的、高安全可靠灵活的、开放的。

我们在进行设计时，遵循以下设计原则：1)实用性和先进性：采用先进成熟的技术和设备，满足当前的需求,兼顾未来的业务需求，尽可能采用最先进的技术、设备和材料，以适应高速的数据传输需要，使整个系统在一段时期内保持技术的先进性，并具有良好的发展潜力，以适应未来信息产业业务的发展和技术升级的需要。

2)安全可靠性：为保证各项业务应用，网络必须具有高可靠性,决不能出现单点故障。

要对数据中心机房布局、结构设计、设备选型、日常维护等各个方面进行高可靠性的设计和建设。

在关键设备采用硬件备份、冗余等可靠性技术的基础上，采用相关的软件技术提供较强的管理机制、控制手段和事故监控与安全保密等技术措施提高电脑机房的安全可靠性。

3)灵活性与可扩展性:数据机房必须具有良好的灵活性与可扩展性,能够根据今后业务不断深入发展的需要，扩大设备容量和提高用户数量和质量的功能。

具备支持多种网络传输、多种物理接口的能力，提供技术升级、设备更新的灵活性.4)标准化：在数据中心机房系统结构设计,基于国际标准和国家颁布的有关标准，包括各种建筑、机房设计标准，电力电气保障标准以及计算机局域网、广域网标准,坚持统一规范的原则，从而为未来的业务发展,设备增容奠定基础.5)经济性/投资保护：应以较高的性能价格比构建数据机房，使资金的产出投入比达到最大值。

方兴未艾的美军军事影像监控系统作者：田永忠来源：《航空世界》2013年第02期20世纪90年代，美军精确打击作战发生了重大变革，美国空军的全时情监视、侦察（ISR）成为联合作战的前提条件。

经过21世纪头10年的快速发展，美国空军情报、监视、侦察能力不断提高，并且面临着更大的作战需求。

预警机时代的喜与忧全时情报、监视、侦察是现代作战的关键环节。

冷战时期，苏联军事变革发展缓慢，美军即使用卫星间断的拍照或使用较老式的U-2侦察机就能很好完成跟踪监视任务。

今天，美军面临的威胁向小型化、多样化、灵活化发展，战区指挥官和各级战术指挥官需要持续不间断地监视特定地区甚至是某一个人。

海湾战争期间，还处在试验机阶段的E-8“联合星”预警机就已经参战，飞行出击49次，总计500飞行小时，多次指挥美军摧毁伊拉克地面部队：“伊拉克自由”行动第2周，一架E-8“联合星”预警机精确定位了伊拉克部队机动路线：美军在阿富汗战争中也频繁使用了E-8“联合星”预警机。

虽然伊拉克战争已经结束，阿富汗战争也接近尾声，但是美军对ISR的作战需求却在与日俱增。

ISR地位的快速上升要求美军必须加速现代化进程，确保未来ISR作战能力得到相应提升。

现代指挥决策往往是复杂而昂贵的。

2013财年，美国空军计划为ISR系统建设专项投资71亿美元，但是这些经费主要用途将不再是购买新装备，而是努力对ISR力量进行重组，应对潜在作战对手的反介入/区域拒止威胁。

美军已经将MQ-9“死神”（“捕食者”B）无人机的采购数量从48架下调至24架，2011年停产了MQ-1“捕食者”无人机。

为了节约军费，美国空军还把部分MC-12“自由”情报监视/侦察机移交空军预备役部队。

目前，美军ISR飞机上装满了大大小小的视频传感器，ISR飞机每天飞行1500小时，2/3是在采集视频信息，但是覆盖的却是战场空间非常小的区域。

然而，“捕食者”、“死神”无人机和MC-12系列在低威胁空域依然极具价值，美国空军正在着手升级这些平台的ISR传感器包，增加单架飞机一次监视的目标数量，全方位提高作战效能。

美军装备M21自动化学药剂报警器可部署到单兵中国网 时间： 2009-01-13 发表评论>>固定式洗消系统化学－生物防护隐蔽所今天的士兵已经装备了广泛的项目和系统以使其具备污染避免、污染防护、污染排除和迷盲的能力。

以下是这些项目和系统中有代表性的一些例子。

污染避免美国已经部署了许多种核探测和监视系统以辅助污染避免。

放射线探测、指示和计算装备家族已经部署到美军部队，以用结合了先进现代的电子技术的数字化装备更新30年前的技术。

辐射计为士兵和指挥官提供核辐射探测装备，允许他们有效地在核战场战斗和生存。

它同时也最小化了部队在执行诸如维和、核事故反应、放射性材料污染的车辆和装备的恢复等和平时期任务时暴露在核辐射下的危险。

AN/UDR-13辐射仪是一个结构紧凑的、手持式、口袋大小战术辐射计。

能测量和显示战场环境中微量和总的核累积剂量。

按钮式键盘可以进行模式选择、功能控制和剂量率及任务剂量声音和可视报警门限值的设定。

能自动唤醒的“睡眼”模式可以处长电池的使用时间。

液晶显示提供数据输出和警报模式信息。

作为老式IM－93/PP-1578和UDR-13辐射仪的替代者，它改进了敏捷剂量测量（包括中子、报警和比率测量）、反显显示和稳定读数与校准。

它不需要单独的充电器。

AN/VDR-2辐射仪从辐射微尘和放射性同位素探测核辐射，用于代替老式IM－174和AN/PDR－27，能够以手持式方式在车上或下车执行地面放射性调查。

该装置也能提供定量的放射性测量以帮助人员、装备和供给品的净化行动。

该辐射仪的组件包括IM－243辐射计仪表。

DT－616探针和一个用皮带捆扎的小袋。

成套工具在各式军用车辆内是通用工作台上的允许项目，辐射测量仪正可以安装在这上面。

该辐射仪包括一个能与装甲车内的车载核－生－化保护系统兼容的声音和/或视频报警信号，而且它还可以和车载电力系统和通信系统交互。

AN/PDR－75辐射仪测量敏感和残余的贮存在DT－236独立放射量测定器中从1厘戈瑞到100厘戈瑞的伽马射线和中子射线剂量。

PASOLINK NEO数字微波系统桂林NEC无线通信有限公司2007年PASOLINK NEO数字微波系统- i -目录缩略语表 (i)1. 介绍 (1)2. 特征 (3)2.1 先进的技术 (3)2.2 高系统增益 (3)2.3 安装简单快速 (3)2.4 频率调谐方便 (3)2.5 系统灵活 (3)2.6 维护简单 (3)2.7 勤务信道 (4)2.8 APS(自动保护切换)功能 (5)2.9 XPIC(交叉极化干扰消除器) (6)2.10 交叉连接(XC) (7)2.11 PASOLINK网络管理系统（PNMSj） (10)2.12 PASOLINK网络管理终端（PNMTj） (10)2.13 ODU安装的灵活性 (10)2.13.1 1＋0系统 (11)2.13.2 1＋1系统 (11)2.13.3 2＋0系统（双极化天线用于邻波道或同波道分配） (11)2.14 IDU配置的选择 (16)3. 框图与描述 (18)4. 网络管理系统 (22)4.1 简介 (22)4.2 特性 (23)4.2.1 通用平台 (23)4.2.2 友好的用户操作 (23)4.2.3 面向链路的管理&控制 (23)4.2.4 远程访问及控制 (23)4.2.5 事件日志 (23)4.2.6 告警管理 (24)4.2.7 ITU-T G.826 性能监视 (24)4.2.8 安全性 (24)4.2.9 SNMP 接口 (24)5. 性能参数 (25)5.1 概述 (25)5.2 基带接口 (26)5.2.1 数字信号接口(可替换) (26)PASOLINK NEO 数字微波系统- ii -5.2.2 局域网接口(10/100Base-T(X)) (26)5.2.3 局域网接口(GbE) (28)5.2.4 勤务信道(SC) (28)5.2.5 LCT(PNMT)接口 (28)5.2.6 PNMS 接口 (28)5.2.7 RF I/O 端口 (28)5.2.8 并行告警接口 (29)5.2.9 路旁接口 (29)5.2.10 接口卡菜单 (30)5.3 ODU (室外单元)和系统性能 (31)5.4 IDU (室内单元)和系统性能 (35)5.5 HYBRID (混合器/分路器) (40)5.5.1 指标 (40)5.5.2 物理尺寸 (41)5.5.3 安装向导 (42)5.6 10dB 耦合器 (43)5.6.1 指标 (43)5.6.2 物理尺寸 (44)5.7 OMT(直接安装变换器) (45)5.7.1 特性 (45)5.7.2 指标 (46)5.7.3 物理尺寸 (46)5.8 PASOLINK 天线 (47)5.8.1 天线配置 (47)5.8.2 直接安装天线菜单及性能 (47)5.9 PASOLINK MONITOR (48)PASOLINK NEO数字微波系统- i -缩略语表ACK 告警确认AGC 自动增益控制A/D 模拟-数字转换AIS 告警指示信号APC 自动相位控制APS 自动保护切换ALM 告警AMP 放大器ASC 模拟勤务信道ATPC 自动发信功率控制ATT 衰耗器AUX 辅助B/U 双/单变换BBE 背景误码块BER 比特差错率BNC 卡式连接头BR 分路器CBL 电缆CKT 电路C/N 载噪比COMP 比较器CONV 转换器CRC 循环冗余校验CTRL 控制D/A 数字-模拟转换DEM 解调器DEMUX 解复用DET 检波器DIG 数字DPU 数字处理单元DSC 数字勤务信道DTE 数据终端设备DXC 数字交叉连接EMC 电磁兼容EOW 工程公务电话EQL 均衡器ES 差错秒ETHERNET 以太网(符合IEEE802.3) ETSI 欧洲电信标准委员会F/B 前背比FEC 前向纠错FIL 滤波器FREQ 频率GbE 千兆以太网HDB 高密度双极性码HIC 混合式集成电路HYB 混合器IEC 国际电工技术委员会I/O 输入/输出IDU 室内单元IF 中频INTFC 接口ITU 国际电信联盟ITU-R ITU-无线通信委员会ITU-T ITU-电信标准化分会LAN 局域网PASOLINK NEO 数字微波系统- ii -LED发光二极管 LNA低噪声放大器 LOS信号丢失 LOF帧失步 MAINT维护 MIC微波集成电路 MIX混频器、变频器 MMIC单块微波集成电路 MOD,MD调制器 MODEM调制解调器 MPU微处理器单元 MPX复用器 MSP复用段保护 MTBF平均无故障时间 MTPC手动发信功率控制 MUX复用器 NE网元 NMS网络管理系统 ODU室外单元 OFS帧失步秒 OMT直接安装变换器 OPR运行、操作 OS操作系统 OW公务 PABX专用自动交换机 PBX专用交换机 PC个人电脑 PCM脉冲编码调制 PNMSjPASOLINK 网络管理系统Java 版 PNMT PASOLINK 网络管理终端Java 版 ppm 百万分之一 PPP 点对点协议 PS 电源 PSU 电源单元 PSK 相移键控 PWR 功率 QPSK 正交相移键控 QAM 正交幅度调制 RF 射频 RMT 远程 RS 里德-所罗门编码 RSL 接收电平 RX 接收机 SC 勤务信道 SD 空间分集 SEL 选择器 SMA 超小型元件A-型 SNMP 简单网络管理协议 SV 监视 SYNC 同步 TX 发信机 U/B 单/双变换 UAS 不可用秒 VF 音频 VLAN 虚拟局域网 VSWR 驻波比 WS 路旁 XPD 交叉极化鉴别度 XPIC 交叉极化干扰消除器PASOLINK NEO 数字微波系统- 1 - 1. 介绍为了提供可靠的数字微波接入中继线和开发有较大潜力的先进的端对端网络，NEC 研制出了PASOLINK NEO,一种窄带点对点数字微波中继系统，它可在6/7/8/10/11/13/15/18/23/26/28/32/38/52GHz 的无线频带（RF ）内工作。

Sensor Environmental Monitoring in Remote ZonesBy John SonnenbergRaveon Technologies CorpOverviewRaveon’s R emote A utonomous Z one N ode (RAZN) can connect up to many sensors for Sensor Environmental Monitoring (SEM ) in remote areas. The integrated long-range wireless linkcommunicates over many miles so sensors can monitored, calibrated, and trigger alerts to save many things.Boats, Greenhouses, Forests, and many places could be monitored.Save boats from sinking or being stolen, ensure farms grow all plants, and spot fires in forests to save valuable resources. Here is a list of the sensors that this Environmental Monitoring System works with that can trigger alerts, alarms, operate valves, control pumps, or show you current status.List of Sensor Types this SEM can monitor:∙Water level sensors∙Spot-Fire∙ Carbon monoxide∙ Methane∙Temperature∙ Power/Voltage ∙ Angle position of the device, and detect changes in angle∙ In-ground water sensors or humidity ∙ Vibration sensorSave BOATSA SEM system can prevent sinking by instantly alerting the ship crew members and boat owners ifleakage occurs, the power fails, batteries fail, temperature rises unsafely high, heavy vibration occurs, the boat shifts over or falls over, and the boat is stolen by taking away.Save Farms or GreenhousesA SEM system can stop plants from dying. It can make sure timely watering happens. If water is in the ground. Water is not too heavy/full that will kill a plant. Monitor temperature in the area, spot snow, and letyou know the temperature and humidity to properly control your irrigation and frost tolerance.Technical Brief AN251 Rev A1Save Woods and ForestsA SEM system with a Spot-Fire sensor can remotely spot a fire and quickly report it to local organizations or fire departments. The RAZN can also autonomously trigger local Fire alarm lights, sirens, and turn things on to help stop the fire, such as irrigation, water valves, pumps, and turn AC power off.How does this Sensor Environmental Monitoring SEM Work:Along with sensor monitoring, other features here will make this Sensor Environmental Monitoring (SEM) work very safe and reduce the probability of the risk happening. These extra features make this system work remotely.List of additional features this RAZN SEM has:∙ Real Time Clock (RTC) ∙ RTC battery backed up. ∙ Up to 18 IO interfaces. ∙ Ultra-high-resolution ADCs ∙Ethernet Interface for networks∙ RS-485 interfaces and mesh multiple SEMs ∙ Long-range wireless data modems built-in.∙ Autonomous features to do whatever you want. ∙Calibrate the sensors to output formats as desired.Using Great Sensors to Monitor your Environment, and keep it safe.There are many great sensors that will work with Raveon’s wireless data links and the Remote Autonomous Zone Nodes (RAZNs) so this SEM can keep your system as safe as you want. Spot-FireA fire spotting sensor is optimized to detect even small flames from early stage fires. The RAZN’s flexible digital IO can monitor this and wirelessly connect it remotely to other master controllers. There are sensors for monitoring low levels of carbon monoxide to detect fire. Temperature SensorsThere are so many ways to measure temperature. Internally, the RAZN has 3 IC chips with temp sensors. The ADS terminal inputs can measure any type of sensor: Thermistor, Thermocouples, Infrared sensors, Silicon Diode, RTD. For reliable long-range, connect a sensor to a Multi-Range Temperature sensor transmitter to pass the signal to the RAZN or to Raveon’s GPIO data radios.Carbon Monoxide or MethaneGas detectors can detect and quantify industrial and environmental gases likeCarbon Monoxide, Carbon Dioxide, and Methane. This vital role ensures the safetyand efficiency of a wide variety of processes and applications. Carbon dioxide is anenergetic molecule which diffuses quickly throughout an area. Many different typesof sensors can be connected to the RAZN to monitor Industrial, Commercial, or Hazardous areas.Power/VoltageThe ADS terminal input measures the “differential” voltage input. For AC power, you could add a diode and resistor to measure it, For Large Voltages, add a large resistor in series to the inputs, so you can measure even thousands of volts. Add capacitors, resistors, and diodes to measure AC power.Angle of the DeviceInside the RAZN is an accelerometer to measure X, Y, Z angles andvibration. The RAZN on a boat or anything can monitor and alert based anyor all of the X, Y, Z angle level changes. If it tips over to the side, the X cantrigger. If front goes up or down, the Y will trigger, and if it just moves up ordown, the Z will trigger.Vibration SensorThe same accelerometer can monitor and measure vibration rates, so if the RAZN is vibrating, the sy stem can monitor it and be alerted. A boat (ship, car, truck, bicycle, person…) that is moving does vibrate and the RAZN will detect it is moving. And if it vibrates much too large, a large alert can take place.Gas SensorTo detect many different gas types, a gas sensor can worn you remotely with abeeper or flash a light, or turn on other safety equipment autonomously, or haveyour master software controller recognize the gas.Calibrate the SensorsThe smart CPU in the RAZN has lots of math for calibration processes. Commands or SCADA messages can specify the math or execute calibration functions for the analog inputs. The 24 bit can be converted to any other size. Inside the RAZN are registers holding the calibrated input values in whatever range you want. The Master controller can tell the RAZN what the input level is, and the RAZN will setup the input math to ensure the current calibrated input is read correctly.Oxygen SensorMonitor oxygen to protect buildings and occupants from injury due to oxygendeficiency or excess. In remote areas of mines, ships, tunnels, vaults, sewers, ortanks, monitoring oxygen over long-range areas can protect people and theseareas. The Master can monitor remotely and the RAZN can autonomously dosomething, such as (beep a siren or open a door) to help save loves.Sensor input terminals on the RAZN monitor the perfect sensors for the system. Thermocouple SensorsThermocouples cover a wide temperature range,are self-powered, and have a fast response time.Their simple construction make them inexpensiveand durable. A thermocouple consists of two wiresof dissimilar metals joined together at the end. Thedelta-sigma analog-to-digital converters (ADCs)are 34 bit ultra-high resolution ADCs, ideal data converters for measuring, monitoring, andreporting thermocouples and analog sensors.A programmable Gain Amplifier (PGA) is also within the RAZN, so gain can be from 0.125 to 128.Large gain for small signals, or low gain for large signals, is configurable. Most Thermocouples types have low output so high gain PGA are correct for this type of sensor.Temperature SensorsInternal to the RAZN is a local temperature sensor, and theAnalog Delta-Sigma Differential ADS input can measuremost any type of temp sensor. 4-20mA, 0-5mA, -5 to +5V, -1V to +1V, or almost any other type of sensor can bemeasured. A resistor that changes by temperature can bemeasured, and the RAZN will convert measured inputs to temperature and report the temperature. FIOP Flexible Digital Input / Output with Pullup option.IOPIN: A(In) B(Out) is the character used to specify the IO mode.User configurable TTL digital IO pins configurable as In or Out.Max DC input Voltage: Vcc“ON” DC input voltage Range: (0.8 × Vcc) to Vcc“OFF” DC input voltage Range: 0V – (0.12 × Vcc)Input Current: <2uACAP: 220pF Res: 1K Diodes for ESD protection.Default IO mode from factory: A (digital Input).100K pull up resistor R(PU) can be enabled by CPU.AI Analog Input. Voltage Input or 4-20mA current InputIOPIN: E (Volt) or F (Current) is the character to use to specify this type of GPIOInput Configuration. That MOSFET turns on R2 to measure 4-20mA.E: Input impedance: 10K-15KF: Input Impedance: 120 ohmA to D resolution: 12 bitInput Sampling Time: 50mS - 2S configurable.Smoothing: Selectable averaging: 1-8 samples.Maximum Input voltage: 5V, R1 can be changed.Internal Technology FeaturesAll these Technologies are working on RAZN Prototypes. For more details, see the user manual or our web page: https:///remote-zone-nodes/RTC Real Time clock with internal back-up battery that keeps clock accurate for months without power input.ACCL Accelerometer chip to read X, Y, and Z angles of the RAZN. It also can monitor vibration.EEPROM To store permanently information settings and information. It could be used to store historical data.TEMP Temperature sensor in the enclosure, but near the box so close to the outside temperature.LPM Low Power mode. We can run the system at much lower DC power consumption, with periodic things to do.MODBUS The RAZN can process and send MODBUS TCP and RTU messages.MIMIC MIMIC mode is like our Radio Modem MIMIC mode. One master RAZN sends its inputs to a slave RAZN that outputs the same modes, and then responds back to themaster MIMIC device so the master can display that actual slave status.MESH Nets. For Daisy Chaining or Mesh Networking many RAZNs together, every RAZN monitors messages and can route them appropriately to: wireless, Ethernet, or wired interfaces.Messages can be multiple-meshed over many different RAZNs in the system to MeshNetworks over large areas.IO Boards The Input/Ouput interface boards can plug into the main motherboard. The interface is generic, flexible, and hardware detectable so the CPU can run based on the type ofboard plugged in.Remote Autonomous Zone Node (RAZN) Sensor Monitoring Use Raveon’s RAZN to remotely monitor temperature. O ver a large areas, do whatever you want based on temperature monitored via this long range communication technology the RAZN has.In remote areas, the RV-N55-7 RAZN can accurately monitor sensors with the ultra-high precision Analog to Digital Converter is has within it. The ADS input terminals are analog differential inputs to measure the different voltage or current between two input pints.Using Raveon’s Daisy Radios for daisychaining your network or your system,the RAZN can work across many milesDaisy chaining RAZN together can alsomonitor things remotely and then sendmessages to other remote areas tocontrol what you need.RAZN can autonomously use the ADSinformation to remotely control things,and report temperatures into remotecomputers, Master controllers, IoTservers, or simple to a graphical display. Many different versions of the RAZN have analog inputs, and the RV-N55-7 version has the ultra-high resolution ADC in it that is the ideal device to monitor a Thermocouple Sensor.Here is an overview of the RV-N55-7 RAZN Input and Output Terminals with many IO features. The ADS terminals IO# 3 and IO# 4 are perfect for analog Sensor monitoring.RV-N55-7 8 FIO and 2 high-res Differential ADCsThe RV-N55-7 has 2 Ultra-High Resolution ADC inputs, 8 Flexable digital IO terminals, and one Relay Driver ouput to drive a realay or electronics device On or Off.The RV-N55-7 interface terminal connector pin-outs are as follows:Terminal A Analog Inputs, Relay Driver, and voltages.Terminal B Configurable FIO pins: 8Pin # is the Terminal Port Pin Number. IO# is the software reference and register code for this port.ADCG x gg command sets the Programmable Gain Amplitude (PGA). Index for input terminal number IO# is x to set gg as the gain value.The ADS inputs are a signed 24 bit register for high resolution ADC. 223 = 8,288,608 so with 8 million bit resolution this has the highest resolution ADC in the world. The ADC data is stored in SCADA registers 6040-6055 for IO terminals IO#0 – IO# 15.Commands GVOLT x can read the voltage in IO terminal x.Command TEMC X can read the calculated Celsius Temperature of the thermocouple connected to RAZN terminal IO# X.Command TEMF X can read the calculated Fahrenheit Temperature of the thermocouple connected to RAZN terminal IO# X.RAZN IO Boards (Raveon has created many IO option boards for the RAZN) Internally, every RAZN has a CPU board on it, and an IO board. There are many different IO boards Raveon has created for many different industries and input/output features. Each IO board has a detection interface, and is plugged into the CPU board. IO board are detected by the CPU board, so when an IO board is plugged into it, the CPU knows how to talk to it and what IO features it has.The dash after their RV-N55 part number is a number specific to the internal IO board. Here is a list of the IO boards, their IO architecture and board numbers.RV-N55-2 (5A510)8 SV DC&AC power output switches to control things.8 GPIORV-N55-3 (5A515)8 SV DC&AC power terminals8 BM switch inputs terminals for 8 buttons.8 status LEDs on top show the status of this devices SV outputs,Ethernet Interface.RV-N55-5 (5A511)8 LI LED optically isolated digital inputs.4 AI Analog Inputs.RV-N55-7 (5A517)8 FIO input terminals for 8 button inputs.2 ADS Differential Analog Inputs.1 RD MOSFET relay driver.RV-N55-8 (5A512)16 GPIO input terminals for 8 button inputs.4 AI Analog Inputs1 RD MOSFET relay driver.RV-N55-6 (5A513) 4 AI 12 bit ADC.8 OIDI optically isolated digital inputs, 3000V isolation.1 RD MOSFET relay driver.Each of the IO board versions (5Axxx) above have many sub-version with some IOs included, and some turned off, and some setup differently in pre-set ways. After the dash number, there is a character related to the version. A,B,C,D,E,F,G… are used after the num ber. If your industry would ever like an IO board with different features, Raveon can easily make it for you with every feature would like, and it will work with all RAZN features, communication, and Raveon data radio modems. SEM systems with RAZN RTU meshed over to many more low-cost RAZN RTUs up to 20 extraSCADA Server is the Master Controller.Masters Connects directly to RadioModem serial port. RAZN RTU has built-in long-range Radio Modem. The RS485RAZNs meshed to the Main RAZN, andare low cost because they have no RFand no Ethernet.SEM systems with RAZNs in remote areas are wireless connected up to thousands.And in remote areas, it is often better to not use wiresbetween the sensors.Using long-range private Data Radios, the system cancommunicate between all RAZNs using RF links. ThisSEM system can wirelessly monitor thousands of sensorswith monitoring software on a Network connected to themaster data radio. Raveon’s RV-N29 Hub, or RV-M21and RV-M22 data radio modems can be used to connectyour network to thousands of sensors connected to manyRAZNs.Ways to Monitor Sensors with a RAZNTraditional SCADA Method Monitoring1. Query the input voltage with a MODBUS message from a Master controller.2. Query the input voltage with a MODBUS message from a PLC.3. Program the Logic in the RAZN to control outputs based on temperature sensors.4. Communicate via: RS-485, Ethernet, or long-range Wireless data radio built in the RAZN. Innovative RAZN Technologies for Monitoring Sensors1. Wide variety of communication interface options and Long Range wireless features.2. Autonomous actions to make your system safe and reliable with no communications.3. Locally trigger outputs based on temperature measured.4. Locally trigger outputs based on temperature measure and combination of:a. sensor levels (As you want),b. The time and date(as you want),c. Local inputs from buttons, other sensors, temperature, and input status.d. RAZN monitored input events (# on, # off, pulse rate, Time ON, time OFF,…)5. Remotely trigger outputs by a RAZNa. From a RAZN monitor locally and communicates wirelessly to remote RAZNs.b. Use the RS-485c. The outputs triggered from temperature can be many different kinds of outputs.d. Many different RAZN models have many IO features. See the list of RAZNs. Communication Methods to and from RAZNsEthernet Connect an Ethernet Cable or Wi-Fi adaptor to the RAZN’s 10/100mbps Ethernet connector. This is a Terminal Server with 1-3 TCP/IP ports for 1-3 simultaneous client connections. RS-485 Serial Connect an RS-485 serial cable to a RAZN or dozens of RAZNs that share this differential serial communications port connection.Narrow Band RF T he RAZN can have Raveon’s RV-M6, or RV-M8 data radio modem installed inside for ultra long range RF data 1-50 miles in VHF or UHF RF bands.LoRa RF The RAZN can have Raveon’s RV-M50 LoRa data radio modem installed inside for long range license-free RF data 1-10 miles.RS-232 Serial Connect an RS232 serial cable to a RAZN. This is an optional feature on all versions of the RV-N55 RAZN.Wi-Fi The Ethernet connection can connect to a Wi-Fi modem to use Wi-Fi.Monitoring and Control SystemsSEM can be monitored and controlled with Master Controller software. Monitoring is done by sending messages to the RAZN to query the sensors. Each sensor is assigned to registers that contain their voltage, current, and temperature calculations. TheRAZN can be setup to autonomously remoteregister values.Real-Time monitoring and controlling can be donewith compatible Windows software applications.The Millennia-FT software from Rel-Tek is areliable tool to view the alarm events, sensor data,and backup your data.Look at Rel-Tek’s website to see thismonitoring software.A PC Master Controller can do remote viewing ofyour stations. While monitoring, the PC can showyou all status information of the sensors connectedto the system. Any number of sensors can be seenand you can touch the PC to view the data. On thePC, setup your alarm thresholds, and the PC cansend our messages or trigger remote alarms. An alarm can be a light, siren, text messages, or whatever you want. And these alarms can also be wirelessly be sent out to remote areas.Data Radio Modems with GPIO InterfacesRaveon’s Tech Series enclosures incorporate all versions of ourdata radio modems, and they have a myriad of IO terminalsavailable on their front panel.∙RS-232 [ S ] 5A835∙USB [ U ] 5A837∙RS-485 [ T ] 5A836-1∙RS-422 [ F ] 5A836-2∙GPIO [ G ] 5A833∙Analog [ A ] 5A838∙FIO [ D ] 5A832These are ideal for Environmental Monitoring in Remote Zones because they have the right serial interface for all RTUs and PLCs. And the GPIO and FIO interfaces are IO terminals with serial ports. The GPIO interface front panel with the 5-pin terminal as ideal for Monitoring sensors. It has 3 input pins to measure voltage or 4-20mA currents. Users can setup the GPIO the way they need IO pins to work. IOs can be configured as: A:Digital TTL Input, C:Open Drain MOSFET output, D:DC Power switch output. E:Analog Input Monitoring.The RV-M22 miniature Radio Modem is a rugged, modular data radio modem available in 902-928 MHz and 868 MHz license free bands, as well as the FCC USA license free MURS bands, VHF and UHF bands. Raveon’s RV-M21 large Tech Series enclosure uses higher-power RF radio modems.Copyright, Notices, and TrademarksModbus is a registered trademark of MODICON, Inc.Daisy Radio is a registered trademark of Raveon Technologies.Millennia-FT is a trademark of Rel-Tek corporation. Rel-Tek is a trademark of Rel-Tek corporation.Thanks for Looking Into this great TechnologyAll this RAZN technology was designed and manufactured here in America by Raveon. Most of these sensors and software mentioned herein were also made in America.Raveon also teams up with Sensor companies and Software solution suppliers, so if you need a perfect solution to for Environmental Monitoring Sensors, we want to work with you and our partners to make the perfect reliable systems.Raveon Technologies Corporation Array 2320 Cousteau CourtVista, CA 92081********************760-444-599511。

概述随着计算机及网络设备的普及化，计算机及网络系统对企业的重要性愈来愈高，其配套的环境设备也日益增多。

因此，机房的管理及监控是现代计算机及网络通信机房非常重要的一个环节。

IMS-1000是专为现代计算机及网络通信机房而设计的环境及网络监控报警系统。

IMS-1000 除可监视机房内的环境参数外，更可监控网络上的IP 设备。

它可通过多种不同的通信方式发送报警信息。

而且IMS-1000 已结合了网页服务器及电邮服务器的功能，用户可方便地在互联网或通过电子邮件得到机房的信息。

环境监控IMS-1000可监控机房的各项环境参数，包括温度、湿度、烟雾报警、声音、漏水、门禁、红外线感应、电源及其它设备，如空调、UPS 的报警等。

IMS-1000更细微到检测机柜内、服务器、散热器或特定设备的温度，比监控空调设备或房间温度更准确。

IP 网络设备监控IMS-1000可监控网络上的IP 设备，定时检查IP 设备的状态。

若该设备没有回应，马上发出报警。

IMS-1000可监控包括路由器、服务器、打印机等所有带有IP 地址的网络设备。

报警信息当环境参数超出设定的报警范围或网络设备发生故障， IMS-1000马上按照指定的程序及通信方式，向指定的人员名单轮流发放报警信息，直至信息被确认。

报警方式有：z 电话 z 传真 z 电邮z SNMP 信息等被通知人员名单可由用户设定先后次序，值班时间及假期等。

巡查机房功能无论您身在何地，都可随时通过多种不同方式得悉机房的状况。

您可通过拨号方式进入 IMS-1000系统，也可在互联网上浏览它的网页；或向 IMS-1000发出电邮，IMS-1000会自动以电邮回复；若您身边没有计算机，您也可通过电话， IMS-1000会直接以语音方式告诉您机房的状况。

巡查方式有：z 电话z 双向电子邮件 z 网页/WAP z 远程接入 z IMS-1000 ConsoleView 等施工安装简单、方便IMS-1000主机与传感器通过标准的五类线连接，端口为RJ-45,方便地利用已有的结构化布线，无需重复布线，方便施工。

监测方案四篇监测方案篇1×公司是网络遍布全球的专业服务机构，设有由优秀专业人员组成的行业专责团队，致力提供审计、税务和咨询等专业服务。

×公司的成员机构遍及全球148个国家，拥有超過113,000名员工，详见最后介绍。

对于×公司这样的跨国公司来说，管理机房环境与网络参数是一项艰巨的任务，于是使用了Sensaphone IMS-4000专业远程环境与网络监控系统。

美国Sensaphone公司是机房环境监控领域的著名国际厂商，凭借其卓越产品：Sensaphone――集成式远程的（即无人值守的）环境与网络监控报警系统，以其绝对的性价比优势以及可靠的质量赢得了全球众多固定用户的支持与信赖，其产品适用范围广阔，可对各种行业生产或操作流程中的环境温度、湿度、泄漏、储存/冷藏系统、有害气体、电力系统、通信设施、消防安保、网络设备等各项重要环节实施无人远程监控与预警。

Sensaphone是一家专业设计/制造卓越远程环境监控系统的公司。

无论何时何地，该系统都能为用户实时报告急需/重要的数据。

二十年之前，我们创新地开发了第一代产品，极大地满足工业/企业市场的需要，填补了市场的空白。

那时，工业/企业界都需要一种无人现场值守系统，它可在不同条件下监测并报告环境的重大变动，而我们第一代产品完全符合了此需要，它可把关键信息快速而准确地报告给相关人员。

IMS-4000是专为现代计算机及网络通信机房而设计的环境及网络监控报警系统。

IMS-4000 除可监视机房内的环境参数外，更可监控网络上的IP设备。

它可通过多种不同的通信方式发送报警信息。

而且IMS-4000 已结合了网页服务器及电邮服务器的功能，用户可方便地在互联网或通过电子邮件得到机房的信息。

×公司通过IMS-4000实现对机房温度、湿度、烟雾、噪音、漏水、门禁、安全、电源及空调、UPS故障报警等。

同时，还可监控网络上的IP设备，定时检查IP设备的状态，包括路由器、服务器、打印机等带有IP地址网络设备。