Air Flow Measuring Points
When operating the servo drive, the ambient environmental temperature should be between 0°C (32°F) and 55°C (131°F). If
the temperature is over 45°C (113°F), place the product in a well-ventilated environment. During long-term operation, the
suggested temperature of the operating environment should be under 45°C (113°F) to ensure the servo drive’ s
performance. For SV2A-2040, keep a clearance of at least 50mm above the drives and keep the speed of air flow above 0.5
m/s. For SV2A-2075,
SV2A-2150, SV2A-2200, SV2A-2300, SV2A-2550, SV2A-2750, and SV2A-2F00, keep a clearance
of at least 50mm above the drives and keep the speed of air flow above 1 m/s. If the product is installed in an electrical
cabinet, make sure the size of the cabinet and its ventilation condition can prevent the internal electrical devices from
overheating. Also, check if the vibration of the machine affects the electrical devices in the electrical cabinet.
La température ambiante de l’environnement de fonctionnement de l’entraînement asservi doit être entre 0 °C (32 °F) et
55 °C (131 °F). Si la température est supérieure à 45 °C (113 °F), placez le produit dans un environnement bien ventilé.
Pour le fonctionnement à long terme, la température suggérée de l’environnement d’opération doit être inférieure à 45 °C
(113 °F) afin d’assurer le bon rendement de l’entraînement asservi. Si le produit est installé dans un tableau de distribution,
assurez-vous que la taille du tableau de distribution et la ventilation peuvent empêcher la surchauffe des dispositifs
électriques internes. Vérifiez également si la vibration de la machine affecte les dispositifs électriques du tableau de
distribution.
(5) Installation direction and space
Precautions:
◼
Incorrect installation direction may result in malfunction.
◼
For better ventilation and cooling, allow sufficient clearance space between the AC servo drive and the adjacent
objects and the wall, or overheating may result in malfunction of the machine.
◼
Do not block the ventilation holes of the AC servo drive, and do not mount it in the incorrect direction, or it may
result in malfunction of the machine.
(5)
Orientation et espace requis pour l’installation
Precautions:
◼
Une mauvaise orientation d’installation peut entraîner un dysfonctionnement.
◼
Pour une meilleure ventilation et un meilleur refroidissement, prévoyez un dégagement suffisant entre
l’entraînement asservi c.a., les objets adjacents et le mur, sinon la surchauffe peut entraîner un
dysfonctionnement de la machine.
◼
Ne bloquez pas les orifices d’aération de l’entraînement asservi c.a. et ne le fixez pas dans la mauvaise direction,
ou cela pourrait entraîner un dysfonctionnement de la machine.
Correct
Incorrect
Installation: In order to have adequate air flow for ventilation, follow the suggested clearances as shown in the following
diagram when installing one or more servo drives.
One servo drive
Multiple servo drives
Note: The above diagrams are not accurately scaled. Refer to the annotations on the diagrams.
Servo drive model
Cooling method
Minimum distance (d) corresponding to
the operating temperature (Ta)
*Considering the assembly tolerances, the servo drive requires
a minimum clearance of 1mm
SV2A-2040
Natural cooling
SV2A-2075
SV2A-2150
SV2A-2200
SV2A-2300
SV2A-2550
SV2A-2750
SV2A-2F00
Natural cooling plus
forced cooling
(6) Basic inspection
Item
Description
General inspection
◼
Periodically check to confirm the screws are securely tightened. This includes the screws in
the servo drive, the connection screws between the motor shaft and machine, and the
connection screws between the terminal block and machine.
◼
Prevent oil, water, metallic particles, and other foreign matter from entering the control box or
ventilation equipment. Protect the servo drive from any drill cuttings.
◼
If the control box is installed in a location where dust or harmful gas are present, ensure the
dust or harmful gas cannot enter the control box.
◼
Make sure to wire encoders and other devices in the proper sequence to avoid sudden
unintended acceleration or damage to the motor.
Inspection before
operation
(power is not
applied)
◼
To avoid electric shock, connect the ground terminal of the servo drive to the ground terminal
of the control box. If wiring must be added or modified, wait at least 10 minutes after
disconnecting the servo drive from the power supply or discharge the electricity with a
discharge device.
◼
Isolate the wires at the wiring terminal.
◼
Make sure the wiring is correct to avoid damage or any abnormal operation.
◼
Check for and remove any electrically conductive objects, including metal sheet and screws,
or flammable objects inside or near the servo drive.
◼
Make sure the STO circuit is OFF.
◼
To ensure the electromagnetic brake works, make sure the stop and circuit breaker functions
are working properly.
◼
Reduce the electromagnetic interference if there is electromagnetic interference with the
peripheral devices.
◼
Make sure the external voltage level of the servo drive is correct.
Inspection before
operation
(power is applied)
◼
The encoder cable should be protected from excessive stress – make sure the cable is not
worn or stretched.
◼
Contact AutomationDirect if the servo motor vibrates or makes unusual noise during operation.
◼
Make sure the parameter settings are correct. Different machines have different
characteristics. Adjust the parameters according to the characteristics of each machine.
◼
Reset the parameters when the servo drive is in the Servo Off status to avoid possible
malfunction.
◼
If there is no contact noise or other abnormal noise when the relay is operating, contact
AutomationDirect
◼
Contact AutomationDirect if the power indicator or LED display does not function properly.
(7) Wiring
Single-phase power supply (models of 2 kW and
below can use 110VAC or 220VAC single phase)
Three-phase power supply (220VAC for all series)
Servo drive
L
1C
L
2C
R
S
T
Noise filter
Motor
MC
SPD
ALRM_RY_B
Power 1
Power 2
MC
R
S
24 VDC
DO5+ (28)
CN
1
U
V
W
MCCB
MC
DO5- (27)
ALRM_RY
P1
P2
Servo drive
L
1C
L
2C
R
S
T
Noise filter
Motor
MC
SPD
ALRM_RY_B
Power 1
Power 2
MC
R
S
24 V
DC
DO5+ (28)
CN1
U
V
W
MCCB
MC
DO5- (27)
ALRM_RY
T
P1
P2
Note: MCCB: molded case circuit breaker; MC: magnetic contactor; SPD: surge protection device; Power 1: power on;
Power 2: power off; ALRM_RY: alarm relay; ALRM_RY_B: normally closed contact of the alarm relay
(8) Wiring diagram for the servo system
DI9-
13
15
11
9
10
34
8
33
32
18
19
16
30
31
7
6
5
4
3
2
1
26
28
40
CN1
P3
D
C
U
V
W
R
S
T
SON
CCLR
TCM0
TCM1
ARST
NL
PL
OVRD
1.5K
Ω
1.5K
Ω
1.5K
Ω
1.5K
Ω
1.5K
Ω
SRDY
ZSPD
TPOS
HOME
ALRM
24V
10K
Ω
10K
Ω
Twi sted-pair
or twisted-
shielde d cable
10K
Ω
±
10V
Regenerative
resistor
Red
White
Black
Gre en
Brake
Motor
supply
Encoder
24V
*
2
*
2
4.7 K
Ω
4.7 K
Ω
K
Ω
K
Ω
29
DI10
38
27
46
1.5K
Ω
P1
P2
*
3
4.7
4.7
K
Ω
4.7
K
Ω
4.7
K
Ω
4.7
K
Ω
4.7
K
Ω
4.7
K
Ω
4.7
SG
Twi sted-pair or
twisted-
shielde d cable
T-REF
GND
MON1
GND
MON2
COM+
DI1-
DI2-
DI3-
DI4-
DI5-
DI6-
DI7-
DI8-
DO1+
DO1-
DO2+
DO2-
DO3+
DO3-
DO4+
DO4-
DO5+
DO6-
DO5-
DO6+
-
1
-
2
STO_A
3
/STO_A
4
STO_B
5
/STO_B
6
FDBK+
7
FDBK-
8
CN10
STO
GND
OCZ
44
48
OA
/OA
OB
/OB
OZ
/OZ
21
22
50
24
25
23
Max. output current: 50mA
Max. voltage: 30V
A phase pulse
B phase pulse
Z phase pulse
Z phase open
collector
Encoder
pulse output
CN3
CN4
CN5
+5V
Opt A
Opt /A
Opt B
Opt /B
Opt Z
GND
GND
Opt /Z
9
1
2
3
5
6
7
8
4
-
-
-
13
12
10
11
-
-
-
14
15
Mini USB
T+
T-
Shielding
5
6
Case
CN2
+5V
GND
1
2
-
-
RS485+
RS485-
GND_ISO
-
6,8
5
4
3,7
2
1
OVRD
BRKR
L
1C
L
2C
ESTOP
24Vdc
Safety
relay
DOX-
Servo drive
DOX+
Make sure the
polarity of diode is
correct, or it may
damage the servo
drive.
24Vdc
Digital Output Rating:
Max 30V
DC
, Max 40mA
For inductive loads, use a diode
Digital Input Rating:
ON: 15 - 24V
DC
, 8mA
OFF: <5V
DC
, <0.5 mA
42
44
10K
Ω
±
10V
V-REF
GND
Noise filter
MC
SPD
ALRM_RY_B
Motor
Power
ON
Motor
Power
OFF
MC
R
S
MCCB
T
37
36
41
43
Pulse input
(Line Driver)
/PULSE
PULSE
SIGN
/ SIGN
SIGN
/SIGN
12K
Ω
1. 2K
Ω
12K
Ω
1. 2K
Ω
*
1
Use a current limiting
resistor if necessary
24V Open-collector pulse command input
PULL HI_P
39
37
41
/PULSE
SIGN
/SIGN
SG
PNP type equipment
PULL HI_S
35
DC
24V
+
-
PULL HI_P
39
37
41
/PULSE
SIGN
/SIGN
SG
NPN type equipment
PULL HI_S
35
DC
24V
+
-
Inputs SIGN (36) and PULSE (43) are
designed for Line Driver (differential)
signals. Do not use with 24V. For 5V
open collector applications, see
section 3.5 in the User Manual.
Note: *1. For 200-230VAC single-phase input or 100-120VAC single-phase input (≤ 2kW), use R and S.
*2. To use external regen resistors: Connect resistors across terminals P3 and C and remove jumper between P3
and D.
To use the internal regen resistor (≤ 3kW): Jumper terminals P3 and D.
(Drives > 3kW do not have an internal regen resistor.)
*3. The brake coil has no polarity. (BRKR = DO code 08 and OVRD = DI code 21)
(see the other diagrams for clearance dimensions)
