Servo-variateur DC D – AIS48100A

ModbusRS-48536 - 72V

Product DetailsIt features high stability, high positioning accuracy, high drive response, low noise, low heat generation, well-structured design, strong overload capacity, practical and rich functions, and simple and convenient application. It has protections against over-voltage, under-voltage, overspeed, over-current, overload, encoder anomalies, position deviation, stalling, parameter anomalies, etc.Technical SpecificationsDriver ModelVoltage Range (V)Rated Current (A)D – AIS24008A24 – 368D – AIS48015A24 – 4815D – AIS48025A24 – 6025D – AIS48050A24 – 7250D – AIS48100A36 – 72100D – AIS72200A48 – 96200D – AIS72300A48 – 96300Control Method① Position control ② Speed control ③ Torque control ④ Communication controlControl FeaturesSpeed frequency response: ≥200Hz, Received pulse frequency ≤200kHz, Speed fluctuation rate: < ±0.03 (Load 0 – 100%): < ±0.02×(0.9 – 1.1) Supply voltageMonitoring FunctionCurrent speed, DI input, DO output, Current position, Accumulation of command input pulses, Average load rate, Number of position deviations, Motor phase current, Bus voltage value, Module temperature, Alarm record, Command pulse frequency corresponding speed, Operating status, etc.Home – Return Function13 Types of home (search) return modes, and home – point offset functionRs485 FunctionFollows standard Modbus – RTU protocol, One – to – Two Two – Communication interface for easy networking and parallel connectionDriver Installation DimensionsProduct model: D – AIS48100ARated voltage: 36 – 72VRated current: 100ASplit – type Driver Hardware InterfaceApplicable driver models: D – AISXX005A / D – AISXX0015A / D – AISXX0025A / D – AISXX0040A / D – AISXX00100A / D – AISXX00200ASplit – AI Motor Drive Interface DiagramSerial NumberSymbolFunctionRemarksCN11UMotor U – phase2VMotor V – phase3WMotor W – phase4DC –Negative pole of input power supply5DC+Positive pole of input power supplyCN215V+Motor encoder power interface2GNDPower interface3NCEmpty terminal4NCEmpty terminal5SD+Motor encoder communication interface6SD–CN31DI – COMCommon terminal for input signals2DI1Input signal terminal 1 (Default: Servo enable)3DI2Input signal terminal 2 (Default: Alarm reset)4DI3Input signal terminal 3 (Default: Emergency stop)5DI4Input signal terminal 4 (Default: Positive JOG jogging)6DI5Input signal terminal 5 (Default: Negative JOG jogging)7DO – COMCommon terminal for output signals8DO1Output signal terminal 1 (Default: Servo ready)9DO2Output signal terminal 2 (Default: Fault alarm output)10DO3Output signal terminal 3 (Default: Positioning completion output)CN41BRK+Brake output positive pole2BRK–Brake output negative poleReference Table for External Braking Resistor Selection for Split-type Driver Interface CN9Split-type Driver ModelRated Output CurrentRequired Value of External Braking ResistorRequired Power of External Braking ResistorD – AISXX008A8A10 ohms – 30 ohms rangeAbove 100WD – AISXX0015A15A10 ohms – 30 ohms rangeAbove 100WD – AISXX0025A25A10 ohms – 30 ohms rangeAbove 100WD – AISXX0050A50A5 ohms – 15 ohms rangeAbove 200WD – AISXX00100A100A5 ohms – 15 ohms rangeAbove 200WD – AISXX00200A200A5 ohms – 15 ohms rangeAbove 200WStandard Wiring DiagramInput Power WiringNote 1: Input power terminals must strictly distinguish positive and negative poles. The input power voltage range may vary by model. Please refer to the hardware interface reference wiring for the corresponding model in the previous chapter.Note 2: This product has a certain overload capacity. When selecting an external switching power supply, the output capacity should be 1.5 times the rated current of this product. The rated current of the product is indicated on the nameplate.High – Speed Pulse Signal WiringOpen Collector WiringDifferential Signal WiringNote 1: For different motors, the interface positions of the pulse input terminals may vary. Please refer to the hardware interface description for the corresponding model in the previous chapter.Note 2: This product supports pulse input with a wide voltage range of 5 – 24V, and the maximum received pulse frequency is 200 KHZ. The upper-level pulse device must ensure the frequency is limited to less than 200K to prevent the driver from easily losing pulses and causing positioning anomalies.Note 3: It is recommended to use double-shielded wires for pulse control lines and avoid laying them in the same circuit as strong current lines, which can effectively protect against strong external magnetic interference.Note 4: The above pulse connection methods must be consistent with the H05 – 15 parameters. The default factory setting for H05 – 15 is pulse + direction control mode.DI and DO WiringAT Input Terminal WiringNote 1: The input terminal control voltage is valid at DC12 – 24V.Note 2: Each DI can be freely assigned different functions (refer to section 4.2 DIDO parameter section), but the same function cannot be assigned to multiple DIs.Note 3: For external switching signal control with DC– input, select the NPN-type connection method, where low level is effective; for external switching signal control with DC+ input, select the PNP-type connection method, where high level is effective.DO Output Terminal WiringNote 1: The maximum driving capacity of the output terminals is <300mA current. If a large load needs to be carried, a relay must be used for conversion.Note 2: Each DO can be freely assigned different functions (refer to section 4.2 DIDO parameter section).Note 3: When controlling the DO port action, if DC– is output, select the NPN-type connection method, where low output level is effective; if DC+ is output, select the PNP-type connection method, where high output level is effective.RS485 Communication WiringMulti – Slave ConnectionNote 1: For multi-slave connection, if the communication signal noise is large, it is recommended to add a 120-ohm terminal resistor to the last slave to ensure communication quality.Note 2: For related communication content, refer to (section 4.5 RS485 – related parameters).Host Computer Debugging ConnectionNote 1: Generally, a computer does not have a direct 485 interface, and a USB-to-485 converter is required to connect to the slave drive.Note 2: The host computer debugging software for PC can be downloaded from our company's official website, which is convenient for users to debug.Technical Features / SpecificationsModel: D – AIS48100ARated voltage: 36 – 72VRated current: 100AControl methods: Position, speed, torque, communicationSupports Modbus RTU protocol via RS485Multiple protection features (over-voltage, under-voltage, over-current, etc.)Rich monitoring and feedback functionsMultiple wiring and interface options for flexible integration