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SGDV-08A01A-OY
Datasheet
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Omron SGDV-A5A01A-OY, SGDV-01A11A-OY, SGDV-02A01A-OY, SGDV-02A11A-OY, SGDV-04A01A-OY Datasheet

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1Sigma-5 servo drive
SGDV-@
Sigma-5 servo drive
The High perfomance servo family for motion control. Compact size, reduced space and integrated MECHATROLINK-II.
• Advance autotuning function
• Standard support for analog voltage/pulse train ref­erence series or MECHATROLINK-II communica­tions reference series.
• Support for direct drive servomotors, linear servo­motors and linear sliders
• Integrated safety stop function
• Oscilloscope available via software tool
• Windows based configuration and commissioning software
Ratings
• 230 VAC Single-phase 50 W to 1.5 kW (4.77 Nm)
• 400 VAC Three-phase 500 W to 15 kW (95.4 Nm)
System configuration
SGMGH, SGMUH, SGMSH, SGMBH Servo Motor
(Refer to chapter Sigma linear motors)
SGMAH, SGMPH Servo Motor
SGLT_ linear Servo Motor
SGLG_ linear Servo Motor
SGLF_ linear Servo Motor
(Refer to chapter Sigma-II rotary motors)
SGMGV, SGMSV Servo Motor
SGMJV, SGMAV, SGMEV Servo Motor
(Refer to chapter Sigma-5 rotary motors)
Direct drive servo motor SGMCS-@-@B, C, D, E
Direct drive servo motor SGMCS-@-@M, N
(Refer to chapter Sigma direct drive motors)
Battery case for absolute encoder
Analog monitor cable
USB cable
Safety cable
MECHATROLINK-II network
CN5
CN7
CN1
CN8
CN2
CN6
General purpose connector
Personal computer
Battery case for absolute encoder
Analog monitor cable
USB cable
Safety cable
CN5
CN7
CN1
CN8
Sigma-5 Analog/Pulse Reference Servo Drive
CN2
Position control unit
Terminal block position control Unit
General purpose cable
Personal computer
Sigma-5 MECHATROLINK-II Servo Drive
2 AC servo systems
Servo motor / servo drive combination
Servo motor Sigma-5 Servo drive
Family Voltage Rated torque Capacity 230 V (1 phase)
Analog/Pulse
230 V (1 phase)
MECHATROLINK-II
400 V (3 phase)
Analog/Pulse
400 V (3 phases)
MECHATROLINK-II
Sigma-II series motors (refer to the Sigma-II rotary motors chapter for details)
SGMAH (3000 min
-1
) 230 V 0.0955 Nm 30 W SGDV-A5A01A-OY SGDV-A5A11A-OY - -
0.159 Nm 50 W SGDV-A5A01A-OY SGDV-A5A11A-OY - -
0.318 Nm 100 W SGDV-01A01A-OY SGDV-01A11A-OY - -
0.637 Nm 200 W SGDV-02A01A-OY SGDV-02A11A-OY - -
1.27 Nm 400 W SGDV-04A01A-OY SGDV-04A11A-OY - -
2.39 Nm 750 W SGDV-08A01A-OY SGDV-08A11A-OY - -
400 V 0.955 Nm 300 W - - SGDV-05D01A-OY SGDV-05D11A-OY
2.07 Nm 650 W - - SGDV-10D01A-OY SGDV-10D11A-OY
SGMPH (3000 min
-1
)230 V 0.318 Nm 100 W SGDV-01A01A-OY SGDV-01A11A-OY - -
0.637 Nm 200 W SGDV-02A01A-OY SGDV-02A11A-OY - -
1.27 Nm 400 W SGDV-04A01A-OY SGDV-04A11A-OY - -
2.39 Nm 750 W SGDV-08A01A-OY SGDV-08A11A-OY - -
4.77 Nm 1500 W SGDV-15A01A-OY-008000 SGDV-15A11A-OY-008000 - -
400 V 0.637 Nm 200 W - - SGDV-05D01A-OY SGDV-05D11A-OY
1.27 Nm 400 W - - SGDV-05D01A-OY SGDV-05D11A-OY
2.39 Nm 750 W - - SGDV-10D01A-OY SGDV-10D11A-OY
4.77 Nm 1500 W - - SGDV-15D01A-OY SGDV-15D11A-OY
SGMGH (1500 min
-1
)400 V 2.84 Nm 0.45 kW - - SGDV-05D01A-OY SGDV-05D11A-OY
5.39 Nm 0.85 kW - - SGDV-10D01A-OY SGDV-10D11A-OY
8.34 Nm 1.3 kW - - SGDV-15D01A-OY SGDV-15D11A-OY
11.5 Nm 1.8 kW - - SGDV-20D01A-OY SGDV-20D11A-OY
18.6 Nm 2.9 kW - - SGDV-30D01A-OY SGDV-30D11A-OY
28.4 Nm 4.4 kW - - SGDV-50D01A-OY SGDV-50D11A-OY
35.0 Nm 5.5 kW - - SGDV-210D01A SGDV-210D11A
48.0 Nm 7.5 kW - - SGDV-260D01A SGDV-260D11A
70.0 Nm 11 kW - - SGDV-280D01A SGDV-280D11A
95.4 Nm 15 kW - - SGDV-370D01A SGDV-370D11A
SGMSH (3000 min
-1
) 400 V 3.18 Nm 1.0 kW - - SGDV-10D01A-OY SGDV-10D11A-OY
4.90 Nm 1.5 kW - - SGDV-15D01A-OY SGDV-15D11A-OY
6.36 Nm 2.0 kW - - SGDV-20D01A-OY SGDV-20D11A-OY
9.80 Nm 3.0 kW - - SGDV-30D01A-OY SGDV-30D11A-OY
12.6 Nm 4.0 kW - - SGDV-50D01A-OY SGDV-50D11A-OY
15.8 Nm 5.0 kW - - SGDV-50D01A-OY SGDV-50D11A-OY
SGMUH (6000 min
-1
) 400 V 1.59 Nm 1.0 kW - - SGDV-10D01A-OY SGDV-10D11A-OY
2.45 Nm 1.5 kW - - SGDV-15D01A-OY SGDV-15D11A-OY
4.9 Nm 3.0 kW - - SGDV-30D01A-OY SGDV-30D11A-OY
6.3 Nm 4.0 kW - - SGDV-50D01A-OY SGDV-50D11A-OY
Sigma-5 series motors (refer to the Sigma-5 rotary motors chapter for details)
SGMJV (3000 min
-1
) 230 V 0.159 Nm 50 W SGDV-A5A01A-OY SGDV-A5A11A-OY - -
0.318 Nm 100 W SGDV-01A01A-OY SGDV-01A11A-OY - -
0.637 Nm 200 W SGDV-02A01A-OY SGDV-02A11A-OY - -
1.27 Nm 400 W SGDV-04A01A-OY SGDV-04A11A-OY - -
2.39 Nm 750 W SGDV-08A01A-OY SGDV-08A11A-OY - -
SGMAV (3000 min
-1
) 230 V 0.159 Nm 50 W SGDV-A5A01A-OY SGDV-A5A11A-OY - -
0.318 Nm 100 W SGDV-01A01A-OY SGDV-01A11A-OY - -
0.477 Nm 150 W SGDV-02A01A-OY SGDV-02A11A-OY - -
0.637 Nm 200 W SGDV-02A01A-OY SGDV-02A11A-OY - -
1.27 Nm 400 W SGDV-04A01A-OY SGDV-04A11A-OY - -
1.75 Nm 550 W SGDV-08A01A-OY SGDV-08A11A-OY - -
2.39 Nm 750 W SGDV-08A01A-OY SGDV-08A11A-OY - -
3.18 Nm 1.0 kW SGDV-15A01A-OY-008000 SGDV-15A11A-OY-008000 - -
SGMEV (3000 min
-1
)230 V 0.318 Nm 100 W SGDV-01A01A-OY SGDV-01A11A-OY - -
0.637 Nm 200 W SGDV-02A01A-OY SGDV-02A11A-OY - -
1.27 Nm 400 W SGDV-04A01A-OY SGDV-04A11A-OY - -
2.39 Nm 750 W SGDV-08A01A-OY SGDV-08A11A-OY - -
4.77 Nm 1.5 kW SGDV-15A01A-OY-008000 SGDV-15A11A-OY-008000 - -
400 V 0.637 Nm 200 W - - SGDV-05D01A-OY SGDV-05D11A-OY
0.955 Nm 300 W - - SGDV-05D01A-OY SGDV-05D11A-OY
1.27 Nm 400 W - - SGDV-05D01A-OY SGDV-05D11A-OY
2.07 Nm 650 W - - SGDV-10D01A-OY SGDV-10D11A-OY
2.39 Nm 750 W - - SGDV-10D01A-OY SGDV-10D11A-OY
4.77 Nm 1.5 kW - - SGDV-15D01A-OY SGDV-15D11A-OY
Sigma-5 servo drive 3
SGMGV (1500 min-1) 400 V 1.96 Nm 300 W - - SGDV-05D01A-OY SGDV-05D11A-OY
2.86 Nm 450 W - - SGDV-05D01A-OY SGDV-05D11A-OY
5.39 Nm 850 W - - SGDV-10D01A-OY SGDV-10D11A-OY
8.34 Nm 1.3 kW - - SGDV-15D01A-OY SGDV-15D11A-OY
11.5 Nm 1.8 kW - - SGDV-20D01A-OY SGDV-20D11A-OY
18.6 Nm 2.9 kW - - SGDV-30D01A-OY SGDV-30D11A-OY
28.4 Nm 4.4 kW - - SGDV-50D01A-OY SGDV-50D11A-OY
35.0 Nm 5.5 Kw - - SGDV-210D01A SGDV-210D11A
48.0 Nm 7.5 Kw - - SGDV-260D01A SGDV-260D11A
70.0 Nm 11 Kw - - SGDV-280D01A SGDV-280D11A
95.4 Nm 15 Kw - - SGDV-370D01A SGDV-370D11A
SGMSV (3000 min
-1
) 400 V 3.18 Nm 1 kW - - SGDV-10D01A-OY SGDV-10D11A-OY
4.9 Nm 1.5 kW - - SGDV-15D01A-OY SGDV-15D11A-OY
6.36 Nm 2 kW - - SGDV-20D01A-OY SGDV-20D11A-OY
7.96 Nm 2.5 kW - - SGDV-30D01A-OY SGDV-30D11A-OY
9.8 Nm 3 kW - - SGDV-30D01A-OY SGDV-30D11A-OY
12.6 Nm 4 kW - - SGDV-50D01A-OY SGDV-50D11A-OY
15.8 Nm 5 kW - - SGDV-50D01A-OY SGDV-50D11A-OY
Sigma direct drive motors (refer to the Sigma direct drive motors chapter for details)
SGMCS (200 min
-1
) 230 V 2.0 Nm 42 W SGDV-04A01A-OY SGDV-04A11A-OY - -
5.0 Nm 105 W SGDV-04A01A-OY SGDV-04A11A-OY - -
7.0 Nm 147 W SGDV-02A01A-OY SGDV-02A11A-OY - -
4.0 Nm 84 W SGDV-04A01A-OY SGDV-04A11A-OY - -
10.0 Nm 209 W SGDV-04A01A-OY SGDV-04A11A-OY - -
14.0 Nm 293 W SGDV-04A01A-OY SGDV-04A11A-OY - -
8.0 Nm 168 W SGDV-04A01A-OY SGDV-04A11A-OY - -
17.0 Nm 356 W SGDV-04A01A-OY SGDV-04A11A-OY - -
25.0 Nm 393 W SGDV-04A01A-OY SGDV-04A11A-OY - -
16.0 Nm 335 W SGDV-08A01A-OY SGDV-08A11A-OY - -
35.0 Nm 550 W SGDV-08A01A-OY SGDV-08A11A-OY - -
45.0 Nm 707 W SGDV-15A01A-OY-008000 SGDV-15A11A-OY-008000 - -
80.0 Nm 1260 W SGDV-15A01A-OY-008000 SGDV-15A11A-OY-008000 - -
Sigma linear motors (refer to the Sigma linear motors chapter for details)
SGLGW coreless standard-force magnetic ways
230 V 12.5 N (40 N peak) - SGDV-A5A05A-OY SGDV-A5A15A-OY - -
25 N (80 N peak) - SGDV-01A05A-OY SGDV-01A15A-OY - ­47 N (140 N peak) - SGDV-01A05A-OY SGDV-01A15A-OY - ­70 N (220 N peak) - SGDV-02A05A-OY SGDV-02A15A-OY - ­93 N (280 N peak) - SGDV-02A05A-OY SGDV-02A15A-OY - -
140 N (420 N peak) - SGDV-04A05A-OY SGDV-04A15A-OY - ­140 N (440 N peak) - SGDV-04A05A-OY SGDV-04A15A-OY - ­210 N (660 N peak) - SGDV-08A05A-OY SGDV-08A15A-OY - -
325 N (1300 N peak) - SGDV-15A05A-OY-008000 SGDV-15A15A-OY-008000 - -
SGLGW coreless high-force magnetic ways
230 V 57 N (230 N peak) - SGDV-02A05A-OY SGDV-02A15A-OY - -
114 N (460 N peak) - SGDV-02A05A-OY SGDV-02A15A-OY - ­171 N (690 N peak) - SGDV-08A05A-OY SGDV-08A15A-OY - -
85 N (360 N peak) - SGDV-02A05A-OY SGDV-02A15A-OY - -
170 N (720 N peak) - SGDV-08A05A-OY SGDV-08A15A-OY - -
255 N (1080 N peak) - SGDV-08A05A-OY SGDV-08A15A-OY - -
SGLFW Linear motors
230 V 25 N (86 N peak) - SGDV-02A05A-OY SGDV-02A15A-OY - -
40 N (125 N peak) - SGDV-01A05A-OY SGDV-01A15A-OY - ­80 N (220 N peak) - SGDV-02A05A-OY SGDV-02A15A-OY - -
160 N (440 N peak) - SGDV-04A05A-OY SGDV-04A15A-OY - ­280 N (600 N peak) - SGDV-08A05A-OY SGDV-08A15A-OY - -
560 N (1200 N peak) - SGDV-15A05A-OY-008000 SGDV-15A15A-OY-008000 - -
400 V 80 N (220 N peak) - - - SGDV-05D05A-OY SGDV-05D15A-OY
160 N (440 N peak) - - - SGDV-05D05A-OY SGDV-05D15A-OY
280 N (600 N peak) - - - SGDV-10D05A-OY SGDV-10D15A-OY 560 N (1200 N peak) - - - SGDV-15D05A-OY SGDV-15D15A-OY 1120 N (2400 N peak) - - - SGDV-30D05A-OY SGDV-30D15A-OY 1500 N (3600 N peak) - - - SGDV-20D05A-OY SGDV-20D15A-OY 2250 N (5400 N peak) - - - SGDV-30D05A-OY SGDV-30D15A-OY
SGLTW Linear motors
400 V 300 N (600 N peak) - - - SGDV-10D05A-OY SGDV-10D15A-OY
600 N (1200 N peak) - - - SGDV-20D05A-OY SGDV-20D15A-OY
450 N (900 N peak) - - - SGDV-10D05A-OY SGDV-10D15A-OY 900 N (1800 N peak) - - - SGDV-20D05A-OY SGDV-20D15A-OY 670 N (2600 N peak) - - - SGDV-30D05A-OY SGDV-30D15A-OY 1000 N (4000 N peak) - - - SGDV-50D05A-OY SGDV-50D15A-OY 1300 N (5000 N peak) - - - SGDV-50D05A-OY SGDV-50D15A-OY
Servo motor Sigma-5 Servo drive
Family Voltage Rated torque Capacity 230 V (1 phase)
Analog/Pulse
230 V (1 phase)
MECHATROLINK-II
400 V (3 phase)
Analog/Pulse
400 V (3 phases)
MECHATROLINK-II
4 AC servo systems
Servo drive
Single-phase, 230 V
Three-phase, 400 V
Type designation
Servo drive specifications
Servo drive type SGDV- @ A5A@@A-OY 01A@@A-OY 02A@@A-OY 04A@@A-OY 08A@@A-OY 15A@@A-OY-008000
Applicable servo motor
SGMAH-@ A3A@/A5A@ 01A@ 02A@ 04A@ 08A@ - SGMPH-@ - 01A@ 02A@ 04A@ 08A@ 15A@
SGMJV-@ A5A@ 01A@ 02A@ 04A@ 08A@ - SGMAV-@ A5A@ 01A@ C2A@/02A@ 04A@ 06A@/08A@ 10A@ SGMEV-@ - 01A@ 02A@ 04A@ 08A@ 15A@
Basic specifications
Max. applicable motor capacity W 50 100 200 400 750 1500 Continuous output current Arms 0.66 0.91 1.6 2.8 5.5 11.6 Max. output current Arms 2.1 2.9 6.5 9.3 16.9 28 Input power Main circuit Single-phase, 200 to 230 VAC + 10 to -15% (50/60 Hz) Supply Control circuit Single-phase, 200 to 230 VAC + 10 to -15% (50/60 Hz) Control method Single phase full-wave rectification / IGBT / PWM / sine-wave current drive method Feedback Serial encoder (incremental/absolute)
Conditions
Usage/storage temperature 0 to +55 °C / -20 to 85 °C Usage/storage humidity 90%RH or less (non-condensing) Altitude 1000m or less above sea level Vibration/shock resistance 4.9 m/s
2
/ 19.6 m/s
2
Configuration Base mounted Approx. weight Kg 0.9 1.0 1.5 2.8
Servo drive type SGDV-@ 05D@ 10D@ 15D@ 20D@ 30D@ 50D@ 210D@ 260D@ 280D@ 370D@
Applicable servo motor
SGMAH-@ 03D@ 07D@ - - - - - - - - SGMPH-@ 02D@/04D@ 08D@ 15D@ - - - - - - - SGMGH-@ 05D@ 09D@ 13D@ 20D@ 30D@ 44D@ 55D@ 75D@ 1AD@ 1ED@ SGMSH-@ - 10D@ 15D@ 20D@ 30D@ 40D@/50D@ - - - - SGMUH-@ - 10D@ 15D@ - 30D@ 40D@ - - - - SGMEV-@ 02/03/04D@ 07D@/08D@ 15D@ - - - - - - - SGMGV-@ 03D@/05D@ 09D@ 13D@ 20D@ 30D@ 44D@ 55D@ 75D@ 1AD@ 1ED@ SGMSV-@ - 10D@ 15D@ 20D@ 25D@ 40D@/50D@ - - - -
Basic specifications
Max. applicable motor capacity kW 0.5 1.0 1.5 2.0 3.0 5.0 6.0 7.5 11 15 Continuous output current Arms 1.9 3.5 5.4 8.4 11.9 16.5 20.8 25.4 28.1 37.2 Max. output current Arms 5.5 8.5 14 20 28 42 55 65 70 85 Input power Main circuit Three-phase, 380 to 480 VAC + 10 to -15% (50/60Hz) Supply Control circuit 24 VDC +/-15% Control method Three phase full-wave rectification / IGBT / PWM / sine-wave current drive method Feedback Serial encoder (incremental/absolute)
Conditions
Usage/storage temperature 0 to +55 °C / -20 to +85 °C Usage/storage humidity 90%RH or less (non-condensing) Altitude 1000 m or less above sea level Vibration/shock resistance 4.9 m/s
2
/ 19.6 m/s
2
Configuration Base mounted Ap prox . we igh t K g 2 .7 3. 7 5. 6 11 .3 16 .2
Sigma-5 servo drive
Design Revision Order: A, B...
Source voltage
A: 230 V
D: 400 V
Code
01
05
11
15
Specifications
Analog voltage/pulse train reference type
(for rotary servomotors)
Analog voltage/pulse train reference type
(for linear servomotors)
MECHATROLINK-II comms reference type
(for rotary servomotors)
MECHATROLINK-II comms reference type
(for linear servomotors)
Interface
Voltage Code
230 V
Output
Capacity
50 W
400 V
A5 01 02 04 08 15 05 10 15
20 30 50
200 W
100 W
400 W 750 W
1.5 kW 500 W
1.0 kW
1.5 kW
2.0 kW
3.0 kW
5.0 kW
210 260 280 370
6.0 kW
7.5 kW
11 kW 15 kW
Omron-Yaskawa Motion Control B.V.
(Note: all models except 6 to 15 kW)
Code
Blank
008000
Specifications
Standard
Servo drive 1.5 kW single-phase 230 V
Sigma-5 servo drive 5
Sigma-5 Analog/Pulse Reference Servo Drive
General specifications
Speed/torque control mode
Performance
Speed control range 1:5000 Speed
variance
Load variance During 0 to 100% load ±0.01% max. (at rated speed) Voltage variance Rated voltage ±10%:0% (at rated speed)
Temperature variance 25 ±25 °C: ±0.1 % max. (at rated speed) Frequency characteristics 1.6 kHz Torque control accuracy (Repeatability) ±1% Soft start time setting 0 to 10 s (acceleration, deceleration can each be set.)
Input signal
Speed reference input
Reference voltage ±6 VDC (forward motor rotation if positive reference) at rated speed: Set at delivery
Variable setting range: ±2 to ±10 VDC at rated speed/ max. input voltage: ±12 V Input impedance Approx. 14 kΩ Circuit time constant Approx. 30 µs
Torque reference input
Reference voltage ±3 VDC (forward rotation if positive reference) at rated torque: Set at delivery
Variable setting range ±1 to ±10 VDC at rated torque reference, max. input voltage: ±12 V Input impedance Approx. 14 KΩ Circuit time constant Approx. 30 µs
Position control mode
performance
Feedforward compensation 0 to 100% (setting resolution: 1%) Position completed width setting 0 to 1073741824 command units (setting resolution: 1 command unit)
Input signal
Command pulse
Input pulse type Sign + pulse train, 90° phase displacement 2-phase pulse (A-phase+ B-phase) or CCW/CW pulse train Input pulse form Non-insultated line driver (+5 V level) , open collector. Input pulse frequency 0 to 4 Mpps (200 Kpps max. at open collector)
Control signal Clears error pulse by external signal
I/O signal
Position signal output A-phase, B.phase, C-phase: line driver output. Sequence input signal Servo ON, P control (or control mode switching, forward/reverse motor rotation by internal speed setting, zero
clamp, command pulse inhibit), forward/reverse run prohibit, forward/reverse current limit (or internal speed
switching), alarm reset.
Sequence output signal Servo alarm, alarm codes (3-bit output): CN1 output terminal is fixed
It is possible to output three types of signal form incl.: positioning complete, speed coincidence detection, servo-
motor rotation detection, servo ready, current limit detection, speed limit detection, brake release, warning, NEAR.
Integrated functions
USB Communica­tions
Interface Personal computer Communications standard Compliant with USB1.1 standard (12 Mbps) Function Status display, parameter settings, adjustment functions, utility functions, alarm traceback display, JOG run/au-
totuning operations and graphing functions for speed/torque command signal, etc
Automatic load inertia detection Automatic motor parameter setting. One parameter rigidity setting. Dynamic brake (DB) Operates during main power OFF, servo alarm, servo OFF or overtravel Regenerative processing Internal resistor included in models from 500 W to 5 kW. Regenerative resistor externally mounted (option). Overtravel (OT) prevention function DB stop, deceleration stop or coast to stop during P-OT, N-OT operation Encoder divider function Optional division pulses possible Electronic gearing 0,01< Numerator/Denominator<100 Internal speed setting function 3 speeds may be set internally Protective functions Overcurrent, overvoltage, low voltage, overload, regenerative error Analog monitor functions for supervision Integrates analog monitor connector for supervision of the speed and torque reference signals, etc.
Number of channels: 2 (Output voltage: +/-10V DC)
Panel operator Display functions CHARGE, 7-segments LEDx5
Panel operator keys Used to set parameters (4 keys)
Safety functions Hard wire base block signal and status monitor (fixed output) of safety circuit Others Reverse connection, zero search, automatic motor discrimination function, and DC reactor connection terminal
for high frequency power suppression function.
6 AC servo systems
I/O specifications
I/O signals (CN1) - input signals
Note: 1. Pin numbers in parentheses () indicate signal grounds.
2. The functions allocated to /S-ON, /P-CON. P-OT, N-OT, /ALM-RST, /P-CL, and /N-CL input signals can be changed by using the
parameters.
3. The voltage input range for speed and torque references is a maximum of ±12 V.
Pin No. Signal name Function
40 Common /S-ON Servo ON: Turns ON the servo motor. 41 /P-CON Function selected by parameter.
Proportional control reference Switches the speed control loop from PI (proportional/integral) to P (proportional)
control when ON. Direction reference With the internal set speed selected: switch the rotation direction. Control mode
switching
Zero-clamp reference Speed control with zero-clamp function: reference speed is zero when ON. Reference pulse block Position control with reference pulse stop: stops reference pulse input when ON.
42 43
P-OT N-OT
Forward run prohibited Reverse run prohibited
Overtravel prohibited: Stops servo motor when movable part travels beyond the
allowable range of motion.
45 46
/P-CL /N-CL
Function selected by parameter. Forward external torque limit ON
Reverse external torque limit ON
Current limit function enabled when ON.
Internal speed switching With the internal set speed selected: switches the internal speed settings.
44 /ALM-RST Alarm reset: releases the servo alarm state. 47 +24VIN Control power supply input for sequence signals: users must provide the +24 V power supply.
Allowable voltage fluctuation range: 11 to 25 V
4 (2) SEN Initial data request signal when using an absolute encoder. 21
22
BAT (+) BAT (-)
Connecting pin for the absolute encoder backup battery. Do not connect when the encoder cable for the battery case is used.
5 (6) Speed V-REF Speed reference input: ±2 to ±10 V/rated motor speed (Input gain can be modified using a parameter). 9 (10) Torque T-REF Torque reference input: ±1 to ±10 V/rated motor torque (Input gain can be modified using a parameter). 7
8
11 12
Position PULS
/PULS SIGN /SIGN
Reference pulse input for line driver only
Input mode is set from the following pulses:
Sign + pulse string
CCW/CW pulse
Two-phase pulse (90° phase differential)
15 14
CLR /CLR
Positional error pulse clear input: clears the positional error pulse during position control.
Tor que ↔ speed
Position
torque
Position
speed
Enables control mode switching
Sigma-5 servo drive 7
I/O signals (CN1) - output signals
Note: 1. Pin numbers in parentheses () indicate signal grounds.
2. The functions allocated to /TGON, /S-RDY, and /V-CMP (/COIN) output signals can be changed by using the parameters. /CLT, /VLT, /
BK, /WARN and /NEAR signals can also be changed.
I/O signals (CN8) - safety signals
Terminal specifications
Encoder connector (CN2)
Pin No. Signal Name Function
31 32
Common ALM+
ALM-
Servo alarm: Turns OFF when an error is detected.
27 28
/TGON+ /TGON-
Detection during servo motor rotation: detects when the servo motor is rotating at a speed higher than the motor speed setting.
29 30
/S-RDY+ /S-RDY-
Servo ready: ON if there is no servo alarm when the control/main circuit power supply is turned ON.
33 34
PAO /PAO
Phase-A signal Two-phase pulse encoder output pulse signal
35 36
PBO /PBO
Phase-B signal
19 20
PCO /PCO
Phase-C signal
Zero-point pulse signal
37 (1) 38 (1) 39 (1)
ALO1 ALO2 ALO3
Alarm code output: Outputs 3-bit alarm codes.
Shell FG Connected to frame ground if the shield wire of the I/O signal cable is connected to the connector shell. 25
26
Speed /V-CMP+
/V-CMP-
Turns ON when whether the motor speed is within the setting range is detected and if it matches the reference speed value.
25 26
Position /COIN+
/COIN-
Turns ON when the number of position error pulse reaches the value set.
- Reserved /CLT /VLT /BK /WARN /NEAR
Reserved terminals The functions allocated to /TGON, /S-RDY, and /V-CMP (/COIN) can be changed by using the parameters. /CLT, /VLT, /BK, /WARN and /NEAR signals can also be changed.
3 13 16 17 18 23 24 48 49 50
- Terminals not used.
Do not connect.
Pin No. Signal Name Function
4 3
Common /HWBB1+
/HWBB1-
Hard wire baseblock input 1
6 5
/HWBB2+ /HWBB2-
Hard wire baseblock input 2
8
7
EDMI+ EDMI-
Monitored circuit status output 1: ON when the hard wire baseblock function is normally activated.
1 2
Reserved - Terminals not used.
Do not connect.
Symbol Name Function
L1, L2 or L1, L2, L3
Main circuit AC input terminal AC power input terminals for the main circuit
U, V, W Servo motor connection terminal Terminals for outputs to the servo motor. L1C, L2C Control power input terminal AC power input terminals for the control circuit. 24V, 0V 24V DC power input terminals for the control circuit.
Frame ground Ground terminal. Ground to a maximum of 100 Ω. (class 3).
B1/ , B2, B3 Main circuit DC output terminal Up to 400 W: If the regenerative capacity is insufficient, connect an external regenerative resistor
(option) between B1/ and B2. From 500 W to 5 kW: Normally short B2 and B3. If the internal regenerative resistor is insufficient, remove the wire between B2 and B3 and connect an external regenerative resistor between B1/ and B2.
1, 2 DC reactor connection terminal for
suppressing power supply harmonic waves
Normally, short 1 and 2. If a countermeasure against power supply harmonic waves is needed, connect a DC reactor between 1 and 2.
Pin No. Signal Name Function
1 E5V Encoder power supply + 5 V 2 E0V Encoder power supply ground 3 BAT+ Battery + (used only with absolute encoder) 4 BAT– Battery – (used only with absolute encoder) 5 S+ Encoder serial signal input 6 S– Encoder serial signal input
8 AC servo systems
Sigma-5 MECHATROLINK-II Servo Drives
General specifications
I/O specifications
I/O signals (CN1) - input signals
Note: 1. The functions allocated to /DEC, P-OT, N-OT, /EXT1,-/EXT2 and /EXT3 input signals can be changed by using the
parameters.
2. If the Forward/ Reverse run prohibited function is used, the software can be used to stop the Servo drive. If the application does not satisfy the requirements, add an external circuit for safety reasons as required.
Position/speed/torque control mode
Performance
Speed control range 1:5000 Speed
variance
Load variance During 0 to 100% load ±0.01% max. (at rated speed) Voltage variance Rated voltage ±10%:0% (at rated speed)
Temperature variance 25 ±25 °C: ±0.1 % max. (at rated speed) Frequency characteristics 1.6 kHz Torque control accuracy (Repeatability) ±1% Soft start time setting 0 to 10 s (acceleration, deceleration can each be set.)
Command input
MECHATROLINK Communication
MECHATROLINK-II commands (for sequence, motion, data setting/reference, monitor, adjustment and other commands)
I/O signal
Position signal output A-phase, B.phase, C-phase: line driver output. Sequence input signal Homing deceleration limit switch, forward/reverse run prohibited, external latch signals, forward/reverse current
limit.
Sequence output signal It is possible to output three types of signal form incl.: positioning complete, speed coincidence detection, servo-
motor rotation detection, servo ready, current limit detection, speed limit detection, brake release, warning, NEAR.
Integrated functions
Communications
USB Communica­tions
Interface Personal computer
Communications standard Compliant with USB1.1 standard (12 Mbps)
Function Status display, parameter setting, adjusting functions, utility functions, alarm traceback display, JOG run/autotun-
ing operations and graphing functions for speed/torque command signal, etc
Mechatrolink Communica­tions
Communications protocol MECHATROLINK-II
Station Address 41H to 5FH (max. number of slaves: 30)
Transmission Speed 10 Mbps
Transmission Cycle 250 µs, 0.5 to 4.0 ms (multiple of 0.5 ms)
Data length 17-bytes and 32-bytes
Automatic load inertia detection Automatic motor parameter setting. One parameter rigidity setting. Dynamic brake (DB) Operates during main power OFF, servo alarm, servo OFF or overtravel Regenerative processing Internal resistor included in models from 500 W to 5 kW. Regenerative resistor externally mounted (option). Overtravel (OT) prevention function DB stop, deceleration stop or coast to stop during P-OT, N-OT operation Encoder divider function Optional division pulses possible Electronic gearing 0,01< Numerator/Denominator<100 Internal speed setting function 3 speeds may be set internally Protective functions Overcurrent, overvoltage, low voltage, overload, regeneration error Analog monitor functions for supervision Integrates analog monitor connectors for supervision of the speed and torque reference signals, etc.
Number of channels: 2 (Output volatge: +/-10V DC).
Panel operator Display functions CHARGE, 7-segments LEDX1
Switches Rotary switch: MECHATROLINK-II station address setting (16 channels)
DIP switch: MECHATROLINK-II communications setting (4 channels) Safety functions Hard wire base block signal and status monitor (fixed output) of safety circuit Others Reverse connection, zero search, automatic motor discrimination function, and DC reactor connection terminal
for high frequency power suppression function.
Pin No. Signal name Function
9 Common /DEC Homing deceleration limit switch Connects the deceleration limit switch for homing. 7
8
P-OT N-OT
Forward run prohibited Reverse run prohibited
Overtravel prohibited: Stops servo motor when movable part travels beyond the allowable range of motion.
10 11 12
/EXT 1 /EXT 2 /EXT 3
External latch signal 1 External latch signal 2 External latch signal 3
Connects the external signals that latch the current feedback pulse counter.
6 +24VIN Control power supply input for sequence signals: users must provide the +24 V power supply.
Allowable voltage fluctuation range: 11 to 25 V.
14 15
BAT (+) BAT (-)
Connecting pin for the absolute encoder backup battery. Do not connect when a battery is connected to the host controller.
13 /SIO General-purpose input signal:
Monitored in the I/O monitor field of MECHATROLINK-II.
Sigma-5 servo drive 9
I/O signals (CN1) - output signals
I/O signals (CN8) - safety signals
Terminal specifications
Encoder connector (CN2)
Pin No. Signal Name Function
3 4
Common ALM+
ALM-
Servo alarm: Turns OFF when an error is detected.
1
2
/BK+ (/SO1+) /BK­(/SO1-)
Brake interlock signal Controls the brake. The brake is released when the signal turns ON.
Allocation can be changed to general-purpose output signals (/SO1+, /SO1-).
23 24 25 26
/S
O2+
/S
O2-
/S
O3+
/S
O3-
General-purpose output signal. Note: Set the parameter to allocate a function.
16 FG Signal ground:
Connected to frame ground if the shield wire of the I/O signal cable is connected to the connector shell.
17 18
PAO /PAO
Phase-A signal Dividing ratio can be set by parameter
(proper line receiver is SN75175 manufactured by Texas instruments or the equivalent corresponding to MC3486)
19 20
PBO /PBO
Phase-B signal
21 22
PCO /PCO
Phase-C signal
5 Reserved - Terminal not used. Do no connect.
Pin No. Signal Name Function
4 3
Common /HWBB1+
/HWBB1-
Hard wire baseblock input 1
6 5
/HWBB2+ /HWBB2-
Hard wire baseblock input 2
8
7
EDMI+ EDMI-
Monitored circuit status output 1: ON when the hard wire baseblock function is normally activated.
1 2
Reserved - Terminals not used.
Do not connect.
Symbol Name Function
L1, L2 or L1, L2, L3
Main circuit AC input terminal AC power input terminals for the main circuit
U, V, W Servo motor connection terminal Terminals for outputs to the servo motor. L1C, L2C Control power input terminal AC power input terminals for the control circuit. 24V, 0 24V DC power input terminals for the control circuit.
Frame ground Ground terminal. Ground to a maximum of 100 Ω. (class 3).
B1/ , B2, B3 or B1, B2, B3
Main circuit DC output terminal Up to 400 W: If the regenerative capacity is insufficient, connect an external regenerative resistor
(option) between B1/ and B2. From 500 W to 5 kW: Normally short B2 and B3. If the internal regenerative resistor is insufficient, remove the wire between B2 and B3 and connect an external regenerative resistor between B1/ and B2.
1, 2 DC reactor connection terminal for
suppressing power supply harmonic waves
Normally, short 1 and 2. If a countermeasure against power supply harmonic waves is needed, connect a DC reactor between 1 and 2.
Pin No. Signal Name Function
1 E5V Encoder power supply + 5 V 2 E0V Encoder power supply ground 3 BAT+ Battery + (used only with absolute encoder) 4 BAT– Battery – (used only with absolute encoder) 5 S+ Encoder serial signal input 6 S– Encoder serial signal input
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