施耐德ATV变频器说明书

T h e i n f o r m a t i o n p r o v i d e d i n t h i s d o c u m e n t a t i o n c o n t a i n s g e n e r a l d e s c r i p t i o n s a n d /o r t e c h n i c a l c h a r a c t e r i s t i c s o f t h e p e r f o r m a n c e o f t h e p r o d u c t s c o n t a i n e d h e r e i n .T h i s d o c u m e n t a t i o n i s n o t i n t e n d e d a s a s u b s t i t u t e f o r a n d i s n o t t o b e u s e d f o r d e t e r m i n i n g s u i t a b i l i t y o r r e l i a b i l i t y o f t h e s e p r o d u c t s f o r s p e c i f i c u s e r a p p l i c a t i o n s .I t i s t h e d u t y o f a n y s u c h u s e r o r i n t e g r a t o r t o p e r f o r m t h e a p p r o p r i a t e a n d c o m p l e t e r i s k a n a l y s i s , e v a l u a t i o n a n d t e s t i n g o f t h e p r o d u c t s w i t h r e s p e c t t o t h e r e l e v a n t s p e c i f i c a p p l i c a t i o n o r u s e t h e r e o f .N e i t h e r S c h n e i d e r E l e c t r i c I n d u s t r i e s S A S n o r a n y o f i t s a f f i l i a t e s o r s u b s i d i a r i e s s h a l l b e r e s p o n s i b l e o r l i a b l e f o r m i s u s e o f t h e i n f o r m a t i o n c o n t a i n e d h e r e i n .Product data sheetCharacteristicsATV61HD22N4ZSPEEDDRIVE 30HP,460V,ATV61LEDKEYPADMainRange of product Altivar 61Product or component typeVariable speed driveProduct specific appli-cationPumping and ventilation machine Component name ATV61Motor power kW 22 kW 3 phases at 380...480 V Motor power hp 30 hp 3 phases at 380...480 V Power supply voltage 380...480 V (- 15...10 %)Supply number of phases 3 phasesLine current 50 A for 380 V 3 phases 22 kW / 30 hp 42 A for 480 V 3 phases 22 kW / 30 hp EMC filter Level 3 EMC filterVariant Without remote graphic terminal Assembly style With heat sinkApparent power 32.9 kVA for 380 V 3 phases 22 kW / 30 hp Maximum prospective line Isc22 kA 3 phases Maximum transient cur-rent57.6 A for 60 s 3 phases Nominal switching fre-quency12 kHzSwitching frequency 12...16 kHz with derating factor 1...16 kHz adjustableAsynchronous motor controlVoltage/Frequency ratio, 2 points Voltage/Frequency ratio, 5 pointsFlux vector control without sensor, standardVoltage/Frequency ratio - Energy Saving, quadratic U/fSynchronous motor control profile Vector control without sensor, standard Communication port protocolCANopen ModbusType of polarization No impedance for ModbusOption cardProfibus DP V1 communication card Profibus DP communication card Multi-pump cardModbus/Uni-Telway communication card Modbus TCP communication card Modbus Plus communication card METASYS N2 communication card LonWorks communication card Interbus-S communication card I/O extension cardFipio communication cardEthernet/IP communication card DeviceNet communication cardController inside programmable card CC-Link communication card BACnet communication cardAPOGEE FLN communication cardComplementaryProduct destination Asynchronous motorsSynchronous motorsPower supply voltage limits323...528 VPower supply frequency50...60 Hz (- 5...5 %)Power supply frequency limits47.5...63 HzContinuous output current48 A at 12 kHz, 380 V 3 phases40 A at 12 kHz, 460 V 3 phasesSpeed drive output frequency0.1...599 HzSpeed range 1...100 in open-loop mode, without speed feedbackSpeed accuracy+/- 10 % of nominal slip for 0.2 Tn to Tn torque variation without speed feedback Torque accuracy+/- 15 % in open-loop mode, without speed feedbackTransient overtorque130 % of nominal motor torque, +/- 10 % for 60 sBraking torque30 % without braking resistor<= 125 % with braking resistorRegulation loop Frequency PI regulatorMotor slip compensation AdjustableAutomatic whatever the loadCan be suppressedNot available in voltage/frequency ratio (2 or 5 points)Diagnostic 1 LED red presence of drive voltageOutput voltage<= power supply voltageElectrical isolation Between power and control terminalsType of cable for mounting in an enclosure Without mounting kit : 1-strand IEC cable at 45 °C, copper 90 °C XLPE/EPRWithout mounting kit : 1-strand IEC cable at 45 °C, copper 70 °C PVCWith UL Type 1 kit : 3-strand UL 508 cable at 40 °C, copper 75 °C PVCWith an IP21 or an IP31 kit : 3-strand IEC cable at 40 °C, copper 70 °C PVC Electrical connection L1/R, L2/S, L3/T, U/T1, V/T2, W/T3, PC/-, PO, PA/+, PA, PB terminal 50 mm² /AWG 1/0AI1-/AI1+, AI2, AO1, R1A, R1B, R1C, R2A, R2B, LI1...LI6, PWR terminal 2.5mm² / AWG 14Tightening torque L1/R, L2/S, L3/T, U/T1, V/T2, W/T3, PC/-, PO, PA/+, PA, PB 12 N.m / 106.2 lb.inAI1-/AI1+, AI2, AO1, R1A, R1B, R1C, R2A, R2B, LI1...LI6, PWR 0.6 N.m Supply Internal supply 24 V DC (21...27 V), <= 200 mA for overload and short-circuit pro-tectionInternal supply for reference potentiometer (1 to 10 kOhm) 10.5 V DC +/- 5 %, <=10 mA for overload and short-circuit protectionExternal supply 24 V DC (19...30 V), 30 WAnalogue input number2Analogue input type AI2 software-configurable voltage 0...10 V DC, input voltage 24 V max,impedance 30000 Ohm, resolution 11 bitsAI2 software-configurable current 0...20 mA, impedance 242 Ohm, resolution 11bitsAI1-/Al1+ bipolar differential voltage +/- 10 V DC, input voltage 24 V max, resolu-tion 11 bits + signSampling time Discrete input LI6 (if configured as logic input) 2 ms, +/- 0.5 msDiscrete input LI1...LI5 2 ms, +/- 0.5 msAnalog output AO1 2 ms, +/- 0.5 msAnalog input Al2 2 ms, +/- 0.5 msAnalog input AI1-/Al1+ 2 ms, +/- 0.5 msAbsolute accuracy precision AO1 +/- 1 % for a temperature variation 60 °CAI2 +/- 0.6 % for a temperature variation 60 °CAI1-/Al1+ +/- 0.6 % for a temperature variation 60 °CLinearity error AO1 +/- 0.2 %AI2 +/- 0.15 % of maximum valueAI1-/Al1+ +/- 0.15 % of maximum valueAnalogue output number1Analogue output type AO1 software-configurable logic output 10 V, <= 20 mAAO1 software-configurable voltage, analogue output range 0...10 V DC,impedance 470 Ohm, resolution 10 bitsAO1 software-configurable current, analogue output range 0...20 mA, impedance500 Ohm, resolution 10 bitsDiscrete output number2Discrete output type(R2A, R2B) configurable relay logic NO, electrical durability 100000 cycles(R1A, R1B, R1C) configurable relay logic NO/NC, electrical durability 100000 cy-clesMaximum response time R2A, R2B <= 7 ms, tolerance +/- 0.5 msR1A, R1B, R1C <= 7 ms, tolerance +/- 0.5 ms<= 100 ms in STO (Safe Torque Off)Minimum switching current Configurable relay logic 3 mA at 24 V DCMaximum switching current R1, R2 on resistive load, 5 A at 30 V DC, cos phi = 1, L/R = 0 msR1, R2 on resistive load, 5 A at 250 V AC, cos phi = 1, L/R = 0 msR1, R2 on inductive load, 2 A at 30 V DC, cos phi = 0.4, L/R = 7 msR1, R2 on inductive load, 2 A at 250 V AC, cos phi = 0.4, L/R = 7 ms Discrete input number7Discrete input type(PWR) safety input, 24 V DC, voltage limits <= 30 V, impedance 1500 Ohm(LI6) switch-configurable PTC probe, 0...6, impedance 1500 Ohm(LI6) switch-configurable, 24 V DC, voltage limits <= 30 V, with level 1 PLC,impedance 3500 Ohm(LI1...LI5) programmable, 24 V DC, voltage limits <= 30 V, with level 1 PLC,impedance 3500 OhmDiscrete input logic LI6 (if configured as logic input) positive logic (source), < 5 V (state 0), > 11 V(state 1)LI6 (if configured as logic input) negative logic (sink), > 16 V (state 0), < 10 V(state 1)LI1...LI5 positive logic (source), < 5 V (state 0), > 11 V (state 1)LI1...LI5 negative logic (sink), > 16 V (state 0), < 10 V (state 1) Acceleration and deceleration ramps Automatic adaptation of ramp if braking capacity exceeded, by using resistorLinear adjustable separately from 0.01 to 9000 sS, U or customizedBraking to standstill By DC injectionProtection type Motor thermal protectionMotor power removalMotor motor phase breakDrive thermal protectionDrive short-circuit between motor phasesDrive power removalDrive overvoltages on the DC busDrive overheating protectionDrive overcurrent between output phases and earthDrive line supply undervoltageDrive line supply overvoltageDrive input phase breaksDrive break on the control circuitDrive against input phase lossDrive against exceeding limit speedInsulation resistance> 1 mOhm at 500 V DC for 1 minute to earthFrequency resolution Display unit 0.1 HzAnalog input 0.024/50 HzType of connector Male SUB-D 9 on RJ45 for CANopen1 RJ45 for Modbus on terminal1 RJ45 for Modbus on front facePhysical interface2-wire RS 485 for ModbusTransmission frame RTU for ModbusTransmission rate20 kbps, 50 kbps, 125 kbps, 250 kbps, 500 kbps, 1 Mbps for CANopen9600 bps, 19200 bps for Modbus on front face4800 bps, 9600 bps, 19200 bps, 38.4 Kbps for Modbus on terminalData format8 bits, odd even or no configurable parity for Modbus on terminal8 bits, 1 stop, even parity for Modbus on front faceNumber of addresses 1...247 for Modbus1...127 for CANopenMethod of access Slave for CANopenMarking CEOperating position Vertical +/- 10 degreeProduct weight30 kgWidth240 mmHeight420 mmDepth236 mmEnvironmentNoise level59.9 dB conforming to 86/188/EECDielectric strength5092 V DC between control and power terminals3535 V DC between earth and power terminalsElectromagnetic compatibility Voltage dips and interruptions immunity test conforming to IEC 61000-4-11Radiated radio-frequency electromagnetic field immunity test conforming to IEC61000-4-3 level 3Electrostatic discharge immunity test conforming to IEC 61000-4-2 level 3Electrical fast transient/burst immunity test conforming to IEC 61000-4-4 level 4Conducted radio-frequency immunity test conforming to IEC 61000-4-6 level 3 Standards EN 55011 class A group 2EN 61800-3 environments 1 category C3EN 61800-3 environments 2 category C3EN/IEC 61800-3EN/IEC 61800-5-1IEC 60721-3-3 class 3C1IEC 60721-3-3 class 3S2UL Type 1Product certifications CSAC-TickDNVGOSTNOM 117ULPollution degree 3 conforming to UL 8403 conforming to EN/IEC 61800-5-1Degree of proctection IP54 on lower part conforming to EN/IEC 61800-5-1IP54 on lower part conforming to EN/IEC 60529IP41 on upper part conforming to EN/IEC 61800-5-1IP41 on upper part conforming to EN/IEC 60529IP21 conforming to EN/IEC 61800-5-1IP21 conforming to EN/IEC 60529IP20 on upper part without blanking plate on cover conforming to EN/IEC61800-5-1IP20 on upper part without blanking plate on cover conforming to EN/IEC 60529 Vibration resistance 1.5 mm peak to peak (f = 3...13 Hz) conforming to EN/IEC 60068-2-61 gn (f = 13...200 Hz) conforming to EN/IEC 60068-2-6Shock resistance15 gn for 11 ms conforming to EN/IEC 60068-2-27Relative humidity 5...95 % without dripping water conforming to IEC 60068-2-35...95 % without condensation conforming to IEC 60068-2-3Ambient air temperature for operation50...60 °C with derating factor-10...50 °C without deratingAmbient air temperature for storage-25...70 °COperating altitude1000...3000 m with current derating 1 % per 100 m<= 1000 m without deratingOffer SustainabilitySustainable offer status Green Premium productRoHS (date code: YYWW)Compliant - since 0946 -Schneider Electric declaration of conformity REACh Reference contains SVHC above the threshold -go to CaP for more details Product environmental profile Available Download Product EnvironmentalProduct end of life instructions Available Download End Of Life ManualProduct data sheetATV61HD22N4Z Dimensions DrawingsVariable Speed Drives without Graphic Display TerminalDimensions without Option CardDimensions in mmDimensions in in.Dimensions with 1 Option Card (1)Dimensions in mmDimensions in in.(1) Option cards: I/O extension cards, communication cards or "Controller Inside” programmable card.Dimensions with 2 Option Cards (1)Dimensions in mmDimensions in in.(1) Option cards: I/O extension cards, communication cards or "Controller Inside” programmable card.Product data sheetATV61HD22N4ZMounting and ClearanceMounting RecommendationsDepending on the conditions in which the drive is to be used, its installation will require certain precautions and the use of appropriate accessories.Install the unit vertically:●Avoid placing it close to heating elements●Leave sufficient free space to ensure that the air required for cooling purposes can circulate from the bottom to the top of the unit. ClearanceMounting TypesType A MountingType B MountingType C MountingBy removing the protective blanking cover from the top of the drive, the degree of protection for the drive becomes IP 20.The protective blanking cover may vary according to the drive model (refer to the user guide).Specific Recommendations for Mounting the Drive in an EnclosureVentilationTo ensure proper air circulation in the drive:●Fit ventilation grilles.●Ensure that there is sufficient ventilation. If there is not, install a forced ventilation unit with a filter. The openings and/or fans must providea flow rate at least equal to that of the drive fans (refer to the product characteristics).●Use special filters with IP 54 protection.●Remove the blanking cover from the top of the drive.Dust and Damp Proof Metal Enclosure (IP 54)The drive must be mounted in a dust and damp proof enclosure in certain environmental conditions: dust, corrosive gases, high humidity with risk of condensation and dripping water, splashing liquid, etc.This enables the drive to be used in an enclosure where the maximum internal temperature reaches 50°C.Product data sheetATV61HD22N4ZConnections and SchemaWiring Diagram Conforming to Standards EN 954-1 Category 1, IEC/EN 61508 Capacity SIL1, in Stopping Category 0 According to IEC/EN 60204-1Three-Phase Power Supply with Upstream Breaking via ContactorA1ATV61 driveKM1ContactorL1DC chokeQ1Circuit-breakerQ2GV2 L rated at twice the nominal primary current of T1Q3GB2CB05XB4 B or XB5 A pushbuttonsS1,S2T1100 VA transformer 220 V secondary(1)Line choke (three-phase); mandatory for ATV61HC11Y…HC80Y drives (except when a special transformer is used (12-pulse)).(2)For ATV61HC50N4, ATV61HC63N4 and ATV61HC50Y…HC80Y drives, refer to the power terminal connections diagram.(3)Fault relay contacts. Used for remote signalling of the drive status.(4)Connection of the common for the logic inputs depends on the positioning of the SW1 switch. The above diagram shows the internalpower supply switched to the “source” position (for other connection types, refer to the user guide).(5)There is no PO terminal on ATV61HC11Y…HC80Y drives.(6)Optional DC choke for ATV61H•••M3, ATV61HD11M3X…HD45M3X and ATV61H075N4…HD75N4 drives. Connected in place of thestrap between the PO and PA/+ terminals. For ATV61HD55M3X…HD90M3X, ATV61HD90N4…HC63N4 drives, the choke is supplied with the drive; the customer is responsible for connecting it. For ATV61W•••N4 and ATV61W•••N4C drives, the DC choke is integrated.(7)Software-configurable current (0…20 mA) or voltage (0…10 V) analog input.(8)Reference potentiometer.NOTE: All terminals are located at the bottom of the drive. Fit interference suppressors on all inductive circuits near the drive or connected on the same circuit, such as relays, contactors, solenoid valves, fluorescent lighting, etc.Wiring Diagram Conforming to Standards EN 954-1 Category 1, IEC/EN 61508 Capacity SIL1, in Stopping Category 0 According to IEC/EN 60204-1Three-Phase Power Supply with Downstream Breaking via Switch DisconnectorA1ATV61 driveL1DC chokeQ1Circuit-breakerQ2Switch disconnector (Vario)(1)Line choke (three-phase), mandatory for ATV61HC11Y…HC80Y drives (except when a special transformer is used (12-pulse)).(2)For ATV61HC50N4, ATV61HC63N4 and ATV61HC50Y…HC80Y drives, refer to the power terminal connections diagram.(3)Fault relay contacts. Used for remote signalling of the drive status.(4)Connection of the common for the logic inputs depends on the positioning of the SW1 switch. The above diagram shows the internalpower supply switched to the “source” position (for other connection types, refer to the user guide).(5)There is no PO terminal on ATV61HC11Y…HC80Y drives.(6)Optional DC choke for ATV61H•••M3, ATV61HD11M3X…HD45M3X and ATV61H075N4…HD75N4 drives. Connected in place of thestrap between the PO and PA/+ terminals. For ATV61HD55M3X…HD90M3X, ATV61HD90N4…HC63N4 drives, the choke is supplied with the drive; the customer is responsible for connecting it. For ATV61W•••N4 and ATV61W•••N4C drives, the DC choke is integrated.(7)Software-configurable current (0…20 mA) or voltage (0…10 V) analog input.(8)Reference potentiometer.NOTE: All terminals are located at the bottom of the drive. Fit interference suppressors on all inductive circuits near the drive or connected on the same circuit, such as relays, contactors, solenoid valves, fluorescent lighting, etc.Wiring Diagram Conforming to Standards EN 954-1 Category 3, IEC/EN 61508 Capacity SIL2, in Stopping Category 0 According to IEC/EN 60204-1Three-Phase Power Supply, Low Inertia Machine, Vertical MovementA1ATV61 drive A2Preventa XPS AC safety module for monitoring emergency stops and switches. One safety module can manage the “Power Removal”function for several drives on the same machine. In this case, each drive must connect its PWR terminal to its + 24 V via the safety contacts on the XPS AC module. These contacts are independent for each drive.F1Fuse L1DC choke Q1Circuit-breaker S1Emergency stop button with 2 contacts S2XB4 B or XB5 A pushbutton (1)Power supply: 24 Vdc or Vac, 115 Vac, 230 Vac.(2)S2: resets XPS AC module on power-up or after an emergency stop. ESC can be used to set external starting conditions.(3)Requests freewheel stopping of the movement and activates the “Power Removal” safety function.(4)Line choke (three-phase), mandatory for and ATV61HC11Y…HC80Y drives (except when a special transformer is used (12-pulse)).(5)The logic output can be used to signal that the machine is in a safe stop state.(6)For ATV61HC50N4, ATV61HC63N4 and ATV61HC50Y…HC80Y drives, refer to the power terminal connections diagram.(7)Fault relay contacts. Used for remote signalling of the drive status.(8)Connection of the common for the logic inputs depends on the positioning of the SW1 switch. The above diagram shows the internal power supply switched to the “source” position (for other connection types, refer to the user guide).(9)Standardized coaxial cable, type RG174/U according to MIL-C17 or KX3B according to NF C 93-550, external diameter 2.54 mm /0.09 in., maximum length 15 m / 49.21 ft. The cable shielding must be earthed.(10)There is no PO terminal on ATV61HC11Y…HC80Y drives.(11)Optional DC choke for ATV61H•••M3, ATV61HD11M3X…HD45M3X and ATV61H075N4…HD75N4 drives. Connected in place of the strap between the PO and PA/+ terminals. For ATV61HD55M3X…HD90M3X, ATV61HD90N4…HC63N4 drives, the choke is supplied with the drive; the customer is responsible for connecting it. For ATV61W•••N4 and ATV61W•••N4C drives, the DC choke is integrated.(12)Software-configurable current (0…20 mA) or voltage (0…10 V) analog input.(13)Reference potentiometer.NOTE: All terminals are located at the bottom of the drive. Fit interference suppressors on all inductive circuits near the drive or connected on the same circuit, such as relays, contactors, solenoid valves, fluorescent lighting, etc.Wiring Diagram Conforming to Standards EN 954-1 Category 3, IEC/EN 61508 Capacity SIL2, in Stopping Category 1 According to IEC/EN 60204-1Three-Phase Power Supply, High Inertia MachineA1ATV61 drive A2(5)Preventa XPS ATE safety module for monitoring emergency stops and switches. One safety module can manage the "Power Removal”safety function for several drives on the same machine. In this case the time delay must be adjusted on the drive controlling the motor that requires the longest stopping time. In addition, each drive must connect its PWR terminal to its + 24 V via the safety contacts on the XPS ATE module. These contacts are independent for each drive.F1Fuse L1DC choke Q1Circuit-breaker S1Emergency stop button with 2 contacts S2XB4 B or XB5 A pushbutton (1)Power supply: 24 Vdc or Vac, 115 Vac, 230 Vac.(2)Requests controlled stopping of the movement and activates the “Power Removal” safety function.(3)Line choke (three-phase), mandatory for ATV61HC11Y…HC80Y drives (except when a special transformer is used (12-pulse)).(4)S2: resets XPS ATE module on power-up or after an emergency stop. ESC can be used to set external starting conditions.(5)The logic output can be used to signal that the machine is in a safe state.(6)For stopping times requiring more than 30 seconds in category 1, use a Preventa XPS AV safety module which can provide a maximum time delay of 300 seconds.(7)For ATV61HC50N4, ATV61HC63N4 and ATV61HC50Y…HC80Y drives, refer to the power terminal connections diagram.(8)Fault relay contacts. Used for remote signalling of the drive status.(9)Connection of the common for the logic inputs depends on the positioning of the SW1 switch. The above diagram shows the internal power supply switched to the “source” position (for other connection types, refer to the user guide).(10)Standardized coaxial cable, type RG174/U according to MIL-C17 or KX3B according to NF C 93-550, external diameter 2.54 mm/0.09 in., maximum length 15 m/49.21 ft. The cable shielding must be earthed.(11)Logic inputs LI1 and LI2 must be assigned to the direction of rotation: LI1 in the forward direction and LI2 in the reverse direction.(12)There is no PO terminal on ATV61HC11Y…HC80Y drives.(13)Optional DC choke for ATV61H•••M3, ATV61HD11M3X…HD45M3X and ATV61H075N4…HD75N4 drives. Connected in place of the strap between the PO and PA/+ terminals. For ATV61HD55M3X…HD90M3X, ATV61HD90N4…HC63N4 drives, the choke is supplied with the drive; the customer is responsible for connecting it. For ATV61W•••N4 and ATV61W•••N4C drives, the DC choke is integrated.(14)Software-configurable current (0…20 mA) or voltage (0…10 V) analog input.(15)Reference potentiometer.NOTE: All terminals are located at the bottom of the drive. Fit interference suppressors on all inductive circuits near the drive or connected on the same circuit, such as relays, contactors, solenoid valves, fluorescent lighting, etc.Product data sheet Performance Curves ATV61HD22N4ZDerating CurvesThe derating curves for the drive nominal current (In) depend on the temperature, the switching frequency and the mounting type (A, B or C).For intermediate temperatures (e.g. 55°C), interpolate between 2 curves.X Switching frequencyNOTE: Above 50ºC, the drive should be fitted with a control card fan kit.。

T elemecanique异步电动机变频器用户手册警告当变频器通电时，动力元件和某些控制元件与进线电源连接。

触碰它们非常危险。

变频器盖必须保持紧闭。

在ALTIVAR断电，绿色LED灯熄灭后，应等待3到10分钟，电容器放电完毕后才能对设备进行操作。

在运行中可以通过禁止运行命令或速度给定使电机停机，变频器保持通电。

如果人员安全要求避免突然的重起动，则该电子锁定系统是不够的：应在动力电路上安装一个断路装置。

注意变频器安装有安全保护装置，在出现故障的情况下，可以切断变频器电源，继而切断电机电源。

电机本身可以通过机械阻塞停机。

此外，电压变化特别是进线电源故障也会导致停机。

如果停机的原因消失，则有可能存在重新起动的危险性，这会威胁某些机器或设备的安全，特别是那些要求必须遵守安全规范的设备。

在这种情况下用户必须采取措施预防这种可能的重起动，特别是可以在电机出现非正常停机时使用低速检测器来切断变频器电源。

设备应依照IEC标准各种规定的技术规范进行设计。

按照规程，在对设备或机器的电气或是机械部分进行任何操作之前，都必须断开变频器电源。

本文档中所述的产品和设备不论从技术角度或是操作方法上都有可能随时进行改变和修改。

其说明绝不应视为具有法律效力。

注意事项Altivar 38必须作为一个部件使用：它不是能够单独使用的符合欧洲条例 (设备以及电磁兼容性标准) 的机器或设备。

最终用户有责任确保所用设备能够满足这些标准。

变频器必须根据国际和国内标准进行安装和设置。

使设备符合标准要求是系统集成人员的责任，在欧盟其他国家中他们必须遵守EMC标准。

必须严格遵循本文档中的技术规范，以符合EMC标准的基本要求。

目录准备工作________________________________________________________________________2带散热器的变频器的选型____________________________________________________________3适用力矩________________________________________________________________________4技术规格________________________________________________________________________5尺寸 - 风机通风量_________________________________________________________________7安装和温度条件___________________________________________________________________8拆除IP 41保护盖板 ______________________________________________________________10壁挂式或落地式机箱的安装_________________________________________________________11端子连接-动力端子______________________________________________________________12控制端子 _______________________________________________________________________14电磁兼容性 - 接线________________________________________________________________15接线指南，使用_________________________________________________________________17接线图_________________________________________________________________________18键盘操作_______________________________________________________________________21访问菜单 _______________________________________________________________________22访问菜单 - 编程原则______________________________________________________________23宏配置________________________________________________________________________24 Display (显示) 菜单______________________________________________________________25 Adjust (调整) 菜单_______________________________________________________________26 Drive (传动) 菜单________________________________________________________________29 Control (控制) 菜单 ______________________________________________________________32I/O (输入/输出) 菜单_____________________________________________________________35可配置 I/O 的应用功能_____________________________________________________________39 Fault (故障) 菜单________________________________________________________________48 Files (文件) 菜单________________________________________________________________50 Communication and Application (通讯和应用) 菜单/返回出厂设定_________________________52操作 - 维护 - 备件及修理___________________________________________________________53故障 - 原因 - 处理办法_____________________________________________________________54配置和调整记录__________________________________________________________________57菜单汇总 _______________________________________________________________________59索引__________________________________________________________________________6212验收检查确认标签上印制的型号与购货订单所对应的交货单的型号一致。

施耐德变频器（ATV71L）功能参数说明菜单路径：电梯()→电梯宏() →电机数据（）参数 参数定义 参数设定值范围单位电机控制类型电机的控制类型异步电机闭环选同步电机闭环选电机额定功率异步电机的额定功率 按实际异步电机的额定功率KW电机额定电压异步电机的额定电压 按实际异步电机的额定电压 V电机额定电流异步电机的额定电流 按实际异步电机的额定电流 A电机额定频率异步电机的额定频率 按实际异步电机的额定频率 HZ电机额定速度异步电机的额定速度 按实际异步电机的额定速度 rpm同步电机极对数同步电机的极对数 按实际电机的极数/2同步电机额定电流同步电机的额定电流 按实际同步电机的额定电流 A同步电机额定速度同步电机的额定速度 按实际同步电机的额定速度 rpm同步电机转矩同步电机的额定转矩 按实际同步电机的额定转矩 Nm变频器电流限幅用于限制电机电流电机额定电流(乘以) x 1.8输入A自机自学习用于同步电机进行电机自整定没有进行电机自学习；进行电机自学习请求；已完成电机自学习；菜单路径：电梯()→电梯宏() →电梯数据（）参数 参数定义 参数设定值范围 单位电梯额定速度电梯的额定速度 按实际电梯额定速度 m/s电机额定载重量电梯启动转矩 700 Kg加速时间电梯启动时低速加速时间 3～4 S减速时间电梯减速停车段的减速时间12～30 (12) S 加速始端圆滑系数加速斜坡开始平滑时间 50%加速未端圆滑系数加速斜坡结束平滑时间 50%减速始端圆滑系数减速斜坡开始平滑时间 40%减速未端圆滑系数减速斜坡结束平滑时间 40%斜坡2切换阀值第二段斜坡曲线开始速度设置成电梯的爬行速度(数值=SP3内的值)HZ第2加速时间第2段曲线高速段加速时间3～6 S第2减速时间第2段曲线减速段时间2.0～5 (3.0)（只适用于≤1米梯速）S菜单路径：电梯()→电梯优化() →速度环（） 参数 参数定义 参数设定值范围 单位频率F环稳定性速度环比例增益，调整速度瞬变返回到稳定状态的增益20%频率环增益速度环的积分增益时间，调整速度瞬变的响应时间20%速度环滤波系数异步电机设65 同步电机设100编码器滤波激活编码器滤波常数3 ms 菜单路径：设置()参数 参数定义 参数设定值范围 单位高速频率电机的额定频率（电梯的额定速度）电机的额定频率 HZ菜单路径：电机控制()参数 参数定义 参数设定值范围 单位 最大输出频率电梯超速保护值 电机的额定频率*1.1 HZ菜单路径：电梯()→电梯功能() →预设速度（）参数 参数定义 参数设定值范围 单位预设速度3爬行速度按0.06m/s的速度换算成频率HZ预设速度4SP 4多段速3（三层运行速度）按1.5m/s～1.75m/s的速度换算成频率 * 0.95HZ预设速度5检修速度按 0.2m/s的速度换算成频率 * 0.95HZ预设速度6多段速1（单层运行速度）按1.0m/s的速度换算成频率 * 0.95预设速度7多段速2（两层运行速度）按1.5m/s的速度换算成频率 * 0.95HZ预设速度8多段速4（四层运行速度）按2.0m/s的速度换算成频率 * 0.95电梯起动舒适感调整：菜单路径：电梯()→电梯优化() →起动调整（）→刹车起动（）参数 参数定义 参数设定值范围 单位 刹车机构释放时间刹车机构释放时间延时 1.0 S 刹车释放电流l b r刹车机构释放电流值（-5，-10，+10，+5）约30～50%额定电流值A 制动力方向刹车释放电流功能打开或关闭功能打开菜单路径：电梯()→电梯优化() →起动调整（）→倒溜管理（）参数 参数定义 参数设定值范围 单位 倒溜管理倒溜管理功能打开或关闭倒溜补偿倒溜补偿增益 10～200% (40)倒溜缓冲倒溜阻尼系数 30～100% (50)起始刚度补偿起始刚度补偿 功能打开或关闭激活角度启激活角度系数1～10% (1)刚度增益刚度增益 40～200% (60)电梯停止时舒适感的调整：一．电梯速度≤ 1.0m/s ： 减小减速时间可以增大爬行距离；二．电梯速度>1.0m/s ：单层运行冲层 减小减速时间 减速太快，有冲层现象多层运行冲层减小减速时间一．电梯速度≤1.0m/s ： 增大减速时间可以减小爬行距离； 二．电梯速度>1.0m/s ：单层运行爬行太长增大减速时间 减速太慢，爬行太长多层运行爬行太长增大减速时间停止有倒溜停止时有振动① 有倒溜时，增加刹车抱紧时间② 确认bECd 是否设为0.0s③停止时有提升感，加大减速时间菜单路径：电梯() → 电梯优化() → 停止调整（）参数 参数定义 参数设定值范围单位 bECd零速抱闸时间 0.0 s抱闸抱紧时间0.5s★ 电梯减速时间调整方法：① 菜单路径：电梯() → 电梯功能() → 频率阀值（）参数 参数定义参数设定值范围单位 频率阀值设置减速时间的切换频率单层运行的速度值 HZ备注：如电梯速度≤1.0m/s ：可设置为一半的数值② 菜单路径：电梯() → 电梯功能() → 参数组切换（）参数 参数定义参数设定值范围 单位 2组参数组设置切换2组参数组的内容到频率阀值 HZ选择参数SPS选择此参数组，只能用液晶操作器设定第2减速时间第1组0～频率阀值的单层速度的减速时间4.5～6 S第2组频率阀值～最高速的多层速度减速时间3～5S备注：如电梯速度≤1.0m/s 时,数值不变，为曲线段减速时间监控参数： 端子状态监控：菜单路径：监视() → 输入/输出映像()→逻辑输入LI1至LI8的状态（ LI5I- ）参数 参 数 说 明逻辑输入LI1～LI8状态1亮表示该信号动作，状态0亮表示该信号不动作 电机运行电流监控： 菜单路径：监视() →电流()1. 施耐德变频器（ATV71L ）1.1施耐德变频器电机自学习时的故障显示：故障代码 名称 故障原因 检查措施负载不跟随 编码器反馈速度与给定值不相符1.检查主机编码器；2.重新做主机自学习；角度值误差 电机编码器角度学习不正确 1.确认变频器与电机连接线是否正确；2.确认KMY 接触器接触是否良好； 3.确认主机编码器安装是否牢固；4.重新执行电机自学习；配置错误 变频器PG 卡故障； 1.检修PG 卡接触是否良好；2.更换变频器PG 卡； 编码器故障 编码器反馈故障1.检查变频器内编码器设定的参数；2.检查编码器的连接线；过电流 负载太大电机控制()菜单中最大输出频率设定值不对1.检查负载；2.检查最大输出频率的设定值；电机短路接地短路变频器输出侧短路或接地检查变频器侧输出侧的连接线；超速 驱动负载不稳定或负载太大1.检查编码器接线和抗干扰处理是否正常；2.检查速度环的比例增益设定是否合适；3. 检查编码器是否正常；速度反馈丢失 没有编码器反馈信号 编码器连接线有干扰1.检查编码器的连接线；2.检查编码器连接线的屏蔽层接地是否良好，接到ST-1分频卡上的线接触是否良好；Brake 控制 没有达到刹车释放电流1.检查电机的动力线连接是否正确，有无虚接现象；2.检查KMY 接触器主触点接触是否良好，动力线有无虚接现象；3.检查是否由于厅门锁回路瞬间断开所致；变频器过热 变频器温度太高1.检查变频器的通风情况及周围温度；2.检查变频器的散热风扇运行是否正常；变频器过载 负载电流太大1.检查负载情况；2.检查电机热保护的设置值是否正确；输出缺1相输出缺3相变频器输出缺相1.检查变频器输出端的连接线；2.检查KMY运行接触器； 输入过电压主回路电压太高；电源不稳定有波动；输入缺相 变频器输入缺相输入欠压 变频器输入电压太低检查变频器的输入电源电源切除变频器PWR使能信号端无输入信号自由停车 变频器故障后自由停车模式检查主板到PWR端的连接线IGBT过热 变频器过载1.减小载波频率；2.检查负载情况；3.交换电机的V、W动力线，重新做主机自学习；4.检查安装主机编码器；。

ATV312变频器安装及编程手册施耐德电气善用其效尽享其能全球能效管理专家施耐德电气为世界100多个国家提供整体解决方案，其中在能源与基础设施、工业过程控制、楼宇自动化和数据中心与网络等市场处于世界领先地位，在住宅应用领域也拥有强大的市场能力。

致力于为客户提供安全、可靠、高效的能源，施耐德电气2009 年的销售额为158 亿欧元，拥有超过100000 名员工。

施耐德电气助您——善用其效，尽享其能！施耐德电气在中国1987 年，施耐德电气在天津成立第一家合资工厂梅兰日兰，将断路器技术带到中国，取代传统保险丝，使得中国用户用电安全性大为增强，并为断路器标准的建立作出了卓越的贡献。

90年代初，施耐德电气旗下品牌奇胜率先将开关面板带入中国，结束了中国使用灯绳开关的时代。

施耐德电气的高额投资有力地支持了中国的经济建设，并为中国客户提供了先进的产品支持和完善的技术服务，中低压电器、变频器、接触器等工业产品大量运用在中国国内的经济建设中，促进了中国工业化的进程。

目前，施耐德电气在中国共建立了77个办事处，26家工厂，6个物流中心，1个研修学院，3个研发中心，1 个实验室，500 家分销商和遍布全国的销售网络。

施耐德电气中国目前员工数近22000 人。

通过与合作伙伴以及大量经销商的合作，施耐德电气为中国创造了成千上万个就业机会。

施耐德电气能效管理平台凭借其对五大市场的的深刻了解、对集团客户的悉心关爱，以及在能效管理领域的丰富经验，施耐德电气从一个优秀的产品和设备供应商逐步成长为整体解决方案提供商。

今年，施耐德电气首次集成其在建筑楼宇、IT、安防、电力及工业过程和设备等五大领域的专业技术和经验，将其高质量的产品和解决方案融合在一个统一的架构下，通过标准的界面为各行业客户提供一个开放、透明、节能、高效的能效管理平台，为企业客户节省高达30％的投资成本和运营成本。

重要信息注意在安装、操作或维护本设备之前，请仔细阅读这些说明，并熟悉本设备。

施耐德atv61中文说明书一、施耐德变频器atv610说明书1.变频器是干什么的？主要用于驱动交流电动机，让交流电机实现无极调速。

例如用于送风机，用变频器来调节电机转速的快慢，就能改变送风量的大小。

还有很多需要调速的场合，用变频器来调速既简单又节能。

2.高、中、低、压变频器是多少伏的？高压变频器是3KV、6KV 或10KV的，如西门子罗宾康系列，安川的FSDrive-MV1S系列。

中压变频器是660V或1140V的，如ABB的AC5000，丹佛斯的FC200。

低压变频器是220V或380V的，如丹佛斯的FC102，FC360，FC51，西门子的MM440，V20。

二、施耐德变频器atv610说明书变频器的种类有那些？按变换的环节分类（1）交-直-交变频器，则是先把工频交流通过整流器变成直流，然后再把直流变换成频率电压可调的交流，又称间接式变频器，是目前广泛应用的通用型变频器。

（2）可分为交-交变频器，即将工频交流直接变换成频率电压可调的交流，又称直接式变频器；按直流电源性质分类（1）电压型变频器电压型变频器特点是中间直流环节的储能元件采用大电容，负载的无功功率将由它来缓冲，直流电压比较平稳，直流电源内阻较小，相当于电压源，故称电压型变频器，常选用于负载电压变化较大的场合。

（2）电流型变频器电流型变频器特点是中间直流环节采用大电感作为储能环节，缓冲无功功率，即扼制电流的变化，使电压接近正弦波，由于该直流内阻较大，故称电流源型变频器（电流型）。

电流型变频器的特点（优点）是能扼制负载电流频繁而急剧的变化。

常选用于负载电流变化较大的场合。

按主电路工作方法电压型变频器、电流型变频器按照工作原理分类可以分为V/f控制变频器、转差频率控制变频器和矢量控制变频器等；按照开关方式分类可以分为PAM控制变频器、PWM控制变频器和高载频PWM控制变频器；按照用途分类可以分为通用变频器、高性能专用变频器、高频变频器、单相变频器和三相变频器等。

atv‎303‎施耐德‎变频器‎说明书‎at‎v30‎3施耐‎德变频‎器说明‎书一‎般为一‎个月）‎，即在‎断路器‎合闸通‎电状态‎下，拨‎动试验‎按钮（‎试验按‎钮用符‎号“T‎e st‎”表示‎），断‎路器应‎可靠断‎开。

‎▲当‎接触器‎因线路‎发生过‎载、短‎路故障‎而断开‎时，应‎先排除‎故障后‎再使断‎路器重‎新合闸‎。

▲‎本接触‎器为非‎维护型‎，所以‎当断路‎器发生‎故障不‎能正常‎工作时‎，用户‎不得私‎自打开‎断路器‎进行维‎修。

‎▲使‎用电流‎调节旋‎钮，须‎按线路‎实际电‎流调节‎至相应‎位置，‎请勿超‎负荷使‎用。

‎1‎‎‎篇二：‎‎施耐‎德at‎v30‎3变频‎器施‎耐德a‎t v3‎03变‎频器‎▲接‎触器是‎指能够‎关合、‎承载和‎开断正‎常回路‎条件下‎的电流‎并能关‎合、在‎规定的‎时间内‎承载和‎开断异‎常回路‎条件下‎的电流‎的开关‎装置。

‎接触器‎按其使‎用范围‎分为高‎压断路‎器与低‎压断路‎器，高‎低压界‎线划分‎比较模‎糊，一‎般将3‎k V以‎上的称‎为高压‎电器。

‎▲‎接触器‎可用来‎分配电‎能，不‎频繁地‎启动异‎步电动‎机，对‎电源线‎路及电‎动机等‎实行保‎护，当‎它们发‎生严重‎的过载‎或者短‎路及欠‎压等故‎障时能‎自动切‎断电路‎，其功‎能相当‎于熔断‎器式开‎关与过‎欠热继‎电器等‎的组合‎。

而且‎在分断‎故障电‎流后一‎般不需‎要变更‎零部件‎。

目前‎，已获‎得了广‎泛的应‎用。

‎▲电的‎产生、‎输送、‎使用中‎，配电‎是一个‎极其重‎要的环‎节。

配‎电系统‎包括变‎压器和‎各种高‎低压电‎器设备‎，低压‎断路器‎则是一‎种使用‎量大面‎广的电‎器‎▲接触‎器应垂‎直安装‎，且在‎安装前‎应先检‎查断路‎器铭牌‎上所列‎的技术‎参数是‎否符合‎使用要‎求。

‎▲通电‎前应人‎工操作‎几次断‎路器，‎其机构‎动作应‎灵活可‎靠、无‎阻滞现‎象。

Altivar 58FTelemecanique异步电动机变频器编程手册警告本文件涉及Altivar 58F变频器的使用，尤其是装有以下选件时：- VW3A58101显示模块- VW3A58201或VW3A58202 I/O扩展板，如需要的话。

如果变频器装有其他选件，其操作的方法、菜单和类型可以修改。

请参考各选件的相关文件。

有?匕沧啊⒘ 印⑵舳 臀 に得鳎 氩渭鸄ltivar 58F变频器和I/O扩展板的用户手册。

目录简介2使用注意事项-最少起动步骤4性能优化5编程前菜单解除锁定8读取菜单9读取菜单-编程方法10宏配置11显示菜单13调整菜单14传动菜单21控制菜单26I/O 菜单29可配置的I/O口应用功能33逻辑输入口应用功能34模拟输入口应用功能43编码器输入口应用功能46逻辑输出口应用功能47模拟输出口应用功能52故障菜单54文件菜单56通信与应用菜单/运行帮助/维护58故障显示-原因及补救措施59记录配置和设置信息62菜单汇总表65索引681简介Altivar前面板的信号指示其它LED，显示通信选项板的状态。

绿LED，电源亮：变频器上电。

红LED，故障● 亮：变频器故障● 闪烁：按下显示模块上的STOP键或改变配置后变频器就被锁定一次，直到先前的“forward” 正转、“reverse” 反转和“injection stop” 停止命令被复位后，电机才能得到驱动。

50 Hz 60 Hz远程显示模块的安装必须使用组件，型号为VW3A58103，包括一根连接电缆，安装于封装门上所需的组件及安装指南。

显示模块可在上电情况下连接或拆卸。

如果在显示模块对变频器进行控制时拆下显示模块，变频器将会锁定在SLF故障状态。

在给Altivar变频器上电之前：打开变频器的前盖可以看到控制板上的50/60 Hz选择开关①。

根据选用电机的频率，将开关置于合适位置。

预置工作点：50 Hz 出厂设置：- 400V 50 Hz60 Hz：- 460V 60 Hz显示模块可用于：● 显示变频器识别号、电气值、运行或故障参数● 修改变频器的设置和配置● 通过操作键盘实现本地控制● 在显示模块的固定存储器中保存或恢复配置信息或2简介前面板按键的使用及显示内容的含义闪烁：指示选择的旋转方向不闪：指示电机的旋转方向表示用显示模块控制在启动和编程模式下显示闪烁：指示数值以被修改但未存储4 -字符显示：显示数值和代码一个16字符行：用简单文字显示信息选择菜单或参数并设置数值退回前一菜单或中断当前调整并返回原值选择菜单，确认或保存一个选择项或设置如果选择使用显示模块来控制：变换旋转方向启动电机命令命令电机停止或复位故障。