通信铁锂电池用户手册

48V通信后备铁锂电池PACK系统规格手册(版本：V1.1)编 制 : 朱艳审 核: 张一批 准 : 张一上海际芯微电子有限公司二零一二年 零九月目录1．引言 (3)2．铁锂电池基本原理及主要技术指标 (3)2.1 锂离子电池的工作原理 (3)2.2 铁锂PACK系统的工作原理 (4)2.3 铁锂PACK管理系统保护功能及参数说明 (5)3．面板功能介绍 (9)3.1电池输出端口 (9)3.2 “RST”复位键 (9)3.3 通讯接口 (9)3.4 通信地址设置 (10)3.5 LED指示灯 (11)4．使用环境要求 (12)5．开关电源的参数设置要求 (12)6．日常使用与维护注意事项 (13)6.1 PACK外观 (13)6.2 PACK安装前注意事项 (15)6.3 PACK安装后维护注意事项 (15)7．常见问题分析及解决办法 (16)7.1放电过流保护 (16)7.2电池连接点发热 (16)7.3温度保护 (16)7.4通信故障 (16)7.5 PACK无电压输出 (16)8．包装、运输、存储 (16)8.1包装 (16)8.2运输 ................................................................................................................ (17)8.3存储 ................................................................................................................ (17)1．引言通信后备式铁锂电池系统是上海际芯微电子有限公司研发的高科技产品，铁锂电池PACK系统由铁锂电池单体、电池管理系统（BMS）、外壳和相关部件构成。

高性能的电池管理系统（BMS）具备对电池的过充、过放、过流、短路、温度异常等情况具有保护功能，具备遥测、遥信、遥控等功能，可以与计算机等智能设备进行通信，能够实现远程集中监控，能够实时的监控单体电池的各种工作参数和状态。

Handling Precautions and Guideline for Lithium Iron Phopshate (LF) batteriesGeneral1. The customer is strongly advised to contact DYNAMIS in advance in case the application or operating conditions of the battery will differ from those specified in the specification sheet. Additional testing may be necessary to verify the suitability of the particular cell type for the intended use.2. DYNAMIS will take no responsibility whatsoever for any accident due to use of the battery other than specified by DYNAMIS.3. Improvements or changes for the proper use and handling of the cell will be forwarded to the customer in cases necessary.Handling1. Charge1.1currentChargeThe maximum charging current specified is not to be exceeded during use.Application of a higher current than that may cause damage to the cell withrespect to electrical or safety-related performance. Unusual heat generationor leakages may be a result of over charge.voltageCharge1.2A maximum charge voltage of 3.65 V per cell is recommended by DYNAMIS.At voltages higher than 3.8 Vpc damages may occur and result in the same likedescribed in 1.11.3 Charge temperatureThe recommended temperature range of the specification shall not be exceeded.charge1.4ReverseReverse charging is strongly prohibited. DYNAMIS recommends a polarity checkof the cell before assembly or connection to a charging device. Reverse chargemay cause serious damage of any kind to the cell.2. DischargecurrentDischarge2.1The discharge current specified by DYNAMIS is not to be exceeded due topossible damage to the cell. The damage will result in reduced capacity and/orunusual heat generation.temperature2.2DischargeThe recommended temperature range of the specification shall not be exceeded.2.3dischargeOverThe cell shall not be discharged to lower voltages than specified (cut-off voltage).Deeper discharge than that will result in reduced cell performance and may causedamage to the cell.Over discharge also occurs if the self-discharge is not compensated duringlong periods of storage time. For cases like this, the OCV of the cell is to bechecked. For voltages lower than 3.1 V re-charge is recommended.For optimum performance, discharge cycles to the specified end voltageare preferred in terms of cycle numbers achieved..3. Protection Circuit Module (PCM)3.1 The use of a PCM is recommended for all types of LF batteries in order toprotect the cell and enable best performance with respect to the application.3.2 The over-charge protection function shall stop charging if the voltage exceedsvalue.recommendedthe3.3 The over-discharge prevention shall work to minimize dissipation current to avoida drop of the cell voltage below 2.3 Vpc or less. The protection function shallmonitor each bank of a LF battery pack and control the current.4. StorageThe storage conditions specified shall not be exceed in order to assure proper cellfunction and prevent the battery from damages.5. Handling Advice5.1 The performance of mechanical, thermal and electrical treatments describedin the respective specification is not to be exceeded. Damages of any kindmay result in different hazards as described in the MSDS.5.2 LF batteries can be damaged by application of heat of any kind. This mayresult in emission of gas and/or electrolyte. Do not overheat.5.3 The LF batteries are to be protected against any possibility of short-circuit.The very high currents generated by short-circuit may cause severe damages,heat generation and emission of gas, smoke and/or fire.6. Advice for battery pack design6.1 Fixation inside a battery pack is to be achieved.No cell movement shall be allowed inside the pack.6.2 The design of the pack shall be appropriate not to emit heat in case of leakagesmishaps.todue6.3 The PCM is to be protected as good as possible from eventual contact withelectrolyte.leak6.4 The common state of good practice is necessary in all kinds of design of abattery pack, e.g. proper insulation of wiring and layers, sufficient spacingbetween different voltage patterns and so on.6.5 The PCM design shall be made with respect to the case of leaked electrolytetouching the circuit patterns. Short circuits must be prevented by cover material.7. Battery pack assembly7.1 Shocks, high temperature or contact with sharp edge tooling shall not be appliedduring battery pack assembly.7.2 Soldering or welding of wires etc directly on LF contacts is to be avoided.Temperatures above 80 °C will cause damages to the cells.8. Further8.1 Disassembly of cells is strongly prohibited.8.2 Dumping of LF cells and batteries into fire, water or other conductive liquidsprohibited.stronglyis8.3 Damaged cells shall be prevented from any further use.8.4 Mechanical damages can occur during transport. If damages like leakages,smelling of electrolyte or other abnormal features are found the particular cellshall not be used anymore.8.5 After the use of LF cells the appropriate way of disposal has to be followed.。

移动式通信铁锂电池系统使用与维护手册一、 锂电池系统简介移动式通信用后备式铁锂电池系统是江苏双登集团在国内最先研制开发的高科技产品；该产品以其集成化、小型化、轻型化、电池维护护和管理、，使用方便、节能环保等特点，被广泛应用于接入网设备、远端交换局、移动通信设备、传输设备、卫星地面站和微波通信设备等通信领域作为后备电源。

二、铁锂电池基本原理及主要技术指标1、锂离子电池的工作原理所谓的锂离子电池是指分别用两个能可逆地嵌入与脱嵌锂离子的化合物作为正负极结构的二次电池。

人们将这种靠锂离子在正负极之间的转移来完成电池充放电工作的独特机理的锂离子电池形象地称为“摇椅电池”，俗称“锂电”。

锂离子电池的内部结构如下图所示：铁锂电池由正极（LiFePO4）、中间的电解质（LiPF6）、聚乙烯隔膜及负极碳组成。

当电池充电时，锂离子从正极中脱嵌，在负极中嵌入，放电时反之。

锂离子电池电极反应：正极反应：LiFePO 4−−−→←−−−放电充电Li 1-X FePO 4+xLi+xe - 负极反应：6C+ xLi+xe - −−−→←−−−放电充电Li x C 6 电池反应：6C+ LiFePO 4 −−−→←−−−放电充电Li 1-X FePO 4+ Li x C 62、移动式铁锂电池系统的工作原理SDA10-48XX通信铁锂电池系统工作原理。

市电220V输入，经过整流电源模块处理后，输出-48V,在电网正常的情况下，整流电源模块提供系统需要的功率，同时给电池系统充电；在电网断电的情况下，由电池系统提供电能，保证直流电源系统正常运行，实现不间断供电功能。

UPS 工作原理与开关电源基本相同，市电220V 输入经UPS 整流处理后输出48V 直流，当电池馈电时由该处提供充电电流，48V 直流电再通过逆变器逆变为稳定的220V 交流电输出。

在电网正常的情况下，UPS 提供系统需要的功率，同时给通信铁锂电池系统充电；在电网断电的情况下，通信铁锂电池系统通过逆变器将48V 直流电逆变为220V 交流电，保证交流电源系统正常运行，实现不间断供电功能。

DC to AC POWER INVERTERSPure Sine Wave Output OWNER’S MANUAL MODELS:12/1800N12/2400N12/3000N12/3600NMODELS:12/800N 12/1200N12/1500NSAFETY INSTRUCTIONSSAFETY INSTRUCTIONS (2) (2)Inverter Safety InstructionsInverter Safety Instructions ....................................................................................................... Battery Safety Instructions ........................................................................................................ (3)Battery Safety Instructions (3)THEORY OF OPERATION............................................................................................................. THEORY OF OPERATIONInverter Power Mode (3)Inverter Power Mode (4)NOMENCLATURE ........................................................................................................................ NOMENCLATUREMOUNTING THE INVERTER (4)MOUNTING THE INVERTERInstallation Tools........................................................................................................................ (4)Installation Tools (4)Inverter Mounting RecommendationsInverter Mounting Recommendations ...................................................................................... DC WIRING GAUGE & FUSING . (5)DC WIRING GAUGE & FUSINGInverter Cable (5)Inverter Cable (5)Cable Recommendations ......................................................................................................... Cable Recommendations (5)REMOTE ON/OFF SWITCH .......................................................................................................... REMOTE ON/OFF SWITCH (6)HARDWIRE OUTPUT .................................................................................................................... HARDWIRE OUTPUTWIRING DIAGRAMS (6)WIRING DIAGRAMS.6 Typical Wiring Diagram for 12/800N,12/1200N & 12/1500NTypical Wiring Diagram for 12/800N,12/1200N & 12/1500N ................................................... Typical Wiring Diagram for 12/8000N, 12/2400N, 12/3000N, & 12/3600N .............................. (7)Typical Wiring Diagram for 12/8000N, 12/2400N, 12/3000N, & 12/3600NTypical DC Cable Connections for 12/800N, 12/1200N & 12/1500N (8)Typical DC Cable Connections for 12/800N, 12/1200N & 12/1500N (9)Typical DC Cable Connections for 12/1800N, 12/2400N, 12/3000N, & 12/3600N .................. Typical DC Cable Connections for 12/1800N, 12/2400N, 12/3000N, & 12/3600N (1010)INVERTER TROUBLESHOOTING GUIDE .................................................................................. INVERTER TROUBLESHOOTING GUIDE (1111)Troubleshooting StepsTroubleshooting Steps ........................................................................................................... SPECIFICATIONS ....................................................................................................................... (1212)SPECIFICATIONS (1212)OTHER DESIGN FEATURES ...................................................................................................... OTHER DESIGN FEATURES (1212)UNIT PROTECTIONUNIT PROTECTION .................................................................................................................... BATTERY PROTECTION ............................................................................................................. (1212)BATTERY PROTECTION (1313)LIMITED WARRANTY TERMS & CONDITIONSLIMITED WARRANTY TERMS & CONDITIONS ..........................................................................IMPOR TANT : Read this manual before installation, it contains important safety, installation, and operating instructio ns. Save this manual and keep it in a safe place.NOTE: This product is Listed to applicable UL Standards and requirements by Underwriters Laboratories Inc., File E100666.Sensata Technologies is an ISO 9001:2008 Registered Company.Sensata uses the following special notices to provide warning of possible safety related problems which could cause serious injury and to provide information to help prevent dam-age to equipment.DANGER indicates an imminently hazardous situation which, if not avoided will result in death or serious injury.WARNING indicates a potentially hazardous situation which, if not avoided, could result in death or serious injury.CAUTION indicates a potentially hazardous situation which, if not avoided, may result in minor or moderate injury.CAUTION used without the safety alert symbol indicates a potentially hazardous situa-tion which, if not avoided, may result in property damage.NOTE is used to notify of installation, operation, or maintenance information that isimportant but not hazard related.2Inverter Safety Instructions:WARNING: Power Inverters produce hazardous voltages. To avoid risk of harm or fire, the unit must be properly installed.WARNING: There are no user serviceable parts inside, do not remove the cover.WARNING: Power Inverters should not be mounted in a location that may be exposed to rain or spray.WARNING: Power Inverters should not be installed in a zero clearance enclosure.WARNING Damage to the Power Inverter will occur if correct polarity is not observed when installing the inverter’s DC input cables.WARNING: Damage to the Power Inverter will occur if an external AC power source is applied to the inverter’s AC hardwire output.WARNING: Power Inverters contain a circuit breaker and capacitor that may produce a spark. Do not mount in a confined battery or gas compartment.WARNING: Be sure the Power Inverter is turned OFF during installation.WARNING: Working in the vicinity of lead-acid batteries is dangerous. There is a risk of acid exposure.WARNING: Batteries generate explosive gases during operation.WARNING: There is risk of high current discharge from shorting a battery that can cause fire and explosion. Use insulated tools during installation.WARNING: Remove all rings, watches, jewelry or other conductive items before working near the batteries.WARNING: Inspect the batteries once a year for cracks, leaks or swelling.WARNING: Dispose of the batteries according to local regulations. Do not incinerate batteries; risk of explosion exists.When the inverter is in “Inverter Power” mode, the green LED “Inverter” will come on. The AC power produced by the inverter comes from the energy stored in the battery bank through a sophisticated electronic inversion process. A transformer, a Metal Oxide Silicon Field Effect Transistors (MOSFET), a filter capacitor and a waveform stabilizer circuit are used to generate clean useful AC power.Note: The signal output waveform produced by the inverter when in “inverter mode” is pure sinusoidal. It has a total harmonic distortion of less than 5%.3Battery Safety Information:Inverter Power ModeThe “Local On/Off Switch” located on front, or the “Remote On/Off Switch” if used controls the inverter. Both the Local and “Remote On/Off” switches are configured in series. To control the inverter remotely set the “Local On/Off switch” to ON.The inverter will operate in “inverter mode” only.CASE “L”16 1.5 2.545 2.51515.5CASE “I”3938.215CASE “O”171.52 5.5 4.5 2.51616Installation T oolsInverter Mounting RecommendationsThe following tools are required for inverter installation: Crimper, Cable Ties, Cutter, Drill, #2 Phillips Screw Driver, Tape Measure, Wire Cutters, and Wire Strippers.Inverter Mounting Footprints (Dimensions are in inches)Inverter Models12/800N & 12/1200N,& 12/1500N Inverter Models12/1800N, 12/2400N& 12/3000NInverter Model 12/3600N4NOTE : The inverter mounting location should provide adequate ventilation and clearance to maintain room temperature during operation. A minimum of 1/2 inch of clearance is required on all sides.1.Locate a suitable vertical or horizontal mounting surface as close to the batteries as possible without being in the same airtight compartment.2.If mounting the inverter on a vertical surface, the front control panel should be pointing down whenever possible.3. Locate the mounting holes on the chassis flanges and fasten them using the 1/4 inchdiameter screws to secure the inverter.Inverter CableAn “Inverter Cable” kit (positive cable, negative cable, and proper fuse) is required to connect the inverter to a battery pack. An 8-guage cable is also required to connect the inverter’s bonding lug to ground.The inverter cable length and the size of the inverter will determine the cable gauge and the size fuse to use. The maximum inverter cable recommended is 20-ft; it must be fused within 18-in from the positive (+) terminal of the battery.T able 1: Cable and Fusing Guide at 5% Voltage Drop at Full OutputInverterModelFull Load (Amps DC)Fuse Size Inverter to Battery Estimated Cable Length in Feet 1 ft. to 10 ft.11 ft. to 15 ft.16 ft. to 20 ft 12/800N80150A 4-gauge 4-gauge 2-gauge 12/1200N120200A 4-gauge 2-gauge 1-gauge 12/1500N150200A 2-gauge 1-gauge 1/0-gauge 12/1800N180300A 2-gauge 1/0-gauge 2/0-gauge 12/2400N240400A 1/0-gauge 2/0-gauge 4/0-gauge 12/3000N300500A 2/0-gauge 4/0-gauge 4/0-gauge 12/3600N 360600A 4/0-gauge 4/0-gauge NR*Proper cable gauge must be used to prevent excessive voltage drop at the inverter DC input *Some motor starting may require the use of the next larger size cableCable Recommendations1.Use stranded copper cable.2.Use SGX cross-linked polyurethane insulation type that complies with the high temperature insulation requirements (125º C) of SAE J-1127 and vehicle manufacturer requirements.3. Cable gauge recommendations are minimum. For higher than normal temperatureapplications or large motor loads, and other applications with high surge currents, use cable gauge 1 to 2 sizes larger than recommended in Table 1.4. Keep the cable lengths between the battery and inverter as short as possible.5.UL requires that a line fuse be installed within 18 inches of the battery. Use only Bussmann ANN type fuses to 500A and Bussmann ANL for 600A.Cross reference the inverter model, and the estimated cable length in Table 1 to determine the proper cable gauge and fuse size. The Inverter Cable kit may be purchased directly from Sensata Technologies.An optional customer supplied remote “On/Off” switch can be connected to the remote On/Off switch hookup lead extending from the inverter (violet wire). Use an 18-gauge cable, single pole single throw switch, and a 5-amp in-line fuse installed within 10 inches from the positive (+) terminal of the battery.5 Recommended Battery Sizes & Quantities @ full hp rating12/1800N12/2400N 12/3000N 12/3600N 1 Deep Cycle 2-8D 2-8D 1 or 2-8DThe hardwire A.C output is not ground fault interrupt, (GFCI) protected unless the inverter has option “A”. GFCI outlets should be installed at all appropriate locations per NEC 551. The GFCI outlet should be Leviton Type 7899 or N7899, 20Amp., 125VAC.Typical Wiring Diagram for 12/800N, 12/1200N & 1500N6Typical Wiring Diagram for 12/1800N, 12/2400N, 12/3000N, 12/3600N7Typical DC Cable Connections for 12/800N, 12/1200N & 12/1500N8Typical DC Cable Conn’s for 12/1800N, 12/2400N, 12/3000N, &12/3600N9Status Panel12/800N & 12/1200NPlug a 100-watt light bulb into the inverter’s AC outlet. Switch on the remote On/Off switch (if available). Switch the inverter’s AC outlet On/Off for 5 seconds: then, switch it back ON. If the work light lights, the inverter works.Symptom Possible Cause(s)Solution(s)No inverter indicators are on and work light not ON.1. No DC power to inverter.2. No remote power on input toinverter.Go to TroubleshootingStep 1.Inverter POWER ON indicator is on and work light not ON.1. Tripped inverter output circuitbreaker.2. Tripped inverter Ground FaultCircuit Interupter.1. Reset the output circuitbreaker & retest.2. Reset the GFCI &retest.Inverter LOW INPUT VOLTAGE indicator is ON.1. Low DC input power.2. Defective inverter.Go to TroubleshootingStep 2.Inverter OVERLOAD indicator is ON.1. Very excessive AC output loador AC output short.2. Defective inverter.Go to TroubleshootingStep 3.Inverter HIGH TEMPERATURE indicator is ON.1. Excessive ambient temp.2. Excessive AC output load.Go to TroubleshootingStep 4.10Troubleshooting StepsStep 1. INVERTER POWER indicator LED is not ON.A. L ocate the small violet wire in the front of the inverter. Disconnect the violet wire from theexternal remote switch circuit. Connect the violet wire to the large positive DC input lug on the front of the inverter.1. If the inverter powers ON, the fault exists in the remote On/Off circuit. Possibleproblems include:• A failed remote circuit fuse.• A defective switch.• A defective isolation relay in the circuit open wiring anywhere in the remote On/Offcircuit to the inverter.• Correct the fault and retest.B. I f the inverter does not power ON, a very low or zero volt input voltage probably exists.1. Visually inspect or remove and measure the resistance of the battery cable fuses forevidence of failure.• Replace any defective fuse with the same rating and retest the system.NOTE: Repeated fuse failures are probably caused by either a positive cable shorted toground (chassis) in the battery system or poor battery cable connections. Locate and correct the short or poor connections; then, retest the system.2. If no fuse is defective, the battery/charging system is suspect. Contact Sensata at 1-800-553-6418 for technical assistance.Step 2. LOW INPUT VOLTAGE indicator LED is ON.NOTE: Failures can be caused by one or more of the following: a failed or under-ratedalternator and/or failed alternator regulator, inoperative engine high idler, weak batteries, or poor battery wiring connections. The least likely part to have failed is the inverter. Contact Sensata at 1-800-553-6418 for technical assistance.Step 3. OVERLOAD indicator LED is ON.A. S witch the inverter OFF, and remove all AC loads from the inverter’s output receptacle;then, disconnect the AC hard wire output inside the front panel of the inverter.B. S witch the inverter to ON.1. Inverter appears to operate normally (no indicator LED’s) indicates one of thedisconnected AC loads was drawing excessive current or an AC wiring short exists in the external AC wiring. Correct the fault and retest the system.2. Overload indicator LED is ON indicating a possible defective inverter. Contact Sensataat 1-800-553-6418 for technical assistance.Step 4. HIGH TEMPERATURE indicator LED is ON.NOTE: Indicates that the inverter has been operated with a somewhat excessive AC load and has overheated (no damage to the inverter should have occurred).A. T he high temperature condition should self-correct in approximately one (1) minute to one(1) hour. If the condition persists longer the one (1) hour, contact Sensata at 1-800-553-6418 for technical assistance.11GENERAL SPECIFICATIONS12/800N12/1200N12/1500N12/1800N12/2400N12/3000N12/3600NOutput Power (Watts800120015001800240030003600 Continous)Output Current (Amps AC)Up to 7Up to 10Up to 12.5Up to 15Up to 20Up to 25Up to 30Peak Output (Amps DC)122124449191136Input Current (Amps DC)Up to 80Up to 120Up to 150Up to 180Up to 240Up to 300Up to 360Input Voltage (Volts DC)10.5 to 20Output Voltage (Pure Sine)120 VAC ± 5%Output Frequency60 Hz ± 0.05%Output Wave Form Pure Sine Wave, <5%Effenciency (Inverter)Up to 88%Operating Temperature0º to 140º F [-20º to 60º C]Case Size (L x W x H)15 x 8.2 x 7.515 x 16 x 7.515 x 17 x 10Weight (Lbs)25292942565880• High performance construction and coolong methods.• Microprocessor controlled.• Thermally controlled cooling fan.• Enclosed AC and DC cable connections.• Remote ON/OFF switch hookup.• GFCI outlet protection.• LED indication of External power, Inverter power, Low input voltage, High temperature, and Overload.• Battery voltage indicator with push-to-test (12/1800N, 12/2400N, 12/3000N, and 12/3600N) only.• Remote control “R”.• Automatic electronic short circuit/overload protection.• Automatic over temperature shutdown.• Output circuit breakers.• Automatic low battery shutdown at 10.5 VDC (with in-rush delay).Usage: Any 120 VAC, 60 Hz single phase product within the inverter’s power rating.Warranty: See product label on top of the inverter for warranty period.12SHIPPING TERMS: F.O.B. St. Paul Minnesota. Freight prepaid and billed, subject to prior credit approval. MINIMUM ORDER: $50.00 Net PriceLOSS OR DAMAGE: Loss or damage in transit is the responsibility of the carrier; any claim should be fi led withthe delivering transport company. Invoice, Bill of Lading and Delivery receipt with damage noted therein must accompany any claims for freight damage. Claims for shortage and lost shipments must be made in writing to Sensata Technologies Maryland Inc., St. Paul, MN within 10 days of date of shipment. Claims not reported within this time frame will not be honored.PRICES: Prices are subject to change without notice. All orders are subject to acceptance at the factory. We reserve the right to invoice prices in effect at time of shipment.TERMS: Net 30 days with approved credit, credit card or C.O.D.RETURN GOODS POLICY:• No returned materials will be accepted without an accompanying Returned Materials Authorization Number (RMA) from the factory.• Credit will be issued for returned goods to the original purchaser within 60 days of purchase, provided the inverter is returned to Sensata unused and not mounted. The amount of credit will be issued at Sensata’s discretion based on the condition of the product.• Customer must be in good standing with Sensata Technologies.• Inverters that are discontinued, high-voltage (over 24vdc), special-order or used are excluded and will not be eligible for credit. Non-inverter items such as cable assemblies, fuses and fuse holders, will not be eligible for credit• Support components supplied by Sensata vendors will be covered under that manufacturer’s credit return policy.• Customer pays return freight.PLEASE SHIP AUTHORIZED RETURNS TO:Sensata Technologies RMA #_____| 4467 White Bear Parkway | St. Paul, MN 55110Return Freight PrepaidLIMITED WARRANTY:Sensata Technologies extends the following warranty to the original purchaser of those goods subject to thequalifi cations indicated. Sensata warrants to the original purchaser for use that the goods or any component thereof manufactured by Sensata will be free from defects in workmanship from the date of purchase for the period listed on the product label, provided such goods are installed, maintained and used in accordance with Sensata and the original manufacturer’s written instructions. Damages caused by the misuse, undue care or obvious wear through use will not be covered by this warranty.Components not manufactured by Sensata, but used within the assembly provided by Sensata, are subject to the warranty period as specifi ed by the individual manufacturer of said component, provided such goods are installed, maintained and used in accordance with Sensata and the manufacturer’s written instructions.Sensata sole liability and the Purchaser’s sole remedy for a failure of goods under this limited warranty and for any and all claims arising out of the purchase and use of the goods shall be limited to the repair or replacement of the goods that do not conform to this warranty.To obtain repair or replacement service under the limited warranty, the purchaser must contact the factory for a Return Material Authorization (RMA) number. Once obtained, send the Return Material Authorization Number along with the defective part or goods to: Sensata Technologies RMA #______, 4467 White Bear Parkway, St. Paul, MN 55110 Return Freight Prepaid.THERE ARE NO EXPRESS WARRANTIES COVERING THESE GOODS OTHER THAN AS SET FORTH ABOVE. THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE LIMITED IN DURATION TO ONE YEAR FROM DATE OF PURCHASE.SENSATA TECHNOLOGIES MARYLAND INC. ASSUMES NO LIABILITY IN CONNECTION WITH THE INSTALLATION OR USE OF THE PRODUCT, EXCEPT AS STATED IN THIS LIMITED WARRANTY. SENSATA TECHNOLOGIES WILL IN NO EVENT BE LIABLE FOR INCIDENTAL OR CONSEQUENTIAL DAMAGES. WARNING: LIMITATIONS ON USE: DIMENSIONS® brand inverter products are not intended for use in connection with Life Support Systems and for Avionic use. Sensata Technologies makes no warranty or representation in connection with their products for such uses.13Notes:14Sensata Technologies Manufacturer of Dimensions Inverters 4467 White Bear ParkwaySt. Paul, MN 55110Phone: 651-653-7000; 800-553-6418Fax: 651-653-7600; 888-439-3565 ************************ Form No. 122187 (03/21/14)© Sensata Technologies 2014 Printed in U.S.A.。

通信用通信用后备式铁锂电池系统后备式铁锂电池系统后备式铁锂电池系统使用说明书江苏双登集团有限公司江苏双登集团有限公司目 录录1、简介 (3)2、产品特点 (3)3、产品规格型号及技术参数 (3)4、使用环境要求 (3)5、系统机箱面板功能 (3)5.1 机箱高度1U和4U系统面板示意图 (3)5.2 SDA10-4810系统参数 (4)5.3 保险丝 (4)5.3 电源接口 (4)5.4 复位键 (4)5.5 级联通讯接口 (4)5.6 上联通讯接口 (4)5.7 拨码开关 (4)5.8 系统运行指示灯 (5)5.9 告级联通讯接口 (5)5.10 上联通讯接口 (5)5.11 上联通讯接口 (5)6、系统工作原理及参数 (5)6.1 系统工作原理 (5)6.2 充电参数 (6)6.3 放电参数 (6)6.4 系统保护功能及参数 (7)7、系统安装、使用与维护 (7)7.1 系统安装 (7)7.2 系统上电 (8)7.3 告警说明及处理 (8)7.4 通信故障 (9)7.5 保护故障 (9)7.6 特殊情况处理 (10)8、包装、运输、贮存 (10)8.1 包装 (10)8.2 运输 (10)8.3 贮存 (10)9、安全注意事项 (10)1、简介简介通信用后备式铁锂电池系统是江苏双登集团在国内最先研制开发的高科技产品；该产品以其集成化、小型化、轻型化、智能型集中监控、电池维护和管理、无人值守、使用方便的标准化机柜安装方式、节能环保等特点，被广泛应用于接入网设备、远端交换局、移动通信设备、传输设备、卫星地面站和微波通讯设备等通信领域作为后备电源；目前双登集团通信用后备式铁锂电池系统产品系国内唯一批量生产广泛应用于通讯领域的备电电源产品。

并受到通信行业的青睐。

2、产品特点产品特点（1）电池正极采用磷酸亚铁锂（LiFePO 4）材料制作，安全性能好、循环寿命长；（2）电池系统采用高性能的BMS 电池管理模块，该BMS 具备过放、过充、过流、温度等保护功能，并使电池系统与主机良好通讯； （3）充放电自动管理，监控单元自动测量电池的充放电电流并对电池进行浮充和均充管理； （4）二次下电功能，电池电压低于告警值有告警信息，电压过低时自动下电，保护电池； （5）系统具有良好的电磁兼容性；（6）全智能设计，配置有集中监控模块，具有三遥（遥测、遥信和遥控）功能，实现计算机管理，可以通过与远端中央监控中心通信；（7）电源控制技术与计算机有机结合，可以实时监测和控制各种参数及状态； （8）配置灵活：多个模块并联可以延长系统的后备时间； （9）采用自冷方式，整个系统具有极低的噪音。

南京拓微集成电路有限公司NanJing Top Power ASIC Corp.数据手册DATASHEETTP5000(2A开关型4.2V锂电池/3.6V铁锂电池充电器)概述TP5000是一款开关降压型单节锰锂电池/磷酸铁锂电池充电管理芯片。

其QFN16超小型封装与简单的外围电路，使得TP5000非常适用于便携式设备的大电流充电管理应用。

同时，TP5000内置输入过流、欠压保护、芯片过温保护、短路保护、电池温度监控、电池反接保护。

TP5000具有宽输入电压，对电池充电分为涓流预充、恒流、恒压三个阶段，涓流预充电电流、恒流充电电流都通过外部电阻调整，最大充电电流达2A。

TP5000采用频率800kHz的开关工作模式使它可以使用较小的外围器件，并在大电流充电中仍保持较小的发热量。

TP5000内置功率PMOSFET、防倒灌电路，所以无需防倒灌肖特基二极管等外围保护。

TP5000的恒流功能，也可以用在2串锂电池或4串干电池输入，恒流驱动0.5-7W白光LED。

特性■单节4.2V锰锂或3.6V磷酸铁锂电池充电■内置功率MOSFET,开关型工作模式，器件发热少，外围简单■可编程充电电流，0.1A--2A■可编程预充电电流，10%--100%■无需外接防倒灌肖特基二极管■宽工作电压，最大达到9V■两路LED充电状态指示■芯片温度保护，过流保护，欠压保护■电池温度保护、电池反接停机、短路保护■开关频率800KHz，可用电感2.2uH-10uH ■自动再充电功能■小于1％的充电电压控制精度■涓流、恒流、恒压三段充电，保护电池■采用QFN164mm*4mm超小型封装绝对最大额定值■输入电源电压（VIN）：10V■BAT：-4.2V～9V■BAT短路持续时间：连续■最大结温：145℃■工作环境温度范围：-40℃～85℃■贮存温度范围：-65℃～125℃■引脚温度（焊接时间10秒）：260℃应用■便携式设备、各种充电器■智能手机、PDA、移动蜂窝电话■MP4、MP5播放器、平板电脑■矿灯■电动工具■白光LED驱动典型应用图1TP5000为4.2V锂离子电池1.5A充电（150MA预充）应用示意图图2TP5000为3.6V 磷酸铁锂电池1.5A 充电（150MA 预充）应用示意图封装/订购信息16引脚4mm*4mmQFN16封装顶视图（散热片接地不可接其他电位）订单型号TP5000-QFN16器件标记TP5000实物图片TP5000功能方框图图3TP5000功能框图电特性表1TP5000电特性能参数凡表注●表示该指标适合整个工作温度范围，否则仅指T A =25℃，VIN=6V，除非特别注明。

储能电站电池管理系统(BMS)用户手册V1.0(磷酸铁锂电池)深圳市光辉电器实业有限公司目录1、概述 (3)2、系统特点 (3)3、储能电站系统组成 (4)4、电池管理系统主要组成 (4)4.1 储能电池管理模块ESBMM (5)4.1.1 ESBMM-12版本 (5)4.1.2 ESBMM-24版本 (8)4.2 电池组控制模块ESGU (12)4.3 储能系统管理单元ESMU (14)5、安装及操作注意事项 (17)附录A：产品操作使用界面 (18)1、概述ESBMS 是根据储能电池组特点设计的电池管理系统，实现电池组的监控，管理和保护等功能，为磷酸铁锂电池在成组使用时的安全应用以及寿命的延长等方面都起着决定性的作用。

2、系统特点●全面电池信息管理实时采集单体电池电压、温度，整组电池端电压、充放电电流等。

●在线SOC诊断在实时数据采集的基础上，采用多种模式分段处理办法，建立专家数学分析诊断模型，在线预估单体电池的SOC。

同时，智能化地根据电池充放电电流和环境温度等对SOC预测进行校正，给出更符合变化负荷下的电池剩余容量及可靠使用时间。

●主动无损均衡充电管理在充电过程中，采用我司“补偿式串联电流均衡法”和“集中式均衡法”两项发明专利技术调整单节电池充电电流，保证系统内所有电池的电池端电压在每一时刻有良好的一致性，同时减少有损均衡方法带来的能量浪费，最大均衡电流不小于2A。

●系统保护功能对运行过程中可能出现的电池严重过压、欠压、过流（短路）、漏电（绝缘）等异常故障情况，通过高压控制单元实现快速切断电池回路，并隔离故障点、及时输出声光报警信息，保证系统安全可靠运行。

●热管理功能对电池箱的运行温度进行严格监控，如果温度高于或低于保护值将输出热管理启动信号，系统可配备风机或保温储热装置来调整温度；若温度达到设定的危险值，电池管理系统自动与系统保护机制联动，及时切断电池回路，保证系统安全。

●自我故障诊断与容错技术电池管理系统采用先进的自我故障诊断和容错技术，对模块自身软硬件具有自检功能，即使内部故障甚至器件损坏，也不会影响到电池运行安全。

储能电站电池管理系统(BMS)用户手册V1.0(磷酸铁锂电池)市光辉电器实业目录1、概述32、系统特点33、储能电站系统组成44、电池管理系统主要组成44.1 储能电池管理模块ESBMM44.1.1 ESBMM-12版本54.1.2 ESBMM-24版本84.2 电池组控制模块ESGU124.3 储能系统管理单元ESMU145、安装及操作注意事项17附录A：产品操作使用界面181、概述ESBMS 是根据储能电池组特点设计的电池管理系统，实现电池组的监控，管理和保护等功能，为磷酸铁锂电池在成组使用时的安全应用以及寿命的延长等方面都起着决定性的作用。

2、系统特点●全面电池信息管理实时采集单体电池电压、温度，整组电池端电压、充放电电流等。

●在线SOC诊断在实时数据采集的基础上，采用多种模式分段处理办法，建立专家数学分析诊断模型，在线预估单体电池的SOC。

同时，智能化地根据电池充放电电流和环境温度等对SOC预测进行校正，给出更符合变化负荷下的电池剩余容量及可靠使用时间。

●主动无损均衡充电管理在充电过程中，采用我司“补偿式串联电流均衡法”和“集中式均衡法”两项发明专利技术调整单节电池充电电流，保证系统所有电池的电池端电压在每一时刻有良好的一致性，同时减少有损均衡方法带来的能量浪费，最大均衡电流不小于2A。

●系统保护功能对运行过程中可能出现的电池严重过压、欠压、过流（短路）、漏电（绝缘）等异常故障情况，通过高压控制单元实现快速切断电池回路，并隔离故障点、及时输出声光报警信息，保证系统安全可靠运行。

●热管理功能对电池箱的运行温度进行严格监控，如果温度高于或低于保护值将输出热管理启动信号，系统可配备风机或保温储热装置来调整温度；若温度达到设定的危险值，电池管理系统自动与系统保护机制联动，及时切断电池回路，保证系统安全。

●自我故障诊断与容错技术电池管理系统采用先进的自我故障诊断和容错技术，对模块自身软硬件具有自检功能，即使部故障甚至器件损坏，也不会影响到电池运行安全。

BMS产品规格书文件更改摘要：目录1. 简介 (3)2. 功能特性 (4)3. 功能示意框图 (4)4. 电气特性 (5)4.1基本参数设置 (5)4.2 LED指示说明 (6)4.3 蜂鸣器动作说明 (7)4.4 按键说明 (7)4.5 休眠及唤醒 (7)5 通信说明 (8)5.1 RS232通信 (8)5.2 RS485通信 (8)5.3 拨码开关设置 (8)6 接口定义 (9)6.1 接口图示 (9)6.2 电气接口定义 (9)6.3 安装连接说明 (10)7 实物图和尺寸图 (10)8 使用注意事项 (11)1.简介随着锂电池在通信行业的广泛应用，对电池管理系统也提出了高性能、高可靠性及高性价比等要求。

本产品是专门针对基站后备电池设计的BMS，采用集成化的设计将采集、管理、通信等功能集成于一体。

可广泛应用在室内室外基站，如一体化基站、边际站、直放站、宏基站、太阳能基站等。

2.功能特性●具有单体电压、总体电压检测，过充、过放告警及保护功能。

常温下静态电压采样精度可达≤20mV。

●具有充、放电电流检测，充、放电过流告警及保护功能。

充电电流显示为正，放电电流显示为负，常温下电流采样精度可达≤2%@FS。

●具有电芯温度检测，电芯高、低温告警及保护功能，常温下温度采样精度可达≤3℃。

●短路保护功能。

●具有充电均衡功能。

●电芯容量估算功能。

电池组满充容量、当前容量、设计容量可以通过上位机进行设置，在进行完整充放电循环后容量可自动更新。

●LED状态指示功能。

●上位机软件控制功能，可通过上位机软件方便地对过充、过放、充放电过流、过温、欠温等保护参数，容量、休眠、均衡等参数进行设置。

●RS232通信功能，采用隔离通信。

●RS485通信功能，采用隔离通信。

3.功能示意框图4.电气特性4.1基本参数设置(注：以下参数除特殊注明以外，25℃环温下测试)备注：可通过上位机使能或禁止LED指示灯告警，出厂默认为使能的。

Ver 0.1 R5460二节锂电池保护IC用户手册目录一、规格书相关问题1.过充电保护相关1)过充电保护解除方法?2)充电管理IC的CV值和保护IC的过充电保护阈值有何关系？(如何通过充电管理IC的规格来确定保护IC的规格？反之亦成立。

)2.过放电保护相关1)过放电保护解除方法?3.放电过电流保护、短路保护相关1)“过流”指的是放电过电流还是充电过电流?2)如何选择放电过电流检测阈值Vdet3？3)放电过电流保护解除方法?4)短路保护解除方法?5)电平解除型(Auto-release type)芯片的过流/短路保护的解除方式和锁存型(Latch type)芯片的 过流/短路保护的解除方式有什么不同？4.充电过电流保护相关1)充电过电流保护解除方法?2)电平解除型(Auto-release type)芯片的充电过流保护的解除方式和锁存型(Latch type)芯片的 充电过流保护的解除方式有什么不同？5.其它功能1)哪些保护模式中芯片是处于待机模式（休眠模式）的?2)规格书的电气特性表里为什么会有两种不同的待机电流值？3)R5460的COUT和DOUT输出端的驱动能力有多大？4)R5460的抗ESD性能如何？5)R5460是0V可充还是不可充？6.数据及图表说明1)有关规格书中绝对最大额定值的说明2)R5460规格书中所述的电池不均衡时的工作机制是什么意思？二、应用电路相关问题1.过充电保护相关1)过充电保护检测电压不准确2)充电器的选择（推荐）2.过放电保护相关1)放电保护时切断放电回路的瞬间，电芯电压为什么会返回变高？2)成品电池保护板发生自锁是怎么回事？如何解除自锁？又如何预防？3.放电过电流保护相关1)电池输出端P+与P-之间始终接负载的情况4.短路保护相关1)应用电路中电容C3的作用5.其他1)电池如果反接到保护板上去，芯片会发生什么情况？一、规格书相关问题1.过充电保护相关1)过充电保护解除方法?回答：过充电检测电压：Vdet1 过充电解除电压：Vrel1通过充电器给电池组充电，电池电压持续上升到检测出过充电。

通信用通信用后备式铁锂电池系统后备式铁锂电池系统后备式铁锂电池系统使用说明书江苏双登集团有限公司江苏双登集团有限公司目 录录1、简介 (3)2、产品特点 (3)3、产品规格型号及技术参数 (3)4、使用环境要求 (3)5、系统机箱面板功能 (3)5.1 机箱高度1U和4U系统面板示意图 (3)5.2 SDA10-4810系统参数 (4)5.3 保险丝 (4)5.3 电源接口 (4)5.4 复位键 (4)5.5 级联通讯接口 (4)5.6 上联通讯接口 (4)5.7 拨码开关 (4)5.8 系统运行指示灯 (5)5.9 告级联通讯接口 (5)5.10 上联通讯接口 (5)5.11 上联通讯接口 (5)6、系统工作原理及参数 (5)6.1 系统工作原理 (5)6.2 充电参数 (6)6.3 放电参数 (6)6.4 系统保护功能及参数 (7)7、系统安装、使用与维护 (7)7.1 系统安装 (7)7.2 系统上电 (8)7.3 告警说明及处理 (8)7.4 通信故障 (9)7.5 保护故障 (9)7.6 特殊情况处理 (10)8、包装、运输、贮存 (10)8.1 包装 (10)8.2 运输 (10)8.3 贮存 (10)9、安全注意事项 (10)1、简介简介通信用后备式铁锂电池系统是江苏双登集团在国内最先研制开发的高科技产品；该产品以其集成化、小型化、轻型化、智能型集中监控、电池维护和管理、无人值守、使用方便的标准化机柜安装方式、节能环保等特点，被广泛应用于接入网设备、远端交换局、移动通信设备、传输设备、卫星地面站和微波通讯设备等通信领域作为后备电源；目前双登集团通信用后备式铁锂电池系统产品系国内唯一批量生产广泛应用于通讯领域的备电电源产品。

并受到通信行业的青睐。

2、产品特点产品特点（1）电池正极采用磷酸亚铁锂（LiFePO 4）材料制作，安全性能好、循环寿命长；（2）电池系统采用高性能的BMS 电池管理模块，该BMS 具备过放、过充、过流、温度等保护功能，并使电池系统与主机良好通讯； （3）充放电自动管理，监控单元自动测量电池的充放电电流并对电池进行浮充和均充管理； （4）二次下电功能，电池电压低于告警值有告警信息，电压过低时自动下电，保护电池； （5）系统具有良好的电磁兼容性；（6）全智能设计，配置有集中监控模块，具有三遥（遥测、遥信和遥控）功能，实现计算机管理，可以通过与远端中央监控中心通信；（7）电源控制技术与计算机有机结合，可以实时监测和控制各种参数及状态； （8）配置灵活：多个模块并联可以延长系统的后备时间； （9）采用自冷方式，整个系统具有极低的噪音。

新能源电池组说明，一、电池的维护和保养(1) 按照安装手册完成电池的安装后，在电池首次放电前，应先将电池充满电，然后再使用。

在电池完全充放电3～5次后，电池即可达到最大容量。

(2) 当电池电量不足时，应及时充电，这样将有益于延长电池寿命。

如果不及时充电，让电池长时间处于缺电状态下将会影响电池的使用寿命。

若电池需要长时间搁置，最好使电池处于半电状态，并且每2个月对电池进行充电一次，充电时间为一小时。

(3) 电池应安装在空气流通、干燥、清洁的环境中；充电时应避免火源、易燃物品接近并断开负载（关闭用电设备）。

(4) 电池的工作环境温度为-20～40℃（最佳工作环境温度为15～35℃），若在此温度范围之外，电池性能发挥可能会有所变化，直观表现是电池容量变化，或者设备运行时间变化，这是正常现象。

(5) 不能使用有机溶剂清洗电池外壳。

电池发生意外火灾时，不能使用二氧化碳灭火，而应使用四氯化碳之类的灭火器具或者沙土灭火。

(6) 电池是消耗品，电池的寿命是有限的。

请用户在电池容量表现低于额定容量的80%时，及时更换电池。

二、使用注意事项(1) 轻拿轻放避免剧烈震动。

(2) 不要将电池及其配件浸入水或其他液体中，并注意防潮。

(3) 应避免电池组正负输出端短路。

(4) 禁止非专业人员拆卸电池。

拆卸不当电池可能会使内部短路。

(5) 禁止将废旧电池投入火中，否则会产生爆炸等危险事故。

(6) 如果出现电池损坏、变形、电解液泄漏或闻到异味及其他不正常现象，不要再使用该电池；请将其送交厂家授权处或有关机构妥善处理。

另外，泄露电解液的电池应远离火源。

(7) 电池更换。

应由电池供应方或厂方培训来更换安装电池，使用者不得擅自更换。

三、运输注意事项(1) 电池组适应于汽车、火车、飞机等运输方式，但在运输过程中应避免日晒、雨淋和剧烈震动。

(2) 电池组要用绝缘防震材料包装，并标识有易碎字样的标贴，避免途中颠簸造成电池组的损坏。

(3) 应使电池组极柱向上，并标识好向上标贴，切勿倒放、侧放等。

Observe operating instructions and affix close within sight of the battery! Work on batteries only under instructions of skilled personel! Smoking prohibited! Do not expose battery to open fame, glowing fire or sparks as explosion and fire hazard exists! When working on batteries wear protective glasses and clothing! Explosion and fire hazard! Avoid short circuits! Caution! Metal parts of the battery cells are always live, therefore do not place items or tools on the battery!Electrolyte is strongly corrosive! Monoblock batteries / cells are very heavy! Ensure secure installation! Only use suitable transport equipment! Dangerous voltage! Acid splashes in the eyes or on the skin must be washed out or off with plenty of water. Then see a doctor immediately. Acid on clothing should be washed out with water! Safety requirements according to EN 50272-31. Commissioninga) Filled and charged batteriesBefore commissioning all blocks must be inspected for mechanical damage, cells must be connected with the correct polarity and connectors firmly seated. The following torque apply for M10 screw connectors is:20 ± 1 Nm If necessary the terminal covers must be put on. Check the electroiyte level in all cells. If necessary top up to maximum level with purified water as under DIN 43530 Part 4. Before putting the battery in operation, plastic transport vent caps must be removed and replaced with ceramic cell plugs. With charger off and loads isolated connect battery to the direct current power supplies maintaining correct polarity (positive terminal to positive post). Switch on the charger and charge as under section 2.2.b) Dry charged (DC) batteries Instructions for the initial charging of a dry charged stationary OPzS and SOLAR (TOPzS) batteries: - Unscrew the sealed vent plugs and fill the cells with pure dilute sulphuric acid, specific gravity 1,230 0,01kg/1 read at 20 (68 F), up to about 25 mm below top of lid for SPgBG multi-block hard rubber containers and 50 mm below of lid for OPzS translucent containers or max level marked on the label. The temperature of the filling acid should be between 10°C and 25°C (50 - 77 F). - Insert the original plastic vent plug with Removed sealing foil on the top or place the special ceramic ventplug. - Start charging for not less than 2and not more than 12 hours elapsed after the last cell has been filled with the acid. - Apply the 0,5 x 110(5A/100Ah)current. - Charge for 8 hours and then keepthe battery on open circuit for 1-2 hours. - Continue the charging for a fewhours, until the battery is fullycharged, i.e. until constant voltage and constant specific gravity have been reached. The specific gravity of the acid in a fully charged celi is 1,240 0,01 kg/I read at 20°C (68 F), If during the charging thetemperature of the acid exceeds 55°C (131 F) reduce the charging current by 50%. - 0,5 h after charging discharge thebattery at 10 hour rate of current until the cell voltage drops toaverage value 1.80 Volts. Allowable minimum voltage of a single cell is 1,70V.- Recharge the battery according tothe operating instructions 2.2. - 24 hours after recharging adjustelectrolyte level to the “max” mark on the label.Activation and test results must be kept as part of batterydocumentation. Non-compliance with this request renders the warranty null and void.2. OperationFor the operation of stationary battery, installations EN 50272-2 apply2.1 DischargingNever allow the final discharge voltage of the battery to drop below that assigned for the discharge current. Chargeimmediately after discharge as well as partial discharge. Recommended DOD (Depth Of Discharge) for normal operating is up to 80% of CN.2.2 ChargingAll charging procedures with their limit values may be employed as stated below:DIN 41773 (lU characteristic) DIN 41774 (W characteristic) DIN 41776 (I characteristic).Depending on charger type and charging characteristic alternating currents flow through the battery superimposing onto the direct current. These alternating currents and the reaction of the loads lead to an additional warming of the battery and strain on the electrodes with possible resulting damage (see 2.5). Depending on the system at hand, charging may be carried out under the following modes:a) Stand-by parallel operation and floating operation.Here the load, direct current and battery are continuously connected in parallel. There by the charging voltage is at the same time the operating voltage of the system. With stand-by-parallel operation the direct current is at any time capable of supplying the maximum load current and the battery charging current. The battery only supplies current when the direct current source fails. The charge volt age should be set at 2,23 V +/-1% x number of cells measured at the battery’s terminals. To reduce therecharging time a charging stage can be applied in which the charging voltage is 2,35 to 2,4 V xnumber of cells (stand-by parallel operation with recharging stage).Automatic changeover to the charging voltage of 2,23 V+/- 1% x number of cells follows after few hours on the voltage 2,35-2,4 V x number of cells. With the floating operation the direct current source is not able to supply the maximum load current at all times. The load current intermit tentlysupersedes the nominal current of the direct current source. During this period the battery supplies power. It is not fully charged at all times. Therefore, depending on the load the chargevoltage must be set at 2.23 to 2.30 V x number of cells.b) Switch mode operationWhen charging the battery is separated from the load. Towards the end of the charging process the charge voltage of the battery is 2,6 - 2,75 V/cell. The charging process and parameters must be monitored (see Sections 2.4, 2.5 and 2.6).On reaching a fully charged state the charging process must be stopped or switched to float charge as under Section 2.3.OPERATING INSTRUCTIONS for stationary vented lead-acid OPzS SOLAR batteriesc) Battery operation (charge/discharge operation)Only the battery supplies the load. Hereby the charge voltage of the battery towards the end of the charging process is 2,6-2,75 V/cell. The charging process and parameters must be monitored (see Sections 2.4, 2.5 and 2.6). When reaching a fully charged state the charging process must be switched off. The battery can be switched to the load as necessary.2.3 Maintaining the full charge(float charging)Devices complying with the stipulations under DIN 41773 (lU characteristic) must be used. They are to be set so that the average cell voltage is 2,23V +/- 1% (2,25 V +/- 1% for UPS) cell at 20°C and the electrolyte density does not decrease over a protracted period(otherwise see 2.8).2.4 Equalizing chargeEqualizing charges are required after exhaustive discharges and after inadequate charges; they can be carried out as follows:- Up to 72 hours at constant voltage ofmax. 2.4 V/ celI,- With the I or W characteristic as under 2.6. If during equalizingcharging permitted load voltagesare exceeded, appropriatemeasures must be taken, e. g.disconnection of the load. Ifexceeding the maximumtemperature of 55°C the chargingmust either be stopped, proceedwith reduced current, or be switchedto float charge to allow thetemperature to drop. The equalizingcharge is completed when theelectrolyte densities no longerincreases within a period of 2 hours.2.5 Alternating currents with periodic deviationsOn recharging up to 2,4 V/cell as under operation modes a) to c) the actual value of the alternating current is occasionally permitted to reach max. 20 A per 100 Ah nominal capacity. Above 2,4 V/cells 10 A per 100 Ah nominal capacity may not be exceeded. In a fully charged state with a charge voltage of 2,23 to 2,30 V/cell the actual value of the alternating current must not exceed 5 A per 100 Ah nominal capacity.2.6 Charging currentsThe charging currents are not limited up to 2,4 V/ celI. When exceeding the charging voltage of 2,4 V/cell, greater water decomposition occurs. The charging currents per 100 Ah nominal capacity shown in Table 1 must not be exceeded.Charging procedure CellmodelCellvoltageI-charact. 5,0 A 2,6 -2,75W-charact. 7,0 A3,5 A at 2,4 V at 2,65V2.7 TemperatureThe recommended operatingtemperature for Lead-acid batteries is10°C to 30°C. The technical data applyfor the nominal temperature 20°C. Theideal operating temperature is 20 +/- 5°C.Higher temperatures shorten the servicelife. Lower temperatures reduce theavailable capacity. The maximumtemperature of 55°C must not beexceeded.2.8 Temperature-related chargevoltageA temperature-related adjustment of thecharge voltage within the operatingtemperature of 15°C to 25°C is notnecessary. Should the temperaturerange be lower than 15°C and/or higherthan 25°C a temperature relatedadjustment of the charge voltage shouldbe made. The temperature correctionfactor is (-0.004 V/Cell per °K).Should the temperature constantly riseabove 40°C then the factor is (-0.003V/Celi per °K).2.9 ElectrolyteThe electrolyte is diluted sulphuric acid.The nominal electrolyte density is basedon 20°C and the nominal electrolyte levelwhen fully charged with maximumdeviation +/ - 0.01 kg/I. Highertemperatures reduce the electrolytedensity; lower temperatures increase theelectrolyte density. The associatedcorrection factor is 0.0007 kg/I per °K.Example: electrolyte density of 1.23 kg/Iat 35°C corresponds to a density of 1.24kg/I at 20°C or electrolyte density of 1.25kg/I at 5°C corresponds to a density of1.24 kg/I at 20°C.3. Battery maintenance and controlThe electrolyte level must be checkedregularly. If it dropped to the lowestelectrolyte level mark, purified watermust be added as under DIN 43530 Part4, maximum conductivity 30 µS/cm. Toavoid leakage currents keep the batteryclean and dry (especially inter cellconnections). Plastic batterycomponents, in particular the vent caps,must only be cleaned with water thatcontains no additives. At least every 6months the following must bemeasured and recorded:- Battery voltage- Voltage of a few selectedcells/mono block batteries- Electrolyte density of a few selectedcells/mono block batteries- Electrolyte temperature of a fewselected cells/mono block batteries.The following must be measured andrecorded annually:- Voltage of all cells/mono blockbatteries- Electrolyte density of all cells/monoblock batteries- Electrolyte temperature of a fewselected cells/mono block batteries- Should the float charge voltage inone celi deviate more than + 0.1 Vor - 0.05 V from the average value(see 2.3), equalizing chargingshould be done (see 2.4.). Annualvisual checks:- on bolted connectors (check thatunsecured bolt connectors arefirmly seated)- on battery installation orarrangement- on ventilation of battery room.4. TestsTests must be performed on fully chargedbatteries according to EN 60896-1.ln addition, special test instructionssuch as EN 50272-2 must be observed.5. FaultsShould faults be detected in the batteryor the charging device, customerservices should be called in immediately.Measurement records under Section 3are necessary for fast fault detection andremoval.6. Storage and taking out of operationShould cells/batteries be stored or takenout of operation for a longer period oftime, they must be stored fully charged ina dry, frost-free room with max.temperature of 25°C. Direct sunlight orother heat sources mustbe avoided. To avoid damage thefollowing charging methods can bechosen:a. Equalizing charges on a quarterlybasis as under Section 2.4. In average,ambient temperatures of more than 30°Cmonthly equalizing charges may benecessary.b. Float charging as under Section2.3.above.7. TransportBatteries, wet, filled with acid requiretransport under demands of EuropeanAgreement concerning the internationalcarriage of dangerous goods (ADR andRID). ADR special provision No. 598:New batteries are not subject to therequirements of ADR, when:- they are secured in such a way thatthey can not slip, fall or bedamaged;- they are provided with carryingdevices, unless they are suitablystacked, e.g. on pallets;- there are no dangerous traces ofalkalis or acids on the outside;- they are protected against shortcircuits.8. Technical dataThe nominal voltage, the number ofblocks, the nominal capacity (C10 = CN)and the battery type are obtained fromthe type plate.Victron Energy bv / De Paal 35 / 1351 JG ALMERE / The NetherlandsPhone: (+31) (0)36 535 97 00 / Fax: (+31) (0)36 535 97 40 / /e-mail:***********************。

北京联动天翼LD-4850P磷酸铁锂电池产品手册 北 京 联 动 天 翼 科 技 有 限 公 司版权 © 北京联动天翼科技有限公司. 2015. 版权所有.非本公司同意，任何组织和个人不得摘抄、复制本文件部分或全部内容，不得以任何形式传播。

商标公告和其他联动天翼商标都由北京联动天翼科技有限公司拥有，所有其他商标或注册商标在本文档中提到的属于他们各自的所有者。

声明1.本手册包含磷酸铁锂电池组的详细性能，请在操作前仔细阅读本说明书，并遵守有关工业安全法规。

我公司对因操作不当或不按手册中规定的操作所产生的伤害不负任何责任。

2.本文档因产品版本升级或其他原因所发生的变更，恕不另行通知。

除非另有约定，本文档仅作为一个指南，所有陈述信息和建议不构成任何明确的保证联系信息:地址：北京市海淀区地锦路9号院15号楼电话：0086 10 52801688传真：0086 10 52801699目录一．产品介绍 (3)二．电池安装过程注意事项 (4)三．磷酸铁锂电池组规格参数表 (6)四．电池运输过程注意事项 (9)五．电池存储过程注意事项 (9)六．电池组附件 (9)附表：常见电缆载流量对照表 (10)安全说明对设备进行任何操作前请阅读安全须知。

本手册中所提及的安全预防措施并不代表所应遵守的所有安全事项，只作为所有安全注意事项的补充。

在安装、操作、维护设备时，应遵守当地安全法规和规范。

只有经过培训的专业人员才能安装、操作和维护设备，联动公司不承担任何因违反通用安全操作要求或违反设计、生产和使用设备安全标准而造成损失的责任。

安装维护人员必须具备高压和交流电源操作技术能力。

在安装、操作、维护设备时，不得穿戴任何导电物体，如手表、手链、手镯和戒指等，并防止水分进入设备。

高压危险：高压电源为设备的运行提供电力，直接接触或通过潮湿物体间接接触高压电源，会带来致命危险。

使用专用工具工作在高电压和交流电源时，一定要使用专用工具代替个人工具。

Security Instruction (01)Chapter One Product Introduction1. Product Characteristics (02)2. Main Applications (03)3. Battery Structure (03)4. Type and Dimensions (04)5. Working Principle (05)Chapter Two Technical Characteristics1. Discharge Curve (06)2. Charge Curve (08)3. Internal Resistance and Short Circuit Current (10)Chapter Three Operation and maintenance1. Parameters (11)2. Factors Influencing capacity (11)3. Charge (13)4. Storage (13)5. Maintenance (14)S e c u r i t y I n s t r u c t i o nSecurity InstructionPlease read these instructions carefully in order to make correct, safe, and effective operation. This manual provides you with very important installation and operation guidelines, which will guarantee 01your equipment an optimal performance and longer service life.For your safety,please do not open battery by yourself, only professionals shall be allowed to open and maintain the battery;Due to battery be potential harmful to the environment and health,battery shall be replaced by manufacturer ’s service center.If there is need to replace and maintain,please contact after-sale service center.Used battery is recyclable, and improper disposal of battery may be great harmful to the environment and health.So,used battery shall be proper disposed following relative regulations and law or shall be returned to our company for disposal.Please choose the batteries of the same model for replacement, and batteries produced by different manufacturers shall be strictly forbidden for connecting in one system.NoticesP r o d u c t I n t r o d u c t i o nChapter One Product IntroductionProduct Characteristics02Basic CharacteristicsAGM valve regulated technology, high-tin-low-calcium multielement special alloy, poor electrolyte design, negative adsorptive theory, restrain hydrogen separate out effectively, reduce the electrolyte loss during usage, there is no need to add electrolyte among battery service life.Reliable sealing technologyPatent multi-layer electrode pole sealing structure ensure sealing safety and relialbility, exceptupside down, any other installation orientation is allowed.Long service lifePatent grid structure design preventing grid prolongation, special 4BS lead paste technology and tight assembly and container formation technology prolong battery service life.Low self-discharge rateHigh purity raw material, clean production environment, ensure low self-discharge rate of battery.Good consistencyDuring plate production,cell assembling and finished products test,one homogenizationprocedure added in each process,thus ensure battery quality consistency.Applicable for wide temperature rangeSpecial electrolyte formula and special active substance formula,enhence good high and low temperature performance.P r o d u c t I n t r o d u c t i o nMain ApplicationsUPS/EPS03Telecommunication and power supply equipmentSecurity system Alarm system Medical treatment Electrical tool Portable instrument Signal lightSolar and wind energy storageBattery Str uctureType and DimensionsCustomed series2 24 2 4 42 2P r o d u c t I n t r o d u c t i o nW orking Principle05DischargePbO2 +2H2SO4 + Pb PbSO4 + 2H2O + PbSO4ChargeIn the final stage of charge process, active substance in positive plate transformed to leaddioxide,negative plate has not reached fully charged stage,the process of active substance innegative plate transformed to spongy lead has not finished, oxygen gas generated in positiveplate reaches the negative plate through separator pores and reacts active substance in negativeplate,resulting depolarized state in negative plate, and restraining the generation of hydrogen.The reaction in positive plate (oxygen generated)1 O +4H++4eMove to the surface of negative plate through the separatorThe reaction in negative plate (oxygen absorbed)2 2Pb+O23 2PbO+2H2SO4 4+2H2O (PbO reacts with electrolyte)4 2PbSO +4H++4e Pb+2H SO (PbSO reduction)The whole reaction in the negative plate is: 2 + 3 + 4: O +4H++4e=2H OThe final production returns to 1 , and recycles like this.In general, in charging process oxygen gas generated in positive plate could quickly reach thenegative plate and recombine into water through react with active substance in negative plate,no gas escape and water loss, achieving the sealing.T e c h n i c a l C h a r a c t e r i s t i c sChapter Two Technical CharacteristicsDischarge Curve06All series common curvesFigure 2-1 Discharge capacity and temperature curveFigure 2-2 Discharge capacity and storage time curveT e c h n i c a l C h a r a c t e r i s t i c sAll series characteristic curvesFigure 2-3 Discharge characteristic curve under different discharge rates(25 ℃)073CFigure 2-4 Cycle times and depth of discharge curveT e c h n i c a l C h a r a c t e r i s t i c sCharge Curve08Figure 2-5Charge characteristic curvepeace)ChargeFigure 2-6 Floating charge service life characteristic curve---below 24Ah batteriesV/cellT e c h n i c a l C h a r a c t e r i s t i c sFigure 2-7 Floating charge service life characteristic curve---24Ah and above batteries09V/cellT e c h n i c a l C h a r a c t e r i s t i c s10Internal Resistance and Short Circuit CurrentThe internal resistance is dynamic nolinear parameter, it continuously varies with the temperature,charge state and service duration. The internal resistance is the lowest when the battery is fullycharged.Below tables present the internal resistance and short circuit current of the battery which the internal resistance is measured by HIOKI 3551 BATTERY HITESTER resistance tester at an ambient temperature of 25 5℃ , in the fully charged state.)O p e r a t i o n a n d m a i n t e n a n c eChapter Three Operation and maintenanceParameters11Ambient temperature is -15℃~45℃ and the optimal operation temperature is 25℃±5℃.Ambient humidity less than RH92%Altitude less than 4500m,if operation altitude more than 4500m,please make special reminder whenconfirm order.Factors Influencing capacityQuantity of electricity battery discharge under certain condition is called battery capacity,symbol is C ,normal unit is Ampere Hour,in short is Ah.Battery capactiy contains rated capacity and actual capactiy,for rated capacity please refer to Table1-1.Actual capacity is real quantity of electricity battery discharge under certain condition,it is equalto discharge current multiply discharge time.High temperature will speed up battery grid corrosion and water loss, thus greatly shorten the battery life, when the temperature is over 25℃, the service life of the battery will be shortened by half as the temperature increasing by 10℃. The optimal operation temperature is 25℃±5℃, charge voltage shoud be adjusted according to ambient temperature.O p e r a t i o n a n d m a i n t e n a n c eFigure 3-1 Service life and temperature curve---SP seriesFigure 3-2 Service life and temperature curve---SSP series12O p e r a t i o n a n d m a i n t e n a n c eChargeFloating charge13Charge method: 2.27V / cell with limited current of 0.3 C 20 (A).Charge voltage should be adjusted according to ambient temperature,temperature compensationcoefficient is -3mV / cell / ℃.Floating charge voltage at different ambient temperature, as below tableCycle applicationCharge method: 2.45V / cell with limited current of 0.25 C 20 (A).Charge voltage should be adjusted according to ambient temperature,temperature compensation coefficient is -4mV / cell / ℃.Setting charge capacity as 105-110% of discharge capacity, when the constant charge current keep as same value for 3hrs, charge end.St orageThe battery should be fully charged before storage, and then be stored in clean, ventilate and dry environment without corrosive gas or explosive gas nearby.Supplementary charge is required in storage period, the method as follows.O p e r a t i o n a n d m a i n t e n a n c e14MaintenanceTo ensure the performance of battery, the battery should be correctly inspected and maintained. Themaintenance methods are recommended as follows.Monthly MaintenanceMeasure and record the ambient temperature of the battery-room,battery container and electrode pole temperature.Check battery cleanliness,terminal damage track and temperature,container and lid damage and temperature.Measure and record the total voltage and floating current of the battery system.Quarterly MaintenanceRepeat every item of monthly inspection.Measure and record the floating voltage of each on-line battery.Annually MaintenanceRepeat every item of quarterly maintenance and inspection. Check whether connectors are loose or not.O p e r a t i o n a n d m a i n t e n a n c eCheck whether safety valve is twisted tightly or notPerform a discharge test to check the exact load every year, discharge 30%-40% of the rated capacity. 15Three yearly maintenanceAfter three years operation,battery capacity should be tested,if battery bank actual capacity is below 80% of rated capacity,battery bank is considered life over.No.1,Shengyang Road,Qufu City,Shandong Province,273100,P.R.ChinaT el:0086-537-4438666-6028Fax:0086-537-4411936E-mail:******************。

LinkData锂电UPS用户手册北京联动天翼科技有限公司Beijing LinkData Technologies Co.,Ltd.1目录目录......................................................................................1 1.产品外观...........................................................................2 1.1 LD-100S 外观..............................................................2 1.2 LD-200S 外观..............................................................3 1.3 LD-1000S 外观............................................................4 1.4 LD-200S-D 外观..........................................................5 1.5 LD-1000S-D 外观........................................................6 2.产品规格...........................................................................7 2.1 性能参数........................................................................7 2.2 配套组件........................................................................8 2.3 功能介绍......................................................................10 3.安装指南.........................................................................13 4.使用及维护注意事项.......................................................15 4.1 使用注意事项..............................................................15 4.2 故障诊断指南..............................................................16 4.3 储存与运输 (16)21.产品外观1.1 LD-100S 外观1.1.1 LD-100S 前视图POWER ：UPS 开关 RUN ：运行指示灯 INV ：逆变指示灯 PWL ：告警指示灯RJ45：网口/串口监控接口 DB9：干接点/串口监控接口1.1.2 LD-100S 后视图AC IN PUT ：输入接口 OUT PUT （左）：输出接口（国标） OUT PUT （右）：输出接口（美标） ：接地端子1.2 LD-200S外观1.2.1 LD-200S前视图POWER：UPS开关RUN：运行指示灯INV：逆变指示灯PWL：告警指示灯RJ45：网口/串口监控接口DB9：干接点/串口监控接口1.2.2 LD-200S后视图AC INPUT：输入接口OUT PUT：输出接口：接地端子341.3 LD-1000S 外观z 1U 形态（外接BPS电池组）z 2U 形态（内置48V10Ah电池）z 3U 形态（内置48V20/30/40Ah电池）POWER ：UPS 开关 RUN ：运行指示灯 INV ：逆变指示灯 ALM ：告警指示灯MONI ：干接点监控接口ANT ：内置短信数传模块天线接口RS232/ETH ：串口/网口监控接口MUTE/BUZZ ：蜂鸣器开关 AC OUT ：输出接口 AC IN ：输入接口 BATTERY ：外置电池端子（1U 形态）51.4 LD-200S-D 外观1.4.1 LD-200S-D 前视图AC100~240V ：输入接口 V out ：整流模块输出指示灯 ON/OFF ：整流模块开关 ALM （整流）：整流模块故障指示灯 RUN ：通信模块运行指示灯 RS232：DB9监控接口 ALM （通信）：通信模块告警指示灯 BAT ：电池接口 LOAD ：输出接口1.4.2 LD-200S-D 侧视图：接地端子61.5 LD-1000S-D 外观AC INPUT ：输入接口 RUN （整流）：整流模块运行指示灯 ALARM ：整流模块保护指示灯 FAULT ：整流模块故障指示灯 COM ：DB50监控接口 RS232/RS485：RJ45接口 RUN （通信）：通信监控模块运行指示灯 ALM ：通信监控模块告警指示灯 FU-BT 20A ：电池输入保险 FU-1 10A ：I 路输出保险 FU-2 20A ：II 路输出保险 BATT-20A ：电池接口LOAD1 10A ：I 路输出接口 LOAD2 20A ：II 路输出接口72.产品规格2.1性能参数2.1.1 交流UPS 性能参数产品型号 LD-100S LD-200S LD-1000S 系统容量 150VA 300VA 1000VA 系统效率 ≥83% ≥83% ≥88% 静态功耗 <5w<8w <20w电压 220V±20％ 输入频率 50Hz＋4％电压220V±20％（跟随市电） 220V±5V（电池供电） 频率 50Hz±4%（市电供电） 50Hz±0.5Hz（电池供电）转换时间 ≤10毫秒 输出功率因数≥0.7 默认容量120Wh 240Wh/480Wh内置最大1920Wh 或外接BPS 循环寿命 ＞1000次 电池工作温度 -20°C～60°C净重(Kg)4.610.4 主机：7.2 尺寸(mm)W×D×H360×240×1U420×360×2U 440×360×1U/2U/3U输入插座IEC ×1外观尺寸 输出插座 国标×1, 美标×1国标×3 保护功能过载保护，短路保护，过压保护，欠压保护 操作环境 -20℃～60℃，最高海拔2000米，相对湿度≤95％（40℃±2℃）使用环境运作噪音 <55dB(A)通讯接口RS232/干接点/IP 接口/SMS 短信82.2.2 直流UPS 性能参数型号 LD-200S-D LD-1000S-D额定电压 220V AC 输入电压范围90～264V AC频率 50Hz±2.5Hz 输入输入功率因数≥0.99电压 ﹣48V DC电流 5A （可配置双模块）15A （可配置双模块）输出 系统效率 ≥85% 容量 选配电池循环寿命 ＞1000次 尺寸（mm）W×D×H 440 x 240 x 1U 440x 250 x 1U输入插座 IEC ×1主机外观尺寸 输出插座 D 型2PIN 接口×2 D 型4PIN 接口×2保护功能输出过、欠压保护，过载保护，短路保护，均衡功能，过温保护工作温度-20℃～60℃，最高海拔2000m ，相对湿度≤95%(40℃±2℃) 使用环境运作噪音 ≤55dB（A） 通讯接口 RS232串口/干接点/IP 接口/SMS 短信2.2 配套组件2.2.1 交流UPS 主机配套组件配件名称规格 数量电池箱红黑连线 2.5mm ²×40cm （红）2.5mm ²×40cm （黑）1对（LD-1000S ）0.75mm ²×1.8m1根（LD-100S 、LD-200S ）UPS 输入线 1.5mm ²×1.8m 1根（LD-1000S ）锂电监控线 选配 1根 接地线 1.5mm ²×50cm （黄绿）1根 UPS 主机配套螺丝M3×8;M6×4 1包 UPS 主机配套挂耳L 型(1/2/3U) 1对92.2.2 直流UPS 主机配套组件配件名称 规格 数量 UPS 输入线 1.5mm ²×1.8m 1根UPS 输出线 蓝黑D 型2PIN 线（LD-200S-D ）蓝黑D 型4PIN 线（LD-1000S-D ） 1根UPS 电池连线 红黑D 型2PIN 线（LD-200S-D ）红黑D 型4PIN 线（LD-1000S-D ）1根UPS 主机配套螺丝M3×8;M6×4 1包 UPS 主机配套挂耳L 型(1U) 1对2.2.3 配套铁锂电池规格电池容量 电池重量（kg ） 电池体积（mm ）W ×D ×H48V10Ah 6 440×270×44(1U) 48V20Ah 12 440×270×88(2U) 48V30Ah 17 440×360×88(2U) 48V40Ah 23 440×360×88(2U) 48V50Ah 28 440×360×132(3U) 48V100Ah54440×360×264(6U)2.2.4 电池箱配套组件配件名称 规格数量电池箱配套螺丝 M4×12;M6×4 1包电池箱配套挂耳L 型(1/2/3U) 1对2.3 功能介绍2.3.1 启动UPSz交流型UPS长按主机前面板左侧开关键（Power）5秒以上，待运行灯（RUN）长亮（绿色）；z交流型UPS市电输入时自启动。

ICS29.200 M41YD通信用磷酸铁锂电池组 第1局部：集成式电池组LiFePO 4 battery system for telemunications part1：integrated battery system〔报批稿〕中华人民##国工业和信息化部 发布目次前言II1 X围12 规X性引用文件13术语和定义14产品分类和系列25 要求26 试验方法77 检验规那么128 标志、包装、运输和储存14附录A〔资料性附录〕电池组充电方式15 附录B〔资料性附录〕电池内阻参考值17前言《通信用磷酸铁锂电池组》分为两个局部：——第1局部：集成式电池组；——第2局部：分立式电池组。

本局部为第1局部：集成式电池组。

本局部按照GB/T 1.1-2009给出的规那么起草。

本局部的附录A、附录B是资料性附录。

本局部由中国通信标准化协会提出并归口。

本局部起草单位：工业和信息化部电信研究院、中讯邮电咨询####、中国电信集团公司、##南都电源动力股份##、艾默生网络能源##、##双登集团##、##银泰科技电源股份##、##圣阳电源股份##、中兴通讯股份##、中国普天信息产业股份##、##高特电子设备##、中国联合网络通信##、中国移动通信集团公司、##市比亚迪锂电池##、动力源科技股份##、##光宇集团股份##、中达电通股份##。

本局部主要起草人：吴京文、董雯、侯福平、郭峰、陈怀林、余霞、曲大伟、孔德龙、田剑峰、X金玉、徐剑虹、陈燕昌、X瑜、X亦珩、王海涛、X永清、X春涛、蔡雪峰。

本局部为首次发布。

通信用磷酸铁锂电池组第1局部：集成式电池组1X围本局部规定了通信用磷酸铁锂电池组的定义、要求、试验方法、检验规那么与标志、包装、运输和储存。

本局部适用于电池模块与电池管理系统集成为一体的通信用磷酸铁锂电池组〔以下简称电池组〕。

2规X性引用文件以下文件对本文件的应用是必不可少的。

但凡注日期的引用文件，仅注日期的版本适用于本文件。