PowerLok Datasheet_Rev 2.1安费诺选型手册

1DescriptionPrimary-switched power supply with SFB technology, 1 AC, output current 15 AQUINT-PS/ 1AC/12DC/15© PHOENIX CONTACT - 03/2009Data sheet INTERFACE QUINT POWER power supply units – highest system availability due to SFB technologyCompact power supply units of the new QUINT POWER generation maximize the availability of your system. Even the standard power circuit-breakers can be tripped reliably and quickly with the SFB technology (Selective Fusebreaking Technology) and six times the nominal current for 12 ms. Defective current paths are disconnected selectively, the defect is limited and the important system parts remain in operation. A comprehensive diagnostics is carried out by continuously monitoring the output voltage and current. This preventive function monitoring visualizes the criticaloperating modes and reports them to the control unit before an error occurs.–Quick tripping of standard power circuit breakers with dynamic SFB technology power reserve–Reliable starting of difficult loads with static POWER BOOST power reserve–Preventive function monitoring –Can be used worldwide–High degree of operational safety due to high MTBF > 500 000 h, long mains buffering times > 20 ms, high dielectric strength up to 300 V AC103382_en_01Features2Table of contents1Description (1)2Table of contents (2)3Ordering data (3)4Technical data (3)5Structure (6)6Block diagram (7)7Safety notes (7)8Installation (8)9Installation position (8)10Mounting on DIN rails (9)Slim-style installation (9)Low-profile installation (9)11Connection to various systems (10)12Input (11)Protection of the primary side (11)Recommended backup fuse for mains protection (11)13Output (11)Protection of the secondary side (11)14Signaling (12)Floating contact (12)Active signal outputs (13)Signal loop (13)15Function (14)Output characteristic curve (14)Thermal behavior (14)Parallel operation (15)Redundant operation (15)Increased performance (15)Description TypeOrder No.Pcs. / Pkt.Primary-switched power supply with SFB technology, 1 AC, output current 15 AQUINT-PS/ 1AC/12DC/1528667181AccessoriesTypeOrder No.Pcs. / Pkt.Assembly adapter for QUINT POWER 10A on S7-300 rail QUINT-PS-ADAPTERS7/229382061Universal wall adapterUWA 182/5229382351Input dataInput nominal voltage range 100 V AC ... 240 V AC AC input voltage range 85 V AC ... 264 V AC Short-term input voltage 300 V ACDC input voltage range 90 V DC ... 350 V DC AC frequency range 45 Hz ... 65 Hz DC frequency range 0 HzCurrent consumption Approx. 1.9 A (120 V AC)Approx. 0.9 A (230 V AC)Inrush current limitation < 15 A (typical)I 2t< 1.5 A 2sPower failure bypass > 65 ms (120 V AC)> 65 ms (230 V AC)Typical response time < 0.5 sProtective circuitry Transient surge protection Varistor Input fuse, integrated6.3 A (slow-blow, internal)Recommended backup fuse for mains protection 10 A16 A (characteristic B)Discharge current to PE< 3.5 mAOutput dataNominal output voltage12 V DC ±1%Setting range of the output voltage 5 V DC ... 18 V DC (> 12 V constant capacity)Output current15 A (-25°C ... 70°C)16 A (with POWER BOOST, -25°C ... 40°C permanent)60 A (with SFB technology, 12 ms)Derating From +60°C 2.5% per KelvinControl deviation< 1 % (change in load, static 10% ... 90%)< 2 % (change in load, dynamic 10% ... 90%)< 0.1 % (change in input voltage ±10%)Power loss nominal load max.21 W Maximum power dissipation idling 5 WEfficiency > 89 % (for 230 V AC and nominal values)Ascent time < 0.5 msResidual ripple< 10 mV PP (with nominal values)Peak switching voltages 40 mV PPConnection in parallel Yes, for redundancy and increased capacity Connection in seriesYesSurge protection against internal surge voltages Yes, limited to approx. 25 V DC Resistance to reverse feedMax. 25 V DC3Ordering data4Technical dataDC OK activeOutput description U OUT > 0.9 x U N: High signalVoltage+ 5 V DC ... 12 V DCCurrent≤ 20 mA (short circuit resistant)Status display"DC OK" LED green / U OUT < 0.9 x U N: LED flashing DC OK floatingOutput description Relay contact, U OUT > 0.9 x U N: Contact closed Voltage≤ 30 V AC/DC (≤ 0.5 A / at 60 V AC/DC)Current≤ 1 AStatus display"DC OK" LED green / U OUT < 0.9 x U N: LED flashing POWER BOOST, activeOutput description I OUT < I N: High signalVoltage+ 5 V DC ... 12 V DCCurrent≤ 20 mA (short circuit resistant)Status display LED "BOOST", yellow / I OUT > I N: LED onGeneral dataInsulation voltage input/output 4 kV AC (type test)2 kV AC (routine test)Insulation voltage input / PE 3.5 kV AC (type test)2 kV AC (routine test)Insulation voltage output / PE500 V DC (routine test)Degree of protection IP20Class of protection I, with PE connectionMTBF> 500 000 h in acc. with IEC 61709 (SN 29500) Housing material Steel sheet, zinc-platedDimensions W / H / D (state of delivery)60 mm / 130 mm / 125 mmDimensions W / H / D (90° turned)122 mm / 130 mm / 63 mmWeight 1.1 kgAmbient conditionsAmbient temperature (operation)-25 °C ... 70 °C (> 60°C derating)Ambient temperature (storage/transport)-40 °C ... 85 °CMax. permissible relative humidity (operation)95 % (at 25°C, no condensation)Vibration (operation)< 15 Hz, amplitude ±2.5 mm in acc. with IEC 60068-2-615 Hz ... 150 Hz, 2.3g, 90 min.Shock30g in all directions in acc. with IEC 60068-2-27 Pollution degree in acc. with EN 501782Climatic class3K3 (in acc. with EN 60721)StandardsElectrical Equipment for Machinery EN 60204Safety transformers for power supply units IEC 61558-2-17Electrical safety (of information technology equipment)IEC 60950/VDE 0805 (SELV)Electronic equipment for use in electrical power installations EN 50178/VDE 0160 (PELV)SELV IEC 60950 (SELV) and EN 60204 (PELV)Safe isolation DIN VDE 0100-410DIN VDE 0106-1010Protection against electric shock DIN 57100-410Protection against electric shock, basic requirements for safe isolation inDIN VDE 0106-101electrical equipmentStandards (Continued)Limitation of mains harmonic currents EN 61000-3-2Device safety GS (tested safety)Network variants (undervoltage)Semi F47-200Certificate CB SchemeApprovalsUL approvals UL Listed UL 508UL/C-UL Recognized UL 60950Conformance with EMC guideline 2004/108/EC and for low-voltage guideline 2006/95/ECNoise immunity according to EN 61000-6-2Electrostatic discharge EN 61000-4-2Housing Level 4Contact discharge8 kVDischarge in air15 kVComments Criterion BElectromagnetic HF field EN 61000-4-3Housing Level 4Frequency range80 MHz ... 1000 MHzField intensity20 V/mComments Criterion AFast transients (burst)EN 61000-4-4Input 4 kV (level 4 - asymmetrical)Output 2 kV (level 1 - asymmetrical)Signal 1 kV (level 1 - asymmetrical)Comments Criterion BSurge current loads (surge)EN 61000-4-5Input 4 kV (inst. class 4 - asymmetrical: conductor to ground)2 kV (inst. class 4 -symmetrical: conductor to conductor)Output 2 kV (level 3 - asymmetrical: conductor to ground)1 kV (level 1 - symmetrical: conductor to conductor)Signal 1 kV (level 3 - asymmetrical: conductor to ground)Comments Criterion BConducted interference EN 61000-4-6Input/Output/Signal Level 3 - asymmetricalFrequency range0.15 MHz ... 80 MHzVoltage10 VComments Criterion AVoltage dips EN 61000-4-11Input(mains buffering > 20 ms)Comments Criterion BEmitted interference in acc. with EN 61000-6-3Radio interference voltage in acc. with EN 55011EN 55011 (EN 55022) Class B, area of application: Industry and residential Emitted radio interference in acc. with EN 55011EN 55011 (EN 55022) Class B, area of application: Industry and residential5Structure1AC input2DC output3POWER BOOST switching output, active4DC OK switching output active5DC OK output, floating6Potentiometer 5 V DC ... 18 V DC7"DC OK" LED8"BOOST" LED9Universal DIN rail adapter UTA 107/30[mm2]AWG[Nm]solid stranded TorqueInput0.2-2.50.2-2.516-120.5-0.6Output0.2-2.50.2-2.516-120.5-0.6Signal0.2-2.50.2-2.516-120.5-0.6Input dataInput nominal voltage range100 V AC ... 240 V ACAC input voltage range85 V AC ... 264 V ACShort-term input voltage300 V ACDC input voltage range90 V DC ... 350 V DCAC frequency range45 Hz ... 65 HzDC frequency range0 HzInput fuse, integrated 6.3 A (slow-blow, internal)Recommended backup fuse for mains protection10 A16 A (characteristic B)Type of connection Pluggable screw connectionStripping length7 mmOutput dataNominal output voltage12 V DC ±1%Setting range of the output voltage 5 V DC ... 18 V DC (> 12 V constant capacity)Output current15 A (-25°C ... 70°C)16 A (with POWER BOOST, -25°C ... 40°C permanent)60 A (with SFB technology, 12 ms)Type of connection Pluggable screw connectionStripping length7 mm6Block diagram7Safety notes8InstallationThe power supply unit can be snapped onto allDIN rails in acc. with EN 60715. They must bemounted horizontally (connecting terminalblocks top and bottom).9Installation positionSlim-style installation: Installation depth 125 mm (+ DIN rail)(state at delivery)Low-profile installation: Installation depth 63 mm (+ DIN rail)10Mounting on DIN railsSlim-style installationAssembly:Position the module with the DIN rail guide on the upper edgeof the DIN rail, and snap it in with a downward motion.Removing:Pull the snap lever open with the aid of a screwdriver and slidethe module out at the lower edge of the DIN rail.Low-profile installationLow-profile installation can be achieved by mounting the device at right-angles to the DIN rail. Mount the DIN rail adapter (UTA 107/30) as described in the figure. No additional mounting material is required. Fixing screws: Torx T10 (torque 0.8 Nm ... 0.9 Nm).11Connection to various systemsThe connection for 100V AC ... 240 V AC is established using the L, N, and P screw connections.The device can be connected to 1-phase AC networks or to two of the phase conductors of three-phase systems (TN, TT or IT systems in accordance with VDE 0100-300/IEC 60364-3) with nominal voltages of 100 V AC ... 240 V AC.The device also continues to work on short-term input voltages >300V AC.12InputProtection of the primary sideThe device must be installed in acc. with the regulations as inEN 60950. It must be possible to disconnect the device usinga suitable isolating facility outside the power supply.The primary side line protection, for example, is suitable. Fordevice protection, there is an internal fuse. Additional deviceprotection is not necessary.Recommended backup fuse for mains protectionPower circuit breaker 10 A or 16 A, characteristic B (oridentical function). In DC applications, a suitable fuse must bewired in upstream.13OutputThe connection is established using screw connections onthe screw connection of the DC output:12 V DC: "+" and "–"; DC OK switching output active: "DC OK"and "–"; DC OK output floating: "13" and "14"; POWERBOOST switching output active: "I < I N" and "–".The set output voltage is 12 V DC at the time of delivery. Theoutput voltage can be set on the potentiometer.Protection of the secondary sideThe device is electronically protected against short circuit andidling. In the event of a malfunction, the output voltage islimited to 25 V DC.14SignalingThe active signal output, the floating signal contact and the active POWER BOOST switching output are provided for function monitoring. The DC OK-LED and the BOOST-LED also enable the function evaluation of the power supply unit directly on the operation site (refer to the output characteristic curve).I < I N I > I N U OUT < 0.9 x U N"DC OK" LED ON ON Flashing"BOOST" LED OFF ON ONActive DC OK switchingoutputON ON OFFFloating DC OK output Closed Closed OpenActive POWER BOOSTswitching outputON OFF OFFMeaning Normal operation of thepower supply POWER BOOST operation,e.g. to start loadsOverload mode, e.g.consumer short circuit oroverloadFloating contactThe floating signal contact opens and indicates that the set output voltage has undershot by more than 10%. Signals and ohmic loads of up to maximum 30V and currents of maximum 1A (or maximum 60V with maximum 0.5A) can be switched. For heavily inductive loads such as a relay, a suitable protection circuit (e.g. damping diode) is necessary.Active signal outputsThe 5 ... 12 V DC signal is applied between the "DC OK" and the "–" connection terminal blocks or between "I < I N" and "–" and can carry up to 20 mA. By switching from "active high" to "low", the DC OK signal output signalizes when the output voltage is fallen short of by more than 10%.The DC OK signal is decoupled from the power output. It is thus not possible for devices connected in parallel to act as an external power supply.The 5 ... 12 V DC signal can be directly connected to a logic input for evaluation.The POWER BOOST signal output signalizes that the nominal current is exceeded.Signal loopMonitoring two devices: Use the active signal output of device 1 and loop in the floating signal output of device 2. In the event of malfunctioning, a common alarm is output. Any number of devices can be looped in. This signal combination saves wiring costs and logic inputs.15FunctionOutput characteristic curveThe power supply unit operates with the static POWER BOOST power reserve as per the U/I characteristic curve given in the figure. In case of ambient temperaturesT amb<+40°C,I BOOST is available permanently; it is available only for a few minutes in case of higher temperatures. In the event of a secondary short circuit and overload, the output current is limited to I BOOST. Thereby, the module does not switch off, but supplies a continuous output current. The secondary voltage is reduced until the short circuit has been remedied. The U/I characteristic curve with the POWER BOOST power reserve ensures that high inrush currents of capacitive loads and of consumers with DC/DC converters in the input circuit can be fed reliably.In order to trip the standard power circuit breakers magnetically and thus very quickly, QUINT POWER supplies six times the nominal current for 12ms with the help of the SFB technology. The defective current path is switched off using this dynamic power reserve; consumers connected in parallel continue to operate without an interruption. The error is thus restricted and the important system parts continue to operate.The characteristic curve shows when I<IN, I>I N andU<0.9x U N. The relevant signaling is given in the table.U N = 12 VI N = 15 AI BOOST = 16 ASFB technology = 60 AP N = 180 WP BOOST = 192 WThermal behaviorWith an ambient temperature of up to +40°C, the device supplies the continuous output current of I BOOST. The device can supply a nominal output current of I N with ambient temperatures of up to +60°C. In the case of ambient temperatures above +60°C, the output current must be reduced by 2.5% per Kelvin increase in temperature. The device does not switch off at ambient temperatures of +70°C or thermal overload. The output capacity is reduced as far as necessary to provide device protection. After it has cooled down, the output capacity is increased again.Parallel operationDevices of the same type can be connected in parallel to enable both redundancy and an increase in efficiency. No other alignment is necessary when in the state of delivery.If the output voltage is adjusted, a uniform distribution of power is guaranteed by setting all parallel operated power supply units to exactly the same output voltage.To ensure symmetrical distribution of power, we recommend designing all cable connections from the power supply unit to a busbar of the same length and with the same conductor cross section. The system makes it advisable to install a protective circuit at the output of each device when more than two power supply units are connected in parallel (e.g. decoupling diode or DC fuse). This prevents high reverse feed currents in the event of a secondary device fault.Redundant operationRedundant circuits are suitable for the supply of systems which make especially high requirements on the operational safety. If a fault occurs in the primary circuit of the first power supply unit, the second device automatically takes over the entire power supply, without interruption, and vice versa. For this reason, the power supply units to be connected in parallel are dimensioned in such a way that the total current requirement of all consumers can be completely covered by one power supply unit. 100% redundancy makes external decoupling diodes necessary (QUINT-DIODE/40, Order No. 2938963)!Increased performanceFor n parallel connected devices, the output current can be increased to n x I N. Parallel connection to increase efficiency is used for the expansion of existing systems. It is advisable to use parallel connection if the power supply unit does not cover the current requirement of the most powerful consumer. Otherwise the consumers should be spread among individual devices independent of one another. A maximum of five devices can be connected in parallel!。

POINT I/O 模块Bulletin 1734选型指南重要用户须知固态设备具有与机电设备不同的运行特性。

《固态控制设备的应用、安装与维护安全指南》(出版号SGI-1.1，本资料可从当地罗克韦尔自动化销售处索取或从网站下载)介绍了固态设备与硬接线机电设备之间的一些重要差异。

由于存在这些差异，同时固态设备的应用又非常广泛，负责应用此设备的所有人员都必须确保仅以可接受的方式应用此设备。

任何情况下，对于因使用或操作本设备造成的任何间接或连带损失，罗克韦尔自动化公司概不负责。

本手册中包含的示例和图表仅用于说明。

由于任何具体的安装都存在诸多差异和要求，罗克韦尔自动化公司对依据这些示例和图表进行的实际应用不承担任何责任和义务。

对于因使用本手册中所述信息、电路、设备或软件而引起的专利问题，罗克韦尔自动化不承担任何责任。

未经罗克韦尔自动化公司的书面许可，任何单位或个人不得复制本手册之全部或部分内容。

在整本手册中，我们在必要的地方使用了以下注释，来提醒您注意相关的安全事宜。

Allen-Bradley、Rockwell Automation、POINT I/O、POINT Guard I/O、POINTBus、GuardLogix、RSLogix 5000、DeviceLogix 和 TechConnect 是罗克韦尔自动化公司的商标。

不属于罗克韦尔自动化的商标是其各自所属公司的财产。

目录第 1 章POINT I/O 系列概述 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5POINT I/O 系统. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6POINT I/O 特性. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7指定 POINT I/O 系统 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8第 2 章选择 POINT I/O 通信接口概述 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9NetLinx 开放式网络架构. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9选择网络 . . . . . . . . . . . . . . . . . . . . 10EtherNet I/P 网络. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11ControlNet 网络. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12存储器要求 . . . . . . . . . . . . . . . . . . . 14DeviceNet 网络 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15PROFIBUS DP 网络 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17通信适配器环境技术参数. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18第 3 章选择 POINT I/O 模块选择 POINT I/O 模块 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 19数字量 I/O 模块. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20数字量交流输入模块 . . . . . . . . . . . . . . . 21数字量交流输出模块 . . . . . . . . . . . . . . . 21数字量直流输入模块 . . . . . . . . . . . . . . . 22数字量直流输出模块 . . . . . . . . . . . . . . . 22数字量触点模块 . . . . . . . . . . . . . . . . . 23数字量 I/O 模块环境技术参数. . . . . . . . . . . 24可自组态的模块 . . . . . . . . . . . . . . . . . 24可自组态的模块的环境技术参数 . . . . . . . . . . 25模拟量和温度 I/O 模块. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 26模拟量输入模块 . . . . . . . . . . . . . . . . . 27温度输入模块 . . . . . . . . . . . . . . . . . . 28模拟量输出模块 . . . . . . . . . . . . . . . . . 31模拟量和温度 I/O 模块环境技术参数. . . . . . . . 32专用 I/O 模块 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 321734-232ASC 和 1734-485ASC 串行接口模块. . . . . 32具备绝对编码器的 1734-SSI 同步串行接口模块 . . . 331734-ARM 地址预留模块. . . . . . . . . . . . . . 351734-CTM 公共端子模块和 1734-VTM 电压端子模块. . 35专用 I/O 模块环境技术参数. . . . . . . . . . . . 36计数器模块. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 37计数器模块环境技术参数 . . . . . . . . . . . . . 40安全 I/O 模块 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 40POINT I/O 附件. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 47第 4 章选择端子底座组件端子底座组件. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 49iv 目录单片式端子底座. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 51第 5 章选择电源单元POINT I/O 通信适配器 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 53扩展电源 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 54现场电源分配器. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 57第 6 章安装要求电源距离额定值. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 61安装 POINT I/O 系统 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 62近似安装尺寸 . . . . . . . . . . . . . . . . . . 63第 7 章相关文档. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .65章节 1POINT I/O 系列概述POINT I/O 系列具有适合于灵活及低成本应用场合的模块化 I/O，是成功实现控制系统设计和操作的关键。

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Eaton is a registered trademark.All other trademarks areproperty of their respectiveowners./socialmediaPower Defense Frame 2 Direct Rotary Handle Mechanism Installation How-To VideoPower Defense Frame 3 Variable Depth Rotary Handle Mechanism Installation How-To VideoPower Defense Frame 2 Variable Depth Rotary Handle Mechanism Installation How-To VideoPower Defense molded case circuit breakers Eaton Power Defense for superior arc flash safety Power Defense Frame 6 Trip Unit How-To Video Power Defense BreakersPower Defense Frame 5 Trip Unit How-To Video Eaton Specification Sheet - PDG23M0225E2WL Power Defense time current curves MCP Motor Circuit Protection – PD1, PD2, PD3Power Defense time current curve Frame 2 - PD2Making a better machineMolded case and low-voltage power circuit breaker health Single and double break MCCB performance revisited Intelligent circuit protection yields space savings Intelligent power starts with accurate, actionable data Safer by design: arc energy reduction techniques Molded case and low-voltage breaker healthSpecifications and datasheetsTime/current curvesWhite papers。

INSTRUCTION MANUALELECTRICAL LOAD CELLModel ANCLORoctest Limited, 2017. All rights reserved.This product should be installed and operated only by qualified personnel. Its misuse is potentially dangerous. The Company makes no warranty as to the information furnished in this manual and assumes no liability for damages resulting from the installation or use of this product. The information herein is subject to change withoutnotification.Tel.: 1.450.465.1113 • 1.877.ROCTEST (Canada, USA) • 33 (1) 64.06.40.80 (Europe) • • www.telemac.frE1033-170413TABLE OF CONTENTS1PRODUCT (2)1.1D ESCRIPTION (2)1.2S PECIFICATIONS (2)2INSTALLATION (3)2.1C ABLE INSTALLATION (4)2.2E LECTRICAL SPLICES (5)2.3C ABLE WIRING (5)2.4L IGHTNING PROTECTION (5)3DATA READING AND ANALYSIS (7)3.1G ENERAL (7)3.2R EADING O UTPUT IN ENGINEERING UNITS (7)3.3R EADING O UTPUT IN M V/V (9)3.4D ATA REDUCTION (12)3.5V ERIFICATION OF CELL CIRCUIT (13)3.6P OTENTIAL EFFECTS OF INSTALLATION OVER READINGS (13)4MISCELLANEOUS (14)4.1C ONVERSION FACTORS (14)4.2C ALIBRATION DATA SHEET (15)4.3W IRING DIAGRAM (17)1PRODUCT1.1DESCRIPTIONANCLO load cells are used to measure tensile loads in tie-back anchors and rockbolts, or compressive loads in structures. Typical applications include:∙ Anchored retaining walls, tieback.∙ Anchoring systems for deep excavations∙ Tie-down anchors for buoyant structures∙ Rockbolts and soil nails monitoring in mines and slope stabilization∙ Load monitoring in structures∙ To check on the load as determined by hydraulic pressure applied to a jack during proof-testing on tiebacks. Note that in this case because of many parameters, the agreement cannot be guaranteed better than +/-20%.The load sensing element is a spool of high strength heat-treated steel that withstands rough handling and loading. The ANCLO load cell is built with a hollow cylindrical core onto which four to eight strain gages are bonded in pairs at 90o intervals around the periphery and connected in a Wheatstone bridge circuit. Load cells less than 152 mm in internal diameter use four bonded strain gages whereas 152 mm or larger internal diameter load cells use eight pairs of bonded strain gages. The gages are wired in a full bridge configuration for temperature compensation, optimum sensitivity and the accurate measurement of non-uniformly distributed loads. A steel housing with o-ring seals covers the spool and protects the strain gauges from mechanical damage and water infiltration. The plain PVC or armor-jacketed electrical cable connects to the cell by∙either a detachable multi-pin electrical connector mounted on the cell∙or permanent factory wiring of the lead cable to the cell. The cable enters the cell through a watertight electrical connectorThe load cells are protected against moisture intrusion and are splash proof.An identification plate on the outside of the cell holds the following information: ∙The serial number∙The capacity of the cell in kN1.2SPECIFICATIONS2INSTALLATIONThe load cell support surface should be smooth and perpendicular to the axis of the anchor or tieback. The use of a load bearing plate of suitable thickness between cell base and the bearing surface, and a load distribution plate between the anchor or tieback head and the load cell is required.Load distribution on bearing plates that are too thin or improperly dimensioned will result in uneven load distribution causing erroneous results. The inside diameter of the load bearing and distribution plates should be identical to the inside diameter of the load cell.The load distribution plate can be either a single plate or double spherically seated plates. Use of latter can compensate for misalignment of the bearing surface, load cell and distribution plate. Upon installation, locate the electrical connector downward to minimize the risk of damage.TABLE 1: Wiring code for connecting load cell to a “P3” readout unit.Load cells are accurate instruments and should be treated with care. They should under no circumstances be picked up by the cable. Even if the cells have been designed to be watertight and robust, they can be damaged by misuse, particularly with respect to the cable. Load cells have to be installed with a special care to their installation. From the design arrangements comes the quality of the measurements. The installation design should minimize the eccentric loading and the misalignment of load, whatever the context of measurement (tie-backs, pile test …). Therefore, cells have to be set between two flat, smooth and stiff plates. The wall where the tie-back applies or the top of the pile during a load test should be plane as well. If necessary, make it so with cement or concrete. If the cells are installed on tie-backs, bushings are often useful to center the hollow cylinder.Figure 1: Anclo typical installation on a tie-back2.1CABLE INSTALLATIONCable identificationThe electrical signal coming from the sensor is transmitted through an electrical cable. This cable is generally supplied in rolls. Cables are identified with the serial number that is labelled on the sensor housing. The serial number is stamped on a tag that is fastened to the readout end of the cable. In the case where the sensor cable has to be cut or if the cable end is inaccessible, make sure to be able to identify it (by marking its serial number for instance with an indelible marker or using a color code). It is very important to clearly identify the instrument for reading or wiring purposes.Cable routingSome of the more important considerations that must be given to cable runs are: ∙Avoid traversing transition zones where large differential settlements could create excessive strain in the cable.∙Avoid cable splices. If necessary, refer to the special paragraph below.∙Do not lay cables one on top of the other.∙Use horizontal snaking or vertical snaking of the cable within the trenches. For most materials, a pitch of 2 m with amplitude of 0.4 m is suitable. In very wet clays increase the pitch to 1 m.∙Use a combination of horizontal and vertical snaking at transition zones.Once a cell is installed, route its cable towards the junction or switching box. Make sure that the cable is protected from cuts or abrasion, potential damage caused by angular material, compacting equipment or stretching due to subsequent deformations duringconstruction or fill placement. If necessary, run the cable through rigid or flexible conduit to the terminal location. To provide protection for cable running over concrete lifts, hand placed concrete is sometimes used, depending on site conditions. Check that the cable does not cross over itself or other cables in the same area. Surface installations require continuous surveillance and protection from the earth moving equipment circulating on the field. During the cable routing, read the instruments at regular intervals to ensure continued proper functioning. Record the cable routing with care and transfer this routing to the drawings.2.2ELECTRICAL SPLICESGenerally, cable splices are to be avoided. If necessary, use only the manufac turer’s approved standard or high-pressure splice kit. Splicing instructions are included with the splice kit. Should the cable be cut, we recommend the use of our cable splice kits, especially if the splice is located underwater. Furthermore, in special cases on site (large distance between sensors, readout position for example), splices are useful to limit the number of cables to lay. Individual sensor cables can be merged into a multi-conductor cable using a splice or a junction box.Figure 2: Example of junction box usePlease contact Roctest for additional information about junction boxes and splice kits.2.3CABLE WIRINGBefore cutting a cable, make sure of its identification. Strip back the conductor insulation by about 1cm. If possible, tin the exposed conductors with a solder.2.4LIGHTNING PROTECTIONAt all times during the installation, any cable that is exposed to potential damage by lightning must be protected. A large grounded metal cage placed over the cable bundle, combined with direct grounding of all leads and shields is an effective way to prevent lightning damage to the instruments and cables during the installation process. Please contact Roctest for additional information on protecting instruments, junction boxes and data logging systems against power surges, transients and electromagnetic pulses. Alljunction boxes and data logging systems furnished by Roctest are available with lightning protection.3DATA READING AND ANALYSIS3.1GENERALEach load cell comes with a calibration certificate. The certificate lists the sensitivity factor used with a P-3 VISHAY strain indicator or equivalent.Read each load cell immediately prior to installation. Record each reading under no-load conditions and compare it with the initial value on the calibration data sheet. Readings should agree within +/-0.025mV/V. ANCLO load cells are temperature compensated for a range of -40 °C to +75 °C for equilibrium temperature conditions. It is recommended to protect it from direct sunlight.If there is a wide discrepancy during storage temperature of the cell and the ambient temperature prior to installation, the cells should be conditioned to the ambient temperature until temperature equilibrium is reached. This ensures that initial reading, made under no-load conditions prior to installation, is a stable value to which subsequent measurements can be referenced. ANCLO load cells can be read with most strain gage indicators. The following procedure applies to the P-3 VISHAY Micro-Measurements indicators.3.2READING OUTPUT IN ENGINEERING UNITS(For more details on other P-3 features, please refer to “P-3 Strain Indicator and Recorder Instruction Manual”)LCD DisplayKeypadIf you want to see the reading of the load cell directly in engineering units as kN then refer to the following instruction for P-3 configuration. You can connect up to four load cells to a P-3 readout unit as it has four channels available.1.Press POWER key on the face plate2.Press CHAN key“Chan” Sub-menuUse left and right arrows to activate appropriate ChannelConfirm entry by pressing key MENU3.Press BRIDGE key“Bridge” Sub-menuSelect the appropriate ChannelUse left and right arrows to select appropriate bridge type.For ANCLO Load Cell, select “Undef FB” for each channel to be used.Confirm entry by pressing key MENU4.Press GF/SCALING key“Chan” Sub-menuUse left and right arrows to select appropriate Channel“Units” Sub-menuSet appropriate unit among available listNote that units are provided for convenience only, and have no effect on the calculated values. In order to properly scale the data, it is necessary to supply the full scale value and the mV/V output at the full scale value.“Full Scale” Sub-menuSet appropriate Full Scale to the full scale value of the load in engineering units as shown on the calibration data sheet.“F.S. mV/V” Sub-menuSet sensitivity at full scale (in mV/V) according to load cell sensitivity value indicated on the calibration data sheet.“Dec.Places” Sub-menuSet the Dec. Places to the correct number in accordance with the units and the full scale reading previously chosen or select Auto for automatic adjustment.To return to reading display, confirm entry by pressing key MENUWe highly recommend to take note now of the no load zero reading.5.Press BAL keyBefore to use the BAL key you should check if the balance is not in the disable mode. Then go to the main menu and select balance. For each channel be sure to select the mode Auto and press key menu to confirm and come back to reading value.The balance will do a null reading to see a value near of zero when there is no load on the load cell.Then press the BAL key on the face plate. Depress the balance button a second time to select auto. This will trigger the auto balance procedure. When completed it will automatically bring up to the Saving Settings menu. Save the settings by depressing the record button on the face plate. The display should now read zero and you are ready to display the load directly in engineering units.Note that the auto balance only works when the load cell is under zero load. Do not switch from one load cell to another if the load cells are under load.For more details on readings relative to an absolute ZERO, refer to “Manual Balance” topic in “P-3 Strain Indicator and Recorder Instruction Manual”.3.3READING OUTPUT IN MV/VThe simplest way to read multiple load cells using the P-3 readout unit is to read the output in mV/V and then use the load cell sensitivity factor in mV/V at full scale to compute the load as shown on the section 3.4.Before to read in mV/V be sure to erase all previous parameters and settings in the readout unit. To erase the settings go to the Main Menu and select Options as shown on following pictures.In the menu OPTIONS select AdvancedAnd select Factory Defaults.Then press the record button on the front panel to restore factory defaults.After erasing the settings, set up the P-3 readout unit as follows:First connect the load cell according to wiring and color code as mentioned on table 1 on channel 1.Then press CHAN key or from the main menu press ‘’select channel’’ and activate all channels where you have connected a load cell. Confirm entry by pressing key MENUThen press “Bridge” Sub-menu, select the appropriate Channel and use left and right arrows to select appropriate bridge type. For ANCLO Load Cell, select “Undef FB” for each channel to be used. Confirm entry by pressing key MENUThen Press GF/SCALING key and in “Chan” Sub-menu use left and right arrows to select appropriate channel. In “Units” Sub-menu set appropriate unit to mV/V like following picture.Be sure in the BAL key menu to disable all channels.Then reading will be displayed in mV/V. See next section for conversion in engineering unit.3.4DATA REDUCTIONReading output in engineering unitIf you display the value in engineering unit on the P-3 readout (section 3.2) then actual load is obtained following this equation:Load = (L - L o)Where L = Current reading in P-3 unitsL o= Initial reading in P-3 unitsLoad = Load in engineering unitsReading output in mV/VIf you display the value in mV/V on the P-3 readout (section 3.3) then actual load is obtained following this equation:Load = Full scale x (L1 - L0)Load cell sensitivity (S)WhereLoad= Applied load in engineering unit (kN)L1= Current reading in mV/VL0= The regression zero no-load reading in mV/V (see calibration data sheet for the value of L0.S= is the load cell sensitivity at full scale in mV/V (see the calibration data sheet for the value)Full Scale= is the full scale capacity of the load cell (see the calibration data sheet for the value)Here is an example based on the calibration data sheet as defined on section 4.2.For example if the current load cell reading is 1.508mV.Load = [2000kN x (1.508mV/V – 0.218mV/V)] / 2.1515 mV/V = 1199.16kN3.5VERIFICATION OF CELL CIRCUITThe cell circuit may be checked by reading resistance and comparing it with values below: ∙Between P+ and P- wires: 700 ohms (1400 ohms when 8 pairs)∙Between S+ and S- wires: idem∙Other combination between wires: 500 ohms∙Between any wire and ANCLO/structure/shield: >1000 Mega ohms3.6POTENTIAL EFFECTS OF INSTALLATION OVER READINGSHollow-center load cells are susceptible to varying conditions of end loading. Eccentric loading, warping of the distribution plate and friction between the distribution plate and the load cell can significantly affect readings. Special precautions must be taken to minimize these effects.Furthermore, cells have to be set between two flat and stiff plates. Thickness of the distribution plate should be at least 25 mm. This thickness should be more important when load range increases and when surfaces of the load cell and the loading element (hydraulic ram) differ. Also, the user may consider asking for doing a calibration using the same distribution and bearing plates he intends to use in the field. Please contact Roctest for more information about distribution plates and calibration.Finally, different friction conditions between the distribution plate and the cell will also affect readings. We suggest using flat, smooth, non-lubricated, plates in the field as we do during calibration. Friction losses within the hydraulic jack can also affect readings.4MISCELLANEOUS4.1CONVERSION FACTORSTABLE 2: Conversion Factors.4.2CALIBRATION DATA SHEETA calibration data sheet is supplied with each load cell. It enables conversion of raw readings into load values. All the sensors are individually calibrated over their working capacity before shipment. The calibration factor coefficient, which is the load cell sensitivity, is obtained using regression techniques through a linear regression formula which may introduce a substantial non-linearity error around the zero reading. See the following page for an example of calibration data sheet.CALIBRATION DATA SHEETLOAD CELLModel: ANCLO-2000Serial number: 33012030Capacity: 2000 kNMax. excitation: 10.00 VDCTemperature: 21 °CCable model: IRC-41ACable length: 12 mColor code: Red: Power P +Black: Power P -Green: Signal S +White: Signal S -Calibration data:Load cell sensitivity: 2.1515 mV/V at full scaleRegression zero (L o): 0.2180 mV/VTraceability no: TR-12-07Certificate no: 033012028-030.xlsxCalibrated by: Eric Tremblay Date: 2017/04/124.3WIRING DIAGRAMFIGURE 3: ANCLO Load cell wiring diagram (Full Bridge Configuration).。

40-100Watts •Compact Size -High Power Density •IT,Industrial &Medical Approvals •Convection-cooled •Class I and II Construction•DC Input Version Available (DCM Series)•PoE Isolation Version Available (POE Series)•3Year WarrantyECM SeriesInputInput Voltage •90-264VAC (120-370VDC)Input Frequency •47-63Hz;440HzInput Current•40W:0.4A max at 230VAC 60W:0.6A max at 230VAC 100W:0.9A max at 230VACI nrush Current •40A max at 230VACEarth Leakage Current •<125µA at 115VAC/60Hz<210µA at 230VAC/50HzInput Protection •Internal T3.15A,250V fuse in lineand neutralOutputOutput Voltage•See tablesOutput Voltage Trim•±5%on 3.3V &5V versions,±10%on other single output models and V1of multi-output models.See note 1for ECM40/60modelsInitial Set Accuracy •±1.0%V1,±5%V2,V3&V4Minimum Load •See tables Start Up Delay • 1.5s max Start Up Rise Time •10ms max Hold Up Time •16/75ms min at 115/230VAC Line Regulation •±0.5%Load Regulation •±1%single output models;±3%V1,±5%V2&V3ECM40/60multi-output models.±1%V1&V2,±5%V3&V4ECM100Cross Regulation •2%on ECM40/60only Over/Undershoot •None at turn on/off Transient Response •4%max.deviation,recovery to within1%in 500µs for a 25%load changeRipple &Noise •1%pk-pk,20MHz bandwidthOvervoltage Protection •115-135%Vnom,recycle input to reset Overload Protection •110-150%on primary power limit,auto recoveryShort Circuit Protection •Trip and restart (Hiccup mode)Temperature •0.05%/°C Coefficient Peak Load •120%for 100ms (ECM40/60)see note 3.GeneralEfficiency •80-85%depending on model Isolation•4000VAC Input to Output 1500VAC Input to Ground 500VAC Output to Ground Switching Frequency •70kHz typical Power Density•40W:4.2W/In 360W:6.3W/In 3100W:7.4W/In 3MTBF•600kHrs to MIL-HDBK-217F at 25ºC,GBEnvironmentalOperating Temperature •0°C to +70°C.Refer to derating curvesfor specific operating limitations.Cooling •Convection &fan-cooled ratings(see derating curves)Operating Humidity •95%RH,non-condensing Storage Temperature •-40°C to +85°C Operating Altitude •3000m Shock •30g pk,half sine,6axes Vibration •2g rms,5Hz to 500Hz,3axesEMC &SafetyEmissions•EN60601-1-2,EN61204-3,FCC 20780,EN55022&EN55011,level B conducted EN55022Level A radiated Harmonic Currents •EN61000-3-2Voltage Flicker •EN61000-3-3ESD Immunity•EN61000-4-2,level 3Perf Criteria A Radiated Immunity •EN61000-4-3,10V/m Perf Criteria A EFT/Burst •EN61000-4-4,level 3Perf Criteria A Surge•EN61000-4-5,level 3Perf Criteria A Conducted Immunity •EN61000-4-6,10V Perf Criteria ADips &Interruptions•EN61000-4-11,30%10ms,60%100ms,100%5000ms,Perf Criteria A,B,B EN60601-1,30%500ms,60%100ms,100%10ms,100%5000ms,Perf Criteria A,A (with 50%load),A,B Safety Approvals•EN60950,UL60950,CSA 22.2601.1,EN60601-1,UL60601-1ECM40&ECM60:SEMI F472.To receive unit with cover fitted,add suffix ‘-C’to model number.For Class I operation only.3.A 120%peak load can be taken for up to 100ms with a 25%duty cycle.Average load not to exceed 40W.2.Cable harnessess with 300mm wire available.For single output models,order part number ECM40/60S LOOM †.For multi-output models,order part number ECM40/60DT LOOM †.4.Covers available.Order part number ECM40/60COVER ^†.Cover dimensions are 4.49x 2.52x 1.52(114x 64x 38.5)ø0.312(7.92)clearance top and bottomSMD J1mates withMolex housing 43061-0003&Molex series 5194crimp terminals Ground tab (0.25faston)standard J2mates withMolex housing 43061-0006&Molex series 5194crimp terminals Weight:approx.0.33lb (150g)†Available from Farnell.See pages 266-269.^Available from Newark.See pages 270-272.2.To receive unit with cover fitted,add suffix ‘-C’to model number.For Class I operation only.3.A 120%peak load can be taken for up to 100ms with a 25%duty cycle.Average load not to exceed 60W.†Available from Farnell.See pages 266-269.^Available from Newark.See pages 270-272.2.Cable harnesses with 300mm wire available.For single output models,order part number ECM40/60S LOOM †.For multi-output models,order part number ECM40/60DT LOOM †.3.Mating connector kit available.Order part number ECM40/60CONKIT †.are 4.49x 2.52x 1.52(114x 64x 38.5).5.Selected single output models available in a 3”x 5”footprint for OEM quantities.Contact sales for details.ø0.312(7.92)clearance top and bottomSMD J1mates withMolex housing 43061-0003&Molex series 5194crimp terminals.Ground (0.25faston)tab standard.J2mates withMolex housing 43061-0006&Molex series 5194crimp terminals.Weight:approx.0.33lb (150g)2.Cable harnessess with 300mm wire available.For single output models,order part number ECM100S LOOM †.For multi-outputs,p/n ECM100DT LOOM †.ECM100S CONKIT †.4.Covers available.Order part number ECM100COVER †^.Multi Output Models†Available from Farnell.See pages 266-269.^Available from Newark.See pages 270-272.2.Input reverse voltage protection is continuous with automatic recovery.3.Input transients compliant with ETSI EN300132:2003.20%with cover fitted)5.For full product details contact sales,or visit 6.5%minimum load required to meet all specification parameters2.Cover kits available separately,order part number no.ECM40/60COVER (4.49x 2.52x 1.52(114x 64x 38.5))for DCM60or part no.ECM100COVER (4.96x3.05x 1.52(126x 77.5x 38.5))for DCM100.Output power derates by 20%with cover fitted.4X ø0.156(3.96)MOUNTING HOLESø0.312(7.92)CLEARANCE TOP AND BOTTOM4X ø0.156(3.96)MOUNTING HOLESø0.312(7.92)CLEARANCE TOP AND BOTTOMJ1mates withMolex housing 43061-0003&Molex series 5194crimp terminals J2mates withMolex housing 43061-0006&Molex series 5194crimp terminalsJ1mates withMolex housing 43061-0003&Molex series 5194crimp terminals DCM60DCM100J2mates withMolex housing 43061-0012&Molex series 5194crimp terminalsWeight 0.4lb (181g)approx.2.Input is protected with internal T3.15A,250V ,fuse in lineComponentHeightØ0.156(3.96)MOUNTING HOLESCLEARANCE TOP AND BOTTOM0.25”FASTON GROUND TAB(4.8)J1mates withMolex housing 09-50-1031&Molex series 5194crimp terminalsJ2mates withMolex housing 09-50-1041&Molex series 5194crimp terminals04080O u t p u t P o w e r (W )Ambient Temp (°C)6020Ambient Temp (°C)O u t p u t P o w e r (W )040801006020Convection-cooledFan-cooled with 10CFMWeight 0.35lb (158g)approx.。

www.eaton.eu/selectorsFor more information visit our online selection toolEllipse ECOEllipse PRO5SC5P91309PX5PXBladeUPSch UPS?93PM93PSPC, Workstation and Home UPS Network and Server UPS Eaton 5PXDatacentre and Facility UPSEaton is a registered trademark of Eaton Corporation.All other trademarks are property of their respective owners.Eaton Industries Manufacturing GmbH EMEA Headquarters Route de la Longeraie 7 1110 Morges Switzerland Eaton.eu© 2017 EatonAll Rights ReservedPublication no. TD153016EN, UPS Quick Guide IEC 2016 February 2017Follow us on social media to get thelatest product and support information.Rack power distribution units (PDU)Eaton ePDU ®Reliable power distribution to your rackManaged ePDUs (MA) – maximum functionality for complete control • M onitoring: individual outlet, branch and ePDU – V , W, A and kWh (Temperature and humidity optional)• S witching: individual outlet or group, sequencing and cycling • Control: via Ethernet and advanced LCD screen on the unit Switched ePDUs (SW) – remote shutdown and restart of equipment • M onitoring: V , W, A and kWh for total load and branch (Temperature and humidity optional)• Switching: individual outlets, on, off, cycling and sequencing • Control: via Ethernet and advanced LCD screen on the unit Metered Outlet ePDUs (MO) – detailed information for efficient operations• M onitoring: individual outlet, branch and ePDU – V , W, A and kWh (Temperature and humidity optional)• Control: via Ethernet and advanced LCD screen on the unit Metered Input ePDUs (MI) – remote access and monitoring • Monitoring: branch and ePDU – V , W, A and kWh (Temperature and humidity optional)• Control: via Ethernet and advanced LCD screen on the unitSoftwareIntelligent Power Manager/ProtectorUPS management software for supervision and system shutdown.• Easy management of multiple UPSs and ePDUs • Simple to deploy and learn• I ntuitive web-based interface enables access from anywhere in the network• I ntegration with VMware vCenter, XenCenter and Microsoft Hyper-V MSCVMM• Supports NetApp and EMC storage devices• C ontrolled, graceful shutdown of a computer or a server powered by a UPS unit• A llows work in progress to be saved and data to be preservedIT RacksEaton’s RE Series IT racks deliver essential protection for critical IT equipment in network closets & small server rooms through to small & medium data center applications. Designed for fast and easy set-up, the RE Series is provided with features IT specialists need in an affordable, ready-to-go enclosure.Standard racks include;• F our infinitely adjustable 19” rails with front U markings.• A range of standard sizes; 27U, 42U and 47U, widths of 600mm and 800mm and a range of depths.• L ocking swing handle on front and rear door • L ocking side panels • T op panels with configurable infill plates and cable knock outs on 800mm wide models • 80% free perforation mesh door on active models • S plit rear doors on all 800mm wide active (vented) models • G rounding kit and levelling feet • 2 years standard warrantyUPS companion • S afe system shutdown• Energy use and energy cost reporting • Easy access to UPS status and events • Configuration of UPS parametersIPM InfrastructureEmbedded within an Eaton Intelligent Power Controller, the new IPM Infrastructure software provides an easy to use and simple to deploy infrastructure monitoring solution. From the rack view to the data center dashboard the IPM Infrastructure allows IT professionals understand and monitor data center power, environmental and physical capacity metrics, all within the context of their IT infrastructure.Distributed Services:Eaton offers a range of warranties and serviceextensions for plug-and-play and hardwired UPSs in up to200kVA power range through its extensive IT channel network. The different options available mean that customers can choose the most beneficial method to safeguard their equipment performance and reliability.Learn more about Eaton distributed services at www.eaton.eu/upsservices。