New Servo Concept: Junma

New Servo Concept: Junma Junma uses the world s premier servo technology to provide unmatched performance with a quick and efficient setup. This totally new plug and play design concept requires no parameter settings or gain adjustments. daptive tuning and vibration suppression functionality simplify machine commissioning while maintaining steady high-precision positioning and optimum efficiency. Junma s ready-to-use features for high-speed, high-torque, and high-precision operation are ready to work for you. 2

YSKW YSKW YSKW YSKW Junma Features ttain optimum servo performance without time consuming setup: Connect and go! Matched motor and amplifier sets simplify setup System parameters are set on system power-up Machine load inertia is calculated automatically Tuning gains are adjusted dynamically, even when the load changes Mechanical vibrations are suppressed with the turn of a rotary switch Input voltage: 120 or 240 VC (single phase) FST & ESY SETUP Unpacking Remove the servo amplifier from the box. Installation and Wiring Connect the cables for the power supply, signal lines, and a motor. Feedback resolution: 6,6 pulses/rev Control input: pulse and direction High torque output at speeds up to 400 RPM dvanced control functionality: daptive tuning Vibration suppression Jogging Homing to marker pulse Electronic gearing Torque limiting Position complete output JunmaWin software diagnostic tools: larm history Troubleshooting wizard Extensive monitoring capability Reference Pulse Setting Select the reference pulse switch for your controller. No parameter settings or gain adjustments are needed. Screwdriver provided Setup completion The motor is ready to run with the reference from the controller. The required torque is possible even at a speed of 400 RPM. Conforms to international standards:

Ratings and Specifications Junma Servo Motors Voltage Holding rake Specifications 100/200 VC Servo motor Model SJME- 01 02 04 08 pplicable Servo mplifier SJDE- 01 02 04 08 Rated output * 1 W 100 200 400 0 Rated torque * 1, * 2 Nm 0.18 0.6 1.2 2.9 Instantaneous peak torque * 1 Nm 0.9 1.91.82.16 Rated current * 1 rms 0.84 1.1 2.0. Instantaneous max. current * 1 rms 2.. 6.0 11.1 Rated speed * 1 RPM (for 200V models) * Max. speed * 1 RPM 400 (for 200V models) * Torque constant Nm/ rms 0.41 0.64 0.682 0.699 Rotor moment of inertia kg m 2 0.064 x 10-4 0.0 x 10-4 0.60 x 10-4 1.0 x 10-4 Rated power rate * 1 kw/s 16.0 12. 26. 8.1 Rated angular acceleration * 1 rad/s 2 0200 1900 21100 1900 Time rating Continuous Thermal class Vibration class 1 μm or below Withstand voltage 100 VC for one minute Insulation resistance 00 VDC, 10 MW min. Enclosure Totally enclosed, self-cooled, IP (excluding shaft opening and connectors) Impact resistance Impact acceleration: 490 m/s 2 in three directions vertical, side to side, and front to back. Impact occurrences: 2 Vibration resistance Vibration acceleration: 49 m/s 2 in three directions vertical, side to side, and front to back. *1 These items and speed/torque characteristics quoted in combination with a SJDE servo amplifier are at an armature winding temperature of 100 C. Other values are at 20 C. *2 The rated torques listed here are the values for the continuous allowable torque at 40 C with an aluminium heatsink (20 mm x 20 mm x 6 mm) attached. * Refer to the Speed/Torque Characteristics for rated speed and maximum speed for 100V models. Servo motor Model SJME- 01 02 04 08 Rated voltage 24 VDC ± 10% Holding brake moment of inertia * kg m 2 x 10-4 0.00 0.064 0.11 Capacity W 6 6.9. Minimum holding torque (Static friction torque) Nm 0.18 1.2 2.9 Coil resistance W (at 20 C) 96 8 Rated current (at 20 C) 0.2 0.29 0.2 rake release time ms 80 max. Rise time for holding torque ms 100 max. * To obtain the motor moment of inertia with a brake, add the holding brake moment of inertia to the rotor moment of inertia. The rated power rate and angular acceleration of the motor will change according to the motor moment of inertia. Notes: 1 The holding brake is only used to hold the load and cannot be used to stop the servo motor. 2 Do not use the holding brake when the servo is on. Failure to observe this caution may result in an over load of the servo amplifier or a decrease of brake life. Speed/Torque Characteristics 000 SJME-01 SJME-02 SJME-04 SJME-08 000 000 000 0 0 0 0 0 0.2 0.0 0. 1.00 0 0. 1. 0 1. 2. 0 0 1 2 4 0 2 4 6 8 Torque (N m) Torque (N m) Torque (N m) Torque (N m) : Continuous Duty Zone : Intermittent Duty Zone Note: Solid lines show the torque/speed characteristics of the servo motor at 200V and the broken lines show them at 100V. 4

Dimensions Units: mm 100 W Encoder cable Encoder connector Servo motor main circuit cable Motor connector 1.8 Motor Connector Specifications 6 4 2 1 Type SJME- L LL pprox. mass (kg) 01M41 119 94 0. 01M4C 164 19 0.8 L LL 2 2. 14 0.08 0.0 0 8-0.009 dia. 0 0-0.0 dia. Cross Section - 40 Holding brake (de-energization operation) Power supply: 24 VDC 0.06 dia. Note: Only for servo motors with brakes Holding brake torque = Motor rated torque 46 dia. 2-4. dia. Pin No brake With brake Description Color Description Color 1 Phase U Red Phase U Red 2 Phase V White Phase V White Phase W lue Phase W lue 4 FG Green/ Yellow FG Green/ Yellow rake Red 6 rake lack Plug: 9-06P-210 Terminal (No.1 to,, 6): 8T (reel) or 8TL (bagged) Grounding Pin (No.4): 0490-2002 (reel) or 0490-2012 (bagged) (Manufactured by: Molex Japan Co., Ltd) Encoder Connector Specifications 200 W to 0 W Encoder cable Servo motor main circuit cable L LL LG Encoder connector Motor connector 12 11 10 9 8 6 4 2 Cross Section - 0.08 LR LC LE 0.0 LF dia. QK LD S dia. L dia. L dia. 1 Pin Description Color 1 PG V Red 2 PG 0V (GND) lack Phase + lue 4 Phase lue/white Phase + Yellow 6 Phase Yellow/White Phase /Z Purple 8 Phase U Gray 9 Phase V Green 10 Phase W Orange 11 12 FG Shield Plug: 9-12P-210 Terminal: 8T2 (reel) or 8T2L (bagged) (Manufactured by: Molex Japan Co., Ltd) Holding brake (de-energization operation) Power supply: 24 VDC Note: Only for servo motors with brakes Holding brake torque = Motor rated torque 0.06 dia. 4-LZ dia. Type SJME- L LL LR LG LE S L LC LD LF L LZ QK pprox. mass (kg) 02M41 12. 9. 0.9 02M4C 16. 1. 1. 0 6 14 0 0 0 60 0. 20-0.011-0.09 04M41 148. 118. 1. 04M4C 188. 18. 1.9 08M41 1 1 2.6 40 8 16 0 0 0 80 20 90 0-0.011-0.046 08M4C 216 16.

Ratings and Specifications Junma SERVOPCKS Servo mplifier Model SJDE- -OY 01P 02P 04P 08P Max. applicable servo motor capacity W 100 200 400 0 Continuous output current rms 0.84 1.1 2.0. Instantaneous max. output current rms 2.. 6.0 11.1 Voltage Single-phase 100 to 11 VC, +10 to 1% ; Single-phase 200 to 20 VC, +10 to 1% Input power supply Frequency 0/60 Hz ± % (for main circuit Voltage frequency and control circuit) capacity 0.40 0. 1.2 2.2 at rated output kv Power loss at rated output W 14 16 24 Input control method Capacitor-input type, single-phase full-wave rectification with resistance to prevent inrush current Output control method PWM control, sine wave power driven system Feedback Incremental encoder llowable load inertia* 1 kg m 2 0.6 x 10-4 x 10-4 x 10-4 10 x 10-4 I/O signals uilt-in functions Input signal for reference (designated pulse type and pulse resolution with PULSE switch) Pulse type Pulse resolution Clear input signal Servo ON input signal larm output signal rake output signal Position completed output signal Origin output signal Dynamic brake (D) Regenerative processing Protection* 2 Display Reference filter Cooling method Operating temperature 0 C to + C Operating humidity Select one of the following settings: 1. CCW + CW pulse train 2. Sign + pulse train. CCW + CW pulse train (negative logic) 4. Sign + pulse train (negative logic) Select one of the following settings: 1. pulses/rev (open collector/line driver) kpps max. 2. 200 pulses/rev (open collector/line driver) 18. kpps max.. 000 pulses/rev (line driver) kpps max. 4. 0 pulses/rev (line driver) 0 kpps max. Clears the positioning error at the rising edge of the pulse Turns the servo motor on or off OFF if an alarm occurs External signal to control brakes. Turn ON to release the brake. ON if the current position is equal to the reference position ± 10 pulses ON if the motor is at the origin (width: 1/00 rev) Operated at main power OFF, servo alarm, servo OFF (OFF after motor stops; ON if the motor power is off) Optional (if the regenerative energy is too large, install a regenerative unit) Speed errors, overload, encoder errors, voltage errors, over currents, disablement of the built-in cooling fan, system errors Five LED indicators (PWR, REF, L1, L2, L) Select one of eight levels with FIL switch Forced cooling (built-in fan) Storage temperature 20 C to +0 C Storage humidity Installation site ltitude Vibration resistance 4.9 m/s 2 90% RH or less (no condensation) 90% RH or less (no condensation) Free of corrosive gases; Free of dust and iron powder; Clean and dry m or below Shock resistance 19.6 m/s 2 Operating conditions Installation category (overvoltage category): II; Pollution degree: 2 Protection class: IP1X (EN018) * 1 e sure to use the motor within the allowable load moment of inertia. The motor will become unstable if the load moment of inertia exceeds the allowable value. * 2 The ground protection circuit is designed for ground fault inside the motor windings while the motor is running. Therefore, it may not protect the system under the following cases: low-resistance ground fault occurs in the main circuit cable or in the connector of the cable for the servo motor. The power supply is turned on during a ground fault. 6

Dimensions Units: mm SJDE-01, 02 (100 W, 200 W) Mounting Hole Diagram 10 φ 4. ir Flow 2-M4 Mounting Holes CN1 10 120 CN2 10 ± 0. () (10) 12. 1 Ground Terminal with 2-M4 Screws 4. 19 CN, CN () (4.) Nameplate 10 ir Flow () (28) SJDE-04 (400 W) Mounting Hole Diagram 10 φ 4. ir Flow 2-M4 Mounting Holes CN1 10 120 CN2 10 ± 0. () (10) 12. 1 Ground Terminal with 2-M4 Screws 4. 19 40 CN, CN () (4.) Nameplate 10 ir Flow () () 40 SJDE-08 (0 W) Mounting Hole Diagram 10 φ 4. ir Flow 2-M4 Mounting Holes CN1 10 120 CN2 12. 1 10 ± 0. () (10) Ground Terminal with 2-M4 Screws 14 4. 1 0 0 CN, CN () Nameplate ir Flow (4.) 14 () 1 (1) 14 0 0

Cable/Connector Selection Power Cables Specifications Model ppearance m JZSP-CHM000-0 m JZSP-CHM000-0 Without holding brake 10 m JZSP-CHM000-10 1 m JZSP-CHM000-1 Servo Motor Main 20 m JZSP-CHM000-20 Circuit Cables with Connectors at oth Ends m JZSP-CHM00-0 m JZSP-CHM00-0 With holding brake 10 m JZSP-CHM00-10 1 m JZSP-CHM00-1 20 m JZSP-CHM00-20 Encoder Cables Specifications Model ppearance m JZSP-CHP800-0 m JZSP-CHP800-0 Encoder Cables with Connectors at oth Ends (shielded) 10 m JZSP-CHP800-10 1 m JZSP-CHP800-1 20 m JZSP-CHP800-20 Connectors for Power and Encoder Specifications Type Model ppearance Connector Kits for Servo motor side Crimp Type JZSP-CHM9-1 *2 Servo Motor Main Circuit Cable *1 Servo amplifier side (CN) Spring Type JZSP-CHM9-2 * Power Supply and Regenerative Unit Connector Kits Encoder Cable Connector Kits *1 Servo amplifier side (CN) Spring Type JZSP-CHG9-1 * Servo motor side Crimp Type JZSP-CHP9-1 *2 Servo amplifier side (CN2) Soldered Type JZSP-CHP9- *1 Sold separately. If making cable assemblies, these connectors are necessary. *2 Crimping tool required. * With tool (lever for wiring). Regenerative Unit Description Specifications Model ppearance Resistance: 0 W Regenerative llowable Regenerative Energy: 12 W Regenerative Voltage: 80 VDC Unit for Servo Regenerative Current: 8 DC JUSP-RG08E-E mplifier Error Detection: Disconnection of regenerative resistance, failure (CN) of regenerative transistor, or overvoltage larm Output: NC contact (opens when an error is detected). Contact specifications: 20 VC, 1. (inductive load) Signal and Communication Cables Name Type Length Model ppearance 1 m JZSP-CHI00-01 I/O Signal Cables 2 m JZSP-CHI00-02 m JZSP-CHI00-0 I/O Signal Connector Kits *1 For Servo amplifier CN1 Soldered Type JZSP-CHI9-1 Cable for Personal Computer 2 m JZSP-CPS00-02 PC Communication oard (Required for Setup with JunmaWin Software) JUSP-JC001-1 *1: Sold separately. If making cable assemblies, these connectors are necessary. 8