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NetSure 731 CC2、NetSure 731
C62 系列电源系统
用户手册
资料版本 V2.0
归档时间 2017-12-31
BOM 编码 31013521
维谛技术有限公司为客户提供全方位的技术
支持, 用户可与就近的维谛技术有限公司办事
处或客户服务中心联系, 也可直接与公司总部
联系。
维谛技术有限公司
版权所有,保留一切权利。内容如有改动,恕
不另行通知。
维谛技术有限公司
地址:深圳市南山区学苑大道 1001 号南山智
园 B2 栋
邮编:518055
公司网址:www.vertivco.com
客户服务热线:4008876510
E-mail: vertivc.service@vertivco.com
NetSure 731 CC2, NetSure 731 C62
Series Power Supply System
User Manual
Version
V2.0
Revision date December 31, 2017
BOM
31013521
Vertiv Tech provides customers with technical
support. Users may contact the nearest Vertiv local
sales office or service center.
Copyright © 2017 by Vertiv Tech Co., Ltd.
All rights reserved. The contents in this document
are subject to change without notice.
Vertiv Tech Co., Ltd.
Address: Block B2, Nanshan I Park, No.1001
Xueyuan Road, Nanshan District, Shenzhen,
518055, P.R.China
Homepage: www.vertivco.com
E-mail: overseas.support@vertivco.com
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Summary of Contents for Vertiv Tech NetSure 731 CC2 Series
- Page 1 Users may contact the nearest Vertiv local sales office or service center. 处或客户服务中心联系, 也可直接与公司总部 联系。 Copyright © 2017 by Vertiv Tech Co., Ltd. 维谛技术有限公司 All rights reserved. The contents in this document 版权所有,保留一切权利。内容如有改动,恕 are subject to change without notice.
- Page 2 Declaration This is a Class A UPS product. In a residential environment, this product may n evertheless cause radio interference, in which case, the user is required to take additional measures to reduce the interference. Safety Precautions To reduce the chance of accident, please read the safety precautions very carefully before operation. The 'Caution, Note, Warning, Danger' in this book and on the product do not represent all the safety points to be observed, and are only supplement to various safety points.
- Page 3 V. Short circuit During operation, never short the positive and negative poles of the DC distribution unit of the pow er system or the non-grounding pole and the earth. The pow er system is a constant-voltage Danger Danger DC pow er device, short circuit will result in equipment burning and endanger human safety. Check the polarity of the cable and connection terminal when performing DC live operations.
- Page 4 The advantage of enabling BLVD is protecting the batteries from over-discharge when the battery voltage is low . The disadvantage of enabling BLVD is that w hen the battery voltage drops dow n to a certain value, all the loads (including non-priority loads and priority loads) w ill be cut off due to battery disconnection.
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Page 5: Table Of Contents
Contents Chapter 1 Overview ....................................1 1.1 Model Description ...................................1 1.2 Composition And Configuration ............................1 1.3 Features....................................6 1.4 Operating Principle .................................6 1.5 Functions ....................................6 1.5.1 Lightning And Surge Protection ..........................6 1.5.2 LLVD And BL VD .................................8 1.5.3 Fault Alarm And Protection ............................8 1.5.4 AC And DC Distribution .............................8 1.5.5 Earthing Design ................................9 Chapter 2 Installation Instruction ............................... - Page 6 4.3 Querying System Main Information........................... 25 4.4 Querying Rectifier Status ..............................27 4.5 Querying Alarm Information ............................... 27 4.5.1 Querying Acti ve Alarm ............................27 4.5.2 Querying History Alarm ............................29 4.6 Maintenance ..................................29 4.7 Setting Parameters ................................30 4.7.1 Alarm Settings................................
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Page 7: Chapter 1 Overview
Chapter 1 Overview Chapter 1 Overview This chapter introduces the model description, composition and configuration, features, operating principle and functions of the NetSure 731 CC2 and NetSure 731 C62 series power system (power system for short). 1.1 Model Description Taking NetSure 731 CC2 power system as an example, the model description is given in Figure1-1. NetSure 731 CC2 -X1 Cabinet configuration type System version: 2... - Page 8 Chapter 1 Overview Priority load MCB Non- priority load fuse Battery fuse DC output positive busbar controller Non- priority load fuse Non- priority load MCB Rectifier Rectifier MCB AC input MCB AC output MCB Figure 1-3 NetSure 731 CC2-X2 power system structure Priority load MCB Non-priority load fuse Battery fuse DC output positive busbar...
- Page 9 Chapter 1 Overview Priority load MCB Non-priority load fuse Battery fuse DC output positive busbar Non-priority load MCB Controller Non-priority load MCB Rectifier MCB AC input MCB AC output MCB Rectifier Figure 1-5 NetSure 731 CC2-X4 power system structure Priority load MCB Non- priority load fuse Battery fuse DC output positive busbar Controller...
- Page 10 Chapter 1 Overview Priority load MCB Non- priority load fuse Battery fuse DC output positive busbar Controller AC input MCB Non- priority load MCB Rectifier Rectifier MCB AC output MCB Figure 1-7 NetSure 731 C62-X2 power system structure Priority load MCB Battery fuse DC output positive busbar Non- priority load fuse...
- Page 11 Chapter 1 Overview Configuration (1) The configuration of the power system is listed in Table 1-1. Table 1-1 Power system configuration Configuration Component NetSure 731 C62 NetSure 731 CC2 Model: R48-3000e3 Model: R48-3000e3 Rectifier Standard: 6 pcs Standard: 12 pcs Optional: 2 ~ 6 pcs Optional: 2 ~ 12 pcs Controller...
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Page 12: Features
Chapter 1 Overview 1.3 Features The rectifier uses the active Power Factor Compensation (PFC) technology, raising the power factor to 0.99 The power supply system has wide AC input voltage range: 90Vac ~ 300Vac The rectifier uses soft switching technology, raising the efficiency up to 95% ... - Page 13 Chapter 1 Overview 整流模块 Rectifier 5m~10m 5m ~ 10m 交流输入 交流 直流 AC input 配电 整流模块 配电 Rectifier 单元 单元 -48V输出 - 48V output II/C 防雷器 II/C SPD 整流模块 I/B SPD Rectifier 防雷器 防雷器 Battery 电池组 string 监控模块 Controller 1、2 1, 2 RS232 RS232...
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Page 14: Llvd And Blvd
Chapter 1 Overview is used, then the cable length should be longer or equ al than 5m; if a switching type SPD is used, then the cable length should be longer or equal than 10m. The cable between the Class I/B SPD and the input terminals of the AC distribution unit of the power system should be routed indoors to avoid direct ligh tning strike. -
Page 15: Earthing Design
Chapter 1 Overview Interface Functions Battery 2 fuse To negative terminal of the battery string 2 DC output positive busbar To positive terminal of battery string 1 and 2, and load output positive terminal Negative terminal of 48V supply for priority load. Cut off the priority load output w hen the battery Priority load MCB voltage drops to the BLVD point 1.5.5 Earthing Design... -
Page 16: Chapter 2 Installation Instruction
The equipment should be unpacked and inspected after it arrives at the installation site. The inspection shall be done by representatives of both the user and Vertiv Tech Co., Ltd. To inspect the equipment, you should open the packing case, take out the packing list and check against the packing list that the equipment is correct and complete. Make sure that the equipment is delivered intact. -
Page 17: Mechanical Installation
Chapter 2 Installation Instruction Select the battery cable CSA according to Table 2-2. Select the load cable CSA according to Table 2-3. Table 2-2 Battery cable CSA selection Max. cable Max. cable length (volt Battery fuse Max. battery Max. cable Min. -
Page 18: Installing Rectifiers
Chapter 2 Installation Instruction 2. Install expansion pipe According to Figure 2-2, determine the exact central points of the installation holes on the floor, and mark them with a pencil or oil pen. Use the electric drill (aiguille: Φ14) to drill holes (depth: 70mm) at the marked points. Clean the drilled hole of dust. - Page 19 Chapter 2 Installation Instruction Connecting grounding cable Connect one end of the grounding cable to the user earth bar of the equipment room, and the other end to the grounding terminal of the power system. Put the cable through the fixing holes at the top of the cabinet. Use the cable ties to fix the modem on the top of the cabinet, as shown in Figure 2 -8.
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Page 20: Connecting Signal Cables
Chapter 2 Installation Instruction Connecting battery cables Note 1. The batteries may have dangerous current. Before connecting battery cables, make sure that the battery fuses at the system side and the battery M CBs at the battery side are switched off. If there are no battery M CBs at the battery side, users should disconnect any one of the connectors between battery cells to avoid live state of the power system after installation. - Page 21 Chapter 2 Installation Instruction T emp RS232 M522S Figure 2-7 Interfaces of the controller Table 2-4 Interface functions Interface Definition Connection J1 ~ J5 Dry contact output To signal cables RS232 port To modem or host Battery temperature Connected before delivery sensor interface Pow er interface of Connected before delivery...
- Page 22 Chapter 2 Installation Instruction Connecting temperature sensor The temperature sensor is an optional accessory. Probe operating voltage: 12V. Measurement range: -5° C ~ +100° C. Measurement precision: ± 2° C. When installing the temperature sensor, put the temperature probe in the battery room that best represents the battery temperature, far away from other heat-generating equipment.
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Page 23: Bottom Cabling Cabinet
Chapter 2 Installation Instruction Table 2-5 Dry contact functions Interface Function Interface Function AC mains failure LLVD DC over/undervoltage BLVD Rectifier failure Note: The above functions are default settings. Users can change them through the controller 2.4.3 Bottom Cabling Cabinet If the cabinet must use bottom cabling method, a rear cover plate should be installed at the rear of the cabinet. - Page 24 Chapter 2 Installation Instruction 后盖板 Back cover Figure 2-12 Rear cover plate installation for bottom cabling method (2) NetSure 731 CC2, NetSure 731 C62 Series Power Supply System User Manual...
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Page 25: Chapter 3 Testing
Chapter 3 Testing Chapter 3 Testing This chapter introduces the testing procedures after installation. The corresponding safety rules shall be adhered to in the test. 3.1 Installation Check And Startup Before the test, inform the chief manufacturer representative. Only trained electrical engineers shall maintain and operate the power system . -
Page 26: Basic Settings
Chapter 3 Testing 3.2 Basic Settings When the power system is put into service for the first time, the parameters of controller must be set based on the actual system configuration, such as battery string number, capacity, user’s charge current limit and other functional requirements. -
Page 27: Final Steps
Chapter 3 Testing Check item Comments The controller should display the battery current. The difference between the displayed and measured battery current should be less than 1% Check the number of the rectifier through the controller. The number should be consistent w ith the settings ... -
Page 28: Chapter 4 Use Of The Controller
Chapter 4 Use Of The Controller Chapter 4 Use Of The Controller This chapter introduces the operation panel indicators and functional keys of the controller briefly, and expounds the main screen contents, access method, system controlling, information querying and parameter setting. 监控单元前面板... -
Page 29: Password Confirmation Screen
Chapter 4 Use Of The Controller The system information screen shows the main information, which is displayed on five pages. You can press ▲ or ▼ repeatedly to select different system information screens. The first system information screen has 7-level contrast, you can press ◄... -
Page 30: Status Screen
Chapter 4 Use Of The Controller 2. At any sub-menu of the MAINMENU screen, press the ESC key repeatedly to return to the higher-level menu, and ultimately to the MAINMENU screen. 4.2.4 STATUS Screen The STATUS screen is a sub-menu of the main menu. It contains rectifiers, active alarm and history alarm. The STATUS screen is shown in Figure 4-5. -
Page 31: Energy Saving Screen
Chapter 4 Use Of The Controller Maintenance RectTrim: 53.5V Start: RectLimit: 121% Batt: ReConnect Load: DisConn Figure 4-7 Maintenance screen 1. At the MAINMENU screen, press ▲ or ▼ to select the ‘Maintenance’ menu, and press the ENT key to confirm. The system will prompt you to input the password if the ‘Sys Mode’... - Page 32 Chapter 4 Use Of The Controller 2009-3-23 Float 53.5V 125A Auto Normal Figure 4-10 First system information screen The date and time are alternately displayed every two seconds. The s ystem state contains Normal and Alarm. The energy management mode includes Auto and Manual. The battery state includes Float, Temp Co mp, Boost, Cyclic Boost, Batt.
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Page 33: Querying Rectifier Status
Chapter 4 Use Of The Controller Bat.Temp: 25 ° C Figure 4-14 Battery temperature screen If the temperature sensor is not connected or is faulty, the system will prompt ‘---’. Meanwhile, the alarm information screen will be displayed. If the controller bans BC and no temperature sensor is configured, this screen will not be displayed. - Page 34 Chapter 4 Use Of The Controller The Figure 4-16 screen includes alarm serial No./ alarm total number, alarm name, alarm level and alarm time. The alarm generating time determines the sequence it is displayed, with the latest alarm displayed first. Use ▲ or ▼ to view all active alarms.
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Page 35: Querying History Alarm
Chapter 4 Use Of The Controller 4.5.2 Querying History Alarm 1. At the STATUS screen (see Figure 4-5), press ▲ or ▼ to select the ‘History Alarm’, and press the ENT key to enter it. 1) If there is no history alarm, the system cannot access the lower level menu. 2) If there is an active alarm, the screen shown in Figure 4-17 will appear. -
Page 36: Setting Parameters
Chapter 4 Use Of The Controller Use ▲ or ▼ to select the rectifier parameter, and use ◄ or ► to change the rectifier serial No.. Then press the ENT key to confirm. The bottom row of the screen displays the rectifier ID automatically. Use ▲ or ▼ to move the cursor to the operation area (that is, ‘DC On’... - Page 37 Chapter 4 Use Of The Controller Table 4-5 Description of alarm setting parameter Related Alarm Description Alarm level Related relay parameter SPD Fault Lighting protection circuit failure Critical None The alarm name is user-defined, at most 10 letters. In this system, eight DIs can be defined. Among w hich, the No alarm None first DI is defined as ‘SPD Fault’, the other seven DIs can...
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Page 38: Battery Settings
Chapter 4 Use Of The Controller Related Alarm Description Alarm level Related relay parameter In the system w ith load current shunt, the sampled load Load Share Alarm current plus battery current differs greatly from rectifier No alarm current The battery discharging time is shorter than expected Batt Test Fail Observation None time... - Page 39 Chapter 4 Use Of The Controller At the Settings screen (see Figure 4-6), press ▲ or ▼ to select the ‘Bat. Settings’ menu, then press the ENT key to enter the BAT Settings screen, as shown in Figure 4-23. ...
- Page 40 Chapter 4 Use Of The Controller LVD1 means the controller receives power supply from the battery upon AC power-off, so the non-priority load will be powered off automatically. In this way, the battery remaining capacity can sustain the priority load longer. LVD2 means the controller receives power supply from the battery upon AC power-off, so the battery will be powered off automatically.
- Page 41 Chapter 4 Use Of The Controller Parameter Range Factory setting Value description The ‘Cyc Boost Period’ is the interval betw een two cyclic BCs. The Cyclic Boost 48h ~ 8760h 2400h battery charging voltage is the ‘Boost’ value, and the charging time is -Period the ‘Cyc Boost Time’...
- Page 42 Chapter 4 Use Of The Controller Meanwhile, the test start time-voltage, end time-voltage and battery remaining capacity will be recorded. The records can be queried through the host. During the battery test, if abnormalities occur, the controller will stop the battery test automatically.
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Page 43: Ac Settings
Chapter 4 Use Of The Controller The value description of the temperature compensation parameters is listed in Table 4-11. Table 4-11 Description of the temperature compensation parameter setting Parameter Range Factory setting Value description FC voltage derated value = (Batt Temp – ‘Center Temp’) * Temp Center Temp 10°... -
Page 44: Rectifier Settings
Chapter 4 Use Of The Controller Press ▲ or ▼ to select the parameter you need, and press ◄ or ► to select the parameter value, then press the ENT key to confirm. The value description of the DC parameters is listed in Table 4-13. Table 4-13 Description of the DC parameter setting Parameter Range... -
Page 45: System Settings
Chapter 4 Use Of The Controller 4.7.6 System Settings At the Settings screen, press ▲ or ▼ to select the ‘Sys Settings’ menu, then press the ENT key to enter the password confirmation screen. After inputting the correct password (user level password, default: 1), the three screens shown in Figure 4-34 are displayed. -
Page 46: Energy Saving Settings
Chapter 4 Use Of The Controller Phone Number: Address: 192.168.1.2 ..Comm Mode: RS232 255.255.255.0 ..BaudRate: 9600 192.168.1.1 IP/Subnet/Gate: CallbackTime: 3 .. Figure 4-36 Communication settings screen When the communication mode is set to ‘Modem’, the callback phone number and callback time should be set. Use ◄... -
Page 47: Fast Settings
Chapter 4 Use Of The Controller Switch on all the rectifiers when a rectifier alarm (communication interruption) is generated. Switch on all the rectifiers when an AC alarm (AC power-off) is generated. Switch on all the rectifiers automatically when the system has no controller or the communication between the rectifier and the controller is interrupted. -
Page 48: Chapter 5 Technical Parameters Of Rectifier
Chapter 5 Technical Parameters of Rectifier Chapter 5 Technical Parameters of Rectifier This chapter introduces the appearance and structure, functions and features, and technical parameters of the rectifier. 5.1 Appearance and Structure Front panel The front panel of the rectifier has three indictors, as shown in Figure 5-1. Power indicator Power indicator Protection indicator... -
Page 49: Functions And Features
Chapter 5 Technical Parameters of Rectifier Rear panel There are AC input socket and DC output socket on the rear panel of the rectifier, as shown in Figure 5 -2. J1 J7 J15 J25 J12 J22 J14 J24 J8 J16 J26 Figure 5-2 Rear panel of the rectifier Functions of the socket pins are listed in Table 5-2. - Page 50 Chapter 5 Technical Parameters of Rectifier Output characteristics The relationship between output voltage and current is listed in Table 5 -4. Table 5-3 Output characteristics Output pow er Output current Output voltage 3000W 51.7A 58Vdc 3000W 62.5A 48Vdc Power limiting based on temperature Rectifier can work in the range of -40°...
- Page 51 Chapter 5 Technical Parameters of Rectifier Output overvoltage protection 1. The SW overvoltage protection point can be set through the controller, the setting range is 56V ~ 59V. It should be 0.5V higher than output voltage, and the default value is 59V. The SW overvoltage protection mode can be selected through the controller: 1) Lock out at the first overvoltage Once the output voltage reaches software protection point, the rectifier will shut down and hold that state.
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Page 52: Technical Parameters
Chapter 5 Technical Parameters of Rectifier Warning The continuous running rated full power output temperature of the rectifier reaches up to +35C full power. The operation at the temperature from +35C to +70C will minimize the output power. The operation at temperature above +70C is abnormal, the running is temporary1. - Page 53 Chapter 5 Technical Parameters of Rectifier Parameters Name Description Input impact current < 150% steady state input peak current AC input Allow able grid frequency 45Hz ~ 65Hz Rated grid frequency 50Hz/ 60Hz Voltage range 42V ~ 58V DC current 0 ~ 62.5A ≤...
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Page 54: Chapter 6 Troubleshooting
Chapter 6 Troubleshooting Chapter 6 Troubleshooting This chapter describes the alarm handling and maintenance of the power system. The maintenance personnel must have adequate knowledge about the power system. Note 1. The maintenance must be conducted under the guidance of related safety regulations. 2. -
Page 55: Handling Rectifier Fault
Chapter 6 Troubleshooting Alarm Handling method Load Fuse Alarm, Check if the corresponding MCB is sw itched off. If the MCB is open, find out the fault and remove it. Batt Fuse Alarm Otherw ise, the alarm circuit is faulty. Please contact Vertiv 1. - Page 56 Chapter 6 Troubleshooting Symptom Controller alarms Causes Handling method If not, check w hether the communication cable is in current Serious load sharing imbalance normal connection. If the communication is normal indictor on imbalance w hile the protection indicator is on, replace the rectifier indicator Rect Fan Fails Fan fault...
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Page 57: Handling Controller Fault
Chapter 6 Troubleshooting Rectifier replacement Other than a rectifier fan replacement, no attempt should be made to troubleshoot or repair individual components on any rectifier. You should take the following procedures when a rectifier is faulty. 1. Refer to Figure 5-2Figure 6-2 during this procedure. 2. - Page 58 Chapter 6 Troubleshooting 2. Judge fault causes according to the indicator status of the PCB, as listed in Table 6 -4. Table 6-4 Fault causes and handling methods of the controller Phenomenon Fault cause Handling method PCB has no Check if J8 terminal on PCB is connected reliably. If the connection is reliable Watchdog indicator off, auxiliary pow er and the terminal voltage is normal (approximately the busbar voltage of the...
- Page 59 Chapter 6 Troubleshooting 5. Connect the signal cables in reverse sequence, that is, reconnect signal cables other than J8, J10 terminal cables and DI/DO cables. 6. Check the cable connections. If the connections are correct, reconnect J8 termi nal. If the watchdog indicator flashes and power indicator is on, the PCB works normally.
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Page 60: Appendix 1 Technical Data
Appendix 1 Technical Data Appendix 1 Technical Data Table 1 Technical data Parameter Parameter Description category Operating -5° C ~ +40° C temperature Storage temperature -40° C ~ +70° C Relative humidity 5%RH ~ 95%RH Environmental ≤ 2000m (derating is necessary above 2,000m) Altitude Overvoltage level Level II... - Page 61 Appendix 1 Technical Data Parameter Parameter Description category DC output overvoltage alarm Default: 58.5Vdc ± 0.2Vdc, configurable through controller point DC output overvoltage recovery Default: 58.0Vdc ± 0.2Vdc, 0.5Vdc lower than the overvoltage alarm point point DC output DC output alarm and undervoltage alarm Default: 45.0Vdc ±...
- Page 62 Appendix 1 Technical Data Parameter Parameter Description category Safety regulation EN60950 ≤ 60dB (A) (When the ambient temperature is 30° C) Noise At temperature of 15° C ~ 35° C and relative humidity not bigger than 90%RH, apply a Insulation resistance test voltage of 500Vdc, the insulation resistances between AC circuit and earth, DC Others circuit and earth, and AC and DC circuits are all not less than 10MΩ...
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Page 63: Appendix 2 Engineering Diagram
Appendix 2 Engineering Diagram Appendix 2 Engineering Diagram Front view Rear view Figure 1 NetSure 731 CC2-X3/X4 engineering diagram (unit: mm) Front view Rear view Figure 2 NetSure 731 CC2-X1/X2 engineering diagram (unit: mm) NetSure 731 CC2, NetSure 731 C62 Series Power Supply System User Manual... - Page 64 Appendix 2 Engineering Diagram Front view Rear view Figure 3 NetSure 731 C62-X1 engineering diagram (unit: mm) Figure 4 NetSure 731 C62-X2 engineering diagram (unit: mm) NetSure 731 CC2, NetSure 731 C62 Series Power Supply System User Manual...
- Page 65 Appendix 2 Engineering Diagram Figure 5 NetSure 731 C62-X3 engineering diagram (unit: mm) NetSure 731 CC2, NetSure 731 C62 Series Power Supply System User Manual...
- Page 66 Appendix 2 Engineering Diagram Table 2 System engineering data Specs Connector Connection Capacity Connector specs AC input 3 H-shape cable terminals, 1 × 100A/3P or 1 × 63A/3P The live line of AC pow er supply CSA ≤ 35mm Grounding Connected to the earth bar of the CSA ≤...
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Page 67: Appendix 3 Parameter Setting Of The Controller
Appendix 3 Parameter Setting Of The Controller Appendix 3 Parameter Setting Of The Controller This chapter gives the description of the controller parameter setting. The detailed information of parameter setting and operating method are given in Chapter 4 Use Of The Controller. See 4.7.1 Alarm Settings for alarm setting method. - Page 68 Appendix 3 Parameter Setting Of The Controller Factory Item Parameter Range Value description setting Select ‘Y’, and the controller w ill control the pow er system to enter the Cyclic Boost w hen Cyclic Boost the FC time reaches the Cyclic Boost Interval. 48h ~ 8760h 2400h Period...
- Page 69 Appendix 3 Parameter Setting Of The Controller Factory Item Parameter Range Value description setting Pow er system AC input over voltage alarm Over Volt 50V ~ 300V 280V point Pow er system AC under voltage alarm point, Low Volt 50V ~ 300V 180V The value of the Low Volt must low er than that of the Over Volt...
- Page 70 Appendix 3 Parameter Setting Of The Controller Factory Item Parameter Range Value description setting 24V/100 The system type of the controller has been set 24V/300 according to the actual instance before the NetSure 731 24V/500 controller is delivered w ith power system. You C62:...
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Page 71: Appendix 4 Menu Structure Of The Controller
Appendix 4 Menu Structure Of The Controller Appendix 4 Menu Structure Of The Controller Main Menu Status Maintenance Settings DC Voltage Alarm Type Alarm Level DC Current Start Type Curr Limit Test Relate Relay AC Voltage Rect Trim Rectifiers Voice Sign Alarm AC on/off Alarm... - Page 72 Appendix 4 Menu Structure Of The Controller Battery Settings System information Sys Mode Auto DC voltage Bat. Fuse DC current 300Ah Capacity Normal Basic System Alarm Bat. Shunt1 operation Battery Auto state Bat. Shunt2 management Manual 500A Shunt Coeff Current mode Shunt Coeff Volt 25mV...
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Page 73: Appendix 5 Schematic Diagram
Appendix 5 Schematic Diagram Appendix 5 Schematic Diagram Monitor unit AC distribution unit DC distribution unit Lightning switch optional Optional 1QF1 SPD1 QFA1 Monitor Module temp M522S SPD2 mains input FUD1 M2433X2 Module PCB1 FUD2 QFA5 CAN+ FUD3 AC single input CAN- -48V -48V... - Page 74 Appendix 5 Schematic Diagram DC distribution unit AC distribution unit Monitor unit Lightning switch (optional) 1QF1 SPD1 QFA1 Temp Monitor Module M522S Mains input SPD2 FUD1 M2433X2 FUD2 QFA5 FUD3 AC single input -48V CAN+ CAN- QFA6 FUDn QFD1 Optional QFA7 QFA1 CAN+...
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Page 75: Appendix 6 Wiring Diagram
Appendix 6 Wiring Diagram Appendix 6 Wiring Diagram Figure 10 Wiring diagram of NetSure 731 C62-X1 (1) NetSure 731 CC2, NetSure 731 C62 Series Power Supply System User Manual... - Page 76 Appendix 6 Wiring Diagram Figure 11 Wiring diagram of NetSure 731 C62-X1 (2) NetSure 731 CC2, NetSure 731 C62 Series Power Supply System User Manual...
- Page 77 Appendix 6 Wiring Diagram Figure 12 Wiring diagram of NetSure 731 C62-X1 (3) NetSure 731 CC2, NetSure 731 C62 Series Power Supply System User Manual...
- Page 78 Appendix 6 Wiring Diagram Figure 13 Wiring diagram of NetSure 731 C62-X2 (1) NetSure 731 CC2, NetSure 731 C62 Series Power Supply System User Manual...
- Page 79 Appendix 6 Wiring Diagram Figure 14 Wiring diagram of NetSure 731 C62-X2 (2) NetSure 731 CC2, NetSure 731 C62 Series Power Supply System User Manual...
- Page 80 Appendix 6 Wiring Diagram Figure 15 Wiring diagram of NetSure 731 C62-X2 (3) NetSure 731 CC2, NetSure 731 C62 Series Power Supply System User Manual...
- Page 81 Appendix 6 Wiring Diagram Controller DC lightning protection unit BUS+ RS232 W06_3 Temp Enclosure M2433X2 BUS- PE 0V -48V Look dow n at rectifier output ne gative busbar W19/W07 25--48v 94-1 M522S 23-1 23-2 22-1 22-2 液 晶 Load configuration, assemble in actual configuration, process fi le and cable mark Note:...
- Page 82 Appendix 6 Wiring Diagram Front view of AC unit (over the rectifier plug frame) QF10 W01 W01 W01 Mains inlet cable 1 User AC output MCB U1 V1 W1 W05 W05 For non-standard configuration Top view of rectifier plug frame AC public sector unit Shelf 1 Rect.6...
- Page 83 Appendix 6 Wiring Diagram DC distribution front view (door open) FUB1 QFD1 QFD2 QFD3 QFD4 QFD5 QFD6 QFD7 FUB2 QFD1 QFD2 QFD3 QFD4 24-J11-5 24-J11-6 Battery 1 Battery 2 see Note 2 24-J11-1 24-J11-3 BLVD1 24-J11-2 24-J11-4 24-J10-2 24-J10-3 24-J10-1 BUS- 24-J10-4 KMD1...
- Page 84 Appendix 6 Wiring Diagram AC input 3 at the lower plug fra AC input 1 and AC input 2 at the upper plug frame for dual-mains auto-switch input (16m m ^)2 Mains inlet cable 2 Mains inlet cable 1 Mains 2 inlet Mains 1 inlet 53-J1-8 (6m m ^)2...
- Page 85 Appendix 6 Wiring Diagram Figure 20 Wiring diagram of NetSure 731 CC2-X1 X2 (1) NetSure 731 CC2, NetSure 731 C62 Series Power Supply System User Manual...
- Page 86 Appendix 6 Wiring Diagram Figure 21 Wiring diagram of NetSure 731 CC2-X1 X2 (2) NetSure 731 CC2, NetSure 731 C62 Series Power Supply System User Manual...
- Page 87 Appendix 6 Wiring Diagram Figure 22 Wiring diagram of NetSure 731 CC2-X1 X2 (3) NetSure 731 CC2, NetSure 731 C62 Series Power Supply System User Manual...
- Page 88 Appendix 6 Wiring Diagram DC lightning Controller protection unit BUS+ W06_3 Enclosure RS232 M2433X2 BUS- PE 0V -48V Look down at rectifier output negative busbar Look dow n at rectifier output ne gative busbar W19/W07 25--48v W19 94-1 M522S 23-1 23-2 22-1 22-2...
- Page 89 Appendix 6 Wiring Diagram Front v iew of AC unit(Ov er the r ectif ier plug f rame) QF10 QF11 QF12 QF13 QF14 QF15 QF16 W01 W01 W01 User AC output MCB For nonstandard system wiring Mains inlet cable 1 U1 V1 T op view of rectifier plug frame A C public sector unit...
- Page 90 Appendix 6 Wiring Diagram DC distribution f ront v iew (door open) FUB1 QFD2 QFD3 QFD4 QFD5 QFD6 QFD7 FUB2 QFD1 QFD2 QFD3 QFD4 QFD1 24-J11-5 24-J11-6 Battery 1 Battery 2 See description 2 24-J11-1 24-J11-3 BLVD1 24-J11-2 24-J11-4 24-J10-2 24-J10-3 24-J10-1 BUS-...
- Page 91 Appendix 6 Wiring Diagram DC lightning Controller protection unit BUS+ W06_3 机壳 RS232 M2433X2 BUS- PE 0V -48V Look down at rectifier output negative busbar Look dow n at rectifier output ne gative busbar W19/W07 25--48v 94-1 M522S 23-1 23-2 22-1 22-2 液晶...
- Page 92 Appendix 6 Wiring Diagram Front view of AC unit (Over the rectifier Front view of AC unit(Over the r ectifier plug frame) plug frame) QF10 QF11 QF12 QF13 QF14 QF15 QF16 W01 W01 W01 User AC output MCB For nonstandard system wiring Mains inlet cable 1 U1 V1 Battery mount panel...
- Page 93 Appendix 6 Wiring Diagram (door open) DC distribution front view(door open) FUB1 FUB2 QFD1 QFD2 QFD4 QFD6 QFD2 QFD3 QFD4 QFD5 QFD6 QFD7 QFD3 QFD5 QFD1 24-J11-5 24-J11-6 Battery 1 Battery 2 24-J11-1 24-J11-3 BLVD1 24-J11-2 24-J11-4 24-J10-2 24-J10-3 24-J10-1 BUS- 24-J10-4 KMD1...
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