3UG4513-1BR20 SIEMENS, 3UG4513-1BR20 Datasheet

SSR, DIN RAIL, 690VAC, 690VAC, 5A

3UG4513-1BR20

Manufacturer Part Number
3UG4513-1BR20
Description
SSR, DIN RAIL, 690VAC, 690VAC, 5A
Manufacturer
SIEMENS
Datasheet
1.3UG4513-1BR20.pdf (26 pages)

Specifications of 3UG4513-1BR20

Control Voltage Range
160V To 690V
Operating Voltage Range
200Vrms To 690Vrms
Load Current
5A
Control Voltage Type
AC
Relay Terminals
Screw
Length/height, External
82mm
External Width
22.5mm
Load Voltage Max
400V
Load Current Rms Max
5A
Rohs Compliant
Yes
External Depth
86mm
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Overview
Function
3UG45 11 monitoring relays
The 3UG45 11 phase sequenced relay monitors the phase
sequence in a three-phase network. No adjustments are
required for operation. The device has an internal power supply
and works using the closed-circuit principle. If the phase
sequence at the terminals L1-L2-L3 is correct, the output relay
picks up after the delay time has elapsed and the LED is lit. If the
phase sequence is wrong, the output relay remains in its rest
position.
Note:
When one phase fails, connected loads (motor windings, lamps,
transformers, coils, etc.) create a feedback voltage at the
terminal of the failed phase due to the network coupling.
Because the 3UG45 11 relays are not resistant to voltage
feedback, such a phase failure is not detected. Should this be
required, then the 3UG45 12 monitoring relay must be used.
Correct phase sequence
Wrong phase sequence
OFF
ON
L1-L2-L3
L3-L2-L1
11/14
11/12
21/24
21/22
11/14
11/12
21/24
21/22
3UG Monitoring Relays for Electrical and Additional Measurements
© Siemens AG 2007
Solid-state line monitoring relays provide maximum protection
for mobile machines and plants or for unstable networks.
Network and voltage faults can be detected early and rectified
before far greater damage ensues.
Depending on the version, the relays monitor phase sequence,
phase failure with and without N conductor monitoring, phase
unbalance, undervoltage or overvoltage. With the 3UG46 17
or 3UG46 18 relay, a wrong direction of rotation can also be
corrected automatically.
3UG45 12 monitoring relays
The 3UG45 12 line monitoring relay monitors three-phase net-
works with regard to phase sequence, phase failure and phase
unbalance of 10 %. Thanks to a special measuring method, a
phase failure is reliably detected in spite of the wide voltage
range from 160 to 690 V AC and feedback through the load of up
to 90 %. The device has an internal power supply and works using
the closed-circuit principle. No adjustments are required. When
the mains voltage is switched on, the green LED is lit. If the phase
sequence at the terminals L1-L2-L3 is correct, the output relay
picks up. If the phase sequence is wrong, the red LED flashes and
the output relay remains in its rest position. If a phase fails, the red
LED is permanently lit and the output relay drops.
Note:
The red LED is a fault diagnostic indicator and does not show the
current relay status. The 3UG45 12 monitoring relay is suitable
for line frequencies of 50/60 Hz.
Phase failure
Wrong phase sequence
11/14
11/12
21/24
21/22
LED rd
L1-L2-L3
L3-L2-L1
LED rd
OFF
11/14
11/12
21/24
21/22
Monitoring Relays
L2-L3
OFF
Phase loss
Phase sequence
ON
L1-L2-L3
FLASH
Siemens LV 1 T · 2007
OFF
OFF
Line monitoring
7/61

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3UG4513-1BR20 Summary of contents

Page 1

... The 3UG45 12 monitoring relay is suitable for line frequencies of 50/60 Hz. Phase failure L1-L2-L3 L2-L3 L1-L2-L3 11/14 11/12 21/24 21/22 LED rd OFF ON Phase loss Wrong phase sequence L3-L2-L1 11/14 11/12 21/24 21/22 LED rd OFF FLASH Phase sequence Siemens · 2007 Line monitoring OFF OFF 7/61 ...

Page 2

... OFF FLASH OFF Phase sequence 7/62 Siemens · 2007 © Siemens AG 2007 3UG46 14 monitoring relays The 3UG46 14 line monitoring relay has a wide voltage range and an internal power supply. The device is equipped with a dis- play and is parameterized using three buttons. It monitors three- phase networks with regard to phase unbalance from phase failure, undervoltage and phase sequence ...

Page 3

... Hysteresis Overvoltage x-y 11/14 11/12 21/24 21/22 Unbalance Hysteresis 0 % 11/14 11/12 21/24 21/22 Monitoring Relays Line monitoring L1-L2-L3 L2-L3 L1-L2-L3 L1-L2-L3-N L1-L2-L3 L1-L2-L3-N 11/14 11/ 21/24 21/22 Hysteresis < Delay > Hysteresis 50 ms Delay Hysteresis > Asy Delay 7/63 Siemens · 2007 ...

Page 4

... Hysteresis for unbalance Deviation for frequency fluctuation 1) Note: This is a Class A product. In the household environment this device may cause radio interference. In this case the user must introduce suitable measures. 7/64 Siemens · 2007 © Siemens AG 2007 3UG45 11- 3UG45 11- 3UG45 11- 3UG45 12 ..N20 ...

Page 5

... Screw terminal 83 92 © Siemens AG 2007 3UG45 11- 3UG45 11- 3UG45 11- ..N20 ..P20 ..Q20 0 Million 0.1 oper. cycles Million 10 oper. cycles 86 NSB0_01606 3UG46 16 3UG46 18 C 103 102 Monitoring Relays Line monitoring 3UG45 12 3UG45 13 3UG46 14 3UG46 15 3UG46 16 3UG46 17 3UG46 18 7/65 Siemens · 2007 ...

Page 6

... Schematics 3UG45 11-.A 3UG45 11-.B 3UG45 12-.A 3UG45 12-.B 3UG45 13 3UG46 14 3UG46 15 3UG46 17 Position of the connection terminals 3UG45 11-.A 3UG45 11-.B 3UG45 12-.A 3UG45 12-.B 3UG45 13 3UG46 14 3UG46 15 3UG46 17 7/66 Siemens · 2007 © Siemens AG 2007 3UG46 16 3UG46 18 3UG46 16 3UG46 18 ...

Page 7

... The products differ with regard to their power supply (internal or external). Undervoltage A1- 11/14 11/12 Window monitoring > Hysteresis = 0 11/14 11/12 onDelay Delay Monitoring Relays Voltage monitoring < Hysteresis onDelay Delay A1-A2 = > < Hysteresis Hysteresis Delay Delay Delay = Delay Siemens · 2007 7/67 ...

Page 8

... The device can be operated on the basis of either the open-circuit or closed-circuit principle and with manual or auto RESET. One output changeover contact is available as signaling contact. With the closed-circuit principle selected Overvoltage A1-A2 > 11/14 11/12 Delay 7/68 Siemens · 2007 © Siemens AG 2007 Undervoltage A1- 11/14 11/12 Window monitoring A1-A2 Hysteresis 11/14 11/12 < ...

Page 9

... V 0.1 ... 30 0.1 ... 300 0 Million 0.1 oper. cycles Million 10 oper. cycles Siemens · 2007 Voltage monitoring 3UG46 32- 3UG46 33 .AW 24 ... 240 17 ... 275 AC/DC AC/DC 40 ... 500 20.4 ... 264 17...275 0.1 ... 20 17 … 275 17 ... 275 40 ... 500 0.1 ... 150 7/69 ...

Page 10

... AC/DC U AC/DC Load Load A1(+) IN(+) A1(+) IN(+) 11 < U > < U > A2(–) M(–) A2(–) M(–) NSB0_01614a NSB0_01532b Position of the connection terminals 3UG46 31 3UG46 33 3UG46 32 7/70 Siemens · 2007 © Siemens AG 2007 NSB0_01699 3UG46 31 3UG46 32 3UG46 3UG46 33 AC/DC 11 A1(+) 11 < U > A2(–) NSB0_01533b ...

Page 11

... They differ with regard to their measuring ranges and voltage types. Current undershoot A1- 11/14 11/12 Window monitoring A1-A2 Hysteresis = 0 11/14 11/12 onDelay Delay Monitoring Relays Current monitoring < Hysteresis onDelay Delay > < Hysteresis Hysteresis Delay Delay Delay = Delay 7/71 Siemens · 2007 ...

Page 12

... Electrical endurance AC15 Endurance with contactor relay 1) Note: This is a Class A product. In the household environment this device may cause radio interference. In this case the user must introduce suitable measures. 7/72 Siemens · 2007 © Siemens AG 2007 3UG46 21-.AA 3UG46 21-. … 240 ...

Page 13

... A2! The load current must always flow through M or the monitoring relay may be destroyed! Monitoring Relays Current monitoring 3UG46 21 3UG46 o. AC/DC U Load Load < > Load Load o. AC/ Load 3UG3 IN < > Load Siemens · 2007 7/73 ...

Page 14

... UP▲ and DOWN▼ key simultaneously for 2 seconds switching the supply voltage off and back on again. 7/74 Siemens · 2007 © Siemens AG 2007 The 3UG46 41 power factor and active current monitoring device enables the load monitoring of motors. ...

Page 15

... Window monitoring of power factor cos Hysteresis Hysteresis cos p.f. 11/14 11/12 21/24 21/22 onDelay Legend p.f.: power factor cos j: power factor Monitoring Relays < cos Hysteresis 0,10 cos = 0 onDelay Delay > cos < cos Hysteresis 0,10 cos = 0 Delay Delay 7/75 Siemens · 2007 ...

Page 16

... Deviations for temperature fluctuations Hysteresis Phase angle Hysteresis Active current monitoring 1) Note: This is a Class A product. In the household environment this device may cause radio interference. In this case the user must introduce suitable measures. 7/76 Siemens · 2007 © Siemens AG 2007 3UG46 … 690 Hz 50/ ...

Page 17

... A Removable terminals Spring-loaded terminals 84 Screw terminal 83 1) For standard mounting rail according to EN 60715. © Siemens AG 2007 Power factor and active current monitoring 3UG46 0 Million 0.1 oper. cycles Million 10 oper. cycles NSB0_01699 Monitoring Relays 7/77 Siemens · 2007 ...

Page 18

... L 3UG46 41 12 cos / cos r 24 Ly/N NSB0_01654b N/L Position of the connection terminals 3UG46 7/78 Siemens · 2007 © Siemens AG 2007 3-phase motors 1,2 3UG46 41 12 cos cos 21 24 Ly/N NSB0_01655b 3-phase motors with transformers for currents > 1,2 3UG46 41 ...

Page 19

... R value value 11/14 5 11/12 = Supply voltage 1 A1-B2/A1-A2 for AC 115V/230V A1-A2 for AC/DC 24 … 240V 2 = Remote connection-Save-Reset = Button on the front Test/Reset Insulation resistance R of the network 5 = Normally open contact t = > approx. 300 ms Test Siemens · 2007 Insulation monitoring NSB0_01393a t Test 7/79 ...

Page 20

... Dimensional drawings ■ Schematics Connection diagram for networks up to 400 230/400 230 V N 115 A1-B2/A1-A2 for AC 115 V/230 V ) Only 3UG3081-1AK20. A1-A2 for AC/DC 24...240 V 7/80 Siemens · 2007 © Siemens AG 2007 3UG30 81 -15 %... + ... 60 k 1...110 k 100 k 100 415 AC Y1-Y2 ...

Page 21

... Button on front – Test L – Test remote connection – Test L = Test remote connection – Test Test remote connection – Store, reset 5 = Insulation resistance R of supply 6 set response value R = Switch on front 7 Open-circuit/closed-circuit principle = NO contact 8 Siemens · 2007 Insulation monitoring NSB0_01395a t > Test x 7/81 ...

Page 22

... Circuit diagram Connection diagram for 24...240 V DC 24...240 24...240 V AC/ Test L+ Y1 Reset Y2 Test 7/82 Siemens · 2007 © Siemens AG 2007 3UG30 82 -15 %... + ... ... 110 ... 240 V DC 300 Y1/Y3, Y4/ changeover contact, open-circuit or closed-circuit principle V 400 III 3 4000 IP50 enclosure, IP20 terminals 10 Hz/mm 10-55/0 ...

Page 23

... The monitoring relay can therefore also be used for other applications apart from monitoring the levels of liquids. A1/ Maximum level ) Minimum level ) 3 Monitored level Output relay 4 Function OVER 5 Output relay Function UNDER 1 ) Determined by the arrangement of the probes in the monitored liquid. Siemens · 2007 Level monitoring NSB0_00961 T3 3 7/83 ...

Page 24

... Length Insulation Teflon insulation (PTFE) Installation Screw-in gland width A/F Thread Connection cable Operating temperature Operating pressure Assignment • Cable/Electrode Cable brown Cable white Cable green 7/84 Siemens · 2007 © Siemens AG 2007 3UG30/3UG35 A Max 0 /17 V for a fault of 1 ppm ...

Page 25

... Schematics 3UG35 01 R © Siemens AG 2007 Monitoring Relays 3UG32 07-1B single-pole bow electrode 3UG32 07-1C single-pole electrode, rugged version Siemens · 2007 Level monitoring 7/85 ...

Page 26

... Actual value 3 Output relay 4 7/86 Siemens · 2007 © Siemens AG 2007 The 3UG30 51 monitoring relay is used together with a sensor to monitor operating mechanisms for underspeeding. Speed monitoring with memory (MEMORY) When the output relay drops, this state remains stored even when the speed reaches a permissible value again. The stored state can be ended by a control signal at the reset terminal or by interrupting the supply voltage for at least 200 ms ...

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