赫兹曼控制器 说明书v1_2

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Honeywell说明书,通讯00B版doc

Honeywell说明书,通讯00B版doc

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DC1030 系列接线图
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DC1040 系列接线图
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操作说明
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5.
输入
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若客户没有指定输入类型,出厂值预设为 “K2” 其他任意电压电流范围,请来电咨询。
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6.
警报作用
备注: Hold-ON 代表的意思是第一次不报警 .
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Honeywell
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DC1010 系列接线图
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DC1020 系列接线图
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◆ 当SET8.3=1(程序运行时,从“PV”开 始 ) , 即 PV热启动,程序自动扣除运行段的时 间,剩余时间会显示在参数“TIMER”上 ◆ 请非专业人员勿修改“LEVEL 4”层参数, ,否则可能造成控制器内部错误。
4.5
PROGRAM
(用于可编程控制器) LEVEL LEVEL(

赫斯曼交换机操作手册

赫斯曼交换机操作手册

赫斯曼交换机操作手册本网络系统包含一台万兆以太网交换机(MACH 4002)作为核心交换机,两台模块化交换机(MS4128)作为次级交换机。

网络系统要求划分为两个VLAN,两个VLAN之间需要通讯。

1、 Vlan配置核心交换机(MACH 4002)的管理地址分别为。

两台次级交换机(MS 4128)的管理地址分别为,。

第一步:连接好所有设备,不考虑Port口位置。

第二步:VLAN规划本网络划分了两个VLAN,第一个名称为VLAN1,第二个名称为VLAN2,还有一个默认VLAN,名称为Defult。

Port口详细划分如下:MACH4002:VLAN1 Port口:~, ~VLAN2 Port口:~上联Port口:,,,管理Port口:,MS4128:(两台配置一样)VLAN1 Port口:~,~,~,~VLAN2 Port口:无上联Port口:,,,第三步:划分VLAN使用HiDiscovery扫描到网络内所有的交换机设备,对交换机的管理地址进行设置。

使用HiVision,在Configration-Preference中添加交换机管理地址的扫描网段,可以扫描到网络内的所有交换机如图:单击Vlan-Manager选项卡,选择Agent list,如图:选择Discovered devices中的所有设备并单击添加按钮将它们添加到Participating agents 中,并点击OK按钮,如图:选择“Edit”下拉菜单中的“Groups”,空白处右击选择“New”,在“Name”中输Vlan名称“Vlan1”,单击“Members”选项卡,选中需要添加的Port口,点击OK,如图:按照相同的步骤,创建第二个VLAN,名称为VLAN2,添加相应的Port口,点击OK。

第四步:设置级联端口选择“Edit”中的“Vlan Ports”,选中某个Prot口,右击选择“Edit”或双击,单击“Role”选项卡,选择“Up Link(No GVRP)”,点击OK.如图:配置好后点击保存,将配置文件保存在电脑上,方便以后调出进行修改。

SRL-610X、B 产品使用说明 书_V2.00-131122-R1(新版232通讯)

SRL-610X、B 产品使用说明 书_V2.00-131122-R1(新版232通讯)

修改日期 20120730 20130509 20130925 20131122
l 本说明书和产品今后可能会有小的改动,请注意核对实际产品与说明书的版本是否相符。 l 技术支持: 电话:(0757)29991638 传真:(0757)29991639 l 2012 年 06 月 第 1 版 第 1 次印刷
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SRL-RELAYS
SRL-610X/B 配电保护测控装置产品使用说明书
第一篇 技术说明
1 概述
1.1 应用范围
SRL-610X/B 配电保护测控装置是赫兹曼电力(广东)有限公司基于新一代可编程技术研发, 为 10kV 配电系统市场客户提供的电力综合自动化产品。该系列产品具有高可靠性、通用性、经济性、 先进性和灵活性等特点。可实现 10kV 配电所、开关站、厂用变电所、环网柜等的配电线路、配电变 压器等的保护及测控。
重要提示
感谢您选用赫兹曼电力(广东)有限公司的产品。为了安全、正确、 高效地使用本装置,并请您务必注意以下重要提示: « 请仔细阅读本说明书,并按照说明书的规定调整、测试和操作。 « 为防止装置损坏,严禁带电插拔装置各插件,严禁触摸电路板上的芯
片和器件。 « 请使用合格的测试仪器和设备对装置进行试验和检测。 « 装置如出现异常或需维修,请及时与本公司服务热线联系。 « 调试密码:出厂初始设置为 8100,供现场的技术管理人员,如继保人
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4.3 输入接点检查.................................................................30 4.4 输出接点检查.................................................................30 4.5 装置整组试验.................................................................30 5 运输、贮存 ..................................................................32 6 附录 ........................................................................33 6.1 面板布置.....................................................................33 6.2 装置安装.....................................................................33 6.3 SRL-610X 保护整定计算 ........................................................34 6.4 SRL-610B 保护整定计算 ........................................................38 6.5 保护定值整定单...............................................................42

德国海因茨曼速度控制器操作说明

德国海因茨曼速度控制器操作说明

德国海因茨曼速度控制器操作说明德国海因茨曼速度控制器操作说明1、引言1.1 目的1.2 适用范围1.3 定义和缩写2、产品概述2.1 产品描述2.2 技术参数2.3 主要特点3、安全指南3.1 安全警告3.2 安装环境3.3 安全操作规范4、设备安装4.1 硬件安装4.1.1 工具准备4.1.2 安装步骤4.2 电气连接4.2.1 电路图4.2.2 连接步骤5、软件设置5.1 驱动程序安装5.2 参数设置5.2.1 变频机构设置 5.2.2 控制器参数设置5.3 运行测试6、操作说明6.1 启动和停止控制器6.2 设置速度6.3 调整加速度和减速度6.4 转向控制7、故障诊断和维修7.1 故障代码解析7.2 常见故障及解决方法7.3 维修注意事项8、计划维护8.1 定期检查8.2 维护记录9、附件9.1 使用手册9.2 产品图片9.3 电路图10、法律名词及注释- 法律名词1:解释说明 - 法律名词2:解释说明附.1 使用手册附.2 产品图片附.3 电路图附注:1、本文所涉及的法律名词及注释仅作参考,具体解释以实际法律条文为准。

2、本文涉及的附件如有更新,可在公司官网最新版本。

3、如有疑问或需要进一步说明,请联系海因茨曼公司客服部门。

该文档为德国海因茨曼速度控制器操作说明,详细说明了产品的概述、安装、设置、操作、故障诊断和维修等内容。

同时,附有使用手册、产品图片和电路图等附件供参考。

附注:1、本文涉及的法律名词及注释仅作参考,具体解释以实际法律条文为准。

2、本文涉及的附件如有更新,可在公司官网最新版本。

Hirschmann交换机配置手册

Hirschmann交换机配置手册

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百通网赫思曼络系统国际贸易 (上海) 有限公司
1.准备
1.1 硬件准备 在对网络系统进行配置前,必须先对系统的硬件配置进行相应的检查。 必须保证所有的交换机均正常上电,并成功启动,所有交换机均可 以正常通信 在进行环网配置前,必须保证每个环网为线型链路 具有一台配置电脑以及至少一台的测试电脑
<操作界面>
<桌面图标>
PuTTY(在 Manual CD 中的 Freeware 文件夹) 支持 telnet、 rlogin 和 ssh 的客户端软件, 用于 CLI 命令配置, 操作简易。
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百通网赫思曼络系统国际贸易 (上海) 有限公司
赫思曼交换机配置手册
百通网赫思曼络系统国际贸易 (上海) 有限公司
目录Biblioteka 1.准备 ..................................................................................................................................... 3 1.1 硬件准备 ............................................................................................................................ 3 1.2 软件准备 ............................................................................................................................ 3 2.配置 ..................................................................................................................................... 7 2.1 初始化设置 ....................................................................................................................... 7 2.2 Basic Settings基本配置 ............................................................................................. 10 2.3 Time对时功能 ................................................................................................................. 14 2.4 Switching交换功能 ....................................................................................................... 17 2.5 Redundancy 冗余设置 ................................................................................................... 21 2.6 Diagnostics 诊断 ......................................................................................................... 24 2.7 Help 帮助 ....................................................................................................................... 29 3 常见网络故障原因及应对方法 ....................................................................................... 30

赫斯曼交换机配置配置HIPER-Ring(更新)

赫斯曼交换机配置配置HIPER-Ring(更新)

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Thank You End of Presentation
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在MACH3000和MACH4000系列中,作为环端口的Port1必须在第一个基板上,即在交换 机最底层的那个基板上.
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HIPER-Ring
通过硬件RM开关设置HIPER-Ring 通过硬件RM开关设置HIPERRM开关设置HIPER
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HIPER-Ring
第一步: 第一步:
按照网络拓扑结构连接设备,其中RS20为冗余管理器,将硬件RM开关置于1.
保存交换机的当前配置到本机中
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HIPER-Ring
第六步: 第六步:
以上步骤已经将Hiper-Ring配置完毕, 此时MS20(冗余管理器)的RM指示灯为 黄色,说明环网断开,冗余链路激活.
将MACH-3001和MS20(192.168.1.22) 连接起来,此时环网中无断点, MS20 (冗余管理器)的RM指示灯为绿色,说 明冗余链路在工作中,待被激活. 如图:
关闭RSTP
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HIPER-Ring
在MACH3001中,点击左侧的Switching→Rapid Spanning Tree→Global, 选择OFF并单击Set,如图:
关闭RSTP
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HIPER-ห้องสมุดไป่ตู้ing
第四步: 第四步:
由于已经将MS20(192.168.1.22)硬件Ring Ports开关置于0,所以环端口为模块1的Port1 和Port2,另外其硬件RM开关为0,所以需要通过软件开启RM.点击左侧的Redundancy→ HIPER-Ring,选择Redundancy Manager中的On.如图:
冗余链路为Active 冗余链路为Active 说明环网中某条链路失效 冗余链路开始工作

Bachmann控制器使用说明书模板

Bachmann控制器使用说明书模板

目录一. 概述 (2)二. 硬件模块介绍 (3)1.1CPU模块 (3)1.2电源模块 (4)1.3FM211 (5)1.4 CM202 (6)1.5 RS204 (6)1.6 AIO288 (7)1.7DIO248/280 (11)1.8 PTAI216 (13)1.8CNT204 (16)1.10 FS211/N (17)1.11 DI232 (18)1.12 DIO216 (20)三. 控制器的启动 (22)2.1 启动参数 (22)2.2 启动步骤 (24)四. SolutionCenter编程环境介绍 (31)4.1 Device Manager (31)Bachmann 控制器使用说明书一. 概述巴赫曼控制器是一个来自奥地利的工业自动化控制设备,被称为风机专用控制器。

它运行基于Vxworks的实时操作系统,支持多任务,具有强大的内存管理、界面编程等功能。

巴赫曼公司提供的SolutionCenter软件,是支持巴赫曼控制器的编译环境。

通过此软件可以使用C/C++编程并且生成可执行文件下载到控制器运行;或者是查看控制器的配置信息、以及控制器内运行的程序信息等;还可通过自带的java编译环境,编写与控制器关联的界面程序。

二. 硬件模块介绍1.1CPU模块指示灯:RUN灯亮时(绿色):控制器在Run模式下运行良好INT灯亮时(黄色):系统正在初始化ERR灯亮时(红色):控制器重启/运行错误INT和ERR等同时亮时(黄色,红色):系统运行在test模式下拨码:MPC240有两个拨码盘,下面的是高位,上面的是低位。

高位的拨码盘决定控制器运行模式,当高位拨码盘打到0~D之间,控制器运行在RUN模式;当高位拨码盘打到E,控制器运行在TEST模式;当高位拨码盘打到E,控制器运行在PROG模式。

三种模式区别:PROG模式:用来对控制器中PC卡进行编程,此时从flash0启动。

(一般不使用)TEST模式:用来对控制器进行调试,一般用来修改控制器IP和启动路径。

海尔茨曼电子调速器说明书

海尔茨曼电子调速器说明书

HEINZMANN Digital Electrical Speed Governor 海茵茨曼数字式电子调速器基 本 系 统使用说明目 录第1章 概述··············································································································································································································································································································································································································································································································································································································································································································································································································································································································································································································································································································································································································································································································································································································································································································································································································································································································································································································································································································································································································································································1.1 系统综述 1.2 相关的其他技术参考资料1.3 系统内部原理图1.4 特别标注的解释1.5 参数列表1.6 参数值范围91.7 通讯软件权限101.8 程序输入及参数调整的几种方法111.9 各种功能的总体解释12第2章 首次起动发动机时的注意事项13第3章 启动油门的调整与设定153.1固定的启动油门的调整与设定163.2可变的启动油门的调整与设定173.3随温度变化的启动油门的调整与设定193.4带斜度启动的启动顺序223.5起动之前,执行器油门的强制打开23第4章 转速的控制244.1当前转速值 244.2 转速的测量244.3 转速传感器的监测244.4 转速的设定254.5 飞车保护454.6 设定随温度变化的怠速454.7 设定转速变化的斜率46第5章 动态控制响应参数的调整和优化49··············································································································································································································································································································································································································································································································································································································································································································································································································································································································································································································································································································································································································································································································································································································································································································································································································································································································································································································································································································································································5.2 三维PID 参数值的设定5.3 设定温度变化对PID 参数值的修正5.4 设定稳态运行时转速变化对PID 参数值的修正第6章 速降的设定第7章 各种限制功能7.1 执行器行程的限制7.2 随转速变化的燃油限制7.3 随进气增压压力变化的燃油限制7.4 温度过高时,负载的限制657.5 最大油门的强制限制66第8章 各种报警和应急停车功能的设定688.1 水温的报警688.2 增压空气温度的报警688.3 机油温度的报警698.4 随转速变化的机油压力的报警69第9章 其他功能及应用729.1 励磁的控制72第10章 传感器7810.1 主要的传感器及功能78 10.2 传感器信号类型的设定78 10.3为传感器信号设定输入通道79 10.4 传感器信号测量范围的设定80 10.5 传感器故障时的解决方法80第11章 输入与输出信号以及通道8311.1 输入与输出性质可以选择的通道的标定83 11.2 86 11.3 PWM 脉宽调制输入信号91 11.4 92········································································································································································································································································································································································································································································································································································································································································································································································································································································································································································································································································································································································································································································································································································································································································································································································································11.6 PWM 脉宽调制输出信号11.7 开关量输出信号第12章 执行器及其反馈信号12.1 执行器的标定12.2 相关的伺服电路12.3 定位伺服电机工作模式第13章 有关控制器软件和硬件的相关数据13.1 控制器的产品序列号13.2 控制器的软件和硬件的版本号111 13.3 对控制器进行操作的通讯软件或手持式编程器的编号 111第14章 故障处理11214.1 综述112 14.2 引导程序112 14.3 故障记录114 14.4 故障参数的解释及可能的原因和解决方法115 14.5 PRIAMOS 系列控制器的7段数码显示126 14.6 故障的LED 显示126第15章 各个参数的解释12815.1 内容有关联的参数的同时列表128 15.2 系统参数表137 15.3 测量参数表167 15.4 功能参数表193 15.5 曲线和曲面参数表207。

SRL-710-使用说明书_V1.10-130922

SRL-710-使用说明书_V1.10-130922
应恶劣的电气环境。 11) 记录保护内部各元件动作行为和各元件动作时内部各计算值。 12) 保护功能的闭锁条件用户可自行选定,配置灵活。 13) 完善的自检功能,满足状态检修的要求。
1.3 功能配置
IEEE 代码 87BS 87U 87LP_L1
分型号 名称 保护功能 母线比率差动保护 母线差动速断保护 1#线路光纤差动保护
重要提示
感谢您使用赫兹曼电力(广东)有限公司的产品。为了安全、正确、 高效地使用本装置,并请您务必注意以下重要提示: « 请仔细阅读本说明书,并按照说明书的规定安装、调试和操作。 « 为防止装置损坏,严禁带电拔插装置各插件,严禁触摸电路板上的芯
片和器件。 « 请使用合格的测试仪器和设备对装置进行试验和检测。 « 事故分析需要原始记录、装置版本信息以及现场故障处理过程的说明。 « 装置如出现异常或需维修,请及时与本公司技术服务热线联系。
-I-
5 打印报告 .....................................................................78 6 运输、贮存 ...................................................................78 7 附录 .........................................................................79 7.1 机箱结构.....................................................................79 7.2 通信连接.....................................................................80 7.3 订货须知.....................................................................81 SRL-710 装置定值整定单 ............................................................82

赫斯曼网络产品说明

赫斯曼网络产品说明

第一部分Hirschmann网络产品说明RS2系列RS2-TX,RS2-16, RS2-16M,RS2-16 1MM SC,RS2-16 1SM SC除14个10/100BASE-T(X)外,上述4种型号各带2个光口(光端机)MM表示多模光纤口(传输距离4-5公里),SM表示单模光纤口(传输距离30公里),网络标准:IEEE802.3Ethernet网络协议:TCP/IP拓扑结构:交换式环型结构通信速率:电接口为10/100Mbps自适应,光接口为100Mbps链路冗余:支持超级冗余环技术,网络故障时,业务恢复时间<500ms实时性:单台设备端口时延<10微秒,以保证数据传送的实时性网络管理:支持SNMP网管,支持故障自诊断功能网管兼容性:交换机网管软件应集成有OPC Server,可将交换机状态信息直接传送到SCADA软件中数据安全性:支持VLAN(虚拟局域网)子网划分,可安全隔离工控数据供电:24V双回路冗余供电,提高系统可用性和检修安全性可靠性:按工业标准设计生产,可靠性高,MTBF在15年以上环境耐受能力:能在恶劣环境条件下工作,如高温、湿热、强电磁干扰环境标准认证:须通过电讯设备和民用电器安全标准cUL 60950认证须通过工业控制设备安全标准cUL 508认证安装特性:现场设备应为卡轨式安装,方便现场安装快速工业以太网卡轨式交换机RS2-16为大型决定性以太网/快速以太网的构筑提供了快速、便捷且有投资回报的解决方案。

卡轨式交换机RS2中带有SNMP管理单元并集成有基于WEB的管理系统。

这些特征为快速建立和安装网络提供了简单、便于使用的配置功能。

广泛的网络与设备信息也为终端系统提供了可靠性。

卡轨式交换机RS2结构紧凑、重负荷设计,适用于工业领域的应用,可安装在标准的DIN轨上。

它具有14个双绞线端口(10/100Mbps自适应),2个100Mbps多模光纤端口。

24V运行电压通过可插入终端块供应,亦可设置冗余,在终端块内的附加触点允许直接读取状态信息。

巴赫曼火车E-Z命令数字命令控制系统使用指南说明书

巴赫曼火车E-Z命令数字命令控制系统使用指南说明书

With its unique plug-and-play capability,E-Z Command is easy to set up and use,whether you’re operating an existing model railroad To ensure trouble-free operation,however,we recommend that you read this manual completely before operating your system for the first time.DO NOT CONNECT THE E-Z COMMAND CONTROL CENTER TO THE WALL PACK POWER SUPPLY UNTIL YOU HAVE MADE THE CONNECTIONS FROM THE CONTROL CENTER TO YOUR TRACK.1Setup and Programming InstructionsC AUTION-ELECTRICALLY OPERATED PRODUCTNOT RECOMMENDED FOR CHILDREN UNDER 8 YEARS OF AGE.AS WITH ALLELECTRIC PRODUCTS,PRECAUTIONS SHOULD BE OBSERVED DURING HANDLING ANDUSETO PREVENT ELECTRIC SHOCK.INPUT:120 VAC 60Hz.OUTPUT:AC 16V 1000mA25which locomotive is assigned to each button.For your convenience,extra blank sheets are included with your system (figure 11).891011REPROGRAMMING DECODERS WITH PREVIOUSLY ASSIGNED DIGITAL ADDRESSESyour locomotive to a complete stop and pressing the appropriate direction button.1213IF YOU CHOOSE TO ARRANGE YOUR CONSIST SO THAT ONE ENGINE IS RUNNING FORWARDS ANDONE ENGINE MUST BE PROGRAMMED TO OPERATE IN REVERSE AS SHOWN IN THE “PROGRAMMING FORWARD AND REVERSE OPERATION”SECTION.14button again.15DUE TO THE ARRAY OF DCC DECODERS AND VARYING LEVELS OF SOPHISTICATION,CONSULT THE MANUFACTURER’S INSTRUCTIONS THAT CAME WITHON THE LAYOUT FOR EXTENDED PERIODS.161718If your train doesn’t respond to commands,make sure:all wiring is correctly installed as shown in figure 2 (see page 2)the transformer is plugged into the wall socket—red LED power indicator is lit and NOT blinking (i.e.not in "Function" or "Programming" mode) the correct address button for the train you wish to operate is active (check address LEDs)the “Stop”button is not pressedNOTE:This 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 generates,uses,and can radiate radio frequency energy and,if not installed and used in accordance with the instructions,may cause harmful interference to radio communications.However,there is no guarantee that interference will not occur in aparticular 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 help.........For more technical information about DCC and other areas of model railroading,visit the National Model Railroad Association web site at .Bachmann Industries,Inc.1400 East Erie Avenue Philadelphia,PA 19124 USA Telephone:800-356-3910 (toll free within the United States and Canada only)Telephone:215-533-1600 (for all countries)E-mail:**************************Bachmann Trains… now that’s the way to run a railroad!™。

ferrmanbwl2说明书

ferrmanbwl2说明书

ferrmanbwl2说明书产品信息· 品牌:Ferrman· 型号:BWL2· 价格:未知最后更新2020 年02 月07 日产品详情近日模拟母带设备制作公司Ferrman弗尓曼成功的向市场推出了一款音量最大化制作工具Ferrman BWL2 (Brickwall True Peak Limiter)限制器。

该限制器的一经推出,填补了母带市场模拟砖墙限制器的空白,并立即被各大母带制作人所热捧。

音频限制器也可以叫做音频限幅器,是一种针对音频电压的控制工具。

下面我为大家介绍一下这款限制器与其他限制器的区别。

首先谈到限制器,我们要先了解市场中模拟限制器的类型。

Ferrman BWL2 墙式限制器,内置先进的True Peak检测电路,可快速的对编组及混音中的True Peak值进行修剪。

最大限度的保证原有RMS响度的同时,对于原有音色不做任何改变。

BWL2对于处理4dB范围内的素材音色可做到毫无处理痕迹,6dB范围内基本可做到听感一致,>8dB之后才会出现听感失真。

这也是BWL2模拟墙式限制器自身的模拟素质所决定的。

BWL2针对不同的音乐风格,特殊定制了3组不同风格的输出。

包含了透明、流行、古典。

BWL2并没有Attack与Release的相关设置,这使得它与常见的限制器功能上有本质的不同。

当波形进入到BWL2后,其内置的处理机制并不会对波形进行整体压缩。

BWL2只针对Celing顶部之上的Peak进行快速剪切。

因此其具备了数字墙式限制器的相关功能,但是BWL2的模拟属性与其他数字限制器的不同之处还在于,它实现了模拟零延迟处理。

内置的13段的快速响应True Peak 指示器,实时的再现了削波指示范围。

· Input Gain采用23位精密步进开关,步进增益0.5dB。

增益范围0至11dB,· Output Gain 采用23位精密步进开关,步进增益0.5dB。

德国海因茨曼速度控制器操作说明

德国海因茨曼速度控制器操作说明

N 始记录。
下面一下演示如何操作和记录保存,作测量。
ZN
Slide14
© Heinzmann 2007
E I N 确认有独立的飞车保护装置或措施,
A 最好在动车之前试验一下此项功能。
Z
N N
Slide15
© Heinzmann 2007
• 此部分的详细操作,请参考<<DcDesk2000
E I N 通讯程序 使用说明>>。
Slide4
© Heinzmann 2007
Z
EI
A N
N Slide5
N
© Heinzmann 2007
Z
EI
A N
N Slide6
N
© Heinzmann 2007
3 基本参数设定
E • 给控制器加电,打 开电脑DcDesk2000 的应用程序,按F5 建立通讯,参数列
1#:齿数
10#:最小转速
EI
A N
N Slide10
N
© Heinzmann 2007
B 手动标定
E I • 手动将执行器摇臂板至最大和最小位置,从
N 反馈信号测量参数3950 Feedback中读取相 A 应位置的测量值,并将它们分别输入到相应
的设置参数中:1950 FeedbackReflow (最小
N 位置) ,1951FeedbackRefHigh (最大位置) 。
Slide22
© Heinzmann 2007
4) 人为的干扰造成转速波动,(如,短时
E I N 间的用手拨动油门),如果转速恢复稳定的
A 过程不理想,则重复上述步骤,直到得到满
意的控制效果,并存储参数值。

众智smartgenHGM180HC发电机组控制器说明书word精品文档8页

众智smartgenHGM180HC发电机组控制器说明书word精品文档8页

HGM180HC发电机组控制器用户手册郑州众智科技股份有限公司目录1 概述 (2)2 性能及特点 (2)3 主要技术参数 (3)4 接线、面板操作说明 (4)4.1 按键及面板指示灯功能描述 (4)4.2 停机位() (4)4.3 手动位() (5)4.4 自动位() (5)5 报警量 (5)6 设置 (6)7 端子功能 (7)8 典型应用图 (8)9 外形及尺寸(开孔尺寸78 mm*66mm) (8)9.1 电池电压输入 (8)9.2 输出及扩展继电器 (8)9.3 耐压测试 (8)10 常见故障及排除方法 (8)1 概述HGM180HC为一个自起动模块,由电锁选择3种工作状态,可以通过面板上轻触按钮人工起动发电机组,也可以通过远端信号输入自动起动发电机组,并能在检测到故障(油压低、水温/缸温高、外部报警、超速)时自动断开燃油继电器同时停机电磁铁得电吸合。

面板LED指示故障状态,提供真实有效的故障报警信号。

2 性能及特点◆宽直流电源输入范围;◆具有油压低、水温/缸温高、超速保护和指示;◆具有充电失败警告指示,不停机;◆一个附加的外部输入报警停机信号;◆速度信号取自发电频率;◆LED显示各种报警状态;◆具有运行小时计液晶显示;◆具有燃油输出,起动输出,预热输出,停机输出,公共报警/怠速输出功能,且均为继电器输出;◆具有怠速控制功能,怠速延时时间可编程;◆预热延时时间可编程;◆起动成功条件可选油压+发电(出厂默认),也可只选发电;◆拨码开关拨到怠速/高速有效时,可配置输出口为怠速/高速输出,否则为公共报警输出。

见右图;◆模块化结构设计,阻燃ABS外壳,嵌入式安装方式,结构紧凑,体积小,单片机控制,性能稳定,操作方便。

3 主要技术参数4 接线、面板操作说明4.1 按键及面板指示灯功能描述按键指示灯4.2 停机位()◆发电机组正常运行过程中,钥匙旋至停机位时, 进入怠速过程,怠速/高速继电器输出断开,怠速延时结束后,燃油断开,得电停机输出,机组停机,机组停稳后,得电停机输出断开。

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iFLEX C3控制器使用说明书使用说明书V1.0徐州赫思曼电子有限公司2010年12月版本记录时间编写人员校对人员版本信息说明2008-1 郑达标杨玉杰V1.0 初始版本2009-3 杨玉杰V1.1 增加PLC browser功能参数管理器更改扩展板功能2010-12 杨玉杰V1.2 更改端口配置表增加I/O跳线板说明增加IIC_MEMORY_PAGE_WRITE函数增加IIC_MEMORY_PAGE_READ函数更改电流反馈A/D转换值和实际电流值对应关系目录1 硬件介绍.....................................................- 3 - 1.1 功能模块. (3)1.2 输入输出端口分配 (5)1.3 端口技术参数 (6)1.3.1 电源接口..............................................- 6 -1.3.2 通信接口..............................................- 7 -1.3.3 PWM输出/开关量输出/开关量输入接口.....................- 7 -1.3.4 开关量输出/开关量输入接口.............................- 8 -1.3.5 集电极开路开关量输出/计数器输入接口/电流反馈输入......- 8 -1.3.6 模拟量输入接口........................................- 9 -1.3.7 RS232接口............................................- 10 -1.3.8 扩展板.............................................- 11 -2 IFLEX C3模拟盒.............................................- 17 -3 系统软件介绍................................................- 19 - 3.1概述.. (19)3.2 软件安装 (19)3.2.1CoDeSys软件安装......................................- 19 -3.2.2 Target安装..........................................- 24 - 3.3 C O D E S YS软件介绍 (27)3.3.1 程序结构.............................................- 27 -3.3.2 变量声明.............................................- 29 -3.3.3 数据类型.............................................- 31 -3.3.4 库函数管理...........................................- 32 -3.3.5 PLC Browser..........................................- 36 -3.3.6 Target设置...........................................- 40 -3.3.7 Parameter manager....................................- 45 -3.3.8 PLC Configuration....................................- 48 - 3.4 编写一个小程序 (51)3.4.1控制灯的闪烁.........................................- 51 - 3.5 C O D E S YS 在线调试.. (58)3.5.1 Login................................................- 58 -3.5.3 Run..................................................- 59 -3.5.4 Stop.................................................- 59 -3.5.4 Reset 和 Reset(Cold).................................- 59 -3.5.5 Reset (Original)....................................- 59 -3.5.6 Toggle breakpoint....................................- 59 -3.5.7 Step in,Step over....................................- 59 -3.5.8 Write value,Force value,Release force................- 60 -3.5.9 Create boot project..................................- 60 -3.5.10 Write file to PLC..................................- 62 - 3.6 CAN设备配置 (63)3.7.1添加一个支持CAN2.0A通讯协议的设备...................- 63 -3.7.2添加一个支持CAN2.0B 通讯协议的设备...................- 65 -3.7.3 配置CAN设备.........................................- 65 -3.7.4 通过Codesys 代码实现CAN 数据的收发..................- 69 - 3.7 I CAN6T OOL 介绍. (47)3.5.1上传HEX格式文件至控制器.............................- 47 -3.5.2 将HEX格式文件转换为二进制文件.......................- 50 -3.5.3 读入控制器FLASH中指定地址的内容,以16进制格式显示..- 51 -3.5.4校验上传的HEX文件是否正确...........................- 52 -3.5.5控制器FLASH存储器擦除...............................- 53 -3.5.6 参数管理器...........................................- 55 -4 附录........................................................- 58 -A I CAN6E XT L IB.LIB库介绍 (58)B I FLEX C3外形尺寸图 (73)1硬件介绍iFlexC3是一款适用于工程机械控制的可编程控制器,设计可靠,具有多种标准电气接口,可根据应用需求进行灵活配置。

工作温度:范围-40℃~85℃,供电电压范围:10V~36V DC,控制器采用密封的铸铝壳体,外部电气线路通过42芯防水连接器与控制器连接,壳体上有一个4芯接口,用于控制器的在线调试。

1.1 功能模块1)控制器主板图片2)扩展flash存储图片3)各功能模块及期主要器件介绍:位置编号描述1 16位中央处理器,频率16MHz2 1 MB Flash 存储器3 512KB 静态RAM4 +8V开关电源电路5 时钟电路6 RS232插座,从上至下分别为BSL、GND、RXD、TXD7 +5V电源插座,从左至右分别是+5V、+5V、GND、GND8 扩展插槽,用来扩展I / O接口板9 42芯连接器,与外部电气连接(详细介绍见下文)10 模拟量输入选择跳线,短接为4—20mA电流,断开为0—5V电压信号11 电源跳线,可以断开+6V开关电源输出12 电源信号指示灯,正常工作时全部是亮的,从上到下分别代表+5V、+6V、系统电源13 系统工作指示灯,当系统程序初始化完成后指示灯点亮14 RS-232驱动电路15 CAN BUS 驱动电路16 扩展1MB FLASH存储,通过编号为7、8的插座与系统相连17 I/O跳线板,当JPx断开时,对应IOx为输入功能,短接为输出功能1.2输入输出端口分配作为工程机械用的PLC控制器,输入输出端口(I/O端口)的功能是至关重要的,由于不同的工程机械车辆具有不同的控制要求,对不同类型端口数量上的需求差别较大,为满足各种要求,iFLEX C3控制器多数I/O端口均具有两个或两个以上的功能。

(注:所有I/O复用端口的输入输出功能需要跳线选择)下表为42芯连接器的管脚定义:(字母P代表PWM输出,字母I代表数字量输入,字母O代表数字量输出,字母N代表计数器输入,AIN代表模拟量输入,VBB代表系统供电正电源,GND代表系统地,AGND代表模拟地输出,CAN1H、CAN1L为CAN总线接口1,CAN2H、CAN2L为CAN总线接口2)管脚定义管脚定义管脚定义1 UBP115 PIO2 29 GND2 PIO5 16 PIO4 30 PIO13 PIO7 17 PIO6 31 PIO34 IO17 18 IO18 32 PIO85 NIO1 19 AIN1 33 VOUT6 NIO2 20 AIN4 34 AIN27 AIN3 21 AIN6 35 AIN58 UBS 22 AIN8 36 AIN79 NIO4 23 CAN1H 37 CAN1L10 NIO3 24 CAN2H 38 CAN2L11 IO20 25 PIO15 39 IO1912 PIO16 26 PIO12 40 PIO1313 PIO14 27 PIO10 41 PIO1114 UBP228 AGND42 PIO91.3端口技术参数按照端口功能区分,iFLEX C3控制器端口有以下几种:1.3.1电源接口UBS:系统供电电源,为CPU等芯片提供电源,供电电压范围是10...36VDCUBP1:开关量输出DO1-DO8,DO17,DO18供电电源,范围是10...36VDCUBP2:开关量输出DO9-DO16,DO19,DO20供电电源,范围是10...36VDCGND:系统地,同时为集电极开路开关量输出提供驱动电流。

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