English
Language : 

SMCW6150 Datasheet, PDF (4/16 Pages) celduc-relais – Solid State Relays For Motor Control
S/MOT/SMCW6150/A/22/07/99
1W240020
Page 4/16
Solid State Relays
For Motor Control
celduc®
relais
CONTROL
Fig. 4
CONTROL INPUTS AND STATUS OUTPUTS
HIGH SIDE CONTROL (PNP) Fig. 5 LOW SIDE CONTROL (NPN) Fig. 6
STATUS OUTPUT
UTILIZATION
ELECTRICAL CHARACTERISTICS OF THE STARTING AND STOPPING INPUTS
CHARACTERISTICS
LABELS
VALUES
(Given at 20°C ambient unless otherwise specified)
Input
Ctrl
Urg. Stop
Function
Controlling the device
Immediately stop the
device
Control Type
(Depending on the option switches)
High side control Low side control
Opening the
(PNP)
(NPN)
connection to zero volt
Concerned Terminals
4&6
4&6
5&6
Control Voltage Range
(according to EN60947-4-2)
Uc
10->24VDC
-
-
Min. Control Voltage
Ucmin.
8.5V
-
-
Max. Voltage Drop
Ut
-
2.5VDC
1.5VDC
Max. Input Voltage
Ucmax=28VDC Utmax=28VDC
Utmax=6VDC
Max. Reverse Voltage
-Ucmax=28VDC -Utmax=28VDC
-Utmax=6VDC
Release Voltage
Uc<1VDC
Ut>2.5VDC
Ut>1.5VDC
Control Current
Ic
5->19mADC
-
-
Current To Switch
Ict
-
50->100µADC
20mADC
REMARKS
See curve fig. 7
page 5
Depends on Ut
CHARACTERISTICS
Output
Concerned Terminals
Function
Nom. Operating Voltage
Operating Voltage Range
Non-repetitive Max. Peak Voltage
Protection Against Overvoltage
Min. Load Current
Max. Permanent Current
STATUS OUTPUT CHARACTERISTICS
LABELS
VALUES
(Given at 20°C ambient unless otherwise specified)
Diag.
Byp.
1&2
2&3
Environment problem
detection or faulty device
indication
Indicates the end of the
starting period and can be
used to control a bypass
electromechanical contactor
Usan
24VAC/DC
Usa
0->28VAC/DC
Usapmax
60V
Yes
25V size 7 varistors integrated
Ibymin
Ipbmin
0
Iby/Ipb
1A AC/DC
Overload Current
Protection Against Short-Circuits
On-state Resistance
Off-state Resistance
Off-state Capacitance
Turn-on Time
Turn-off Time
Ibyp/Ipbp
Ron
Roff
Coff
Toff
Ton
2.4A AC/DC
No
500mΩ
100MΩ
130pF
0.5ms
2ms
REMARKS
See curves
fig. 11 & 12
page 5
See curve fig. 8
page 5
@100ms
10% of the cycle
See curve fig. 9
page 5
See curve
fig. 10 page 5