JNFDR分界开关控制器说明书B

FZW28-12F（FDR）型用户分界真空负荷开关安装使用说明书北京双杰电气股份有限公司BEIJING SOJO ELECTRIC CO.,LTD一、概述FZW28-12F（FDR）型用户分界真空负荷开关（简称分界开关）是用于柱上安装的场合，具有手动和电动操作功能。

本开关本体采用FZW28-12，本开关为免维护负荷开关。

采用真空灭弧和SF6气体做对地及相间绝缘介质。

本产品符合：GB3804《3.6K V～40.5KV高压交流负荷开关》及GB11022《高压开关设备和控制器设备标准的共用技术要求》。

本说明书描述了分接开关的结构、功能和安装方法。

FZW28-12F型分界真空负荷开关（FZW28-12开关本体与FDR-01控制器）具备故障检测功能，保护控制器功能和通讯功能，安装于10KV架空线路上，可实现自动切除单相接地故障和自动隔离相间短路故障。

安装点适用于10KV配电用户进线的责任分界点处，也可以适用于符合要求的分支线T接处。

不能串联使用。

警告：严禁打开封盖！除柱上安装螺栓和螺帽外，请勿松卸、紧固所有螺栓和螺帽！分界负荷开关的故障处理方式基本功能自动闭锁相间短路故障快速定位故障点自动切除单相接地故障看门狗开关的故障方案处理过程以相间短路故障为例：“看门狗”在监测和封锁故障的同时还可以灵活地实现对T接用户实施负荷监控的要求。

本产品适用于城市10KV用户T接控制点的设备新装与改造。

其具有以下几个优点：用户支线发生相间短路故障时，分界开关在变电站断路器或重合器保护跳闸后立即分闸闭锁，变电站重合后，馈线上的其他分支用户迅速回复供电。

用户支线事故造成分界开关保护动作后，责任用户停电，由其主动报送事故信息，电力公司派员现场可通过掌上电脑或通讯模块排查事故原因。

用户支线发生单相接地故障时，分界开关自动分闸；变电站及馈线上的其他分支用户感受不到故障的发生。

1）可靠：耐冲击的吊装式运行方式满足万次动作寿命，全密封结构和绝缘出线电缆连接，真正意义的全免维护，适合长期运行和频繁操作；2）安全：真空灭弧方式，内置串联隔离刀与灭弧室异步联动，更增加分合安全性；开关上方设置压力释放点，在极端情况亦能可靠保证人身安全；3）简捷：无论是拉杆手动操作，还是电动控制操作，都简捷明快，没有往复储能的过程，分合一步到位。

O USER SETTABLE TRIP FREQUENCY FROM 0.1 Hz to 25 KHzO OVER-SPEED, UNDER-SPEED, AND ZERO-SPEED DETECTION O RELAY LATCHING, ALARM OVERRIDE, AND ALARM RESET FUNCTIONSO PROGRAMMABLE INPUT CIRCUIT ACCEPTS OUTPUTS FROM A VARIETY OF SENSORSO HYSTERESIS AND OFFSET FUNCTIONS AVAILABLEO85 to 250 VAC and 9 to 32 VDC VERSIONS AVAILABLEO INPUT AND RELAY STATUS INDICATION LED’SDESCRIPTIONThe Model IFMR accepts a frequency input, and controls a single relay (SPDT) based on the value of the input frequency. The Trip frequency can be set to any value from 0.1 Hz to 25 KHz. The IFMR can be set to trip on overspeed, or underspeed (including zero speed). Offset and hysteresis values can be incorporated into the trip setting to eliminate output chatter. LED indicators for both the Input signal and the Relay status are provided. Two separate input connections for external push-buttons are also provided. One external input overrides the trip detection function, and holds the relay in the release state as long as the input is pulled to common. The other external input clears a latched trip condition when pulled to common.The IFMR utilizes a seven position DIP switch, a rotary switch, a push button and two indication LED’s to accomplish input circuit configuration, operational parameter set-up, input signal, and relay status indication. The input circuitry is DIP switch selectable for a variety of sources.The indication LED’s are used during normal operation to display the input signal and relay status of the IFMR. These LED’s are also used to provide visual feedback to the user of the current parameter settings during parameter set-up.The IFMR operates in one of six output modes, as selected by the user. The programmable Minimum Response Time provides optimum response vs. input filtering for any input frequency. The offset and hysteresis settings provide flexible adjustment of the relay trip and release points.The unit is equipped with a universal mounting foot for attachment to standard DIN style mounting rails, including top hat profile rail according to EN 50 022 - 35 x 7.5 and 35 x 15, and G profile rail according to EN 50 035 - G32. SAFETY SUMMARYAll safety related regulations, local codes and instructions that appear in the manual or on equipment must be observed to ensure personal safety and to prevent damage to either the instrument or equipment connected to it. If equipment is used in a manner not specified by the manufacturer, the protection provided by the equipment may be impaired.WARNING: SPEED SWITCHES MUST NEVER BE USED AS PRIMARY PROTECTION AGAINST HAZARDOUS OPERATINGCONDITIONS. Machinery must first be made safe by inherentpersonnel in the event of a hazardous machine speed condition. The speedswitch may be installed to help prevent the machine from entering the unsafespeed.SPECIFICATIONS1. POWER:AC Powered Versions: 85 to 250 V AC; 48 to 62 Hz; 5.5 V ADC Powered Versions: 9 to 32 VDC; 2.0 WPower Up Current: Ip = 600 mA for 50 msec max.2. SENSOR POWER:(AC version only)+12 VDC r25% @ 60 mA max.3. OPERATING FREQUENCY RANGE:0 Hz to 25 KHz4. SIGNAL INPUT:DIP switch selectable to accept signals from a variety ofsources, including switch contacts, outputs from CMOS or TTL circuits,magnetic pickups, and all standard RLC sensors.Current Sourcing: Internal 1 K:pull-down resistor for sensors with currentsourcing output. (Max. sensor output current = 12 mA @ 12 V output.)Current Sinking: Internal 3.9 K:pull-up resistor for sensors with currentsinking output. (Max. sensor current = 3 mA.)Low Bias: Input trigger levers VIL= 0.25 V, VIH= 0.75 V; for increasedsensitivity when used with magnetic pickups.Hi Bias: Input trigger levels VIL= 2.5 V, VIH= 3.0 V; for logic level signals.Max. Input Signal: ±90 V; 2.75 mA max. (with both Current Sourcing andCurrent Sinking resistors switched off).ORDERING INFORMATIONCAUTION:Read complete instructions prior toinstallation and operation of the unit.CAUTION:Risk of electric shock.5.6.7.8.9. INPUT IMPEDANCE:33K:min. with the sink and source DIP switchesin the OFF positions. (See Block Diagram)10. MINIMUM RESPONSE TIME:From 5 msec. +1 period to 10 sec. +1period in ten steps (excluding relay operate time).11. HYSTERESIS AND OFFSET:From 0.25% to 33.33% of Trip Frequencyin nine steps. Hysteresis and/or Offset can also be set to 0 (Disabled).12. INPUT AND POWER CONNECTIONS:Screw in terminal blocks13. ISOLATION BREAKDOWN VOLTAGE (Dielectric Withstand):2200 V between power & input, and power & output; 500 V between input & output for 1 minute.14. CERTIFICATIONS AND COMPLIANCES:UL Recognized Component, File #E137808 Recognized to U.S. and Canadian requirements under the Component Recognition Program of Underwriters Laboratories, Inc.EMC EMISSIONS:Meets EN 50081-2: Industrial Environment.CISPR 11 Radiated and conducted emissions12electrostatic discharge, precautions should be taken when the device is mounted outside an enclosure. When working in an enclosure (ex. making adjustments, setting switches, etc.) typical anti-static precautions should be observed before touching the unit.Refer to the EMC Installation Guidelines section of this bulletin for additional information.15. ENVIRONMENTAL CONDITIONS:Operating Temperature: 0 to 50°CStorage Temperature: -40 to 80°COperating and Storage Humidity: 85% max. (non-condensing) from 0°C to 50°C.Altitude: Up to 2000 meters16. CONSTRUCTION:Case body is green, high impact plastic. Installation Category II, Pollution Degree 217. WEIGHT:6 oz. (0.17 Kg)With the relay in the Trip condition, the input frequency must fall below the Release point for the relay to release.For Underspeed detection, the relay trips when the input frequency (averaged over the Minimum Response Time) falls below the Trip point. The relay releases only after the input frequency has exceeded the Release point. Two of the Underspeed operating modes allow the machine or system that supplies the input signal to reach normal operating speed before the IFMR responds to an Underspeed condition. For Zero Speed applications, bear in mind that Zero Speed detection and Underspeed detection are identical.The Minimum Response Time parameter sets the minimum update time of the output. The actual response time is the Minimum Response Time plus up to one full period of the input signal. The IFMR counts the negative edges occurring during the update time period, and computes the average frequency value for that time. This action filters out any high frequency jitter that may be present in the input signal. The longer the Minimum Response Time, the more filtering occurs.The Offset value is added to the Trip Frequency to determine the Trip Point for Overspeed operation. For Underspeed operation the Trip point becomes the Trip Frequency minus the Offset value.If No Hysteresis has been selected, the Trip and Release points are identical, which can lead to cycling or “chattering” of the relay at input frequencies hovering around the Trip point. If Hysteresis is selected, the Release point is set to the Trip point (including Offset) minus the Hysteresis value for Overspeed detection. For Underspeed detection, the Release point is set to the Trip point (including Offset) plus the Hysteresis value.Two input pins (Alarm Override and Alarm Reset) are provided for the optional connection of push buttons. The Alarm Override pin causes the IFMR to unconditionally Release the relay, regardless of the input frequency, or the state of the relay, when pulled to common. When the Alarm Override pin is released from common, the operation of the IFMR returns to normal, and the status of the relay is updated based on the input frequency.The Alarm Reset pin is only active when the IFMR is in one of the Latch operation modes. With the Latch function selected, the relay “latches” into the Trip state whenever a Trip condition is detected. The relay remains latched until the Alarm Reset pin is pulled to common while the input frequency is in the Release region. The Alarm Reset pin is ignored while the input frequency is in the Trip region.EMC INSTALLATION GUIDELINESAlthough this unit is designed with a high degree of immunity to ElectroMagnetic Interference (EMI), proper installation and wiring methods must be followed to ensure compatibility in each application. The type of the electrical noise, source or coupling method into the unit may be different for various installations. The unit becomes more immune to EMI with fewer I/O connections. Cable length, routing, and shield termination are very important and can mean the difference between a successful installation or a troublesome installation.Listed below are some EMC guidelines for successful installation in an industrial environment.1. Use shielded (screened) cables for all Signal and Control inputs. The shield(screen) pigtail connection should be made as short as possible. The connection point for the shield depends somewhat upon the application.is near a commercial radio transmitter.3. Signal or Control cables within an enclosure should be routed as far away aspossible from contactors, control relays, transformers, and other noisy components.4. In very electrically noisy environments, the use of external EMI suppressiondevices, such as ferrite suppression cores, is effective. Install them on Signal and Control cables as close to the unit as possible. Loop the cable through the core several times or use multiple cores on each cable for additional protection. Install line filters on the power input cable to the unit to suppress power line interference. Install them near the power entry point of the enclosure. The following EMI suppression devices (or equivalent) are recommended:Ferrite Suppression Cores for signal and control cables:Fair-Rite # 0443167251 (RLC #FCOR0000)TDK # ZCAT3035-1330ASteward #28B2029-0A0Line Filters for input power cables:Schaffner # FN610-1/07 (RLC #LFIL0000)Schaffner # FN670-1.8/07Corcom #1VR3Note: Reference manufacturer’s instructions when installing a line filter.5. Long cable runs are more susceptible to EMI pickup than short cable runs.Therefore, keep cable runs as short as possible.WIRING CONNECTIONSAll conductors should meet voltage and current ratings for each terminal. Also cabling should conform to appropriate standards of good installation, local codes and regulations. It is recommended that power supplied to the unit (AC or DC) be protected by a fuse or circuit breaker.POWER AND OUTPUT CONNECTIONSAC PowerPrimary power is connected to terminals 10 and 12 (labeled AC). For best results, the AC Power should be relatively “clean” and within the specified variation limits. Drawing power from heavily loaded circuits or from circuits that also power loads that cycle on and off, should be avoided.DC PowerThe DC power is connected toTerminals 10 and 12. The DC plus (+) isconnected to Terminal 10 and the minus(-) is connected to Terminal 12. It isrecommended that separate supplies beused for sensor power and unit power.Using the same supply for both willnegate isolation between input andpower.Output WiringTerminals 1, 2, and 3 are used toconnect to the relay output. Terminal 1is the normally open contact. Terminal 3is the normally closed contact, andTerminal 2 is the output relay common.and input is not needed, then a single supply can be used for both unit and sensor power.CONFIGURING THE IFMRUpon entry to a set-up parameter, the Input LED blinks the current numerical value of a setting at a 1 Hz rate. A settingof “1” is indicated by one blink (½ sec on, ½ sec off), through a setting of “9”, which is indicated by nine blinks. A settingof “0” is indicated by a single short flash (40 msec on, 1 sec off). After the entire value is indicated, the IFMR pauses twoseconds and repeats the value.During entry of a new value, if the Mode switch (S4) or any of the CFG DIP switch positions are changed before thepush button is pressed, the IFMR aborts the entry process and retains the previous setting.To begin set-up, place DIP switch 4 to the on (up) position. DIP switches 5, 6, and 7 access unit configuration settings.Note: To return to normal operation,place DIP switch 4 in the down (RUN) position.( ) Indicates Configuration Section DIP SWITCH DESCRIPTIONSECTION Operating Mode(1.0)Set Trip Frequency Using an Input Signal or Frequency Generator(2.0)Set Trip Frequency Using the Rotary Switch(3.0)Set Minimum Response Time(4.0)Set Relay Trip Point(5.0)Set Relay Release Point(6.0)Note: Minimum Response Times do not include the relay’s operate response time of 5 msec., or the release response time of 3 msec.4.3 Press the push-button. The Green input LED blinks rapidly. Minimum Response Time settingis now accessed.4.4 Turn the rotary switch to the selected numerical value for Minimum Response Time desired(see list in Step 4.2).4.5 Press the push-button. The Green input LED blinks the value entered, pauses, and repeats thenew setting.X If the new Minimum Response Time setting is acceptable, this section is complete *.X If the new Minimum Response Time setting is not the desired setting, repeat Steps 4.3, 4.4,and 4.5.X If the Red relay LED blinks, the rotary switch numerical value is invalid. Repeat Steps 4.4and 4.5.*Section complete; place DIP switch 4 to the down position for normal operation, or change DIPswitches 5, 6, and 7 for the next Configuration Section.Setting ‘2’SelectedRelease Point:OVERSPEED =250 + 5 - 2.5 = 252.5 HzUNDERSPEED =250 - 5 + 2.5 = 247.5 Hz6.1 Place DIP switch 4 to the ON position and DIP switches 5, 6, and 7 as shown.6.2 The Green input LED blinks the existing setting (see following list), pauses, and repeats.SettingPercentage 00.00% (NO Hysteresis)10.25% (0.0025)20.50% (0.0050)31.00% (0.0100)42.00% (0.0200)55.00% (0.0500)610.00% (0.1000)720.00% (0.2000)825.00% (0.2500)933.33% (0.3333)6.3 Press the push-button. The Green input LED blinks rapidly. Trip Point Hysteresis setting is now accessed.6.4 Turn the rotary switch to the selected numerical value for Hysteresis desired (see list in Step6.2).6.5 Press the push-button. The Green input LED blinks the value entered, pauses and repeats thenew setting.X If the new Trip Point Hysteresis setting is acceptable, this section is complete *.XIf the new Trip Point Hysteresis setting is not the desired setting, repeat Steps 6.3, 6.4, and6.5.X If the Red relay LED blinks, the rotary switch numerical value is invalid. Repeat Steps 6.4and 6.5.*Section complete; place DIP switch 4 to the down position for normal operation, or change DIP switches 5, 6, and 7 for the next Configuration Section.Setting ‘9’Selectedso that the upper groove of the “foot” catches under the lip of the top rail. Push the module toward the rail until it snaps into place. To remove a module from the rail,push up on the bottom of themodule while pulling out awayfrom the rail.T Rail InstallationTo install the IFMR on a“T” style rail, angle themodule so that the top grooveof the “foot” is located over thelip of the top rail. Push themodule toward the rail until itsnaps into place. To remove amodule from the rail, insert ascrewdriver into the slot on thebottom of the “foot”, and pryupwards on the module until itreleases from the rail.The IFMR is placed in parallel with the APLR to activate an alarm when an overspeed condition is detected, and to turn off the alarm when the speed returns to normal. The Mode of Operation is set for Mode #1 (overspeed trip, automatic release upon return to normal).To set the value of the alarm, either apply the maximum input signal as described in Section 2.0 or determine the Trip Frequency using the following formula:Trip Freq. = units/measure x pulses/unitseconds/measureTrip Freq. = 2000 RPM x 60 PPR= 2000 Hz60 secSet the Trip Frequency with the rotary switch for 2000 Hz.With Trip point Offset set at 0.00% (No Offset) and Trip Point Hysteresis set at 0.25%; activation of the relay occurs at 2000 Hz, and release occurs at 1995 Hz.APPLICATION 2The IFMR can be used in a speed monitoring system to detect when the system drops below setpoint.The IFMR is wired to a PSAC (inductive proximity sensor) that is sensing a key way on the shaft of a motor. The motor is turning at 1750 RPM. When the speed of the motor drops below 1250 RPM, the IFMR latches the output until the user resets the output with an external push button.The mode of operation of the IFMR is set for 5 (UNDERSPEED Latched trip, release only after Alarm Reset pulled to common). Determine the Trip Frequency using the following formula:Trip Freq. =RPM x PPR60Trip Freq. =1250 RPM x 1 PPR= 20.83 Hz.60 sec.Set the Trip Frequency with the rotary switch for 20.83 Hz.TROUBLESHOOTINGFor further technical assistance, contact technical support at the appropriate company numbers listed.。

FDR-20G-VBG控制器技术规范1.开关本体基本配置要求：2.控制器适用范围本技术条件规定了FDR-20B控制器的使用环境条件、型号命名及其含义、性能参数、功能、结构及检验方法等具体内容。

F D R-20B分界开关控制器为额定电压220V、交流50H z的户外分界开关的配套设备。

适用于10k V配电网中性点不接地、经消弧线圈接地及小电阻接地等各种接地方式。

3.适用标准下列文件中的条款通过本技术条件的引用而成为本技术条件的条款。

凡是注日期的引用文件，其随后所有的修改单（不包括勘误的内容）或修订均不适用于本技术条件。

凡是不注日期的引用文件，其最新版本适用于本技术条件。

GB/T11022-1999---《高压开关设备控制和设备标准的共同技术条件》DL/T844-2003-----《12kV少维护户外配电开关设备通用技术条件-控制终端部分》GB/T7261-2000----《继电器及装置基本试验方法》GB/T11287-2000---《量度继电器和保护装置的振动试验(正弦) 》(idt IEC 60255-21-1：1988)GB/T14537-1993---《量度继电器和保护装置的冲击与碰撞试验》(idt IEC 60255-21-2:1988)GB/T17626.4-1998-《电磁兼容试验和测量技术电快速瞬变脉冲群抗扰度试验》(idtIEC 61000-4-4：1995)DL/T721-2000-----《配电网自动化系统远方终端》4.使用条件1) 海拔高度：≤1000米；2) 环境温度：户外 -40℃～+75℃；3) 相对湿度：最高年平均气温20℃,最高日平均气温30℃,≤90％(25℃)；4) 最大日温差：25℃；5) 日照强度(风速O．5m／s时)：0.1W/cm2；6) 最大风速：≤25m/s；7) 最大覆冰厚度：lOmm。

5.控制器性能参数6.绝缘电阻各电路分别与地(即外壳或外露的非带电金属零件)之间，交流电流电路与交流电压电路之间，交流电路与直流电路之间，用开路电压为500V的测试仪器测定其绝缘电阻值应不小于10M 。

使用说明书FZW28-12F(FFK)型户外交流分界负荷开关上海东自电气有限公司目录1．概述--------------------------------------------------------- 2 2．产品型号及含义 ---------------------------------------------- 4 3．使用条件 ---------------------------------------------------- 4 4．主要技术参数 ------------------------------------------------ 4 5．结构和工作原理 ---------------------------------------------- 6 6．安装与调试 -------------------------------------------------- 7 7．包装运输和储存 ---------------------------------------------- 12 8．使用和操作 -------------------------------------------------- 13 9．维护检查----------------------------------------------------- 14 10．订货条件----------------------------------------------------- 141、概述FZW28-12（F）户外高压交流分界真空负荷开关具备故障检测、保护、控制及通讯功能，安装于10kV线路上，可实现自动切除单相接地故障和自动隔离相间短路故障。

适用于三相交流50Hz、10kV的配电线路用户进线的T接或用户末端，也可用于符合要求的其它分支线连接处。

2、产品型号及含义额定短时耐受电流（kA）额定电流（A）分界用额定电压（kV）设计序号户外真空负荷开关3、使用条件3.1 正常使用条件：a）周围空气温度不超过 40℃，且在24h内测得的平均值不超过35℃；最低周围空气温度为-25℃；b）阳光辐射的影响可以忽略；c）海拔高度不超过1000m；d）周围空气可以受到尘埃、烟、腐蚀性气体、蒸气或盐雾的污染；污秽等级不得超过GB/T5582中的Ⅳ级；e）风速不超过34m/s（相应于圆柱表面上的700Pa）；f）来自开关设备和控制设备外部的振动或地动是可以忽略的；g) 在二次系统中感应的电磁干扰的幅值不超过1.6kV。

Technical ArticleLeviton Mfg. Co., Inc. Lighting & Energy Solutions20497 SW Teton Avenue, Tualatin, OR 97062 1-800-736-6682 Tech Line: 1-800-959-6004 Fax: 503-404-5594 /les© 2012 Leviton Manufacturing Co., Inc. All rights reserved. Subject to change without notice.PL-PD-F007 Rev. 2 04/06/2009 LevNet RF™ Controlling a Fixture with Multiple SwitchesProduct: LevNet RF Wireless Solutions Article ID: 02102012-JE/TB-01Date: February 10, 2012Summary: This document describes how to control a light fixture from multiple locations using multipleswitches, both wired and wireless.Information:1. Use one relay receiver connected to the light and learn it to multiple wireless switches at the desired locations. A relay receiver can learn up to 30 different switches.2. Use a 5-wire relay connected to a 3-way wired switch:a. If only 1 wired switch is desired, it should be a 3-way switch. If more thanone wired switch is used then 4-way switches are needed. Wiring diagramsare available in the installation guide for the 5-Wire Relay Receiver.b. Teach receiver to respond to 1 or more wireless switches. Use Learn Mode3 to learn the top and bottom of the switch rocker in Toggle Mode. Thisresults in the relay switching state when either the top or bottom of theswitch is pressed which will replicating typical multi-way switchingfunctionality.c. When using the 5-wire relay in conjunction with a 3-way switch, themaximum load capacity is reduced to 3A because the N.C. (normallyclosed) contacts are used and have a lower current carrying capacity.Contact: If you have any questions or concerns, please call LES technical support at (800) 959-6004.。

FDR-330-M/Q面板型分界控制器（DC24V）安装使用说明书User’s Manual版本号：v 3.0尊敬的用户：为了您和设备的安全，在安装及使用本装置前，请认真阅读本说明书。

请妥善保存本说明书，以备查阅。

由于本产品技术不断更新，因此而引起的产品功能和性能的改变不包含在本说明书内，敬请谅解。

如果在安装及使用中遇到问题请与我司联系。

本说明书的解释权归我司，并保留一切权利。

安全信息本设备为交流220V 弱电设备，但在现场安装、维护时，附近有危险电压！本设备不能替代可见断开点，工作时应遵循所有当地批准的安全规程；否则，将因触高压导致严重人身伤亡。

本说明书并不能概括设备的安装、运行、维护等等的所有细节，如有问题请与我司联系。

接收、验货及存储每台FDR-330-M/Q 控制器在出厂前都经过了完整的装配、测试及检验，并进行了精心的校核、调整，运输前已经处于良好的状态。

接收时，仔细检查控制器在运输中有无损坏，如有问题，请立即向承运者提出书面报告。

包装件在装卸时小心轻放，避免碰伤和冲击，运输时应注意防水，严禁腐蚀性物品与包装件在同一车箱内运输。

如果本设备在安装前要存放相当长的时间，应放在清洁、通风良好的地方，空气中不得含有腐蚀性气体，存放时应小心，谨防损坏。

若控制器的后备电源为铅酸电池，其储存时间超过3 个月，应每过3 个月为电池充电一次，保证电池的使用寿命。

充电不少于24 小时。

目录1 概述 (4)1.1 应用 (4)1.2 特点 (4)2 技术性能指标 (5)2.1 使用环境条件 (5)2.2 电气技术参数 (5)2.3 主要技术指标 (6)2.4 电磁兼容 (7)2.5 绝缘耐压 (8)3 功能介绍 (8)3 主要功能 (8)3.1 遥控、遥测、遥信功能 (8)3.2 参数设置功能 (10)3.3 电源失电保护功能 (10)3.4 对时功能 (10)3.5 自诊断功能 (10)3.6 历史记录及上报功能 (11)3.7 故障检测 (11)3.8 通信功能 (12)3.9 当地调试功能 (12)3.10 高级故障处理功能 (12)4 参数说明 (14)4.1 盘面 (14)4.2 参数列表 (14)4.3 拨码盘整定值设置 (15)4.4 保护定值选择指南（以下所指电流为一次值） (16)5 附录 (17)5.1 线缆 (17)5.2 安装尺寸 (18)5.3 运输 (18)5.4 验收 (18)5.5 贮存 (18)6 检修：设备异常处理 (19)1.概述1.1应用FDR-330-MB 系列控制器是采用高速采样芯片和32 位高速单片机控制芯片相结合的新型高压开关控制器，能快速稳定的完成对高压开关的监控。

真空有载分接开关并联控制器使用说明书黑龙江省双城市机电技术开发有限公司一、概述本控制器采用美国MICROCHIP公司的单片机为主要器件组成的自动控制器，它与多台远程监控器、有载分接开关组成并联控制系统，其中也可任意几台独立运行，并具以下功能：1、所并联开关的档位不一致报警、保护功能2、超压、欠压、保护报警功能3、手动、自动功能4、RS—485接口，可实现计算机监控5、显示档位、电压二、技术参数三、工作原理并联控制器对电网电压取样，经CPU与予置的电压值进行比较，当取样电压超出予置电压范围时，经延时比较、判断，对已并联的开关输出相应的升、降信号，对开关进行升、降控制。

有载分接开关的并联选择由键1—6选择。

原理如图11、并联控制器与远程自动控制器的连结。

并联控制器后面板上有1#、2#、3#、4#、5#、6#六组D 型插坐，通过并联控制电缆，分别与1－6号有载分接开关远程自动控制器的COMC 口相连结。

示意图如下：2、并联控制器工作电源的连结并联控制器的工作电源是AC380V，同时又是并联控制器的电压取样电源，所以应取自并联运行变压器的低压侧，通过低压开关接至并联控制器。

3、COMA口是RS485通信接口，与计算机相联后，可实现计算机监控。

通信协议可向我厂索取。

4、1#—6#接线排列功能表：5、后面板端子功能1.端子1－6，内部为无源继电器常开点。

2.端子1－6，档位不同步时相对应的端子动作。

3.报警端子，开关不切换，开关报警时动作。

6、使用方法当所有电缆安装完毕检查无误后，开关与自动控制器、并联控制器分别接通工作电源后，按下面方法操作使用。

（1）电压上限、下限参数的予置和查看，●第一次按予置键：上限值闪烁，表示设定电压稳定范围的上限值，按升、降键修改，设定值范围390－430V。

●第二次按予置键：下限值闪烁，表示设定电压稳定范围的下限值，按升、降键修改，设定值范围360－390V。

第三次按予置键：升降延时闪烁，表示动作延时时间，按升降键修改，设定值范围20－60S。