Technical data for limit and torque switches
0.4 A at 250 V (resistive load)
0.03 A at 250 V (inductive load, L/R = 3 µs)
5 A at 30 V (resistive load)
5 A at 30 V (inductive load, L/R = 3 µs)
I max. DC current
Gold plated contacts
5 VU min.
50 VU max.
4 mAI min.
400 mAI max.
Technical data for blinker transmitter
10
7
startsMechanical lifetime
Silver plated contacts:
10 V AC/DCU min.
250 V AC/DCU max.
3 A at 250 V (resistive load)
2 A at 250 V (inductive load, cos phi ≈ 0.8)
I max. AC current
0.25 A at 250 V (resistive load)I max. DC current
14.2. Technical data Actuator controls
Features and functions
Refer to name plateExplosion protection
Refer to name plates at actuator controls and motor
Permissible variation of mains voltage: ±10 %
Permissible variation of mains voltage: ±30 % (option)
Permissible variation of mains frequency: ±5 %
Power supply
24 V DC: +20 %/–15 %,
Current consumption: Basic version approx. 250 mA, with options up to 500 mA
For external electronics supply, the power supply of integral controls must have an enhanced isolation
against mains voltage in compliance with IEC 61010-1 and the output power be limited to 150 VA.
External supply of the electronics
(option)
Current consumption of controls depending on mains voltage:
For permissible variation of mains voltage of ±10 %:
●
100 to 120 V AC = max. 740 mA
●
208 to 240 V AC = max. 400 mA
●
380 to 500 V AC = max. 250 mA
●
515 to 690 V AC = max. 200 mA
For permissible variation of mains voltage of ±30 %:
●
100 to 120 V AC = max. 1,200 mA
●
208 to 240 V AC = max. 750 mA
●
380 to 500 V AC = max. 400 mA
●
515 to 690 V AC = max. 400 mA
Current consumption
Category III according to IEC 60364-4-443Overvoltage category
The actuator controls are designed for the nominal motor power, refer to motor name plateRated power
Thyristor unit for AUMA power classes B1 and B2Standard:Switchgear
Thyristor unit for AUMA power class B3Option:
Via Profinet interfaceControl and feedback signals
87
SAEx 07.2 – SAEx 16.2/SAREx 07.2 – SAREx 16.2 Control unit - electromechanical
ACExC 01.2 Intrusive Profinet Technical data