威胜DTSDDSSDD表英文说明书.doc

威胜DTSDDSSDD表英文说明书正式版 USER MANUAL DSSD331/DTSD341-9D THREE PHASE ELECTRONIC MULTIFUNCTION ENERGY METER Content 1.Overview6 6 1.2.Working Theory6 1.3.Nameplate Description6 1.4.Technical Parameter6 1.4.1.Basic Technical Parameter6 1.4.2.Calendar Clock7 1.4.3.Power Impulse7 1.4.4.Other Parameter7 2.Glossary8 2.1.Demand interval8 2.2.Maximum demand8 2.3.Sliding window time8 2.4.Peak on, Peak, Peak off, Valley, Low Valley, Lowest Valley time zone8 2.5.Harmonic voltage(voltage Distortion)8 2.6.Harmonic current(current Distortion)8 2.7.Total Voltage Harmonic Distortion(THDU)8 2.8.Total Current harmonic Distortion（THDi）8 3.Function Introduction8 3.1.TOU energy measurement (six tariffs, 4 quadrants)8 3.2.Measure current, voltage, frequency and power9 3.3.Calculate M.D9 3.4.Harmonic analyze9 3.5.The record of 12 months account data9 3.6.The record of load curve9 3.7.Main and Subsidiary Tariff Setting10 3.8.The record of event10 10 3.8.2.Loss Phase10 3.8.3Loss voltage10 3.8.4.No load10 3.8.5.Loss current10 3.8.6.Exceed Voltage limit11 3.8.7.Unbalance voltage11 11 3.8.9.Exceed demand11 11 3.8.10.1.Power on11 11 3.8.10.3Clear demand11 3.8.10.4.Clear zero11 3.8.10.5Calibrate date11 3.8.10.6Voltage Qualification Rate11 3.8.10.7xceed limit of voltage Distortion11 3.8.10.8.Three Phase Failure Record11 3.8.10.9.Current Reverse Indicator11 3.8.11.The record of electronic energy quality11 3.8.11.1.The unbalance rate of current11 3.8.11.2.The event of high-neutrality current12 3.8.12The event of assistant12 3.8.12.1The lower limit of voltage12 3.8.12.2.The exceed limit of current12 3.8.12.3.Open cover events12 3.9.Freezing Energy12 3.10.Impulse output and accuracy check12 3.11.Other signal output12 3.12.Double RS-485 communication and optical communication12 3.13.Reading meter when PT shut down12 12 4.LCD Description13 4.1.LCD display face13 4.2.Description of main display screen.13 4.3.Dendrite menu (refers to appendix 1)13 4.4.Description of menu, display screen and the mark.13 4.4.1.Main menu13 4.4.2.Submenu of real time data13 4.4.3.Submenu of real time data15 4.4.4.Submenu of meter status word17 4.4.5.Submenu of history data19 4.4.6.Submenu of three phase total energy19 4.4.7.4.4.3.2 Submenu of M.D. and the time19 . Submenu of query parameter.20 4.4.9.Other menu20 4.5.Alarm information definition20 5.Installation and connection20 5.1.installation dimension and usage20 5.2.main terminal connect20 5.3.Auxiliary terminal connect21 6.Operation introduction22 6.1.The operation of button (key)22 6.2.RUN, EVENT and power impulse output23 6.3.parameter setting, clear zero, M.D resetting23 6.4.Change battery23 6.5.leading sealing23 7.Notice23 7.1.Notice in using time23 7.2.Transportation and Storage23 23 8.Maintance23 8.1.Free of charge23 8.2.Free of Duty, on this condition, the service may take cost.23 Appendix 1: DSSD331/DTSD341-9D meter structure24 Remark: if you know more about display content, you can see 4. LCD display user manual.25 Appendix 2: The manual of display code(Display ID code)25 Remark: if you know more about display content, you can see 4. LCD display user manual.26 1. Overview 1.1. Standard DL/T 614-1997 《Multifunction Energy Meter》 GB/T 17883-1999《Class 0.2S and 0.5S Static AC Active Energy Meter》 GB/T 17882-1999《Class 2 and 3 Static AC Reactive Energy meter》 DL/T 645-1997 《Multifunction Energy Communication Protocol》 GB/T 15543-1995《Power Quality Unblance Rate of Three Phase Voltage》 1.2. Working Theory DSSD331/DTSD341-9D type 0.2s class energy meter use slap-up meter design project: DSP+ management MCU, include DSP and MCU. The working theory is as follow: the 16 bits A/D converter and DSP sample the current and voltage and making relative calculation. The DSP finish the parameter measurement, energy consumption, and harmonicanalysis, harmonic energy calculation. All the calculation will be send to MCU through the high speed communication channel, and the MCU will manage the display, data analysis, storage, communication, other function and parameter, the working theory is show in diagram 1. Diagram 1 DSSD331/DTSD341 –9DWorking Theory 1.3. Nameplate Description Infrared Port Running LED Event LED LCD Optic Port Impulse Output Esc Enter Down Data Backup Card/ (under cover) Meter No. Seal Seal Diagram 2 DSSD331/ DTSD341 –9 D Nameplate Descriptions 1.4. Technical Parameter 1.4.1. Basic Technical Parameter Item technology parameter reference voltage 3×57.7V/100V （three phase four wire） 3×63.5V/110V （three phase four wire） 3×100V （three phase three wire） Reference current 0.3(1.2)A,1.5(6)A, 1(2)A,1(6)A Scope frequency 50（1±5％）Hz (default) Variety range of voltage and error PT: Un±30% Un, Warp≤0.5% Auxiliary: 15~130v,warp≤0.5% Variety range of current and error 0.1A~6A,better than 0.5% Accuracy class Total active:0.2s; reactive: 1s fundamental wave active: 0.5s Work temperature -20℃～55℃ Utmost work temperature -35℃～65℃ relative humidity ≤95% pickup current Active: 1‰Ib；Reactive: 2‰Ib； Power consumption ＜2W，10VA MTBF ≥6×104 h 1.4.2. Calendar Clock Clock error 0.5 s/d Clock frequency 0.1Hz Inner battery life * ≥10 year Note’*’: The built-in Battery is for power supply of built-in clock 1.4.3. Power Impulse n Meter Constant Meter Type Un(V) In(A) (imp/kWh) (imp/kvarh) 3P3W 3×100 3×1(6) 25000 25000 3×100 3×5(10) 5000 5000 3P4W 3×57.7/100 3×0.3(1.2) 100000 100000 3×1 (6) 25000 25000 3×5(10) 5000 5000 3×220/380 3×1.5(6) 2000 2000 n Impulse Parameter Impulse output wide (80±10)ms Max. Working Current 15mA（DC） Work voltage 5V～24V（DC） 1.4.4. Other Parameter Data memory 1: main data memory: each tariff energy, demand data, set parameter, multi-tariff data, check meter parameter, Memory: 32k byte 2: Load curve memory: be record data about load curve; Memory: 4M bytes Supply type 1: PT supply: voltage scope: 0.8Un～1.2Un 2: Auxiliary supply: voltage scope: 220(1±10%)V AC 3: PT and Auxiliary be auto switched Dimension L*W*H 285mm×172mm×80mm Net weight About 1.9kg 2. Glossary 2.1. Demand interval Be measured time interval that is consecutive-equal for average power. 2.2. Maximum demand Maximum value for demand in a special period 2.3. Sliding window time Be measured time interval for M.D by recurrence, the time interval is less than demand interval 2.4. Peak on, Peak, Peak off, Valley, LowValley, LowestValley time zone Peak on: The Period of Maximum Load in a day Peak: The Period of High Loda in a day Peak off: The Period of average load in a day Valley: The Period of Small Load in a day LowValley: The Period of Smaller Load in a day Lowest Valley: The period of Minimum Load in a day 2.5. Harmonic voltage(voltage Distortion) UH: Harmonic Voltage n: Harmonic times Uh: the h times harmonic voltage 2.6. Harmonic current(current Distortion) IH: Harmonic Current n:Harmonic times Ih: the h times harmonic current 2.7. Total Voltage Harmonic Distortion(THDU) UH: Harmonic voltage U1:Fundamental wave voltage 2.8. Total Current harmonic Distortion（THDi） IH= Harmonic current I1= Fundamental wave current 3. Function Introduction 3.1. TOU energy measurement (six tariffs, 4 quadrants) Measure total and the energy by 6 tariffs for import/export kWh, kvarh as well as the kvarh of 4 quadrants, the defination of 4 quadrants is described in diagram 3. Diagram 3: Defination of 4 Quadrants There are two types of reactive measurement mode as following: 1) Import Reactive= Ⅰ Quadrant + Ⅱ Quadrant Export Reactive= Ⅲ Quadrant + Ⅳ Quadrant 2) Import Reactive= Ⅰ Quadrant + ⅣQuadrant Export Reactive= Ⅲ Quadrant + Ⅱ Quadrant These two types of measurement mode can be programed before usage. The accuracy calss for reactive measurement is 0.2S and calss 1.0 for reactive, the reactive accuracy is inspected by follow the standard 《Class 1 and 2 Static AC Active Energy Meter 》 Year section (Maximum 14 times): The one year can be devided into several time section which can be applied with different schedule (Maximum 12 times) of day switch times (Maximum 14 times), the tariff for each day switch can be programmed but the maximum number is 6 tariffs. There are special time in a year which can be programmed like the weekend and holiday, customer may set special day switch schedule for these days. Current tariff can be displayed and reviewed on the left buttom of LCD. 3.2. Measure current, voltage, frequency and power Meter can measure voltage & current of each phase and each element, measure total and reach pahse & element kW, kvar, power factor and frequency. The voltage between the virtual center and line for a 3 phase 3 wire meter can be calculated. The distinguish ability for voltage 0.01V, for current is 0.001A, for kW and kvar is 0.0001, for frequency is 0.001Hz. The power direction can be indicated by displying the symble “P”, “+”, “-”, “Q” and “1~4”. 3.3. Calculate M.D Meter can measure total M.D. of import/export kW & kvar, 4 quadrant kvar with time, and the M.D. can be measured by each tariffs also. The demand interval is programable from 5, 10, 15, 30 and 60 minutes, sliding time is programable from 1, 2, 3 and 5 minutes. 3.4. Harmonic analyze DSP convert the voltage and current signal by FFT in 256 points, then the value, phase of 2~39 times harmonic voltage and current can be calculated out, the accuracy for harmonic value is 2% (for 2~21 times harmonic), the phase accuracy is +1~2 degree. All harmonic information can be displayed on LCD, and the harmonic data storage can be read out through communication port. There are 6 kinds of harmonic date will be stored like: n times harmonic voltage, orginal phase and the harmonic value, n times harmonic current, orginal phase and the harmonic value, total aberrance rate of harmonic voltage, total aberrance rate of harmonic current. The harmonic value can be display on LCD in histogram format. 3.5. The record of 12 months account data Meter can record total and TOU kWh, kvarh, M.D. and M.D time of current month and last 1th to 12th month. The billing time is clock 00:00 from the frist day for each month, and this billing date can be programmed. 3.6. The record of load curve The record mode of load curve can be set through any communication port on meter, there are 8 kinds of data can be record, user may use this date to draw curve for analyse. Definition of 8 kinds of load curve Table 1: definition of load curve Data item Data content Memory（byte） 1 A,B,C phase voltage, current, frequency 20 2 A,B,C Phase total active, reactive power, power direction 26 3 A,B,C Phase total power factor 8 4 Import active, Import reactive, Export active, Export reactive 16 5 Total energy about 4 quadrant reactive 16 6 Current active demand, reactive demand 18 7 Total input/output fundamental wave energy, harmonic energy 16 8 Total harmonic voltage Uh of each phase, Total harmonic current Ih of each phase, Total Harmonic voltage Distortion THDu, Total harmonic current Distortion THDi 30 The memory size of load curve data storage is 4M bytes. The minimum record interval for these data is 1 minute. The data items to be record and the interval areprogrammable. Meter will start to record each data according to the setting from the pre-set ‘start time’ Calculate formula: T = T = the record of curve of load time length M = FLASH memory (-9D meter memory is 4M) L= Index table length (-9D meter memory is 16.5bytes) Li= Total bytes of the i class data Ti= the setting time interval of i class data 3.7. Main and Subsidiary Tariff Setting There are two tariff settings can be programmed in the meter, current active tariff is main tariff and the subsidiary tariff is backup tariff. The switch time for these two settings can be programmed. And there are different symbles on LCD to indicate the main and subsidiary tariff, ① for main and ② for subsidiary. When meter is running under season tariff, the two symbols will not displayed. 3.8. The record of event 3.8.1. Outage Meter can record last 10 times of outage time, starting time, times andaccumulative total outage time. 3.8.2. Loss Phase When the power is on at 3 phases 4 wires mode, if the voltage of 1 phase is lower than ug and the casting time is longer than tu, and the current of the phase is lower than 0.5%IB±0.05%IB,the phase is Power down; When the voltage of Loss-phase goes higher to ug and casting longer than td, the phase resumes. In 3P3W mode, if the total voltage of element A & C lower than 1.2 times of Un, B phase lose phase. If the voltage of element A&C ua－uc|≥u0, and casting longer than tu, and the current of the element lower than 0.5%Ib±0.05%Ib, A phase lose phase. When |ua－uc| is lower than u0, and the casting time longer than td, the phase resume. When loss phase is taking place, happening time, loss phase times and total time will be recorded. Event light will be turned on automatically. After loss phase, ending time will be recorded and alarm will be cancelled. ug: Limited Value for loss phase, can be set up(25V~Un，Un=57V or 100V), default 30V. tu: Loss phase casting time, can be set up(1 min~99 min), default 1 minute. td: Loss phase resume casting time, can be set up(1 min~99 min),default 1 minute. 3.8.3. Loss voltage If the voltage of a loss voltage is lower than 78％Un±2V, the current is higher than 0.5%Ib+0.05%Ib, and cast longer than te, this phase loss voltage. Loss voltage start/end time, meantime power and total time will be recorded, event light turn on. But, when 3P3W, if voltage of element A&C is lower than Uw, it is not loss voltage. When voltage of the phase resumes to 85%Un±2V, and cast longer than tf，timing stops, Loss voltage stops. The meter will record the ending time, meantime power and cancel the alarm. The meter has the function to record all loss voltage events from first time to 10th time, loss voltage times and total times. Besides, the meter recorded the active energy of import/export, metering from the communication port. Un：Limited value for loss voltage, can be set up(20V~Un，Un=57V or 100V)，default 57V; Uw：the up limit of voltage failure in three phase three wire system can be set to 20V~Un，Un=57V or 100V, the default setting is 57V； te Loss voltage casting time, can be set up(1 min~99 min),default 1 minute; tf Loss voltage resuming time, can be set up( 1 min~99 min), default 1 minute. 3.8.4. No load In 3P3W mode, when each current is lower than I0，either the voltage of A or C is lower than I0，it is unload. The Event light turn on, meter records start/end time and total time. I0: Limited value for unload, can be set up(20mA~99mA)，default 30mA. 3.8.5. Loss current When loading, if the current of a phase Is lower than Ig，and lower than 1/Riof the average of the voltage for another 2 phases, and cast longer