FAM设备管理模块操作员手册

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FAM设备管理模块操作员办法

FAM设备管理模块操作员办法

华电青岛发电有限公司FAM设备管理模块操作员手册2014年5月12日华电国际·青岛公司目录一.FAM升级治理模块简介 (001)二.FAM系统新功能简介 (001)三.几个重要的时刻节点 (002)四.第一次使用新FAM系统 (003)五.本次升级内容详述..........................................007(一)设备治理 (007)(二)设备台帐 (070)(三)故障查询 (087)(四)预警治理 (093)六.其他需要讲明的问题 (099)一、FAM升级治理模块简介华电国际财务及资产治理系统(简称FAM)是华电国际2004年集中部署的ERP业务系统,该系统包括财务治理、生产治理、物资治理、合同治理、燃料治理等功能模块,是公司生产经营治理的核心应用系统。

华电国际于2013年初启动了FAM系统升级项目,实现与集团公司ERP功能一致,全面满足与集团公司ERP集成要求;以财务治理为核心,实现财务与业务治理的信息全面集成;对关键信息进行深度挖掘,实现生产治理指标的汇总生成,支持辅助生产决策分析和企业经营活动分析;实现公司治理的关键审批流程通过FAM系统完成,并能够追溯;实现快报、月报、年报在FAM系统生成,为领导提供决策支持。

二、FAM系统新功能简介1.设备治理----基础信息治理内增加设备台帐、设备预警中心、故障查询和故障信息填报2.缺陷治理实现运行与检修模块分开。

(1)运行不再使用工单填报缺陷,而是使用一个WEB界面创建缺陷请求进行缺陷工单的填报。

(2)检修部门认领缺陷生成一个检修工单,把相关内容填写入工单内,进行审批验收。

(3)在检修缺陷认领工单内增加“申请仲裁”选项。

该选项可将争议缺陷或不是本部门(班组)的缺陷提交生技部相关人员仲裁。

3.设备治理----维护治理内增加检修定期工作查询与执行。

定期工作分为简单定期工作和复杂定期工作。

(1)简单定期工作:不需要物料,不需要验收,规则简单,按时刻完成(2)复杂定期工作:需要领物料,需要验收,需按一定规则完成4.材料打算将打算与耗用分开。

FAM设备管理模块操作员手册

FAM设备管理模块操作员手册

华电青岛发电有限公司FAM设备管理模块操作员手册2014年5月12日华电国际·青岛公司目录一.FAM升级管理模块简介 (001)二.FAM系统新功能简介 (001)三.几个重要的时间节点 (002)四.第一次使用新FAM系统 (003)五.本次升级内容详述 (007)(一)设备管理 (007)(二)设备台帐 (070)(三)故障查询 (087)(四)预警管理 (093)六.其他需要说明的问题 (099)一、FAM升级管理模块简介华电国际财务及资产管理系统(简称FAM)是华电国际2004年集中部署的ERP业务系统,该系统包括财务管理、生产管理、物资管理、合同管理、燃料管理等功能模块,是公司生产经营管理的核心应用系统。

华电国际于2013年初启动了FAM系统升级项目,实现与集团公司ERP功能一致,全面满足与集团公司ERP集成要求;以财务管理为核心,实现财务与业务管理的信息全面集成;对关键信息进行深度挖掘,实现生产管理指标的汇总生成,支持辅助生产决策分析和企业经营活动分析;实现公司管理的关键审批流程通过FAM系统完成,并能够追溯;实现快报、月报、年报在FAM系统生成,为领导提供决策支持。

二、FAM系统新功能简介1.设备管理----基础信息管理内增加设备台帐、设备预警中心、故障查询和故障信息填报2.缺陷管理实现运行与检修模块分开。

(1)运行不再使用工单填报缺陷,而是使用一个WEB界面创建缺陷请求进行缺陷工单的填报。

(2)检修部门认领缺陷生成一个检修工单,把相关内容填写入工单内,进行审批验收。

(3)在检修缺陷认领工单内增加“申请仲裁”选项。

该选项可将争议缺陷或不是本部门(班组)的缺陷提交生技部相关人员仲裁。

3.设备管理----维护管理内增加检修定期工作查询与执行。

定期工作分为简单定期工作和复杂定期工作。

(1)简单定期工作:不需要物料,不需要验收,规则简单,按时间完成(2)复杂定期工作:需要领物料,需要验收,需按一定规则完成4.材料计划将计划与耗用分开。

MSF 初级培训

MSF 初级培训

2.创建Mark Library:
3 2 5 1
6
4
7
1.被选Mark库的名称 3.被开启对象 Mark
机器中只能存放一套Mark库 Max.500个
2.显示以注册Mark的数量 4.显示Mark Code的选项框 5.Mark识别的类型
的名称
0 Gray Scale 1 Binary 2 Distinct(Bad Mark)
六.生产开始画面的介绍:
1
5
2 3 4
1.机器生产模式的切换: Auto/Semi , CONT/EOP/BLOCK 2.Recovery: 在全自动生产中,发生ERROR时,机器被迫停下.当再次恢复生产时,机器会从 停止的那一步开始继续生产.如果需要从新开始板的生产,只需将Recovery键 按灭即可.
Level1
从上述图形可知: 当元件厚度<4mm, Head在Level1范围工作. 当元件厚度在4~25mm,Head在Level2范围工作. 根据元件的厚度,如果厚度越底,则贴装速度越快.
三. 主
副控制盘的介绍:
显示区域
1. 主控制盘
操作按键
START STOP FRONT RESET LSTOP OPERATION
视觉 识别 单元
3D Small 3D Large
五. 菜单的介绍:
1. 开机第一个画面
上部指示栏 标明机器 的状态 屏幕切换开关 生产画面和系 统菜单后画面
错误信息 指示栏
显示错误信息清单及帮助信息
屏幕打印 屏幕错误诊断 显示识别摄像机图像
键入密码 PASS1 或 PASS2
管理菜单
Changeover(程序切换) 切换的顺序为: 1. 吸嘴返回初始状态 2. 程序的选择 3. 设置已切换程序的生产条件 4. 轨宽调整

lexmark 设备使用情况 管理员指南说明书

lexmark 设备使用情况 管理员指南说明书

设备使用情况管理员指南2020 年 6 月目录2目录修改历史 (3)概述 (4)部署准备查对表 (5)配置应用程序 (6)访问应用程序的配置页 (6)Lexmark 打印管理内部部署 (6)Lexmark 打印管理云 (7)疑难解答 (10)应用程序错误 (10)无法连接到服务器 (10)找不到报告 (10)注意事项 (12)索引 (13)修改历史3修改历史2020 年 6 月•添加有关验证证书的新设置的信息。

2018 年 12 月•添加有关打印作业文件大小的信息。

2018 年 2 月•初始文档发布。

概述4概述使用应用程序来跟踪用户使用打印机的情况。

将应用程序配置为与以下任一服务器一起工作:•Lexmark TM打印管理内部部署—用于从中央打印队列打印文档的解决方案。

如需更多信息,请参阅Lexmark 打印管理内部部署管理员指南。

•Lexmark 打印管理云—从 Lexmark 维护并监视的服务器托管的云服务。

它通过将框架用于管理和跟踪整个组织的文档输出来最大化云计算的性能和优点。

如需更多信息,请参阅Lexmark 打印管理云管理员指南。

此文档提供有关如何配置和解决应用程序问题的说明。

有以下解决方案的应用知识会比较好:•Lexmark 打印管理内部部署•Lexmark 打印管理云•Lexmark 文档流程解决方案 (LDD)•云验证•卡验证如需更多信息,请参阅解决方案的文档。

部署准备查对表对于内部部署环境,请确认:“设备使用情况”是 1.9版本。

“Lexmark 打印管理内部部署”已配置。

注意:如需更多信息,请参阅 Lexmark 打印管理内部部署配置指南。

对于云环境,请确认:“设备使用情况”是 2.0或更高版本。

以下项目已配置:–Lexmark 打印管理云注意:如需更多信息,请参阅 Lexmark 打印管理云配置指南。

–“云验证”或“卡验证”注意:如需更多信息,请参阅应用程序的管理员指南。

部署准备查对表5配置应用程序您可能需要管理权限才能配置应用程序。

企业信息化平台_固定资产管理(FAM)系统需求分析说明书

企业信息化平台_固定资产管理(FAM)系统需求分析说明书

目录目录................................................................................................................................................. - 1 -1引言............................................................................................................................................. - 2 -1.1编写目的 (2)1.2预期的读者和阅读建议 (2)1.3文档约定 (2)2术语、定义和缩略语................................................................................................................. - 3 -2.1术语解释 (3)2.1.1资产盘点.................................................................................................................... - 3 -3综合描述..................................................................................................................................... - 3 -3.1背景 (3)3.2软件功能概述 (3)3.3运行环境 (5)3.4角色及说明 (5)4具体需求..................................................................................................................................... - 6 -4.1功能需求 (6)4.1.1基本资料模块............................................................................................................ - 6 -4.1.2资产购置模块............................................................................... 错误!未定义书签。

FURUNO IF-NMEA 操作员手册说明书

FURUNO IF-NMEA 操作员手册说明书

OPERATOR'S MANUALINTERFACE UNITIF-NMEASC MODELwww.furuno.co.jpIMPORTANT NOTICES• This manual is intended for use by readers with a solid knowledge of English.• No part of this manual may be copied or reproduced without written permission.• If this manual is lost or worn, contact your dealer about replacement.• The contents of this manual and equipment specifications are subject to change without notice.• Store this manual in a convenient place for future reference.• FURUNO will assume no responsibility for the damage caused by improper use or modification of the equipment (including software) by an unauthorized agent or a third party.• When it is time to discard this product it must be done according to local regulations for disposal of industrial waste. For disposal in the USA, refer to the Electronics Industries Alliance (http:// /).SAFETY INSTRUCTIONSSAFETY INSTRUCTIONSTABLE OF CONTENTS FOREWORD (v)SYSTEM CONFIGURATION (vi)1.MOUNTING (1)1.1Equipment List (1)1.2Mounting Procedure (1)2.WIRING (2)3.ADJUSTMENTS (4)3.1LEDs and Equipment Status (4)3.2Setting Up NMEA Ports (5)3.3Heading, Pitch and Roll Offsets (8)4.OPERATION (9)5.MAINTENANCE, TROUBLESHOOTING (10)5.1Preventive Maintenance (10)5.2Replacing the Fuse (11)5.3Troubleshooting (11)5.4Self Test (12)5.5Memory Clear (13)SPECIFICATIONS.....................................................................................................SP-1 OUTLINE DRAWING...................................................................................................D-1 INTERCONNECTION DIAGRAM................................................................................S-1FOREWORDA Word to the Owner of the IF-NMEASCCongratulations on your choice of the FURUNO IF-NMEASC Interface Unit. We are confident you will see why the FURUNO name has become synonymous with quality and reliability.For 60 years FURUNO Electric Company has enjoyed an enviable reputation for quality marine electronics equipment. This dedication to excellence is furthered by our extensive global network of agents and dealers.This equipment is designed and constructed to meet the rigorous demands of the marine environ-ment. However, no machine can perform its intended function unless installed, operated and maintained properly. Please carefully read and follow the recommended procedures for installa-tion, operation and maintenance.Thank you for considering and purchasing FURUNO equipment.FeaturesThe IF-NMEASC is a dedicated interface unit for the SC-30 Satellite Compass. It receives NMEA 2000®* format heading, pitch, roll and GPS position data from the SC-30, converts them to NMEA 0183 format data and outputs the converted data to external equipment.• Input port: One NMEA 2000 format port• Four output ports: NMEA 0183x2, AD-10x1, Analog (pitch and roll)x1• Offsets for heading, pitch and roll*: NMEA 2000 is a registered trademark of the National Marine Electronics Association USA.SYSTEM CONFIGURATION1.MOUNTING1.1Equipment List1.2Mounting ProcedureWhen choosing a mounting location for the unit, keep the following points in mind:• Select a location where shock and vibration are minimal.• Locate the unit away from places subject to rain or water splash.• Keep the unit away from exhaust pipes and vents.• Locate the unit out of direct sunlight because of heat that can build up inside its cabinet.• The location should be well ventilated.• Observe the maintenance space mentioned in the outline drawing at the back of this manual and the compass safe distances in the safety instructions.• Fix the unit with four φ3x10 self-tapping screws (supplied).NameType Code No.Qty RemarksInterface Unit IF-NMEASC -1InstallationMaterials CP20-03001001-023-400 1 set • Cable ties (CN-150N, 12 pcs.)• Self-tapping screws (φ3x10, 4 pcs.)Spare PartsSP20-01301001-019-8001 setFuse FGMB 125V 2A (3 pcs.)2.WIRINGOpen the IF unit with your hands, detach the shield cover and connect external equipment, refer-ring to the illustration below and the interconnection diagram. Cables are mainly connected to the unit with WAGO connectors. See the instructions below for how to attach wiring to the connectors. The opener for the WAGO connectors is attached to the inside of the inner cover. Fix cables to their respective cable posts with cable ties (supplied). Run a ground wire (IV-2.0sq., local supply) between the ground terminal and ship's grounding bus. Supply power from breaker on mains switchboard.P o w e r c a b l eJ 8 (A n a l o g )J 7 (S C -30 S e n s o r )J 5 (N M E A 0183)J 4 (N M E A 0183)J 3 (A D -10)G r o u n d t e r m i n a lPower cable: AWG 16-20, and diameter less than 10 mm (JIS* cable DPYC-1.5 or equivalent)Cable postRecommended Cables2. WIRING Cable construction3.ADJUSTMENTS3.1LEDs and Equipment StatusThe six LEDs above the heading indication light, flash or go off according to equipment status.LED state and equipment statusLED LED state and equipment statusGPS ON: Both GPS antennas in the SC-30 are receiving from five or more satel-lites.OFF: One of the GPS antennas is receiving from 3 or fewer satellites. OUTPUT ON: All data is output from the SC-30 normally.Flashing: Motion (heading, roll, pitch) is output (heave is fixed at 0, positionand speed are normal) by dead reckoning.OFF: Heading output is stopped.PROCESSING ON: GPS processor is functioning properly.Flashing: Initializing for GPS.OFF: Not enough satellites received.SENSOR1ON: Rate gyro normal on all three axes.OFF: Rate gyro error.SENSOR2ON: Acceleration sensor normal on all three axes.OFF: Acceleration sensor error.CR33Flashing: Valid NMEA 2000 data is input.ON: No valid NMEA 2000 data is input.OFF: CPU error, or no power.3. ADJUSTMENTS3.2Setting Up NMEA PortsPorts J4 and J5 output data in NMEA 0183 format. Select the data to output from those ports, along with baud rate and output interval. The default settings are as shown in the table below.Default settings for ports 2 and 31.Grasp the cover at its right and left sides, pull the cover outward slightly and then lift the coverto remove it.2.Open the inner cover and turn on the power.On the circuit board, find the heading indication, several LEDs, and four operating buttons. The Heading LED is lit.3.Push the [Menu/Cancel] button several times to light the Sentence LED on the Port 2 line.4.Push the [Enter] button. The Sentence LED starts flashing and the sentence currently select-ed to output from port 2 is shown with a numeric. See the illustration below for numeric and data sentence.5.Push the [+] or [-] button to display the numeric corresponding to the data sentence you wishto output.6.Push the [Enter] button. The sentence LED stops flashing.Port no.SentenceBaud rate (bps)Tx interval (ms)J4 (Port 2)HDT (Heading)4800100J5 (Port 3)ATT (Heading, pitch, roll)HVE (Heave)3840025OUTPUT PROCESSING03OUTPUT PROCESSING0033. ADJUSTMENTS7.Push the [Menu/Cancel] button to light the Bps LED on the Port 2 line.8.Push the [Enter] button. The Bps LED starts flashing and the current bps setting appears.9.Push the [+] or [-] button to select desired baud rate. The choices are 4800, 9600, 19200 and38400 (bps).10.Push the [Enter] button. The bps LED stops flashing.11.Push the [Menu/Cancel] button to light the Output interval LED on the Port 2 line.12.Push the [Enter] button. The Output Interval LED starts flashing and the current output intervalsetting appears.OUTPUT PROCESSING003OUTPUT PROCESSING003OUTPUT PROCESSING003. ADJUSTMENTS13.Push the [+] or [-] button to select desired output interval, referring to the table below.14.Push the [Enter] button. The output interval LED stops flashing.15.Set up Port 3 similar to how you did Port 2.16.Close the inner and outer covers.Sentence numberSentenceOutput interval (ms)4800 bps9600 bps19200 bps38400 bps1HDT 100, 200, 1000, 200025, 100, 200, 1000, 20002HDG 100, 200, 1000, 200025, 100, 200, 1000, 20003HDM 100, 200, 1000, 200025, 100, 200, 1000, 20004ATT, HVE 200, 1000, 2000100, 200, 1000, 200025, 100, 200, 1000, 20005VTG, GGA, ZDA 1000, 20006RMC, ZDA 1000, 20007ATT, HVE 200, 1000, 2000100, 200, 1000, 200025, 100, 200, 1000, 2000GGA, VTG, ZDA1000(<1000), 20001000(<1000), 20008HDT 100, 200, 1000, 200025, 100, 200, 1000, 2000RMC, ZDA1000(<1000), 20003. ADJUSTMENTS3.3Heading, Pitch and Roll OffsetsTurn on the IF unit and wait approx. three minutes for the satellite compass to settle. Then, check that heading, pitch and roll data are reasonable. If not, open the unit and enter appropriate off-set(s).1.Open the cover, referring to step 1 in the previous section for the procedure.2.Open the inner cover.On the circuit board, find the heading display, LED set, and operating buttons. The Heading LED is lit3.Push the [Menu/Cancel] button to light the applicable Offset LED (Heading, Pitch, or Roll) andpush the [Enter] button. The selected LED starts flashing and the display shows current offset for item e the [+] or [-] button to set offset. (You can push and hold down those buttons to speed upthe rate of incrementation.)Range of offsetHeading: ±6°Pitch, Roll: ±10°5.Push the [Enter] button to finish. The display shows current heading, pitch or roll indicationwith offset applied. The selected Offset LED stops flashing.6.Close the inner and outer covers.OUTPUT PROCESSING034.OPERATIONNormally, no operation is required except to power the unit (from the switchboard). The ST-BY LED on the cover is ON, OFF or flashing according to equipment state.Flashing: NMEA 2000 data is inputON: NMEA 2000 data is not inputOFF: Power loss, blown fuse, operation error5.MAINTENANCE, TROUBLE-SHOOTINGThis chapter provides the information for keeping your unit in good working order.5.1Preventive MaintenanceRegular maintenance is important for good performance. Following the procedures in the table be-low will help maintain performancePreventive maintenanceItem Check point RemedyReplace damaged cables.Cabling Visually check cabling forsigns of wear and damage.Ground Check ground wire.Check that ground wire is tightly fastened.Check ground point for corrosion.Cover Cleanliness of cover.Dust can be removed with a soft cloth. Do not usechemical based cleaners to clean the cover, as theycan remove paint and markings and deform the cov-er.5. MAINTENANCE, TROUBLESHOOTING5.2Replacing the FuseThe 2A fuse inside the unit protects it from overcurrent and equipment fault. If the power cannot be turned on, have a qualified technician check the fuse. If the fuse has blown, find out the cause before replacing it. If it blows again, contact your dealer for advice.5.3TroubleshootingThis section provides simple troubleshooting procedures which the user can follow to restore nor-mal operation. If normal operation cannot be restored, do not attempt to check inside the equip-ment. There are no user-serviceable parts inside.Simple troubleshooting proceduresItem TypeCode No,FuseFGMB 125V 2A PBF000-157-479-10Symptom Possible troubleRemedyPower cannot be turned on• Power at switchboard is turned off.• Disconnected or damaged power cable.• Blown fuse.• Check if power is on at switchboard.• Check if power cable is disconnected or damaged.• Have a qualified technician check thefuse.Data is not received from SC-30• Signal cable between the SC-30 and this equipment is dam-aged or disconnected.• SC-30 is no received satellite signal.• Check if sensor cable is disconnect-ed or damaged.• See the SC-30's operator's manual. Data is not received at external equip-ment• Disconnected or damaged in-terconnection cable.• Output settings may be incor-rect.• Check if cable is disconnected or damaged.• Have a qualified technician check the settings.Heading, pitch or roll data is not correct • Offsets entered in this equip-ment may be incorrect.• Have a qualified technician check the settings.5. MAINTENANCE, TROUBLESHOOTING5.4Self TestThe self tests check the equipment for proper operation.Self test 1This test checks the two GPS receivers, output circuit, processor and two sensors for proper op-eration.1.Remove the cover and shield cover from the equipment.2.Press the [Menu/Cancel] button several times to show "- - -.1" on the display. The LED lampsone by one in order, the Output Interval LED in the Port 3 line, and then the equipment goes into the test mode.3.Press the [Enter] button, and the test proceeds as below.• GPS receivers are checked. The GPS lamp lights if the receivers are normal.• Communication between this equipment and the SC-30 is checked. The OUTPUT LED lights if normal.• The CPU memory access is checked. THe PROCESSING LED lights if normal.• The rate gyro is checked. The SENSOR1 LED lights if normal.• The acceleration sensor is checked. The SENSOR2 LED lights if normal.When the test is finished, the nine LEDs below the display flash, and then the display shows "End.1".4.Press the [Enter] button to return to self test 1.5. MAINTENANCE, TROUBLESHOOTING Self test 2This test checks this unit's processor and output for proper operation.1.With the display showing " - - - .1", push the [Menu/Cancel] button. The display shows "- - - 2".2.Press the [Enter] button to start the test.If the results are normal all LEDs light. Then, the nine LEDs below the display flash and the display shows "End.2".3.Press the [Enter] button to return to the self test 2 display.5.5Memory ClearThe memory can be cleared to restore the default settings for the NMEA ports. Note that offsets are not cleared.1.Hold down the [Menu/Cancel] button together with the [+] button until the display shows "-CLR". At this time all Status and Settings LEDs are on.2.Press the [Enter] button to clear the memory and restore all default settings. "END C" appearsupon completion.3.After the memory is cleared, press the [Menu/Cancel] button to show the heading.5. MAINTENANCE, TROUBLESHOOTING This page is intentionally left blank.FURUNO IF-NMEASC SPECIFICATIONS OF INTERFACE UNITIF-NMEASCPORT1 INPUTNMEA 2000*, for data I/O between FURUNO satellite compass SC-30* NMEA 2000 is a registered trademark of the Nationa l MarineElectronics Association.2 OUTPUTPORTNMEA 0183: Two ports (HDT, HDG, HMD, ATT*, HVE*, VTG, GGA,RMC, ZDA)* ATT (heading, pitch, roll) and HVE (heave) are FURUNOproprietary sentences.AD-10: One portAnalog: One port (pitch, roll)3 NMEA 0183 OUTPUT INTERVALHDT, HDG, HDM, ATT, HVE: 25ms, 100 ms, 200 ms, 1 s, 2 sVTG, GGA, RMC, ZDA: 1 s, 2 s4 POWERSUPPLY12-24 VDC: 1.0-0.6 ACONDITIONS5 ENVIRONMENTAL5.1 Ambient Temperature -15°C to +55°C5.2 Humidity Less than 95% at 40°C5.3 Waterproofing IP205.4 Vibration - From 2 Hz to 5 Hz to up to 13.2 Hz with an excursion of ±1 mm ±10%-13.2 Hz to 100 Hz with a constant maximum acceleration of 7 m/s2 COLOR6 COATINGN2.51This page is intentionally left blank.The paper used in this manualis elemental chlorine free.9-52 Ashihara-cho,Nishinomiya, 662-8580, JAPAN。

Smart ADM CAIXA CAIXA CAIXA CAIXA 操作员手册说明书

Smart ADM CAIXA CAIXA CAIXA CAIXA 操作员手册说明书

Manual de Uso Básico do Sistema SmartADM CAIXA CAIXA CAIXA CAIXA Operador 1 2 3 4 5 Senha 1 2 3 4 5- Abertura de caixa.1°Clicar 2x no ícone “Smart Genius” (Lâmpada) na tela inicial do computador.2° Colocar Operador e Senha, de caixa.Obs: Para a primeira vez da abertura do sistema no dia, colocar o suprimento (dinheiro inicial da gaveta) e repetir a senha de caixa usada.- Entrada e Saída de Caixa.Para entrar ou tirar dinheiro do caixa.Na tela de Atendimento.1° Apertar CTRL.2° Escolher opção “Entrada/Saída do Caixa”3° Usar operador e senha de ADM.4° Colocar Motivo.5° Selecionar o Tipo (Entrada/Saída).6° Clicar 2x no campo “Dinheiro”.7° Digitar valor.8° Clicar em “OK”Na tela de Atendimento.1° Apertar “CRTL”.2° Escolher a opção “Cadastro de Produtos”.3° Usar operador e senha de ADM.4° Apertar “F1 – Novo”.5° Passar o Código do produto em “Código”.OBS: Se for produto sem código de barras, utili zar o códigoque o sistema gerar.6° Preencher “Descrição”. (Nome do Produto)7° Preencher “R$ Custo”.8° Preencher “R$ Venda”.9° Selecionar unidade de medida do produto, “Unidade”.10° Preencher o “Estoque”.11° Ir para a aba “Tributação”, como marcado abaixo.12° Preencher “NCM”.OBS: Para pesquisar o NCM clicar em “Consulta NCMPIS/COFINS”.13° Selecionar a “Alíquota ECF”.14° Selecionar a “Categoria”.15° Clicar em “F2 – Salvar”.OBS: Informações sobre Alíquota e Categoria são passadas pelo escritório de contabilidade.Para alterar um cadastro, na tela de Cadastrar Produto, apertar F3 para Pesquisar o Produto, ou, escrever o nome do produto no campo “Pesquisa” ou passar o código dele no campo “Código”.Na tela de Atendimento.1° Apertar “CRTL”.2° Escolher a opção “Cadastro de Clientes”.3° Usar operador e senha de ADM.4°“F1 – Novo”.5° Preencher “Nome”.6° Escrever demais campos do cliente.OBS: A cidade deve ser pesquisada com o botão “F6”.7° Selecionar “Formas de Pagamento”.8° Clicar em “F3 – Salvar”.Para alterar um cliente já cadastrado, na tela de “Cadastro de Clientes”, apertar o botão “F2 – Pesquisar “.- VendasPrincipais Botões:F1 Finalizar Venda.F2 Pesquisar o Cliente.F3 Pesquisar o Produto.F4 Alterar quantidade de um produto apenas.F5 Cancelar um produto do atendimento.F6 Estornar ultima venda.F9 Contas a receber.Na tela de Atendimento.1° Pressionar F3 – Pesquisar produto ou passar o código de barras do produto no com o leitor no campo “Produto”.2°Depois de passar todos os produtos seguir para finalização,F1 – Finalizar Venda.3° Escolher o método de pagamento.4° Seguir com a forma de pagamento desejada até o f im do processo.- Conferencia do CaixaNa Tela Inicial do sistema.Clicar em Movimento do Caixa.Para conferir todas as vendas passadas pelo caixa e valores em caixa. Clicar em “Visualizar Saldo”.- Fechamento do sistemaPara fechar o sistema e qualquer outra tela,seguir pressionando a tecla “ESC” no teclado.。

浩盛机械设备操作指南说明书

浩盛机械设备操作指南说明书

3-3
3.2.3 Keyboard code of the operator panel WS 400-22 . . . . . . . . . . . . . . .
3-4
3.2.4 Keyboard code of the alpha block . . . . . . . . . . . . . . . . . . . . . . . . .
Equipment for special machines WS 400-10/20/22 Operator panels
Description
Edition 11.91
Equipm
Manual
Siemens AG Automation Group Automation Systems for Machine Tools, Robots and Special-Purpose Machines P.O. Box 31 80, D-91050 Erlangen Federal Republic of Germany
4.4
EL-Display (Built-in version) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4.5
Alpha block . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
This publication was produced on the Siemens 5800 Office System. Subject to change without prior notice. The reproduction, transmission or use of this document or its contents is not permitted without express written authority. Offenders will be liable for damages. All rights, including rights created by patent grant or registration of a utility model or design, are reserved.

英飞凌tricore用户手册 第5章 程序管理单元

英飞凌tricore用户手册 第5章 程序管理单元

用户手册 PMU,V1.47
5-3
V1.0, 2011-12
TC1728
程序存储器单元(PMU)
5.2
重叠 RAM 和数据获取
PMU0 提供了重叠存储器 OVRAM,特别用于通过使用数据重叠功能重定向 对 OVRAM 程序存储器的访问。 数据重叠功能本身在 DMI 模块里被控制,以避免在重定向执行中的行为,并支持外部存储器。 为了在线数据获取(OLDA)应用或者校准数据,提供一个虚拟的 32KB 存储器区域,其可在无需错误报告的 情况下被访问。对 OLDA 区域的访问也可以被重定向到重叠存储器。 5.2.1 内部重叠存储器
5.1.1
BootROM 在两个位置可见,其在内存映射可见: 在从位置 8FFFC000H 开始的地址段 8H(缓存空间) 在从位置 AFFFC000H 开始的地址段 AH(非缓存空间) 在任何一种复位后,硬件控制的启动地址是 AFFFC000H。启动过程的第一条指令存储并开始于这个位置 。在复位后不支持另一个启动位置,保证在复位后总是只执行 BootROM 中的唯一一种启动固件。 5.1.2 固件程序结构
MOD_TYPE
[15:8]
r
模块类型 该位域为 C0H. 其定义该模块为 32 位模块。
MOD_NUMBER
[31:16]
r
模块数值 该位域定义了本模块对于 PMU0 的标识符。
用户手册 PMU,V1.47
5-8
V1.0, 2011-12
TC1728
程序存储器单元(PMU)
5.5
调节保护
特殊的调节保护代表了一种附加于 Flash 读/写/OTP 保护(见 5-21 页和 5.6.5 节)和其它引导加载模式的安全 功能(见 BootROM 规范)。 关于调节保护的具体信息请与英飞凌当地代表联系。

MA-操作员使用手册_中文版

MA-操作员使用手册_中文版
8 订单建立 .............................................................................................................................. 21 9 作业监视 .............................................................................................................................. 27 10 典型操作 .............................................................................................................................. 36
Business FLEX
ement Automation
操作员使用手册
Realease: 3.5.0 Revision Date: Sept.2010
目录
1 摘要 ........................................................................................................................................ 2 2 一般概念 ................................................................................................................................ 3 3 MA 的作业类型..................................................................................................................... 4 4 MA 常用术语......................................................................................................................... 5 5 罐区流程图 ............................................................................................................................ 7

FAM氧操作手册

FAM氧操作手册

FAM OXYTRACE溶解氧测量仪操作手册ANAL YT ICAL INST RUM ENT SSwan Analytical Instruments AG CH-8616 Riedikon/UsterPhone: ++41 1 943 63 00 / Fax: ++41 1 943 63 01质保条件我们可以向用户保证FAM Oxytrace测量仪在正常使用过程中,仪表变送器在36个月内、仪表的其他部件在12个月内,不会出现任何由劣质原料或生产工艺而引起的故障和问题。

在正常使用的前提下,仪表出现故障,可以得到免费的修理、更换部件、服务和建议,甚至可以更换产品。

所有的更换部件都可以从厂家在当地的代理商直接获得。

质保期从交货之日起。

以下不在质保范围内:●由于非正确使用和缺乏维护、尤其是手工误操作而导致的损坏。

●由于事故、浸入水中或淋水、触电、化学药品、灰尘、过热等原因而导致的损坏。

●由误操作、堵塞、非授权修理或修改而引起的故障。

●由于正常磨损而引起的故障。

●严禁非正常操作,所有操作过程均按操作手册进行。

任何由于运输合同、质保条件或其他商务问题而引起的争议,可以通过法庭解决。

目录绪论与警告1 概述11.1 操作原理 11.2 显示值 21.3 系统描述 32 安装 42.1 仪器的安装 52.2 接线图 62.3 电气连接72.4 与其它仪器的连接103 操作113.1 显示和按键113.2 校准123.3 设置报警值和极限值143.4 编程和密码154 编程165 错误信息275.1 报警275.2 系统故障275.3 操作错误276 非连续测量287 维护288 更换保险管30 附录:维护规程31 初次启动步骤32绪论:FAM系列仪器采用了最先进的技术,操作十分简便。

本手册提供了大量信息即使经验不多的用户也能方便地掌握仪器的操作。

操作时你只需参考手册提供的一张速查表即可。

FAM系列仪器是一个完整的系统,传感器Swan sensor OXYTRACE SC、流通池B-Flow、变送器FAM Oxytrace均装在一个盘上。

《FCM工位操作技术指导》

《FCM工位操作技术指导》
Copy to archive...:拷贝工单信息至软盘;(禁止进入) Copy from archive...:从软盘中拷贝工单信息;(禁止进入) Export...:导出工单信息数据;(禁止进入) Delete...:删除旧工单信息;(禁止进入) Parameters:参数设置(禁止进入)。
操作界面介绍(菜单栏)
14,料车(Feeder trolley);
15,LAS(贴片模组):置件模组,每台机器满配16个, (分解图见图二);
16,电脑;
四.操作界面介绍
操作界面介绍(菜单栏)
操作界面介绍(菜单栏)
1 菜单栏 a,User栏:可以通过此菜单切换操作级别,操作级别不同可以打开的菜单不同。改变级 别后,用户状态栏中对应变化(详见用户状态栏),操作员工只可以在Operator级别下 操作机器,禁止在Supervisor 与 Maintenance/Service Engineer 级别下操作。
g,Calibration栏:校正及校正文件编辑(禁止进入); h, Video:此功能未启用; i, Help:帮助菜单。
操作界面介绍(状态栏)
2 用户状态栏:显示当前操作界面的级别,可以包括以下几种: a,OPER:操作员级别(正常生产时必须在此菜单下操作); b,SUPER:主管级别(操作员禁止在此级别下操作); c,MAINT:工程维护级别(操作员禁止在此级别下操作)。
运行机器步骤2
2 运行机器步骤 b,检查机器工单名是否符合如下规则,如有误,通知技术人员;工单命名规则如下:
MM/DD/YY/SHIFTNUMBER 月 / 日 / 年 / 班次 第几次 如:04/15/05/D2表示此工单为2005年4月15日早班建立的第二个工单; c,检查机器程序名与料站表(Loading List)规定的是否一致,如有误,立即通知技 术人员; d,以上确认无误后,双击F5键,此时机器开始运行; e,如果出现报警信息,按F3查看并采取措施,如不能解决,立即通知技术员; 注:运行前准备若发现任何问题,请勿运行机器。

96000 Series RF Reference Source 操作员手册说明书

96000 Series RF Reference Source 操作员手册说明书

May 2014 (Simplified Chinese) © 2014 Fluke Corporation. All rights reserved. Specifications are subject to change without notice. All product names are trademarks of their respective companies.96000 SeriesRF Reference Source操作员手册有限担保及责任范围Fluke 公司保证其每一个Fluke的产品在正常使用及维护情形下,其用料和做工都是毫无瑕疵的。

保证期限是一年并从产品寄运日起开始计算。

零件、产品修理及服务的保证期是 90 天。

本保证只提供给从Fluke 授权经销商处购买的原购买者或最终用户, 且不包括保险丝、电池以及因误用、改变、疏忽、或非正常情况下的使用或搬运而损坏(根据 Fluke 的意见而定)的产品。

Fluke 保证在 90 天之内,软件会根据其功能指标运行,同时软件已经正确地被记录在没有损坏的媒介上。

Fluke 不能保证其软件没有错误或者在运行时不会中断。

Fluke 仅授权经销商将本保证提供给购买新的、未曾使用过的产品的最终用户。

经销商无权以 Fluke 的名义来给予其它任何担保。

保修服务仅限于从 Fluke 授权销售处所购买的产品,或购买者已付出适当的Fluke国际价格。

在某一国家购买而需要在另一国家维修的产品,Fluke 保留向购买者征收维修/更换零件进口费用的权利。

Fluke 的保证是有限的,在保用期间退回 Fluke 授权服务中心的损坏产品,Fluke有权决定采用退款、免费维修或把产品更换的方式处理。

欲取得保证服务,请和您附近的Fluke服务中心联系,或把产品寄到最靠近您的Fluke服务中心(请说明故障所在,预付邮资和保险费用,并以 FOB 目的地方式寄送)。

Fagor Automation 8055 iA MC CNC控制系统操作员面板 用户手册说明书

Fagor Automation 8055 iA MC CNC控制系统操作员面板 用户手册说明书

Application:3 axes CNC Knee Mill and or CNC Bed Milling Machines.Fagor Automation 3 axes Turnkey Package Customer link ‐ ‐ ‐ - - -/en/Fagor CNC 8055 iA MC Control System Operators PanelThe Fagor 8055 i-A CNC control combines value & reliability with a featured packed compact control. This control was built for the shop environment with a rugged sealed keyboard and enclosed design. Fagor Builds controls which are designed for both Milling or turning operations, and has designed specific software to facilitate fast, accurate, and reliable machining in both applications. The unique and very powerful operating system consists of 2 systems within 1 control. Utilizing both a very easy to program Icon Key based conversational programming system or a Conventional ISO Fanuc styleG-code programming system within the same control.You may toggle between the two operating systems at any time. Some of the many benefits is the ability of the control to adapt to the operator/programmers ability, also you have a Machine that is not only ideal at complex large run production parts, but also perfect for quick set-up of small lot production jobs.The Fagor “Icon Key” programming method greatly simplifies the programming process even compared to more conventional conversational systems. Graphic assist is utilized within all programming screens, thus enabling “true” fill in the blank programming.This control can adapt to the operator/programmers ability, and you have a Machine that is not only ideal at complex large run production parts, but also perfect for quick set-up small lot production.MAIN LAYOUT∙ Fully alpha-numeric keyboard ∙ 4 axis control ∙ 8 feedback ports∙ RS 232 serial port ∙ RS 422 port ∙ 11” Color flat screen monitor ∙ Compact Design ∙ Manual feedrate override ∙ Digital probe input∙ Spindle speed override ∙ Cycle start and stop keys ∙ Spindle start and stop keys ∙ 512 MB flash memory ∙ Graphic coprocessor∙ Integrated powerful PLC w. logic analyzer ∙ USB port for easy program uploading∙ Automatic input voltage sensing with range from 85VAC to 265VAC single phaseOPERATING MODES∙ Execution mode ∙ Single block mode ∙ MDI/Teach-In mode∙ Jog/Manual mode ∙ Communications mode ∙ Conversational mode∙ Edit mode with graphic assist ∙ Simulation mode ∙ Background editing mode∙ Tool Inspection mode ∙ Parameter mode ∙ Diagnostics mode∙ Tool offset mode ∙ Utilities mode∙ Graphic Editor mode (cycle customization) ∙ Graphic Display with zoom mode CANNED CYCLES∙ Drilling cycles ∙ Circular pocket cycles ∙ Deep hole drilling cycles∙ Irregular pocket cycles ∙ Peck drilling ∙ Bolt-hole cycles∙ Tapping cycles ∙ Graph sequence bolt hole cycles ∙ Reaming cycles∙ Custom easy to use cycles ∙ Rectangular pocket cycles ∙ Digitizing & probing cycles DOCUMENTATION∙ Programming manual ∙ New features manual ∙ Operators manual∙ LAN manual ∙ Installation manual ∙ CD-ROM w/all manuals & brochures Fagor Color Graphic displays8055 solid sectional multi-view graphics is a standard feature∙ 4 axis CNC + spindle 4 axis simultaneous interpolation∙256k Ram Memory 500 MB Flash memory∙USB port for easy program uploading 10.4” High Resolution LCD color monitor ∙Gantry axes capability Axis coupling via PLC capability∙Advanced block look ahead∙On board PLC I/O Logic Analyzer Feed Forward∙DNC capability Simulation dry run modeSpindleOrientationM19∙WinDNC offline software program∙Linear, Circular and Helical Interpolation Tool Radius & Length compensationtimeestimatewith∙SimulationMDIModeMode∙JogModeoffset and Zero offset tablesTool∙Parametermanagement∙ 3 simultaneous graphic views w/ simulation∙Machining canned cycles-Rectangular & Round Boss, Rectangular Pocket, Circular Pocket, Profile Pocked 2D & 3D, Slot Milling, Profile Milling, Multiple Drilling cycles, Boring, Reaming, Arc bolt hole,Random position, & Grid Pattern position cycles.∙High Speed integrated PLC w/ 16 inputs / 8 outputs∙Digital Servo communication capability or conventional analog drive communication∙High Speed RS 232 serial port communication (115 K baud rate)Advanced Canned Cycles are a standard feature of the 8055iA∙All I/O, Power and Feedback connectors∙Full documentation with installation & start-up, Operating & Programming manuals.∙Arc tangent to previous path Mirror Imaging∙Tangential entry and exit Automatic chamfer blending∙Arc defined by three points Automatic radius blending∙Part Scaling (in part or whole) Programming in absolute arc center coordinatesselectionsplane ∙Mainselection Individualplane∙Definition of lower work area limits∙Zero offsets and auto-deletion of offsets referencing Probing cycles (option)Fagor 8055iA 3 Axis CNC ControlPage 4∙ Digitizing cycles (option)Automatic machine home sequence ∙ Preset of coordinate values Preset of polar originCanned cycles are made simple with a graphic assist screen and fill in the blank programming. Canned Cycles that make sense for everyday operation are standard affair with the 8055iA.Programming∙ DNC (RS232) Geometric help∙ Execution mode MDI mode (Manual Data Input)∙ Teach-in mode Play back mode∙ Single block mode Manual mode∙ Background editing mode Automatic tool calibration mode∙ Tool inspection mode with auto-return Mid program start∙ Programmable spindle speed Number of main programs: 999,999 *3∙ Number of nesting levels: 15 Repeat of sections of program∙ Zero offsets Feedrate: 0.00001 to 7900 inches/min. ∙ Machining canned cycles in all planes User defined canned cycles∙ On board graphic editor Override control for feedrate and spindle ∙ Editing in CNC language (ISO), High-Level, Profile Editor and Interactive Editor & Icon key driven conversational editor.∙ Assisted help mode for all programming commands∙ Number of repetitions of standard, parametric and modal subroutines: 9999∙ Parametric programming for: mathematical operations, conditional jumps and unconditional jumps. Includes 200 global parameters plus 27 local parameters times 7 levels.Tables∙ Unlimited zero offsets utilizing parametric parameters∙ Leadscrew error compensation tables Tool and tool magazine tables(100) ∙ Global and arithmetic parameter tables∙ Machining parameters and tables are stored in non-volatile memoryAll data needed to machine an operation is shown on a single conversational screen including: roughing & finishing pass dataLCD Display∙10.4” high res Color LCD monitor Solid graphics w/ zoom & rotation (opt)∙Display of execution time Display of parts counter∙Hour and date with battery backup Display of parameter values∙Single block/Continuous cycle Position and following error (axis lag)∙Parts simulation graphics with 3D, zoom, and up to four simultaneous views.∙ Comments included in the part program and name∙Open software commands allow for the customization of specific applications, by creating intelligent editors, custom screens and utilizing the on-board graphic editor which allowscreation of pages, symbols and windows.∙10 languages loaded, including English, Spanish, French, Italian, German, Dutch, Portuguese and more.Diagnostics∙Over temperature alarms Complete hardware fault alarmslimits Complete software fault alarm diagnostics ∙SoftwaretravelInput/outputstatus ∙Individual program travel limitsPLCmessages ∙Programmable program error Programmable∙Interface errors (feedback, servo system, external emergencies, etc.)∙Transmission errors with peripherals (such as PC, floppy disk drives, etc.)Compensation:∙Lead screw error compensation (up to 255 points per axis)Solid Graphics:Solid Graphics allows the Operator to define the stock dimensions, then the Operator can see the stock being cut to the finished part in a Solid Graphic representation.(Screen shot of Solid Graphics. Different colors can be assigned for different operations within the graphic. You may view or zoom the graphic from any angle)Fagor Intelligent Profile Editor (On-board mini CAD/CAM System)Blueprints do not always show the starting and ending points of each section or shape. With the Fagor Intelligent Profile Editor no calculations are required, simply enter the known data into the CNC and the CNC automatically calculates the Solution. When there is more than solution, all possible solutions are shown graphically so that you may choose the correct one.WINDNC Software:DNC software is a Windows based program that allows for the following capability:programs ∙UploadDownloadprograms∙Infinite Length program execution (Drip Feed mode) Offline parameter management∙Offline tool and zero offset table management Monitoring of CNC variables∙Complete part program editor with syntax checkingCompensation:∙Lead screw error compensation (up to 255 points per axis)∙(Profile Editor screen shot showing shop floor blueprint programming capability)Servo System:Glentek DC 3 axes System includes Power Supply, Axes cards, sealed motors with TTL rotary encoders with MS connectors. System loop is closed and fully functional upon arrival.So choosing and having us install a Fagor control onto your new Remedy machine is a valuable option for you. Keeping the same singular control brand in your shop allows you to keep training costs down and then all of your employees can the ability to operate all of your machine tools. We have many customers who love their Fagor controlled Mills and lathes !Come and Join the Remedy family of machine tool owners.。

固定资产管理系统系统需求规格说明书

固定资产管理系统系统需求规格说明书

固定资产管理系统系统需求规格说明书版本:1.0变更记录目录1.简介 (4)1.1开发背景 (4)1.2目的 (4)1.3业务范围 (4)1.4参考文档 (4)2.约束及假定 (5)2.1 软件运行环境以及技术约束 (5)2.1.1 软件约束 (5)2.1.2 资产约束 (5)2.2 交付及部署约束 (5)3.功能性需求 (6)3.1 系统角色 (6)3.2 需求描述 (7)3.2.1 资产维护 (7)3.2.2资产报损 (8)3.2.3资产出售 (10)3.2.4资产调拨 (11)3.2.5资产维修 (12)3.2.6 资产购置申请 (13)3.2.7 资产购置审批 (14)3.2.8 报表管理 (14)3.2.9系统用户管理 (15)3.2.10系统字典管理 (17)4.非功能性需求 (19)4.1 性能 (19)4.2 可扩展性 (19)4.3 可用性 (19)4.4 安全性 (19)4.5 易用性 (20)1.简介1.1开发背景系统名称:固定资产管理系统[以下简称FAM系统];本项目的任务提出者是某事业单位。

开发者为UCS公司;系统用户是使用此系统的工作人员;本项目是某事业单位信息化平台的一部分。

1.2目的本文档定义了FAM系统的详细需求,明确了FAM系统的功能内容、功能边界、开发途径。

1.3业务范围固定资产管理系统用来支持固定资产管理,包括资产管理、资产采购、报表管理、系统用户管理。

固定资产管理系统是一个桌面应用系统,由管理员操作。

1.4参考文档2.约束及假定2.1 软件运行环境以及技术约束2.1.1 软件约束FAM系统采用Java技术进行开发。

开发及运行的软件环境为:●Java开发包JDK:jdk-1_5_0_01-windows版●数据库SQL Server2000 或MySQL●开发框架:二层应用架构2.1.2 资产约束数据库服务器采用Intel P4(1.8G HZ)PC 工作站。

MESA操作手册(英文)

MESA操作手册(英文)

SERVO CONTROLLERSMV... SERIESOperating ManualEdition February 2001RECEIVING AND HANDLINGU pon delivery of the equipment, inspect the shipping containers and contents for indications of damages in curried in transit. If any of the items specified in the bill of lading are damaged, or the quantity is incorrect, do not accept them until the freight or express agent makes an appropriate notation on your freight bill or express receipt.C laims for loss or damage in shipment must not be deducted from your invoice, nor should payment be withheld pending adjustment on any such claims.S tore the equipment in a clean, dry area. It is advisable to leave the equipment in its shipping container until ready for use. Each amplifier is checked carefully before shipment. However, upon receipt, the user should make sure that the amplifier corresponds to or is properly rated in terms of rated voltage and current for the type of motor which is to be driven. The descriptive label affixed to the amplifier specifies electrical ratings.S afety and Application InformationA ccording to the enclosure the amplifiers, motors and power supplies may have live, uninsulated or rotating parts or hot surfaces during operation.T he inadmissible removing of the required cover, inproper application, wrong installation or operation may lead to personal or material damages. For further information please refer to the manual. Only qualified personal are permitted to install or operate the equipment.I EC 364, CENELEC HD 384, DIN VDE 0100, 0105, 0110 and national regulations must be considered.A ccording to these general safety information a qualified person is someone who is familiar with installation, assembly, commissioning and operation of the equipment. These person must have the appropriate qualifications.Order No: 74.019531 SPECIFICATIONS SMVE (1)1.1 A XIS M ODULES (2)1.2 O RDER E XAMPLE (2)1.3 P OWER S UPPLIES SMN/W (3)2 PRINCIPLES OF OPERATION (3)3 FUNCTIONS AND OPTIONS (4)3.1 B LOCK D IAGRAM (5)3.2 F UNCTIONAL D ESCRIPTION (6)3.3 F URTHER S TANDARD F UNCTIONS (6)3.3.1 External Current Limit (6)3.3.2 Integral Off Function (7)3.3.3 Second Input (Speed Command) (7)3.3.4 Armature Current Monitor I A-Monitor (7)3.4 PLS-F UNCTION (7)3.5 O PTIONS (8)3.5.1 Limit Switch OS 1 (8)3.5.2 Limit of Commutation Current OS 2 (8)3.5.3 Speed Demand Integrator (Ramp) OS 3 (8)3.5.4 Armature Voltage Control OS 4 (8)3.5.5 2. PLS OS 5 (8)3.5.6 Reset Switch OS 10 (8)4 POWER SUPPLY - MAINS TRANSFORMER (9)4.1 SMVE/E R ACKS (9)4.2 P OWER S UPPLY OF SMVEN D RIVES (9)4.3 E XTERNAL S UPPLY OF THE A UXILIARY V OLTAGE, V ARIANT 088 (9)5 ADJUSTMENT AND PERSONALISATION, VARIABLE COMPONENTS (10)5.1 P OTENTIOMETER (10)5.2 F IXED R ESISTORS - C APACITORS (12)5.2.1 Personalisation Plug X10 (12)5.3 I NTEGRAL G AIN OF S PEED C ONTROLLER (12)5.4 C URRENT C ONTROLLER (13)5.5 S ECURITY F UNCTIONS AND V ISUAL F AULT I NDICATIONS (13)6 WIRING (14)6.1 R ACK S YSTEM (14)7 SETTING UP THE AMPLIFIER (14)7.1 O FFSET A DJUSTMENT (14)7.2 A RMATURE C URRENT A DJUSTMENT I AMAX,I AEFF (15)7.3 S PEED A DJUSTMENT (15)7.4 S PEED L OOP A DJUSTMENT (P-GAIN) (15)8 FAULT FINDING AND REMEDY (17)9 FRONT VIEW (18)10 TERMINAL DESCRIPTION AND OTHER TECHNICAL DATA (19)10.1 F RONT C ONNECTORS X7 AND X8 (19)10.2 P OWER C ONNECTORS X6 B ACK OF THE A MPLIFIER (20)10.3 S OLDER S TRAPS (20)10.4 T EST P OINTS (21)10.5 F URTHER T ECHNICAL D ATA (21)10.6 F USES (22)10.7 R ACK S IZES (22)11 EXAMPLES OF CONNECTIONS AND DRAWINGS (23)11.1 M OUNTING S CHEME (23)11.2 C ONNECTION SMVE/E/N C ONTROL (24)11.3 R ACK C ONNECTION (25)11.4 S IZES SMVEN (26)11.5 F ORMS (26)12 CAUTION! (27)GeneralThe SMV series is a multi-axis speed control system for use with DC permanent magnet motors rated up to 10 kW. The regulators employ the well known Pulse Width Modulated (PWM) system for accurate control of motor speed and torque and operate with an efficiency better than 98 %.The system is designed to be modular so that several different motor sizes can be controlled from one rack. The use of a separate modular power supply unit (PSU) common to all of the drivers within the rack ensures high overall efficiency by allowing the transfer of energy between driving and regenerating motors.The energy dumping circuit is designed to clamp the DC bus rails to a maximum value in the event of all of the motors regenerating together. The excess energy is dissipated within a resistor which may be internal or external to the rack. The energy dumping circuit itself forms part of the power supply module.For limit values, please look the specifications. Inadmissible working conditions or wrong application of the amplifiers should be avoided.Never plug in or unplug any connectors on the amplifier when power is applied. A time of discharge of 3 minutes must be considered.1 Specifications SMVEPower StageInput voltage see 1.1 basis models SMVE/E/NOver voltage control see 1.3 basis models power suppliesOutput chopper frequency and formfactor approx. 8 kHz , f = 1.01 (with rated current)Protection short-circuit, ϑmax , - Îmax ;- U maxSpeed ControllerInput voltage 1Differential ± 10 V Ri = 20 KΩInput voltage 2Differential ± 10 V Ri = 20 KΩTacho input± 12 V ... ± 30 V Ri = 37 KΩCompensation network PI (D)P-gain correction with potentiometerI-gain correction with componentsSpeed control range1:20000 (stat.)stat. control default30...3000 U/min ± 0,1 %1...30 U/min ± 2 %< 1 U/min ± 5 %Current controllerBandwidth 1 kHzCompensation network PICurrent limit 1rms current I AeffCurrent limit 2max. armature current I AmaxEnable terminal X8/20 against 0 VSignalsDrive signal terminalX8/21 connected with X8/22Signal relay (dry relay contact)max. contact charge 160 VDC, 20 mADrive signal signal LED greenOver current signal LED redOver voltage signal LED redI²t rms current limit signal LED yellowLimit - PLS signal LED yellowGeneral SpecificationsOperating temperature ϑu0...45 °C, derating 2 %/ K from 45 °C onStorage temperature-10...+60°CCooling convection cooling or forced cooling (see table)Humidity65 % relative humidity max.Protection and isolation group IP 00 / C according to VDE 0110Mounting width and measurements see point 10.5, further specifications!Min. input voltage U CC > 60 VMax. operating voltage U CCN + 10 VSMVE/E/N 01V 2.1 E1SMVE/E/N 01 V 2.1 E21.1 Axis ModulesBasis modeU A I max I Neff U CCN U N τFanFeeding(in V)(in A)(in A)(in V DC)(in V AC)(in s)SMVE 10101002010125-5I N >8A DC SMVE 15101502010160-5I N >15A DC SMVE 15201504020160-5I N >15A DC SMVE 15301506030160-5I N >15A DC SMVE 24102402010250-5I N >15A DC SMVE 24202404020250-5I N >15A DC SMVE 24302406030250-5I N >15ADCSMVEN 151********(160)1135I N >15A AC SMVEN 152********(160)1135I N >15A AC SMVEN 24102402010(250)1775I N >15A AC SMVEN 24202404020(250)1775I N >15A AC 5SMVEE 15401508040160-5yes DC SMVEE 156015012060160-5yes DC SMVEE 24402408040250-5yes DC SMVEE 246024012060250-5yesDCU A : output voltage on U CCN ; Îmax : maximum output current ; I Neff : permanent output currentτ : time constant of rms current imitation, for operation of SMVEE amplifiers fan is necessary Other voltages or currents on demand.1.2 Order ExampleA) Standard without optionSMVE/E/N 2420 (M 99)Servo Module Speed Control Power stagemodification on demand Double power stage Rated current I Neff = 20A Power rectifierOutput voltage U A =240 VB) With Option Limit Switch: OS1SMVE/E/N 2410 002The article number (type label) builds the correct type name and can be asked from the producer.SMVE/E/N 01V 2.1 E 31.3 Power Supplies SMN/WPower supply U N (VAC)U CC (VDC)I N 1) (A)P rated (w)U on U off SMVE/E U Ü2)SMN 139012590 2 x 37513713010xx 140SMN 1911316090 2 x 37520219115xx 218SMN 2917725090 2 x 37530429224xx 320SMN 13 S 9012525 2 x 37513713010xx 140SMN 19 S 11316025 2 x 37520219115xx 218SMN 29 S 17725025 2 x 37530429224xx 320SMNW 139012525 1 x 20013713010xx 140SMNW 1911316090 1 x 20020219115xx 218SMNW 2917725090 1 x 20030429224xx 320SMNW 13 S 9012525 1 x 10013713010xx 140SMNW 19 S 11316025 1 x 10020219115xx 218SMNW 29 S 17725025 1 x 10030429224xx 320SMN 169011316090---15xx -SMN 259017725090---24xx -1) with fan 2) approximate valueThe SMN power supplies have two braking units in order to connect two external braking resistors. It works with one or two resistors. The SMNW power supplies are fitted with a internal braking resistor. For further information look the manual of our SMN/W range.NoteThe braking power rated should be calculated before the operation. If the permanent power is higher than indicated in the table, an additional module can be used. The working of the braking module is shown by short light up of the LED H1 (yellow) on the power module. If H1 is lighting up permanently - switch off the power supply immediately!Supply voltage is too high or braking time is too long. In this case contact the service!2 Principles of OperationThe servo modules are designed for rack systems in 6 sizes (HE). Their application range can be extended by using different options.In order to grant the high reliability of the system and the security of the personal, the following regulations have to be considered: VDE 0100, VDE 0160, part 1 and 2 in relation with VDE 0660, part 5 as well as VDE 0113.For limit values, please look the specifications. Inadmissible working conditions or wrong application of the amplifiers should be avoided.Mounting position:front connector verticalCooling:free convection or forced cooling necessary (Ch. 1.1) It is important that there is a free air circulation and no other sources of heat are near to the amplifier. The surrounding temperature must not exceed 45°C. .Connections:Do not connect or interrupt connections within the motor power circuit during operation. Never plug or unplug any connectors on the amplifier when power is applied. Consider the minimum time of 3minutes of discharge of the capacitors.Electronic supply:± 15 V are produced internally from the power voltage, maximum charge: 20 mA externalMains AC supply:via transformer with galvanically separated primary and secondary windingSMVE/E/N 01 V 2.1 E43 Functions and OptionsThe amplifiers of the SMVE/E/N range have all functions of a modern speed control system:• 4-Q-speed controller with internal current control • internal ± 15 V electronic voltage • control functions (Îmax , U CCmax , ϑmax )• dry relay contact for drive healthy signal • control signal for rms current: yellow LED• default signal: one red LED for over current and one for overvoltage • drive okay signal: green LED •dry relay contact for PLSSMVE XX XX DC power supplySMVEE XX XX "double power stage" for increasing power - DC power supply SMVEN XX XXAC current supply, 1- or 3-phase supplyThe main features of the SMVE range are high dynamics, stability and a large range of supply voltage (60 - 240 V).In addition special battery working amplifiers (24/48 V), amplifiers for increased supply voltage (310 V) and several options are available.Wherever high dynamics and precision are demanded, the SMVE range is first choice.SMVE/E/N 01V 2.1 E 53.1Block DiagramSMVE/E/N 01 V 2.1 E63.2 Functional DescriptionSpeed controllerfast PI controller, for exact control of motor speed by means of comparison of Speed demand and tacho voltage, produces current demand max. ± 10 V Current controllerfast PI controller for exact control of armature current enclosing the whole range of output voltage, produces control voltage for PWM Pulse Width Modulator (PWM)produces logic control signals for the power stage by special modulation technics Power stageMOS-FET, IGBT or bipolar power stage in bridge circuit for low-loss power control Armature current measuringfast measurement of the current value - standardisation I max = 10 V rms current limitcalculation, the rms value of the armature current and limitation on the adjusted value (I Aeff = 0,1- 0,5 I max ) time constant τ ca.5sI I Amax t 1= start acceleration I Aefft 2= start limitingτ = t 2-t 1 (without pre-charge)t 1t 2tLED H3 (yellow): signal for current limit, can be analysed by PLS (look Ch. 3.4 PLS function).Production of electronic voltage ± 15 V from the power voltage - DC/DC-converterFault indicationthe logic block.3.3 Further Standard FunctionsThe number of functions of the SMVE range exceeds the "conventionally" available standard functions and can be extended by additional "option boards".3.3.1 External Current LimitThe external current limit allows the fast limitation of the output current by applying a positive control voltage on X7 /PIN 6 (front). A voltage of 0...10 V corresponds to approx. 2...100% I max . If the input is open the maximum currentadjusted with P3 is correct. The external current limit is in addition to P3.3.3.2 Integral Off FunctionBy applying 0 V on X7 / PIN 10 the speed controller will be switched over from PI to P-mode. Thus a higher stability and a lower drift can be reached under certain conditions.3.3.3 Second Input (Speed Command)Two equivalent speed demand inputs are available on the amplifier. The weighting can be influenced by changing R111 input 1 and R112 input 2. This can be usefull for normal operation mode and adjustment mode, for example: Input 110 V = 3000 rpm ⇒ fast motionInput 2 10 V = 300 rpm ⇒ operation motion.3.3.4 Armature Current Monitor I A-MonitorA voltage proportional to the armature current is available (0...± 10 V ≈ 0...± I max).3.4 PLS-FunctionThe amplifiers of the SMVE range are fitted with an electronic comparator circuit (PLS - programmable limit switch). This receives signals from a jumper and may be triggered by any voltage within a 10 V range. The comparator triggers a variable delay timer (1 - 60 secs) adjustable by P58. The variable timer will either inhibit the output or switch a warning relay or both after the adjusted delay time. The required action is selected by jumper S1. The required input signal is selected by the jumper as shown in the figure.PLS-system - delay timeC72 is on soldering terminals and can be removed or modified if necessary.If required, the amplifier can be stopped, therefore S1 has to be switched on position 2.Jumper Position Name Consequence1OP Speed controller output / current demand2U T Tacho voltage3I A Armature current4U A Output voltage5I eff Rms current limitState of delivery:PLS jumper on pos. 5 - I eff3.5 OptionsFurther option boards are available (contact your local sales office).3.5.1 Limit Switch OS 1The limit switches become inactive when connecting 0 V. If the input remains open, the negative and/or positive speed demand will be blocked. The logic level is fixed by factory and cannot be changed, standard: negative logic. On operation of the limit switch the motor stops in the given direction with a maximum adjusted I Amax. Caution: do not connect voltage on the limit switch inputs!3.5.2 Limit of Commutation Current OS 2With certain motor types it becomes necessary to limit the armature current by high speed. By means of the armature voltage measuring and a plug module (X1) corresponding to the motor type the armature current will be influenced in a way that the required characteristic curve will be respected. We shall assure an exact dimension on every special application. For several different motor types corresponding modules are already available.3.5.3 Speed Demand Integrator (Ramp) OS 3The speed demand integrator is dedicated for "smooth" acceleration and deceleration of the motor, without having losses in exact control or control stiffness. The bandwidth of speed controllers becomes inferior for the speed demand. Every speed demand voltage, no matter if positive or negative, will be converted into a ramp. The time constant can be modified with P58 during operation, too.3.5.4 Armature Voltage Control OS 4With this option motors without tacho-generator can be controlled by measuring the armature voltage. At the same time there is the possibility to compensate the voltage drop (depends on current) in the armature circuit (IxR-compensation). Speed can be adjusted with P5.Both options are on a common board. The different functions can be chosen by switches. The option board OS 3 / 4 is plugged on the option connector X3. For SMVE and SMVEN there are different option boards available [please indicate on order].3.5.5 2. PLS OS 5If the monitoring exceeds one signal, it is possible to plug another PLS-module on the X3 option connector, this allows the monitoring of two signal at the same time.3.5.6 Reset Switch OS 10With the front switch it is possible to reset a fault without switching off the supply voltage.Further options on demand.4 Power Supply - Mains TransformerThe power supply of the SMVE/N control modules is always assured by a 1- or 3-phase transformer with separated primary and secondary winding. The star point of the transformer will not be connected. The transformers delivered by us correspond to VDE 0550 regulations and are equipped with IP00 protection. They can be applicated in switch cabinets with the same power with surrounding temperatures up to ϑu = + 40°C. Standard winding of the transformers is according to vector group Y Y0 (the star point cannot be connected).4.1 SMVE/E RacksIn racks (SMVE/E) the power supply is assured via a common power module, type SMN/W XX. Therefore also a braking unit is available.4.2 Power Supply of SMVEN DrivesThe SMVEN amplifiers are equipped with an internal power rectifier, by this means a direct supply with AC voltage from a corresponding transformer (separated winding) is possible. The big capacitor battery absorbs the braking energy. If necessary an additional capacitor or a braking module can be connected on X6 / PIN 14/24. The amplifiers should be mounted in an upright position (see table 1.1). The earthing of the amplifier should be effected via X6 / PIN 28-32. You have to earth X6 / PIN 26, too. A direct connection to the power connector PIN 26 with X6 / PIN 28 is recommended.4.3 External Supply of the Auxiliary Voltage, Variant 088The auxiliary voltage is normally produced by the power voltage. In some applications separated supply can be helpful. By this the complete electronics (± 15 V) are supplied from aux. voltage. The power supply can be feeded separately if necessary. In this case you can order variant 088 and connect voltage to X6 / PIN 10. The range of voltages is the same as for the corresponding power supply. This function can be useful in case of service, when the power stage is running with reduced voltage.5 Adjustment and Personalisation, variable ComponentsThe controller modules of the SMV range offer a lot of different modes of adjustment, personalisation and options. In order to achieve the best configuration for your application, please note the following indications.5.1 PotentiometerTacho signal adjustment: P3Standard adjustments:left end position30 V Tacho voltage correspond 10 V speed demand (R111 = 22 KΩ)right end position12 V Tacho voltage correspond 10 V speed demand (R111 = 22 KΩ)The range of input voltage can be extended by reduction of R31.247R31 = -----------U Tmax = max. Tacho voltageU Tmax-10Offset: P1With a speed demand of 0 V the turning of the motor shaft can be stopped by P1. If the offset is not adjustable, you have to check the wiring and eventually the external charge of the ± 15 V. If necessary, the adjustment can be repeated after having achieved the operation temperature.Proportional Gain:P2Standard adjustment:right end position:2000left end position:20Max. Armature current I Amax : P4Standard adjustment:right end position:I Amax = 1 x I max = type-max. currentleft end position:I Amax = 0,03 x I max (No.1.1)The maximum armature current can be limited by the correct choice of the fixed resistor R24 (see table, No. 5.2). With that you can avoid a wrong adjustment on the P4 potentiometer.Current Balance:P7Adjustment of the internal armature current measuring! Fixed adjustment by the factory, it is not allowed to change! Motor Effective Current I Aeff : P5Standard adjustment right end position:I Aeff = 1 x I Neff = type permanent currentleft end position:I Aeff = 0,1 x I Neff (No. 1.1)The maximum rms. value of the armature current (I Aeffmax) can be limited by the correct choice of the fixed resistor R165 (see table No. 5.2). With that you can avoid a wrong adjustment on the P5 potentiometer.5.2 Fixed Resistors - CapacitorsSpeed demand value 1R111state of delivery:22 KΩSpeed demand value 2R112state of delivery:22 KΩTacho value R31state of delivery:12 KΩIxR compensation R12state of delivery:not mounted lntegral part speed controller C2state of delivery:0,1 µFP-gain R21state of delivery:330 ΩCurrent controller P-gain R4state of delivery:110/220KΩCurrent controller I-gain C4state of delivery:15/6,8 nF Time constant PLS C72state of delivery:100 µF Limit of modulation rate R53state of delivery:not mounted Max. armature current I Amax R41state of delivery:not mounted Max. effective currentI AeffmaxR51state of delivery:18 KΩPI-gain R22state of delivery:330 KΩReduction of a type valueon:R41 maximum armaturecurrent I AmaxR51 effective armaturecurrent I AeffmaxR53 modulation rate100 %-18 KOhm-90 %91 KOhm13 KOhm-80 %39 KOhm10 KOhm-70 %24 KOhm7,5 KOhm27 KOhm60 %15 KOhm5,1 KOhm18 KOhm50 %10 KOhm3,6 KOhm12 KOhm40 %6,8 KOhm2,2 KOhm8,2 KOhm5.2.1 Personalisation Plug X10On the personalisation plug X10 the most important variable components are integrated.16 poles Dil-HeaderPIN Component Remark1 - 16C2I-part speed controller2 - 15R22PI-gain3 - 14R21P-gain4 - 13R53modulation rate5 - 12R41I Amax6 - 11R31tacho evaluation7 - 10R111speed demand value 18 - 9BR9no enable if open5.3 Integral Gain of Speed ControllerC2 defines the characteristics of the control circuit. Increasing the value leads to smooth, not critical control, the reduction is responsible for hard, fast control, but also for increasing tendency to oscillations. Normally the behaviour can be adjusted with the P-gain. An increase of C2 is recommended in case of high inertia.Proportional Gain Speed Controller P2 / R 21 / R22The proportional gain of the speed controller can be modified by P2 and R21 without any influence on the time constant T N. By alteration of R22 time constant and amplification can be influenced.5.4 Current ControllerThe current control circuit of the controller modules has been adjusted by the factory and should not be changed. If a changement becomes necessary because of a special application, it can be altered by R4/C4 PI-component of the current controller. Afterwards it is necessary to check correct function of the current control circuit.5.5 Security Functions and Visual Fault IndicationsReactions in case of default:a) stop of power stageb) "ready"-Relay-contact opensc) warning through LED indication (H1+H2 red), green LED (H5) is no more lightingThe fault is registered until switching off the power voltage or reset by reset switch OS 10.Overcurrent and Short Circuit Sensor and Earthing Monitoring:Electronical, extremely fast security circuit (delay time approx. 6µs). The power stage is protected even in case of a complete short circuit. Also control defaults on the power stage or defaults in the driving electronics are indicated.Reaction:look above (a,b,c)Indication: fault "I"Over Voltage Control:In case of over voltages of the dc voltage power supply U CC, the fault will be indicated (for the limit see technical data).Reaction:see above (a,b,c)Indication: fault "U"± 15 V-ControlIn case of sudden decrease of voltage of the electronical supply voltage below ± 12 V, the fault will be indicated.Reaction:see above (a,b) fault will not be registered Indication: fault "I" and "U" Temperature Control of the Power Stage:A temperature sensor controls the temperature of the power stage heat sink. If the temperature of the heat sink is higher than 90°C, the power stage will be stopped.Reaction:look above (a,b,c)Indication: fault "I" and "U" Reset:after fault correction or after cooling of the power stageswitch off and switch on the power voltage or use the reset (OS10)Under Voltage ControlThe drives are running from 50 VDC supply voltage on. In case of values lower than 50 V the power stage will be blocked and signals light up. Indication: 2 x LED red, "fault U" and "fault I", Reset: when the voltage is higher than 50 VDC.6 Wiring1. It is important that the amplifier is properly earthed.2. When connecting the motor cables you have to consider that voltages with very high differences occur. It isrecommended to connect the motor cables far away from the control cables. Every motor needs a separate cable, which should be shielded in order to reduce electrical noise.3. The control equipment and the amplifier must operate at the same potential.4. The speed demand inputs are differential inputs. The polarity can be adjusted according to application. Important:The speed demand voltage must be connected galvanically with the GND PIN. If necessary you have to arrange one pole in a bridge circuit with 0 V.5. Shields must not be used for potential equalisation and have to be connected to earth on both sides.6. It is recommended, especially in case of multi-axis racks, to install a separated earth rail near to the drives.7. All control and signal cables must be drilled and shielded in pairs.8. Speed demand and tacho cables must be connected shielded in pairs.9. If cables with two outside shields are used, the outside shield must be earthed on both sides (look point 5), theinside shield has to be earthed with the amplifier. The GND contacts (X 1) of the controller modules are not suited for being connected with the shield cable.10. T he main supply connection has to be made in a way, that no peak voltages can be produced when the amplifiersare switched on or off, otherwise you have to arrange for a over voltage protection.6.1 Rack SystemThe mechanical construction is arranged in a way that wall mounting or swivel frame mounting is possible. Fixing is possible on the front (SMRS) or on the back (SMRA).The rack mounting begins on the left side with the power supply module or controller module, further controller modules follow in order of rated current. For the width of the modules and sizes of the racks please read chapter 10.6 and 10.7.7 Setting up the AmplifierBefore setting up the amplifier modules, please check the following:- earthing according to Chapter 6.1-9 and connection example- transformer voltage- wiring- special adjustments- rated current and rated voltage of the amplifier- are all variable components mounted in accordance with the application- are all switches in the right position- are all brides closed according to the required functionPre-Adjustment of the Potentiometers before Switching on(only necessary if not adjusted by the factory)- P-gain P2 on left limit- I Amax P4 on left limit + 5 turns, if not adjusted by the factory.- I Aeff P5 on left limit + 10 turns, if not adjusted by the factory.7.1 Offset AdjustmentDisconnection of the speed demand or 0V indication. Switch on the amplifier and enable. Possible reactions:a) Fast drift of the motor on high speed, depends on position of P4 (I Amax-adjustment).Reason:Confusion of the control circuit polesRemedy:Correction of the poles of the tacho or motor connectionsb) The motor does not turn or drifts very slowly, also in case of right stop of P4 I Amax. If positive or negative speed demand is indicated, the motor reacts with running right-handed or left-handed. You have to check the "speed demand polarity" in relation to "direction of turns" and if necessary to change the speed demand inputs. Repeat the offset adjustment 5-10 minutes later (amplifier should have operation temperature!).。

火灾报警控制器操作手册nfs-640诺帝菲尔.doc

火灾报警控制器操作手册nfs-640诺帝菲尔.doc

火灾报警控制器NFS-640操作手册目录第一章简介 (4)1.1 产品描述 (4)1.2 操作特征 (4)第二章控制器的使用 (5)2.1 简介 (5)2.2 系统状态指示LED灯 (5)2.3 控制键 (6)2.3.1 确认/滚动显示 (6)2.3.2 信号消音 (6)2.3.3 火警演习 (7)2.3.4 系统复位 (7)2.3.5 灯检 (7)2.4 编程键盘 (7)第三章控制器操作 (9)3.1 概述 (9)3.2 正常操作模式 (9)3.3 火警操作模式 (10)3.3.1 控制器怎样显示火警 (10)3.3.2 响应火警 (10)3.3.3 火警类型编码 (11)3.4 系统故障操作模式 (12)3.4.1 系统故障的显示 (12)3.4.2 响应系统故障 (12)3.5 预警操作模式 (13)3.5.1 控制器的显示 (13)3.5.2 响应预警 (13)3.5.3 预警类型编码 (14)3.6 隔离点操作模式 (14)3.7 非火警操作模式 (14)3.7.1 非火警点用途 (14)3.7.2 激活的火灾控制的显示(Fire Control 类型码) (15)3.7.3 激活的非火灾点的显示 (15)3.8 激活的故障监视操作模式 (15)3.8.1 激活的故障监视的显示 (15)3.8.2 响应激活的故障监视 (16)3.9 输出线路故障操作模式 (16)3.9.1 概述 (16)3.9.2 NAC故障的显示 (17)3.9.3 多线制线路故障的显示 (18)3.9.4 控制/继电器故障的显示 (18)3.10 专用系统定时器的操作 (19)3.10.1 什么是系统定时器? (19)3.10.2 查看系统定时器选项 (19)3.10.3 系统定时器 (19)3.10.4 消音抑制定时器 (20)3.11 水流指示器线路的操作 (20)第四章读状态操作 (21)4.1 简介 (21)4.1.1 进入读状态 (21)4.1.2 查看和打印读状态 (21)4.2 查看器件、分区和系统设置 (22)4.2.1 概述 (22)4.2.2 显示已安装的器件总数 (22)4.2.3 显示点或分区 (22)4.2.4 电池的状态 (28)4.2.5 查看事件和火警的历史记录 (28)4.2.6 打印点、事件和火警历史 (29)4.2.7 查看和打印隐藏事件及火警历史 (30)附录A:特殊区操作 (32)概述 (32)释放区(R0-R9) (32)释放区用途 (32)查看释放区选项 (32)释放区的工作过程 (33)时间、日期和假期功能 (35)概述 (35)查看时间控制选项 (35)查看假期功能选项 (35)时间控制和假期功能 (36)附录B:智能探测器功能 (37)1第一章简介1.1产品描述NFS-640是模块化的智能火灾报警控制器(FACP),它具有广泛的适应性,能满足大多数应用。

华电国际FAM系统建设介绍

华电国际FAM系统建设介绍

华电国际ERP系统功能拓扑
资金 管理
项目
检修
预 算 费用
管理
合同
采购 库存
燃料
分析
执行
优化
编制
FAM系统起到的主要作用
为公司提供了一个全面集成的,便于扩充业务平台,加 强了内部信息共享,减少了重复数据输入,提高了管理 效率。
有利于进行管理体系的快速部署,快速优化管理模式 有利于各单位间的资源和知识共享 有利于进行业务监控和风险控制
第一阶段工作
第一阶段工作
主要内容: 为了降低实施难度,确保项目成功,第一
阶段主要工作集中在三个方面:
管理流程梳理 基础数据整理 标准功能实施
燃料 数据 采集
设备 数据 采集
供应商门户
燃料管理 合同管理
总账管理
采购 管理
借款 管理
应付 账款
资产 管理
物资超市管理
费用 报销
应收 项目 资金 账款 管理 计划
虚拟化和云计算将改变信息系统后台架构,为系统带来稳定 可靠的支持。
SOA和AJAX技术将继续在更大范围上深化应用,并将改变现 有的系统架构及开发模式。
实施组织
华电国际为实施ERP项目,成立了信息管理公司做 为实施机构,七年来,信息管理公司已独立实施了 30余家发电企业。
信息管理公司建立了完备的咨询、开发、实施、系 统管理、网络及系统集成队伍,电力背景深厚,能 够为发电企业提供完整的IT规划、管理咨询、系统 实施、系统集成服务。
期待我们的经验对大家有所帮助。
谢谢大家
系统得以持续稳定运行的基础保障
产品应用体会
产品集成化、接口规范化,以财务为核心是使用全系列ERP产品的 优势。
产品理念和实际应用总有差距,有实施原因,也有产品原因,但妥 协是必要的。

DreamFa系统管理员手册

DreamFa系统管理员手册

DreamFax 7.0系统管理员手册(企业版)索享(北京)科技有限公司Sosano (Beijing) Science&Technology Co.,Ltd目录手册概述DreamFax7.0系统管理员手册,属于索享(北京)科技有限公司自主研发的DreamFax 传真服务器产品的组成部分。

本手册主要内容包括DreamFax7.0产品概述、功能介绍、产品安装、系统配置、系统管理、系统维护、用户管理等内容。

DreamFax7.0系统管理员手册主要适用于DreamFax7.0产品的正式或潜在用户的系统管理员,本手册的编制是使用相对专业性的软件操作术语,充分的解释该软件系统的配置和管理,使系统管理员通过本手册能够了解该软件的原理及用途,并且能够对系统进行设置与系统维护。

DreamFax7.0系统管理员手册仅限于DreamFax7.0版本。

其的版权所有者科技有限公司具有最终解释权。

产品概述系统概述DreamFax采用B/S与C/S两种方式协调统一的传真系统,无论哪种方式都能够充分的利用企业网络资源使用户可以直接在自己的电脑桌面上完成收发传真的工作,两种方式应用于不同的工作方式或者同时应用,DreamFax还提供和企业邮件服务器连接的接口,员工通过电子邮件同样可以完成传真收发的工作。

DreamFax传真服务器系统,能够有效的帮助企业员工提高工作效率,使发送传真不再需要排队等候打印机、复印机或传真机,节省大量工作时间,提高工作效率;集中式管理传真设备及传真文件,使企业大大降低设备管理及文件管理成本,促进企业信息化建设;使用电子文档直接发送及接收传真电子存储,使企业节省耗材,同时节约国家资源,有利于国家环保事业。

系统结构DreamFax7.0传真服务器架设在企业局域网或广域网中间,与企业各种服务器(Email服务器、OA服务器等)、网络终端设备共同组成了DreamFax7.0传真服务器系统,网络终端设备可以直接访问DreamFax7.0传真服务器完成传真收发工作。

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F A M设备管理模块操作员手册Document number【980KGB-6898YT-769T8CB-246UT-18GG08】华电青岛发电有限公司FAM设备管理模块操作员手册2014年5月12日华电国际·青岛公司目录一.FAM升级管理模块简介 (001)二.FAM系统新功能简介 (001)三.几个重要的时间节点 (002)四.第一次使用新FAM系统 (003)五.本次升级内容详述 (007)(一)设备管理 (007)(二)设备台帐 (070)(三)故障查询 (087)(四)预警管理 (093)六.其他需要说明的问题 (099)一、FAM升级管理模块简介华电国际财务及资产管理系统(简称FAM)是华电国际2004年集中部署的ERP业务系统,该系统包括财务管理、生产管理、物资管理、合同管理、燃料管理等功能模块,是公司生产经营管理的核心应用系统。

华电国际于2013年初启动了FAM系统升级项目,实现与集团公司ERP功能一致,全面满足与集团公司ERP集成要求;以财务管理为核心,实现财务与业务管理的信息全面集成;对关键信息进行深度挖掘,实现生产管理指标的汇总生成,支持辅助生产决策分析和企业经营活动分析;实现公司管理的关键审批流程通过FAM系统完成,并能够追溯;实现快报、月报、年报在FAM系统生成,为领导提供决策支持。

二、FAM系统新功能简介1.设备管理----基础信息管理内增加设备台帐、设备预警中心、故障查询和故障信息填报2.缺陷管理实现运行与检修模块分开。

(1)运行不再使用工单填报缺陷,而是使用一个WEB界面创建缺陷请求进行缺陷工单的填报。

(2)检修部门认领缺陷生成一个检修工单,把相关内容填写入工单内,进行审批验收。

(3)在检修缺陷认领工单内增加“申请仲裁”选项。

该选项可将争议缺陷或不是本部门(班组)的缺陷提交生技部相关人员仲裁。

3.设备管理----维护管理内增加检修定期工作查询与执行。

定期工作分为简单定期工作和复杂定期工作。

(1)简单定期工作:不需要物料,不需要验收,规则简单,按时间完成(2)复杂定期工作:需要领物料,需要验收,需按一定规则完成4.材料计划将计划与耗用分开。

计划依然按照原来的提报方式提报。

物料需要按照实际需要进行领料,不能提报多少就领取多少。

缺陷工单和检修工单需匹配物料进行领料。

5.对检修工单进行优化。

6.以上为5月2日FAM上线前能够实现的内容。

后续升级内容正在开发中。

三、几个重要的时间节点年5月03日0:00,原FAM系统停机,华电国际将会把原系统的数据复制到新系统中。

新系统升级约10天的时间。

年5月03日6:00,原FAM系统开放,之做上报缺陷和缺陷处理使用。

年5月11日6:00,新版FAM系统正式上线开放使用。

新版FAM系统不再有原版FAM系统的数据。

所有的报表的数据统计需要结合新老系统使用。

四、第一次使用新FAM系统年5月11日6:00起使用正式环境进行日常FAM系统的工作流程。

请不要在正式环境进行测试工作,如需测试请进入2.各浏览器版本的登录及兼容性问题(1)IE9及以下用户用户请使用IE浏览器输入地址后直接进入FAM系统。

(2)IE10用户请按以下步骤操作:A.请输入FAM地址(以测试环境为例)B.登录后,IE10用户请在地址栏最右侧点击兼容性视图标签。

界面即可显示正常。

(3)请输入自己用户名和口令进行登录。

PS:暂不支持IE11,若为IE11请自行卸载IE11,将浏览器版本恢复到IE8或IE9。

若界面显示为英文,请点击简体中文。

3.进入主界面后,在左侧主界面的树状图上随意点击一个FORM(例如:工作单)会出现如图所示的提示:点击这个黄色提示,点击“运行此加载项”会出现以下提示,请点击“是”。

之后点击“接受”随后开始下载并安装JAVA安装完成后将会自动刷新页面,如果不能自动刷新,请再随意点击一个FORM。

之后会出现几个安全警告,全部点击“运行”或“允许”之后便可正常使用FAM系统。

五、本次升级内容详述(一)设备管理1.材料计划管理材料计划创建操作说明:业务部门提交材料计划。

操作路径:170-EAM设备管理(或EAM生产管理或EAM一般管理)->工作单->工作单操作步骤1.进入查找工单页面,单击“新建”按钮,创建一新工单图(工单新建与查询页面)2.“新建”工单界面。

单击图(材料工单录入页面)3、点击资产编号,自动带出工作单编号,状态为“录入”起始日期默认为当前日期。

输入资产编号回车,自动带出资产说明、资产组、优先级(默认为三类)及部门,部门默认为资产编号部门;如果是事故备件材料计划,需要在事故备件栏上打勾。

分类栏选择“材料计划”出现材料计划页签,页签只显示“主要”“项目”“审批信息”。

填写“主要”“项目”信息填写正常。

“项目”为必填项,填写时应自动检查部门是否对应,完成后自动带出“离散任务”填写工单负责人(非必填项)。

保存时无其他提示。

图(物料进入页面)4. 点击物料按钮,画面弹出正常;画面增加了“财务分类”一栏;选择物料,在长列表中输入“%”号查找物料。

图(工单物料页面)5.系统物料界面正常弹出在物料选择的LOV 界面,界面添加了“单位”、“价格”字段。

图(物料选择页面)6.选择物料正常,必须数量默认为1,日期默认为下月20号。

创建新物料时,“支出类型”自动带出,支出类型未填写时,保存时提示错误;供应中增加“子库存”字段;增加增加物料的数量在“主要”界面“必须”栏可修改,“备注”栏可填写文字,且保存正常。

新建材料计划工单,填写完成工单保存时,检查项目预算并提示。

图(物料页面)图(物料查看页面)增加2.材料计划提报,审批操作说明:提交与审批材料计划操作路径:170-EAM设备管理(或EAM生产管理或EAM一般管理)->工作单->工作单操作步骤1.点击审批按钮,弹出审批工作流,填写描述信息后(非必填),点击提交审批时,检查项目预算,不符合要求时提示。

点击“审批”按钮,可以转到审批工作流界面填写完成后点击“提交审批”,状态改为“审批中”并自动转到审批人工作流图(工单页面提交审批)2.审批人在通知页面可查到需要审批的材料计划工单通知,单击选中的工单后可进入材料计划审批页面;单击参考“华电工作单”可进入工单修改物料。

点击“批准”按钮,工单状态变为“下达”状态。

审批人如果拒绝材料计划,可以直接点击”拒绝”。

状态变为“录入”状态,并返回提报人。

选择图(审批人主页通知页面)单击单击3.材料计划匹配查询操作说明:通过报表查询材料计划匹配情况操作路径:170-设备管理超级用户->生产信息维护->工作单->工具操作步骤1.工单状态下,点击“报表”可进行“材料计划匹配查询”单击4.缺陷管理缺陷录入操作说明:运行人员通过此功能录入缺陷。

操作路径:170-EAM运行管理-青岛公司-缺陷请求操作步骤1.通过操作路径,进入缺陷请求页面,点击创建缺陷请求单击2.缺陷请求界面自动带入“缺陷发现人”及“班组”、默认检修部门、缺陷等级默认为“三类”“消缺截止日期”默认为当前日期加上24小时;选择设备编码,选择缺陷等级,选择缺陷请求类型,录入缺陷详细描述,选择缺陷专业,更改缺陷发现人。

填*”号的为必填项,必填项未填写,保存时提示。

写界面带“3. 点击保存按钮,可以将这条数据保存,生成缺陷编号。

保存后的缺陷请求可进行修改,“请求附件”及“创建信息”可进行选填。

4. 点击提交按钮,缺陷状态会变为“已确认”状态。

至此缺陷请求创建完成。

此条缺陷不能修改,检修人员可认领创建工单。

图(缺陷请求提报页面)5.缺陷查询与修改操作说明:查询缺陷的执行情况,也可以对“录入”状态的缺陷进行修改。

操作路径:70-EAM运行管理-青岛公司-缺陷请求操作步骤1.输入查询条件,查询需要修改的缺陷。

图(缺陷请求查询页面)2.通过编号链接进入缺陷页面,点击“更新”按钮,可以对缺陷的内容进行更新。

单击图(缺陷页面)3.更新完缺陷内容后,可以点击保存或提交按钮。

单击Array图(缺陷更新页面)4.在缺陷请求查询页面,输入条件可查到提报的缺陷。

缺陷状态变为“已确认”状态,6.缺陷转发与仲裁操作说明:检修人员在认领缺陷时,发现非本部门缺陷。

需转到相关部门进行仲裁。

操作路径:170-EAM设备管理-青岛公司>缺陷管理>缺陷认领操作步骤1.通过操作路径打开缺陷认领页面,查询到相关的缺陷,点击“申请仲裁”按钮。

图(缺陷认领页面)确认的缺陷2.弹出仲裁申请页面后,输入仲裁的原因。

点击“提交”按钮会发通知给缺陷仲裁人。

缺陷仲裁人为多人时,可在转发至中选择具体的缺陷仲裁人,若不选择则每个人都收到通知。

图(仲裁申请页面)3.仲裁申请提交后,仲裁人在主页通知列表中会收到仲裁通知。

点链接进入通知列表可以修改部门与缺陷预计解决时间。

点击“确认”按钮后。

缺陷会分配到新的部门。

图(缺陷仲裁页面)7.创建缺陷工单操作说明:通过缺陷认领页面创建工单。

操作路径:170-EAM设备管理-青岛公司>缺陷管理>缺陷认领操作步骤1.根据操作路径进入缺陷认领页面,查询到需要处理的缺陷。

点击“创建工单”。

图(缺陷认领页面)2.生成工作单时,能自动将缺陷对应的设备编码、所属部门和缺陷详细信息带入到工单创建界面。

图(缺陷工单创建页面)3.缺陷工单填写完成后,将工单状态修改为“已认领”。

8.缺陷工单匹配材料计划操作说明:缺陷工单需要物料时,需要匹配材料计划工单进行领料。

操作路径:170-设备管理(或生产管理)->工作单->工作单操作步骤1.打开工单后,点击物料按钮,弹出物料页面。

点击匹配材料计划工单,进入材料计划工单查询界面。

图(工单物料页面)2.根据材料计划工单或者选择项目与任务进行查询。

以查找“项目”为例,选择“项目”、“任务”,单击“查找”。

选择选择单击图(查询物料页面)3.查到物料后,进入匹配界面,根据需要进行物料需求的匹配,在本次匹配数量中修改数量,在总需求数量中填写本次工单消缺需要的物料总需求数量。

单击“匹配”按钮进行匹配。

单击图(匹配页面)匹配完成物料显示在下面,单击“确定”保存匹配的物料需求。

4.5.当需要修改时,进入到物料需求匹配的修改界面在修改界面调整物料需求数量完成物料需求匹配。

6.可修改本次匹配数量,总匹配数与本次匹配数量之和不能大于量需求数量。

完成后可去物资仓库领料。

图(物料需求数量页面)9.缺陷工单延期操作说明:缺陷不能及时消缺,需要延期时,通过此功能进行延期操作。

操作路径:170-设备管理(或生产管理)->工作单->工作单操作步骤1.打开工单,单击缺陷延期页签,进入延期界面。

单击单击2.选择延期类型,填写延期原因与延期时长。

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