Elektro-Automatik 09 230 430 Скачать руководство пользователя страница 1

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PSI 8000 3U

3.3kW - 15kW

40V - 1500V

30A - 510A

高效电源供应器系列

High Efficiency Power Supply Series

PSI 8080-170 3U: 09 230 430

PSI 81500-30 3U: 09 230 439

PSI 8080-340 3U: 09 230 431

PSI 8200-70 3U:

09 230 440

PSI 8080-510 3U: 09 230 432

PSI 8200-140 3U: 09 230 441

PSI 8160-170 3U: 09 230 433

PSI 8200-210 3U: 09 230 442

PSI 8240-170 3U: 09 230 434

PSI 8400-70 3U:

09 230 443

PSI 8500-30 3U:

09 230 435

PSI 8600-70 3U:

09 230 444

PSI 8500-60 3U:

09 230 436

PSI 8040-170 3U: 09 230 445

PSI 8500-90 3U:

09 230 437

PSI 8040-340 3U: 09 230 446

PSI 81000-30 3U: 09 230 438

PSI 8040-510 3U: 09 230 447

Содержание 09 230 430

Страница 1: ... 09 230 440 PSI 8080 510 3U 09 230 432 PSI 8200 140 3U 09 230 441 PSI 8160 170 3U 09 230 433 PSI 8200 210 3U 09 230 442 PSI 8240 170 3U 09 230 434 PSI 8400 70 3U 09 230 443 PSI 8500 30 3U 09 230 435 PSI 8600 70 3U 09 230 444 PSI 8500 60 3U 09 230 436 PSI 8040 170 3U 09 230 445 PSI 8500 90 3U 09 230 437 PSI 8040 340 3U 09 230 446 PSI 81000 30 3U 09 230 438 PSI 8040 510 3U 09 230 447 ...

Страница 2: ......

Страница 3: ...示电压下操作该仪器请勿将任何机械零件特别是金属件插入仪器通风孔内请避免在仪器周围使用液体物质因有可能进入仪器内部并损坏它不要将可能产生高于产品额定输出电压的设备连接到本产品上在后板插槽上安装接口卡时应遵循一般防静电规则接口卡只能在仪器完全关闭电源开关关闭后插入和取出一般信息 Elektro Automatik 严禁再版复印或部分错误地使用该说明书否则将承担该行为导致的法律后果重要说明产品老化以及超负荷使用都可能导致如按钮旋转编译器类的产品控制件操作不稳定 ...

Страница 4: ...ense 远程感测端 16 5 8 Share 共享端 16 5 9 接口卡插槽 16 6 操作 17 6 1 显示 17 6 2 使用符号 17 6 3 各显示元素简介 17 6 4 打开功率输出 18 6 5 调节设定值 18 6 6 设定值调节步宽 18 6 7 转换按钮面板 19 6 8 锁定控制面板 19 6 9 更改定位模式 19 6 10 转至函数管理器 19 6 11 激活菜单 19 6 12 参数页 19 6 13 报警警告和信号提示 19 6 14 报警和警告的确认 19 6 15 函数管理器 20 6 15 1 配置函数 20 6 15 2 函数布局 20 6 15 3 配置序列 21 6 15 4 与序列有关的参数 21 6 15 5 函数运行时的显示 21 6 15 6 函数运行时的显示 22 6 15 7 函数管理器的控制 22 7 产品设置 23 7 1...

Страница 5: ...控制模式 30 8 4 出现过压 30 8 5 出现过温 30 8 6 调整电压电流和功率 30 8 7 远程感测被激活 30 8 8 市电出现欠压或过压 30 8 9 连接不同类型的负载 31 9 数字接口卡 31 9 1 一般信息 31 9 2 配置接口卡 31 10 模拟接口 32 10 1 一般信息 32 10 2 引脚图 32 10 3 产品设置下的设定 33 10 4 应用举例 33 10 5 模拟接口各引脚分布 34 11 其它应用 35 11 1 共享总线模式下的并联 35 11 2 串联 35 11 3 其它附件和选项功能 35 11 4 连网 37 11 5 固件更新 37 ...

Страница 6: ...om可调过压阀值可选插拔式接口卡 CAN USB RS232 IEEE GPIB 模拟 Ethernet LAN Profibus 可选外部控制和监测用模拟接口功率级别 3 3kW 5kW 6 6kW 10kW 或 15kW 装柜后可扩至150kW 温控风扇状态 OT OVP CC CV 指示灯 4种可选内存集监控函数函数管理器可调内阻选项高速跃变选项并联连接共享总线下 2 技术规格 2 1 控制面板和显示器型号显示器 128x64点阵图形显示器操作控制件 6个旋钮 2个旋转编译器显示格式额定值限定最大可调范围电压电流和功率实际值与设定值同时显示过压阀值设定值则分开显示电压的显示分辨率 4位数格式 0 00V 99 99V 0 0 999 9V 0V 9999V 电流的显示分辨率 4位数格式 0 00A 99 99A 0 0A 999 ...

Страница 7: ...定度 0 05 0 05 0 05 0 05 0 05 带载0 100 UOUT时的稳定度 0 15 0 15 0 15 0 15 0 15 纹波 BWL 20MHz 528mApp 106mArms 300mApp 40mArms 44mApp 11mArms 14mApp 8mArms 600mApp 80mArms 精确度 0 2 0 2 0 2 0 2 0 2 显示器分辨率 100mA 100mA 10mA 10mA 100mA 负载从10 90 瞬态恢复时间 2ms 2ms 2ms 2ms 2ms 输出功率额定功率PNom 3300W 5000W 5000W 5000W 6600W 功率降额时的额定功率 0 PNom 0 PNom 0 PNom 0 PNom 0 PNom 精确度 0 2 0 2 0 2 0 2 0 2 显示器分辨率 0 001kW 0 001kW 0 001...

Страница 8: ... 0 INom 0 INom 市电波动范围在 10 UIN时的稳定度 0 05 0 05 0 05 0 05 0 05 带载0 100 UOUT时的稳定度 0 15 0 15 0 15 0 15 0 15 纹波 BWL 20MHz 900mApp 120mArms 600mApp 80mArms 300mApp 60mArms 89mApp 22mArms 33mApp 9mArms 精确度 0 2 0 2 0 2 0 2 0 2 显示器分辨率 100mA 100mA 10mA 100mA 10mA 负载从10 90 瞬态恢复时间 2ms 2ms 2ms 2ms 2ms 输出功率额定功率PNom 10000W 10000W 10000W 10000W 10000W 电压 150V Uin时的额定功率 0 PNom 0 PNom 0 PNom 0 PNom 0 PNom 精确度 0 2 ...

Страница 9: ...om 市电波动范围在 10 UIN时的稳定度 0 05 0 05 0 05 0 05 0 05 带载0 100 UOUT时的稳定度 0 15 0 15 0 15 0 15 0 15 纹波 BWL 20MHz 33mApp 16mArms 22mApp 11mArms 900mApp 120mArms 167mApp 33mArms 333mApp 27mArms 精确度 0 2 0 2 0 2 0 2 0 2 显示器分辨率 10mA 10mA 100mA 100mA 100mA 负载从10 90 瞬态恢复时间 2ms 2ms 2ms 2ms 2ms 输出功率额定功率PNom 10000W 10000W 15000W 15000W 15000W 电压 150V Uin时的额定功率 0 PNom 0 PNom 0 PNom 0 PNom 0 PNom 精确度 0 2 0 2 0 2 0 2...

Страница 10: ...m 0 INom 0 INom 市电波动范围在 10 UIN时的稳定度 0 05 0 05 0 05 带载0 100 UOUT时的稳定度 0 15 0 15 0 15 纹波 BWL 20MHz 50mApp 23mArms 30mApp 12mArms 19mApp 13mArms 精确度 0 2 0 2 0 2 显示器分辨率 10mA 10mA 10mA 负载从10 90 瞬态恢复时间 2ms 2ms 2ms 输出功率额定功率PNom 15000W 15000W 15000W 电压 150V Uin时的额定功率 0 PNom 0 PNom 0 PNom 精确度 0 2 0 2 0 2 显示器分辨率 0 01kW 0 01kW 0 01kW 效率 95 50 95 20 95 50 其它环境温度 0 50 C 0 50 C 0 50 C 储存温度 20 70 C 20 70 C 20...

Страница 11: ...11 PSI 8000 3U 系列产品说明书 CN 日期 05 03 2012 关于产品 3 产品描述 3 1 各面视图 A 电源开关 D 共享总线和远程感测端 B 控制面板 E 直流输出端 C 接口卡插槽 F 交流输入端图 1 图 2 ...

Страница 12: ...12 2006 Elektro Automatik GmbH Co KG Irrtümer und Änderungen vorbehalten CN PSI 8000 3U 系列产品说明书日期 05 03 2012 关于产品图 3 图 4 ...

Страница 13: ...13 PSI 8000 3U 系列产品说明书 CN 日期 05 03 2012 关于产品图 5 ...

Страница 14: ...余操作功能意思是产品上含有两至三个功率段只要有一个功率段维持工作其他功率段因过热而被关闭本电源仍将供电到输出端详情可参考 2 2 各型号详细规格查看具有该功能的产品型号 5 安装 5 1 目检收到产品拆包装后请检查是否有外观受损痕迹如有请不要操作该产品应立即联系您的供应商 5 2 输入端连接单机本系列产品的交流输入端必须连接两相 3 3kw 5kW型号或三相 6 6kW 10kW 15kW型号的产品则要求连接带接地 PE 的三相供电电压该连接必须使用合适直径的连接线来完成见下表举例都针对单机连接的连接线 L1 L2 L3 ø Imax ø Imax ø Imax 3 3kW 2 5mm 11A 2 5mm 11A 5kW 2 5mm 16A 2 5mm 16A 6 6kW 2 5mm 19A 2 5mm 11A 2 5mm 11A 10kW...

Страница 15: ...面板后卖弄如果需要更换号线泗必须打开产品上盖 5 5 直流输出端功率输出端位于产品后方该输出端无保险熔断为避免负载应用损坏需一直注意负载的额定值负载连线的直径由几个条件决定如输出电流线长和环境温度关于产品我们建议使用1 5m长的连线针对30A 6mm 针对70A 16mm 针对90A 25mm 针对140A 50mm 针对170A 70mm 针对210A 95mm 针对340A 2x70mm 针对510A 2x120mm 上面每个直流输出端连线的最小直径软性线例如70mm 的单线也可用2条35mm 的连线代替使用较长连线时必须加大其直径以免出现过大压降和发热过多 5 5 1 输出端类型 40V 或 80V 型号铜条上带有3个9mm配M8螺丝的螺丝孔建议使用孔径为8mm的圆形接线片 160V 200V 240V 型号 M8的螺柱固定于塑胶直流...

Страница 16: ...最大电压为 600V DC 注意将直流输出极接地时要注意消费端如电子负载是否也与其中一极接地了因为这可能会导致短路 5 7 Sense 远程感测端了补偿负载线上的压降电源可感测负载上的电压而不是输出端的电压它将调整输出电压以便能提供所需电压给负载最大调整值可见章节 2 2 各型号详细规格下的远程感测补偿远程感测的连接点在产品后板感测端子上也可见章节 3 1 感测端只能与负载设备的输出端相连感测端与输出端相连否则会损坏本产品面板其它信息请见章节8 7 关于产品 5 8 Share 共享端若想使用共享总线操作只要将相关产品的共享端连在一起即可再无其它操作关于共享总线操作详情请参考章节 11 1 共享总线模式下的并联注意不可将不同于3U系列的产品连接到共享总线端上即使它也有共享总线连接功能 5 9 接口卡插槽本...

Страница 17: ...电压实际输出电流实际输出功率正常操作期间实际值以大写字母显示设定电压期望输出电压的目标值左旋钮可对该值粗调见章节6 6 的步宽或细调逗号右边的位数粗调和细调见得转换通过左旋转编译器上的按钮完成关于电源图 8 设定电流期望输出电流的目标值右旋钮可对该值粗调见章节 6 6的步宽或细调逗号最右边数位粗调和细调见得转换通过右旋转编译器上的按钮完成要调节设定值必须先按按钮设定功率期望最大输出功率的目标值右旋钮要设定该值必须在之前就按下按钮该数值可粗调见章节6 6的步宽也可细调逗号最右边数位设定内阻选项期望内阻的目标值右旋钮如果内阻控制解锁且在产品设置下选择了U I R模式该设定值替代功率设定值要设定该值必须先按下按钮电源输出的状态显示于显示器右下角 ON OFF 电源输出状态当前激活的控制模式显示于相...

Страница 18: ...模式且该模式已解锁选定的设定值反向显示于屏幕上用SELECT键可选择功率设定值内阻设定值或电流设定值也可限制最大可调功率传送设定值与设定值直接调节方式不同的还可选择只有当提交设定值后用RETURN键方可设定这些参数详情参考 7 4 配置控制面板设定值仍可用旋钮来更改但只要没有提交就不会传到输出端设定值未被修改时只有单位才反向显示修改后数值和单位都反向显示 SELECT键可从电流调节转至功率调节用右旋钮调节此时选择的设定值未提交也未设定按下RETURN键就提交设定值按下ESC键则取消新设定值显示旧值注意设定阻值的调节仅可在解锁了内阻控制选项见章节7 8 后才可执行可从0Ω至20 Unom Inom调节设定内阻意思是举例当产品的Unom 80V和Inom 510A 那我们可就可将它调至最大3 13Ω 使用预设值在...

Страница 19: ...e interface 设置内部模拟接口 Communication 配置可插拔式接口卡 Options 默认设置解锁功能锁定产品配置 About 生产商服务软件版等按ESC按钮将进入上一级菜单页按SELECT键选择进入另一个菜单按RETURN键进入下一级子菜单菜单最后一级总以参数页显示详见下一个主题 6 12 参数页参数页为菜单最底级在这您可更改多种不同参数来设置产品按ESC键进入参数页的上级菜单不再接受任何参数用SELECT 键选择不同参数所选参数会反向显示用左旋钮可进行更改 RETURN键将更改后并被接受和保存的参数提交出去并退出参数页面进入下一个上级菜单 6 13 报警警告和信号提示报警警告和简单提示此被称作信号提示以声音或可视信号发出内置模拟接口或可选模拟接口卡IF A1的 OT 或 OVP 引脚也报告过压或过温错误也可见...

Страница 20: ...ms至99h99m时间坡度创建阶跃函数还可设定0ms的时间但形成的真实时间会是2ms 因为设定值是以2ms为一阶跃阶段除函数外您可设置和使用用户化设置内的监控电路也可通过接口卡的链接控制函数管理器其特点您可在函数将要停止的地方设置一暂停点 6 15 1 配置函数 Function 菜单页 Function指向下列菜单选项 Setup function Sequence 1 Sequence 2 Sequence 3 Sequence 4 Sequence 5 6 15 2 函数布局 Setup function 此处可定义电源的操作模式和重复率 Function mode U I P 函数使用U I P运作模式 U I R 函数使用U I R运作模式仅当内阻选项解锁后也可见章节 7 1 定义操作参数 Funct cycles 1 254 循环n次无限制循环...

Страница 21: ...应器的函数模式 Seq cycles 1 254 默认 1 1 254 重复n次重复无数次 P seq 0 Pnom 默认 Pnom 此处的最大功率影响整个序列仅在选择内阻项的情况下可解锁 R seq 0Ω 20 Rinom 默认 Rnom 此处的最大内阻影响整个序列 6 15 5 函数运行时的显示 Sequence points 0 4 5 9 一个序列由10个序列点组成一个序列点由3组数据组成电压U 电流I和时间 t的设定值 t 0 99 59h U V 0 Unom I V 0 Inom 要了解序列如何处理您需考虑每个序列周期的开始条件函数开始的设定值函数通常这样开始 Uset 0V 和 Iset 0A 再次进入序列的设定值如果序列重复最后被处理的序列将改变下个序列循环的开始条件比如将序列点9设为80V 50A 250ms 重复运行该序列于是序列以...

Страница 22: ...管理器暂停或尚未开始函数管理器正在运行 15 05 m 函数发生器启动后的累计时间也会显示出来函数管理器停止时间显示才停止 STEP RUN或GO 键以多种方式操作函数管理器同时时间显示会持续累计 ON OFF 电源输出状态除电源输出状态外还显示报警警告或信号提示状态 6 15 7 函数管理器的控制交互式控制面板给函数管理器提供多个控制键利用这些按键用户可暂停继续重设为起始点或退出函数管理器函数管理器真正设定电源前可在显示屏幕上模拟此函数在此操作过程中不可打开输出且一步一步处理这些序列点并按相同方法检验也可通过接口卡执行此操作还可在50个序列点中额外地设置一停顿点处理到这个点时序列函数就会暂停 ESC键退出函数管理并返回电源的前一状态 STEP键逐步运行序列按下此按钮执行当前序列点完成这个后显示于屏幕右上角的设定值被设定 R...

Страница 23: ...vision Load profile Save profile General settings 进入 General settings菜单指向下列选项可配置操作模式显示界面产品处理调节 Setup operation mode Preset list Adjust limits Control panel Display Supervision 进入 Supervision 菜单指向下列选项可对报警警告和信号提示还有相应监控限制和反应时间进行设置 U thresholds I thresholds Step response Load profile Load profile from user profile 1 4 default 当前配置文件被所选配置文件表代替 Save profile Save profile to user profile 1 4 当前...

Страница 24: ...Iist Ri Isoll Psol 图形解释 CR 当内阻控制被激活且设为U I R操作模式将显示这个图标 U I R模式被激活时显示内阻Riset而不是功率Pset 但是功率实际值仍然显示过温错误出现后的恢复 Output on OT 默认 auto ON OFF 即使电源已经冷却电源输出仍为关闭状态错误 OT 过温以报警形式显示 auto ON 当电源冷却到过温关闭极限以下会自动打开错误 OT 过温以警告形式显示 ON 只要至少有一个功率级在工作电源输出就保持打开状态并一直提供电压警告与报警一样只有当此动作被确认后才从显示屏消失见章节 6 13 报警警告和信号提示电源打开后的输出状态 Power ON 默认 OFF OFF 市电恢复或电源被打开后其输出仍关闭 restore 电源供应器输出恢复到市电断电或电源供应器被关闭之前的状态如果关...

Страница 25: ...设定值极限 P adj max 默认 Pnenn 0 kW Pnenn 在此可定义可调功率的上限和下限超出极限的设定值不被接受不管是由控制板还是电脑控远程控制通过接口卡通讯产生内阻设定值极限可选项仅在U I R模式解锁情况下 R adj max 默认 0Ω 0Ω 20 Rinenn 如果U I R模式已解锁您可定义可调内阻的上限和下限超出极限的设定值不被接受不管是由控制板还是由电脑远程控制通过用接口卡通讯产生 7 4 配置控制面板 Control panel 菜单页 Control panel 能让您设置所有与图显和控制面板有关的参数配置设定值的调节方法 Accept set value 默认 direct direct 用旋钮更改设定值后直接递交到产品功率级 return key 仅当用键提交后方可设定更改后的设定值 from preset l...

Страница 26: ...n 菜单页Supervision配置对输出电压电流和功率的监控也可对阶跃函数监控 Supervision菜单页指向下列选项 U thresholds I thresholds Step response 7 6 1 电压监控 U thresholds 菜单页 U thresholds设置过压极限 OVP 以及过压与欠压的监控电路过压保护 OVP U ovp 默认 1 1 UNenn U 1 1 UNenn 过压保护意在保护连接负载应将过压保护阀值调至负载能承受且不受损的最大电压值如果超过该极限值会即刻关断输出举例一台80V产品的Uovp最大能调到88V OV 这个是以报警显示的过压保护见章节 6 13 报警警告和信号提示过压监控 U 默认 UNenn U Uovp Tu 默认 100 ms 0 99 59h 这与OVP 见上述有稍微不同在这也监控电压但过了...

Страница 27: ...欠压此错误关断电源输出必须确认报警信息后才能再次打开输出 U 警告欠压此错误出现后并持续存在直到信息被确认后方才消失 U 信号提示欠压模拟接口 IF A1 可选可从其中一数字输出端发出过压或欠压信号 7 6 2 电流监控 I thresholds 菜单页 I thresholds配置欠流和过流监控电路欠流监控 I 默认 0A 0 I Ti 默认 100ms 0 99 59h 如果电流实际值降至已调欠流极限以下过了响应时间 Ti 后发出欠流错误信号如果在 Ti 内实际电流超出极限错误提示消失再电源输出打开欠压错误仅维持T0 100ms I 报警欠流此错误关断电源输出确认报警信息后才能再次打开电源输出 I 警告欠流此错误出现后并持续存在直到信息被确认后方才消失 I 信号提示欠流 ...

Страница 28: ...口 IF A1 可选可从其中一数字输出端发出过流或欠流信号 7 6 3 阶跃响应监控 Step response 菜单页 Step response配置实际值与设定值的动态和静态比较监控电路 Step response 默认 Us Uo Us Uo 监控设定电压和实际电压的偏差 Is Io 监控设定电压和实际电压的偏差 Supervise 默认 NO NO 监控启动 Signal 监控报告一信号 Warning 监控报告一警告 Alarm 监控报告一报警 dyn 默认 10 Inom resp Unom 0 1 1 Unom 电压允许误差 0 Inom 电流允许误差注意电源供应器的设置过程取决于负载当一组设定值被更改后要过一定时间才能将期望值传到电源输出端比如在无负载或带很小负载的情况下要花几秒钟的时间电压才从100 降到0V 因为输出电容需要一定的时间放电一个...

Страница 29: ...设置注意即使产品配置用PIN码锁定也会被该设置解锁和覆盖 Reset configuration Are you sure 默认 NO YES 恢复所有默认设置的修改 NO 不更改 7 8 解锁U I R运行模式 R mode available YES U I R操作模式锁定已解除并可用 NO U I R操作模式还不可用 U I R运行模式只有用PIN码解锁后才可用并在配置文件中进行配置见 7 1 定义操作参数解锁U I R运行模式的识别码要另外购买如果您有意使用此模式在订购该产品时一起购买也可以后再订购 Enable R mode Activate R mode via pin code 0 0 0 0 此时使用您从供应商购买的识别码它由0 15间的4个数字组成 7 9 锁定产品配置 Setup lock 为安全起见必须锁定产品配置在此处输入一个由0至15...

Страница 30: ...P 引脚14 模拟接口IF A1 如果配有的话的 OVP 引脚8 以及报警符号指示此错误应避免加载于输出端的外部电压超过额定电压的120 否则产品内部元件会受损如果过压原因消除输出会再次打开 OV 状态文本信息消失在此之前需用按钮或经数字接口的一个指令确认该报警信号如果错误仍然存在则不打开输出 OVP错误以报警声记录于内部警报缓冲区通过数字接口可读取该缓冲区内容用另一指令可清楚缓冲区内容 8 5 出现过温一旦因一个或多个功率级内部过热而出现过温 OT 错误显示器上会出现 OT 文本警告标识内置模拟接口的引脚 6 OT 以及模拟接口的引脚9 OT 如果配有的话也发出一状态信号但输出并未总是被关断根据设定见 7 1 定义操作参数不同可能继续输出电压只有当内部所有功率级 3 3 5kW型号 1级 6 6 10kW型号 2级 15kW 型号...

Страница 31: ...1 IEEE 488 卡为每条总线上的多达台产品提供一个SCP指令结构模拟卡IF A1电隔离带可配置的输入输出模拟接口新款以太网 LAN卡 IF E1也提供SCPI指令集但是必须经VXI11 协议它还特别配了一额外的USB端口能够藉由IF U1卡访问产品 Profibus卡IF PB1专为现场总线而设计它具备DPV0和DPV1 功能总线速度高达12MBit s 有125个现场总线地址利用 GSD文件可将32台设备轻易地融入一个总线段还提供一额外的USB端口它具有USB类接口卡IF U1的完整功能通过我们定制的二进制通讯协议可监控和控制该产品该端口仅选择性地当Profibus端口用图 10 感测端连线图 9 2 配置接口卡接口卡必须被配置一次通过菜单 Communication 完成 Communication Device node 默认 1 ...

Страница 32: ... CV 状态远程监控U I P实际值远程打开关闭输出设定值输入脚可在0 5V或0 10V电压范围下操作在产品设置菜单下选择合适的电压范围请参考章节 7 产品设置输出引脚3的参考电压与所选设定有关可为5V 也可为10V 使用说明用模拟电压来控制产品需用 REMOTE 5 引脚转为远程控制模式连接控制电源的应用设备前要保证所有线连接正确并检查应用设备不会输入高于指定电压的电压最大12V REM SB 远程待机 13引脚引脚要优先于On按钮意思是如果该引脚定义输出状态为 off 就不能用该按钮打开输出故它可当紧急断电开关用但不适用于控制位置设为local的情况详情页可参考章节6 9 VREF输出引脚给设定值输入脚VSEL CSEL和PSEL创建设定值如仅需电流控制可将VSEL和PSEL脚连到VREF脚然后通过一外电压 0 5V或0 10V...

Страница 33: ... CV 6 默认 LOW LOW HIGH 定义数字输出脚是否通过LOW或HIGH 级别报告他们的指定状态关于LOW 和HIGH级别请参考章节10 4 10 4 应用举例输出关闭 REM SB 引脚13一直都为工作状态因此它不依附于远程模式故在不利用外部手段的条件下用它可关闭输出除非产品已设为local模式于是该引脚不起任何作用用一低阻连接片如开关开集三极管或继电器将该引脚与地 DGND 相连即可关闭输出如果REM SB引脚见章节10 3 选择 LOW 设定若设为 HIGH 则刚好相反且连接片要打开以便关不输出紧急关闭原则注意 PLC的数字输出脚可能无法正确执行其功能也许是因为连接片阻值不够低故需检查外部控制设备的技术参数再选择合适的阻值图形解释远程控制电流和电压注意经模拟接口的远程控制一定要输入所有三组设定值 VREF与接地脚...

Страница 34: ...极上拉至Vcc 输出5V时电流最大 1mA UCE 0 3V时 Imax 10mA Umax 0 30V 短路保护对DGND 7 N C 不连 8 PSEL AI 设定值功率 0 10V对应0 100 of Pnom 精确度 0 5 阻值 Ri 100k 9 VMON AO 实际值电压 0 10V对应0 100 of Unom Imax 2mA时精确度Accuracy 0 2 短路保护对AGND 10 CMON AO 实际值电流 0 10V对应0 100 of Inom 11 AGND POT 模拟信号参考电位 For SEL MON VREF信号 12 Vcc AO 辅助电压输出 Ref DGND 11 13V Imax 20mA 短路保护对DGND 13 REM SB DI 输出关闭关 LOW Ulow 1V 开 HIGH Uhigh 4V 开 OPEN U range 0...

Страница 35: ...联中任何一台产品的直流输出负极对地 PE 的电压不可超过300V 分开调节每一台产品无主从连接禁止连接Share bus 禁止将串联中各产品模拟接口的地 AGND DGND相互连接禁止连接Remote sense 建议对同型号产品进行串联举例如可将PSI 8200 70 3U 输出电压为200V的三台同型号产品串联计算起来串联中的总电压可能高达600V 看看下面产品输出负极的电位如果所有产品都输出最大电压第三台机直流输出负极电压可能会上升至400V 这是决不能允许的所以应将其中一台较低电压产品限制到某一最大值下图显示最后总电压可能仅500V 11 3 其它附件和选项功能可供下列附件 a 数字接口卡还配USB RS232 CAN GPIB IEEE 仅SCPI 或以太网 LAN 仅SCPI 或Profibus用可插拔式数字接口卡每款产品型号都有一个接...

Страница 36: ...36 2006 Elektro Automatik GmbH Co KG Irrtümer und Änderungen vorbehalten CN PSI 8000 3U 系列产品说明书日期 05 03 2012 图 13 Share Bus 共享总线并联连线图操作产品图 14 串联连线图 ...

Страница 37: ...SB集线器这也基本适用于RS232 区别在于操作和线长通过CAN 每个地址段上的多达30台电源可容入新的或现有的CAN总线系统它们由产品节点和RID 见 7 产品设置组成通过GPIB 每一条总线限制最多为15台由一台GPIB主机控制一台电脑上可安装多台主机这样可增加可编址单元数 11 5 固件更新只有当产品出现错误行为或者应用新功能时才需进行产品固件更新要更新一台产品固件需要用到某一数字接口卡新的固件文档称作更新工具的Windows软件下列这些接口卡才能用于固件更新 IF U1 USB IF R1 RS232 IF E1 Ethernet USB IF PB1 Profibus USB 如果手上没有一张上述接口卡则不可更新请立即联系您的产品销售方寻求解决方案产品对应的更新工具和固件文档可从产品制造商网站获取或者发邮件索取更新工具将会...

Страница 38: ......

Страница 39: ...on slots Avoid any use of liquids of any kind in the proximity of the device They might get into it Do not connect voltage sources to the device which are able to generate voltages higher than the nominal voltage of the device In order to equip interface cards into the slot at the rear the common ESD provisions have to be followed The interface card may only be plugged and unplugged while the unit...

Страница 40: ...54 6 5 Adjusting set values 54 6 6 Step widths for set value adjustment 55 6 7 Switching the button panel 55 6 8 Locking the control panel 55 6 9 Changing the location mode 55 6 10 Switching to the function manager 55 6 11 Activating the menu 55 6 12 Parameter pages 56 6 13 Alarms warnings and signals 56 6 14 Acknowledging alarms and warnings 56 6 15 The function manager 57 6 15 1 Configuring the ...

Страница 41: ...d 67 8 7 Remote sense is active 68 8 8 Mains undervoltage or overvoltage occurs 68 8 9 Connecting different types of loads 68 9 Digital interfaces 69 9 1 General 69 9 2 Configuring the interface cards 69 10 Analogue interface 69 10 1 General 69 10 2 Pin overview 69 10 3 Settings in the device setup 70 10 4 Pin specifications 71 10 5 Example applications 71 11 Miscellaneous 72 11 1 Parallel connect...

Страница 42: ...Nom Optional pluggable interface cards CAN USB RS232 IEEE GPIB Ethernet LAN Profibus Optional analogue interface for external control and monito ring with extended features Power ratings of 3 3kW 5kW 6 6kW 10kW or 15kW in cabinets extendable up to 150kW Temperature controlled fans Status indication OT OV CC CV in the display 4 selectable memory sets supervision function Function manager Adjustable...

Страница 43: ...ms Accuracy 0 2 0 2 0 2 0 2 0 2 Resolution of display 100mA 100mA 10mA 10mA 100mA Transient recovery time 10 90 load 2ms 2ms 2ms 2ms 2ms Output Power Nominal power PNom 3300W 5000W 5000W 5000W 6600W Nominal power at derating 0 PNom 0 PNom 0 PNom 0 PNom 0 PNom Accuracy 0 2 0 2 0 2 0 2 0 2 Resolution of display 0 001kW 0 001kW 0 001kW 0 001kW 0 001kW Efficiency 93 93 95 20 95 50 93 Miscellaneous Amb...

Страница 44: ...rms 89mApp 22mArms 33mApp 9mArms Accuracy 0 2 0 2 0 2 0 2 0 2 Resolution of display 100mA 100mA 10mA 100mA 10mA Transient recovery time 10 90 load 2ms 2ms 2ms 2ms 2ms Output Power Nominal power PNom 10000W 10000W 10000W 10000W 10000W Nominal power at derating 0 PNom 0 PNom 0 PNom 0 PNom 0 PNom Accuracy 0 2 0 2 0 2 0 2 0 2 Resolution of display 0 01kW 0 01kW 0 01kW 0 01kW 0 01kW Efficiency 93 93 93...

Страница 45: ...mArms 333mApp 27mArms Accuracy 0 2 0 2 0 2 0 2 0 2 Resolution of display 10mA 10mA 100mA 100mA 100mA Transient recovery time 10 90 load 2ms 2ms 2ms 2ms 2ms Output Power Nominal power PNom 10000W 10000W 15000W 15000W 15000W Nominal power at derating 0 PNom 0 PNom 0 PNom 0 PNom 0 PNom Accuracy 0 2 0 2 0 2 0 2 0 2 Resolution of display 0 01kW 0 01kW 0 01kW 0 01kW 0 01kW Efficiency 95 50 95 50 93 95 2...

Страница 46: ...solution of display 10mA 10mA 10mA Transient recovery time 10 90 load 2ms 2ms 2ms Output Power Nominal power PNom 15000W 15000W 15000W Nominal power at derating 0 PNom 0 PNom 0 PNom Accuracy 0 2 0 2 0 2 Resolution of display 0 01kW 0 01kW 0 01kW Efficiency 95 50 95 20 95 50 Miscellaneous Ambient temperature 0 50 C 0 50 C 0 50 C Storage temperature 20 70 C 20 70 C 20 70 C Humidity rel 80 80 80 Dime...

Страница 47: ... Date 05 03 2012 About the device 3 Device description 3 1 Views A Mains switch D Share bus and remote sense terminals B Control panel E DC output figure shows output terminal type of 80V models C Interface card slot F AC input Figure 1 Figure 2 ...

Страница 48: ...48 2006 Elektro Automatik GmbH Co KG Irrtümer und Änderungen vorbehalten EN Instruction Manual PSI 8000 3U Series Date 05 03 2012 About the device Figure 3 Figure 4 ...

Страница 49: ...49 Instruction Manual PSI 8000 3U Series EN Date 05 03 2012 About the device Figure 5 ...

Страница 50: ...er stages and if at least one power stage is remai ning operable because other power stages have switched off due to overheating the power supply will continue to provide power to the output Refer to section 2 2 Device specifications to find out which models feature redundancy 5 Installation 5 1 Visual check The unit has to be checked for signs of physical damage after receipt and unpacking If any...

Страница 51: ...r output is located on the rear of the device The output is not fused In order to avoid damage to the load application always take care for the nominal values of the load The cross section of the load leads depends on several condi tions like the output current the lead length and the ambient temperature Figure 6 Input connection 3 3kW 5kW Figure 7 Input connection 6 6kW 10kW 15kW Up to 1 5m cable...

Страница 52: ...e output It will regulate the output voltage so that the desired voltage is provided to the load For maximum regulation see section 2 2 Device specifications information Remote sense compensation The connection for remote sense is done at the terminal Sense on the rear side Also see section 3 1 Sense must only be connected to at the load appli cation and Sense must only be connected to Else both s...

Страница 53: ...tual value of the output current Actual value of the output power During normal operation the actual values are displayed by bigger numbers Set value of voltage Target value of the desired output voltage left knob The value is adjusted in coarse see section 6 6 for step widths or fine always rightmost digit Switching between coarse and fine is done with the pushbuttons on the left rotary knob Set ...

Страница 54: ...urrent state with ON The OFF button switches the power supply output off This state is displayed with OFF The display shows the current state with ON The OFF button switches the power supply output off This state is displayed with OFF 6 5 Adjusting set values As long as extern or remote are not shown in the display the set values for voltage current or power can be set manually The mode is selecte...

Страница 55: ...be changed or no menu is accessible The locking mode can be set up in the menu The control panel can be either completely inactive or it can exclude the OFF button the unit is then locked but can be switched off and on by the OFF button See also Control panel lock in section 7 4 Configuring the control panel After the control panel was locked it changes to this icon The button can be used to unloc...

Страница 56: ... submits the changed parameters which are accepted and stored and used The parameter page is also exited to the next higher level 6 13 Alarms warnings and signals Alarms warnings and simple notifications here called signals can be acoustically signallised or optically in the display The pins OT or OVP of the built in analogue interface or the optional analogue interface card IF A1 are also reporti...

Страница 57: ... sequence control of the next sequence Sequence consists of the sequence control and 10 sequence points If the function manager is going to process a sequence it first of all sets the parameters given in the sequence control The 10 sequence points are set consecutively and the whole process is repeated as often as the repetition rate for the par ticular sequence is set to Sequence control Sequence...

Страница 58: ...e points 0 4 5 9 A sequence consists of 10 sequence points A sequence point consists of three values the set values for U and I together with the time t t 0 99 59h U V 0 Unom I V 0 Inom In order to understand how sequences are processed you need to consider the start condition of every sequence cycle Set values at the start of the function The function always starts with Uset 0V and Iset 0A Set va...

Страница 59: ... additionally set one stop point at one of the 50 sequence points This sequence point is processed and the sequence function is then halted The ESC button exits the function manager and returns to the former state of the power supply The STEP button is used to run a sequence stepwi se The current sequence point is excuted after the button was pressed After the step has been executed the set values...

Страница 60: ...Profile leads you to following selection General settings Supervision Load profile Save profile General settings The menu entry General settings leads to following se lection where the operation mode the display itself and the handling adjustment of the unit can be configured Setup operation mode Preset list Adjust limits Control panel Display Supervision The menu entry Supervision leads to follow...

Страница 61: ... the power Pset while U I R mode is active However the actual value of the power is still displayed Reactivation after an overtemperature error Output on OT Default auto ON OFF The power supply output remains switched off even if the unit has already cooled down The error OT overtemperature is displayed as an alarm auto ON The power supply is automatically switched on after the unit has cooled dow...

Страница 62: ... the remote control via a PC communication with interface cards Limit of the set value of internal resistance Optional only accessible with unlocked U I R mode R adj max Default 0Ω 0Ω 20 Rinom If the U I R mode has been unlocked you can set the upper limit of the maximum adjustable internal resistance Set values which exceed these limits are not accepted neither from the control panel nor from the...

Страница 63: ... the unit is installed and for a clearer view at the values 7 6 Supervision Supervision The Supervision menu lets you configure the supervision of output voltage output current and output power You can also supervise a step function The menu Supervision leads you to following menu selection U thresholds I thresholds Step response 7 6 1 Voltage supervision U thresholds The menu page U thresholds le...

Страница 64: ...dervoltage limit is exceeded for the time Tu This undervoltage error is suppressed for T0 100ms after the power output was switched on U Alarm Undervoltage This error shuts down the power output An alarm has to be ack nowledged before the power output can be switched on again U Warning Undervoltage The error is notified and remains until it is acknowledged and not persistent anymore U Signal Under...

Страница 65: ... dynamic and static comparison of actual value and set value Step response Default Us Uo Us Uo Supervision of the deviance between set value and actual value of voltage Is Io Supervision of the deviance between set value and actual value of current Supervise Default NO NO Supervision is inactive Signal Supervision reports a signal Warning Supervision reports a warning Alarm Supervision reports a a...

Страница 66: ...e Default NO YES All modifications of the default setup are reset NO No change 7 8 Unlocking the U I R mode R mode available YES The U I R operation is unlocked and can be used NO U I R operation not enabled yet The U I R operation mode can only be used after it was unlocked with a PIN code This mode also has to be configured in the profile see also 7 1 Defining operation parameters In order to un...

Страница 67: ...being active keeps output state and set values until altered 8 4 Overvoltage occurs An overvoltage error can occur due to an internal defect out put voltage rises uncontrolledly or by a too high voltage from external The overvoltage protection OVP will switch off the output and indicate the error on the display by the status text OV and an alarm symbol and on the pin 14 OVP of the built in analogu...

Страница 68: ...orrect polarity The power supply will detect the external sense au tomatically and compensate the output voltage by the actual voltage at the load instead of the output The output voltage will be raised by the value of the voltage drop between power supply and load Maximum compensation see technical specifications will vary from model to model Also see figure 10 below 8 8 Mains undervoltage or ove...

Страница 69: ... A IF depends on what is equipped An equipped interface card is automatically recognized by the unit The menu selection displays the equipped card with its product code Configuring the various cards All cards have different parameters to configure These are explained in detail in the corresponding user instruction manual Please refer to it 10 Analogue interface 10 1 General The integrated 15 pole ...

Страница 70: ...ace Analogue voltage Default 0 10V 0 5V 0 10V Selects the voltage range for the analogue in and outputs which cor responds to 0 100 set actual value REMOTE 5 Default LOW REM SB 13 Default LOW LOW HIGH Defines if the digital inputs will react theirdedicatedfunctionwitheitherLOW or HIGH level For the levels of LOW and HIGH see section 10 4 Note both pins are internally pulled up to HIGH It means tha...

Страница 71: ...EL MON VREF signals 12 Vcc AO Auxiliary voltage output Ref DGND 11 13V IMax 20mA Short circuit proof against DGND 13 REM SB DI Output off off LOW ULow 1V on HIGH UHigh 4V U range 0 30V IMax 1mA at 5V Sender Open Collector against DGND 14 OVP DO Overvoltage error OVP HIGH UHigh 4V no OVP LOW ULow 1V Quasi open collector with pull up to Vcc At 5V at the output there will be max 1mA IMax 10mA at Uce ...

Страница 72: ...ruption This is called redundancy For a device error like overtemperature OT or overvoltage the output voltage will rise or fall to the highest value that was adjusted on any of the remaining units The wiring of terminal Share which is required for Share bus operation is explained in section 5 8 Terminal Share Also see figure 13 below Note if remote sense is going to be used it is recommended only...

Страница 73: ...73 Instruction Manual PSI 8000 3U Series EN Date 05 03 2012 Figure 13 Parallel connection with Share Bus Figure 14 Series connection Operating the device ...

Страница 74: ...rd For details refer to the seperate interface cards instruction manual Following options are available a High Speed Ramping Increased dynamics of the output voltage by reduced output capacity It must be pointed out that other output related values also increase Note this is a permanent modification which is not switchable b Watercooling Internally integrated water cooling block The watercooling i...

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Elektro-Automatik 09 230 430, Инструкция по эксплуатации

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