Range of Performance.1 kw 7 kw (.32 33.4 ) Drastically Reduced Motor Cogging Torque Advanced Drive Technology Autotuning Built-in Programmable Sequence with max. 512 program steps and 1 positions Plug & Play Easy programming Position / Speed / Torque control DeviceNet, SERCOS, Modbus CE, UL, c-ul
High Performance with AC Servo Drives from Hitachi Hitachi AC Servo Drives meet the various requirements of demanding applications with its fully featured performance realised by Hitachi s Advanced Motor Technology. Using Autotuning, control gains can be automatically tuned to the optimum values according to each application. In connection with the Hitachi Motion-Controller EH-POS4 it is possible to control up to 4 axis. The ADMA series (1-75 W) is equipped with a serial Encoder (17 bit). These systems are able to identify the connected motor an additional adjustment from the amplifier according to the motor is not necessary. All Servo motors are available with holding brake. Drastically Reduced Motor Cogging Torque With Hitachi s Advanced Motor technology (patented), The Servo Drive is suitable for such applications as high-precision process machine or smart motor cogging torque has been reduced by approx. 65 % (comparison with our previous model). conveyer system where vibration should be avoided. Example of.75 kw standard motor Torque conventional servo motor Servo Motor.4% of rated torque Rotor angle High Response and High precision High-precision positioning and stable rotation at low speed can be realised with 32-bit system LSI with DSP, which assures speed response frequency of 5Hz with a high-resolution of 17 bits. Gain (db) 4 2-2 -4 Bode diagram of.75 kw Inertia of load = Motor Inertia 3 db 53Hz -6 1 1 1 1 Frequency (Hz)
Smart Servo Drive The programming software AHF allows simple programming and a very short time for commissioning even for novice users. The Servo Amplifier ADAX4 has a standard integrated programming function for max. 512 program steps and 1 positions. For stand-alone applications an additional controller is not necessary. The programming language is like BASIC 6kB instructions ~ 1 steps 7 different reference points 12 Digital-Inputs 8 Digital-Outputs 2 Analog-Inputs 2 Analog-Outputs 1 Positions 16 Velocity Settings 16 Torque Settings 16 General Variables Password protection (8 characters or numbers) General purpose parameters changeable via digital operator Trips can be handled by the programmable function Programmable Timer Speedcontrol / Positioncontrol / Torquecontrol etc. User Friendliness Windows PC-Software AHF Through use of the AHF configuration software, which runs on Windows operating system, parameters can be set through a personal computer and position, speed, torque etc. of the AC servo drive can be monitored on the PC display. Worldwide Presence Your benefit is the high quality of the Hitachi products and the worldwide presence of one of the world s biggest electronics companies. Autotuning Function Control gains can be automatically tuned to the optimum values according to each application. Speed command Detected speed value value Tuning start point
ADAX4 as Stand Alone unit Programming Test run and adjustment Trace operation Online read and write of general purpose parameters 12 digital inputs 2 analog inputs 8 digital outputs 2 analog outputs ADAX4 (Modbus model) Hitachi HMI Hitachi PLC EH-15 Series PC Slave I/O additonal components Frequency Inverter Servo Drives Hitachi SPS EH-15 mit 4-Achs-Controller EH-POS4 ADAX4 (Motion Control Model) Controlled by PLC EH-15 with EH-POS4 (4 axis pulse positioning control module)
15mm r kürzte klappite Specifications of Servo Motors Input power supply Motor-Type Amplifier-Type Motor capacity kw Rated torque Max. torque Rated speed Max. Speed min -1 JMotor kgm 2 (above: without brake; below: with brake) x 1-4 Preferrable Load Inertia Feedback Protection Brake Principle Power supply Static brake torque (min.) Rated current (2 C) Resistor of the coil (2 C) Power consumption (2 C) Dragging (max.) Release time (max.) A ohm W ms ms Specifications of Servo Motors Specification 1 x 23 V / 3 x 2 V 3 x 4 V ADMA- ADMG- 1S 2S 4S 8S 5H 1H 15H 2H 35H 45H 55H 7H ADAX4 ADAX4 1NSE 2NSE 4NSE 8NSE 15HPE 35HPE 7HPE.1.2.4.75.5 1. 1.5 2. 3.5 4.5 5.5 7..32.64 1.27 2.39 2.4 5 7.5 9.55 16.7 21.5 26.3 33.4.96 1.91 3.82 7.16 9 18.5 2 3 45.5 7 72 86 3 2 45 3.23.12.22.62 1.84 5.4 8.8 11.8 37.9 46.5 113.5 185.32.16.25.71 2.18 5.85 9.3 12.3 41.3 49.9 137.5 29 max. 3 x J Motor max. 5 x J Motor Serial Encoder 17 bit Incremental encoder (Optional: 17 bit absolute value encoder) 496 ppr 8192 ppr IP55 (excluding connector and the part IP67 (excluding the part passed through by the shaft) passed through by the shaft) Electromechanical brake, release when activated DC 24 V, ±1 % DC 24 V, ±1 %.34 1.5 1.5 2.6 2.9 9.8 9. 12 32 32 9 9.27.27.27.38.33.83.87 1. 1.4 1.4 1.3 1.3 89 89 89 64 72 28 28 23 17 17 18 18 6.5 6.5 6.5 9. 8. 2 21 25 34 34 32 32 25 6 6 5 3 1 1 1 15 15 3 3 2 1 1 15 2 3 3 3 4 4 14 14 Type Performance L LL LR LE LG LC LA LZ S LB T U W LK Tapping size KA Fig. weight ADMA-1 A1x 1 1 122 96.5.55 1 W 25 2.5 5 4 46 4.5 8 3 3 1.8 3 14 M3 x 6 ADMA-1 A1x 1 3 157 132.8 ADMA-2 A1x 1 1 13 1 1.1 2 W ADMA-2 A1x 1 3 168 138 A 1.7 3 3 7 6 7 5.5 14 5 5 3 5 2 M5 x 8 ADMA-4 A1x 1 1 158 128 C 1.6 4 W ADMA-4 A1x 1 3 196 166 2.2 ADMA-8 A1x 1 1 183 143 3.1 75 W 4 3 8 75 9 6.6 19 7 6 3.5 6 22 M5 x 8 ADMA-8 A1x 1 3 22 18 3.9 Last digit 1: without brake, 3: with brake Type Performance L LL LR LE LG LC LA LZ S LB T U W LK Tapping size KA Fig. weight ADMG-5HP142 228 193 3..5 kw 35 3 8 86 1 6.6 16 8 5 3 5 25 M5 x 12 2 ADMG-5HP145 263 228 4.2 ADMG-1HP142 241 196 5.4 1 kw 45 3 1 1 115 9 22 95 6 3.5 6 32 M6 x 2 3 ADMG-1HP145 276 231 6.8 ADMG-15HP142 224 169 7.8 1.5 kw 55 4 12 13 145 9 22 11 6 3.5 6 42 M6 x 2 3 ADMG-15HP145 26 25 9.4 ADMG-2HP142 242 187 9.8 2 kw 55 4 12 13 145 9 28 11 7 4 8 42 M8 x 25 3 ADMG-2HP145 282 227 B 11.6 ADMG-35HP142 268 23 D 17.7 3.5 kw 65 3 16 18 2 13.5 35 114.3 8 5 1 5 M8 x 25 3 ADMG-35HP145 318 253 23.1 ADMG-45HP142 283 218 21.7 4.5 kw 65 3 16 18 2 13.5 35 114.3 8 5 1 5 M8 x 25 3 ADMG-45HP145 333 268 27.1 ADMG-55HP142 331 252 34.8 5.5 kw 79 4 19 22 235 13.5 55 2 1 6 16 67 M1 x 25 3 ADMG-55HP145 388 39 45.5 ADMG-7HP142 389 31 52.8 7 kw 79 4 19 22 235 13.5 55 2 1 6 16 67 M1 x 25 3 ADMG-7HP145 447 368 63.5 Last digit 2: without brake, 5: with brake x 1 keyway tapping 1 no no 2 yes no 3 no yes 4 yes yes Tapping size Fig. A Fig. B Fig. C Fig. D
Technical Data of the Amplifier Type: ADAX4 Motor capacity (kw) Input power supply capacity (kva) Input power supply (main circuit) Input control power supply Rated speed (min -1 ) Max. Speed (min -1 ) Max. torque (Ratio to the rated torque) Position/speed feedback Speed control range Position command input Input signal Output signal Regenerative braking circuit Dynamic brake Protective function Estimated weight (kg) Ambient temperature Humidity Vibration (Note 2) Installation location Protective structure Control system Control mode Built-in operator Programming software Encoder monitor signal output Analog outputs Speed command/limitation input Torque command/limitation input 1NSE 2NSE 4NSE 8NSE 15HPE 35HPE 7HPE.1.2.4.75.5 1. 1.5 2. 3.5 4.5 5.5 7..4.75 1.2 2.3 1.2 1.8 2.5 3.5 5.6 6.8 8.3 11 1 x 22 23 V / 3 x 2 23 V +1 %, -15% 3 x 38 48 V +1 %, -15 %, 5/6 Hz ±5 % 1 x 2 23 V +1 %, -15 % 1 x 2 24 V +1 %, -15 %, 5/6 Hz ±5 % 3 2 45 3 3 % 25 % 38 % (see motor specification for detail) Serial Encoder 17 bit, optional absolute encoder Incremental encoder, absolute encoder (Serial output) 1:45 1:3 Line driver signal (2M pulses/s or less) Selectable from 1) 3) 1) Phase difference pulse input (maximum input frequency is 1/4 of the value above noted) 2) Forward/reverse run direction pulse input 3) Command pulse + code input Contact signal/open collector signals inputs: Servo ON, Program-Start, Alarm reset, Control mode switch, Torque limit, Forward overtravel, Reverse overtravel, Multistage speed 1, Mulistage speed 2, Proportional control/exchange gains, Zero speed clamp, Homing limit switch, Homing, pulse train input enable/forward command, Position error clear/reverse command Source type output: Servo ready, Alarm, Positioning complete, Up to speed/alarm code 1, Zero speed detection, Brake release, Torque limiting/alarm code 2, Overload notice/alarm code 3 Build-in type (Braking resistor not included for 1NSE, 2NSE) Actuated at Servo OFF, Trip or Power OFF ( operating conditions selectable) Overcurrent, braking resistor overload, over voltage, EEPROM, CPU, undervoltage, CT error, ground fault, encoder Abnormal position, output stage, external error, Abnormal revolution, temperature, absolute encoder, etc..8.8 1.4 1.9 1.9 4.6 7.7 +55 C max. 9 % (without condensation) 5.9 m/s 2 (.6 G), 1 to 55 Hz (according JIS C4) 1 m or less above the sea, indoor place (free from corrosive gas and dust) IP, according JEM 13 Sine-wave pulse width modulation PWM system Position control/speed control/torque control 5-digit number display unit, key input x 5 AHF, usable for Windows 95/98/ME, Windows NT/2/XP PC (RS-232C) Phase A, B signal output: Line driver (output resolution adjustable) Phase Z signal output: Open Collector 2ch,...3 V, Voltage output, Speed detection value, Torque commnd, etc....1 V...1 V ADMA-1S 1,2,9 ADMA-2S 2, 1,5 ADMA-4S 4, 3, ADMA-8S 8, 6,,6 1, 2, 4,,3,5 1, 2, ADMG-5H ADMG-1H ADMG-15H ADMG-2H 1 2 3 4 5 1 2 3 4 5 1 2 3 4 5 1 2 3 4 5 Speed [min-1] Speed [min-1] Speed [min-1] Speed [min-1] 1 25 25 5 8, 2 2 4 6, 15 15 3 4, 1 1 2 2, 5 5 1 1 2 3 1 2 3 1 2 3 1 2 3 Speed [min-1] Speed [min-1] Speed [min-1] Speed [min-1] ADMG-35H ADMG-45H ADMG-55H ADMG-7H 5 4 1 8 1 8 1 8 3 2 6 4 6 4 6 4 1 2 2 2 1 2 3 1 2 3 1 2 3 1 2 3 Speed [min-1] Speed [min-1] Speed [min-1] Speed [min-1] Hitachi Europe GmbH Am Seestern 18 D-4547 Düsseldorf Tel. +49-211-52 83 - Fax +49-211-52 83-649 Internet: www.hitachi-ds.com E-Mail: info@hitachi-ds.com Hitachi Industrial Equipment Systems Co., Ltd., Tokyo DB-Servo-3/13-E 339-BW