KSM-1003LM2T中文资料

Absolute maximum ratings 1)Symbol Conditions Unit I OUT MAX Maximum permanent output current A RMS I IN MAX Maximum permanent input current A DC V OUT MAX Maximum output voltage V AC V BUS MAX Maximum DC Bus voltage V DC F OUT MAX Inverter output frequency HzFSW MAXMaximum switching frequency kHzElectrical characteristics: application example T AMBIENT=40°C unless otherwise specifiedSymbol Conditions min typ max UnitAC phaseV BUS DC bus rated voltage 1 100V DCI OUT RATED Rated output current 1 000A RMSI OUT OVL Overload output current 1 100A RMSt OVL Overload duration60sT OVL Time between 2 overloads10minV OUT Output voltage620690760V ACP OUT Rated output power 1 200kW SEMISTACK® Renewable Energy - Size W2F SW Inverter switching frequency2kHz Two Quadrant 3-phase IGBT inverter F OUT Output frequency50HzPF Power factor-11-P LOSS INV 2)11 200Wη 2)99% Ordering No.08800565Description SKS B2 100 GD 69/11 - MA PB DC BusV BUS Rated DC voltage applied to the capacitor bank 1 100V DC Features V BUS MAX Max DC voltage applied to the caps bank (max 30% of LTE) 1 200V DCτd5%Discharge time of the capacitors (V DC < 60 V)5min Designed in regard to EN50178 C DC Capacitor bank capacity8,4mF and UL508C recommendations LTE Calculated LTE of the caps with forced air cooling100kh Designed for a 600 x 600 x 2000 mm cabinetEmbedded SKiiP® Technology 3Stack InsulationSKiiP 2013GB172-4DW, Trench 3 1700V IGBT,Crd Minimum creepage distance11mm CAL3 diode Cld Minimum clearance distance9.4mm Integrated current and temperature sensors Visol Chassis / power stage AC/DC (insulation test voltage DC, 5s)-4 200 4 200V DC Water cooling dv/dt SKiiP driver only, secondary to primary side75kV/µs Typical ApplicationsWind generators (SG and DFIG)Solar InvertersFootnotes1) Absolute maximum ratings are values not to beexceeded in any case and do not imply that the stackcan operate in all these conditions taken together.2) fan consumption and losses in air includedREMARKS7601005B6CISKiiP stackThis technical information specifies semiconductor devices butpromises no characteristics. No warranty or guarantee,expressed or implied is made regarding delivery, performanceor suitability.Values1 0001 200Losses at rated currentEfficiency at rated currentT INLET=45°C, 50% glycol,Flowrate = 16 L/minT J<150°C,ambient air temperature = 40°C,air extraction according tothermal data page 21 800Environmental conditions T AMBIENT =40°C unless otherwise specifiedCharacteristics Conditions min typ max UnitAmbient temperature3)Humidity Installation altitude without derating1 000m Max installation altitude with derating 4 000mIngress protection IEC 60529IP00-IEC 60721-3-2, Storage & transportation 2M1-IEC 60721-3-3, in operation 3M3-Pollution degree EN 501782-Thermal data SEMISTACK® Renewable Energy - Size W2∆V /∆t WATER Water flow of the 3-phase inverter81635L/min Two Quadrant 3-phase IGBT inverterWater pressureRated water pressure per inverter 3bar Coolant type Recommended coolant50% glycol / 50% water -Ordering No.08800565T INLETCooling water inlet temperature-204560°C Description SKS B2 100 GD 69/11 - MA PBRequired cooling airflow Airflow direction bottom to top on snubbers 3)1m.s -1V SUPPLY Fan DC voltage supply162430V DC FeaturesP FAN Fan power consumption at typical voltage supply 90W LTECapacitor DC fan lifetime expectancy (L10 method)57khDesigned in regard to EN50178and UL508C recommendationsGate Driver Characteristics T AMBIENT =25°C unless otherwise specifiedDesigned for a 600 x 600 x 2000 mm cabinet Symbol Conditions min typ max Unit Embedded SKiiP ® Technology 3Gate Driver / controler data SKiiP 2013GB172-4DW, Trench 3 1700V IGBT,V S supply voltage non stabilized 132430VCAL4 diodeI S V S2 = 24 V, F SW in kHz, I RMS in A 330 + 55×F sw + 0.00035×I RMS 2mA Integrated current and temperature sensors V iT+input threshold voltage HIGH 12.3V Water coolingV iT-input threshold voltage LOW4.6V R IN Input resistance 10k ΩTypical ApplicationsC IN Input capacitance1nFWind generators (SG and DFIG)Measurement & protection Solar InvertersHB_I Analogue current signal HB_I 245250255 A.V -1I TRIP SC Over current trip level (I analogue OUT=10V) 2 4502 5002 550A PEAK Footnotesmin 17 + 10.3×CMN_TMP°C CMN_TMPAnalogue temperature signal Th < 80°Ctyp19 + 10.5×CMN_TMP °C 3)the user shall ensure that the ambient air is sufficientlymax20 + 10.5×CMN_TMP °C ventilated to avoid hot spots.min 26 + 8.8×CMN_TMP°C CMN_TMP Analogue temperature signal Th > 80°C typ28 + 8.8×CMN_TMP °C max30 + 8.9×CMN_TMP °C T TRIPOver temperature protection110115120°CREMARKSB6CI∆P WATERWater pressure drop of the inverter, with male and female connectors, 50% glycol, 16 L/min Mass °C IEC 60721-3-3, class 3K3no condensation no icing 5Vibrations & ShocksSKiiP stackClimaticMechanical This technical information specifies semiconductor devices butpromises no characteristics. No warranty or guarantee,expressed or implied is made regarding delivery, performance or suitability.Storage: IEC 60721-3-1, class 1K2Transportation: IEC 60721-3-2, class 2K2Operation: IEC 60721-3-3, class 3K3 extended-2560°C 85%3-phase inverter, with cable plate terminal and no DC bus connection-2055580mbar kg98Pin Signal Remark1Shield2BOT IN (2)3ERROR OUT LOW = NO ERROR; open Collector Output;(1)max. 30 V / 15 mAdon´t connect when using fiber optic,propagation delay 1 µsmin. pulsewidth error-memory-reset 9 µs 4TOP IN (2)positive 15V CMOS logic; 10 k Ω impedance don´t connect when using fiber optic5Overtemp. OUT LOW = NO ERROR = ϑDCB < 115 + 5°C (1)open collector Output; max. 30 V / 15 mA …low“ output voltage < 0,6 V …high“ output voltage max. 30 V6+ 24 VDC IN 24 VDC (SKiiP 2: 20 - 30 V, SKiiP 3: 13 - 30 V)7+ 24 VDC IN don´t supply with 24V, when using +15 VDCIN supply voltage monitoring threshold 19,5 V 8+15 V DC OUT max. 50 mA auxiliary power supply when 9+15 V DC OUT SKiiP system is supplied via pin 6/710GND GND for power supply and 11GNDGND for digital signals 12Temp. analogmax output current 5mAOUT 13GND aux reference for analog output signals 14I analog OUTSKiiP 3 with Al2O3 ceramic substratecurrent actual value 8,0 V ⇔ 100 % IC @ 25 °C overcurrent trip level 10 V ⇔ 125 % IC @ 25 °C current value > 0 ⇔ SKiiP system is source current value < 0 ⇔ SKiiP system is sink SKiiP 3 with AlN ceramic substrate:refer to corresponding datasheet1) Open collector output, external pull up resistor necessary2) …high“ (max) 12,3 V, …low“ (min) 4,6 V; SKiiP 3: 1 nF capacitance added signal to GNDX1U, X1V, X1W positive 15V CMOS logic; 10 k Ω impedance, don´t connect when using fiber opticX1U X1V X1WDC-DC-DC+Pin 1Pin 13Pin 2Pin 14HE10-14 male connectorDC BUS connectionDriver connectorsPhase UPhase VPhase W14DC fan speed controlThis technical information specifies semiconductor devices but promises no characteristics. No warranty or guarantee00,0020,0040,0060,0080,010,0120,0140,0160,01805101520253035R t h (°C /W )Flowrate (L/min)Stack Rth 50% glycol (°C/W)Stack Rth 10% glycol (°C/W)020040060080010001200303540455055O u t p u t c u r r e n t (A R M S )Ambient air temperature (°C)Cooling liquid 45°C Cooling liquid 60°CV BUS = 1100 V DC V OUT =690 V AC f OUT = 50 Hz f SW = 2 kHz cos ϕ= 1Flowrate = 16 L/minGlycol/water ratio = 50%Altitude <1000 m200400600800100012005001000150020002500300035004000O u t p u t c u r r e n t (A R M S )Altitude (m)Cooling liquid 45°C, ambient 40°CCooling liquid 60°C, ambient 55°CV BUS = 1100 V DC V OUT =690 V AC f OUT = 50 Hz f SW = 2 kHz cos ϕ= 1Flowrate = 16 L/minGlycol/water ratio = 50%050010001500200025003000200400600800100012001400M a x c u r r e n t s w i t c h e d (A )DC bus voltage (V DC )050010001500200025003000510152025303540P r e s s u r e d r o p (m b a r )Flowrate (L/min)Pressure drop with 50%glycol (mbar)Pressure drop without glycol (mbar)02004006008001000120051015A C O u t p u t C u r r e n t (A R M S )AC Fundamental Frequency (Hz)V BUS = 1100 V DC V OUT =690 V AC f SW = 2 kHz cos ϕ= 1Water temperature = 45°C 50% glycolFlowrate = 16 L/min Air temperature = 40°C T J = 125°C。

KrellClone KSA100 MkII BOM [Mainboard components only]P Watts 12/2006 Qty ValuePart Number Pin Spacing Comments 2 1N914 D3, D4 12.5mm 2 1N5309 D5, D6 12.5mm Alt: J509 2 1N4754A ZD1, ZD2 12.5mm 0.5W 2 BC546 / 2SC2240 Q1, Q2 TO-92 2 BC556 / 2SA970 Q3, Q4 TO-92 2ZVN2110A / ZVN3310 Q5A, Q6A TO-92 Choose either of A, B or C sets 2ZVP2110A / ZVP3310 Q7A, Q8A TO-92 2 IRFD110 Q5B, Q6B HD-1 Can be used in DIP-4 sockets 2 IRFD9110 Q7B, Q8B HD-1 2 ZVN2110G Q5C, Q6C SOT-223 SMD package 2 ZVP2110G Q7C, Q8C SOT-223 SMD package 1 MJE15030 Q13 TO-220 or MJE15032/15034 4 MJE15034 Q10, Q12, Q14, Q16 TO-220 4 MJE15035 Q9, Q11, Q15, Q17 TO-220 2 47R5 R30, R35 15mm 0.25W 4 75R R38, R39, R40, R41 15mm 0.25W 4 150R R3, R4, R5, R6 15mm 0.25W 1 825R R16 15mm 0.25W 131k R1, R11, R12, R22, R23, R24, R25, R26, R27, R28, R29, R31, R33 15mm 0.25W [R11, R12: 0.5W] 3 1k5 R32, R34, R36 15mm 0.25W 6 4k75 R7, R8, R9, R10, R20, R21 15mm 0.25W 1 7k5 R37 15mm 0.25W 2 12k1 R13, R14 15mm 0.5W 2 20k R15, R19 15mm 0.25W 3 47k5 R2, R17, R18 15mm 0.25W [R17, R18: 0.5W] 2 5k VR1, VR2 Bourns 0.1” inline/offset 1 680pF C1 5mm/7.5mm/10mm Polystyrene/Mica/MKP 2 62pF C5, C6 5mm/7.5mm/10mm Polystyrene/Mica 120pF Cx (parallel to R15) N/A Polystyrene/Mica, no pad on PCB provided 2 10uF C8, C9 2mm 16V (Panasonic FC) 2 1000uF C2, C3 5mm 16V (Elna / Panasonic FC) 2100nF C4, C7 5/7.5/10mm MKP, C7 can be 0.1uF-1uF (Wima/Rifa) 1 2-pin terminal J1 5mm Power input conn 1 3-pin terminal J2 5mmSignal & ground conn [OPTIONAL] 2 220uF CP1, CP2 5mm 63V (Panasonic FC) 81000uF CP3, CP4, CP5, CP6, CP7, CP8, CP9, CP10 7.5mm 63V (Panasonic FC) 4 1uF CP11, CP12, CP13, CP14 25mm Axial (Solen) MKP 4 100nF CP15, CP16, CP17, CP18 5/7.5/10mm 63V MKP (Wima/Rifa) 3 2-pin Jumper J3, J4, J5 2.5mm J3 short out C4 J4 & J5 separate the power rails; can be replaced by 10R-47R resistors for improved front-end filtering 2 10k SMT RLED1, RLED2 1206 2 LED SMT PWRLED1, PWRLED2 1206 / 1210Indicates power on V+/V- railsAdditional comments:•Most of the guidelines listed on the detailed KSA50 wiki apply to the KSA100 too.•The original VN021/VP021 MOSFET’s aren’t available anymore. Provision has been made for four different packages of suitable replacements as listed. TO-92 is the mostpopular case type, but the HD-1 package has the advantage of being compatible withDIP-4 sockets and thus easy to remove/replace. The SOT-223 package is SMD and not hard to solder, but once its tab has been soldered it will be difficult to remove withoutdamaging either it or the board. It has the best heatsinking ability though due to the large amount of plated vias placed underneath its PCB pads. It’s recommended to initially just solder the three pins and leave the tab for when everything’s working. Although it’sconnected to the drain, electrical contact isn’t required for proper operation.•ZD1&ZD2 should ideally be matched, since zeners have large tolerances. Match at the operating current level.•Q1-Q4 should ideally be matched, and at the correct bias current. The 2SA/2SC types specified are the same as in the original, but the BC ones will do just as well or perhaps even better. When using fast output transistors, slow types such as MPS/MPSA shouldbe avoided.•Q1-Q4 should be mounted back-to-back and preferably coupled with a layer of thermal grease and kept together with a piece of heatshrink as shroud. This will improve thermal tracking.•The transistor types used for Q13-Q17 will affect the bias and thus value of VR2, and should be kept in mind if experimenting with different gain types.•Q13-Q17 should be mounted on the same heatsink, on the area provided. Care must be taken that their collectors aren’t shorted out with proper isolation. The collective idlepower dissipation is around 12W.•Of the cascade transistors, only Q9&Q10 may benefit from a small heatsink. Its Q11&Q11 partners dissipate significantly less power.•The original output transistors used were MJ15003/15004. The newer MJ21194/21193’s are a drop-in replacement. More modern plastic transistors e.g. MJL32821/1302 arefaster, but requires more attention to wiring. Long wires running to the transistors canlead to instability.•Matching the output transistors at the intended bias level can prove beneficial but is generally not required. Matching D5 and D6 will not do any harm either.•Power can be applied to either the pads provided at the top such as on the original, or at the 3-pin connector J1 at the bottom.•J4&J5 connect the front-end power to the drivers’ and should be used or hardwired whena single power supply is used to power everything. If the CPx capacitors are installed,J4&J5 can be replaced with 0.5W resistors between 0R and 47R, with power applied to the driver side. This will form an RC filter to improve the front-end’s power quality.Increased resistance will improve filtering, but increase the front-end voltage drop.•If separate power supplies are used, J4&J5 should be open-circuit, with the front-end powered at J1 and the drivers by the open pad at the top.•J3 can be used to short out C4 and thus remove it and the 1000uF electrolytics from the signal path. This should be done with care as it will turn the amp into a fully DC-coupled design, especially if the preamp is DC-coupled too. A sensitive and fast-acting DC-sensing circuit or DC servo may be necessary and is highly recommended. Experiment with this jumper with caution.•Refer to the KSA50 wiki for proper grounding principles.•C8, C9 and all the CPx caps were absent on the original. Since they’re fairly cheap they are recommended though. Not all are needed; provision was merely made for flexibility. •Note that the CPx decoupling capacitors, particularly the large-value elctrolytics, are likely to introduce turn-on thump on the speakers. Although this is generally harmless, a delay or DC sensing circuit on the speaker outputs may be beneficial. If no CPx capacitors are used, there should be no/little turn-on thump due to the resistive current sources.•If a regulated supply is used for the front-end and-or drivers, the power-on sequence is important. The sequence should be output, driver, front-end, or thump is surely to result.Longer time constants may do the trick, but properly delayed sequencing isrecommended. This method will reduce/eliminate turn-on thump AND be friendlier to the amp itself compared to the DC sensing circuit, but the latter will provide steady-stateprotection as well. With ingenuity, these circuits can be combined and minimized.•The power diodes between output and the respective power rails are not necessary for operation and may be omitted in most cases. They provide limited protection for when the rails drop below the output amplitude.•On the Mk1, there was no protection circuitry. Soft-start was merely a thermister in series with the incoming AC Live. This provided limited inrush protection, especially if powered up when still warm, and dissipated some power itself. The Mk2 had a DC sensing circuit with a relay in series with the speaker outputs, as well as a resistor in series with the AC Live that is shorted out with a power relay a brief moment after powerup.•The original bias to provide 100W class-A into 8ohms is 5A; or 620mA per transistor if 4 pairs are used. Many people have reported that dropping the bias to 580mA or evenmuch lower has no effect on the sound, and reduces power dissipation and heatsinksize/fan speed. The speaker impedance will influence the optimal bias level, but generallyspeaking a speaker of 4ohms nominal or higher with little deviation and phase shift will be happy with <100W reduced bias. Reduced bias can even improve quality as it reduces strain on the transformers and supply capacitors, and subsequently reduce ripple inparticular on smaller supplies.•If forced-cooling are used, AC fans are highly recommended. Even with separate supplies and regulation, DC fans are likely to inject motor noise. PWM DC control over fan speed is even worse.•Krell used Dale resistors throughout; 0.5W for all the ones depicted here, 5W for the emitter resistors, snubber and earth/ground separation.•The earth/ground separation was merely a 10R resistor running from each channel’s ground connection at the PSU caps’ bus bar to the chassis, which was in turn connected to earth (safety) ground.•The snubber (zobel) RC filter on the output should be placed as close to the output as possible, preferably on the speaker terminals itself. The values used on the original were 100nF and 5R6. A film cap with 100V+ rating should be used along with a non-inductive resistor.•C1 was an ERO MKP. It should be noted that Krell used ERO MKP’s throughout almost all their products including the very recent designs. Rather mid-level cap.•C4 & C7 were axial Roederstein film types.•C5, C6 and Cx were silvered mica types.•Cx has no provision on the board, but is recommended. It wasn’t included on the schematic itself, but is present on the actual Mk2 boards. It will improve stability fordriving reactive loads.•The electrolytics’ pad sizes provided for were based on those from the Panasonic FC series, but most other brands of the same value will have compatible packages.•C2 & C3 were Roederstein electrolytics in a plastic case. A single 470uF bipolar cap e.g.Black Gate N or NX can be used instead, but the value can be higher (but not muchlower or bass response may suffer). Although boutique caps aren’t a necessity, a proper low-ESL electrolytic of at least a reputable brand name is recommended. Panasonic FC and Elna Cerafine are good choices and not very expensive. Low-ESR isn’t necessary, but since these are often higher overall quality may offer good performance.•C4 should be a quality cap with good high-frequency response. MKP box-types are recommended – MKT will also work but is not as good. Avoid ceramics, unless absolutely necessary and of a quality series such as NPO or COG.•For C7 the quality need not be as high.•VR1 and VR2 should ideally be a 10-turn type. 25-turn is overkill and just an annoyance when making large adjustments.。

FIRE DETECTIONC O N V E N T I O N ALCONVENTIONALRepeat PanelSmoke DetectorBeam TransmitterAlarm Sounder SounderStrobe *Alarm SounderAlarm SounderSmoke DetectorHeat DetectorCallPointEnd of LineSmoke DetectorCall PointSmoke DetectorCall PointControl PanelSounders Circuits1 N/O, 1 N/C relay contacts to auxiliary equipment such as door holders ormanned centre link.Class Change Duct DetectorEnd of LineEnd of LineEnd of LineBeam ReceiverEnd of LineEnd of Line3 Core CablePolarised Relay(to switch 230V equipmenteg. door holders)24VBeam Control Unit (24V required)Sounder Strobe *The SMS convent ional range of product s is designed t o meet t he requirement s of large domest ic and small commercial inst allat ions as well as provide t he abilit y t o upgrade or expand existing conventional systems.Conventional Systemslup to 8 separate sounder circuits.lThe 2020 Vision range of detectors has been designed using the latest available detection technology, delivering a sensitive but exceedingly stable detector.l lOur comprehensive range of audio and visual devices covers a wide range options for allmessages. These sounders also operate a bell tone.* The strobe devices shown are not visual alarm devices and do not meet EN54 Part 23CONVENTIONALControl PanelThe FP585 Conventional Control Panell Design certified to EN54 parts 2&4 (CPD approved)l 2, 4 and 8 zone versions are availablel Up to 8 sounder circuits can be connected to thecontrol panell Semi-flush kit availablel Repeat Panel availablel Two auxiliary relay contacts for connection to thirdparty equipmentl Zone disablement facilityl Single person test and commissioningFlexibility and false alarm protectionl The FP585 control panel has additional functionality over the basic requirements needed for compliance with EN54 parts 2 & 4. This allows unexpected scenarios to be covered by a standard panel solution.l Day and Night mode can delay the activation of the sounder circuits for up to 10min (day mode) upon detection of a fire. This allows verification of an alarm trigger.l False alarm rejection is an in built algorithm to guarantee that the system will reject spurious events by delaying the annuniciation by up to 10 seconds. After which time, if the detector still sees activity, the alarm will be raised.Ease of installationl The FP585 can match up to 8 zones with 8 sounder circuits, dramatically reducing installation disruption by allowing both sounders and detectors to be connected from a four core cable.l Both the FP585 control panel and repeater can be semi-flush fitted for installations where decor and aesthetics are important.Reliability and Compliancel Our conventional control panels are designed in accordance with the requirements of EN54 Part 2: 2006, plus the requirement of EN54 Part 4:1998.l Our products are renowned for their reliability. Since its launch, FP585 has consistently performed above industry standards.CONVENTIONALVision Detector RangeVision Detector Rangel Automatic drift compensation to reduce false alarmsl Improved chamber design to minimise the effect ofdust contaminationl Optional hand-held laser test unit to enable testing fromground level, improving job productivity during installationand maintenancel Ionisation-like reaction time to flaming fires without theassociated environmental concerns of using aradioactive sourcel EN54 part 5 and part 7 certified (CPD approved)l 14 – 28 VDC operating voltage ratel -30 to +70o C operating temperature rangel Standard and deep bases with or withoutSchottky DiodeAdvanced Design• Aesthetically engineered, Vision boasts features normally only found in more sophisticated and expensive analogue detectors. Easy to install and simple to use, it offers advanced levels of detection with the cost effectiveness of a conventional detector.• The combination of optical and heat detection provides a faster response to ‘real fire’ situations, while at the same time reducing the risk of unwanted alarms caused by environmentalconditions.Cost Effective• A hand held Laser Test Tool can be used in conjunction with the range of Vision detectors for alarm test purposes. The unit transmits a coded message, preventing spurious alarms being generated by other laser-based devices. With a range of several metres, the hand held test unit provides an effortless way of remotely alarm testing the range of Vision detectors. Minimising False Alarms• The Vision optical smoke detector (2020P) has been specifically designed to be highly tolerant to dust, significantly reducing the potential for unwanted false alarms caused by settled dust affecting the detector’s sensitivity. The Vision optical heat detector (2020PT) is a true multi-criteria unit for smoke and heat detection. It provides the same fast reaction to flaming fires as an ionisation detector without the environmental concerns of using a radioactive source.CONVENTIONAL lllllCONVENTIONAL Audio Visual and Voice SoundersAudio Visual and Voice Soundersl Comprehensive range covering all conventionaleventualitiesl Voice variants of electronic sounder and sounder beaconscomply with Equality Act requirementsl Ultra low current consumption device rangel Voice sounders include recorded bell tone perfect for classchangel IP55 soundersl EN54 Part 3 certified (sounders only)Flexibility of choicel The importance of the correct audio visual (AV) devices in a fire system should not be underestimated. As well as being vital to complying with installation regulations, they are key to fast and effective evacuation in the case of fire. Our broad range of devices include application specific, high output and weather proof options to help meet legislation requirements. Combining your optionsl Careful design and use of the correct AV device can reduce installation time and disruption for the end user. Combined sounder beacon and voice sounder beacons are just two examples of these multi function devices, where wiring to just one point can provide three AV functions.l Low profile base sounders can be combined with smoke and heat detectors to further reduce installation time and disruption. The ability to run cables to one point and the potential for easy access through ceilings makes these devices and essential products for simplifying installations.SMSSMS is p ar t of H one y we llWate r side Ro ad Hamilton Indus tr ial Park L e ice s te r L E5 1T N UK Tel +44 (0)116 246 2100 Fax +44 (0)116 246 2016 Web L ite ratur e r e f: SMS17。

SP-1003壁挂式报警控制器
SP-1003 是一款可以接收多路4~20mA模拟信号输入，采用高精度单片机控制输入、输出的巡检式壁挂报警控制器。

有2通道、4通道可选，带有自动切换功能的备用电源，保证2小时以上主电断电连续工作，满足消防要求，可连接控制各种型号4~20mA模拟信号输出。

同时，该控制器具有声光报警指示，主/备电源过/欠压报警，开关量输出，RS-485上位机通讯，报警存储、查询等功能；还可用于控制外部报警、排风系统及其它外部设备。

适用于在冶金、石油石化、化工等行业中作为对危险气体进行连续检测的报警控制设备。

主要特点
显示屏循环显示各通道监测信息
两级报警值设定,不同声光信号指示不同报警级别
两级无源报警继电器输出,最大容量AC 220V,5A
开关量关断延时0~60 分钟可调
支持RS-485 上位机通讯
主备电源自动切换，电源超/欠压及断电报警
数据存储功能，存储报警记录
具有开机自检功能
输入端加有保护电路
已通过国家消防认证
应用领域
石油、化工
冶金、燃气
消防
炼油厂、制漆、喷漆染料操作
电力、通讯
城市供水
污水处理
科研、教育、国防技术参数
配置信息。

Rev. 3.0–23.09.20211SEMiX ®3pGBTrench IGBT ModulesSEMiX703GB12M7p Features*•Homogeneous Si•Trench = Trenchgate technology •V CE(sat) with positive temperature coefficient•High overload capability •Low loss high density IGBTs•Press-fit pins as auxiliary contacts •UL recognized, file no. E63532Typical Applications•AC inverter drives •UPS•Renewable energy systemsRemarks•Product reliability results are valid for T j =150°C (recommended T j,op =-40...+150°C)•V isol between temperature sensor and power section is only 2500V•For storage and case temperature with TIM see document “TP(*) SEMiX 3p”Absolute Maximum Ratings SymbolConditions Values UnitIGBT V CES T j =25°C 1200V I C T j =175°CT c =25°C 863A T c =80°C656A I Cnom 700A I CRM1400A V GES -20 (20)V t psc V CC =800V V GE ≤ 15V V CES ≤ 1200 VT j =150°C8µs T j -40...175°C Inverse diodeV RRM T j =25°C 1200V I F T j =175°CT c =25°C 796A T c =80°C593A I FRM 1400A I FSM t p =10ms, sin 180°, T j =25°C3456A T j -40...175°C Module I t(RMS)600A T stg module without TIM -40...125°C V isolAC sinus 50Hz, t =1min4000VCharacteristics SymbolConditionsmin.typ.max.UnitIGBT V CE(sat)I C =700A V GE =15V chiplevel T j =25°C 1.55 1.94V T j =150°C 1.81V V CE0chiplevel T j =25°C 0.860.96V T j =150°C 0.75V r CE V GE =15V chiplevelT j =25°C 0.99 1.41m ΩT j =150°C1.51m ΩV GE(th)V CE = 10 V, I C =69mA5.466.6V I CES V GE =0V,V CE =1200V, T j =25°C 5mA C ies V CE =10V V GE =0Vf =1MHz 132.0nF C oes f =1MHz 4.14nF C res f =1MHz1.62nF Q G V GE =-8V ... + 15V 6150nC R Gint T j =25°C 0.7Ωt d(on)V CC =600V I C =700AV GE =+15/-15V R G on =1.5ΩR G off =1.5Ωdi/dt on =5850A/µs di/dt off =5450A/µs dv/dt =5400V/µs L s =25nH T j =150°C 390ns t r T j =150°C 130ns E on T j =150°C 83mJ t d(off)T j =150°C 530ns t f T j =150°C 110ns E off T j =150°C 77mJR th(j-c)per IGBT0.058K/W R th(c-s)per IGBT (λgrease =0.81 W/(m*K))0.035K/W R th(c-s)per IGBT, pre-applied phase change material0.025K/W2Rev. 3.0–23.09.2021© by SEMIKRONSEMiX ®3pGBTrench IGBT ModulesSEMiX703GB12M7p Features*•Homogeneous Si•Trench = Trenchgate technology •V CE(sat) with positive temperature coefficient•High overload capability •Low loss high density IGBTs•Press-fit pins as auxiliary contacts •UL recognized, file no. E63532Typical Applications•AC inverter drives •UPS•Renewable energy systemsRemarks•Product reliability results are valid for T j =150°C (recommended T j,op =-40...+150°C)•V isol between temperature sensor and power section is only 2500V•For storage and case temperature with TIM see document “TP(*) SEMiX 3p”Characteristics SymbolConditionsmin.typ.max.UnitInverse diodeV F = V EC I F =700AV GE =0V chiplevelT j =25°C 2.20 2.59V T j =150°C 2.25 2.53V V F0chiplevel T j =25°C 1.39 1.59V T j =150°C 1.08 1.18V r FchiplevelT j =25°C 1.16 1.42m ΩT j =150°C1.67 1.93m ΩI RRM I F =700A di/dt off =6300A/µs V GE =-15VV CC =600VT j =150°C 510A Q rr T j=150°C110µC E rr T j =150°C 50mJR th(j-c)per diode0.073K/W R th(c-s)per diode (λgrease =0.81 W/(m*K))0.039K/W R th(c-s)per diode, pre-applied phase change material0.031K/W Module L CE 20nH R CC'+EE'measured per switchT C =25°C 0.8m ΩT C =125°C1.1m ΩR th(c-s)1calculated without thermal coupling 0.009K/W R th(c-s)2including thermal coupling,T s underneath module (λgrease =0.81 W/(m*K))0.014K/W R th(c-s)2including thermal coupling,T s underneath module, pre-applied phase change material 0.011K/WM s to heat sink (M5)36Nm M t to terminals (M6)36Nm Nm w350g Temperature Sensor R 100T c =100°C (R 25=5 k Ω)493 ± 5%ΩB 100/125R (T)=R 100exp[B 100/125(1/T-1/T 100)]; T[K];3550 ±2%K© by SEMIKRON Rev. 3.0–23.09.202134Rev. 3.0–23.09.2021© by SEMIKRONThis is an electrostatic discharge sensitive device (ESDS) due to international standard IEC 61340.*IMPORTANT INFORMATION AND WARNINGSThe specifications of SEMIKRON products may not be considered as guarantee or assurance of product characteristics ("Beschaffenheitsgarantie"). The specifications of SEMIKRON products describe only the usual characteristics of products to be expected in typical applications, which may still vary depending on the specific application. Therefore, products must be tested for the respective application in advance. Application adjustments may be necessary. The user of SEMIKRON products is responsible for the safety of their applications embedding SEMIKRON products and must take adequate safety measures to prevent the applications from causing a physical injury, fire or other problem if any of SEMIKRON products become faulty. The user is responsible to make sure that the application design is compliant with all applicable laws, regulations, norms and standards. Except as otherwise explicitly approved by SEMIKRON in a written document signed by authorized representatives of SEMIKRON, SEMIKRON products may not be used in any applications where a failure of the product or any consequences of the use thereof can reasonably be expected to result in personal injury. No representation or warranty is given and no liability is assumed with respect to the accuracy, completeness and/or use of any information herein, including without limitation, warranties of non-infringement of intellectual property rights of any third party. SEMIKRON does not assume any liability arising out of the applications or use of any product; neither does it convey any license under its patent rights, copyrights, trade secrets or other intellectual property rights, nor the rights of others. SEMIKRON makes no representation or warranty of non-infringement or alleged non-infringement of intellectual property rights of any third party which may arise from applications. Due to technical requirements our products may contain dangerous substances. For information on the types in question please contact the nearest SEMIKRON sales office. This document supersedes and replaces all information previously supplied and may be superseded by updates. SEMIKRON reserves the right to make changes.6。

DS-1003K键盘使用手册本操作手册可能包含技术上不准确的地方或印刷错误。

本手册的内容将做不定期的更新，恕不另行通知；更新的内容将会在本手册的新版本中加入。

我们随时会改进或更新本手册中描述的产品或程序。

注意事项：控制键盘既可控制嵌入式硬盘录像机也可以直接输出控制快球及解码器。

液晶显示屏为易损体，切勿挤压，或长久时间内在强光下直射。

摇杆为易损体，返修时，切记用原包装或妥善包装好，再托运。

使控制键盘工作在技术指标允许的温度及湿度范围内。

请严格按照本手册的接线方式连接。

第一章产品介绍产品概述本设备是专为我公司生产的嵌入式硬盘录像机配套设计的主控键盘，全面兼容我公司生产的所有系列的嵌入式硬盘录像机。

除了具备集中控制嵌入式硬盘录像机的功能外，控制键盘还可以直接控制快球及解码器，当然也可以通过控制嵌入式来遥控快球或解码器。

产品主要功能控制嵌入式完全取代嵌入式硬盘录像机前面板的所有功能操作按键。

所有的液晶显示屏上均有显示说明。

一台设备可以同时控制14台嵌入式硬盘录像机，请把嵌入式硬盘录像机的设备号设置成：1~14。

控制快球及解码器可控制快球、解码器地址范围从0~254，同时可控制14台。

备有12种快球、解码器协议，遇到没有集成的协议时，可以按照用户提供的协议做添加，在不更换硬件的情况下，把修改好的程序文件发给客户，让客户通过RS485口在线刷新程序。

主副分控功能控制嵌入式硬盘录像机支持副控级联控制功能，可级联15个副控键盘，ID从0~15。

控制快球、解码器支持副控级联控制功能，可级联15个副控键盘，键盘ID从0~15。

特色功能RS485总线并联的任何设备可以单独设置不一样的协议、波特率，巧妙的增强了系统的灵活性。

设置均在液晶屏上完成，免除了要找说明书再更改协议的麻烦。

后面板物理接口说明声明：两款控制键盘后面板物理接口的分布与类型均为一样序号物理接口连接说明1 硬盘录像机控制输出连接硬盘录像机KB口的D+、D-：1接D-，2接D+2 控制硬盘录像机副控键盘输入连接控制硬盘录像机的副控键盘的硬盘录像机控制输出口：3接副控键盘1，4接副控键盘23 控制线接地端控制信号线接地端4 控制快球副控键盘输入连接控制快球的副控键盘的快球控制输出：9接副控键盘7，10接副控键盘85 快球控制输出连接快球或解码器的RS485总线：7接RS485-，8接RS485+状态指示灯[Power] ：电源指示灯，控制键盘在工作状态下一直显示，状态为常亮，红色。

1,问：施耐德母线的保质期是多久？施耐德母线的保质期为验货后12个月。

2,问：国产母线的地线需要搭接，为什么我们的母线不需要？施耐德的母线内部铝板及铜板都是连贯的，地线在内部均是连贯的，所以不需要搭接地线。

3,问：NS断路器上的CD、CE有什么作用，如何使用？NS断路器上的CD、CE的作用与MT上的CD、CE作用是一样的，主要是指示断路器在抽架中的位置状态。

这个接点只能用于抽屉式断路器。

4,问：NS400HMA320是否可以更换MA320脱扣器为配电型脱扣器？不可以，因为NS400HMA320为电磁脱扣器，其内部无电流互感器。

5,问：INS负荷开关是否可以安装在导轨上？对于INS40－160壳架可以安装在35mm导轨上，对于INS250，INS320/630壳架不可以安装在35mm导轨上，只能通过螺钉安装在底板或横梁上6,问：NS400/630开关选配带接地故障保护的STR53UE电子脱扣器，是否需要加装外部电流互感器?对4P开关而言，不需要加装外部电流互感器，因其互感器已内置于开关本体。

对3P 开关而言，如果仅实现三极接地故障保护，则不需加装外部电流互感器，在定电子脱扣器时只需定带接地故障保护功能的STR53UEFT(订货号：32425); 如果要实现四极接地故障保护，则中性线需加装外部电流互感器; 但需特别注意的是：此时在定电子脱扣器时需定带外部互感器的接地故障保护功能的STR53UEFT(订货号：32429)及外部中性线电流互感器CT（订货号：150A 36950; 250A 36951; 400A 36952; 630A 32440）7,问：NSC系列与EZC是如何替换的NSC160D/250D被EZC160S/250S替代，其主要性能不变，部分性能更优附件不能通用，尺寸和安装方式不同。

NSC60E/100B仅外包装和标签改变，型号、尺寸、安装方式等均不变。

NSC100D型号变为NSC100S，性能、尺寸、安装方式不变。

SM100-C（Ⅲ）HART-USB MODEM USER MANUALContents1SM100-C（Ⅲ）Introduction (3)1.1Product Introduction (3)1.2Product Specifications (3)1.3Product Features (3)1.4Main Parameters (3)2SM100-C（Ⅲ）Diagram and LED Functions (4)2.1Diagram (4)2.2Connection Diagram (4)2.3LED Indications (6)3Configuration Software Functions and Operation (7)3.1Communicating Connection (7)3.2Online Test (8)3.3Instrument IO Correction (8)3.4Basic Parameters Configuration of Instrument (9)3.5Basic Information of Instrument (9)3.6Parameters Configuration of Temperature Transmitter (9)3.7Differential Pressure and Multivariable Transmitter (10)4WIFI Virtual Serial Port Creation (11)4.1Cable Connection (11)4.2Wireless Hotspot Connection (11)4.3Virtual Serial Port Creation (12)5Service and Warranty Information (13)Statement:Copyright©2017SMDZNET.All Rights Reserved.Please read the manual intensively before using the product.SMDZNET does not warrant or accept any liability whatsoever in respect of any damage towards the product unless following the instructions.SMDZNET provides the manual for instructions.Specifications and information contained in this manual are furnished for informational use only,and are subject to change at any time without notice,and should not be construed as a commitment by SMDZNET.SMDZNET assumes no responsibility or liability for any changes or invalidation that may appear in this manual,due to the upgrading for the products or software described in it.Please notice the version and update it timely.Please visit the support website for the latest information.If any confusion towards the specifications and information contained in this manual,please contact us or the local supplier directly.Copyright statement:No part of this manual,including the products and software described in it,may be reproduced,transmitted,transcribed,stored in a retrieval system,or translated into any language in any form or by any means,except documentation kept by the purchaser for backup purposes,without the express written permission of SMDZNET.1SM100-C（Ⅲ）Introduction1.1Product IntroductionThe SM100-C is a HART intelligent communicator designed by JIAXING SONGMAO and complied with the industrial standard. It communicates with any manufacturer of HART instruments,such as Rosemount,E+H,Siemens,Cologne,Yokogawa,SIC etc. The appearance is complied with integrated design,enabling to install and carry portably.The communicator is compatible with a standard USB interface and serial bus power supply to ensure the convenience and quickness.Since the SM100-C intelligent communicator is specially designed for industrial product integration,its design specialized in the temperature range,vibration,electromagnetic compatibility and interface diversity etc..The SM100-C ensures the stable and high efficient operation in the bad environment and makes it ideal for high quality with the device.1.2Product Specifications●Supports Operation System Windows XP,Windows7,Windows10●Compatible with USB V1.1,USB CDC V1.1Standard●Compatible with USB V2.0,USB CDC V2.0Standard●USB Bus Power Supply（Uninsulated Cables）,DC5V DC30mA●Standard HART Protocol Transmission●Transparent Data Transfer●Compatible with HART Protocol1.3Product Features●Built-In Isolated DC24V Output.Provide Power Supply and Communication to Two-Wire Channel Instrument,to Maximize the Reduction of Wiring.●HART Signal Transfer with Isolation Transformer●Built-In High Precision250ΩResistance.No need to add resistance if communication test.●Provides Switch to Transfer with WIFI Connection●LED Panel to Monitor the Operation Status1.4Main Parameters●Physical Dimensions（L×W×H）:71mm×52mm×22mm.●Operation Ambient Temperature:-20℃～+80℃●Relative Humidity:10%～80%2SM100-C （Ⅲ）Diagram and LED Functions2.1Diagram2.2Connection Diagram●Communication cable:Black USB cable (48cm),using for communication between SM100-C and PC,and provide power supply to SM100-C.●Test cable:Red and black cables,using for connection between SM100-C and HART instruments.●Serial port change-over switch ：Two serial port conversion modes:USB and WIFI.Switch to USB to enable the communication between communication cable andPC.The communication cable is connected with PC.Switch to WIFI to enable the communication between virtual serial port andPC.The communication cable is connected with the charger.●HART change-over switch ：Three HART conversion modes:250Ω,NO,24V/250Ω.Switch to 250 to instruct the working status with built-in 250Ωresistance.Switch to NO to instruct the working status without built-in 24V or 250Ωresistance.Switch to 24V/250Ωto instruct the working status with built-in 24V and 250Ωresistance.You can switch the change-over switch to the proper position according to the physical condition,then start the connection.1.With Built-In 250ΩResistanceImported gold-plated hook design,highlighted the high quality Imported gold-plated port2.Without Built-In24V or250ΩResistance3.With Built-In24V and250ΩResistance2.3LED Indications●POW Power LED:Constant lighting when normal communication ●TXD Communication LED:Blinking when data transfers●RXD Communication LED:Blinking when data receives3Configuration Software Functions and Operation3.1Communicating Connection1）Connecting to HART instrumentPlease take the wiring diagram2.2for reference.According to the HART instrument,you can turn the HART change-over switch to the proper position,then connect the Test cable to the HART instrument.2）Connecting to Serial portPlease take the wiring diagram2.2for reference.According to the physical condition,you can turn the Serial port change-over switch to the proper position,then connect the Communication cable.B Serial Port:Connect the USB communication cable to the computer.Right-click Computer,then chooseProperty-Device Manager to view the Serial Number.b.WIFI Virtual Serial Port:Please refer to section of4.WIFI Virtual Serial Port Creation to create Virtual Serial Number. 3）Turn on the configuration and debugging software.According to the serial number,select the correct serial number and open the serial port.3.2Online Test3.3Instrument IO Correction3.4Basic Parameters Configuration of Instrument3.5Basic Information of Instrument3.6Parameters Configuration of Temperature Transmitter3.7Differential Pressure and Multivariable Transmitter4WIFI Virtual Serial Port Creation4.1Cable ConnectionYou can switch the seral port to WIFI virtual serial port connector,and then connect USB cable with the charger to supply power.4.2Wireless Hotspot Connection1）Search for the wireless network,and choose the wireless hotspot SM100-C,then click Connect.2）Configure the IP address for the wireless hotspot and modify it to the same network segment192.168.0.#.4.3Virtual Serial Port CreationYou can start the virtual serial port configuration software,and click Add,and tap in the information of virtual serial port configuration in the pop-up window,then click OK to accomplish the creation for the virtual serial port.The serial port information would be displayed in the main window.5Service and Warranty Information1.The warranty period for the product is36months with normal operation conditions from the date of purchase byend-customers.2.The company warrants the Product to be free from defects in workmanship and technology for the Warranty Period.3.This Free Warranty does not include such as but not limited to:a.The Product has been tampered with,repaired and/or modified without the permission from the company;b.Damage to the Product caused by external force and other natural disaster.4.When the warranty service is needed,please contact us with calling the service hotline.We would maintain the warrantyservice and deliver the product back as soon as possible.5.This warranty liability limits to the warranty period for the breakdown maintenance of the product,and do not assume other responsibilities.。

Doc. no. AS*-OMW0046-ASPEED CONTROLLER STANDARD TYPEELBOW TYPE (METAL BODY)ＡＳ１４００－Ｍ３ＡＳ１２＊０～ＡＳ４２＊０1．Safety Instructions 2 ～3 2．Specific Product Precautions 4 ～6 3．Application 7 4．Specifications 7 5．Troubleshooting 7 6．Construction 8-1-Speed Controller Standard TypeElbow Type (Metal Body) / AS SeriesSafety InstructionsThese safety instructions are intended to prevent hazardous situations and/or equipment damage.These instructions indicate the level of potential haz ard with the labels of “Caution,” “Warning” or “Danger.”They are all important notes for safety and must be followed in addition to International Standards (ISO/IEC)*1) , and other safety regulations.*1) ISO 4414: Pneumatic fluid power -- General rules relating to systems.ISO 4413: Hydraulic fluid power -- General rules relating to systems.IEC 60204-1: Safety of machinery -- Electrical equipment of machines .(Part 1: General requirements)ISO 10218: Manipulating industrial robots -Safety.etc.Caution Caution indicates a hazard with a low level of risk which, if not avoided, could result in minor or moderate injury.Warning Warning indicates a hazard with a medium level of risk which, if not avoided, couldresult in death or serious injury.Danger Danger indicates a hazard with a high level of risk which, if not avoided, will resultin death or serious injury.Warning1. The compatibility of the product is the responsibility of the person who designs the equipment or decides its specifications.Since the product specified here is used under various operating conditions, its compatibility with specific equipment must be decided by the person who designs the equipment or decides its specifications based on necessary analysis and test results.The expected performance and safety assurance of the equipment will be the responsibility of the person who has determined its compatibility with the product.This person should also continuously review all specifications of the product referring to its latest catalog information, with a view to giving due consideration to any possibility of equipment failure when configuring the equipment.2. Only personnel with appropriate training should operate machinery and equipment.The product specified here may become unsafe if handled incorrectly.The assembly, operation and maintenance of machines or equipment including our products must be performed by an operator who is appropriately trained and experienced.3. Do not service or attempt to remove product and machinery/equipment until safety is confirmed.1.The inspection and maintenance of machinery/equipment should only be performed after measures toprevent falling or runaway of the driven objects have been confirmed.2.When the product is to be removed, confirm that the safety measures as mentioned above are implementedand the power from any appropriate source is cut, and read and understand the specific product precautions of all relevant products carefully.3. Before machinery/equipment is restarted, take measures to prevent unexpected operation and malfunction.4. Contact SMC beforehand and take special consideration of safety measures if the product is to be used in any of the following conditions.1. Conditions and environments outside of the given specifications, or use outdoors or in a place exposed todirect sunlight.2. Installation on equipment in conjunction with atomic energy, railways, air navigation, space, shipping,vehicles, military, medical treatment, combustion and recreation, or equipment in contact with food and beverages, emergency stop circuits, clutch and brake circuits in press applications, safety equipment or other applications unsuitable for the standard specifications described in the product catalog.3. An application which could have negative effects on people, property, or animals requiring special safetyanalysis.e in an interlock circuit, which requires the provision of double interlock for possible failure by using amechanical protective function, and periodical checks to confirm proper operation.Speed Controller Standard TypeElbow Type (Metal Body) / AS SeriesSafety InstructionsCaution1. The product is provided for use in manufacturing industries.The product herein described is basically provided for peaceful use in manufacturing industries.If considering using the product in other industries, consult SMC beforehand and exchange specifications or a contract if necessary.If anything is unclear, contact your nearest sales branch.Limited warranty and Disclaimer/Compliance RequirementsThe product used is subject to the following “Limited warranty and Disclaimer” and “Compliance Requirements”.Read and accept them before using the product.Limited warranty and Disclaimer1. The warranty period of the product is 1 year in service or 1.5 years after the product is delivered, whichever is first.Also, the product may have specified durability, running distance or replacement parts. Please consult your nearest sales branch.2. For any failure or damage reported within the warranty period which is clearly our responsibility,a replacement product or necessary parts will be provided.This limited warranty applies only to our product independently, and not to any other damage incurred due to the failure of the product.3. Prior to using SMC products, please read and understand the warranty terms and disclaimersnoted in the specified catalog for the particular products.Compliance Requirements1. The use of SMC products with production equipment for the manufacture of weapons of massdestruction(WMD) or any other weapon is strictly prohibited.2. The exports of SMC products or technology from one country to another are governed by therelevant security laws and regulation of the countries involved in the transaction. Prior to the shipment of a SMC product to another country, assure that all local rules governing that export are known and followed.CautionSMC products are not intended for use as instruments for legal metrology.Measurement instruments that SMC manufactures or sells have not been qualified by type approval tests relevant to the metrology (measurement) laws of each country.Therefore, SMC products cannot be used for business or certification ordained by the metrology (measurement) laws of each country.2. Specific Product PrecautionsWarning(1) Confirm the specifications.Do not operate at pressures, temperatures, etc., beyond the range of specifications, as this can cause damage or malfunction. (Refer to the specifications.)Please contact SMC when using a fluid other than compressed air (including vacuum).We do not guarantee against any damage if the product is used outside of the specifications range.(2)Products mentioned in this catalog are not designed for use as stop valves with zero air leakage.A certain amount of leakage is allowed in the products specifications. Tightening the needle to reduce leakage to zero may result in equipment damage.(3)Do not disassemble the product or make anymodifications, including additional machining.Doing so may cause human injury and/or an accident.(4)The flow rate characteristics for eachproduct are representative values.The flow rate characteristics are characteristics of each individual product. Actual values may differ depending on the piping, circuitry, pressure conditions, etc. Also, depending on product specifications, there may be variations in the zero needle rotations position of the flow rate characteristics.(5)Check if that PTFE can be used in application.PTFE powder (Polytetrafluoroethylene resin) is included in the seal material for piping taper thread of male thread type. Confirm that the use of it will not cause any adverse effect on the system.Please contact SMC if the Safety Data Sheet (SDS) is required.Warning(1) Operation ManualInstall the products and operate it only after reading the operation manual carefully and understanding its contents. Also, keep the manual where it can be referred to as necessary.Warning(2)Ensure sufficient space for maintenance activities.When installing the products, allow access for maintenance.(3)Confirm that the lock nut is tightened.A loose lock nut may cause speed changes in the actuator.(4)Check the degree of rotation of the needlevalve.The Products in this catalog are retainer type so that the needle is not removed completely. Over rotation will cause damage.(5)Do not use tools such as pliers to rotate theknob.This can cause idle rotation of the knob or damage.(6) Confirm the air flow direction.Mounting backward is dangerous, because the speed adjustment needle will not work and the actuator may lurch suddenly.(7) Adjust the needle by opening the needle slowly after having closed it completely.Loose needle valves may cause unexpected sudden actuator lurching.When a needle valve is turned clockwise, it is closed and cylinder speed decreases. When a needle valve is turned counterclockwise, it is open and cylinder speed increases.(8)Do not apply excessive force or shock to the body or fittings with an impact tool. This can cause damage or air leakage.(9)Tighten threads with the proper tightening torque.When installing the products, follow the listed proper torque.(10)For installation/removal, please tighten the hexagonal width across flats of Body B (AS1400-M3: joint) with an appropriate spanner.Do not apply torque at other points as the product may be damaged. For AS22*0～AS42*0, the Body A can be rotated after installation.Design/ SelectionMountingMountingCaution(1) Tightening methodThe proper tightening torques of the fitting are as shown in the table below. As a guide, tighten by hand, then turn it two or three turns with a wrench. Pay attention not to over tighten the product. Check the dimensions of each product for the hexagon width across flats.(2)The proper tightening torques for hexagonlock nuts are shown in the table below. For standard installation, turn 15 to 30゜using a tool after fastening by hand.Pay attention not to over tighten the product. Check the dimensions for each product for the width across flats.Caution(1)Refer to the Fittings & Tubing Precautions for handing One-touch fittings.(2) Preparation before pipingBefore piping is connected, it should be thoroughly blown out with air (flushing) or washed to remove chips, cutting oil and other debris from inside the pipe.(3)Winding of sealant tapeWhen screwing together pipes and fittings, etc., be certain that chips from the pipe threads and sealing material do not get inside the pipe. Also, when the sealant tape is used, leave approx. 1 thread ridges exposed at the end of the threads.Warning(1) Type of fluidsPlease consult with SMC when using the product in applications other than compressed air.(2) When there is a large amount of drainage Compressed air containing a large amount of drainage can cause the malfunction of pneumatic equipment. An air dryer or water separator should be installed upstream from filters.(3) Drain flushingIf condensation in the drain bowl is not emptied on a regular basis, the bowl will overflow and allow the condensation to enter the compressed air lines. This causes the malfunction of pneumatic equipment.If the drain bowl is difficult to check and remove, the installation of a drain bowl with an auto drain option is recommended.For compressed air quality, refer to SMC catalog "Compressed Air Purification System".(4) Use clean airDo not use compressed air that contains chemicals, synthetic oils that include organic solvents, salt, corrosive gases, etc., as it can cause damage or malfunction.Caution(1) Install an air filter.Install an air filter upstream near the valve. Select an air filter with a filtration size of 5μm or smaller.(2)Take measures to ensure air quality, such as by installing an aftercooler, air dryer, or water separator.Compressed air that contains a large amount of drainage can cause the malfunction of pneumatic equipment, such as flow control equipment. Therefore, take appropriate measures to ensure air quality, such as by providing an aftercooler, air dryer, or water separator.(3) Ensure that the fluid and ambient temperatures are within the specified range. If the fluid temperature is 5℃ or less, the moisture in the circuit could freeze, causing damage to the seals or leading to equipment malfunction. Therefore, take appropriate measures to prevent freezing.For compressed air quality, refer to SMC catalog "Compressed Air Purification System".Air SupplyPiping MountingOperating environmentWarning(1) Do not use in an atmosphere containing corrosive gases, chemicals, sea water, water, water steam, or where there is direct contact with any of these.Refer to each construction drawing for information on the materials of flow control equipment.(2) Do not expose the product to direct sunlightfor an extended period of time.(3) Do not use in a place subject to heavy vibration and/or shock.(4) Do not mount the product in locations where it is exposed to radiant heat.MaintenanceWarning(1)Perform maintenance and inspection according to the procedures indicated in the operation manual.If handled improperly, malfunction or damage of machinery and equipment may occur.(2) Maintenance workIf handled improperly, compressed air can be dangerous.Assembly, handling, repair and element replacement of pneumatic systems should be performed by a knowledgeable and experienced person.(3) Drain flushingRemove drainage from air filters regularly. (4) Removal of equipment, andsupply/exhaust of compressed airBefore components are removed, first confirm that measures are in place to prevent workpieces from dropping, run-away equipment, etc.Then, Cut the supply pressure and electric power, and exhaust all compressed air from the system using the residual pressure release function.When machinery is restarted, proceed with caution after confirming that appropriate measures are in place to prevent sudden movement.3. ApplicationThis product is designed to control the speed of a pneumatic actuator.4. Specifications5.Troubleshooting6．ConstructionAS1400-M34-14-1, Sotokanda, Chiyoda-ku, Tokyo 101-0021 JAPANTel: + 81 3 5207 8249 Fax: +81 3 5298 5362URL https://Note: Specifications are subject to change without prior notice and any obligation on the part of the manufacturer. © 2022 SMC Corporation All Rights Reserved。

上海安钧流量计参数密码（原创版）目录1.上海安钧流量计简介2.上海安钧流量计参数3.上海安钧流量计密码4.如何修改上海安钧流量计的密码正文一、上海安钧流量计简介上海安钧流量计是一种用于测量流体流量的仪器，适用于测量各种液体、气体等流体的流量。

上海安钧流量计具有高精度、高稳定性、抗干扰能力强等特点，广泛应用于工业生产、能源、环保等领域。

二、上海安钧流量计参数上海安钧流量计的参数包括以下几个方面：1.测量范围：流量计可以测量的流体流量范围。

不同的流量计型号有不同的测量范围。

2.精度等级：流量计的测量精度等级。

精度等级越高，测量结果越精确。

3.工作压力：流量计能够承受的工作压力范围。

不同的流量计型号有不同的工作压力范围。

4.介质温度：流量计能够测量的流体温度范围。

不同的流量计型号有不同的介质温度范围。

三、上海安钧流量计密码上海安钧流量计出厂时通常设有默认密码，用于保护仪器的安全。

默认密码可能因不同型号的流量计而有所不同。

如需获取具体型号的默认密码，请联系上海安钧公司或查阅相关说明书。

四、如何修改上海安钧流量计的密码如果您购买了上海安钧流量计并需要修改密码，可以按照以下步骤进行操作：1.打开流量计的操作界面。

2.输入默认密码，进入设置菜单。

3.在设置菜单中找到“修改密码”选项，并点击进入。

4.按照提示输入新的密码，并确认。

5.完成密码修改后，退出设置菜单，保存设置。

请注意，修改密码后，请务必记住新密码，以免影响流量计的正常使用。

Description:Bussmann TM series indicating and non-indicating E-Rated, current-limiting, medium voltage fuses for potential, small power and control transformers.ContentsDescription Page Introduction (2)2.475 kV fuses.........................3-63.6 kV fuses...........................7-9 5.5 kV fuses.........................10-267.2 kV fuses ..........................27-298.3 kV fuses.........................30-39 12 kV fuses ..........................40-42 15.5 kV fuses........................43-52 17.5 kV fuses .........................53-5424 kV fuses ..........................55-5625.5 kV fuses........................57-60 36 kV fuses ..........................61-62 38 kV fuses ..........................63-69 Fuse mountings ......................70-71Features and benefits• Low amp, current-limiting E-Rated PT medium voltage fuses are general purpose fuses defined by their melting time-current characteristic that permit their electrical interchangeability with other fuses of the same E Rating.• E-Rated general purpose fuses must havea current responsive element that will melt in 300 seconds at an RMS current withinthe range of 200% to 240% of the fuse’s nameplate current rating, fuse refill, or link per ANSI C37.46 for fuses rated 100E or less.• PT fuses are physically dimensioned for easy installation in existing hardware.• Space saving size eases design considerations for new installations.• Current-limiting fuses provide positive interruption even on low fault currents.The fuse limits the magnitude of electromechanical stresses in the protected apparatus.• These fuses are in a self-contained, non-venting package for installation indoors or outdoors in an enclosure.• Available in indicating and non-indicating versions.• Open fuse indicator speeds troubleshooting by providing a positive visual indication of fuse operation.T ypical applications• Primary protection of:• Medium voltage potential transformers • Small medium voltage servicetransformers• Small medium voltage controltransformers.PT Medium voltage fuses for potential and small power transformersTechnical Data 6002Effective September 2020PT medium voltage fuses for potential and small power transformers 2/bussmannseries E-Rated PT medium voltage fusesCatalog symbols (by maximum voltage rating):•2.475 kV • 2NCLPT -_•3.6 kV• 3.6ABCNA_• 3.6ABWNA_•3.6CAV_•5.5 kV • JCW-_• 5CLPT -_E • 5NCLPT -_E • 5NCLPT -_E-A • 5.5ABWNA_E • 5.5AMWNA_E • 5.5CAV_E •5.5CAVH_E•7.2 kV • 7.2ABWNA_• 7.2ABCNA_• 7.2AMWNA_E •7.2CAV_•8.3 kV • 8CLPT -_E-A• 8CLPT -_E-B • 8NCLPT -_E • 8NCLPT -_E-A •8NCLPT -_E-B•12kV• 12ABCNA_•12CAV_•15.5 kV • 15CLPT -_E• 15NCLPT -_E-A • 15.5CAV_E •15.5CAVH_E•17.5 kV• 17.5ABGNA_•17.5CAV_•24 kV• 24ABGNA_•24CAV_•25.5 kV • 25CLPT -_E • 36 kV •36ABGNA_• 36CAV_•38 kV• 38CAV_E• 38CAVH_E •38CLPT -_ERatings*:•Volts• 2.4 kV to 38 kV •Amps• 0.25 to 15 A •Interrupting ratings•25 to 80 kA RMS Sym* See catalog number tables for voltages, ampacities and interrupting ratingsby catalog number.Agency information:•Those PT fuses conforming to the requirements for E-Rating meet the performance characteristics of IEEE/ANSI C37.463Technical Data 6002Effective September 2020PT medium voltage fuses for potential and small power transformers/bussmannseries2.475 kV maximum system voltage4.5 (114)0.8 (20) 3.9 (99)1A18370.5—2NCLPT -.5E (63)1—2NCLPT -1E (40)2—2NCLPT -2E (40)5—2NCLPT -5E (25)Dimensions (see catalog number tables for values)Recommended fuseclip and fuse block:Single-pole open fuse block with #10-32 phil-slot screwterminals rated 2500V, 5A maximum and 63kA withstand ratingPTFB-2500-JCDTechnical Data 6002Effective September 2020PT medium voltage fuses for potential and small power transformers4/bussmannseries2.47 kV time-current curves — minimum melting for 2NCLPT-_ECurve TC56357202December 20082NCLPT-_E5Technical Data 6002Effective September 2020PT medium voltage fuses for potential and small power transformers/bussmannseries2.47 kV time-current curves — total clearing for 2NCLPT-_ECurve TC59883702October 20102NCLPT-_ETechnical Data 6002Effective September 2020PT medium voltage fuses for potential and small power transformers6/bussmannseries2.47 kV peak let-through curves for 2NCLPT-_ECurve TC63933702December 20082NCLPT-_E7Technical Data 6002Effective September 2020PT medium voltage fuses for potential and small power transformers/bussmannseries3.6 kV maximum system voltage3.15 5.6 (142) 1 (25)4.4 (112)— 3.6ABWNA3.15 (50)A33547053.157.7 (195) 1 (25) 6.5 (165)— 3.6ABCNA3.15 (50)6.35.6 (142) 1 (25) 4.4 (112)— 3.6ABWNA6.3 (50)6.37.7 (195)1 (25)6.5 (165)— 3.6ABCNA6.3 (50)10— 3.6ABCNA10 (50)Dimensions (see catalog number tables for values)Recommended fuseclips:Open fuseclip for 1.56 (39.7mm) / 1.6 (40.6mm) dia. fuses1A0835Technical Data 6002Effective September 2020PT medium voltage fuses for potential and small power transformers8/bussmannseries3.6 kV Time-current curves — minimum melting for 3.6CAV_, 3.6ABC_ and 3.6ABW_3.6ABC_, 3.6ABW_, 3.6CAV_6.3A (ABC/ABW)10A (ABC/ABW)3.15A (ABC/ABW)2A (CAV)9Technical Data 6002Effective September 2020PT medium voltage fuses for potential and small power transformers/bussmannseries3.6 kV Peak let-through curves for 3.6ABC_ and 3.6ABW_Technical Data 6002Effective September 2020PT medium voltage fuses for potential and small power transformers10/bussmannseries5.5 kV maximum system voltage0.5 5.6 (142) 1 (25) 4.4 (112)— 5.5ABWNA0.5E (50)A33547050.57.4 (188) 1.6 (41) 6.2 (157) 5.5CAVH0.5E (50)JCW-1/2E (40)1A08350.59.5 (241) 1.6 (41)8.1 (206)5CLPT -.5 (80)†5NCLPT -.5E-A (63)1 5.6 (142) 1 (25) 4.4 (112)— 5.5ABWNA1E (50)A33547051 5.6 (142)0.8 (20) 4.8 (122)— 5.5AMWNA1E (63)1A183717.4 (188) 1.6 (41) 6.2 (157) 5.5CAVH1E (50)JCW-1E (40)1A083519.5 (241) 1.6 (41)8.1 (206)5CLPT -1 (80)†5NCLPT -1E-A (63)1.59.5 (241) 1.6 (41)8.1 (206)5CLPT -1.5 (80)†—1A08352 5.6 (142) 1 (25) 4.4 (112)— 5.5ABWNA2E (50)A33547052 5.6 (142)0.8 (20) 4.8 (122)— 5.5AMWNA2E (63)1A183727.4 (188) 1.6 (41) 6.2 (157) 5.5CAVH2E (50)JCW-2E (40)1A083529.5 (241) 1.6 (41)8.1 (206)—5NCLPT -2E (63)1A18373 5.6 (142) 1 (25) 4.4 (112)— 5.5ABWNA3E (50)A335470535.6 (142)0.8 (20) 4.8 (122)— 5.5AMWNA3E (63)1A183739.5 (241) 1.6 (41)8.1 (206)5CLPT -3E (80)5NCLPT -3E (63)1A083537.4 (188) 1.6 (41) 6.2 (157)JCW-3E (40)1A08354 5.6 (142)0.8 (20) 4.8 (122)—5.5AMWNA4E (63)1A183759.5 (241) 1.6 (41)8.1 (206)5CLPT -5E (80)5NCLPT -5E-A (63)1A08355 5.6 (142) 1 (25) 4.4 (112)— 5.5ABWNA5E (50)A33547055 5.6 (142)0.8 (20) 4.8 (122)— 5.5AMWNA5E (63)1A183757.3 (185) 1.6 (41) 5.9 (150)—JCW-5E (40)1A0835109.5 (241) 1.6 (41)8.1 (206)5CLPT -10E (80)5NCLPT -10E-A (63)1A0835157.4 (188)1.6 (41)6.2 (157)—5.5CAV15E (50)† Due to manufacturing variances, this fuse does not comply with ANSI C37.46 for “E” rating. See time-current curves for performance characteristics.CLPT Type mountings and hardware 5.5 kV maximum (4.8kV nominal)*0.5–10Disconnect †605CLPT -PDM-A5CLPT -GDM-ACLPT -DLCLPT -DF* Refers to 5CLPT and 5NCLPT fuses only.** See page 70 for dimensions and diagrams of typical mounting.*** End fittings supplied only when required.† Disconnect mountings provide a means for fuse extraction only. Do not use a disconnect mounting for load switching or fuse removal while energized.Dimensions (see catalog number tables for values)Recommended fuseclips:Open fuseclip for 1.0 (25.4 mm) dia. fuses A3354705 Open fuseclip for 1.56 (39.7 mm) / 1.6 (40.6 mm) dia. fuses1A08355.5 kV time-current curves — minimum melting for 5NCLPT-_-A5NCLPT-_E5.5 kV time-current curves — total clearing for 5NCLPT-_-A5NCLPT-_E5.5 kV peak let-through curves for 5NCLPT-_-A5NCLPT-_E 0.5E-A1E-A & 2E 5E-A3E10E5.5 kV Time-current curves — total clearing for 5CLPT_5CLPT-_Curve TC56353306 August 20115.5 kV peak let-through curves for 5CLPT_5CLPT-_Curve TC63934001March 20135.5 kV time-current curves — minimum melting for 5.5CAV_ and 5.5CAVH_5.5CAV_, 5.5CAVH_5.5 kV time-current curves — total clearing for 5.5CAV_5.5CAV_5.5 kV peak let-through curves for 5.5CAVH_5.5CAVH_P e a k c u t -o f f c u r r e n t i n a m p sRMS Symmetrical prospective current in amps100100010,000100,0000.010.11105.5 kV time-current curves — minimum melting for 5.5ABW_ and 5.5AMW_5.5ABW_, 5.5AMW_5.5 kV time-current curves — total clearing for 5.5ABW_ and 5.5AMW_5.5ABW_, 5.5AMW_5.5 kV peak let-through curves for 5.5ABW_ and 5.5AMW_7.2 kV maximum system voltage1A18371 5.6 (142)0.8 (20) 4.8 (122)—7.2AMWNA1.0E (50)2 5.6 (142)0.8 (20) 4.8 (122)—7.2AMWNA2.0E (50)28.7 (221) 1.6 (41)7.5 (190)—7.2CAV2 (40)1A08353 5.6 (142)0.8 (20) 4.8 (122)—7.2AMWNA3.0E (50)1A18373.15 5.6 (142) 1 (25.4) 4.4 (112)—7.2ABWNA3.15 (45)A33547053.157.7 (195) 1 (25.4) 6.5 (165)—7.2ABCNA3.15 (45)4 5.6 (142)0.8 (20) 4.8 (122)—7.2AMWNA4.0E (50)1A183748.7 (221) 1.6 (41)7.5 (190)—7.2CAV4 (40)1A08355 5.6 (142)0.8 (20) 4.8 (122)—7.2AMWNA5E (50)1A183768.7 (221) 1.6 (41)7.5 (190)—7.2CAV6 (40)1A08356.3 5.6 (142) 1 (25.4) 4.4 (112)—7.2ABWNA6.3 (45)A33547056.37.7 (195) 1 (25.4) 6.5 (165)—7.2ABCNA6.3 (45)108.7 (221)1.6 (41)7.5 (190)—7.2CAV10 (40)1A0835Dimensions (see catalog number tables for values)Recommended fuseclipsOpen fuseclip for 1.0 (25.4 mm) dia. fusesA3354705Open fuseclip for 1.56 (39.7 mm) / 1.6 (40.6 mm) dia. fuses1A08357.2 kV time-current curves — minimum melting for 7.2ABW_ and 7.2CAV_7.2ABW_, 7.2CAV_7.2 kV peak let-through curves for 7.2ABW_8.3 kV maximum system voltage1 5 (127) 1.1 (28) 4 (102)—8NCLPT-1E (50)A335470519.5 (241) 1.6 (41)8.1 (206)—8NCLPT-1E-A (50)1A083528 (203)0.8 (20)7.2 (183)—8NCLPT-2E (25)1A183729.5 (241) 1.6 (41)8.1 (206)—8NCLPT-2E-A (50)1A0835 312.9 (328) 1.6 (41)11.5 (292)8CLPT-3E (50)8NCLPT-3E-B (50)48 (203)0.8 (20)7.2 (183)—8NCLPT-4E (25)1A18375 5 (127) 1.1 (28) 4 (102)—8NCLPT-5E (50)A3354705512.9 (328) 1.6 (41)11.5 (292)8CLPT-5E (50)8NCLPT-5E-B (50)1A08358 5 (127) 1.1 (28) 4 (102)—8NCLPT-8E (50)1012.9 (328) 1.6 (41)11.5 (292)8CLPT-10E (50)8NCLPT-10E-B (50)† Does not comply with ANSI C37.46 for “E” rating.CLPT type mountings and hardware 8.3 kV maximum (7.2 kV nominal)*0.5–2Disconnect†758CLPT-PDM-A8CLPT-GDM-A CLPT-DL CLPT-DF3–10Non-disconnect758CLPT-PNM-B8CLPT-GNM-B CLPT-NL—Disconnect†758CLPT-PDM-B8CLPT-GDM-B CLPT-DL CLPT-DF* Refers to 8CLPT and 8NCLPT-A or -B fuses only.** See page 70 for dimensions and diagrams of typical mounting.*** End fittings supplied only when required.† Disconnect mountings provide a means for fuse extraction only. Do not use a disconnect mounting for load switching or fuse removal while energized. Dimensions (see catalog number tables for values)Recommended fuseclips:Open fuseclip for 1.0 (25.4 mm) dia. fuses A3354705Open fuseclip for 1.56 (39.7 mm) / 1.6 (40.6 mm) dia. fuses1A08358.3 kV time-current curves — minimum melting for 8NCLPT_8NCLPT-_Curve 59887102July 2002Reference # 628852, 598871Curve TC56357206 December 20088.3 kV time-current curves — total clearing for 8NCLPT_8NCLPT-_Curve 59887104July 2002Reference # 598871Curve TC59883706 December 20088.3 kV peak let-through curves for 8NCLPT_8NCLPT-_Curve 63933703July 2001Reference # 639337Curve TC63933704December 20081E5E2E4E8E8.3 kV time-current curves — minimum melting for 8CLPT_8CLPT-_Curve TC56353206 December 20130.5 A fuse melt time in the dotted line region may not be assured due to manufacturing variations. The dotted lines show nominal operation. Some individual fuses may not open until current at 10-second mark is applied.8.3 kV time-current curves — total clearing for 8CLPT_8CLPT-_Curve TC56353306March 20138.3 kV peak let-through curves for 8CLPT_8CLPT-_Curve TC63934001March 20138.3 kV time-current curves — minimum melting for 8NCLPT-_E-A/B8NCLPT-_E-A/B Curve TC70548303December 20088.3 kV time-current curves — total clearing for 8NCLPT-_E--A/B8NCLPT-_E-A/B Curve TC70548403December 20088.3 kV peak let-through curves for 8NCLPT-_E-A/B8NCLPT-_E-A/B Curve TC63934002December 200812 kV maximum system voltage3.157.7 (195) 1 (25) 6.5 (165)—12ABCNA3.15 (45)A3354705Recommended fuseclips:Open fuseclip for 1.56 (39.7 mm) / 1.6 (40.6 mm) dia. fuses1A083512 kV time-current curves — minimum melting for 12ABC_ and 12CAV_12ABC_, 12CAV_12 kV peak let-through curves for 12ABC_15.5 kV maximum system voltage1A0835112.9 (328) 1.6 (41)11.5 (292)15.5CAVH1E (80)15NCLPT -1E-A (50)212.9 (328) 1.6 (41)11.5 (292)15.5CAVH2E (80)15NCLPT -2E (50)312.9 (328) 1.6 (41)11.5 (292)—15.5CAV3E (80)317.6 (447) 1.6 (41)16.1 (409)—15NCLPT -3E (50)317.6 (447) 1.6 (41)16.1 (409)15CLPT -3E (50)—512.9 (328) 1.6 (41)11.5 (292)—15.5CAV5E (80)517.6 (447) 1.6 (41)16.1 (409)15CLPT -5E (50)15NCLPT -5E (50)712.9 (328) 1.6 (41)11.5 (292)—15.5CAV7E (80)1017.6 (447) 1.6 (41)16.1 (409)15CLPT -10E (50)15NCLPT -10E (50)CLPT Type mountings and hardware 15.5 kV maximum (14.4 kV nominal)0.5–2disconnect 9515CLPT -PNM-A 15CLPT -GNM-A CLPT -NL —Disconnect †9515CLPT -PDM-A 15CLPT -GDM-A CLPT -DL CLPT -DF 3–10Non-disconnect 9515CLPT -PNM-B 15CLPT -GNM-B CLPT -NL CLPT -DF Disconnect †9515CLPT -PDM-B15CLPT -GDM-BCLPT -DL—*See page 70 for dimensions and diagrams of typical mounting.** End fittings supplied only when required.†Disconnect mountings provide a means for fuse extraction only. Do not use a disconnect mounting for load switching or fuse removal while energized.Dimensions (see catalog number tables for values)Recommended fuseclips:15.5 kV time-current curves — minimum melting for 15CLPT_15CLPT-_Curve TC56353206August 201115.5 kV time-current curves — total clearing for 15CLPT_15CLPT-_E15.5 kV peak let-through curves for 15CLPT_15CLPT-_Curve TC63934001March 201315.5 kV time-current curves — minimum melting for 15NCLPT_15NCLPT-_Curve TC70548303December 200815.5 kV Time-current curves — total clearing for 15NCLPT_15NCLPT-_Curve TC70548403December 200815.5 kV Peak let-through curves for 15NCLPT_15NCLPT-_Curve TC63934002December 200815.5 kV time-current curves — minimum melting for 15.5CAV_ and 15.5CAVH_15.5CAV_, 15.5CAVH_15.5 kV time-current curves — total clearing for 15.5CAVH_15.5 kV peak let-through curves for 15.5CAVH_15.5CAVH_RMS SYMMETRICAL PROSPECTIVE CURRENT IN KILOAMPS17.5 kV maximum system voltage8.7 (221) 1.6 (41)7.5 (190)1A08354—17.5CAV4 (40)6—17.5CAV6 (40)10—17.5CAV10 (40)Dimensions (see catalog number tables for values)Recommended fuseclips:17.5 kV time-current curves — minimum melting for 17.5CAV_7.5CAV_。

User's ManualCFM/CMM Thermo Anemometer Model AN100Model AN100 Version 2.0 02/062 IntroductionCongratulations on your purchase of the Extech AN100 CFM/CMM Thermo Anemometer. This instrument measures Air Velocity, Air Flow (volume) andTemperature. The large, easy-to-read backlit LCD includes primary and secondary displays plus numerous status indicators. The meter is shipped fully tested and calibrated and with proper use will provide years of reliable service.•MAX/MIN Used to record and store the highest, lowest and average airflow or velocity readings.◄ (LEFT) also serves as change decimal point button in AREA mode•UNITS Press to select the mode of operation. In FLOW mode, the meter displays air volume . In VELOCITY mode, the meter displays air speed . ▲(UP) also serves as increase number button in AREA mode.• AVG Used to Average multiple readings in FLOW or VELOCITY mode. Up to 20 readings can be averaged.•HOLD Press to freeze the displayed reading. Press again to unlock display. This button also functions as the ►RIGHT scroll button in AREA mode and RECALL mode.• AREA Press and hold to manually enter the area of a duct in CFM or CMM mode • In AREA mode, used to select memory locations 1-8. • • MAX/MIN (Temperature) Used to record and store the highest, lowest readings for air temperature.•°C °F HOLD (Temperature) Press to freeze the displayed temperature reading. Press again to unlock the display. Press and hold for 3 seconds to switch between °C and °F. Meter will beep twice to indicate change.Battery compartment located on the back of the instrument. The rubber protective jacket must be removed from the meter to access the compartment.Display Layout•MAX (top of LCD): Max Hold function engaged for the Air Temperature function •HOLD (top of LCD): Data Hold function engaged for the Air Temperature function •VEL: indicates that meter is in air velocity mode•FLOW: indicates that meter is in air flow mode•MAX (bottom of LCD): Max Hold for the IR Temperature and RH function•HOLD (bottom of LCD): Data Hold for the IR Temperature function and RH function •o C / o F: Temperature units of measure•CFM/CMM: airflow units of measure•Ft2, m2: units for area dimensions•m/s, ft/min, km/h, MPH, knots: air velocity units of measure•X10, X100: multipliers for air flow readings•AVG: air averaging mode•RECORD: indicates that min/max function is running (top for temp, bottom for air) •Large LCD digits at center of display for Relative Humidity and IR Temperature •Smaller LCD digits at top, right of display for Probe Temperature•Model AN100 Version 2.0 02/06 3Model AN100 Version 2.0 02/064 OperationConnecting the Vane1. The vane plug is inserted in the meter’s sensor jack at the top of the meter. The plugand jack are keyed so that the plug can only fit in the jack one way. 2. Turn the plug carefully until it lines up with the jack and then firmly push the plug inplace. Do not apply undue force or try to twist the plug side-to-side. 3. If the vane is not connected to the meter or if the sensor is defective, the LCD displaywill indicate OL in place of a Temperature reading.1. 2. Press UNITS button to select the desired unit ofmeasure. NOTE: At power up the meter will display the last unit of measure previously entered. 3. Place the sensor in the air stream. Ensure thatthe air enters the vane as indicated by the arrow sticker placed inside the vane. 4. View the readings on the LCD Display. Thelarge main LCD display shows the Air Velocity reading. The upper right LCD sub-display shows the temperature reading. Air Velocity Averaging Mode1. To enter 20 Point Averaging Mode, press and hold the AVG button until it beeps twice.The AVG icon will be displayed. 2. Take a measurement and press the AVG button. A single beep will sound and theHOLD icon will appear in the display. 3. The average reading will be displayed and number of readings measured will appear inthe upper right hand corner of the display. After 5 seconds, the display will return to the current reading. 4. Repeat steps 2 - 3 until the desired number of points have been measured.5. To return to standard velocity measuring mode press and hold AVG button until meterbeeps twice. Note: In the standard velocity measuring mode, press the AVG button once to recall theprevious average. The average will be cleared when you enter the Averaging Mode again.ArrowSide view of VaneModel AN100 Version 2.0 02/065 Air Flow Measurements (CMM / CFM) 1.2. Press the UNITS button to select the desired air flowunits: CMM (cubic meters per minute) or CFM (cubic feet per minute). NOTE: At power up the meter will display the last unit of measure previously entered. 3.To begin entering the area in m 2or ft 2, press and hold the AREA button until it beeps twice. Theleftmost digit of the bottom display will begin to flash. 4. Use the ▲ (UP) button to change the flashing digitUse the ◄ (LEFT) button to move the decimal Use ► (RIGHT) button to select the other digits.After all of the digits are entered, press and hold theAREA button (until meter beeps twice) to save the area into memory and return to CFM or CMM measuring mode. 5.Place the sensor in the air stream. Ensure that the air enters the vane as indicated by the arrow sticker placed inside the vane. Refer to the diagram. The large main LCD display shows the Air Velocity reading. The upper right LCD sub-display shows the temperature reading.The meter has 16 memory locations (8 for CFM and 8 for CMM) that can be used to store commonly used area sizes that you can recall at anytime.1. Press the AREA button until meter beeps twice. A memory location number willappear in the top right of the display indicating the memory location. 2. Push the NEXT button to scroll thru and select the desired location. Once you haveselected the desired memory location enter your dimensionUse the ▲ (UP) button to change the flashing digit Use the ◄ (LEFT) button to move the decimalUse ► (RIGHT) button to select the other digits. After all of the digits are entered, press and hold the AREA button (until it beeps twice) to save the area into memory and return to CFM or CMM measuring mode.To select and use a previously stored dimension, press and hold the AREA button until it beeps twice.Press NEXT to scroll thru the 8 memory locations. Press and hold the AREA button until it beeps twice to return to CFM or CMM measuring mode. Air Flow Averaging Mode1. To enter 20 Point Averaging Mode, press and hold the AVG button until it beeps twice.The AVG icon will be displayed. 2. Take a measurement and press the AVG button. A single beep will sound and theHOLD icon will appear in the display. 3. The average reading will be displayed and number of readings measured will appear inthe upper right hand corner of the display. After 5 seconds, the display will return to the current reading. 4. Repeat steps 2 - 3 until the desired number of points have been measured.5. To return to standard airflow measuring mode press and hold AVG button until meterbeeps twice. Note: In the standard velocity measuring mode, press the AVG button once to recall theprevious average. The average will be cleared when you enter the Averaging Mode again.ArrowSide view of VaneData Hold (Air Velocity/Air Flow)1. While taking measurements, press the HOLD button to freeze the air velocity/air flowreading.2. The HOLD indicator will appear in the bottom of the LCD display.3. Press HOLD again to return to normal operation.MAX/MIN/AVG Record (Air Velocity/Air Flow)This allows the user to record and view the highest (MAX), lowest (MIN) and average (AVG) readings.1. Press the button MAX/MIN button. The MAX indicator and RECORD indicator alongwith the Max reading will appear on the LCD display and the meter will begin keeping track of the MAX, MIN and Average values.2. Press the MAX/MIN button again to view the minimum reading. The MIN indicatoralong with the minimum reading will appear on the LCD display.3. Press the MAX/MIN button again to view the average reading. The AVG indicatoralong with the average reading will appear on the LCD display.4. Press the MAX/MIN button again to display current readings. NOTE: the meter willkeep recording MAX/MIN/AVG readings.5. To clear and stop MAX/MIN/AVG recording and return to normal operation, press andhold the MAX/MIN button until the meter beeps twice.Automatic Power OFFTo conserve battery life, the meter automatically turns off after 20 minutes. To defeat this feature:1.2.3.disabled.4. Note that AUTO POWER OFF is re-enabled each time the meter is turned on.5. Also note that AUTO POWER OFF is disabled in CFM/CMM or Average mode.Battery ReplacementWhen appears on the LCD, the 9V battery must be replaced.1. Disconnect the sensor.2. Remove the meter’s rubber protective jacket3. Use a Phillips screwdriver to open the rear battery compartment4. Replace the 9V battery5. Close the battery compartment and replace the meter’s protective jacketModel AN100 Version 2.0 02/066Model AN100 Version 2.0 02/067 SpecificationsAir Velocity Range Resolution Accuracy m/s (meters per sec) 0.40 - 30.00 m/s 0.01 m/s ± (3% + 0.20 m/s)km/h (kilometers/hour) 1.4 - 108.0 km/h 0.1 km/h ± (3% + 0.8 km/hr)ft/min (feet per minute) 80 – 5900 ft/min 1 ft/min ± (3% + 40 ft/m) mph (miles per hour) 0.9 – 67.0 mph 0.1 mph ± (3% + 0.4 MPH)knots (nautical MPH) 0.8 to 58.0 knots 0.1 knots± (3% + 0.4 knots)Air FlowRange Resolution AreaCMM (cubic meters/min) 0-9999 m 3/min 1 0 to 9.999m 2CFM (cubic ft/min) 0-9999 ft 3/min 1 0 to 9.999ft 2 Range Resolution AccuracyAir Temperature14 - 140oF (-10 - 60oC)0.1oF/C4.0oF (2.0o C)Circuit Custom LSI microprocessor circuitDisplayDual function 0.5" (13 mm) 4-digit LCD Sampling rate1 reading per second approx.SensorsAir velocity/flow sensor: Conventional angled vane arms with low-friction ball bearingTemperature sensor: NTC-type precision thermistorAutomatic Power off Auto shut off after 20 minutes to preserve battery life Operating Temperature 32°F to 122°F (0°C to 50°C)Storage Temperature 14 to 140o F (-10 to 60oC) Operating Humidity <80% RH Storage Humidity <80% RH Operating Altitude 2000 meters (7000ft) maximum Battery One 9 volt (NEDA 1604) battery Battery life 80 hours approx. (if the Backlight is used continuously, batterylife will be reduced significantly)Battery Current 8.3 mA DC approx. Weight 1.6 lbs. (725g) including battery & probe DimensionsMain instrument: 7.0 x 2.9 x1.2" (178 x 74 x 33mm)Sensor Head: 2.75” (70mm) DiameterModel AN100 Version 2.0 02/068Support line (781) 890-7440Technicalsupport:Extension200;E-mail:******************Repair&Returns:Extension210;E-mail:*****************Product specifications subject to change without notice For the latest version of this User’s Guide, Software updates, and other up-to-the-minute product information, visit our website: Extech Instruments Corporation, 285 Bear Hill Rd., Waltham, MA 02451 WarrantyEXTECH INSTRUMENTS CORPORATION warrants this instrument to be free of defects in parts and workmanship for one year from date of shipment (a six month limited warranty applies to sensors and cables). If it should become necessary to return the instrument for service during or beyond the warranty period, contact the Customer Service Department at (781) 890-7440 ext. 210 for authorization or visit our website for contact information. A Return Authorization (RA) number must be issued before any product is returned to Extech. The sender is responsible for shipping charges, freight, insurance and proper packaging to prevent damage in transit. This warranty does not apply to defects resulting from action of the user such as misuse, improper wiring, operation outside of specification, improper maintenance or repair, or unauthorized modification. Extech specifically disclaims any implied warranties or merchantability or fitness for a specific purpose and will not be liable for any direct, indirect, incidental or consequential damages. Extech's total liability is limited to repair or replacement of the product. The warranty set forth above is inclusive and no other warranty, whether written or oral, is expressed or implied.Calibration and Repair ServicesExtech offers repair and calibration services for the products we sell. Extech also provides NIST certification for most products. Call the Customer Service Department for information on calibration services available for this product. Extech recommends that annual calibrations be performed to verify meter performance and accuracy.Copyright © 2006 Extech Instruments CorporationAll rights reserved including the right of reproduction in whole or in part in any form.Model AN100 Version 2.0 02/069Useful Equations and ConversionsArea equation for rectangular or square ductsArea equation for circular ductsCubic equationsNOTE: Measurements made in inchesmust be converted to feet or meters before using the above formulae.Unit of Measure Conversion Tablem/s ft/min knots km/h MPH 1 m/s 1 196.87 1.944 3.6 2.24 1 ft/min 0.00508 1 0.00987 0.01829 0.01138 1 knot 0.5144 101.27 1 1.8519 1.1523 1 km/h 0.2778 54.69 0.54 1 0.6222 1 MPH0.446487.890.86791.60711Width (W)Height (H)Area (A) = Width (W) x Height (H) CFM (ft 3/min) = Air Velocity (ft/min) x Area (ft 2) CMM (m 3/min) = Air Velocity (m/sec) x Area (m 2) x 60RadiusArea (A) = x r 2Where = 3.14 and r 2= radius x radius。