SENTRON
Switching Devices
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ration
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Edition
10/2015
© Siemens AG 2016
© Siemens AG 2016
Siemens · 10/2015
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2Introduction
55TE8 control switches
75TE48 pushbuttons
95TE58 light indicators
10 5TE81/82 On/Off switches
11 5TE83...88 On/Off switches
13 5TL1 On/Off switches
15 5TE DC isolators
17 Busbars for 5ST modular
installation devices
18 5TT4 remote control switches
24 5TT4 switching relays
5TT5 Insta contactors
26 5TT50 Insta contactors,
AC/DC technology
32 5TT58 Insta contactors,
AC technology
38 5TT3 soft-starting devices
40 Controls
7LF, 5TT3 timers
41 7LF4 digital time switches
48 7LF5 mechanical time switches
52 7LF6 timers for buildings
57 5TT3 timers for industrial applications
Switching Devices
© Siemens AG 2016
2Siemens · 10/2015
Introduction
Switching Devices
■
Overview
Devices Page Application Standards Used in
Non-residential
buildings
Residential
buildings
Industry
5TE8 control switches 5For the switching of lighting and
other electrical devices up to
20 A.
For use in control cabinets for the
logical linking of functions.
IEC/EN 60947-3, (VDE 0660-107);
IEC/EN 60669-1, (VDE 0632-1);
GB 14048.3 CCC
✓ ✓ ✓
5TE48 pushbuttons 7To be used as pushbuttons in
control systems, e.g. to switch on
seal-in circuits or as pushbuttons
with maintained-contact function
for manual use, as control
switches or for the switching of
loads up to 20 A.
IEC/EN 60947-3, (VDE 0660-107);
IEC/EN 60669-1, (VDE 0632-1);
GB 14048.3 CCC
✓-- ✓
5TE58 light indicators 9Light indicators for signaling
switching states or faults in
systems.
DIN VDE 0710-1-11 ✓-- ✓
5TE81/82 On/Off switches 10 For switching of lighting, motors
and other electrical devices.
TE81: 20 A
TE82: 32 A.
20 A:
IEC/EN 60947-3, (VDE 0660-107);
IEC/EN 60669-1
32 A:
IEC/EN 60947-3, (VDE 0660-107)
✓ ✓ ✓
5TE83...88 On/Off switches 11 For switching of lighting, motors
and other electrical devices.
32 A ... 125 A:
IEC/EN 60947-3, (VDE 0660-107)
40 A and 100 A:
IEC/EN 60669-1, (VDE 0632-1)
✓ ✓ ✓
5TL1 On/Off switches 13 ON/OFF switches used for
controlling of lighting, switching
motors and other electrical loads.
32 A ... 125 A:
IEC/EN 60947-3, (VDE 0660-107)
✓ ✓ ✓
5TE DC isolators 15 The DC isolator is a special switch
disconnector for switching
DC loads.
IEC/EN 60947-3,
IEC/EN 60669-1,
GB 14018.3 CCC
✓ ✓ ✓
© Siemens AG 2016
3
Siemens · 10/2015
Switching Devices
Introduction
Devices Page Application Standards Used in
Non-residential
buildings
Residential
buildings
Industry
Busbars for 5ST modular
installation devices
17 For fast and safe connection IEC/EN 60439-1, (VDE 0660-500) ✓-- ✓
5TT4 remote control switches 18 For the switching of lighting up to
16 A in rooms using several
pushbuttons and central ON/OFF
switches.
IEC 60669-1;
IEC 60669-2-2;
DIN EN 60669-1-1 (VDE 0632);
DIN EN 60669-2-2 (VDE 0632-2-2)
✓ ✓ ✓
5TT4 switching relays 24 For the switching of small loads up
to 16 A or as coupling devices in
control systems.
DIN EN 60947-5-1, (VDE 0660-200)
DIN EN 60947-1, (VDE 0660-100);
GB 14048.4 CCC
✓-- ✓
5TT5 Insta contactors
5TT50 Insta contactors,
AC/DC technology
26 Insta contactors 20 A, 25 A, 40 A
and 63 A for the switching of
heating and lighting, such as
fluorescent lamps, incandescent
lamps, ohmic or inductive loads.
IEC 60947-4-1;
IEC 60947-5-1;
IEC 61095;
EN 60947-4-1;
EN 60947-5-1;
EN 61095;
VDE 0660;
UL 508;
GB 14048.4 CCC
✓ ✓ ✓
5TT58 Insta contactors,
AC technology
32 Insta contactors 20 A, 25 A, 40 A
and 63 A for the switching of
heating and lighting, such as
fluorescent lamps, incandescent
lamps, ohmic or inductive loads.
IEC 60947-4-1;
IEC 60947-5-1;
IEC 61095;
EN 60947-4-1;
EN 60947-5-1;
EN 61095;
VDE 0660;
NF C 61-480, (NF EN 61095)
✓ ✓ ✓
5TT3 soft-starting devices 38 Protection of machines with
transmission, belt or chain drives,
conveyor belts, fans, pumps,
compressors, packing machines
or door operating mechanisms.
EN 60947-4-2, (VDE 0660-117) -- -- ✓
Controls 40 For the ON/OFF switching of
loads, contact selection for
lighting installations, OFF
switching of direct currents and
the switching of safety extra-low
voltages.
A wide range of options for
practical use.
duration
1
I201_07254a t
6 ...10
p
© Siemens AG 2016
4Siemens · 10/2015
Introduction
Switching Devices
Devices Page Application Standards Used in
Non-residential
buildings
Residential
buildings
Industry
7LF, 5TT3 timers
7LF4 digital time switches 41 Minute-precise switching of devices and
system components in day, week and year
programs. Unique thanks to the wide variety of
functions offered by the Mini and Top versions;
for Astro, Profi and Expert PC programming.
IEC 60730-1 and
IEC 60730-2-7
EN 60730-1 and
EN 60730-2-7
VDE 0631-1 and -2-7
✓ ✓ ✓
7LF5 mechanical time
switches
48 Accurate and 15-minute switching accuracy.
With automatic time setting during
commissioning and automatic switching to
daylight savings.
IEC 60730-1 and
IEC 60730-2-7
EN 60730-1 and
EN 60730-2-7
VDE 0631-1 and -2-7
UL 60730
UL 917
✓ ✓ ✓
7LF6 timers for buildings 52 Lighting controls with stairwell lighting timers
ensure the safe use of stairwells and save
energy. Expanded applications for common
rooms and garages, as well as the time
switching of ventilators and fluorescent lamps.
IEC 60699
EN 60669, DIN 18015
✓ ✓
5TT3 timers for industrial
applications
57 Multifunctional, delay, wiper, flashing and
OFF-delay timers in control circuits expand the
use of distribution boards in both small and
large plants.
IEC 60255
EN 60255
✓
© Siemens AG 2016
5
Siemens · 10/2015
Switching Devices
5TE8 control switches
■
Overview
Two-way switches are used in control cabinets and distribution
boards for switching small loads on/off or over.
Group switches with center position permit the positions
open/stop/closed, for example to control counter-clockwise
rotation – Off – clockwise rotation.
Control switches in a range of contact versions have an integral
control lamp for the ON setting.
The auxiliary switch (AS) signals the contact position of the
switch. It has the same design as the auxiliary switch used for
the miniature circuit breakers (see Catalog LV10, chapter
"Miniature circuit breakers").
■
Technical specifications
5TE81
Standards IEC/EN 60947-3 (VDE 0660-107);
IEC/EN 60669-1 (VDE 0632-1)
Approvals IEC/EN 60947-3 (VDE 0660-107);
GB 14048.3-2008 CCC
Rated operational current IePer conducting path A 20
Rated operational voltage Ue1-pole V AC 230
Multi-pole V AC 400
Rated power dissipation PvContact per pole VA 0.7
Thermal rated current Ithe A20
Rated breaking capacity At p.f. = 0.65 A 60
Rated making capacity At p.f. = 0.65 A 60
Short-circuit strength
In conjunction with fuse of the same
rated operational current
EN 60269 gL/gG kA 10
Rated impulse withstand voltage Uimp kV > 5
Clearances Open contacts mm 2 × > 2
Between the poles mm > 7
Creepage distances mm > 7
Mechanical service life Switching cycles 25000
Electrical service life Switching cycles 10000
Minimum contact load V; mA 10; 300
Rated short-time currents
Per conducting path at p.f. = 0.7 Up to 0.2 s A 650
Up to 0.5 s A 400
(The respective rated surge current can Up to 1 s A 290
be calculated by multiplying by a factor of 1.5). Up to 3 s A 170
Terminals ± screw (Pozidriv) 1
Max. tightening torque Nm 1.2
Conductor cross-sections Rigid mm21.5 ... 6
Flexible, with end sleeve mm21 ... 6
Permissible ambient temperature °C -5 ... +40
Climatic withstand capability
At 95 % relative humidity Acc. to DIN 50015 °C 45
© Siemens AG 2016
6Siemens · 10/2015
5TE8 control switches
Switching Devices
■
Dimensional drawings
■
Circuit diagrams
Graphical symbols
Two-way switches, group switches with center position,
20 A
5TE8 control switches, 20 A, with lamp
5TE8151 5TE8152 5TE8141 5TE8142
5TE8153 5TE8161 5TE8162
5TE8101 5TE8102 5TE8103
5TE8101-3
5TE8105
5TE8 control switches, 20 A, with lamp and auxiliary switch 5ST3 auxiliary switches
5TE8108 5ST3010
5ST3011
5ST3012
Two-way switches, group switches with center position, 20 A 5TE8 control switches, 20 A, with lamp
5TE8151 5TE8152 5TE8153 5TE8101
5TE8101-3
5TE8105 5TE8102 5TE8103
5TE8 control switches, 20 A, with lamp and auxiliary switch
5TE8141 5TE8161 5TE8108
5ST3 auxiliary switches
5TE8142 5TE8162 5TE3010 5ST3011 5ST3012
1
2
L1
724
4464
I201_07888a
45
67
90
18 18 18
70
224
113
71
2
18
3
4
35
8
4 6 L1 L2
1
22
4
2
11
724
4464
I201_08008a
45
67
90
18 18 18
70
335
N
46
NN
724
4464
45
67
90
70
2
4
1
27
3
7/N 13
521
8/N 14
622
I201_11583a
9644
70
I201_06335
90
45
2
1
4
3
2
1
4
3
6
5
8
7
2
1
4
3
6
5
8
7
2
1N
N 1
2
2
1
4
3N
2
1
4
3
6
5N
1
L1
2
1
I2 08065
2
L1
1
2
3
4
5
6
N13
14 22
21
1
L1
23
L2
4
1
L1
23
L2
4
22
14
13
21
24
14
13
23
22
12
11
21
© Siemens AG 2016
7
Siemens · 10/2015
Switching Devices
5TE48 pushbuttons
■
Overview
The pushbuttons are used in control systems, e.g. to switch on
seal-in circuits or as pushbuttons with maintained-contact
function for manual use, as control switches or for the switching
of loads up to 20 A.
■
Technical specifications
5TE48
Standards IEC/EN 60947-3 (VDE 0660-107);
IEC/EN 60669-1 (VDE 0632-1)
Approvals IEC/EN 60947-3 (VDE 0660-107)
Rated operational current IePer conducting path A 20
Rated operational voltage Ue1-pole V AC 230
Multi-pole V AC 400
Rated power dissipation PvPer pole VA 0.6
Thermal rated current Ithe A20
Rated breaking capacity At p.f. = 0.65 A 60
Rated making capacity At p.f. = 0.65 A 60
Rated impulse withstand voltage Uimp kV > 5
Clearances Open contacts mm 2 × > 2
Between the poles mm > 7
Creepage distances mm > 7
Mechanical service life Switching cycles 25000
Minimum contact load V; mA 10; 300
Rated short-time currents
Per conducting path at p.f. = 0.7 Up to 0.2 s A 650
Up to 0.5 s A 400
(The respective rated surge current can Up to 1 s A 290
be calculated by multiplying by a factor of 1.5). Up to 3 s A 170
Terminals ± screw (Pozidriv) 1
Max. tightening torque Nm 1.2
Conductor cross-sections Rigid mm21.5 ... 6
Flexible, with end sleeve mm21 ... 6
Permissible ambient temperature °C -5 ... +40
Climatic withstand capability
At 95 % relative humidity Acc. to DIN 50015 °C 45
Power loss of 5TG805. lamps 5TG8050 5TG8051 5TG8052 5TG8053 5TG8054 5TG8055
Rated operational voltage UeV AC 12 24 48 60 115 230
Rated power dissipation PvmW 70 160 350 420 70 170
Rated operational voltage UeV DC 12 24 48 60 110 220
Rated power dissipation PvmW 85 190 450 550 50 135
Power loss of 5TG805.-. LEDs 5TG805.-.
Rated power dissipation Pv
•LED VA 0.4
Color coding according to IEC 60073
Color Safety of people or
environment
Process state System state
Red Danger Emergency Faulty
Yellow Warning/Caution Abnormal
Green Safety Normal
Blue Stipulation
White, gray,
black No special significance assigned
© Siemens AG 2016
8Siemens · 10/2015
5TE48 pushbuttons
Switching Devices
■
Dimensional drawings
■
Circuit diagrams
Graphical symbols
5TE48 pushbuttons
5TE4820 5TE4821 5TE4800 5TE4812 5TE4813 5TE4814
5TE4823 5TE4822 5TE4805
5TE4824 5TE4806
5TE4807
5TE4808
5TE4810
5TE4811
5TE4804 pushbuttons 5TE48 double pushbuttons with maintained-contact
function
5TE4804 5TE4830 5TE4831 5TE4840
5TE4841
5TE4800
5TE4805
5TE4806
5TE4807
5TE4808
5TE4804 5TE4810 5TE4823 5TE4824 5TE4822
5TE4811 5TE4812 5TE4813 55TE4830 5TE4831
5TE4814 5TE4820 5TE4821 5TE4840 5TE4841
724
4464
I201_07875b
45
67
90
70
18
2
L1 L2
18
2
3
4
8
18
2
3
4
8/N
18
2
3
4
18
X6
1
2
N
18
X6
1
2
N
3
4
1
5
1 7/N
6
5
17
6
4
13
724
4464
I201_11984a
45
67
90
70
18
1
24
3
X5 N
X6 N
724
4464
I201_07870b
45
67
90
70
18
1
24
18
6
1
2
8
18
1
2
3
4
3
57
4
3
X5 N
X6 N
2
1
4
3
1
2
3
4X6
X5
N
N
2
1
4
3
2
1
4
3
NX6
2
1
4
3
NX6
2
1
NX6
2
1
4
3
2
1
4
3
6
5
8/N
7/N
2
1
4
3
6
5
8
7
24
13
24
13
68
57
1
L1
23
L2
4
2
1
4
3
NX6 2
1
NX6
2
1
4
3
N
N
X6
X5
2
1
4
3
N
N
X6
X5
© Siemens AG 2016
9
Siemens · 10/2015
Switching Devices
5TE58 light indicators
■
Overview
Light indicators are used to signal switching states or faults in
systems.
They are available as single, double or triple light indicators.
■
Technical specifications
Color coding according to IEC 60073
■
Dimensional drawings
■
Circuit diagrams
Graphical symbols
5TE58
Standards DIN VDE 0710-1-11
Rated operational voltage UeMax. V AC 230 (for different voltages, see 5TG8 lamps)
Rated power dissipation PvVA See 5TG8 lamps
Clearances Between the terminals mm > 7
Terminals ± screw (Pozidriv) 1
Max. tightening torque Nm 1.2
Conductor cross-sections Rigid mm21.5 ... 6
Flexible, with end sleeve mm21 ... 6
Permissible ambient temperature °C -5 ... +40
Climatic withstand capability
At 95 % relative humidity Acc. to DIN 50015 °C 45
5TG805.
Rated power dissipation Pv
•LED VA 0.4 Meaning
Color Safety of people
or environment
Process state System state
Red Danger Emergency Faulty
Yellow Warning/Caution Abnormal
Green Safety Normal
Blue Stipulation
White No special significance assigned
5TE5800
5TE5804
5TE5801 5TE5802
5TE5803
724
44
64
I201_07895a
45
67
90
68
X2 X2
18 18 18
NN N
X1
X2
X1X1
5TE5800 5TE5801 5TE5802
5TE5803
5TE5804
N
X1
N
X1
X3
X1
X3
X2
N
N
X1
© Siemens AG 2016
10 Siemens · 10/2015
5TE81/82 On/Off switches
Switching Devices
■
Overview
The devices are used for the switching of lighting, motors and
other electrical devices.
There is a compact series of space-saving devices with up to
4 NO contacts in a single MW available for rated currents 20 A
and 32 A.
In addition, the 5TE2 device versions can be used as switch
disconnectors according to EN 60947-1 and serve as main
control switches for the disconnection or isolation of plants
according to EN 60204-1.
■
Technical specifications
5TE81 5TE82
Standards IEC/EN 60947-3,
(VDE 0660-107);
IEC/EN 60669-1
IEC/EN 60947-3,
(VDE 0660-107)
Approvals IEC/EN 60947-3 (VDE 0660-107)
Rated operational current IePer conducting path A 20 32
Rated operational voltage Ue1-pole V AC 230
400
Multi-pole V AC
Rated power dissipation PvPer pole, max. VA 0.7
Thermal rated current Ith A20 32
Rated breaking capacity At p.f. = 0.65 A 60 96
Rated making capacity At p.f. = 0.65 A 60 96
Rated short-circuit making capacity Icm
In conjunction with fuse of the same rated
operational current
EN 60269 gL/gG kA 10
Rated impulse withstand voltage Uimp kV > 5
Clearances Open contacts mm 2 × > 2
Between the poles mm > 7
Creepage distances mm > 7
Mechanical service life Switching
cycles
25000
Electrical service life Switching
cycles
10000
Minimum contact load V; mA 10; 300
Rated short-time withstand current Icw
Per conducting path at p.f. = 0.7 Up to 0.2 s A 650 1000
Up to 0.5 s A 400 630
(The corresponding rated surge current can be
established by multiplying by factor 1.5.)
Up to 1 s A 290 450
Up to 3 s A 170 250
Terminals ± screw (Pozidriv) 1
Max. tightening torque Nm 1.2
Conductor cross-sections Rigid mm21.5 ... 6
Flexible, with end sleeve mm21 ... 6
Permissible ambient temperature °C -5 ... +40
Climatic withstand capability
At 95 % relative humidity Acc. to DIN 50015 °C 45
© Siemens AG 2016
11
Siemens · 10/2015
Switching Devices
5TE83...88 On/Off switches
5TE83 5TE84 5TE85 5TE86 5TE87 5TE88
Standards IEC/EN 60947-3 (VDE 0660-107)
-- IEC/EN 60669-1 (VDE 0632-1) --
Approvals EN 60669-1
Rated operational current IePer conducting path A 32 40 63 80 100 125
Rated operational voltage Ue1-pole V AC 230
Multi-pole V AC 400
Rated power dissipation PvPer pole, max. VA 0.7 0.9 2.2 3.5 5.5 8.6
Thermal rated current Ith A32 40 63 80 100 125
Rated breaking capacity At p.f. = 0.65 A 96 120 196 240 300 375
Rated making capacity At p.f. = 0.65 A 96 120 196 240 300 375
Rated short-circuit making capacity Icm
In conjunction with fuse of the same
rated operational current
EN 60269 gL/gG kA 10
Rated impulse withstand voltage Uimp kV > 5
Clearances Open contacts mm > 7
Between the poles mm > 7
Creepage distances mm > 7
Mechanical service life Switching
cycles
20000
Electrical service life Switching
cycles
10000 5000 1000
Minimum contact load V; mA 24; 300
Rated power 1-pole kW 56.5 10 13 16 16
Switching of resistive loads 2-pole kW 911 18 22 28 28
including moderate overload AC-21 3-/4-pole kW 15 15 30 39 48 48
Rated short-time withstand current Icw
Per conducting path at p.f. = 0.7 Up to 0.2 s A 760 950 1500 2700 3400 3400
Up to 0.5 s A 500 630 1000 1650 2100 2100
(The corresponding rated surge current can be
established by multiplying by factor 1.5.)
Up to 1 s A 400 500 800 1350 1700 1700
Up to 3 s A 280 350 560 800 1000 1000
Terminals ± screw (Pozidriv) 2
Max. tightening torque Nm 3.5
Conductor cross-sections Rigid mm21 ... 35 2.5 ... 50
Flexible, with end sleeve mm21 ... 35 2.5 ... 50
Permissible ambient temperature °C -5 ... +40
Climatic withstand capability
At 95 % relative humidity Acc. to DIN 50015 °C 45
© Siemens AG 2016
12 Siemens · 10/2015
5TE83...88 On/Off switches
Switching Devices
■
Circuit diagrams
Graphical symbols
5TE8 ON/OFF switches
5ST3 auxiliary switches
5TE8 On/Off switches, 32 A to 125 A
5TE8311 5TE8312 5TE8313 5TE8314 5TE8315
5TE8411 5TE8412 5TE8413 5TE8414 5TE8415
5TE8511 5TE8512 5TE8513 5TE8514 5TE8515
5TE8521 5TE8522 5TE8523 5TE8524
5TE8533
5TE8611 5TE8612 5TE8613 5TE8614 5TE8615
5TE8711 5TE8712 5TE8713 5TE8714 5TE8715
5TE8721 5TE8722 5TE8723 5TE8724
5TE8811 5TE8812 5TE8813 5TE8814 5TE8815
3618 54 72
113135135
7/N
2 2 4 2 4 6 2 4 6 8/N
44
64
6
45
90
I201_12563a
72
1357
246
8
70
5ST3 auxiliary switches Phase connectors/N conductor connectors
5ST3010
5ST3011
5ST3012
5TE9112 5TE9113
9644
70
I201_06335
90
45
18
70
I201_11584
90
45
664
44
N2
N
1
18
5TE8111
5TE8211
5TE8112
5TE8212
5TE8113
5TE8213
5TE8114
5TE8214
5TE8118
5TE8218
5TE8311
5TE8411
5TE8511
5TE8521
5TE8611
5TE8711
5TE8721
5TE8811
5TE8312
5TE8412
5TE8512
5TE8522
5TE8612
5TE8712
5TE8722
5TE8812
5TE8313
5TE8413
5TE8513
5TE8523
5TE8533
5TE8613
5TE8713
5TE8723
5TE8813
1
2
1
2
3
4
1
2
3
4
5
6
1
2
3
4
5
6
7/N
8/N
1
2
3
4
5
6
7/N
8/N
13
14 22
21
1
2
1
2
3
4
1
2
3
4
5
6
5TE8314
5TE8414
5TE8514
5TE8524
5TE8614
5TE8714
5TE8724
5TE8814
5TE8315
5TE8415
5TE8515
5TE8615
5TE8715
5TE8815
5ST3010 5ST3011 5ST3012
1
2
3
4
5
6
7/N
8/N
1
2
3
4
5
6
7/
8/
22
14
13
21
24
14
13
23
22
12
11
21
© Siemens AG 2016
13
Siemens · 10/2015
Switching Devices
5TL1 On/Off switches
■
Overview
The new 5TL1 ON/OFF switches are used for the switching of
lighting, motors and other electrical devices. Rated currents
range between 32 A and 125 A. The new design of the
5TL1 ON/OFF switches allows them to be optically perfectly
integrated in the series of RCCBs and MCBs.
In addition, the 5TL1 device versions can be used as switch
disconnectors according to EN 60947-1 and serve as main
control switches for the disconnection or isolation of plants
according to EN 60204-1.
■
Technical specifications
5TL1132
5TL1232
5TL1332
5TL1432
5TL1632
5TL1140
5TL1240
5TL1340
5TL1440
5TL1640
5TL1163
5TL1263
5TL1363
5TL1463
5TL1663
5TL1180
5TL1280
5TL1380
5TL1480
5TL1680
5TL1191
5TL1291
5TL1391
5TL1491
5TL1691
5TL1192
5TL1292
5TL1392
5TL1492
5TL1692
Standards IEC/EN 60947-3 (VDE 0660-107)
Approvals EN 60669-1
Rated operational current IePer conducting path A 32 40 63 80 100 125
Rated operational voltage Ue1-pole V AC 250
Multi-pole V AC 440
Rated power dissipation PvPer pole, max. VA 0.7 0.9 2.2 3.5 5.5 8.6
Thermal rated current Ith A32 40 63 80 100 125
Rated breaking capacity AC-22A At p.f. = 0.65 A 96 120 196 240 300 375
Rated making capacity AC-22A At p.f. = 0.65 A 96 120 196 240 300 375
Rated short-circuit making capacity Icm kA
In conjunction with fuse of the same
rated operational current
EN 60269 gL/gG 10
Rated impulse withstand voltage Uimp kV >5
Clearances Open contacts mm >7
Between the poles mm >7
Creepage distances mm >7
Mechanical service life Switching
cycles
20000
Electrical service life Switching
cycles
10000 5000 1000
Minimum contact load V; mA 24; 300
Rated power 1-pole kW 56.5 10 13 16 16
Switching of resistive loads 2-pole kW 911 18 22 28 28
including moderate overload AC-21 3-/4-pole kW 15 15 30 39 48 48
Rated short-time withstand current Icw
Per conducting path at p.f. = 0.7 Up to 0.2 s A 760 950 1500 2700 3400 3400
Up to 0.5 s A 500 630 1000 1650 2100 2100
(The corresponding rated surge current can be
established by multiplying by factor 1.5)
Up to 1 s A 400 500 800 1350 1700 1700
Up to 3 s A 280 350 560 800 1000 1000
Terminals ± screw (Pozidriv) 2
Max. tightening torque Nm 3.5
Conductor cross-sections Rigid mm21 ... 35 2.5 ... 50
Flexible, with end
sleeve
mm21 ... 25 2.5 ... 50
Permissible ambient temperature °C -5 ... +40
Climatic withstand capability
At 95 % relative humidity Acc. to DIN 50015 °C 45
© Siemens AG 2016
14 Siemens · 10/2015
5TL1 On/Off switches
Switching Devices
■
Dimensional drawings
■
Circuit diagrams
Graphical symbols
5TL1 ON/OFF switches
5ST3 auxiliary switches
5TL1 On/Off switches, 32 A to 125 A
5TL1163-1
5TL1191-1
5TL1132-0
5TL1140-0
5TL1163-0
5TL1180-0
5TL1191-0
5TL1192-0
5TL1263-1
5TL1291-1
5TL1232-0
5TL1240-0
5TL1263-0
5TL1280-0
5TL1291-0
5TL1292-0
5TL1363-1
5TL1391-1
5TL1332-0
5TL1340-0
5TL1363-0
5TL1380-0
5TL1391-0
5TL1392-0
5TL1663-1
5TL1691-1
5TL1632-0
5TL1640-0
5TL1663-0
5TL1680-0
5TL1691-0
5TL1692-0
5TL1432-0
5TL1440-0
5TL1463-0
5TL1480-0
5TL1491-0
5TL1492-0
5ST3 auxiliary switches Phase connectors/N conductor connectors
5ST3010
5ST3011
5ST3012
5ST3013
5ST3014
5ST3015
5TL1192-4 5TL1192-3
18
1
2
36 54 72
13 135 1 35
7/N
24 246 2 468/N
44
64
6
45
90
I201_12563a
72
1357
246
8
70
9644
70
I201_06335
90
45
18
70
I201_11584
90
45
664
44
N2
N
1
18
5TL1163-1
5TL1191-1
5TL1132-0
5TL1140-0
5TL1163-0
5TL1180-0
5TL1191-0
5TL1192-0
5TL1263-1
5TL1291-1
5TL1232-0
5TL1240-0
5TL1263-0
5TL1280-0
5TL1291-0
5TL1292-0
5TL1363-1
5TL1391-1
5TL1332-0
5TL1340-0
5TL1363-0
5TL1380-0
5TL1391-0
5TL1392-0
5TL1663-1
5TL1691-1
5TL1632-0
5TL1640-0
5TL1663-0
5TL1680-0
5TL1691-0
5TL1692-0
5TL1432-0
5TL1440-0
5TL1463-0
5TL1480-0
5TL1491-0
5TL1492-0
1
2
1
2
3
4
1
2
3
4
5
6
1
2
3
4
5
6
7/N
8/N
1
2
3
4
5
6
7/N
8/N
5ST3010
5ST3013
5ST3011
5ST3014
5ST3012
5ST3015
22
14
13
21
24
14
13
23
22
12
11
21
© Siemens AG 2016
15
Siemens · 10/2015
Switching Devices
5TE DC isolators
■
Overview
• Compact DIN rail device for applications up to 1000 V DC
• Separate switching position indication for unambiguous
indication of the switching state
• Compatible with all miniature circuit breaker accessories –
reduced stock-keeping
• The effective touch protection when grasping the device
considerably exceeds the requirements of BGV A3
• Manual snap-on fixing and release systems that require no
tools enable fast assembly and disassembly of switch
disconnectors
• Clear and visible conductor connection that can be easily
checked in front of the busbar
■
Technical specifications
5TE2515-1
Standards IEC/EN 60947-3, IEC/EN 60669-1
Rated operational current IeA63
Rated operational voltage UeFor 4 poles in series V DC 880
Rated power dissipation PvPer pole, max. W 4.4
Rated short-time withstand current Icw 1000 V DC, 4-pole A 760
Rated short-circuit making capacity Icm 1000 V DC, 4-pole A 500
Rated impulse withstand voltage Uimp kV > 4
Maximum operating voltage Umax V DC 1000
Overvoltage category II at U = 880 V ... 440 V
I at U = 1000 V
Mechanical service life Switching
cycles
10000
Electrical service life Switching
cycles
5000
Utilization category DC-21B
Minimum contact load V; mA 24; 300
Terminals ± screw (Pozidriv) PZ 2
Max. tightening torque Nm 2.5 ... 3
Conductor cross-sections Rigid mm20.75 ... 35
Flexible, with end sleeve mm20.75 ... 25
Permissible ambient temperature °C -25 ... +45
Climatic withstand capability
At 95 % relative humidity Acc. to DIN 50015 °C 45
© Siemens AG 2016
16 Siemens · 10/2015
5TE DC isolators
Switching Devices
■
Dimensional drawings
■
Circuit diagrams
5TE2 DC isolators 5ST3 auxiliary switches
■
Configuration
For DC voltages up to 1000 V, the four poles need to be
connected in series. In contrast to normal flush-mounting
switches, these devices are also fitted with arcing chambers and
permanent solenoids to aid the positive quenching of the
electric arc in direct currents.
For this reason it is essential to comply with the polarity
specifications of the switches when connecting the conductors.
Suitable precautions should be taken during plant configuration
to ensure there can be no polarity reversal in DC operation.
5TE2 DC isolators 5ST3 auxiliary switches
5TE2515-1 5ST3010
5ST3011
5ST3012
44
64
6
45
I2_14003
72
1357
246
8
90
70
9644
70
I201_06335
90
45
5TE2515-1
-++
-
+-+-
5ST3010 5ST3011 5ST3012
22
14
13
21
24
14
13
23
22
12
11
21
Legend:
WR: Inverter
13 75
24
-
6
+
8
WRDC
-+ +-
+-+-
-+
I201_14005
13 75
24
-
6
+
8
WR
DC
-++
-
+-+-
-+
I201_14006
© Siemens AG 2016
17
Siemens · 10/2015
Switching Devices
Busbars for 5ST modular installation devices
■
Overview
Siemens has developed a rail-mounting concept which makes
the linking of switching devices just as easy as that of miniature
circuit breakers.
The arrangement of the terminals on the devices is adapted
to the bus mounting. With only two busbars, this saves
considerable mounting time.
■
Dimensional drawings
Note:
Pin spacing in MW
Dimensions of side views in mm (approx.)
5TE9100 5TE9101
14
3,5
10
1
210
I201_13439a
14
6,3
10
1
0,5
220
I201_13440a
© Siemens AG 2016
18 Siemens · 10/2015
5TT4 remote control switches
Switching Devices
■
Overview
Remote control switches are used in residential and non-
residential buildings, as well as the switchgear engineering
sector. They trip in the event of "current inrushes", i.e. pulses,
and then electromechanically save the switching position, even
in the event of a power failure.
All the devices have the VDE mark and can also be equipped
with an additional auxiliary switch. All devices have a switching
position indication and are operated manually. The switching
noise is particularly quiet and meets the requirements of
residential buildings.
Note:
Busbars to match the 5TT41 remote control switches can be
found on page 17.
■
Technical specifications
1) For 2.5 MW 5TT4123-0 devices with PTC. 2) For 15 000 switching cycles.
Remote control switches Auxiliary switches
5TT4101
5TT4102
5TT4105
5TT4111
5TT4112
5TT4114
5TT4115
5TT4103
5TT4104
5TT412
5TT415
5TT413
5TT414
5TT4900 5TT4901
Standards IEC 60669-1, IEC 60669-2, IEC 60669-3,
EN 60669 (VDE 0632), EN 60669-2-2,
EN 60669-2-2/A1
EN 60947-1
(VDE 0660 Part 100)
EN 60947-5-1
(VDE 0660 Part 200)
Approvals VDE
Contact type 1 NO 3 NO 1 NO Series 1 CO 1 CO
2 NO 4 NO 2 NO Shutter/
blind
1NO 1NC 3 NO
1NO 1NC
Manual operation Yes --
Switching position indication Yes --
Rated control voltage UcV AC 8 ... 230 --
V DC 12 ... 110 --
Primary operating range × Uc0.8 ... 1.1 --
Rated frequency fc (AC types) Hz 50 --
Rated impulse withstand voltage Uimp kV 4 1
Rated power dissipation Pv
• Magnet coil, only pulse W/VA 4.5/7 9/13 4.5/7 --
• Per contact at 16 A W 1.2 --
Minimum contact load V AC; mA 10; 100 5 AC/DC; 1
Rated operational current Ie at p.f. = 0.6 ... 1 A 16 50.1
Rated operational voltage Ue
•1 NO V AC 250 -- 250 -- 250 30 AC/DC
•2 NO V AC 400 -- 400 250 --
•3 NO V AC -- 400 400 -- --
•4 NO V AC 400 400 -- -- --
•1NO + 1NC V AC 250 -- 250 -- --
Glow lamp load at 230 V mA 5--
• With 1x 5TT4 920 compensator mA 25 --
• With 2x 5TT4 920 compensators mA 45 --
Incandescent lamp load2) W1200 --
Different phases between magnet coil/contact Permissible --
Contact gap mm > 1.2 < 1.2
Safe separation
Creepage distances and clearances between magnet
coil/contact
mm > 6
Pushbutton malfunction
Protected against continuous voltage, safe due to design Yes PTC Yes1) Yes --
Minimum pulse duration ms 50
Electrical service life
At Ie/Ue, p.f. = 0.6; incandescent lamp load 600 W
In switch-
ing cycles
50000
Terminals ± screw (Pozidriv) 1
Conductor cross-sections
• Rigid mm21.5 ... 6 0.5 ... 4
• Flexible, with end sleeve mm21 ... 6 0.75 ... 4
Climatic withstand capability
At 95 % relative humidity Acc. to DIN 50015 °C 35
Permissible ambient temperature °C -10 ... +40
Degree of protection Acc. to EN 60529 IP20, with connected conductors
Mounting position Any
© Siemens AG 2016
19
Siemens · 10/2015
Switching Devices
5TT4 remote control switches
■
Dimensional drawings
5TT41 remote control switches
5TT412 remote control switches with central
On/Off switching
5TT4132-0 series remote control switches and
5TT4142 shutter/blind remote control switches
Remote control switches with central and group
ON/OFF switching
Auxiliary switches Compensator
5TT4101 5TT4102 5TT4103 5TT4104
5TT4111 5TT4105 5TT4114
5TT4112
5TT4115
I201_13705
1
A1
36 3618 18
45
90
44
70
7
67
24
64
2
3
A2
4
1
A1
2
A2
1
A1
2
3
A2
4
5
6
1
A1
2
3
A2
4
5
6
7
8
5TT4121-0 5TT4122-0 5TT4123-0
5TT4121-2 5TT4122-2
5TT4125-0
70
90
67
45
I201_12185a
64
44
24
7
AZ
E
A1
Z
N
6
5
4
3
2
1
45
AZ
E
4
3A1
Z
N
2
1
27
AZ
E
4
3A1
Z
N
2
1
27
5TT4132
5TT4142
5TT4151 5TT4152
I201_13707
45
90
44
70
7
67
24
64
11
A1
18
12
23
A2
24
A1
ZE
ZA
NGA GE
1
2
1
2
3
4
A1
ZE
ZA
NGA GE
44
64
70
45
67
90
72427 27
I201_13757
5TT490. 5TT4920
14
11
12
9724
44
64
I2_12184a
45
67
90
I201_13708
45
90
44
7
67
24
64
A1
18
A2
© Siemens AG 2016
20 Siemens · 10/2015
5TT4 remote control switches
Switching Devices
■
Circuit diagrams
Graphical symbols
■
More information
Mechanical storage
Remote control switches are used to switch lighting through the
use of several pushbuttons. This makes complex cross/two-way
switching unnecessary. With each pushbutton impulse, the
remote control switch changes its contact position from "OFF"
to "ON", etc. In the event of a power failure, the last switching
position is mechanically stored. Electromechanical remote
control switches have no standby loss.
Pushbutton malfunction
Pushbuttons can jam and then supply continuous voltage to the
remote control switch. All remote control switches are protected
against this type of malfunction through their design or through
PTC.
Central switching functions
Versions with central ON/OFF function allow the central
switching of all connected remote control switches. This type of
central switching can also be actuated using a time switch. All
remote control switches can be switched to the ON or OFF
switching state, regardless of their current switching state.
Contact sequences
1 – 2 – 1+2 – 0 or 1 – 0 – 2 – 0 means:
0: No contact closed
1: Only contact 1 closed
2: Only contact 2 closed
1+2: Contact 1 and contact 2 are closed
The contact positions are constantly changing with each
pushbutton impulse.
Note:
Synchronous switching of the contacts cannot be guaranteed
with parallel switching. Products with central/group switching
must be used for the mutual control of several remote control
switches.
Bus mounting
• All 5TT41 remote control switches can be bus-mounted with
each other. This saves time and space.
Note:
Busbars to match the 5TT41 remote control switches can be
found on page 17.
Typical circuit for 5TT4101-0
Single-phase lighting circuit with 230 V AC actuation,
e.g. in office buildings
5TT4101
5TT4111
5TT4102
5TT4112
5TT4103 5TT4104
5TT4114
5TT4105
5TT4115
5TT4121-0
5TT4121-2
5TT4122-0
5TT4122-2
5TT4123-0 5TT4125-0 5TT4132
5TT4142
5TT4151 5TT4152 5TT490. 5TT4920
A1
A2
1
2
A1
A2
1
2
3
4
A1
A2
1
2
3
4
A1
A2
1
2
3
4
5
6
A1
A2
1
2
3
4
5
6
7
8
A1
A2
1
2
3
4
A1ZEZA
N
1
2
A1ZEZA
N
1
2
3
4
A1ZEZA
N
1
2
3
4
5
6
A1ZEZA
N
1
2
3
4
A1
N
11
12 24
23
ZA ZE A1 1
GA GE N 2
ZA ZE A1 1
GA GE N 2
3
4
11
1214
A1 A2
L1
A1 A2 1
2
L2 N
I201_13751a
230 V AC
© Siemens AG 2016
21
Siemens · 10/2015
Switching Devices
5TT4 remote control switches
Typical circuit for 5TT4122-0
with central On/Off switching
With the 2 pushbuttons "central ON" and "OFF", all remote control
switches can be switched on or off from a central point, e.g. at
the start and end of operation. A time switch with a one-second
pulse (e.g. 7LF4444-0) can also be used if desired. Once a
central on/off switching operation has been executed, the
remote control switches can also be switched on and off locally
at any time. Remote control switches with central ON/OFF
switching can also be used to quickly and easily set up a panic
circuit/panic lighting using conventional installation methods.
The input terminals on the remote control switch need to be
connected to the same phase (L1, L2 or L3) and over the same
residual current protective device. Otherwise residual current
protective devices may be tripped unintentionally, or short
circuits might occur.
Typical circuit for 5TT4101-4
Single-phase lighting circuit with safety extra-low voltage
8 V AC, illuminated pushbutton
This circuit is also suitable for the control of circuits with a high
number of illuminated pushbuttons.
Typical circuit for 5TT4121-0
with central On/Off switching and time switch
N
L2 L3
N
L1
N2 4
13
2 4
13
ZE A1ZA ZE A1ZA
Central
On/Off
3 x 230 V AC
I201_12180b
1
N
I201_07011
A1
2
A2
L1
8 V AC 230 V AC
5
ZAZE A1
L1 N
N
3
4
1
2
1
2
5TT4121-0
5TE6800
7LF4411-0
5TE4800
2
1
230 V AC
I202_02114
© Siemens AG 2016
22 Siemens · 10/2015
5TT4 remote control switches
Switching Devices
Typical circuit for 5TT4152-0 with central ON/OFF switching and ON/OFF group switching
With the 2 pushbuttons central "ON" and "OFF", all remote control
switches can be switched on or off from a central point, e.g. at
the start and end of operation.
With the 2 pushbuttons group "ON" and "OFF", all remote control
switches assigned to a group can be switched on or off, e.g. in
a corridor. A digital 7LF44 time switch with a switching command
of 1 s can also be used for the "Central" or "Group" function.
Once a central on/off switching operation has been executed,
the remote control switches can also be switched on and off
locally at any time. The phase relations of ZA, ZE and GA, GE
and L can be different. If contact 1/2 is used as checkback
contact for the central "ON" and "OFF" function, as shown above,
terminal 1 of all remote control switches must be in phase.
Typical circuit: Glow lamp load and 5TT4920 compensator
The use of multiple illuminated pushbuttons, in particular
230 V AC glow lamps, could cause the remote control switch to
trip accidentally, or no longer drop out, due to the current used
by the lamps. This may also occur at high line capacities. By
connecting a 5TT4920 compensator in parallel to the coil, the
glow lamp load of the remote control switch is increased from
5 mA to 25 mA. Several compensators can be connected in
parallel. The power consumption of 230 V 5TG73.. glow lamps
for pushbuttons is: Low luminosity 0.18 mA – medium 0.9 mA –
high 1.35 mA; the power consumption of LED 5SG735. lighting
is approx. 1.5 mA.
To reduce capacitive coupling due to long cable lengths, we
recommend using shielded cables. Particularly in systems with
frequency converter controlled motors or with parallel cable
routes (e.g. cable support systems), the induced current may
impair the function of the devices.
L1
N
L2
L3
1L 3
42
N
GAGEZAZE
1L 3
42
N
GAGEZAZE
1L 3
42
N
GAGEZAZE
I2_13695a
Group 2
ON/OFF
Group 1
ON/OFF
Central
ON/OFF
3 x 230 V AC
N
L2 L3
N
L1
N2 4
13
2 4
13
ZE A1ZA ZE A1ZA
Central
On/Off
3 x 230 V AC
I201_12180b
© Siemens AG 2016
23
Siemens · 10/2015
Switching Devices
5TT4 remote control switches
Switching of lamps
The specified values are intended to serve as a guideline only. The max. number of illuminants may vary, depending on the
manufacturer. The values specified here refer to Osram illuminants and ballasts.
Remote control switches
5TT4101
5TT4102
5TT4105
5TT4115
5TT4103
5TT4104
5TT412
5TT415
5TT413
5TT414
Switching of transformers for halogen lamps W1200
Fluorescent and compact lamps in ballast operation
• Uncorrected L18W Unit(s) 35 30
L36W Unit(s) 35 30
L58W Unit(s) 25 20
• Parallel-corrected L18W/4.5FUnit(s)
40 50
L36W/4.5FUnit(s)
40 50
L58W/7FUnit(s)
28 30
• DUO switching, 2 lamps L18W Unit(s) 2 × 30 2 × 24
L36W Unit(s) 2 × 30 2 × 24
L58W Unit(s) 2 × 30 2 × 16
Fluorescent and compact lamps with electronic ballast (ECG)
• AC operation, 1-lamp L18W Unit(s) 36 30
L36W Unit(s) 36 30
L58W Unit(s) 24 20
• AC operation, 2 lamps L18W/4.5FUnit(s)
2 × 22 2 × 18
L36W/4.5FUnit(s)
2 × 22 2 × 18
L58W/7FUnit(s)
2 × 15 2 × 12
© Siemens AG 2016
24 Siemens · 10/2015
5TT4 switching relays
Switching Devices
■
Overview
Switching relays are used in residential, non-residential and
industrial buildings for the purpose of contact multiplication.
They can be used with safe isolation between coil voltage and
contact.
With the 5TE9100 and 5TE9101 busbars, the switching relays
can be mounted quickly and safely, e.g. by bus mounting the
N conductor and/or infeed.
Note:
Busbars to match the 5TT42 switching relays can be found on
page 17.
■
Technical specifications
5TT4 201-. 5TT4 202-. 5TT4 204-. 5TT4 205-. 5TT4 206-. 5TT4 207-. 5TT4 217-.
Standards EN 60947-5-1, EN 60669-2-2
Approvals VDE, CCC
Contact type 1 NO 2 NO 4 NO 1NO + 1NC1 CO 2 CO 2 CO
Manual operation Yes
Rated control voltage UcV AC 8 ... 230 --
V DC -- 12 ... 110
Primary operating range × Uc0.8 ... 1.1
Rated frequency fcHz 50
Rated impulse withstand voltage Uimp kV 4
Rated power dissipation Pv
• Magnet coil W/VA 2.4/3.0 2.4/3.0 4.8/6.0 2.4/3.0 2.4/3.0 2.4/3.0 1.7
• Per contact at 16 A W 1.0
Minimum contact load V AC; mA 10; 100
Rated operational current Ie
At p.f. = 0.6 ... 1 A 16
Rated operational voltage Ue250 400 400 400 250 400 400
Different phases
Between magnet coil/contact Permissible
Contact gap mm > 1.2 < 1.2
Safe separation mm > 6
Electrical service life
At Ie/Ue, p.f. = 0.6; incandescent lamp load 600 W Switching
cycles
50000
Terminals ± screw (Pozidriv) 1
Conductor cross-sections
• Rigid mm21.5 ... 6
• Flexible, with end sleeve mm21 ... 6
Climatic withstand
capability
At 95 % relative humidity Acc. to DIN 50015 °C 35
Permissible ambient temperature °C -10 ... +40
Degree of protection Acc. to EN 60529 IP20, with connected conductors
Mounting position Any
© Siemens AG 2016
25
Siemens · 10/2015
Switching Devices
5TT4 switching relays
■
Dimensional drawings
5TT42 switching relays
■
Circuit diagrams
Graphical symbols
■
More information
The specified values are intended to serve as a guideline only.
The max. number of illuminants may vary, depending on the
manufacturer. The values specified here refer to Osram
illuminants and ballasts.
Bus mounting
• All 5TT42 switching relays can be bus-mounted with each
other. This saves time and space.
Note:
Busbars to match the 5TT42 switching relays can be found on
page 17.
5TT4201 5TT4202 5TT4204 5TT4205 5TT4206 5TT4207
5TT4217
A1 A 2
18
13 21
14 22
A1 A 2
18
11
14
A1 A 2
18
11 21
14 24
12 12 22
724
44
64
I2_12183a
45
67
90
70
5TT4201 5TT4202 5TT4204 5TT4205
5TT4206 5TT4207
5TT4217
13
14
A1
A2
A2
A1
13 23
14 24
A2
A1
13 23 33 43
14 24 34 44
A2
A1
13 21
14 22
A2
A1 14 12
11
A2
A1
11 21
14 12 24 22
5TT42. .-.
Incandescent lamp load
At Ie/Ue, p.f. = 0.6; incandescent lamp load 600 W
W600
Switching of transformers for halogen lamps W1200
Fluorescent and compact lamps
In ballast operation
• Uncorrected L18W Unit(s) 27
L36W Unit(s) 24
L58W Unit(s) 15
Fluorescent and compact lamps
With electronic ballast
• AC operation, 1-lamp L18W Unit(s) 43
L36W Unit(s) 24
L58W Unit(s) 15
Metal-vapor and high-pressure mercury-vapor lamps
• Uncorrected 50 W Unit(s) 12
80 W Unit(s) 9
125 W Unit(s) 6
250 W Unit(s) 3
400 W Unit(s) 2
700W Unit(s) 1
1000 W Unit(s) 1
Halogen metal-vapor lamps
• Uncorrected 70 W Unit(s) 8
150 W Unit(s) 4
250 W Unit(s) 2
400 W Unit(s) 1
High-pressure sodium-vapor lamps
• Uncorrected 50 W Unit(s) 10
70 W Unit(s) 8
110 W Unit(s) 6
150 W Unit(s) 4
250 W Unit(s) 1
© Siemens AG 2016
26 Siemens · 10/2015
5TT50 Insta contactors, AC/DC technology
Switching Devices
5TT5 Insta Contactors
■
Overview
The Insta contactors are the ideal switching device for
controlling AC/DC control voltage in industrial applications and
infrastructure.
In addition to their basic function, they can also be used for the
ON/OFF switching of single-phase and three-phase electrical
motors. The 5TT50 Insta contactors meet the requirements of
EN 60947 and are approved to UL 508.
The simultaneous switching of lamp loads at varying phases can
be achieved with a single contactor, whereby it is essential to
strive for/ensure a symmetrical load of the phases. Upstream
short-circuit detection devices must disconnect at all poles or
must be equipped with phase failure detection. Violations of the
specified capacitor load limits may cause excessive inrush peak
currents. The level of inrush peak currents is also affected by the
following factors:
• Length and cross-section of the installed supply lines
• Type of electronic ballasts
• Brand/make of lamp
• Insta contactors with O/I automatic function enable the testing
of a plant via manual switch without the need to apply a control
voltage
• Switching position indication for fast recognition of operating
states offers greater safety when checking the plant
© Siemens AG 2016
27
Siemens · 10/2015
Switching Devices
5TT5 Insta Contactors
5TT50 Insta contactors, AC/DC technology
■
Technical specifications
1) Contactors can be operated at ambient temperatures of between -25 °C and +70 °C, but only under special conditions.
For more information, please contact Siemens Support.
5TT500 5TT503 5TT504 5TT505
2-pole 4-pole 4-pole 4-pole
Standards EN 60947-4-1; EN 60947-5-1; EN 61095
Approvals UL 508; UL File No. E303328; CCC
Rated frequency at AC fnHz 50/60
Rated operational voltage UcV AC 24, 230 24, 115, 230 24, 230
V DC 24, 220 24, 110, 220 24, 230
Primary operating range Uc0.85 ... 1.1
Rated operational voltage UeV230 400
Rated operational current IeAt V AC Acc. to UL 480; acc. to IEC 440
• AC-1/AC-7a, NO contacts A 20 25 40 63
• AC-1/AC-7a, NC contacts A 20 25 40 63
• AC-3/AC-7b, NO contacts A 98.5 22 30
• AC-3/AC-7b, NC contacts A 68.5 22 30
Rated power dissipation Pv
• Pick-up power (without manual switching
or manual switching in "I" position)
VA/W 2.1/2.1 2.6/2.6 5/5 5/5
• Pick-up power (with manual switching in "AUTO" position) VA/W 2.1/4.1 2.6/2.6 5/5 5/5
• Holding power VA/W 2.1/2.1 2.6/2.6 5/5 5/5
• Per contact AC-1/AC-7a VA 1.7 2.2 4 8
Switching times
• Closing (NO contacts) ms 15 - 45 15 - 45 15 - 20
• Opening (NO contacts) ms 20 - 50 20 - 70 35 - 45
Rated impulse withstand voltage Uimp kV 4
Contact gap (NO contacts) min. mm 3.6
Electrical service life
At Ie and load AC-1/AC-7a Switching cycles 200000 100000
AC-3/AC-7b Switching cycles 300000 500000 150000
Mechanical service life Switching cycles 3 million
Maximum switching frequency
At load AC-1/AC-7a Switching
cycles/h
600
AC-3/AC-7b Switching
cycles/h
600
Switching of resistive loads AC-1 V AC 230 400
For rated operational power Ps (NO contacts)
• Single-phase kW 45.4 8.7 13.3
• Three-phase kW -- 16 26 40
Switching of three-phase asynchronous motors AC-3 V AC 230 400
For rated operational power Ps (NO contacts)
• Single-phase kW 1.3/0.75 1.3/1.3 3.7/3.7 5/5
• Three-phase kW -- 411 15
Minimum switching capacity V; mA 17; 50
Overload withstand capability
Per conducting path (NO contacts only) At 10 s A 72 68 176 240
Short-circuit protection, according to coordination type 1
Back-up fuse characteristic gL/gG A 20 25 63 80
Terminals screw (Pozidriv)
• Coil connection 1 1
• Main connection 1 2
Tightening torques
• Coil connection Nm 0.6 0.6
• Main connection Nm 1.2 3.5
Conductor cross-sections
• Coil connection
-Solid mm
21.0 ... 2.5
- Stranded, with end sleeve mm21.0 ... 2.5
- AWG cables AWG 16 ... 10
Tightening torques lb/in 8
• Main connection
-Solid mm
21.0 ... 10 1.5 ... 25
- Stranded, with end sleeve mm21.0 ... 6 1.5 ... 16
- AWG cables AWG 16 ... 8 16 ... 4
Tightening torques lb/in 920
Permissible ambient temperature
• For operation °C -15 ... +551)
• For storage °C -50 ... +80
Degree of protection Acc. to EN 60529 IP 20, with connected conductors
Acc. to UL 508 InA
20 25 40 63
UL 508 General Use 240 V/480 V FLA A 20 25 40 63
UL 508 AC discharge lamps A20 25 30 40
UL 508 motor load 240 V Power hp 137.5 10
UL 508 motor load 480 V Power hp -- 515 20
UL 508 short-circuit at 480 V K5 fuses A 20 25 60 70
kA 5
© Siemens AG 2016
28 Siemens · 10/2015
5TT50 Insta contactors, AC/DC technology
Switching Devices
5TT5 Insta Contactors
■
Dimensional drawings
■
Circuit diagrams
5TT5001-0 5TT5002-0
5TT5001-2 5TT5002-2
5TT5031-6 5TT5032-0
5TT5031-8 5TT5032-2
5TT5041-0
5TT5041-2
6,8
43,8
45
63,9
I201_18549
8
26
17,5
90
6,8
43,8
45
63,9
I201_18546
8
26
17,5
90
6,8
43,8
45
63,9
67,8
I201_18545
8
26
35
90
6,8
43,8
45
63,9
I201_18548
8
26
35
90
6,8
43,8
45
63,9
I201_18547
8
26
53,5
90
5TT5000 5TT5030 5TT5031 5TT5001
5TT5040 5TT5041
5TT5050 5TT5051
5TT5002 5TT5033 5TT5032
5TT5043 5TT5042
5TT5052
-K 1 3 A1
A2
I201_18550
42
UC
-K 5 7 A1
A2
I201_18551
86
1 3
2 4
(13)
(14)
-K 5
I201_18559
21 A1
A2226
1 3
2 4
-K 121 A1
A222
I201_18553
2
UC
-K 11 21 A1
A2
I201_18554
2212
UC
-K 31 41 A1
A2
I201_18555
4232
11 21
12 22
-K 31 43 A1
A2
I201_18568
4432
13 21
14 22
© Siemens AG 2016
29
Siemens · 10/2015
Switching Devices
5TT5 Insta Contactors
5TT50 Insta contactors, AC/DC technology
■
More information
Mounting position of Insta contactors, AC/DC technology
The installation of the devices is permissible in the positions
shown in the following diagram (0° to 90°, 270° to 0°). There are
no restrictions when the devices are installed in these normal
mounting positions.
Heat dissipation
If several Insta contactors with AC magnet system are mounted
in series in a distribution board, there are no restrictions for the
types 25 A, 40 A and 63 A within the permissible ambient
temperature range up to 55 °C. For 20 A types within the
temperature range up to 40 °C, a 5TG8240 spacer must be
installed after every third Insta contactor, and in the temperature
range above 40 °C to 55 °C, after every second contactor.
Manual switching with O/I/Automatic function
The 5TT50... versions also offer manual switching. The knob
allows preselection of 3 positions:
• Knob in the "AUTO" position
Automatic mode normal protective function
• Knob in the "I" position
Continuous operation switched on manually
(without control signal; when a control signal is applied,
manual switching on is unlocked, i.e. the knob is automatically
reset to the "AUTO" position)
• Knob in the "O" position
Off switched off
(coil circuit interrupted)
System test without applying a control voltage
Insta contactors with O/I/Automatic function enable the testing of
a plant by manual switching without the need to apply a control
voltage.
Automatic resetting through control signal
When applying a control signal to the terminals A1 and A2, the
Insta contactors can be reset from continuous operation mode
("I" position) to automatic mode ("AUTO" position).
I201_12836b
180°
0°
90° 270°
© Siemens AG 2016
30 Siemens · 10/2015
5TT50 Insta contactors, AC/DC technology
Switching Devices
5TT5 Insta Contactors
Switching of alternating voltages DC-1
Switching of lamps
Maximum number of lamps in units, per NO contact/NC contact at 230 V AC, 50 Hz.
Fluorescent and compact lamps in ballast operation
(permissible number of lamps in units per NO contact/NC contact at 230 V AC, 50 Hz)
Fluorescent and compact lamps with electronic ballast (ECG)
(permissible number of lamps in units per NO contact/NC contact at 230 V AC, 50 Hz)
High-pressure mercury-vapor lamps (HQL)
(permissible number of lamps in units per NO contact/NC contact at 230 V AC, 50 Hz)
Permissible DC switching currents for NO contacts
with resistive load
1 contact 2 contacts
in series
3 contacts
in series
4 contacts
in series
5TT500 2-pole, 20 A Ie at Ue = 24 V DC A 20 20 -- --
Ue = 110 V DC A 610 -- --
Ue = 220 V DC A 0.6 6-- --
5TT503 4-pole, 25 A Ie at Ue = 24 V DC A 25 25 25 25
Ue = 110 V DC A 610 20 20
Ue = 220 V DC A 0.6 615 15
5TT504 4-pole, 40 A Ie at Ue = 24 V DC A 40 40 40 40
Ue = 110 V DC A 410 30 40
Ue = 220 V DC A 1.2 820 40
5TT505 4-pole, 63 A Ie at Ue = 24 V DC A 63 63 63 63
Ue = 110 V DC A 410 35 63
Ue = 220 V DC A 1.2 830 63
Incandescent lamp loads, lamp type 1000 W 500 W 200 W 100 W 60 W
5TT500, 2-pole 20 A Per NO/NC 1 3 10 20 33
5TT503, 4-pole 25 A Per NO/NC 1 3 10 20 33
5TT504, 4-pole 40 A Per NO/NC 4 8 20 40 65
5TT505, 4-pole 63 A Per NO/NC 510 25 50 85
Uncorrected Parallel-corrected DUO switching, 2 lamps
Lamp type W L18 L36 L58 L18 L36 L58 2 × L18 2 × L36 2 × L58
Capacitance F-- -- -- 4.5 4.5 7.0 -- -- --
5TT500, 2-pole 20 A Per NO/NC 22 17 14 77430 17 10
5TT503, 4-pole 25 A Per NO/NC 24 20 17 88540 24 14
5TT504, 4-pole 40 A Per NO/NC 90 65 45 48 48 31 100 65 40
5TT505, 4-pole 63 A Per NO/NC 140 95 70 73 73 47 150 95 60
1 lamp 2 lamps
Lamp type W 1 × L18 1 × L36 1 × L58 2 × L18 2 × L36 2 × L58
5TT500, 2-pole 20 A Per NO/NC 25 15 14 12 7 7
5TT503, 4-pole 25 A Per NO/NC 35 20 19 17 10 9
5TT504, 4-pole 40 A Per NO/NC 100 52 50 50 26 25
5TT505, 4-pole 63 A Per NO/NC 140 75 72 70 38 36
Uncorrected Parallel-corrected
Lamp type W 50 80 125 250 400 700 1000 50 80 125 250 400 700 1000
Capacitance F-- -- -- -- -- -- -- 7 8 10 18 25 45 60
5TT500, 2-pole 20 A Per NO/NC 14 10 7 4 2 1 1 4 4 3 1 1 0 0
5TT503, 4-pole 25 A Per NO/NC 18 13 9 5 3 2 1 5 5 4 2 1 0 0
5TT504, 4-pole 40 A Per NO/NC 38 29 20 10 7 4 3 31 27 22 12 9 5 4
5TT505, 4-pole 63 A Per NO/NC 55 42 29 15 10 6 4 47 41 33 18 13 7 5
© Siemens AG 2016
31
Siemens · 10/2015
Switching Devices
5TT5 Insta Contactors
5TT50 Insta contactors, AC/DC technology
Halogen metal-vapor lamps (HQI)
(permissible number of lamps in units per NO contact/NC contact at 230 V AC, 50 Hz)
High-pressure sodium-vapor lamps (NAV)
(permissible number of lamps in units per NO contact/NC contact at 230 V AC, 50 Hz)
Low-pressure sodium-vapor lamps
(permissible number of lamps in units per NO contact/NC contact at 230 V AC, 50 Hz)
Lumilux T5 type FC fluorescent lamps with electronic ballast (ECG)
(permissible number of lamps in units per NO contact/NC contact at 230 V AC, 50 Hz)
Lumilux T5 type HE fluorescent lamps with electronic ballast (ECG)
(permissible number of lamps in units per NO contact/NC contact at 230 V AC, 50 Hz)
Lumilux T5 type HO fluorescent lamps with electronic ballast (ECG)
(permissible number of lamps in units per NO contact/NC contact at 230 V AC, 50 Hz)
Uncorrected Parallel-corrected With electronic
ballast PCI
Lamp type W 70 150 250 400 1000 2000 70 150 250 400 1000 2000 20 35 70 150
Capacitance F-- -- -- -- -- -- 12 20 33 35 95 148 -- -- -- --
5TT500, 2-pole 20 A Per NO/NC 10 53310 210000 9654
5TT503, 4-pole 25 A Per NO/NC 12 74310 311000 9654
5TT504, 4-pole 40 A Per NO/NC 23 12 762118 11 662118 11 10 8
5TT505, 4-pole 63 A Per NO/NC 32 18 10 93125 15 983220 13 12 10
Uncorrected Parallel-corrected With electronic ballast PCI
Lamp type W 150 250 400 1000 150 250 400 1000 20 35 70 150
Capacitance F-- -- -- -- 20 33 48 106 -- -- -- --
5TT500, 2-pole 20 A Per NO/NC 5 3 2 0 1 0 0 0 9 6 5 4
5TT503, 4-pole 25 A Per NO/NC 6 4 2 1 1 1 0 0 9 6 5 4
5TT504, 4-pole 40 A Per NO/NC 17 10 6 3 11 6 4 2 18 11 10 8
5TT505, 4-pole 63 A Per NO/NC 22 13 8 3 16 10 6 3 20 13 12 12
Uncorrected Parallel-corrected
Lamp type W 18 35 55 90 135 180 18 35 55 90 135 180
Capacitance F-- -- -- -- -- -- 520 20 26 45 40
5TT500, 2-pole 20 A Per NO/NC 22 7 7 4 3 3 6 1 1 1 -- --
5TT503, 4-pole 25 A Per NO/NC 27 9 9 5 4 4 7 1 1 1 -- --
5TT504, 4-pole 40 A Per NO/NC 71 23 23 14 10 10 44 11 11 8 4 5
5TT505, 4-pole 63 A Per NO/NC 90 30 30 19 13 13 66 16 16 12 7 8
1 lamp 2 lamps
Lamp type W 22 40 55 2 × 22 2 × 40 2 × 55
5TT500, 2-pole 20 A Per NO/NC 22 12 811 6 4
5TT503, 4-pole 25 A Per NO/NC 30 15 12 15 7 6
5TT504, 4-pole 40 A Per NO/NC 80 40 30 40 20 15
5TT505, 4-pole 63 A Per NO/NC 110 60 45 55 30 22
1 lamp 2 lamps
Lamp type W 14 21 28 35 2 × 14 2 × 21 2 × 28 2 × 35
5TT500, 2-pole 20 A Per NO/NC 30 22 18 14 15 11 9 7
5TT503, 4-pole 25 A Per NO/NC 40 30 22 18 20 15 11 9
5TT504, 4-pole 40 A Per NO/NC 105 80 60 48 52 40 30 24
5TT505, 4-pole 63 A Per NO/NC 150 115 90 70 75 57 45 35
1 lamp 2 lamps
Lamp type W 24 39 49 54 80 2 × 24 2 × 39 2 × 49 2 × 54 2 × 80
5TT500, 2-pole 20 A Per NO/NC 20 12 10 9 6 10 6 5 4 3
5TT503, 4-pole 25 A Per NO/NC 26 16 14 13 813 8 7 6 4
5TT504, 4-pole 40 A Per NO/NC 70 42 35 32 22 35 21 17 16 11
5TT505, 4-pole 63 A Per NO/NC 100 62 52 47 32 50 31 26 23 16
© Siemens AG 2016
32 Siemens · 10/2015
5TT58 Insta contactors, AC technology
Switching Devices
5TT5 Insta Contactors
■
Overview
The 5TT58 Insta contactors are equipped with an AC magnet
system and are ideal for use under harsh conditions. The
auxiliary switches can be mounted without tools. When
equipped with terminal covers, the devices can also be sealed.
Insta contactors without manual switch
Insta contactors are ideal for a wide range of uses in industry,
such as for motors where distribution technology plays a major
role, e.g. in installations for heat pumps and air conditioning
technology. In addition to their basic function, they can also be
used for the on/off switching of single-phase and three-phase
electrical motors.
Insta contactors with manual switch
Insta contactors with manual operation can be switched on and
off by hand.
• Extremely long service life of 3 million switching cycles
• Safe cable routing through the cable entry funnel
• Insulated right through to the cable entry funnel
• Auxiliary switches can be retrofitted on all versions – even on
the 20 A type
• Insta contactors with O/I/Automatic function enable the testing
of a plant by manual switch without the need to apply a control
voltage
• Switching position indication for fast recognition of operating
states offers greater safety when checking the plant
© Siemens AG 2016
33
Siemens · 10/2015
Switching Devices
5TT5 Insta Contactors
5TT58 Insta contactors, AC technology
■
Technical specifications
1) For NO contacts only.
Insta contactors Auxiliary
switches
5TT580. 5TT582.,
5TT583.
5TT584 . 5TT585. 5TT5910
Standards IEC 60947-4-1, IEC 60947-5-1, IEC 61095; EN 60947-4-1,
EN 60947-5-1, EN 61095, VDE 0660
IEC 60947-5-1
Approvals CCC
Number of poles 2 4 4 4 2
Rated frequency at AC Hz 50/60
Rated operational voltage UcV AC 24, 230 24, 115, 230 24, 230 24, 230 --
Primary operating range × Uc0.85 ... 1.1 --
Rated operational voltage UeV AC 230 400 230/400
Rated operational current IeA20 25 40 63 6/4 (230/400 V)
Rated power dissipation Pv
• Pick-up power (without manual switching
or manual switching in "I" position)
VA/W 6/3.8 10/5 15.4/6 --
• Pick-up power (with manual switching in "AUTO" position) VA/W 12/10 33/25 62/50 --
• Holding power VA/W 2.8/1.2 5.5/1.6 7.7/3 --
• Per contact VA 1.7 2.2 4 8 --
Switching times
• Closing (NO contacts) ms 15 ... 25 10 ... 20 15 ... 20 --
• Opening (NO contacts) ms 20 20 10 --
• Closing (NC contacts) ms 20 ... 30 20 ... 30 5 ... 10 --
• Opening (NC contacts) ms 10 10 10 ... 15 --
Rated impulse withstand voltage Uimp kV 4
Rated insulation voltage UiV440 500
Contact gap, minimum mm 3.6 3.4 4
Electrical service life
At Ie and load
• AC-1/AC-7a For switching
cycles
200000 100000 --
•AC-3/AC-7b 300000 500000 150000 --
Mechanical service life For switching
cycles
3 million
Maximum switching frequency
At load In switching
cycles/h
600
Switching of resistive loads AC-1/AC-7a
For rated operational power Ps
• Single-phase 230 V kW 45.4 8.7 13.3 --
• Three-phase 400 V kW -- 16 26 40 --
Switching of three-phase asynchronous motors AC-3/AC-7b
For rated operational power Ps
• Single-phase 230 V kW 1.31) 1.3 3.7 5--
• Three-phase 400 V kW -- 411 15 --
Minimum switching capacity V; mA 17; 50 12; 5
Overload withstand capability
Per conducting path
(NO contacts only)
at 10 s A 72 68 176 240 --
Short-circuit protection, according to coordination type 1
Back-up fuse characteristic gL/gG A 20 25 63 80 6
Terminals ± screw (Pozidriv)
• Coil connection 11.2 --
• Main connection 13.5 1
Tightening torques
• Coil connection Nm 0.6 --
• Main connection Nm 1.2 20.8
Conductor cross-sections
• Coil connection Rigid mm21.0 ... 2.5 --
Flexible,
with end sleeve
mm21.0 ... 2.5 --
• Main connection Rigid mm21.0 ... 10 1 ... 25 1 ... 2.5
Flexible,
with end sleeve
mm21.0 ... 6 1 ... 16 1 ... 2.5
Permissible ambient temperature
• For operation °C -5 ... +55
• For storage °C -30 ... +80
Degree of protection Acc. to EN 60529 IP20, with connected conductors
© Siemens AG 2016
34 Siemens · 10/2015
5TT58 Insta contactors, AC technology
Switching Devices
5TT5 Insta Contactors
Switching of alternating voltages DC-1
Switching of lamps
Maximum number of lamps in units, per NO contact/NC contact at 230 V AC, 50 Hz.
Fluorescent and compact lamps in ballast operation
(permissible number of lamps in units per NO contact/NC contact at 230 V AC, 50 Hz)
Fluorescent and compact lamps with electronic ballast (ECG)
(permissible number of lamps in units per NO contact/NC contact at 230 V AC, 50 Hz)
High-pressure mercury-vapor lamps (HQL)
(permissible number of lamps in units per NO contact/NC contact at 230 V AC, 50 Hz)
Permissible DC switching currents for NO contacts
with resistive load
1 contact 2 contacts
in series
3 contacts
in series
4 contacts
in series
5TT580 2-pole, 20 A Ie at Ue = 24 V DC A 20 20 -- --
Ue = 110 V DC A 610 -- --
Ue = 220 V DC A 0.6 6-- --
5TT582,
5TT583
4-pole, 25 A Ie at Ue = 24 V DC A 25 25 25 25
Ue = 110 V DC A 610 20 20
Ue = 220 V DC A 0.6 615 15
5TT584 4-pole, 40 A Ie at Ue = 24 V DC A 40 40 40 40
Ue = 110 V DC A 410 30 40
Ue = 220 V DC A 1.2 820 40
5TT585 4-pole, 63 A Ie at Ue = 24 V DC A 63 63 63 63
Ue = 110 V DC A 410 35 63
Ue = 220 V DC A 1.2 830 63
Incandescent lamp loads, lamp type 1000 W 500 W 200 W 100 W 60 W
5TT580, 2-pole 20 A Per NO/NC 1 3 10 20 33
5TT582, 4-pole 25 A Per NO/NC 2 4 10 20 33
5TT583, 4-pole 25 A Per NO/NC 1 3 10 20 33
5TT584, 4-pole 40 A Per NO/NC 4 8 20 40 65
5TT585, 4-pole 63 A Per NO/NC 510 25 50 85
Uncorrected Parallel-corrected DUO switching, 2 lamps
Lamp type W L18 L36 L58 L18 L36 L58 2 × L18 2 × L36 2 × L58
Capacitance F-- -- -- 4.5 4.5 7.0 -- -- --
5TT580, 2-pole 20 A Per NO/NC 22 17 14 77430 17 10
5TT582, 4-pole 25 A Per NO/NC 41 41 28 33 33 21 54 36 19
5TT583, 4-pole 25 A Per NO/NC 24 20 17 88540 24 14
5TT584, 4-pole 40 A Per NO/NC 90 65 45 48 48 31 100 65 40
5TT585, 4-pole 63 A Per NO/NC 140 95 70 73 73 47 150 95 60
1 lamp 2 lamps
Lamp type W 1 × L18 1 × L36 1 × L58 2 × L18 2 × L36 2 × L58
5TT580, 2-pole 20 A Per NO/NC 25 15 14 12 7 7
5TT582, 4-pole 25 A Per NO/NC 35 20 19 17 10 9
5TT583, 4-pole 25 A Per NO/NC 35 20 19 17 10 9
5TT584, 4-pole 40 A Per NO/NC 100 52 50 50 26 25
5TT585, 4-pole 63 A Per NO/NC 140 75 72 70 38 36
Uncorrected Parallel-corrected
Lamp type W 50 80 125 250 400 700 1000 50 80 125 250 400 700 1000
Capacitance F-- -- -- -- -- -- -- 7 8 10 18 25 45 60
5TT580, 2-pole 20 A Per NO/NC 14 10 7 4 2 1 1 4 4 3 1 1 0 0
5TT582, 4-pole 25 A Per NO/NC 18 13 9 5 3 2 1 21 18 15 8 6 3 2
5TT583, 4-pole 25 A Per NO/NC 18 13 9 5 3 2 1 5 5 4 2 1 0 0
5TT584, 4-pole 40 A Per NO/NC 38 29 20 10 7 4 3 31 27 22 12 9 5 4
5TT585, 4-pole 63 A Per NO/NC 55 42 29 15 10 6 4 47 41 33 18 13 7 5
© Siemens AG 2016
35
Siemens · 10/2015
Switching Devices
5TT5 Insta Contactors
5TT58 Insta contactors, AC technology
Halogen metal-vapor lamps (HQI)
(permissible number of lamps in units per NO contact/NC contact at 230 V AC, 50 Hz)
High-pressure sodium-vapor lamps (NAV)
(permissible number of lamps in units per NO contact/NC contact at 230 V AC, 50 Hz)
Low-pressure sodium-vapor lamps
(permissible number of lamps in units per NO contact/NC contact at 230 V AC, 50 Hz)
Lumilux T5 type FC fluorescent lamps with electronic ballast (ECG)
(permissible number of lamps in units per NO contact/NC contact at 230 V AC, 50 Hz)
Lumilux T5 type HE fluorescent lamps with electronic ballast (ECG)
(permissible number of lamps in units per NO contact/NC contact at 230 V AC, 50 Hz)
Lumilux T5 type HO fluorescent lamps with electronic ballast (ECG)
(permissible number of lamps in units per NO contact/NC contact at 230 V AC, 50 Hz)
Uncorrected Parallel-corrected With electronic
ballast PCI
Lamp type W 70 150 250 400 1000 2000 70 150 250 400 1000 2000 20 35 70 150
Capacitance F-- -- -- -- -- -- 12 20 33 35 95 148 -- -- -- --
5TT580, 2-pole 20 A Per NO/NC 10 53310 210000 9654
5TT582, 4-pole 25 A Per NO/NC 12 7431012 7 4 4 1 1 9 6 5 4
5TT583, 4-pole 25 A Per NO/NC 12 74310 311000 9654
5TT584, 4-pole 40 A Per NO/NC 23 12 762118 11 662118 11 10 8
5TT585, 4-pole 63 A Per NO/NC 32 18 10 93125 15 983220 13 12 10
Uncorrected Parallel-corrected With electronic ballast PCI
Lamp type W 150 250 400 1000 150 250 400 1000 20 35 70 150
Capacitance F-- -- -- -- 20 33 48 106 -- -- -- --
5TT580, 2-pole 20 A Per NO/NC 5 3 2 0 1 0 0 0 9 6 5 4
5TT582, 4-pole 25 A Per NO/NC 6 4 2 1 7 4 3 1 9 6 5 4
5TT583, 4-pole 25 A Per NO/NC 6 4 2 1 1 1 0 0 9 6 5 4
5TT584, 4-pole 40 A Per NO/NC 17 10 6 3 11 6 4 2 18 11 10 8
5TT585, 4-pole 63 A Per NO/NC 22 13 8 3 16 10 6 3 20 13 12 12
Uncorrected Parallel-corrected
Lamp type W 18 35 55 90 135 180 18 35 55 90 135 180
Capacitance F-- -- -- -- -- -- 520 20 26 45 40
5TT580, 2-pole 20 A Per NO/NC 22 7 7 4 3 3 6 1 1 1 -- --
5TT582, 4-pole 25 A Per NO/NC 27 9 9 5 4 4 30 7 7 5 3 3
5TT583, 4-pole 25 A Per NO/NC 27 9 9 5 4 4 7 1 1 1 -- --
5TT584, 4-pole 40 A Per NO/NC 71 23 23 14 10 10 44 11 11 8 4 5
5TT585, 4-pole 63 A Per NO/NC 90 30 30 19 13 13 66 16 16 12 7 8
1 lamp 2 lamps
Lamp type W 22 40 55 2 × 22 2 × 40 2 × 55
5TT580, 2-pole 20 A Per NO/NC 22 12 811 6 4
5TT582, 4-pole 25 A Per NO/NC 30 15 12 15 7 6
5TT583, 4-pole 25 A Per NO/NC 30 15 12 15 7 6
5TT584, 4-pole 40 A Per NO/NC 80 40 30 40 20 15
5TT585, 4-pole 63 A Per NO/NC 110 60 45 55 30 22
1 lamp 2 lamps
Lamp type W 14 21 28 35 2 × 14 2 × 21 2 × 28 2 × 35
5TT580, 2-pole 20 A Per NO/NC 30 22 18 14 15 11 9 7
5TT582, 4-pole 25 A Per NO/NC 40 30 22 18 20 15 11 9
5TT583, 4-pole 25 A Per NO/NC 40 30 22 18 20 15 11 9
5TT584, 4-pole 40 A Per NO/NC 105 80 60 48 52 40 30 24
5TT585, 4-pole 63 A Per NO/NC 150 115 90 70 75 57 45 35
1 lamp 2 lamps
Lamp type W 24 39 49 54 80 2 × 24 2 × 39 2 × 49 2 × 54 2 × 80
5TT580, 2-pole 20 A Per NO/NC 20 12 10 9 6 10 6 5 4 3
5TT582, 4-pole 25 A Per NO/NC 26 16 14 13 813 8 7 6 4
5TT583, 4-pole 25 A Per NO/NC 26 16 14 13 813 8 7 6 4
5TT584, 4-pole 40 A Per NO/NC 70 42 35 32 22 35 21 17 16 11
5TT585, 4-pole 63 A Per NO/NC 100 62 52 47 32 50 31 26 23 16
© Siemens AG 2016
36 Siemens · 10/2015
5TT58 Insta contactors, AC technology
Switching Devices
5TT5 Insta Contactors
■
Dimensional drawings
Insta contactors, AC technology
Without manual switching
With manual switching
Auxiliary switches
■
Circuit diagrams
Graphical symbols
5TT580.-0
5TT580.-2
5TT5820-0
5TT583.-0
5TT583.-2
5TT584.-0
5TT584.-2
5TT585.-0
5TT585.-2
18 744
64
45
90
I201_12837
36 744
64
45
90
I201_12838
744
64
45
90
54
I201_12839
5TT580.-6
5TT580.-8
5TT583.-6
5TT583.-8
5TT584.-6
5TT584.-8
5TT585.-6
4
68
18 744
64
45
90
I201_12841
36 744
64
4
68
45
90
I201_12842
744
64
45
90
54
4
68
I201_12843
5TT5910-0
5TT5910-1
944
64
45
90
I201_12840
5TT5800 5TT5801 5TT5802 5TT5820
5TT5830
5TT5840
5TT5850
5TT5831
5TT5841
5TT5851
5TT5832
5TT5842
5TT5852
5TT5833
5TT5843
5TT5853
5TT5910-0 5TT5910-1
24
A2
3
1
A1
222
A2
21
1
A1
12 22
A2
2111
A1
(14)
(13)7
86
53
42
1A1
A2
A2
A1 1
24
35
622
21
43
4432
3121
2214
13A1
A2
41
4232
3121
2212
11A1
A2
54
64
53
63
61
62 54
53
© Siemens AG 2016
37
Siemens · 10/2015
Switching Devices
5TT5 Insta Contactors
5TT58 Insta contactors, AC technology
■
More information
Mounting position, Insta contactors, AC technology
The installation of the devices is permissible in the positions
shown in the following diagram (0° to 90°, 270° to 0°). There are
no restrictions when the devices are installed in these normal
mounting positions.
Heat dissipation
If several Insta contactors with AC magnet system are mounted
in series in a distribution board, there are no restrictions for the
types 25 A, 40 A and 63 A within the permissible ambient
temperature range up to 55 °C. For 20 A types within the
temperature range up to 40 °C, a 5TG8240 spacer must be
installed after every third Insta contactor, and in the temperature
range above 40 °C to 55 °C, after every second contactor.
Manual switching with O/I/Automatic function
The 5TT58...-6 and 5TT58...-8 versions also offer manual
switching. The knob allows preselection of 3 positions:
• Knob in the "AUTO" position
Automatic mode normal protective function
• Knob in the "I" position
Continuous operation switched on manually
(without control signal; when a control signal is applied,
manual switching on is unlocked, i.e. the knob is automatically
reset to the "AUTO" position)
• Knob in the "O" position
Off switched off
(coil circuit interrupted)
System test without applying a control voltage
Insta contactors with O/I/Automatic function enable the testing of
a plant by manual switching without the need to apply a control
voltage.
Automatic resetting through control signal
When applying a control signal to the terminals A1 and A2, the
Insta contactors can be reset from continuous operation mode
("I" position) to automatic mode ("AUTO" position).
I201_12836b
180°
0°
90° 270°
© Siemens AG 2016
38 Siemens · 10/2015
5TT3 soft-starting devices
Switching Devices
■
Overview
Soft-starting devices are rugged electronic control devices for
soft starting of three-phase asynchronous machines. By means
of phase-angle control, two of the motor's three phases are
influenced in such a way that the current in these phases rises
constantly. The motor torque behaves in the same way during
start-up. This ensures that the drive can start without jolting. This
rules out damage to drive elements because the starting torque
does not rise abruptly on direct activation. This characteristic
permits a low-cost design of the drive elements.
A clear reduction in starting noise can also be witnessed.
On belt conveyor systems, sliding or tilting over of the goods
conveyed is avoided. After starting, the power electronics is
bypassed by means of an internal relay contact to minimize
losses in the device.
■
Technical specifications
1) For rated operational current.
■
Dimensional drawings
5TT344. soft-starting device
5TT3440 5TT3441
Standards EN 60947-4-2 (VDE 0660-117)
Supply/motor voltage V AC 400 230
Primary operating range × Uc0.8 ... 1.1
Rated power VA 3.5 1.4
Rated frequency Hz 50/60
Rated power dissipation PvCoil/drive 3.5 1.7
Contacts1) per pole 4.6 0.7
Rated output of motor
- Max. At 400 V VA 5500 1500
- Min. At 400 V VA 300 100
Startup voltage %30 ... 70 20 ... 70
Starting ramp s0.1 ... 10
Recovery time ms 100 200
Switching frequency
3 × IN, TAN = 10 s, u = 20 % Switching
cycles/h
36 (up to 3 kW) 10
3 × IN, TAN = 10 s, u = 20 % Switching
cycles/h
20 (from 3...5.5 kW) 10
Semiconductor fuse Quick-acting A 35 20
Conductor cross-sections Rigid max. mm22 × 2.5
Flexible, with end sleeve min. mm21 × 0.5
Permissible ambient temperature °C -20 ... +60 -20 ... +55
Resistance to climate Acc. to EN 60068-1 20/60/4 20/55/4
5TT3441 5TT3440
543
64
45
90
I2_11595
L1N
T1T2
36
543
55
45
90
I2_11594
L1L2L3
T1T2T3
105
© Siemens AG 2016
39
Siemens · 10/2015
Switching Devices
5TT3 soft-starting devices
■
Circuit diagrams
Typical circuit for 5TT3441
Typical circuit for 5TT3440
5TT3441
L1 N
T1 T2
S2
K1
R
1 ~
M
L1
N
K1
Q1
K1
S1
F1
Q1
I201_07602a
230 V AC
NL1
T2T1
I201_07513a
tacc: Acceleration time
Mst: Starting torque
tacc Mst
L1
5TT3440
L2 L3
T1 T2 T3
K2 K1
K2K1
K2
K1
0RL
S
PE 3 ~
M
L1
L2
L3
N
PE
I201_07281
Reversing
switch
3 AC 230/400 V
L1L2L3
T1T2T3
I201_07514a
tacc: Acceleration time
Mst: Starting torque
tacc Mst
© Siemens AG 2016
40 Siemens · 10/2015
Controls
Switching Devices
■
Overview
Switching on loads
The increased making currents of different loads and thus the
risk of contacts welding is often underestimated.
Resistive load:
The resistive load, e.g. electric heating, does not increase the
making current.
Incandescent lamps:
The cold coiled filament in incandescent lamps or halogen
lamps causes a 6 to 10-fold making current for approx. 10 ms.
Uncorrected fluorescent lamps:
When switched on over several periods, the heating current of
the coiled filament and the operational current produce a 2 to
2.5-fold inductive current.
Fluorescent lamps with parallel compensation:
When switched on, the capacitor causes an extreme, up to
13-fold, current for approx. 10 ms.
Fluorescent lamps in duo connection:
The series capacitor results in compensation. In spite of this, an
increased making current is produced over several periods, just
as for uncorrected fluorescent lamps.
Selecting contacts for lighting systems
A wide range of different contacts are used for modular
installation devices:
• Contactor contacts with a > 3 mm contact gap, as in
Insta contactors, AC technology
• Switching relay contacts with m contacts (contact gap
> 1.2 mm but < 3 mm)
• Manually operated contacts with > 3 mm contact gap, as for
5TE8 switches
• Relay contacts with contacts (contact gap > 0.5 mm), as are
used on PCBs with electronic devices.
The selection tables in the Technical Specifications will help you
to find the correct switching device for the different lighting
installations.
Switching off loads
If a contact with current flowing through it opens, this always
ignites an electric arc above 24 to 30 V. This arc depends on
voltage, length of isolating distance, speed of contact, actuating
angle and amperage. The principle of the so-called zero cutoff
is that after no more than 1½ half-waves, the electric arc is
quenched in the zero point. There are no further quenching aids
or current limiters, as is the case with miniature circuit breakers.
Switching off direct currents
When switching direct voltages, there is no zero passage of
current for the arc to be interrupted. To be able to switch
significant currents despite this, contacts are connected in
series to increase the isolating distance.
Some switching devices are provided with planning data for
switching direct currents. Compliance with these planning data
is essential. If the data values are exceeded the electric arc is
not reliably quenched and there is a risk of fire.
Safe separation
When operating 230 V and safety extra-low voltage SELV –
voltage of bell transformers or transformers for permanent
load – on a device, it is essential to ensure "safe separation".
At least 8 mm of creepage and air clearances and a withstand
voltage of more than 4 kV is needed for this. If these conditions
– 8 mm or 4 kV – are not fulfilled, the term "electrical separation"
as "not SELV" is used instead of the term "safe separation".
duration
1
I201_07254a t
6 ...10
V
D
L
St
L1 N
I201_07256a
duration
2 ... 2,5
I201_07255a
1
t
duration
approx.13
I201_07257a
1
t
V
D
L
St
L1 N
I201_07258a
duration
2 ... 2,5
I201_07255a
1
t
V
D
K1
L
St
L1 N
I201_07259a
V
D
L
St
t
I
I201_07260
t
I
I201_07261
© Siemens AG 2016
41
Siemens · 10/2015
Switching Devices
7LF, 5TT3 Timers
7LF4 digital time switches
■
Overview
Today, time switching is a matter of course.
In fact, it is now hard to imagine many process sequences and
energy saving processes without time switching. It could also be
argued that time switching satisfies a basic need in the electrical
installation sector.
New-generation digital time switches have a wider variety of
functions than their predecessors and are easier to operate,
thanks to better possible solutions.
They can be used to switch systems or devices or for functions
such as: Irrigation plants, hothouses, garden systems,
swimming pools, filter systems, canopy controls, break signals,
bell chimes, shop-window lighting, illuminated advertising,
sports-hall lighting, traffic-light controls, street lighting,
illuminated signs, office lighting, stairway and entrance lighting,
object lighting, preheating of industrial furnaces, injection-
molding machines, ovens, heating systems, air-conditioning
systems, fans and ventilation systems, heating and circulating
pumps, and sauna systems.
The devices have the VDE mark and are UL approved
(not 7LF4444).
© Siemens AG 2016
42 Siemens · 10/2015
7LF4 digital time switches
Switching Devices
7LF, 5TT3 Timers
■
Technical specifications
1) For 24 V devices (7LF4521-2, 7LF4522-2 and 7LF4444-2):
Tolerance -10/+10 %; operating range 0.9 ... 1.1 × Uc.
2) For 24 V devices (7LF4521-2, 7LF4522-2 and 7LF4444-2):
Frequency range 0 ... 60 Hz.
3) For 24 V device (7LF4444-2): Pv = 4 VA.
4) A program consists of an ON time, an OFF time and assigned ON and OFF
days or day blocks.
5) DCF/ GPS atomic clock error, without antenna: ± 0.1 s/day
6) Control input for connection of the time signal + local coordinates (GPS)
from the antenna power supply module
7) The combination of line voltage (230 V) and SELV in combination with a
2K clock is not admissible. This requirement is, however, admissible in the
case of 1K clocks and the Expert 4K.
Mini Top Profi Astro Expert Expert GPS
7LF4401-5 7LF4511
7LF4512
7LF4521
7LF4522
7LF4531
7LF4532
7LF4444 7LF4541
7LF4542
Standards EN 60730-1, -2-7; VDE 0631-1, -2-7
Approvals -- UL File No. E301698 -- UL File No. E301698
Supply
• Rated control supply voltage UcV AC
V AC/DC
110 ... 240
--
230
--
230
24
230
--
120/230
24
230
--
- Primary operating range × Uc0.85 ... 1.1 0.85 ... 1.1 0.85 ... 1.11) 0.85 ... 1.1 80 .. 253 V1) 0.85 ... 1.1
- Frequency ranges Hz 50 ... 60 50 ... 60 50 ... 602) 50 ... 60 50 ... 602) 50 ... 60
• Rated power dissipation PvVA 0.035 2 2 2 2.5/43) 2
Channels/contacts
• Switching channels 11 or 2 41 or 2
- Rated operational voltage UeV AC 250
- Rated operational current IeAt p.f. = 1 A 16
At p.f. = 0.6 A 10
• Contacts 1 CO 1 or 2 CO 4 CO 7LF4541: 1 CO
7LF4542: 1 CO +
1NO
- Mechanical switching cycles (in millions) > 5 10
- Electrical switching cycles At p.f. = 1 6000 (20 A) 100000
• Minimum contact load V; mA 12; 100
- Incandescent lamp load A 5 8
- Fluorescent lamp load VA 58 60 600 58 600
Uncorrected VA 1400 2300 2000 1400 2000
- Energy-saving lamp load W 100 60 VA 1000 100 1000
Safety
• Different phases permissible between actuator/contact 7) Yes
• Rated impulse withstand voltage Uimp kV 4.0
- EMC: Burst Acc. to IEC 61000-4-4 kV > 4.4
- EMC: Surge Acc. to IEC 61000-4-5 kV > 2.0
- Electrostatic discharge Acc. to IEC 61000-4-2 kV > 8.0
• Power reserve storage Mains/battery a 6/2 3 5
- Battery type Li primary cell
• Program memory Captive -- No Yes
• Overvoltage category Acc. to EN 61010-1 III
Function
• Minimum switching sequences 1 min 1 s
• Make and break cycles 1 min 1 s
• Clock errors per day Typical s/day +0.3 1 1.5 0.1 0.1 0.2 5)
• Control input Terminal S -- No Yes (only in the case of
1K clock)
6)
• Memory spaces
-Programs
4) 28 28 (2 × 14) 56 (2 × 28) 56 (2 × 28) 4 × 3 × 28 84 (3 × 28)
Connections
• Terminals ± screw (Pozidriv) PZ 1
• Conductor cross-sections of main current paths
- Rigid, max. mm24
- Rigid, min. mm21.5
- Flexible with end sleeve Max. mm22.5
Environmental conditions
• Permissible ambient temperature °C -10 ... +55 -20 ... +55
• Storage temperature °C -20 ... +60
• Climatic withstand capability Acc. to EN 60068-1 10/055/21 20/055/21
• Degree of protection Acc. to EN 60529 IP20, with connected conductors
• Safety class Acc. to EN 60730-1 II
© Siemens AG 2016
43
Siemens · 10/2015
Switching Devices
7LF, 5TT3 Timers
7LF4 digital time switches
■
Dimensional drawings
7LF4401-5 7LF451.
7LF452.
7LF453.
7LF454.
7LF4444 7LF4941-0
USB adapter
7LF4941-4
Power supply unit for GPS antenna
7LF4941-5
GPS antenna
7LF4941-1 7LF4940-2
44
45
83
18
64
I201_13954
6
45
83
64
644
35,6
I201_19169
I201_12835 45
446
64
83
108
11 3,5
66
59,2
I201_19171
54
54
58 18
14,5
I201_12751
45
44
64
18
83
I201_19460
108,2
10
28
Ø 42
45,38
20
25,3
I201_19461
4,9
16,1 9,6
5,8
I201_19170
9,417,3
9,1
I201_12752
© Siemens AG 2016
44 Siemens · 10/2015
7LF4 digital time switches
Switching Devices
7LF, 5TT3 Timers
■
Circuit diagrams
Graphical symbols
7LF4401-5 7LF4511
7LF4521
7LF4531
7LF4512
7LF4522
7LF4532
7LF4444
Expert GPS digital time switches (7LF4541, 7LF4542) with GPS antenna (7LF4941-5) and power supply unit for GPS antenna (7LF4941-4)
M
153
24
I201_12409a
M
L42
N1
I201_12412a
M
L42
N1
42
1
12
I201_12413
M
L42
N1
42
1
12
42
1
42
1
34
I201 12753a
+ -
Supply Voltage
0 6 12 16 24
max 5 m
max 50 m
TOP
0 6 12 16 24
24
1
241
7LF4 941-4
max.
250 V AC
I201_19483
© Siemens AG 2016
45
Siemens · 10/2015
Switching Devices
7LF, 5TT3 Timers
7LF4 digital time switches
■
More information
Mini digital time switch
The Mini digital time switch with a width of only 1 MW and its
hourly, daily and weekly program is ideal for replacement and
installation in distribution boards with limited space.
The Mini digital time switch can be used flexibly as it can also be
operated in battery mode with all its functionalities. Furthermore,
the actuator of the clock can be removed from its enclosure for
easy programming over the 5-way joystick prior to mounting.
Top, Profi, Astro and Expert digital time switches
Whether you are using text-assisted programming directly on the
device or user-friendly programming on the PC, the Top, Profi,
Astro and Expert digital time switches will make your work
quicker and easier.
Simple operation:
Four programming keys offer user-friendly assistance with a text
menu.
Display that is easy to read:
If you have to change the setting on the digital time switch inside
a dark control cabinet, the integrated backlit display and
illuminated control elements ensure that you retain an overview
of what is what.
Straightforward commissioning:
You can start programming immediately. Profi, Astro and Expert
are supplied with the time, date and automatic daylight savings
for Central Europe already set.
Clear contrast:
In order to retain an overview even if lighting is poor and
temperatures extreme, the display contrast can be adjusted,
practically down to the finest detail.
User-friendly programming:
Operating and programming a digital time switch has never
been so simple, straightforward and user-friendly.
1-channel time switches allow input of up to 56 switching
programs, 2-channel time switches allow up to 28 programs per
channel and 4-channel time switches up to 84 programs per
channel. This means that the Profi, Astro and Expert time
switches are ideally equipped for even the most complex of
tasks.
Each entry required is clearly indicated so no prolonged
studying of the operating instructions is required. A particularly
practical feature is that the digital time switch can be
programmed when not connected to a supply voltage.
The Profi, Astro and Expert digital time switches offer more than
reliable switching. Numerous integrated, easy-to-use functions
ensure that these problem solvers are as simple to operate as
they are versatile.
A data key enables easy programming of the Profi, Astro and
Expert digital time switches at a PC, simplifies the setting of time
switch programs and saves enormous amounts of time. This
prevents human error and enables simple copying of complete
time switch programs to different time switches.
Astro function:
The Astro and Expert time switches have one key strength: the
Astro function. The exact time of sunrise and sunset is available
for every location and every day in the year. For example, this
means that connected exterior lighting only switches on when it
gets dark – on short winter days as well as summer days, when
it is light for much longer. The advantages are clear:
• Cost-savings, because electricity is only used when the
lighting is really needed, and because this prolongs the
service life of the lighting itself. Particularly in the case of dusk-
dependent lighting controls
• Safety and convenience, because the light is always switched
on when it is dark
• Ease-of-use, because the digital time switch does not have to
be reprogrammed throughout the year
• Simplest possible installation, as the Astro digital time switch
works in the distribution board. No further need for laborious
cable laying to the light sensors. This means that it is not
necessary to lay cables across the lightning protection zones.
The compact 2-WM range is also ideally suited for subsequent
installation or replacement.
It goes without saying that the Astro and Expert digital time
switches do not just switch at dawn and dusk; complex,
combined programs are also possible. You always have the
choice between astronomically calculated and individually set
switching times, or a combination of both.
© Siemens AG 2016
46 Siemens · 10/2015
7LF4 digital time switches
Switching Devices
7LF, 5TT3 Timers
PC programming:
The Profi, Astro and Expert digital time switches support plug-in
data keys, thus providing you with even more security and
convenience.
For example, you can read a program out from a digital time
switch via the data key, copy the program to the PC and save
and edit it there – or you could just transfer it to another clock.
You can also work with several data keys. Programs can then be
changed in a matter of seconds.
A backup copy ensures faster service. If the time switch has
been manipulated, the data key can be used to retransfer the
saved program to the clock without any problem.
Thanks to the standard operator interface, based on MS Office,
there is no need for laborious program training.
Pulse function on a 1-channel device:
Up to 84 start times and one pulse time can be programmed on
the time switch using the pulse function. The pulse duration can
be selected between 1 s and 59 min 59 s.
Random function:
If the random function is activated, the set switching times are
shifted at random within a range of ± 30 min.
Operating hours counter:
Particularly in commercial applications, it is often necessary to
determine the operating life of the switched load, e.g., lights. The
operating hours counter displays the total ON duration per
channel and the date of the last reset.
Holiday function:
The start and end dates of the holiday period are set in the
holiday program. If the holiday program is activated, the digital
time switch does not carry out any programmed switching
commands during the relative period but, depending on the
respective input, is set to "CONTINUOUSLY OFF" or
"CONTINUOUSLY ON" during the holiday period. Once the
holiday period has elapsed, the digital time switch again begins
to perform switching automatically in accordance with the
programmed switching times.
Control input:
The follow-on time that can be set in the control input enables the
relay to be switched in addition to and in parallel with the
switching program. The follow-on time can be set within the
range 0 min ... 23 h 59 min, and begins as soon as the voltage
on the control input drops.
1 h test:
The "1H TEST" function can be used for simulating switching.
If "1H TEST" is activated, the switching outputs are switched for
one hour. Once this period has elapsed, the digital time switch
again begins to perform switchings automatically in accordance
with the programmed switching times.
PIN code:
Input and programming can be disabled using a four-digit
PIN code.
Week programs:
Programs that are designed to be repeated regularly every
week, e.g. light control, heating control. A week program
comprises an ON/OFF time and assigned ON/OFF days.
Year programs:
Programs that are only to be executed within a defined period of
validity. They overlap with the week programs of the same
channel according to an OR operation. The period of validity is
specified by entering the start/end date. Validity from start date
00:00:00 to end date 24:00:00. The start date must be prior to
the end date. Within their period of validity, these programs act
as week programs. Outside their period of validity, these
programs have no influence on the switching behavior.
Exception programs:
Have a higher priority than week and year programs. Week and
year programs of the same channel will not be executed within
the period of validity of an exception program. However, within
the period of validity other exception programs will be executed.
The different exception programs overlap according to an OR
operation.
Cycle function:
On the year time switch, channel 1 has an additional option for
"cyclic switching". The term "cyclic switching" means that within
a specific period, the time switch is switched on for a specific
duration (ON time). The cycle time can be set between
2 seconds and 2 hours. The ON time can be set between one
second and one hour.
© Siemens AG 2016
47
Siemens · 10/2015
Switching Devices
7LF, 5TT3 Timers
7LF4 digital time switches
USB adapter
The Profi, Astro and Expert time switches are easy to program at
the PC using the data key with the USB adapter and software.
This enables more complex time-switching programs to be
created quickly and easily. The saving and copying of time-
switching programs is also child’s play.
• Clear data on the annual ON time of the load enables a
precise statement on the annual power consumption
• You can create the control program for the digital time switch
on your home PC at your convenience, save it on the data key
and use the key to transfer the program to the clock on site
• Time is not only saved when creating and transferring
programs, but also in respect of maintenance
© Siemens AG 2016
48 Siemens · 10/2015
7LF5 mechanical time switches
Switching Devices
7LF, 5TT3 Timers
■
Overview
Today, time switching is a matter of course.
Making energy savings by means of time switching has become
a matter of course. Nowadays, many process sequences would
be inconceivable without time switching.
If the minimum switching interval is sufficient, mechanical time
switches are always used. The press-down tabs can be set to a
minimum interval of 15 minutes, without the need to use a tool.
They can be used to switch systems or system components or
for functions such as: Irrigation systems, greenhouses, public
gardens, swimming pools, filtering installations, canopy
controls, church bells, shop window lighting, advertising
lighting, gym lighting, traffic signal controls, street lighting,
illuminated signs, office lighting, lighting of stairwells and
entrances, object illumination, preheating of industrial furnaces,
spraying machines, ovens, heating systems, air-conditioning
systems, fans and ventilation systems, heating and circulation
pumps and sauna systems.
All devices have the VDE mark and are approved to UL.
© Siemens AG 2016
49
Siemens · 10/2015
Switching Devices
7LF, 5TT3 Timers
7LF5 mechanical time switches
■
Technical specifications
Synchronous time switches
without power reserve
Quartz-clock time switches
with power reserve
7LF5
300-1
7LF5
300-5
7LF5
300-6
7LF5
301-0
7LF5
301-1
7LF5
301-4
7LF5
301-5
7LF5
301-6
7LF5
301-7
7LF5
305-0
Standards EN 60730-1, -2-7, UL 917, UL 917, CSA C22.2 No. 14 and 177
Approvals VDE, UL File: E301698
Operating mode Synchronous Quartz
• Time program Day Day Week Day Day Day Week Day Week Day
Supply
• Rated control supply voltage UcV AC 230 230
- Primary operating range × Uc0.85 ... 1.1 0.85 ... 1.1
• Rated frequency Hz 50 50
- Frequency ranges Hz 50 50/60
• Rated power dissipation PvVA 1 1 0.2 0.2 1 1 1
Channels/contacts
• Switching channels 1 1
- Rated operational voltage UeV AC 250 250
- Rated operational current Ie
At p.f. = 1 A 16 16
At p.f. = 0.6 A 4 4
• Contacts 1 NO 1 CO 1 CO 1 CO 1 NO 1 CO 1 CO 1 CO 1 CO 1 CO
- Mechanical switching cycles in millions 20 20
- Electrical switching cycles at p.f. = 1 100000 100000
• Minimum contact load V; mA 4; 1 4; 1
- Incandescent lamp load A 5 5
- Fluorescent lamps
at 7AVA60 60
Uncorrected VA 1400 1400
Safety
• Different phases permissible
between actuator/contact
Yes Yes
• Electrical isolation, creepage distances
and clearances, actuator/contact
mm 8/6 8/6
• Rated impulse withstand voltage Uimp
actuator/contact
kV 4 4
- EMC: Burst acc. to IEC 61000-4-4 kV > 4.4 > 4.4
- EMC: Surge acc. to IEC 61000-4-5 kV > 2.0 > 2.0
- Electrostatic discharge according to
IEC 61000-4-2
kV > 8.0 > 8.0
• Power reserve storage a -- 100 h 6100 h
- Minimum charging time h -- 48 -- 48
- Battery type -- NiMH
cell
Li primary cell NiMH cell
- Service life of battery
At 20 °C a -- 610 6
At 40 °C a -- 5
• Overvoltage category according
to EN 61010-1
III III
Function
• Minimum switching sequences min 30 240 30 30 240 30 240 30
• Make and break
cycles
min 15 120 10 15 120 15 120 10
• Switching accuracy min ± 5 ± 30 ± 5 ± 5 ± 30 ± 5 ± 30 ± 5
• Clock errors per day System-synchronized ± 2.5 s ± 60 s/year ± 2.5 s
Connections
• Terminals ± screw (Pozidriv) PZ 1 PZ 1
• Conductor cross-sections of main current
paths
- Rigid, max. mm24 4
- Rigid, min. mm21.5 1.5
- Flexible, with end sleeve mm22.5 2.5
- Flexible, without end sleeve mm24 4
Environmental conditions
• Permissible ambient temperature °C -10 ... +55 -10 ... +55
• Storage temperature °C -10 ... +60 -10 ... +60
• Climatic withstand
capability
Acc. to EN 60068-1 10/055/21 10/055/21
• Degree of
protection
Acc. to EN 60529 IP20, with connected conductors IP20, with connected conductors
• Safety class Acc. to EN 61140 II II
© Siemens AG 2016
50 Siemens · 10/2015
7LF5 mechanical time switches
Switching Devices
7LF, 5TT3 Timers
■
Dimensional drawings
■
Circuit diagrams
Graphical symbols
7LF5300-1
7LF5300-7
7LF5301-1
7LF5300-5
7LF5300-6
7LF5301-4
7LF5301-5
7LF5301-6
7LF5301-7
7LF5301-0
7LF5305-0
45
I201_12421
44
18 6
64
83
45
I201_12423
44
53 6
64
83
110
72 44
69 34
66
I201_12426a
7LF5300-1
7LF5300-7
7LF5301-1
7LF5300-5
7LF5300-6
7LF5301-0
7LF5301-4
7LF5301-5
7LF5301-6
7LF5301-7
7LF5305-0
M
L4
N1
I201_12419a
I201_12420a
M
U1 4 2
U2 1
© Siemens AG 2016
51
Siemens · 10/2015
Switching Devices
7LF, 5TT3 Timers
7LF5 mechanical time switches
■
More information
Mechanical time switches with day disk
Synchronous time switches without power reserve
The control gear is driven by a synchronous motor so it is
dependent on the power supply frequency. If this frequency is
unstable, the devices cannot be used. In the event of a power
failure, the time switch will stop.
Quartz-clock time switches with power reserve
A quartz electronic circuit supplies the drive with a stabilized
frequency so that the time switch is not dependent on the power
supply frequency. In the event of a power failure, the time switch
continues to operate on its power reserve.
Automatic setting function
This makes installing the 7LF5301-4 and 7LF5301-5 time
switches quick and easy. These time switches self-adjust during
commissioning in fast mode to the correct time and correct day
within the Central European zone. The relevant daylight-saving
adjustment is also made automatically. Another advantage is
that, once the supply voltage is reconnected following a power
failure, the correct time and day are reset using quartz precision.
Precision quartz clockwork
Accuracy: The internal precision clockwork has an accuracy of
1 min. per year. Until now, this level of accuracy and automatic
operational safety was only possible using digital time switches.
Optimization of power consumption due to minimum make and
break cycles of 15 minutes: it is possible to set the switching
times in 15-minute patterns, with a switching interval of at least
30 minutes.
Mechanical time switches with week disk
LED display
Adjustment data for Central Europe are stored in the switch and
an LED display provides information about the current status.
So, all you have to do is unpack, snap on, connect, and set the
desired switching times, all without the need for tools. This saves
time and money.
Clear design
The clear design aids understanding. Switching times can be
easily identified.
As regards the weekly time switch, a minimum switching interval
of 240 minutes results in a switching step of only 120 minutes.
© Siemens AG 2016
52 Siemens · 10/2015
7LF6 timers for buildings
Switching Devices
7LF, 5TT3 Timers
■
Overview
Siemens stairwell lighting timers enable the required time to be
set precisely without tools using the push-to-lock knurling wheel.
The stairwell lighting timers in four-wire installations can be
switched back on again at any time by simply pressing the
switch. A maintained light switch prevents the need for repeated
pressing, for example when moving house. The various types
are also available with warning of impending switch-off.
■
Technical specifications
7LF6110 7LF6111 7LF6113 5TT1303 7LF6114 7LF6115 7LF6116 7LF6112
Standards IEC 60669, EN 60669
Supply
• Rated control supply voltage UcV AC 230
- Primary operating range At 50/60 Hz × Uc0.9 ... 1.1
• Rated power dissipation PvVA Approx. 5
Setting range min 0.5 ... 10 1 ... 10 0.5 ... 10 3 ... 60 0.5 ... 10
• Accuracy s ±30
Manual switches Automatic/permanent Yes
Minimum push duration ms 30
Voltage endurance At pushbutton input
(pushbutton
malfunction)
Yes
Short-circuit strength A700 -- 700
Channels/contacts
• Switching channels
- Rated operational voltage UeV AC 250
- Rated operational current IeAt p.f. = 1 A 16 -- 10 16
• Contact gap mm > 3 0.3 > 3
• Minimum contact load V; mA 10; 300
Max. incandescent lamp load W2000 -- 2000 --
Max. energy-saving lamp load 14 W Unit(s) 20 -- 20 --
Fluorescent lamp load 58 W
- Uncorrected Unit(s) 20 -- 20
- DUO switching Unit(s) 2 × 20 -- 2 × 20
- Siemens ECG 1 lamp Unit(s) 10 610
2 lamps Unit(s) 2 × 5 32 × 5
Glow lamp load mA 50 10 50 --
Max. fan load VA -- 200
Connections
• Terminals ± screw (Pozidriv) PZ 1
• Conductor cross-sections of main current paths
- Rigid mm21.5 ... 6
- Flexible, with end sleeve Min. mm21
Environmental conditions
• Climatic withstand capability Acc. to EN 60068-1 °C -20 ... +50
• Degree of protection Acc. to EN 60529 IP20, with connected conductors
© Siemens AG 2016
53
Siemens · 10/2015
Switching Devices
7LF, 5TT3 Timers
7LF6 timers for buildings
■
Dimensional drawings
■
Circuit diagrams
Typical circuit for 7LF6111 timer in 4-wire circuit,
L-momentary, resettable
Usual circuit for new installation with separate cable routing for
pushbuttons and lights. The additional DI switch allows external
switching to continuous light or a time switch can also be used
for this purpose. An additional attic circuit is also available,
which operates independently of the timer, but on the same
electrical circuit. The timer can be restarted before the set time
expires.
te = Runtime
Typical circuit for 7LF6111 timer in 3-wire circuit,
N-momentary, resettable
Can only be used with a limited number of wires. The timer can
be restarted before the set time expires. While this 3-wire circuit
with N-momentary contact is technically possible, it does not
comply with DIN VDE 0100-460. However, it is used in legacy
systems for replacement purposes.
te = Runtime
Typical circuit for 7LF6112 timer for fans up to 200 VA
The switch switches the light on immediately, e.g. in a toilet. After
a delay of approx. 1 minute, the fan is switched on. When the
light is switched off, the fan continues to run for the time set at
the timer.
te = Runtime
Typical circuit for 7LF6115 energy-saving timer with advance
warning
The timer is connected in the same way as the 7LF6111 timer in
a 4-wire or 3-wire circuit. The energy-saving timer switches on if
pressed once and switches off when it is pressed again. If it is
not switched off manually, it is automatically switched off after
the set time, max. 60 minutes. 20 and 40 seconds before expiry,
the light flashes briefly twice (50 ms) to warn of the impending
tripping. This allows time to reset the switch while the light is still
on. Prior to the warning time, a push of the button ends the timing
interval.
te = Runtime
7LF6110 7LF6111
7LF6112
7LF6113
7LF6114
7LF6115
7LF6116
5TT1303
1 8 1 8
N
N
L 2 L
1
2
I 2 _ 1 0 9 1 0
724
44
64
I2_10911
45
67
90
45
2
B
1
B
5
90
64
43
--
+
1
A31 4
1
A2
T
36
I201_06708
L2
e
e
e
ttt
I201_10916a
N
DE LN
21
L
I201_10912a
230 V AC
N
L
LN
21
I201_10913a
230 V AC
L2
e
e
e
ttt
I201_10917a
N
L
2N
L
I201_10915a
230 V AC
I201_10918
L2
1 Min
1 Min
v
te
I2_10919b
ca.
40s
tete>t>te-40s te
te-40s>t
L2
ca.
20s ca.
40s
ca.
20s
© Siemens AG 2016
54 Siemens · 10/2015
7LF6 timers for buildings
Switching Devices
7LF, 5TT3 Timers
Typical circuit for 7LF6116 energy-saving timer
The timer is connected in the same way as the 7LF6115 timer in
a 4-wire or 3-wire circuit. The energy-saving timer switches on if
pressed once and switches off when it is pressed again briefly
(less than 1 second).
Resetting is possible by pressing a second time for longer
(more than 1 second). If it is not switched off manually, it is
automatically switched off after the set time, max. 60 minutes.
te = Runtime
Lighting in ancillary rooms and corridors
In rooms subject to less frequent use (basements, ironing rooms,
attics, heating oil storerooms) there is a risk of the lighting re-
maining on unnecessarily for lengthy periods. In such cases, the
7LF6115 and 7LF6116 energy-saving timers can considerably
reduce energy costs while increasing user-friendliness.
Occupants leaving a room can switch off the light by push-
button, just like an installation with remote control switch. In the
event that occupants are unable to switch the light off, or simply
forget, it will go out automatically after a pre-set time.
The 7LF6115 and 7LF6116 energy-saving timers can also be
used in corridors, e.g. as replacements for remote control
switches. In this case they combine the familiar functionality of a
remote control switch with the energy-saving features of a
stairwell lighting timer.
Typical circuit for 7LF6110 timer in 3-wire circuit,
L-momentary contact, not resettable
Circuit for new installation with shared cable routing for push-
buttons and lights. The timer can only be restarted after the set
time expires.
te = Runtime
Typical circuit for 7LF6113 energy-saving timer with advance
warning
The timer is connected in the same way as the 7LF6111 timer in
a 4-wire or 3-wire circuit. 20 and 40 seconds before expiry, the
light flashes briefly twice (50 ms) to warn of the impending
tripping. This allows time to reset the switch while the light is
still on.
te = Runtime
Typical circuit for 7LF6114 energy-saving timer with advance
warning
The timer is connected in the same way as the 7LF6111 timer in
a 4-wire or 3-wire circuit. When pressed, the lighting timer
switches on for the set runtime, up to 10 minutes. If the switch is
pressed for more than one second, the light is switched on for
four times the set time, i.e. up to 40 minutes. The last press of the
pushbutton is definitive. 20 and 40 seconds before expiry, the
light flashes briefly twice (50 ms) to warn of the impending
tripping. This allows time to reset the switch while the light is still
on. The timing interval restarts each time the button is pressed.
te = Runtime
I202_02097
UN
L/N
L/2
t<1s t>1s
te
t<te
t<te
te
N
L
2N
L
I201_10915a
230 V AC
te
I201_10920
L2
te
I2_10921a
L2
ca. 20s
ca.
40s
I2_10922b
t
e
t
e
>tt
e
4 x
L2
t<1s t<1s t>1s
t
e
>t
ca.
40s
ca.
20s ca.
40s
ca.
20s ca.
40s
ca.
20s
© Siemens AG 2016
55
Siemens · 10/2015
Switching Devices
7LF, 5TT3 Timers
7LF6 timers for buildings
Typical circuit for 5TT1303 ECG control switch
The device is fitted with a direct voltage input for the control of
an ECG. When the pushbutton is actuated, the power supply is
released and the ECG is brightened for up to 10 minutes,
depending on the setting of the timer.
On expiry of this time, the ECG is dimmed according to the set
dimmer level, if pressed again it brightens again. If no requests
are made for 30 minutes (no buttons pressed), the lighting is fully
deactivated. In addition to these functions, the dimming time
and brightness period can also be controlled using a separate
pushbutton or time switch over the control inputs B1 and B2.
Switching the ECG and the fluorescent lamp as little as possible
extends the service life.
Hall lighting in nursing homes
At meal times, from 5 to 7 p.m., the light in the corridors can be
permanently switched on using a time switch (contact B1).
Between 7 p.m. and 10 p.m., the lighting is dimmed using
switch B2. Simply press the corridor pushbutton again to return
the lighting to the bright setting at any time. After 10 p.m., the
light is switched off. It can be switched back on at any time by
pressing the corridor pushbutton.
Corridor lighting in hospitals
During the day – i.e. during peak periods, lunch times, visiting
times, shift changes, doctor's rounds – the light is switched on.
During quiet periods, i.e. afternoons and nights, the light is
switched to a dimmed state. A patient can switch the light back
to the bright setting at any time by pressing the corridor
pushbutton. In emergencies, the nurse can use a B1 switch to
switch to "emergency operation", i.e. permanently bright (no time
limit of brightness period).
14
A2
13 A1
T+-
L
N
+
-
L
N
+
-
L
N
+
-
N
B1 B2
B1 B2
I2_07450a
L1 AC 230 V
t1t3
t2
13
t1t3
t2
14
t1
t2
t3
t2
B1
B2
t1
t1:t2:t3:
I201_07691a
Bright phase Operating period Dim phase
© Siemens AG 2016
56 Siemens · 10/2015
7LF6 timers for buildings
Switching Devices
7LF, 5TT3 Timers
■
More information
Stairwell lighting
This is required in DIN 18015-2 "Electrical installations in
residential buildings; Nature and extent of minimum equipment".
What is less known is that 100 lux is required according to
EN 12464-1 "Lighting of work places" for interior areas and
corridors, section 5.3. This means that approx. 60 W
incandescent lamps, 25 W energy-saving lamps or 25 W
fluorescent lamps need to be used. It is hard to see why lower
requirements should apply to stairwells in residential buildings
than stipulated in EN 12464-1.
4-wire circuit, L-momentary contact
4 wires are installed within the building. The timing interval is
started by pressing phase L. During the runtime, the timer can
be reset at all times.
3-wire circuit, L-momentary contact
3 wires are installed within the building. The timing interval is
started by pressing phase L. No resetting is possible during the
runtime as the pushbutton input and output are exposed to the
same potential during this period. The glow lamps are switched
off during the runtime.
3-wire circuit, N-momentary contact
3 wires are installed within the building. The timing interval is
started by pressing the N conductor. During the runtime, the
timer can be reset at all times. However, this switching no longer
corresponds to DIN VDE 0100 and is now only used in legacy
systems.
Safety through warning prior to switch-off
DIN 18015-2 "Electrical installations in residential buildings:
Nature and extent of minimum equipment" stipulates that the
automatic lighting-off control in stairwells of appartment blocks
must be equipped with a warning function to prevent sudden
darkness in the building. This contribution towards safety is
offered by 4 device versions. The 7LF6113 stairwell lighting
timer, the 7LF6114 lighting timer and the 7LF6115 energy-saving
timer warn of an impending switch-off by flashing, the 5TT1303
stairwell lighting timer ECG warns of an impending switch-off by
dimming, allowing sufficient time for the light switch to be
pressed again.
Manual switches
All timers have a manual switch for the function "Automatic/ON".
This allows the operator to switch to continuous light in the event
of moving house or emergencies.
Useful continuous contact
Pushbuttons should never jam. For this reason, all our timers
have a safeguard to prevent this type of malfunction. Even
better, this feature can be used (e.g. by caretakers of properties)
to switch to a continuous light in the event of moving house or
emergencies.
Setting accuracy
The electronic remote control switches offer a high degree of
accuracy. The runtime can be set precisely to +30 seconds
using the push-to-lock knurling wheel setting. The factory
settings ensure that the limit values of 1 and 10 or 60 minutes
can be reliably set.
Short-circuit strength
Stairwell lighting timers are primarily used for the switching of
incandescent lamps, which may occasionally be subject to short
circuits. A key feature of all devices is their high short-circuit
strength without the contacts welding.
Switching of fluorescent lamps
In order to extend their service life as far as possible, fluorescent
lamps should only be switched using a stairwell lighting timer if
the switching frequency is not excessive. Using electronic
ballast (ECG) to operate them is more gentle on the device and
saves energy. The 5TT1303 stairwell lighting timer ECG switches
the electronic ballast and warns of the impending switch-off by
dimming.
Switching of energy-saving lamps
The switching of energy-saving lamps depends greatly on the
lamp type used. Standard energy-saving lamps are generally
unsuitable for warning by flashing or dimming prior to switch-off.
The 7LF6110 and 7LF6111 stairwell timers and the 7LF6116
energy-saving timers without warning of impending switch-off
are suitable for the use of standard energy-saving lamps
(e.g. OSRAM DULUX EL).
For applications with warning of impending switch-off (7LF6113
and 7LF6114 stairwell lighting timers or 7LF6115 energy-saving
timers) we recommend the use of special energy-saving lamps
such as OSRAM DULUX EL FACILITY or OSRAM DULUX
EL VARIO.
Download from the Internet:
For more information, please visit us on the Internet at:
www.siemens.com/lowvoltage
© Siemens AG 2016
57
Siemens · 10/2015
Switching Devices
7LF, 5TT3 Timers
5TT3 timers for industrial applications
■
Overview
Time relays are primarily used in series applications where the
use of PLC controls is too labor and cost-intensive. Multifunction
relays with a range of functionalities and clear and intuitive
operation are now market standard.
■
Technical specifications
■
Dimensional drawings
■
Circuit diagrams
Graphical symbols
5TT3185 5TT3181
5TT3182
5TT3183
5TT3184
Standards EN 60255; DIN VDE 0435-110
Supply
• Rated control supply voltage UcV AC 12 ... 240 220 ... 240 110 ... 240
V DC 12 ... 240 -- 110 ... 240
- Primary operating range × Uc0.8 ... 1.1
• Rated frequency fnHz 45 ... 400 50/60
• Rated power dissipation PvVA Approx. 1.5 Approx. 5 Approx. 1
Setting ranges See setting ranges, timing intervals
Recovery time ms 15 ... 80 Approx. 40 Approx. 100
Contacts
• Switching channels
- Rated operational voltage UeV AC 250
- Rated operational current IeA 4 8 5
• Contact gap mm contact
- Minimum contact load V; mA 10; 300
Rated impulse withstand voltage Uimp Input/output kV > 4
Electrical service life In switching cycles 1 A 1.5 × 105 -- 1.5 × 105
At AC-15 -- 1.5 × 105--
Connections
• Terminals ± screw (Pozidriv) 2
• Conductor cross-sections of main current
paths
- Rigid, max.
- Flexible, with end sleeve, min.
mm2
mm22 × 2.5
2 × 1.5
Environmental conditions
• Permissible ambient temperature °C -40 ... +60
• Climatic withstand capability Acc. to EN 60068-1 40/60/4
5TT3185 5TT3181 5TT3182
5TT3183
5TT3184
1
2A1B
6181
51
A
18
1
2A3Z
4Z
6181
51
5Z
A
18
1
2A
6181
5
1
A
18
I201_06551
90
45
64
43
5
5TT3185 5TT3181 5TT3182
5TT3183
5TT3184
B1A1
A2 15
16 18
MF
Z4A2
1816
15
Z3 Z5
A1
18 16
15
A1
A2
© Siemens AG 2016
58 Siemens · 10/2015
5TT3 timers for industrial applications
Switching Devices
7LF, 5TT3 Timers
■
More information
5TT3181 delay timer
Response delay
5TT3183 flashing timer
Flashing function
5TT3182 wiper timer
Wiper function
5TT3184 off-delay timer
OFF-delay
Adjustable time ranges tv
0.25 s ... 2.5 s
1 s ... 10 s
8 s ... 80 s
64 s ... 300 s
I201_07026
15-18
15-16
A1-A2
tV
tV
= Time delay
Possible joint time setting
range of ton = toff = t
1s...10s
I201_07024
tan
15-18
15-16
A1-A2
tab
tan
= Relay energized
tab
= Relay de-energized
Adjustable time ranges tw
1 s ... 10 s
tW
A1-A2
15-16
15-18
I201_07023
tW= Wiping time
Adjustable time range t
1s...10s
t1 = interruption
I201_07025
15-18
15-16
A1-A2
t
t1
t < t
1
t= Drop out delay
© Siemens AG 2016
59
Siemens · 10/2015
Switching Devices
7LF, 5TT3 Timers
5TT3 timers for industrial applications
5TT3185 multifunction timers
Setting aids
The period of the flashing of the green LED 1 when set for a
timing interval is 1 s 4 %, and can therefore be used as a
setting aid. This is particularly useful in the lower time setting
range and for long delay times because of the accuracy of the
multiplication factors between the individual time ranges.
Example:
Delay time to be set: 40 min.
Using the fine setting, this delay time can be set within the
setting range 3 ... 300 min. However, in this case it takes a long
time to check the time and requires several operational
sequences in realtime. To speed up the setting process, the
setting range is switched to 0.03 ... 3 min. In this case, the
required value corresponds to a delay time 0.4 min (= 24 s). The
timing interval is triggered and the potentiometer is set to
24 flashing periods of the yellow LED 2. The device is then set
back to the setting range 3 ... 300 min and the setting process is
completed.
Time operation interruption/time addition
For the functions AV, EW, IE, BI, the timing interval can be
interrupted at any time by activating B1 (+) and continued again
by removing the control voltage (time addition).
Control input B1
The functions RV, IF, AW, AV/RV can be controlled using the
control input B1 (+) with potential against terminal A2. The
auxiliary voltage of terminal A1 – or any other voltage within the
range 12 ... 240 V AC/DC – can be used for this purpose. The
operation of parallel loads (e.g. contactors) from B1 (+) to A2 is
also permissible.
If voltage is simultaneously applied to the control input B1 (+)
and A1 for the IF function, this triggers an output pulse with the
set time interval t1.
15-18
15-16
t
t
t
t
t
t
t
t
t
tt
t
t
t
t
t
t
t
15-18
15-16
15-18
15-16
15-18
15-16
15-18
15-16
A1-A2
B1-A2
15-18
15-16
15-18
15-16
15-18
15-16
t
0,5 s
1
2
3
4
5
6
7
8
A1-A2
B1-A2
c
St
A1 15
B1
16 18
A2
(+)
E1
Z
E2
S2
N
(1B1A2A
+)
L+
S1
N
1A2A
L+
ContactPosition
Function
switch
Response delay
Pulse generator, delayed
Passing make contact
function
Flashing relay,
starting with impulse
OFF-delay
Pulse shape
Passing break contact
function
Response delay
OFF-delay
Control S1
Control S2
AV
EW
IE
BI
RV
IF
AW
AV/RV
Possible time setting ranges t:
LED 1 green
LED 2 yellow
LED 1 green:
E1:
LED 2 yellow:
Z:
E2:
Status display
Time range adjuster
Switch position indicator
Fine adjuster for time ranges
Function setting Timing intervals
Contact S1
For the functions:
response delay,
passing make contact function,
pulse generator delayed,
clock generator – (start with pulse) –
the timing interval is triggered by
closing the switching contact S1.
Control S1
Control contact S2
The functions:
off-delay,
pulse shape,
passing break contact function,
response and off-delay are
triggered by continuous power
supply over the control contact S2
between A1 and B1 (+).
Control S2 User interfaces
LED 1 Status display
LED 2 Switching position indication
E1 Setting range adjuster
Z Fine adjuster for setting ranges
E2 Function settings for timing intervals
Device displays
LED 1 Lights up if operational voltage
is applied (green)
LED 2 indicates the timing interval and state
of the equalizing relay (yellow)
• Continuous light
- Off output relay not activated, no timing interval
- On output relay not activated, no timing interval
• Flashing light
- Short on, long off
Output relay not activated, timing interval
- Short on, long off
Output relay activated, timing interval
Front view
LED 1 green: Status display
LED 2 yellow: Switching
position
indication
E1: Setting range adjuster
Z: Fine adjuster for
setting ranges
E2: Function settings for
timing intervals
0.02
0.06
0.3
0.03
0.3
3
0.3
3
I201_18444
...
...
...
...
...
...
...
...
1
6
30
3
30
300
30
300
s
s
s
min
min
min
h
h
© Siemens AG 2016
The information provided in this brochure contains merely general
descriptions or characteristics of performance which in case of actual
use do not always apply as described or which may change as a result
of further development of the products. An obligation to provide the
respective characteristics shall only exist if expressly agreed in the
terms of contract. Availability and technical specifications are subject
to change without notice.
All product designations may be trademarks or product names of
Siemens AG or supplier companies whose use by third parties for their
own purposes could violate the rights of the owners.
Siemens AG
Energy Management
Low Voltage & Products
Postfach 10 09 53
93009 REGENSBURG
GERMANY
Subject to change without prior notice
PDF (3ZW1012-5TT57-0AC1)
PH 0216 58 En
Produced in Germany
© Siemens AG 2016
www.siemens.com/lowvoltage
© Siemens AG 2016
