2CDS271001R0984

Thermal Magnetic Circuit Breaker, C Curve, S200M, 500 mA, 1 Pole, 230 VAC, DIN Rail

⚠️ Reference pricing provided. In case of supply shortages, we will connect you with our trusted procurement partners to ensure your project's continuity.
Manufacturer: ABB
Product type: Thermal Magnetic Circuit Breakers
Product Range:S200M Series; Current Rating:500mA; No. of Poles:1 Pole; Voltage Rating V DC:-; Voltage Rating VAC:230VAC; Circuit Breaker Mounting:DIN Rail; Approval Bodies:CSA, EN, IEC,
No. of Poles: 1 Pole
Product Range: S200M
Current Rating: 500mA
Voltage Rating VAC: 230VAC
Voltage Rating VDC: -
Circuit Breaker Mounting: DIN Rail
Delivery and price
Units per pack	20
Price	25.61 €
Current stock	10+
Lead time	9 days
Datasheet
**System pro** _**M**_ **compact** 

Technical data 

**System Navigate Document pro** _**M**_ **compact[®]** 

Miniature circuit-breakers S 200/S 200 M Residual-current-operated circuit-breakers F 200 Cross wiring/accessories 

1 

Miniature circuit-breaker S 201 

**System pro** _**M**_ **compact[®]** 

## **Standard Terms for Delivery and Sale** 

For domestic business, the Standard Terms for Delivery of Products and Services of the Electrical Industry (ABB Form 2292) shall apply in connection with the Standard Sales Terms (ABB Form 2327) in their then applicable version. For foreign business, the Standard Terms for Delivery of Products and Services of the Electrical Industry (ABB Form 2293 GermanEnglish, or ABB Form 2294 German- French) shall apply in connection with the Standard Sales Terms (ABB-Form 2381 English) in their then applicable version. 

## **Warranty** 

We assume warranty in accordance with the standard sales and delivery terms. Complaints shall be made in writing within eight days following receipt of the goods. 

**Technical information and illustrations are not binding and subject to change without notice.** 

2 

Miniature circuit-breakers Residual-current-operated circuit breaker Busbars 

**System pro** _**M**_ **compact[®]** 

|**Contents**<br>page|**Contents**<br>page|
|---|---|
|**The technology of S 200**||
|Notes for use, special features ............................................................................|4|
|The offer at a glance.............................................................................................|6|
|Overview of technical data ...................................................................................|7|
|Internal resistance and power loss ......................................................................|8|
|Max. permissible impedances of fault loops .......................................................|8|
|Tripping charakteristics ........................................................................................|9|
|Short circuit capacity ...........................................................................................|9|
|Short circuit selectivity .......................................................................................|10|
|Tripping diagrams ................................................................................................|11|
|Let-through value diagrams .................................................................................|13|
|Current-carrying capacity, thermal influence ......................................................|14|
|Applications S 200 ...............................................................................................|15|
|Installation and operation instructions S 200 ......................................................|16|
|Supplementary devices ........................................................................................|17|
|Dimensions ...........................................................................................................|25|
|Dimension drawings accessories ........................................................................|26|
|**The technology of F 200**||
|Supplementary devices ........................................................................................|17|
|Description, Application examples ......................................................................|20|
|Technical data ......................................................................................................|21|
|Installation and operation instructions F 200 ......................................................|22|
|Use in different types of circuit ............................................................................|23|
|Dimension drawings .............................................................................................|26|
|Dimension drawings accessories ........................................................................|27|
|**The technology of busbars**||
|Description ...........................................................................................................|24|
|Technical data ......................................................................................................|24|
|Dimensions ...........................................................................................................|27|
|**The program**||



Prior to connection of aluminium conductors (� 4 mm[2] ) ensure that their contact points are cleaned, brushed and coated with grease. 

Selection table S 200-B ....................................................................................... 29 Selection table S 200-C ....................................................................................... 31 Selection table S 200-D ....................................................................................... 33 Selection table S 200-K ....................................................................................... 35 Selection table S 200-Z ....................................................................................... 37 Selection table S 200-K H .................................................................................... 39 Selection table S 200 M-B ................................................................................... 41 Selection table S 200 M-C ................................................................................... 43 Supplementary devices .......................................................................................... 44 Selection table F 200 ........................................................................................... 45 Selection table busbars, rail connectors ............................................................. 47 Selection table accessories ................................................................................. 49 

3 

Outstanding features Applications 

**System pro** _**M**_ **compact[®]** 

All round protection against contact with live parts in acordance with DIN VDE 106 part 100. 

Due to new design: Upper and lower shoulders reduced. 

More working space between component rows. 

**==> picture [69 x 559] intentionally omitted <==**

**----- Start of picture text -----**<br>
cet<br>ler<br>cal<br>B<br>~P A<br>A<br>Ltt<br>SK 0052 B 99<br>SK 0051 B 99<br>SK 0049 B 99<br>SK 0048 B 99<br>SK 0053 B 99<br>**----- End of picture text -----**<br>


Outgoing and incoming connection points easily accessible. 

New, failsafe, bi-directional cylinder lift terminal, ensuring a faster, totally error-free connection. 

As you tighten the screw, the terminal draws together to simultaneously close the front and rear wiring inputs. 

This creates a strong, contactassured connection between the wires and the device, in a single operation. 

Busbar is installed at the back terminals (A). Connection of conductors on the front terminals (B). 

Result: a clear view on all connection points. Never fumble for the right connection point again. Substantially improved cross-wiring safety. Tangible time-savings. 

Connection possible for single, multi and finely stranded conductors of 0.75 to 25 mm[2] . 

It is also possible to connect conductors with different cross section at the same time. 

New cross wiring busbars. 

Standard length sizes or meter length cutable. 

4 

Outstanding features Applications 

**System pro** _**M**_ **compact[®]** 

|||e|New quick-fastening technique for easy disconnection of the device|
|---|---|---|---|
||||from the assembly.|
||||No time-consuming extra work:|
||||Cross-wiring remains with the assembly.|
||||To remove the device, just loosen the screw, lift the device and pull it|
||||out.|
||||If neccessary, all devices of the series connected to the new|
||SK 0050 B 99||pro M compact cross-wiring rails may be exchanged easily and quickly,<br>e.g. to implement the adaptation to the VDE standard<br>0100 part 410.|
||||Easy to add on MCB for extensions.|
|7|SK 010 B 01|||New, integrated auxiliary contact, factory fitted, reduces space by 50 %.<br>Cross wiring to customary compact busbar possible.|
|a|ee|e|Self-adhesive identification labels are provided for all devices, ensuring|
|e||||clear and accurate identification.<br>Every detail of System pro M compact has now been optimised to meet the|
||||user’s requirements.|
||||Fuirthermore, System pro M compact offers you many different ways to|
||||label the switchgear cabinet and built-in consumer unit in a professional|
||SK 0047 B 99||manner.<br>Individual, effecient labeling of devices.|
|Pad lock prevents unauthorized switching to ON or OFF.<br>-<br>=°||||
|e|e|e||
|||e|Complete range of tripping characteristics in B, C, D, K, Z.|
||||High rated switching capacity of 6 000 A (S 200) or 10 000 A (S 200 M).|
||SK 0045 B 99||Current limitation is below the values prescribed by the VDE, therefore<br>higher selectivity rating than energy limitation class 3.|
|||e|Disconnector abilities according to DIN VDE 0660 part 107, surge with-|
||||stand capability 6 kV (1.2/50).|



5 

## Miniature circuit-breakers **System pro** _**M**_ **compact[®]** The offer at a glance 

## **Trip charcteristics** 

## **Description** 

## **Oscillogram of rupturing process** 

The MCBs of the S 200/S 200 M series have a current-limiting effect. They have two different trip releases acting on the contact mechanism 

1. the delayed thermal release providing overload protection 

2. the electromagnetic instantaneous release with “hammer trip” solenoid providing fault current protection. 

**B** 

**C** 

They offer: high short-circuit capacity e high selectivity for back-up fuse e In case of short-circuit, low stresson the cable in the point of fault due to the high limitation of the let-through ƒi[2] dt (current heating value). 

**==> picture [6 x 39] intentionally omitted <==**

**----- Start of picture text -----**<br>
SK 0130 Z 98<br>**----- End of picture text -----**<br>


- IK · Vv 2 = peak value of prospective short circuit current 

## **Task** 

- iD = max. let-through current of device S 200/S 200 M Un = system voltage UB = arc voltage of MCB tK = breaking time of MCB 

To protect against excessive temperature rises of electric items in the case of overcurrents caused by overload, short circuit of earth-fault current if assigned according to DIN VDE 0100 Part 430. Protection against electric shock in the case of excessive touch voltage caused by insulation fault if assigned according to DIN VDE 0100 Part 410. 

## **Trip charcteristics and rated current** 

Independent of the type of characteristic, national codes of practice provide what highest rated current and/or performance characteristic can be assigned to the conductor cross section to be protected (e.g. DIN VDE 0100 Part 430). 

The following assignment rules apply: Ib < In < Iz; I2 < 1,45 · Iz 

- Ib = operating current of the circuit to be expected 

- In = rated current of the MCB of characteristics type B, C, D, K and Z 

Iz 

   - = permissible current loading of lines 

- I2 = conventional tripping current 

## **B-, C- and D-type trip characteristics for line protection** 

**K** 

Tripping behaviour according to DIN VDE 0641 Part 11. 

Rated current 6 ... 63 A, (C 0,5 ... 63 A). The introduction of these trip characteristics enables direct assignments of MCBs to the permissible load of lines I z according to DIN VDE 0298 Part 4/11.98, as the second condition is already fulfilled (I2 = 1.45 · In). 

## **K-type trip characteristics** 

Tripping behaviour according to DIN VDE 0660 Part 101 and IEC 947-2, rated current 0.5 ... 63 A, for circuits where current-consuming appartus cause functional current peaks and for the overcurrent protection of lines. 

## **Z-type trip characteristics** 

Tripping behaviour according to DIN VDE 0660 Part 101 and IEC 947-2 

**==> picture [7 x 7] intentionally omitted <==**

**----- Start of picture text -----**<br>
Z<br>**----- End of picture text -----**<br>


Rated current 0.5 ... 63 A in 17 grades. For the protection of semiconductors and measuring circuits with transformers. 

6 

## Miniature circuit-breakers **System pro** _**M**_ **compact[®]** S 200/S 200 M series 

## **Technical data** 

Specifications: DIN VDE 0641 Part 11, IEC 60898, EN 60898, IEC 60947-2, UL 1077 No. of poles: 1, 2, 3, 4, 1 + NA, 3 + NA tripping charcteristics: B, C, D, K, Z rated current In: B 6 ... 63 A , C, D, K and Z 0,5 ... 63 A rated voltage Un: 1-pole 230 V � multipole 400 V � max. operating voltage UBmax: AC Un + 10 % DC 1-pole 60 V ... 2-pole 125 V ... min. operating voltage UBmin : 12 V~, 12 V- energy limitation class: S 3 short circuit rupturing capacity: see page 9 frequency: 50 ...60 Hz insulation coordination: according to DIN VDE 0110 Part 1 and 2 - overvoltage category: III - pollution degree: 2 - surge voltage: 5 kV (1.2/50 µs) - impulse alternating voltage: 3 kV (50/60 Hz) housing: Insulating material rating I (CTI � 600) according to DIN IEC 112/VDE 0303 Part 1, RAL 7035 operating lever: Insulating material rating II (400 � CTI � 600) black, sealable degree of protection acc. to DIN VDE 0100: IP 20, in the consumer unit IP 40 dimensions: according to DIN 43880, size code 1 depth of device: 68 mm overall dimensions: see page 25 mounting position: optional fixing: snap-on to DIN rails EN 60 715, 35 mm or screw fixing by means of mounting plate (see accessories) connection: failsave bi-directional cylinder-lift terminal at top and bottom, shock-protected according to DIN VDE 0106 Part 100. Suitable for connection of single, multi or finely stranded conductors up to 25 mm[2] (if also connected to rails) tightening torque: 2.8 Nm mechanical service life: 20,000 operations service life at rated load In � 32 A: 20,000 operations In � 32 A: 10,000 operations climatic resistance acc. to DIN IEC 68 Part 2-30: constant climate 23/83, 40/93, 55/20 [°C/RH] alternating climate 25/95 - 40/93 [°C/RH] storage temperature: T max +70 °C/158 °F, Tmin -40 °C/-13 °F ambient temperature: T max +55 °C/158 °F, Tmin -25 °C/-13 °F shock resistance: 30 g, at least 2 impacts shock duration 13 ms resistance to vibration acc. to DIN IEC 68-2-6: 5 g, 20 frequency cycles 5 ... 150 ... 5 Hz at 0.8 In weight: see selection tables 

## **Technical data of the integrated auxiliary contact** 

contact: 1NO  (1 make contact) 1NC  (1 normally closed contact) contact load: AC 14  230 V 2 A DC 12  identical DC 13 DC 13  50 V 1 A min. operating voltage: 12 VAC/DC at 0.1 VA short-circuit withstand capacity: 230 V� 1,000 A electrical service life: � 4,000 operations safe disconnection of auxiliary circuit and main circuit according to VDE 0106 Part 101 connection capacity: 0.75 to 2.5 mm[2 ] (finely-stranded conductors to be fitted with a connector sleeve) 

7 

Miniature circuit-breakers **System pro** _**M**_ **compact[®]** S 200/S 200 M series 

## **Internal resistance and power loss of the miniature circuit-breakers** 

Internal resistance per pole in m�, power loss per pole in W 

|type|rated<br>current<br>InA|**device series**<br>**B, C, D➀**<br>**K**<br>**Z**<br>m�<br>W<br>m�<br>W<br>m�<br>W|**device series**<br>**B, C, D➀**<br>**K**<br>**Z**<br>m�<br>W<br>m�<br>W<br>m�<br>W|**device series**<br>**B, C, D➀**<br>**K**<br>**Z**<br>m�<br>W<br>m�<br>W<br>m�<br>W|**device series**<br>**B, C, D➀**<br>**K**<br>**Z**<br>m�<br>W<br>m�<br>W<br>m�<br>W|**device series**<br>**B, C, D➀**<br>**K**<br>**Z**<br>m�<br>W<br>m�<br>W<br>m�<br>W|**device series**<br>**B, C, D➀**<br>**K**<br>**Z**<br>m�<br>W<br>m�<br>W<br>m�<br>W|
|---|---|---|---|---|---|---|---|
|**S 200 and**<br>**S 200 M**|0.5<br>1<br>1.6|5500<br>1440<br>630|1.4<br>1.4<br>1.6|6340<br>1550<br>695|1.6<br>1.6<br>1.8|10100<br>2270<br>1100|2.5<br>2.3<br>2.8<br>2.5<br>1.8<br>2.4|
||2<br>3<br>4|460<br>150<br>110|1.8<br>1.3<br>1.8|460<br>165<br>120|1.9<br>1.5<br>2.0|619<br>202<br>149||
||6<br>8<br>10|55<br>15<br>13.3|2.0<br>1.0<br>1.3|52<br>38<br>12.6|1.9<br>2.5<br>1.26|104<br>53.9<br>17.5|3.7<br>3.45<br>1.7|
||13<br>16<br>20|13.3<br>7.0<br>6.25|2.3<br>1.8<br>2.5|12.6<br>7.7<br>6.7|1. 26<br>2.0<br>2.7|–<br>10.9<br>6.0|–<br>2.8<br>2.4|
||25<br>32<br>40|5.0<br>3.6<br>3.0|3.2<br>3.7<br>4.8|4.6<br>3.5<br>2.8|2.9<br>3.6<br>4.5|4.1<br>2.8<br>2.5|2.6<br>2.9<br>4.1|
||50<br>63|1.3<br>1.2|3.25<br>4.8|1.25<br>0.7|2.9<br>5.2|1.8<br>1.3|4.4<br>5.2|



**➀** Current intensities 0.5 – 4 apply exclusively to C-type trip characteristics. 

## **Maximum permissible fault loop impedance ZS at U0 = 230 V �**[�] **to ensure compliance with the rupturing conditions prescribed in DIN VDE 0100 Part 410.** 

## **The internal resistance of MCB is included.** 

## **Note: Attention should be paid to the maximum voltage drop** 

## **S 200 and S 200 M** 

|Bemessungs-<br>strom InA|**B**<br>max. ZS<br>�|**C**<br>max. ZS<br>�|**D**<br>max. ZS<br>�|**K**<br>max. ZS<br>�|**Z**<br>max. ZS<br>�|
|---|---|---|---|---|---|
|0,5<br>1<br>1.6||46.0<br>23.0<br>14.4|33.0<br>16.5<br>10.3|38.3<br>19.2<br>12.0|153.3<br>76.7<br>47.9|
|2<br>3<br>4||11.5<br>7.7<br>5.8|8.2<br>5.5<br>4.1|9.6<br>6.4<br>4.8|38.3<br>25.6<br>19.2|
|6<br>8<br>10|7.7<br>–<br>4.6|3.8<br>2.8<br>2.3|2.7<br>2.1<br>1.6|3.2<br>2.4<br>1.9|12.8<br>9.5<br>7.7|
|13<br>16<br>20|3.5<br>2.9<br>2.3|1.7<br>1.4<br>1.2|1.2<br>1.0<br>0.8|–<br>1.2<br>1.0|–<br>4.8<br>3.8|
|25<br>32<br>40|1.8<br>1.4<br>1.2|0.9<br>0.7<br>0.6|0.7<br>0.5<br>0.4|0.8<br>0.6<br>0.5|3.1<br>2.4<br>1.9|
|50<br>63|0.9<br>0.7|0.5<br>0.4|0.3<br>0.3|0.4<br>0.3|1.5<br>1.2|



> � U0 = rated voltage against earthed conductor; for U0 = 240 V� : ZS · 1.04; for U0 = 127 V�� ZS · 0.55 The max. permissible lenght of cable at different voltage and cross sections on request. 

8 

## Miniature circuit-breakers **System pro** _**M**_ **compact[®]** S 200/S 200 M series 

## **Tripping characteristics** 

||||**thermal release**�|**thermal release**�|||**electromagnetic release**�|**electromagnetic release**�||
|---|---|---|---|---|---|---|---|---|---|
|acc. to|tripping characteristic||current:|||tripping time|currents:||tripping time|
||and rated current||conventional|conventional|||hold|trip||
||||non-triping c.|tripping c.|||current surges|at least at||
|DIN VDE|B|6 to 63 A|1.13 · In|||> 1 h|3 · In||> 0.1 s|
|0641/T 11||||1.45 · In||< 1 h||5 · In|< 0.1 s|
||C|0.5 to 63 A|1.13 · In|||> 1 h|5 · In||> 0.1 s|
|||||1.45 · In||< 1 h||10 · In|< 0.1 s|
||D|0.5 to 63 A|1.13 · In|||> 1 h|10 · In||> 0.1 s|
|||||1.45 · In||< 1 h||20 · In|< 0.1 s|
|DIN VDE 0660/9.82|K|0.5 to 63 A|1.05 · In|||> 1 h||||
|||||1.2 · In||< 1 h|not applicable|||
|DIN VDE 0660|||1.05 · In|||> 2 h|8 · In||> 0.2 s|
|8/69||||1.2 · In||< 2 h�||12 · In|< 0.2 s|
|Part 1�||||1.5 · In||< 2 min.�||||
|||||6.0 · In||> 2 s (T1)||||
|DIN VDE 0660/9.82|Z|0.5 to 63 A|1.05 · In|||> 1 h||||
|||||1.2 · In||< 1 h|not applicable|||
|DIN VDE 0660|||1.05 · In|||> 2 h|2 · In||> 0.2 s|
|8/69||||1.2 · In||< 2 h�||3 · In|< 0.2 s|
|Part 1�||||1.5 · In||< 2 min.�||||
|||||6.0 · In||> 2 s(T1)||||
|�<br>The indicated tripping values of electromagnetic tripping devices apply to a frequency|||||�|The thermal releases are calibrated to a nominal reference ambient|||temperature; for Z|
|range of 16 2/3 ... 60|Hz. In the case of diverging frequencies or direct current, the values|||||and K, the value|is 20 °C, for B and C|= 30 °C. In the case of higher ambient||
|change by the factor indicated below||||||temperatures, the|current values fall by ca. 6% for each 10 K temperature rise.|||



|�|The indicated tripping values of electromagnetic|tripping devices apply to a frequency|tripping devices apply to a frequency|�|The thermal releases are calibrated to a nominal reference ambient temperature; for Z|
|---|---|---|---|---|---|
||range of 16 2/3 ... 60 Hz. In the case of diverging frequencies or direct current, the values||||and K, the value is 20 °C, for B and C = 30 °C. In the case of higher ambient|
||change by the factor indicated below||||temperatures, the current values fall by ca. 6% for each 10 K temperature rise.|
||alternating current||direct current|�|as from operating temperature (after I1 > 1 h or, as applicable, 2 h).|
||100 Hz<br>200 Hz|400 Hz||||
|factor ca.<br>1.1<br>1.2||1.5|1.5|�|The standard DIN VDE 0660/9.69 has expired in 1986, but is still referred to due to its|
|The|thermal release oerates indeendentl of volta|est|||complete statement of the tripping characteristics.|



The thermal release operates independently of voltagest. 

**operating sequence: B and C according to DIN VDE 0641, DIN VDE 0660 Part 101 ICS K and Z according to IEC 947** 

## **Short circuit rupturing capacity and back-up** 

|**series**|||**alternating current**|**alternating current**||||**direct current**|**Max. back-up**|**Max. back-up**|
|---|---|---|---|---|---|---|---|---|---|---|
|**trip characteristic**||1phase||2/3phase|||1pole�||||
|**rated current**||133 V�|230 V�|230 V�||400 V�|60 V ...|||main|
|||||||133/230 V�|230/400 V�||fuse|circuit-br.|
|||A|kA/cosϕ|kA/cosϕ||kA/cosϕ|kA/cosϕ|kA/T�ms|gL�|S 700|
|S 200-B||6|||||||63 A|100 A|
|S 200 M-B||10 ... 20<br>25 ... 32|10/0.5||6/0.7|10/0.5|6/0.7|10/4.0|100 A<br>100 A|100 A<br>100 A|
|||40||10/0.5<br>(S 200 M-B)|||10/0.5<br>(S 200 M-B)||125 A|100 A|
|||50 ... 63|||||||160 A|100 A|
|S 200-C||0.5 ... 2||||unlimited|||not required||
|S 200 M-C||3 ... 4|||||||20 A|–|
|S 200-D||6|||||||40 A|100 A|
|||8|||||||63 A|100 A|
|||10 ... 20|10/0.5||6/0.7|10/0.5|6/0.7|10/4.0|100 A|100 A|
|||25 ... 32||10/0.5<br>( S 200 M-C)|||10/0.5<br>(S 200 M-C)||100 A|100 A|
|||40|||||||125 A|100 A|
|||50 ... 63|||||||160 A|100 A|
|S 200-K||0.5 ... 2||||unlimited|||not required||
|||3|||||||20 A|–|
|||4|||||||25 A|–|
|||6 ... 10|||||||63 A|100 A|
|||16 ... 20|10/0.5|6/0.7||10/0.5|6/0.7|10/4.0|80 A|100 A|
|||25 ... 32|||||||100 A|100 A|
|||40|||||||125 A|100 A|
|||50 ... 63|||||||160 A|100 A|
|S 200-Z||0.5 ... 2||||unlimited|||not required||
|||3 ... 4|||||||20 A|–|
|||6|||||||35 A|100 A|
|||8|||||||40 A|100 A|
|||10 ... 16|10/0.5|6/0.7||10/0.5|6/0.7|10/4.0|63 A|100 A|
|||20 ... 25|||||||80 A|100 A|
|||32 ... 40|||||||100 A|100 A|
|||50 ... 63|||||||125 A|100 A|



� In symmetrically earthed direct current circuits, 2-pole devices (two poles connected in series) can be used up to 110 VDC. Any connection is possible, polarity does not need to be taken into account. 

- Back-up protection is necessary only if the solid short-circuit current to be expected at the place of installation may exceed the switching capacity indicated. 

9 

## Miniature circuit-breakers **System pro** _**M**_ **compact[®]** S 200/S 200 M series 

**Short circuit selectivity:** In the case of a short circuit, selectivity exists up to the values indicated. 

|**Short circuit selectivity:**In the case of a short circuit, selectivity exists up to the values indicated.|In the case of a short circuit, selectivity exists up to the values indicated.|In the case of a short circuit, selectivity exists up to the values indicated.|In the case of a short circuit, selectivity exists up to the values indicated.|In the case of a short circuit, selectivity exists up to the values indicated.|In the case of a short circuit, selectivity exists up to the values indicated.|In the case of a short circuit, selectivity exists up to the values indicated.|In the case of a short circuit, selectivity exists up to the values indicated.|In the case of a short circuit, selectivity exists up to the values indicated.|In the case of a short circuit, selectivity exists up to the values indicated.|In the case of a short circuit, selectivity exists up to the values indicated.|In the case of a short circuit, selectivity exists up to the values indicated.|In the case of a short circuit, selectivity exists up to the values indicated.|In the case of a short circuit, selectivity exists up to the values indicated.|In the case of a short circuit, selectivity exists up to the values indicated.|In the case of a short circuit, selectivity exists up to the values indicated.|In the case of a short circuit, selectivity exists up to the values indicated.|In the case of a short circuit, selectivity exists up to the values indicated.|In the case of a short circuit, selectivity exists up to the values indicated.|In the case of a short circuit, selectivity exists up to the values indicated.|
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
|In<br>A<br>**series**<br>**MCBs**<br>s|>|SK 0112 Z 99<br>SK 0113 Z 99<br>**16**<br>**20**<br>**25**<br>**35**<br>**40**<br>**50**<br>**63**<br>**80**<br>**100**<br>**16**<br>**20**<br>**25**<br>**35**<br>**50**<br>**63**<br>**80**<br>**100**<br>**125**<br>**160**<br>**short circuit discrimination in kA**<br>**to main circuit breaker S 700**<br>**to fuse gL/gG**<br>(DIN VDE 0636; IEC 269/3)<br>cp.<br>S$ 700<br>S 200<br>S 200<br>[>[>[>|}|<br>|<br>&&|<br>|<br>|<br>beEbEb<br>EbGb<br>||||||||||||||||||||
|2<br>3<br>4<br>6<br>8<br>10<br>13<br>16<br>20<br>25<br>32<br>40<br>50/63<br>**S 200-B, C, D**<br>Current values smaller<br>than 6 A and 8 A,<br>apply only to C and D<br>characteristics.<br>s|><br>|<br>|<br>|<br>pot<br>po<br>|<br>po<br>e[>|15<br>[><br>|of|15<br>[>[><br>of<br>||15<br>[>[><br>||15<br>[><br>f|15<br>|}|<br>||15<br>|<br>|<br>||15<br>tf|15<br>&<br>tf<br>f|15<br>&|<br>tf|1<br>|<br>|<br>tf<br>f|1.2<br>|<br>f|4<br>||15<br>be<br>f|15<br>beEb<br>ft|15<br>EbEb<br>ft<br>ft|15<br>Eb<br>Eb<br>ft<br>ft|15<br>EbGb<br>ftfy|15<br>Gb<br>|<br>fy|15<br>fy|
||10<br>[><br>|of<br>|{||10<br>[> [><br>of<br>|<br>{|<br>||10<br>[> [><br>|<br>||10<br>[> <br>f<br>||10<br> |} |<br>|<br>||10<br>|<br>|<br>|<br>||10<br>tf<br>{||8<br>& <br>tf<br>f<br>{|<br>||8<br> & |<br>tf<br>ft|0.3<br>|<br>|<br>tf<br>f<br>ft<br>f|0.7<br>|<br>f<br>f|1.2<br>|<br>f|4.6<br>be<br>f<br>f|6<br>be Eb<br>ft<br>f|6<br>Eb Eb<br>ft<br>ft<br>||6<br>Eb<br>Eb<br>ft<br>ft<br>f|6<br>Eb Gb<br>ftfy<br>||6<br>Gb<br>|<br>fy|6<br>fy<br>||
||10<br>| of<br>|{|<br>|{||10<br>of<br>|<br>{|<br>|<br>{|<br>||10<br>|<br>|<br>||10<br>f<br>|<br>||10<br>|<br>|<br>||10<br>|<br>|<br>||10<br>tf<br>{|<br>||8<br>tf<br>f<br>{|<br>|<br>||8<br>tf<br>ft<br>||0.3<br>tf<br>f<br>ft<br>f<br>f|0.6<br>f<br>f<br>[|0.9<br>|<br>f<br>[||2.8<br>f<br>f<br>[|<br>f|6<br>ft<br>f<br>[||6<br>ft<br>ft<br>|<br>[|<br>[||6<br>ft<br>ft<br>f<br>[|<br>f|6<br>ft fy<br>|<br>||6<br>fy<br>fy|6<br>fy<br>|<br>fy|
||10<br>| {|<br>|{|<br>pot|10<br>{|<br>|<br>{|<br>|<br>pot<br>||10<br>|<br>|<br>||10<br>|<br>|<br>||10<br>|<br>|<br>||10<br>|<br>|<br>||10<br>{|<br>|<br>||8<br>{|<br>|<br>|<br>||8<br>ft<br>|<br>||0.2<br>ft<br>f<br>f<br>f|0.5<br>f<br>[<br>[||0.8<br>f<br>[|<br>[|<br>||2<br>f<br>[|<br>f<br>[||3.3<br>f<br>[|<br>[|<br>[||5.5<br>|<br>[|<br>[|<br>[|<br>||6<br>f<br>[|<br>f<br>f|6<br>|<br>|<br>||6<br>fy<br>ff|6<br>|<br>fy<br>ff|
||10<br>| {|<br>pot<br>po[||10<br>{|<br>|<br>pot<br>|<br>[|<br>||10<br>|<br>|<br>||10<br>|<br>|<br>||10<br>|<br>|<br>||10<br>|<br>|<br>||10<br>|<br>|<br>[||8<br>|<br>|<br>[|<br>||8<br>|<br>|<br>||0.2<br>f<br>f<br>[||0.4<br>[<br>[|<br>[|<br>f|0.7<br>[|<br>[|<br>|<br>f|1.7<br>[|<br>f<br>[|<br>f|2.8<br>[|<br>[|<br>[|<br>f|4.5<br>[|<br>[|<br>[|<br>|<br>{||6<br>[|<br>f<br>f<br>{|<br>f|6<br>|<br>|<br>||6<br>fy<br>ff<br>fT|6<br>fy<br>ff<br>fT|
||10<br>pot<br>po[|<br>|<br>||10<br>pot<br>|<br>[|<br>|<br>||10<br>|<br>|<br>||10<br>|<br>|<br>||10<br>|<br>|<br>ft|10<br>|<br>|<br>ftff|10<br>|<br>[|<br>ff|8<br>|<br>[|<br>||8<br>|<br>||0.2<br>f<br>[||0.4<br>[|<br>[|<br>f<br>||0.7<br>[|<br>|<br>f<br>|<br>f|1.5<br>[|<br>f<br>f|2.5<br>[|<br>[|<br>f<br>f|3.5<br>[|<br>|<br>{|<br>||5<br>f<br>{|<br>f<br>||6<br>| <br>|<br>||6<br> ff<br>fT<br>ft|6<br>ff<br>fT<br>ft|
||10<br>po [|<br>|<br>|<br>po||10<br>[|<br>|<br>|<br>|<br>||10<br>|<br>|<br>||10<br>|<br>|<br>||10<br>|<br>ft<br>{||10<br>|<br>ftff<br>{|<br>||10<br>[|<br>ff<br>f|8<br>[|<br>|<br>ft|8<br>|<br>ft|0.7<br>1.5<br>2.5<br>3.5<br>5<br>1.3<br>2<br>2.9<br>4.1<br>1.8<br>2.6<br>3.5<br>1.8<br>2.6<br>3.5<br>2.2<br>3<br>2.5<br>4<br>[|<br>f<br>f<br>f<br>f<br>{|<br>f<br>|<br>f<br>f<br>f<br>|<br>|<br>| tf<br>f<br>fT<br>ft<br>ceeee<br>|of<br>f<br>fF<br>|<br>f<br>ft<br>a<br>|<br>>]<br>|<br>|<br>bee<br>i<br>&||0.7<br>f<br>|<br>f<br>||1.5<br>f<br>f<br>|tf|2.5<br>f<br>f<br>tf<br>f|3.5<br>{|<br>|<br>fT|5<br>{|<br>f<br>|<br>fT<br>ft|6<br>| <br>|<br>ftfT|6<br> fT<br>ft<br>fT|6<br>fT<br>ft|
||10<br>|<br>|<br>po||10<br>|<br>|<br>||10<br>|<br>||10<br>|<br>||10<br>ft<br>{||10<br>ft ff<br>{|<br>||10<br>ff<br>f|8<br>ft|8<br>ft||||1.3<br>f<br>|tf|2<br>f<br>tf<br>f|2.9<br>|<br>fT|4.1<br>|<br>fT<br>ft|6<br>| <br>ftfT|6<br> ft<br>fT|6<br>ft|
||10<br>10<br>10<br>10<br>10<br>10<br>10<br>10<br>10<br>**<br>10<br>po|<br>|<br>|<br>|<br>{|<br>[ESE<br>a ee<br>| {|<br>|<br>aT<br>Pott<br>[>[>[>[>[>|10<br>|<br>|<br>[ESE|10<br>|<br>[ESE<br>a|10<br>|<br>[ESE<br>a|10<br>{|<br>[ESE<br>ee|10<br>{|<br>|<br>[ESE<br>ee|10<br>f <br>[ESE|8<br> ft<br>[ESE|8<br>ft<br>[ESE|||||1.8<br>tf<br>f<br>cee<br>|of|2.6<br>fT<br>cee<br>of<br>f|3.5<br>fT<br>ft<br>ceeee<br>fF|5<br>ft fT<br>ee<br>fF|6<br>fT<br>ee<br>|6<br>ee<br>|
||||10<br>[ESE<br>a<br>||10<br>[ESE<br>a<br>|{||10<br>[ESE<br>ee<br>{|<br>||10<br>[ESE<br>ee<br>||10<br>[ESE<br>||8<br>[ESE<br>ft|8<br>[ESE<br>ft|||||1.8<br>cee<br>|of<br>||2.6<br>cee<br>of<br>f<br>|<br>f|3.5<br>ceeee<br>fF<br>ft|5<br>ee<br>fFff<br>ft<br>||6<br>ee<br>ff<br>fl|6<br>ee<br>ff<br>fl|
|||||10<br>a <br>|{||10<br> ee<br>{|<br>||10<br>ee<br>||10<br>||8<br>ft|8<br>ft||||||2.2<br>of<br>f<br>|<br>f|3<br>fF<br>ft|4<br>fFff<br>ft<br>||6<br>ff<br>fl|6<br>ff<br>fl|
||||||10<br>{|<br>|<br>aT<br>Pott|10<br>|<br>aT<br>Pott|10<br>|<br>aT<br>Pott|8<br>ft<br>aT<br>PotttT|8<br>ft<br>aT<br>tT||||||2.5<br>|<br>f<br>a|4<br><br>ft<br>a<br>||6<br>ff<br>ft<br>|<br>a<br>|||6<br>ff<br>fl<br>a<br>||6<br>ff<br>fl<br>a|
|||||||10<br>Pott<br>[>[>>|10<br>Pott<br>[>>|8<br>PotttT<br>[>>>]|8<br>tT<br>>]||||||||3,5<br>||<br>b>|5<br>|<br>b>[>|6<br>[>||
|2<br>3<br>4<br>6<br>8<br>10<br>13<br>16<br>20<br>25<br>32<br>40<br>50/63<br>**S 200 M-B, C**<br>Current values smaller<br>than 6 A and 8 A,<br>apply only to<br>C characteristics.<br>e[><br>|<br>|<br>|<br>po<br><[>|15<br>[>|15<br>[>[>|15<br>[>[>|15<br>[>[>|15<br>Pott<br>[>[>|15<br>Pott<br>[>[>>|15<br>Pott<br>[>>|15<br>Pott tT<br>[>>>]|15<br>tT<br>>]|1<br>>]<br>||1.2<br>||4|15<br>bee|15<br>bee|15<br>bee<br>i|15<br>|<br>&|15<br>| |<br>b>|15<br>|<br>b>[>|15<br>[>||
||15<br>[><br>~~O~~|15<br>[> [><br>~~O~~|15<br>[> [><br>~~O~~|15<br>[> [><br>~~O~~|15<br>[> [><br>~~O~~|15<br>[> [>><br>~~O~~|15<br>[>><br>~~O~~|10<br>[>> >]<br>~~O~~|10<br>>]<br>~~O~~|0.3<br>>]<br>|<br>~~O~~E|0.7<br>|<br>E|1.2<br>E|4.6<br>bee<br>E|6<br>bee<br>E|6<br>bee<br>i<br>E|6<br>&<br>E|6<br>b><br>E|6<br>b> [><br>E|6<br>[> |<br>E|
||15<br>~~O~~<br>|<br>||15<br>~~O~~<br>||15<br>~~O~~<br>||15<br>~~O~~<br>||15<br>~~O~~<br>||15<br>~~O~~<br>||15<br>~~O~~<br>||10<br>~~O~~<br>||10<br>~~O~~<br>||0.3<br>~~O~~O<br>f|0.6<br>O<br>f|0.9<br>O<br>||2.8<br>O<br>f|6<br>O<br>f|6<br>O<br>||6<br>O<br>ft|6<br>O<br>ft<br>||6<br>O<br>ff|6<br>O<br>ff|
||15<br>|<br>|<br>|of|15<br>|<br>of<br>||15<br>|<br>||15<br>|<br>f|15<br>|<br>||15<br>|<br>||15<br>|<br>tf|10<br>|<br>tf<br>f|10<br>|<br>tf|0.2<br>f<br>tf<br>f|0.5<br>f<br>tf|0.8<br>|<br>tfff|2<br>f<br>ff|3.3<br>f<br>ff<br>ft|5.5<br>|<br>ftff|6<br>ft<br>ff|6<br>ft<br>|<br>fe|6<br>ff<br>fe|6<br>ff<br>fe|
||15<br>|<br>|<br>|of<br>|<br>||15<br>|<br>of<br>|<br>||15<br>|<br>|<br>||15<br>|<br>f<br>||15<br>|<br>|<br>||15<br>|<br>|<br>||15<br>|<br>tf<br>||10<br>|<br>tf<br>f<br>||10<br>|<br>tf<br>||0.2<br>f<br>tf<br>f<br>tT|0.4<br>f<br>tf<br>tT<br>[||0.7<br>|<br>tfff<br>[|<br>||1.7<br>f<br>ff<br>[||2.8<br>f<br>ff<br>ft<br>[|<br>f|4.5<br>|<br>ftff<br>||6<br>ft<br>ff<br>ft|6<br>ft<br>| <br>fe<br>ft<br>||6<br> ff<br>fe<br>ff|6<br>ff<br>fe<br>ff|
||15<br>| of<br>|<br>||15<br>of<br>|<br>||15<br>|<br>||15<br>f<br>||15<br>|<br>||15<br>|<br>||15<br>tf<br>||10<br>tf<br>f<br>||10<br>tf<br>||0.2<br>tf<br>f<br>tT|0.4<br>tf<br>tT<br>[||0.7<br>tf ff<br>[|<br>||1.5<br>ff<br>[||2.5<br>ff<br>ft<br>[|<br>f|3.5<br>ft ff<br>||5<br>ff <br>ft|6<br> fe<br>ft<br>||6<br>fe<br>ff|6<br>fe<br>ff|
||15<br>|<br>|<br>OQ<br>po||15<br>|<br>OQ<br>|<br>||15<br>|<br>OQ<br>||15<br>|<br>OQ<br>||15<br>|<br>OQ<br>||15<br>|<br>OQ<br>||15<br>|<br>OQ<br>f|10<br>|<br>OQ<br>fl|10<br>|<br>OQ<br>fl|0.7<br>1.5<br>2.5<br>3.5<br>5<br>1.3<br>2<br>2.9<br>4.1<br>1.8<br>2.6<br>3.5<br>1.8<br>2.6<br>3.5<br>2.2<br>3<br>2.5<br>tT<br>[|<br>|<br>[|<br>f<br>|<br>ft<br>A<br>| f<br>f<br>[|<br>ft<br>|<br>|<br>|<br>|<br>|of<br>{|<br>fF<br>|<br>|<br>[|<br>1<br>|[|<br>[|bE<br>i>&||0.7<br>[|<br>|<br>A<br>||1.5<br>[|<br>|f|2.5<br>[|<br>f<br>f|3.5<br>|<br>[||5<br>ft<br>[|<br>ft|6<br>ft<br>| <br>ft<br>||6<br> ff<br>fy|6<br>ff<br>fy|
||15<br>OQ<br>po|<br>|<br>sze|15<br>OQ<br>|<br>|<br>|{|<br>sze|15<br>OQ<br>|<br>{|<br>|<br>sze|15<br>OQ<br>|<br>{|<br>sze|15<br>OQ<br>|<br>{|<br>{|<br>sze~~ze~~|15<br>OQ<br>|<br>{|<br>{|<br>~~ze~~|15<br>OQ<br>f<br>{|<br>f<br>~~ze~~|10<br>OQ<br>fl<br>ft<br>~~ze~~|10<br>OQ<br>fl<br>ft||||1.3<br>|f<br>||2<br>f<br>|<br>||2.9<br>[|<br>||4.1<br>[|<br>ft<br>||6<br>ft<br>|<br>|<br>4|6<br>fy<br>ft<br>4|6<br>fy<br>ft<br>4|
||15<br>15<br>15<br>15<br>15<br>15<br>15<br>15<br>15<br>**<br>15<br>po|<br>|<br>|<br>|<br>|<br>| {|<br>|<br>{|<br>{|<br>| {|<br>[|<br>{|<br>| {|<br>|<br>See<br>sze~~ze~~<br>[>[>[>[>[>|15<br>|<br>|<br>|{|<br>|<br>sze|15<br>|<br>{|<br>|<br>|{|<br>sze|15<br>|<br>{|<br>{|<br>[|<br>sze|15<br>|<br>{|<br>{|<br>[|<br>{|<br>sze~~ze~~|15<br>|<br>{|<br>{|<br>{|{|<br>~~ze~~|15<br>f <br>{|<br>f<br>{|<br>f<br>~~ze~~|10<br> fl<br>ft<br>|<br>~~ze~~|10<br>fl<br>ft|||||1.8<br>f<br>|<br>|<br>|of|2.6<br>[|<br>|<br>of<br>{||3.5<br>[|<br>ft<br>|<br>{|<br>fF|5<br>ft<br>| <br>|<br>fF<br>fT<br>4|6<br> fy<br>ft<br>fTfy<br>4|6<br>fy<br>ft<br>fy<br>4|
||||15<br>{|<br>|<br>|{|<br>|<br>sze|15<br>{|<br>{|<br>[|<br>|{|<br>sze|15<br>{|<br>{|<br>[|<br>{|<br>{|<br>|<br>sze~~ze~~|15<br>{|<br>{|<br>{|{|<br>{|<br>~~ze~~|15<br>{|<br>f <br>{|<br>f<br>{|<br>|<br>~~ze~~|10<br> ft<br>|<br>ff<br>~~ze~~|10<br>ft<br>ff|||||1.8<br>|<br>|<br>|of<br>||2.6<br>|<br>of<br>{|<br>|<br>||3.5<br>|<br>{|<br>fF<br>[||5<br>|<br>fF<br>fT<br>[|<br>|<br>4|6<br>ft<br>fTfy<br>|<br>4|6<br>ft<br>fy<br>4|
|||||15<br>{|<br>[|<br>|{|<br>sze|15<br>[|<br>{|<br>{|<br>|<br>sze~~ze~~|15<br>{| {|<br>{|<br>~~ze~~|15<br>{|<br>f<br>{|<br>|<br>~~ze~~|10<br>|<br>ff<br>~~ze~~|10<br>ff||||||2.2<br>of<br>{|<br>|<br>||3<br>{|<br>fF<br>[||4<br>fF<br>fT<br>[|<br>|<br>4|6<br>fT fy<br>|<br>4|6<br>fy<br>4|
||||||15<br>{|<br>|<br>See<br>sze~~ze~~|15<br>{|<br>See<br>~~ze~~|15<br>{|<br>| <br>See<br>~~ze~~|10<br> ff<br>See<br>~~ze~~|10<br>ff<br>See|||||||2.5<br>[|<br>1|4<br>[|<br>|<br>1<br>4|6<br>|<br>1<br>4|6<br>1<br>4|
|||||||15<br>See<br>~~ze~~<br>[>[>|15<br>See<br>~~ze~~<br>[>[>|10<br>See<br>~~ze~~<br>[>[>|10<br>See<br>[>|||||||||3.5<br>1<br>4<br>&||5<br>1<br>4<br>[>|6<br>1<br>4<br>[>||
|2<br>3<br>4<br>6<br>8<br>10<br>16<br>20<br>25<br>32<br>40<br>50/63<br>**S 200-K**<br>Selectivity values apply to<br>Icuaccording to IEC 947-2.<br><[><br>|<br>pot<br>|<br>e[>|15<br>sze<br>[>|15<br>sze<br>[>[>|15<br>sze<br>[>[>|15<br>sze<br>[>[>|15<br>sze~~ze~~<br>[>[>|15<br>~~ze~~<br>[>[>|15<br>~~ze~~<br>[>[>|15<br>~~ze~~<br>[>[>|15<br>[>||0.3<br>|[||1.2<br>[|<br>[||4<br>[||15<br>bE|15<br>bE|15<br>i>|15<br>i>&|15<br>4<br>&||15<br>4<br>[>|15<br>4<br>[>||
||10<br>[><br>~~O~~|10<br>[> [><br>~~O~~|10<br>[> [><br>~~O~~|10<br>[> [><br>~~O~~|10<br>[> [><br>~~O~~|10<br>[> [><br>~~O~~|10<br>[> [><br>~~O~~|10<br>[> [><br>~~O~~|10<br>[> |<br>~~O~~|0.3<br>| [|<br>~~O~~O|0.7<br>[|<br>[|<br>O|1.2<br>[| <br>O|4.6<br> bE<br>O|6<br>bE<br>O|6<br>i><br>O|6<br>i> &<br>O|6<br>& |<br>O|6<br>[><br>O|6<br>[> |<br>O|
||10<br>a<br>|<br>||10<br>a<br>||10<br>a<br>||10<br>a<br>||10<br>a<br>ft|10<br>ft<br>ft|10<br>ft<br>ft|10<br>ft|10|0.3|0.6<br>||0.9<br>|tf|2.8<br>tf<br>f|6<br>[||6<br>[|<br>||6<br>||6<br>||6<br>ft|6<br>ft|
||10<br>|<br>|<br>pot|10<br>|<br>pot<br>||10<br>|<br>||10<br>|<br>||10<br>ft<br>ft|10<br>ft<br>ft<br>ft<br>||10<br>ft<br>ft<br>tt|10<br>ft<br>tt|10<br>tt|0.7<br>1.7<br>3<br>5.9<br>6<br>6<br>6<br>1.3<br>2.2<br>3.6<br>6<br>6<br>6<br>1.7<br>2.5<br>4<br>6<br>6<br>2.2<br>3.1<br>4.6<br>6<br>3.1<br>4.6<br>6<br>2.6<br>3.5<br>6<br>3.5<br>6<br>5.5<br>| tf<br>f<br>[|<br>|<br>|<br>| ft<br>|<br>f<br>{| {|<br>|<br>{| ft<br>| of<br>ft<br>ofTT<br>ee<br>|<br>|<br>|<br>|<br>| | ft|<br>|of<br>||<br>eet<br>|<br>beebei<br>&<br>fe||0.7<br>|tf<br>||1.7<br>tf<br>f<br>|<br>f|3<br>[|<br>{||5.9<br>[|<br>|<br>{|{||6<br>|<br>{|<br>||6<br>|<br>{||6<br>ft<br>{|ft|6<br>ft<br>ft|
||10<br>|<br>|<br>pot<br>|<br>||10<br>|<br>pot<br>|<br>||10<br>|<br>|<br>||10<br>|<br>|<br>||10<br>ft<br>ft<br>||10<br>ft<br>ft<br>ft<br>|<br>ft|10<br>ft<br>ft<br>tt<br>ft<br>ft|10<br>ft<br>tt<br>ftft|10<br>tt<br>ft||||1.3<br>tf<br>f<br>|<br>f<br>||2.2<br>[|<br>{|<br>|of|3.6<br>[|<br>|<br>{|{|<br>of<br>ft|6<br>|<br>{|<br>|<br>ft<br>of|6<br>| <br>{|<br>of|6<br> ft<br>{|ft<br>|6<br>ft<br>ft<br>|
||10<br>pot<br>|<br>|<br>re|10<br>pot<br>|<br>||10<br>|<br>||10<br>|<br>||10<br>ft<br>||10<br>ft<br>| <br>ft|10<br> tt<br>ft<br>ft|10<br>tt<br>ftft|10<br>tt<br>ft|||||1.7<br>{|<br>|of|2.5<br>{| {|<br>of<br>ft|4<br>{|<br>|<br>ft<br>of|6<br>{|<br>ofTT|6<br>{| ft<br>TT|6<br>ft<br>TT|
||10<br>|<br>|<br>re<br>||10<br>|<br>|of|10<br>|<br>of<br>||10<br>|<br>||10<br>|<br>||10<br>ft<br>||10<br>ft<br>ft<br>ft|10<br>ft ft<br>ftft|10<br>ft<br>ft||||||2.2<br>of<br>ft<br>ee<br>||3.1<br>ft<br>of<br>ee<br>|<br>||4.6<br>ofTT<br>ee<br>||6<br>TT<br>ee<br>||6<br>TT<br>ee<br>||
||10<br>10<br>10<br>10<br>10<br>10<br>10<br>10<br>10<br>**<br>10<br>re<br>| of<br>|<br>|<br>|<br>e~~S~~<br>| {|<br>|<br>|<br>|<br>fF<br>i>i>b>|10<br>|of<br>e|10<br>of<br>|<br>e|10<br>|<br>e|10<br>|<br>e~~S~~|10<br>|<br>~~S~~|10<br>ft<br>~~S~~|10<br>ftft<br>~~S~~|10<br>ft<br>~~S~~|||||||3.1<br><br>ee<br>|<br>|<br>|||4.6<br>TT<br>ee<br>|<br>ft|6<br>TT<br>ee<br>|<br>ft||6<br>TT<br>ee<br>|<br>||
||||10<br>of<br>|<br>e<br>||10<br>|<br>e<br>|{||10<br>|<br>e~~S~~<br>{|<br>||15<br>|<br>~~S~~<br>{||10<br>ft<br>~~S~~<br>{|<br>[||10<br>ft ft<br>~~S~~<br>[|||10<br>ft<br>~~S~~|||||||2.6<br>ee<br>|<br>|<br>||<br>||3.5<br>ee<br>|<br>ft<br>|of|6<br>ee<br>|<br>ft|<br>of|6<br>ee<br>|<br>||
|||||10<br>e<br>|{|<br>||10<br>e~~S~~<br>{|<br>|<br>|<br>||10<br>~~S~~<br>{|<br>{||10<br>~~S~~<br>{|<br>[|<br>{|<br>[||10<br>~~S~~<br>[||<br>[|<br>||10<br>~~S~~<br>|||||||||3.5<br>ft<br>|of<br>||6<br>ft|<br>of<br>||6<br>|<br>|
||||||10<br>e~~S~~<br>{|<br>|<br>|<br>|<br>fF|10<br>~~S~~<br>{|<br>{|<br>fFfo|10<br>~~S~~<br>{|<br>[|<br>{|<br>[|<br>fo{||10<br>~~S~~<br>[| |<br>[|<br>|<br>{|||10<br>~~S~~<br>|<br>||||||||||5.5<br>ft|<br>of<br>|||6<br>|<br>|<br>|_||
|||||||10<br>~~S~~<br>{|<br>fFfo<br>Ee|10<br>~~S~~<br>{|<br>[|<br>fo{|<br>Ee|10<br>~~S~~<br>[|<br>| <br>{||<br>eet|10<br>~~S~~<br> |<br>|<br>eet||||||||||6<br>|<br>|<br>|_|<br>fe|
|2<br>3<br>4<br>6<br>8<br>10<br>16<br>20<br>25<br>32<br>40<br>50/63<br>**S 200 Z**<br>Selectivity values apply to<br>Icuaccording to IEC 947-2.<br>e[><br>po<br>po<br>po<br>ipo|15<br>i>|15<br>i>i>|15<br>i>|15<br>b>|15<br>fF<br>b>|15<br>fF fo<br>Ee|15<br>fo {|<br>Ee|15<br>{| |<br>eet|15<br>|<br>eet|0.5<br>eet<br>||2|15<br>bee|15<br>bee|15<br>bee|15<br>be|15<br>bei|15<br><br>&|15<br>|<br>fe|15<br>|<br>|_|<br>fe|
||10<br>i><br>~~O~~<br>po||10<br>i>i><br>~~O~~<br>|<br>||10<br>i> <br>~~O~~<br>||10<br> b><br>~~O~~<br>||10<br>b> <br>~~O~~<br>||10<br> Ee<br>~~O~~<br>||10<br>Ee <br>~~O~~<br>||10<br> eet<br>~~O~~<br>||10<br>eet<br>~~O~~<br>||0.3<br>eet<br>|<br>~~O~~E<br>f|0.7<br>E<br>[||1.2<br>bee<br>E<br>[|<br>||6<br>bee<br>E<br>f|6<br>bee <br>E<br>f|6<br> be<br>E<br>[||6<br>be i<br>E<br>[|<br>f|6<br>&<br>E<br>||6<br>fe<br>E<br>ff|6<br>fe<br>E<br>ff|
||10<br>po|<br>po||10<br>|<br>|<br>|<br>||10<br>|<br>||10<br>|<br>||10<br>|<br>||10<br>|<br>||10<br>|<br>{||10<br>|<br>{|<br>{||10<br>|<br>{|ft|0.3<br>f<br>ft<br>f|0.6<br>[|<br>f|1.3<br>[|<br>|<br>f|7<br>f<br>f|6<br>f<br>f|6<br>[|<br>{||6<br>[|<br>f<br>{|<br>f|6<br>|<br>||6<br>ff<br>ft|6<br>ff<br>ft<br>||
||10<br>po |<br>po|<br>po||10<br>|<br>|<br>|<br>|<br>|<br>||10<br>|<br>|<br>||10<br>|<br>|<br>||10<br>|<br>|<br>||10<br>|<br>|<br>||10<br>|<br>{|<br>||10<br>|<br>{|<br>{|<br>||10<br>|<br>{|ft<br>||0.2<br>f<br>ft<br>f<br>f|0.5<br>[|<br>f<br>[||0.9<br>[|<br>|<br>f<br>[|<br>||2.7<br>f<br>f<br>f|6<br>f<br>f<br>[||6<br>[|<br>{|<br>[|<br>||6<br>[|<br>f<br>{|<br>f<br>[|6<br>| <br>|<br>||6<br> ff<br>ft<br>ff|6<br>ff<br>ft<br>|<br>ff|
||10<br>po |<br>po|<br>i|10<br>|<br>|<br>|<br>|<br>|10<br>|<br>||10<br>|<br>||10<br>|<br>||10<br>|<br>||10<br>{|<br>||10<br>{|<br>{|<br>||10<br>{| ft<br>||0.2<br>ft<br>f<br>f|0.5<br>f<br>[||0.6<br>f<br>[|<br>||1.7<br>f<br>f|3.8<br>f<br>[||6<br>{|<br>[|<br>||6<br>{|<br>f<br>[|6<br>|<br>||6<br>ft<br>ff|6<br>ft<br>|<br>ff|
||10<br>po |<br>ipo||10<br>|<br>|<br>|<br>||10<br>|<br>||10<br>|<br>||10<br>|<br>||10<br>|<br>||10<br>|<br>f|10<br>|<br>ft|10<br>|<br>ft|0.4<br>0.6<br>1.3<br>2.4<br>4<br>0.5<br>1.1<br>1.7<br>3<br>0.9<br>1.5<br>2.3<br>1.4<br>2<br>1.4<br>2<br>2<br>f<br>[|<br>|<br>f<br>[|<br>|<br>| {|<br>|<br>|<br>f<br>|<br>|<br>|<br>|<br>Pot<br>ft<br>Foof<br>tf<br>a|0.4<br>[|<br>||0.6<br>[|<br>|<br>|{||1.3<br>f<br>{|<br>||2.4<br>[|<br>||4<br>[|<br>|<br>f|6<br>[<br>||6<br>| <br>ff|6<br> ff<br>ff|6<br>ff<br>ff|
||10<br>ipo|<br>Pot<br>5Ez|10<br>|<br>|<br>Pot<br>5Ez|10<br>|<br>Pot<br>tf<br>5Ez|10<br>|<br>tf<br>{|<br>5Ez|10<br>|<br>{|<br>fT<br>5Ez~~eE~~|10<br>|<br>fTft<br>~~eE~~|10<br>f<br>ft<br>ft<br>~~eE~~|10<br>ft<br>ft<br>ft<br>~~eE~~|10<br>ft<br>ft|||0.5<br>|{|<br>||1.1<br>{|<br>|<br>|<br>||1.7<br>|<br>||3<br>f<br>||4.5<br>|<br>f<br>Ft|6<br>ff<br>|<br>Ft|6<br>ff<br>fi<br>Ft|6<br>ff<br>fi<br>Ft|
||10<br>10<br>10<br>10<br>10<br>10<br>10<br>10<br>10<br>**<br>10<br>po|<br>|<br>|<br>|<br>|<br>Pot<br>tf<br>{|<br>fT<br>| {|<br>[|<br>[|<br>| ft<br>|<br>Set<br>5Ez~~eE~~|10<br>|<br>|<br>Pot<br>|<br>5Ez|10<br>|<br>Pot<br>tf<br>|{|<br>5Ez|10<br>|<br>tf<br>{|<br>{|<br>[|<br>5Ez|10<br>|<br>{|<br>fT<br>[|<br>[|<br>5Ez~~eE~~|10<br>|<br>fTft<br>[|{|<br>~~eE~~|10<br>f <br>ft<br>ft<br>{|<br>f<br>~~eE~~|10<br> ft<br>ft<br>ft<br>ft<br>~~eE~~|10<br>ft<br>ft<br>ft||||0.9<br>{|<br>|<br>|<br>|<br>Pot|1.5<br>|<br>|<br>Pot|2.3<br>f<br>|<br>Pot<br>ft|3.5<br>|<br>f<br>ft<br>fF<br>Ft|5.2<br>ff<br>|<br>fF<br>fT<br>Ft|6<br>ff<br>fi<br>fT<br>Ft|6<br>ff<br>fi<br>Ft|
||||10<br>Pot<br>tf<br>|{|<br>|<br>5Ez|10<br>tf<br>{|<br>{|<br>[|<br>|ft<br>5Ez|10<br>{|<br>fT<br>[|<br>[|<br>ft<br>|<br>5Ez~~eE~~|15<br>fT ft<br>[|{|<br>{|<br>~~eE~~|10<br>ft<br>ft<br>{|<br>f<br>{|<br>|<br>~~eE~~|10<br>ft<br>ft<br>ft<br>ft<br>~~eE~~|10<br>ft<br>ft<br>ft|||||1.4<br>|<br>Pot<br>Foof|2<br>|<br>Pot<br>ft<br>of<br>tf|3<br>f<br>ft<br>fF<br>tfof<br>Ft|4<br>| <br>fF<br>fT<br>of<br>fT<br>Ft|6<br> fi<br>fT<br>fT<br>Ft|6<br>fi<br>Ft|
|||||10<br>{|<br>[|<br>|ft<br>5Ez|10<br>[|<br>[|<br>ft<br>|<br>5Ez~~eE~~|10<br>[| {|<br>{|<br>~~eE~~|10<br>{|<br>f<br>{|<br>|<br>~~eE~~|10<br>ft<br>ft<br>~~eE~~|10<br>ft<br>ft|||||1.4<br>Pot<br>Foof|2<br>Pot<br>ft<br>of<br>tf|3<br>ft<br>fF<br>tfof<br>Ft|4<br>fF<br>fT<br>of<br>fT<br>Ft|6<br>fT<br>fT<br>Ft|6<br>Ft|
||||||10<br>ft<br>|<br>Set<br>5Ez~~eE~~|10<br>{|<br>Set<br>~~eE~~|10<br>{|<br>|<br>Set<br>~~eE~~|10<br>ft<br>Set<br>~~eE~~|10<br>ft<br>Set||||||2<br>of<br>tf<br>a|3<br>tf of<br>a<br>Ft|4<br>of<br>fT<br>a<br>Ft|6<br>fT<br>a<br>Ft|6<br>a<br>Ft|
|||||||10<br>Set<br>~~eE~~|10<br>Set<br>~~eE~~|10<br>Set<br>~~eE~~|10<br>Set|||||||2.2<br>a<br>Ft|3.5<br>a<br>Ft|5.8<br>a<br>Ft|6<br>a<br>Ft|



10 

## Miniature circuit-breakers **System pro** _**M**_ **compact[®]** S 200/S 200 M series 

## **Tripping diagrams** 

**Reading example for tripping characteristic of the B-type trip characteristics** (in connection with the table **tripping characteristics** on page 9, line **B** ) 

**a Thermal tripping characteristic:** Conventional non-tripping current I1 = selected non-tripping current The MCB maintains the 1.13 times of the rated current for at least 60 minutes. 

Conventional tripping current I2 = selected tripping current. The MCB switches off within 60 minutes when the 1.45 times of the rated current is reached. 

## **b Electromagnetic trip characteristic AC:** 

The MCB maintains current rushes of the 3-fold of the rated current for more than 0.1 sec. (in this example up to ca. 4 sec.). 

The MCB switches off within less than 0.1 sec when the 5-times of the rated current is reached. 

> 1 15 2 3°943IN 56S&S 7.5810 15 20 30 Multiple of rated current ———» **trip characteristic: B In = 6 ... 63 A S 200/S 200 M MCBs** 

0.01 1 15 2 3°94 565IN 81010. 1515 20|30 Multiple of rated current ——»» **trip characteristic: C In = 0.5 ... 63 A S 200/S 200 M MCBs** 

## **Note:** 

**Deviating ambient temperature values and interdependencies need to be taken into account** 

**trip characteristic: D In = 0.5 ... 63 A S 200 MCBs** 

**==> picture [5 x 61] intentionally omitted <==**

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2CDC 022 377 F0203<br>**----- End of picture text -----**<br>


**trip characteristic: K In = 0.5 ... 63 A S 200 MCBs** 

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**----- Start of picture text -----**<br>
SK 0142 Z 00<br>**----- End of picture text -----**<br>


**trip characteristic: Z In = 0.5 ... 63 A S 200 MCBs** 

11 

Miniature circuit-breakers **System pro** _**M**_ **compact[®]** S 200/S 200 M series 

## **Pulse tripping of the MCBs S 200/S 200 M made by ABB-STOTZ-KONTAKT** 

**==> picture [376 x 194] intentionally omitted <==**

**----- Start of picture text -----**<br>
X<br>0.01 ms 0.1 ms ims 10 ms<br>Pulse duration<br>Example: non-tripping current (electromagnetic release)<br>S 201-B16 Ihold = K x non-tripping current B-type characteristic = 3 x In<br>Ihold = 4.2 x 3 x 16 C-type characteristic = 5 x In<br>Ihold = 201.6 A D-type characteristic = 10 x In<br>K-type characteristic = 10 x In<br>Z-type characteristic = 2 x In<br>In the case of an impulse of 600 , S 201-B16 maintains up to a current of 201.6 A. MM<br>2CDC 022 131 F0203<br>**----- End of picture text -----**<br>


12 

## Miniature circuit-breakers **System pro** _**M**_ **compact[®]** S 200/S 200 M series 

## **Diagrams of let-through values I[2] t at 230/400 VAC** 

## **Miniature circuit-breakers S 200 B/C, D on request** 

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2CDC 022 132 F0203<br>**----- End of picture text -----**<br>


## **Miniature circuit-breakers S 200 K** 

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**----- Start of picture text -----**<br>
2CDC 022 157 F0203<br>**----- End of picture text -----**<br>


- ➀ min. pre-arcing I[2] t, e.g. In = 80 A gL ➁ max. let-through I[2] t MCB e.g. B20 A 

- G Fuse-MCB, selectivity with respect to the upstream fuse to the point of intersection of both curves[➀] and[➁] . e.g. S 200-B20 to fuse 80 A: selectivity up to 3.5 kA min. 

- G Let-through value I[2] t reduced: 127 V by factor 2.5 

- 110 V by factor 3 

## **Miniature circuit-breakers S 200 Z** 

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2CDC 022 159 F0203<br>**----- End of picture text -----**<br>


**Miniature circuit-breakers S 200 M B/C** 

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**----- Start of picture text -----**<br>
2CDC 022 152 F0203<br>**----- End of picture text -----**<br>


13 

Miniature circuit-breakers **System pro** _**M**_ **compact[®]** S 200/S 200 M series 

## **The influence of ambient temperature and interdependencies in the case of even loads on the load capability of MCBs** 

**Practical Note: This practical deduction, that is applicable for all types of characteristics, can be recommended for standard environments. Selection criteria for rated current of circuit-breakers according to EN 60898 and EN 60947-2.** 

**Choose the circuit-breaker that is appropriate for the lower of the rated value of the device or the permissible current loading. Now, the major factors having an influence on the circuit-breaker, must be taken into account:** 

**1. ambient temperature with IB � 0.9 x In at 40 °C ambient temperature** 

**2. mutual influence with IB � 0.75 x In in the case of more than one circuit-breaker being loaded evenly in parallel.** 

**The ensuing rated current of the circuit breaker is thus: In = 1.5 x rated current** 

**Example: operating currect 4 A, then the rated current of the circuit-breaker is: In = 1.5 x 4 A = 6 A** 

**The above takes into account all relevant factors and the circuit is protected at the lowest possible level.** 

## **This practical note is based on the following:** 

**1. Deviating ambient temperature: The thermal releases are adapted to a given reference ambient temperature. For the K- and Z-type characteristics, it is 20 °C, for B-, C- and D-type, it is 30 °C.** 

**For all other ambient temperatures, the current values indicated vary by ca. 6 % per 10 K temperature de/increase .** 

**For more precise calculations and very high/low ambient temperatures, the following tables apply:** 

## **Max. operating current depending on the ambient temperature circuit-breaker in load circuit of characteristics type B, C and D** 

|**B, C and D**|**Ambient temperature T (°C)**|**Ambient temperature T (°C)**|**Ambient temperature T (°C)**|**Ambient temperature T (°C)**|**Ambient temperature T (°C)**|**Ambient temperature T (°C)**|**Ambient temperature T (°C)**|**Ambient temperature T (°C)**|**Ambient temperature T (°C)**|**Ambient temperature T (°C)**|**Ambient temperature T (°C)**|**Ambient temperature T (°C)**|
|---|---|---|---|---|---|---|---|---|---|---|---|---|
|**In (A)**|**– 40**|**– 30**|**– 20**|**– 10**|**0**|**10**|**20**|**30**|**40**|**50**|**60**|**70**|
|**0.5**|**0.67**|**0.65**|**0.62**|**0.60**|**0.58**|**0.55**|**0.53**|**0.50**|**0.47**|**0.44**|**0.41**|**0.37**|
|**1.0**|**1.33**|**1.29**|**1.25**|**1.20**|**1.15**|**1.11**|**1.05**|**1.00**|**0.94**|**0.88**|**0.82**|**0.75**|
|**1,6**<br>**2,0**|**2.13**|**2.07**|**2.00**|**1.92**|**1,85**|**1.77**|**1.69**|**1.60**|**1.51**|**1.41**|**1.31**|**1.19**|
||**2.67**|**2.58**|**2.49**|**2.40**|**2.31**|**2.21**|**2.11**|**2.00**|**1.89**|**1.76**|**1.63**|**1.49**|
|**3,0**|**4.0**|**3.9**|**3.7**|**3.6**|**3.5**|**3.3**|**3.2**|**3.0**|**2.8**|**2.6**|**2.4**|**2.2**|
|**4,0**|**5.3**|**5.2**|**5.0**|**4.8**|**4.6**|**4.4**|**4.2**|**4.0**|**3.8**|**3.5**|**3.3**|**3.0**|
|**6,0**|**8.0**|**7.7**|**7.5**|**7.2**|**6.9**|**6.6**|**6.3**|**6.0**|**5.7**|**5.3**|**4.9**|**4.5**|
|**8,0**|**10.7**|**10.3**|**10.0**|**9.6**|**9.2**|**8.8**|**8.4**|**8.0**|**7.5**|**7.1**|**6.5**|**6.0**|
|**10,0**|**13.3**|**12.9**|**12.5**|**12.0**|**11.5**|**11.1**|**10.5**|**10.0**|**9.4**|**8.8**|**8.2**|**7.5**|
|**13,0**|**17.3**|**16.8**|**16.2**|**15.6**|**15.0**|**14.4**|**13.7**|**13.0**|**12.3**|**11.5**|**10.6**|**9.7**|
|**16,0**<br>**20,0**|**21.3**<br>**26.7**|**20.7**<br>**25.8**|**20.0**<br>**24.9**|**19.2**<br>**24.0**|**18.5**<br>**23.1**|**17.7**<br>**22.1**|**16.9**<br>**21.1**|**16.0**<br>**20.0**|**15.1**<br>**18.9**|**14.1**<br>**17.6**|**13.1**<br>**16.3**|**11.9**<br>**14.9**|
|**25,0**|**33.3**|**32.3**|**31.2**|**30.0**|**28.9**|**27.6**|**26.4**|**25.0**|**23.6**|**22.0**|**20.4**|**18.6**|
|**32,0**|**42.7**|**41.3**|**39.9**|**38.5**|**37.0**|**35.4**|**33.7**|**32.0**|**30.2**|**28.2**|**26.1**|**23.9**|
|**40,0**|**53.3**|**51.6**|**49.9**|**48.1**|**46.2**|**44.2**|**42.2**|**40.0**|**37.7**|**35.3**|**32.7**|**29.8**|
|**50,0**|**66.7**|**64.5**|**62.4**|**60.1**|**57.7**|**55.3**|**52.7**|**50.0**|**47.1**|**44.1**|**40.8**|**37.3**|
|**63,0**|**84.0**|**81.3**|**78.6**|**75.7**|**72.7**|**69.6**|**66.4**|**63.0**|**59.4**|**55.6**|**51.4**|**47.0**|



## **Max. operating current depending on the ambient temperature circuit-breaker in load circuit of characteristics type K and Z** 

|**K and Z**|**Ambient temperature T (°C)**|**Ambient temperature T (°C)**|**Ambient temperature T (°C)**|**Ambient temperature T (°C)**|**Ambient temperature T (°C)**|**Ambient temperature T (°C)**|**Ambient temperature T (°C)**|**Ambient temperature T (°C)**|**Ambient temperature T (°C)**|**Ambient temperature T (°C)**|**Ambient temperature T (°C)**|**Ambient temperature T (°C)**|
|---|---|---|---|---|---|---|---|---|---|---|---|---|
|**In (A)**|**– 40**|**– 30**|**– 20**|**– 10**|**0**|**10**|**20**|**30**|**40**|**50**|**60**|**70**|
|**0.5**|**0.66**|**0.64**|**0.61**|**0.59**|**0.56**|**0.53**|**0.50**|**0.47**|**0.43**|**0.40**|**0.35**|**0.31**|
|**1.0**|**1.32**|**1.27**|**1.22**|**1.17**|**1.12**|**1.06**|**1.00**|**0.94**|**0.87**|**0.79**|**0.71**|**0.61**|
|**1.6**<br>**2.0**|**2.12**|**2.04**|**1.96**|**1.88**|**1.79**|**1.70**|**1.60**|**1.50**|**1.39**|**1.26**|**1.13**|**0.98**|
||**2.65**|**2.55**|**2.45**|**2.35**|**2.24**|**2.12**|**2.00**|**1.87**|**1.73**|**1.58**|**1.41**|**1.22**|
|**3.0**|**4.0**|**3.8**|**3.7**|**3.5**|**3.4**|**3.2**|**3.0**|**2.8**|**2.6**|**2.4**|**2.1**|**1.8**|
|**4.0**|**5.3**|**5.1**|**4.9**|**4.7**|**4.5**|**4.2**|**4.0**|**3.7**|**3.5**|**3.2**|**2.8**|**2.4**|
|**6.0**|**7.9**|**7.6**|**7.3**|**7.0**|**6.7**|**6.4**|**6.0**|**5.6**|**5.2**|**4.7**|**4.2**|**3.7**|
|**8.0**|**10.8**|**10.2**|**9.8**|**9.4**|**8.9**|**8.5**|**8.0**|**7.5**|**6.9**|**6.3**|**5.7**|**4.9**|
|**10.0**|**13.2**|**12.7**|**12.2**|**11.7**|**11.2**|**10.6**|**10.0**|**9.4**|**8.7**|**7.9**|**7.1**|**6.1**|
|**13.0**|**17.2**|**16.6**|**15.9**|**15.2**|**14.5**|**13.8**|**13.0**|**12.2**|**11.3**|**10.3**|**9.2**|**8.0**|
|**16.0**<br>**20.0**|**21.2**|**20.4**|**19.6**|**18.8**|**17.9**|**17.0**|**16.0**|**15.0**|**13.9**|**12.6**|**11.3**|**9.8**|
||**26.5**|**25.5**|**24.5**|**23.5**|**22.4**|**21.2**|**20.0**|**18.7**|**17.3**|**15.8**|**14.1**|**12.2**|
|**25.0**|**33.1**|**31.9**|**30.6**|**29.3**|**28.0**|**26.5**|**25.0**|**23.4**|**21.7**|**19.8**|**17.7**|**15.3**|
|**32.0**|**42.3**|**40.8**|**39.2**|**37.5**|**35.8**|**33.9**|**32.0**|**29.9**|**27.7**|**25.3**|**22.6**|**19.6**|
|**40.0**|**52.9**|**51.0**|**49.0**|**46.9**|**44.7**|**42.4**|**40.0**|**37.4**|**34.6**|**31.6**|**28.3**|**24.5**|
|**50.0**|**66.1**|**63.7**|**61.2**|**58.6**|**55.9**|**53.0**|**50.0**|**46.8**|**43.3**|**39.5**|**35.4**|**30.6**|
|**63.0**|**83.3**|**80.3**|**77.2**|**73.9**|**70.4**|**66.8**|**63.0**|**58.9**|**54.6**|**49.8**|**44.5**|**38.6**|



## **2. Interdependencies in the case of even loads** 

A correction factor must be taken into account in the case butt-mounted devices and an evenly applied, high load: 

- 2 and 3 circuit-breakers with factor 0.9 

- 4 and 5 circuit-breakers with factor 0.8 

- 6 and more circuit-breakers with factor 0.75 

**The interdependency becomes irrelevant if FST … spacers or packing blocks (9mm width) are used.** 

14 

Miniature circuit-breakers **System pro** _**M**_ **compact[®]** S 200/S 200 M series 

## **Use of S 200/S 200 M miniature circuit-breakers in direct current circuits 60 VDC/125 VDC** 

In DC systems up to 60 VDC or, as the case may be, series connection up to 125 VDC, customary S 200/S 200 M series MCBs can be used. Polarity does not need to be taken into consideration, the outgoing circuit may be implemented from above or below the device. 

For higher direct voltage up to 440 VDC devices of the S 280 UC series must be used. 

## **Example for max. permissible voltages between conductors depending on the number of poles and type of connection.** 

**==> picture [5 x 39] intentionally omitted <==**

**----- Start of picture text -----**<br>
SK 0173 Z 99<br>**----- End of picture text -----**<br>


**Examples for different voltages between a conductor and earth where voltages between conductors are identical:** 

**==> picture [6 x 39] intentionally omitted <==**

**----- Start of picture text -----**<br>
SK 0174 Z 99<br>**----- End of picture text -----**<br>


## **Fusing of lighting currents** 

## **1. Filament lamps and fluorescent lamps** 

> [The following table indicates the maximum number of fluorescent lamps that can be protected with a single-pole miniature circuit-breaker.] In the case of multipole MCBs, the value is reduced by 20 %. Tripping charcteristic type C allows for light currents up to the rated current of the MCB, 

for fusing of: filament lamps fluorescent lamps a) non-compensated b) shunt compensated (cos ϕ = 0.95) 

c) electronic load 

||c) electronic load|c) electronic load|c) electronic load|||||||
|---|---|---|---|---|---|---|---|---|---|
|Characteristic/<br>rated current<br>~~pO~~|non-compensated<br>conventional ballast|||shunt compensated<br>conventional ballast|||electronic ballast➀|||
|~~pO~~<br>~~es es~~|18/20 W<br>~~es~~|36/40 W<br>~~Gf~~|58/65 W<br>~~Gf~~|18/20 W<br>~~Gf~~|36/40 W<br>~~Gf~~|58/65 W<br>~~Gf~~|18/20 W<br>~~Gf~~|36/40 W<br>~~Gf~~|58/65 W<br>~~Gf~~|
|10<br>~~pO~~<br>~~es es~~<br>~~rs ee~~|27<br>~~es~~<br>~~ee~~|23<br>~~Gf~~<br>~~es~~|15<br>~~Gf~~<br>~~es~~|32<br>~~Gf~~<br>~~Gf~~|32<br>~~Gf~~<br>~~Gf~~|20<br>~~Gf~~|18<br>~~Gf~~|18<br>~~Gf~~|8<br>~~Gf~~|
|16<br>~~es es~~<br>~~rs ee~~<br>~~Po~~|43<br>~~es~~<br>~~ee~~|37<br>~~Gf~~<br>~~es~~|24<br>~~Gf~~<br>~~es~~|51<br>~~Gf~~<br>~~Gf~~|51<br>~~Gf~~<br>~~Gf~~|33<br>~~Gf~~|26<br>~~Gf~~|26<br>~~Gf~~|12<br>~~Gf~~|
|20<br>~~rs ee~~<br>~~Po~~<br>~~a~~|53<br>~~ee ~~<br>~~es~~|46<br> ~~es~~<br>~~DG~~|30<br>~~es~~<br>~~DG~~|64<br>~~Gf~~<br>~~DG~~|64<br>~~Gf~~<br>~~DG~~|41<br>~~DG~~|33<br>~~DG~~|33<br>~~DG~~|15<br>~~DG~~|
|25<br>~~Po~~<br>~~a~~|66<br>~~es~~|58<br>~~DG~~|37<br>~~DG~~|82<br>~~DG~~|82<br>~~DG~~|53<br>~~DG~~|42<br>~~DG~~|42<br>~~DG~~|19<br>~~DG~~|



➀ electronic ballast: twin-lamp style, jointly switched number of lamps 

## **2. High-pressure discharge lamps** 

Starting current: ca. 1.7 x lamp current Recovery time: ca. 3 ... 5 min. 

According to the type of lamp, line impedance and start-stop torque, the so-called rectifier effect may occur which superimposes the starting current of the lamp for some half-waves. 

In the most unfavorable circumstances, inrush currents of 15 times of the lamp nominal current may ensue. 

To avoid nuisance tripping, MCBs with K-type characteristic should not carry loads higher than 0.6-fold of the lamp current. The load factor indicated refers to the least favorable case (proximity to transformer, low line impedances). 

15 

Miniature circuit-breakers **System pro** _**M**_ **compact[®]** S 200/S 200 M series 

## **Installation and operation instructions** 

## **Installation** 

Can be installed in any mounting position due to snap-on fixing to DIN rails EN 60 715, 35 mm width. 

- **A** If MCB S 200/S 200 M is installed without cross wiring, hinge the upper part into the DIN rail and push to let the lower part of the device snap into place **(1)** . The device is released in the reverse order, after the quick fastener has been removed with a screw driver **(2).** 

- **B** To release S 200 /S 200 M that are cross-wired with **System pro** _**M**_ **compact** busbars, first remove the clamping screws Then, pull the lower part of the S 200/S 200 M forwards **(1)** and lift it straight up **(1a)** , then, the quick fastener **(1b)** will recede. 

- **C** The busbar is deallocated and the S 200/S 200 M can be pulled out by lifting the device forwards **(2)** . 

- **D** The cross-wiring is re-inserted in the reverse order. First, open the clamping screws and pull out the quick fastener **until it locks into place for the first time (3)** . Then, take the S 200 /S 200 M and insert it with rear terminal side onto the pins of the **System pro** _**M**_ **compact** busbar **(4)** , turn it into the direction of the DIN rail **(4a)** and shift it vertically downwards **(4b)** ,this way, the quick fasterner snaps back into place **(4c)** . 

## **Attention: Do not forget to re-tighten the clamping screws.** 

**==> picture [505 x 253] intentionally omitted <==**

**----- Start of picture text -----**<br>
A Assembly, B Detaching when<br>disassembly pro  M  compact<br>without ‘\ cross wiring |<br>pro  M  compact remains in place<br>cross wiring<br>/ at<br>ww, Sy ts<br>snap on          release pro  M  compact<br>busbar<br>C Removal when D Insertion when<br>pro  M  compact pro  M  compact<br>cross wiring cross wiring<br>remains in place remains in place<br>Lyty —* 4b| atl<br>quick<br>fastener<br>pin pin Malis<br>pro  M  compact ~ F |<br>busbar pro  M  compact<br>busbar<br>SK 0266 Z 98 SK 0267 Z 98<br>SK 0268 Z 98 SK 0167 Z 99 SK 0269 Z 98<br>**----- End of picture text -----**<br>


## **Operation** 

> [MCBs are switched on by switching the operating lever into the upper position (with resepct to the text block of the nameplate).][If an MCB,] after it has triggered, cannot be switched on again off-handedly, the triggering is probably caused by overload. If the MCB trips again immediately when trying to reclose (let a short period of time elapse), a complete short-circuit, or as the case may be, earth connection can be assumed. 

> [Do not try and continuously re-close an existing short circuit or earth fault.][The MCB even trips under overload, or short-circuit or earth] fault conditions, even if the operating lever is maintained in the ON position by force (trip-free mechanism). 

## **Cleaning the device** 

MCBs soiled by installation work should be cleaned with a dry, or, if necessary, a damp and soapy cloth. Never use caustic agents or dissolvents. 

## **Maintenance** 

STOTZ MCBs are maintenance-free. 

## **Opening the device will lead to a loss of warranty.** 

## **[Connection:]** 

For connection cross sections, see page 7. 

Feeder optional, top or bottom, terminal designation according to EN 50 005.[For wiring diagrams, see picture to the right.] 

**==> picture [6 x 61] intentionally omitted <==**

**----- Start of picture text -----**<br>
2CDC 022 153 F0003<br>**----- End of picture text -----**<br>


16 

## **System pro** _**M**_ **compact[®]** 

## Supplementary devices 

## **Additional devices** 

## **Mounting additional devices** 

Additional devices are always fitted from the right hand side: 

- signal contact/auxiliary switch S2C-S/H6R for MCBs and RCCBS 

- auxiliary switch S2C-H6R for MCBs 

- shunt release S2C-A for MCB 

**==> picture [322 x 121] intentionally omitted <==**

**----- Start of picture text -----**<br>
to MCBs only to<br>and RCCBs MCBs to shunt releases<br>max. max. max. max. max.<br>1x 2x 3x 1x 2x<br>rT11 MCB eo}or fogpsy[omg T1 MCB 5] 5 |S tT1 MCB orSe] pssic<br>' Rep a ala t oa teal ie ' bs Fab<br>1 je lope rl 5 Sd od 1 1 lofo<br>JLe Nwo ioala L - apoyo L - NNa iTayo iu<br>S/H HH HHH S/H HH<br>S function signal contact<br>H function auxiliary switch<br>**----- End of picture text -----**<br>


**==> picture [5 x 61] intentionally omitted <==**

**----- Start of picture text -----**<br>
2CDC 092 154 F0003<br>**----- End of picture text -----**<br>


## **1. Signal contact and auxiliary switches** 

Retrofittable to the right side of circuit-breakers or shunt releases without extra installation devices. 

## **1.1 Universal signal contact/ auxiliary switch type S2C-S/H6R** 

## **Description** 

**S2** – serial code: 

**S 2 C - S/H 6 R** 

**R** = right side-mounted **6** = change over **H** = auxiliary switch **S** = signal contact 

**C** = compatible to pro M compact 

S2C-S/H6R is a universal device complementing the range of pro M compact, which is supplied to offer signal contact functionality, or the auxiliary switch can be activated, all you need is a screwdriver. The universal switch can be with MCBs and RCCBs. Up to three S2C-H6R can be mounted (one signal contact max. fitted to MCB or RCCB). Both the switchgear and the S2C-S/H6R must be in the ON end position to ensure that the coupling is correct. 

## **Function of the signal contact S** 

Signal is transmitted only if caused by fault-tripping of the circuit-breaker, but not if the switch has been switched on or off manually. Press the orange reset button to acknowledge the has-tripped signal. 

## **Function of the auxiliary switch H** 

The switch always indicates the switching position of the MCB, irrespective of whether the switching position is attributable to manual operation or fault tripping. 

## **Functionality selection** 

To select either the signal contact function S or the auxiliary switch H, use a screwdriver and adjust to position S, or as the case may be, H at the side of the device. 

17 

## **System pro** _**M**_ **compact[®]** 

## Supplementary devices 

## **Installation:** 

## **1. Mounting one S2C-S/H6R** 

→ RCCB or MCB must be in the ON position → remove coupling cover on the right side of the MCB/RCCB → signal contact/auxiliary switch in ON position → if fitted to MCB, remove bottom (RCD), if fitted to RCCB middle (MCB) coupling pin → plug devices together. 

**==> picture [265 x 5] intentionally omitted <==**

**----- Start of picture text -----**<br>
SK 0287 Z 02 SK 0288 Z 02<br>**----- End of picture text -----**<br>


## **2. Mounting more than one S2C-S/H6R** 

Up to three S2C-H6R can be mounted. 

Note: one signal contact max. fitted at first to MCB or RCCB 

If fitted to an MCB, remove the bottom coupling pin (RCD), if fitted to an RCCB, remove the middle coupling pin (MCB), switch all signal contact/ auxiliary switches to the end position ON, plug them together and carry through a function control test. 

**==> picture [38 x 6] intentionally omitted <==**

**----- Start of picture text -----**<br>
SK 0285 Z 02<br>**----- End of picture text -----**<br>


## **Function control test:** 

After all signal contacts/auxiliary switches or auxiliary switches have been mounted, use the upper coupling pin to switch on the devices (ON position). If the lower (for RCD) or, as the case may be, the middle (for MCB) coupling pin is operated, all devices must trip. 

## Now combination with MCB/RCCB: 

RCCB or MCB must be in the ON position → remove coupling cover on the right side of the MCB/RCCB → signal contact/auxiliary switch in ON position → if fitted to MCB, remove bottom (RCD), if fitted to RCCB middle (MCB) coupling pin → plug devices together. 

## **Test functions of the signal contact** 

in ON and OFF position after hand operation 

## **Test functions of the auxiliary switch** 

in ON position 

in ON position after tripping 

**==> picture [6 x 135] intentionally omitted <==**

**----- Start of picture text -----**<br>
SK 0240 Z 02<br>SK 0242 Z 02<br>**----- End of picture text -----**<br>


in OFF position 

**==> picture [5 x 135] intentionally omitted <==**

**----- Start of picture text -----**<br>
SK 0241 Z 02<br>SK 0243 Z 02<br>**----- End of picture text -----**<br>


18 

Supplementary devices 

**System pro** _**M**_ **compact[®]** 

## **Technical Data** 

**Signal contact/auxiliary switch S2C-S/H6R and auxiliary switch S2C – H6R** according to EN 62019 

|AC|14|Ue|400 V|230 V|rated current Ith:<br>min. rated voltage UBmin:|10 A<br>24 V ~, 24 V~~...~~|
|---|---|---|---|---|---|---|
|||Ie|1 A|2 A|min. rated operational current:|5 VA�|
|DC|12|Ue<br>Ie|220 V<br>1 A|110 V<br>1.5 A|short-circuit withstand capacity:<br>insulation coordination:<br>– overvoltage category:|230 V~ 1000 A with S 201 K 4<br>according to DIN VDE 0110 Parts 1 and 2<br>III|
|DC|13|Ue<br>Ue|60 V<br>1.5 A|24 V<br>4 A|– surge voltage:<br>– pollution degree:|4 kV (1.2/50µs)<br>2|
||||||connection cross section:|0.75 ... 2.5 mm2(up to 2 x 1.5 mm2)|
||||||tightening torque:|1.2 Nm max.|
||||||contact stability in vibration test||
||||||according to DIN IEC 68-2-6-:|5 g, 20 sweep cycles 5 ... 150 ... 5 Hz|
|||||||at 24 VAC/DC, 5 mA automatic reclosing < 10 ms|
||||||mech. service life:|10 000 operations|



- The minimum rated operational current value applies in the case of operation and environmental conditions according to EN 60 204-1/1998 and EN 60 439-1/2000 if installed indoors and in clean ambient air: 24 VAC/DC, 5 mA (AC-12, DC-12) 

## **1.2 Auxiliary switch type S2C-H6R** 

## **Description** 

The simple auxiliary switch without test functionality is appropriate for applications where it is only necessary to indicate the contact position of the circuit-breaker. 

Up to three S2C-H6R can be butt-mounted, including combinations with the signal contact/auxiliary switch SC2-S/H6R. Installation and technical data 

the same as for signal contact/auxiliary switch SC2-S/H6R, see preceding page and above. 

## **Installation and technical data** 

the same as for signal contact/auxiliary switch SC2-S/H6R, see preceding page and above. 

## **2. Shunt trip S2C-A** 

## **Description** 

For distance tripping of the MCB. The shunt release has a relay coil with an integrated contact which disconnects the coil and the coil voltage if the MCB trips, this prevents the flow of current in the case of sustained coil voltage. 

## **Technical data** 

type: S2C - A1 S2C - A2 service voltage: 12 ... 60 V 110 ... 415 VAC and 110 ... 250 VDC 

STOTZ-Shunt trip with automatic disconnecting within 10 milliseconds UB = Un + 10 – 30 % 

||UB|IBmax|||UB|IBmax|
|---|---|---|---|---|---|---|
|S2C-A1|12 VDC|2.2 A||S2C-A2|110 VDC|0.35 A|
||12 VAC|2.5 A|||110 VAC|0.5 A|
||24 VDC|4.5 A|||220 VDC|1.1 A|
||24 VAC|5 A|||230 VAC|1.0 A|
||60 VDC|14 A|||415 VAC|2.7 A|
||60 VAC|8.8 A|||||



UB = operating voltage 

IBmax = operating current 

19 

## Residual-current-operated circuit breaker **System pro** _**M**_ **compact[®]** F 200 series 

## **Description** 

Residual-current protective devices have a balance or, as the case may be, differential current transformer as measuring device that is connected with permanent magnet trip via the secondary winding. Residual-current protective devices cover a.c. fault current and pulsating d.c. fault current and are insensitive to current rushes up to 250 A, selective and short-time delayed tripping types up to 3,000 A). Pulse shape 8/20 according to DIN VDE 0432 Part 2. 

STOTZ residual-current protective devices are surge-proof and thus insensitive to transient leakage current to earth, as may occur e.g. when switching fluorescent lamps, X-ray apparatus, IT systems and also thyristor control. (The value of the surge strength is indicated in the technical data information regarding the switching variants). 

**Protection through RCD of types AC, A and B according to IEC 755** 

> **form of residual current** ee **correct functioning of RCD** a.c.- sensitive pulsating d.c.-sensitive current-sensitive **type AC type B type A** ee eeeee **sinusoidal a.c.** suddenly applied slowly rising F 200 AC F 200 TR suddenly applied with/without **pulsating d.c.** superimosed smooth d.c. of 6 mA slowly rising fe ~~3~~ **smooth d.c.** ~~(~~ a 

## **Selective RCCB F 200S** 

Is installed centrally and operates on a time-selective basis with respect to more sensitive downstream residual-current devices. The result is a high degree of service security, as in the case of a fault, only the circuit affected will be switched off. 

Due to their surge strength of up to 5,000 A/3,000 A, nuisance tripping of STOTZ main RCCBs caused by remote strike is ruled out. They are therefore the perfect choice for the connection of freezers and agricultural applications (e.g. fans in intensive livestock husbandry) according to DIN VDE 0100 Part 705. 

## **Short-time delayed RCCBs F 200 R** 

are RCCBs with high surge strength needed where apparatus causes high leakage currents when switched on or off (e.g. lighting circuits with ballast, long lines). 

## **Application** 

**To obtain a better level of security in all wiring systems, as well as in supply areas with respect to which codes of practice recommend or require the use of residual-current protective devices.** 

## **Tasks** 

## **Protection against electric shock** 

Measures for the protection against electric shock as provided for in DIN VDE 0100 Part 410. These measures are: 

Protection from indirect touch – as fault protection through disconnection of circuit in the case of excessive touch voltage caused by short circuit to exposed conductive part. 

Protection from direct touch – as additional protection through disconnection when conductive parts are touched. Dangerous leakage current is switched off within the shortest possible time if the rated residual current of the circuit-breakers is I∆n 30 mA, in the case of people protector FS 201 I∆n 10 mA. 

Protection against fire – protection against fire ignited by electricity if the nominal residual current of the circuit-breaker is I∆n 300 mA. 

20 

Residual-current-operated circuit-breakers F 200 series/FS 201 

## **System pro** _**M**_ **compact[®]** 

|**Technical data**|**F 200**|**F 200**<br>**AC**|**F 200 R**<br>**short time delayed **|**F 204 S**<br> **selective**|**FS 201**<br>**RCBO**|
|---|---|---|---|---|---|
|specifications:|DIN VDE 0664 Part 11, EN 61008-2-1||||DIN VDE 0664 Part 21<br>and EN 61009/IEC 61009|
|No. of poles:|2-pole<br>4-pole|2-pole<br>4-pole|2-pole<br>4-pole|4-pole||
|tripping characteristics:|–||||B and C acc. to DIN VDE 0641 and EN 60898;<br>K acc. to DIN VDE 0660 and EN 60947|
|rated current In:|16, 25, 40, 63 A|25, 40, 63 A||25, 40, 63 A|40 A, 63 A<br>6 to 32 (40) A|
|rated residual current I n:|10, 30, 300 <br>and 500 mA|30, 100<br>and 300 mA|30 mA|300 mA|10 mA, 30 mA, 300 mA|
|tripping range<br>at<br>at<br>~~a~~|0.50 ... 1.0 · I n<br>0.11 ... 1.4 · I n<br>A<br>~~a:~~||||~~:~~|
|tripping time<br>at 1 · I n:<br>at 2 · I n:<br>at 5 · I n:<br>at 500 A:<br>~~A~~<br>~~A~~<br>:|300 ms<br>40 ms<br>~~<~~<br>~~A~~<br>~~A~~<br>~~**<**~~<br>:|300 ms <br>40 ms<br>~~<~~<br>~~<~~<br>~~A~~<br>~~A~~<br>~~**<**~~<br>**<**<br>:|120 … 300 ms<br>50 … 150 ms<br>20 … 40 ms<br>~~<~~<br>~~<~~<br>~~A~~<br>~~A~~<br>~~**<**~~<br>:|150 ... 500 ms<br>60 ... 200 ms<br>40 ... 150 ms<br>40 ... 150 ms<br>~~<~~<br>~~<~~<br>~~A~~<br>~~A~~<br>~~**<**~~<br>:|300 ms<br>40 ms<br>~~<~~<br>~~<~~<br>~~A~~<br>~~A~~<br>~~**<**~~<br>7<br>:<|
|tripping time<br>at 1 · 1,4 I n:<br>at 5 · 1,4 I n:<br>~~5~~<br>:|300 ms<br>40 ms<br>~~5~~<br>~~<~~<br>~~<~~<br><|–<br>–<br>~~5~~<br>~~<~~<br>~~<~~|300 ms<br>40 ms<br>~~5~~<br>~~<~~<br>~~<~~<br>~~<~~<br>7<br><|300 ms<br>50 ... 150 ms<br>~~5~~<br>~~<~~<br>~~<~~<br>~~<~~<br>~~<~~<br><=<br><|300 ms<br>40 ms<br>~~5~~<br>~~<~~<br>~~<~~<br>~~<~~<br>~~<~~<br>~~<~~<br>7<br><|
|rated switching capacity:|–|||–|6 kA,ϕ0,7|
|surge strength (impulse waveshape 8/20):|250 A||3000 A|5000 A|250 A|
|short-circuit withstand capacity:|10.000 A, in connection with an upstream <br>fuse gL 100 A or the STOTZ selective<br>main circuit-breaker S 700-E 100 A|||10.000 A, in connection<br>with an upstream fuse<br>gL 100 A or the selective<br>main circuit-breaker<br>S 700-E 100 A||
|rated voltage Un:|2-pole: 230 V ~ 4-pole: 230/400 V ~|||230/400 V ~|2-pole: 230 V ~|
|max. operating voltage UBmax:|Un+ 10 %|||||
|operative range of test equipment UT:|100 V ~ to 264 V ~||||100 V ~ to 264 V ~   100 V ~ to 264 V ~|
|insulation coordination according to<br>DIN VDE 0110 Part 1 and 2<br>– overvoltage category:<br>– pollution degree:<br>– surge voltage Uimp(1,2/50):<br>–power-frequency withstand voltage (50/60 Hz):|III, disconnector abilities<br>2<br>4 kV<br>2.5 kV|||||
|frequency:|50/60 Hz||||50/60 Hz|
|housing:|moulding grey||||moulding grey|
|operating lever/test button:|blue||||black/blue|
|degree of protection:|IP 20; in the distribution board IP 40;<br>in moulded-plastic casing IP 55 (see accessories)|||||
|dimensions:|see dimension drawings|||||
|connection cross section:|1 to 16 mm2for finely-stranded to massive conductors<br>for Into 40 A, 1 to 25 mm2for In63 A||||1 to 16 mm2|
|service life:|> 5.000 switches|||||
|climatic resistance according to DIN IEC 68 Part 2-30:<br>(RH = rel. humidity)|damp heat, cyclic (55 °C/28 cycles)||||damp heat: 28 cycl. 55/95 … 100 (°/RH)<br>alterning climate: 25/95 - 40/93 (°C/RH)<br>constant climate: 23/83, 40/93,<br>55/95 … 100 (°C/RH)|
|ambient temperature:|Tmax.+ 55 °C  Tmin.– 25 °C|||||
|vibration resistance according to:|DIN VDE 0664 Part 1/10.85 and EN 61008||||DIN VDE 0664 Part 2/10.85<br>and EN 61009|
|terminals:|bi-directional cylinder-lift terminal|||||
|trip-free mechanism:|yes|||||
|connection:|individually or collectively via a busbar|||||
|supplementary devices:|type S2C-S/HR s. pagee 17||||in preparation|



21 

## Residual-current-operated circuit-breakers **System pro** _**M**_ **compact[®]** F 200 series/FS 201 

## **Installation and operation instructions** 

## **Installation** 

Can be installed in any mounting position due to snap-on fixing to DIN rails EN 50 022, 35 mm width. 

- **A** If RCD F 200/FS 201 is installed without cross-wiring , hinge the upper part into the DIN rail and push to let the lower part of the device snap into place **(1)** . The device is released in the reverse order, after the quick fastener has been removed with a screw driver **(2)** . 

- **B** To release RCD F 200/FS 201 that are cross-wired with **System pro** _**M**_ **compact** busbars, first remove the clamping screws. Then, pull the lower part of the F 200/FS 201 forwards **(1)** and lift it straight up **(1a)** , then, the quick fastener will recede **(1b)** . 

- **C** The busbar is deallocated and the RCD F 200/FS 201 can be pulled out by lifting the device forwards **(2)** . 

- **D** The cross-wiring is re-inserted in the reverse order. First, open the clamping screws and pull out the quick fastener **until it locks into place for the first time (3)** . Then, take the RCD F 200/FS 201 and insert it with the rear terminal side onto the pins of the **System pro** _**M**_ **compact** busbar **(4)** , turn it into the direction of the DIN rail **(4a)** and shift it vertically downwards **(4b)** , to let the quick fastener snap back into place **(4c)** . 

## **Attention: Do not forget to re-tighten the clamping screws.** 

**==> picture [506 x 444] intentionally omitted <==**

**----- Start of picture text -----**<br>
A Assembly, B Detaching when<br>disassembly pro  M  compact<br>without \ cross wiring |<br>pro  M  compact remains in place<br>cross wiring<br>) = A the<br>snap on          release pro  M  compact<br>busbar<br>C Removal when D Insertion when<br>pro  M  compact pro  M  compact<br>cross wiring cross wiring<br>remains in place remains in place ow<br>ty on 4b| 4b|<br>quick<br>fastener<br>| pin ~— | pin 4 of =<br>pay pro  M  compact 3 at> 4c | bem<br>busbar pro  M  compact<br>busbar<br>XL<br>Connection<br>Feeder optional, top or bottom. Ensure that conductors are con- [1 rT 1st NI<br>nected correctly and firmly.<br>-- -- —\ —' “—<br>If the 4-pole RCCB is operated as a 2-pole RCCB, use terminals --- ~~~ EH -<br>5 and 7 or, as the case may be, 6 and 8 to make sure that the<br>test button function of the RCCB is working. In the case of a<br>three-phase system with Un = 127/230 V (without neutral N),n = 127/230 V (without neutral N), = 127/230 V (without neutral N), ala 21 al elsn<br>terminals 4 and 8 must be bridged.<br>Operation sea 3p<br>F 200/FS 201 is switched ON or OFF with the blue operating<br>lever.<br>SK 0266 Z 98 SK 0267 Z 98<br>SK 0268 Z 98 SK 0167 Z 99 SK 0269 Z 98<br>SK 0272 Z 98 SK 0012 Z 96<br>2CDC 032 138 F0203<br>**----- End of picture text -----**<br>


If the 4-pole RCCB is operated as a 2-pole RCCB, use terminals 5 and 7 or, as the case may be, 6 and 8 to make sure that the test button function of the RCCB is working. In the case of a three-phase system with Un = 127/230 V (without neutral N),n = 127/230 V (without neutral N), = 127/230 V (without neutral N), terminals 4 and 8 must be bridged. 

## **Operation** 

F 200/FS 201 is switched ON or OFF with the blue operating lever. 

## **Operating test** 

To test proper functioning, press the blue test button when the device is switched ON, the RCCB must trip immediately (the knob jumps into the „0“ switching position). 

It is necessary to test the RCD halfyearly, if no other regional or user specified additional test are required. 

22 

## **System pro** _**M**_ **compact[®]** 

## Residual-current-operated circuit-breakers F 200 series/FS 201 

## **Test of protective measure** 

Except for the operating test, the effectiveness of the protection provided within the installation must be tested according to the applicable codes of practice. For RCD protection, the maximum permissible earthing resistance values are as follows: 

|max.<br>touch<br>voltage UL|max. earthing resistance<br>at nominal residual current<br>10 mA<br>30 mA<br>100 mA<br>300 mA<br>500 mA|max. earthing resistance<br>at nominal residual current<br>10 mA<br>30 mA<br>100 mA<br>300 mA<br>500 mA|max. earthing resistance<br>at nominal residual current<br>10 mA<br>30 mA<br>100 mA<br>300 mA<br>500 mA|max. earthing resistance<br>at nominal residual current<br>10 mA<br>30 mA<br>100 mA<br>300 mA<br>500 mA|max. earthing resistance<br>at nominal residual current<br>10 mA<br>30 mA<br>100 mA<br>300 mA<br>500 mA|
|---|---|---|---|---|---|
|25 V<br>50 V|2500<br>5000<br>Q<br>Q|833<br>1666<br>Q<br>(9)|250<br>500<br>(9)<br>(9)|83<br>166<br>(9)<br>Q|50<br>100<br>(9)<br>Q|



## **Malfunctioning** 

The high-quality STOTZ residual-current-operated circuit-breakers are thorougly adjusted and tested in our works. Where damage occurs (caused e.g. by transport, storage, etc.) no repair work must be undertaken. 

If the device responds immediately after putting the RCCB into operation, check the downstream active circuit and any connected currentconsuming apparatus for earth fault current. Remove insulation faults or connections between the neutral conductor and the protective conductor existing in load circuit. Where the RCCB does not trip in the first operating test after pressing the test button, check first whether the test circuit is connected correctly. 

Where none of the above causes apply, or should the operating test be completed unsuccessfully, the RCCB must be replaced. 

## **Opening the device will lead to a loss of warranty.** 

## **Examples for the protection against electric shock** 

**==> picture [5 x 39] intentionally omitted <==**

**----- Start of picture text -----**<br>
SK 0005 Z 97<br>**----- End of picture text -----**<br>


**==> picture [5 x 39] intentionally omitted <==**

**----- Start of picture text -----**<br>
SK 0038 Z 94<br>**----- End of picture text -----**<br>


**==> picture [449 x 10] intentionally omitted <==**

**----- Start of picture text -----**<br>
+i<br>**----- End of picture text -----**<br>


**TN-S system** (protective multiple earthing) separate neutral and protective conductors throughout the network 

**TN-C-S system** neutral and protective conductor (PEN) combined in one part of the network. 

**==> picture [5 x 38] intentionally omitted <==**

**----- Start of picture text -----**<br>
SK 0040 Z 94<br>**----- End of picture text -----**<br>


**==> picture [52 x 73] intentionally omitted <==**

**----- Start of picture text -----**<br>
only indicated by<br>line isolation<br>monitor<br>SK 0017 Z 95<br>**----- End of picture text -----**<br>


**TT system** 

## **IT system** 

The residual-current-operated circuit-breaker trips if a double fault occurs, as e.g. is indicated as fault 1 and fault 2 above. 

## **Explanation of type codes** 

L1, L2, L3 „ **l** ine“ phase conductor PE „ **p** rotection **e** arth“ N „ **n** eutral“ PEN PE and N combined T „ **t** erre“ direct bond to earth 

I „ **i** nsulation“ C „ **c** ombined“ PE and N (PEN) S „ **s** eparated“ PE and N „…“ terms used in international IEC standard 

23 

## Busbars for **System pro** _**M**_ **compact[®]** series S 200, S 200 M, F 200, FS 201 

## **Description** 

The newly developed **pro** _**M**_ **compact** cross wiring busbar system includes everything that is needed for secure and economic connections of distribution build-in devices of the series S 200 and F 200. 

The optimised quick fastener of the S 200 series, F 200 , when used together with the **System pro** _**M**_ **compact** cross wiring busbars, makes removing and inserting devices a quick and easy job, and the cross wiring of other devices remains in place, at that. 

Busbars are supplied ready-to-use and in standard lengths, time-consuming cutting to length or end caps are no longer required. 

MCBs and RCCBs of the customary **System pro** _**M**_ technology can also be easily cross-wired with the new **System pro** _**M**_ **compact** busbars. 

## **Technical data** 

specifications: VDE 0660 Part 500, DIN EN 60439-1: 1994 test surge voltage: (1,2/50) 6,2 kV busbar material: SF-Cu F 24 short-circuit withstand capacity:25 kA insulating profile material: plastic, temperature resistant 90 °C climatic resistance: constant climate L23/83; 40/92 flame-retardant, self-extinguishing 55/20 according to DIN 50 015 dioxine- and halogene-free humid heat, 28 cycles ( IEC 68 Part 2 - 30) busbar cross section: 10 mm[2] insulation coordination: acc. to VDE 0110 Part 1 April 1997 (IEC 664) max. operating voltage: 440 V - overvoltage category: III rated surge voltage: 4 kV - pollution degree: 2 

## **Load capability depending on the feed point** 

bar cross section 10 mm[2] 16 mm[2] 5 max. busbar current IS/phase 63 A 80 A @ max. current in branch IE/phase 100 A 130 A* 

* If the device is fed via the device terminal, ensure that - irrespective of the current carrying capacity (IS) of the busbar - the following values are not exceeded: 

For devices up to and including 40 A In max. 110 A and for 50/63 A In max. 140 A. 

> incoming supply @ incoming supply at the beginning of the within the busbar busbar or centre-fed 

**==> picture [6 x 38] intentionally omitted <==**

**----- Start of picture text -----**<br>
SK 0062 Z 91<br>**----- End of picture text -----**<br>


**==> picture [5 x 39] intentionally omitted <==**

**----- Start of picture text -----**<br>
SK 0063 Z 91<br>**----- End of picture text -----**<br>


If the device is centre-fed (see picture to the right), ensure that the combined outgoing currents a1 ...an per branch do not exceed the max. busbar current IS/phase referred to above. 

24 

## **System pro** _**M**_ **compact[®]** 

## Miniature circuit-breakers S 200/S 200 M 

## Residual-current-operated circuit breakers F 200/FS 201 Dimensions 

**==> picture [427 x 674] intentionally omitted <==**

**----- Start of picture text -----**<br>
Dimensions                                                    measurements in mm<br>69<br>_| —__ P|17.5 | 35 | Po}52.5 ET70<br>WececoRoogsooga<br>of] i i a<br>i ae a a<br>: @} [ele] [elele| lelelele<br>1-pole 2-pole 3-pole 4-pole<br>le 6.8 1 + NA 3 + NA<br>S 201, S 202, S 203, S 204<br>os<br>3 10 f<br>= [a] 8.8 17.5<br>i | | le<br>> se cE =<br>q lo<br>2-pole 4-pole Supplementary devices<br>[Fee17.5<br>S2C-S/H 6 R S2C-A...<br>F 202, F 204, F 204 S S2C-H 6 R S2C-UA...<br>69<br>35<br>re<br>re @/@<br>4 [fe<br>A 1<br>: jee<br>ao17.5)<br>FS 201<br>69<br>Pe<br>| 17.5 35 §2.5 70<br>| i<br>. 4 > ree)Bo eesees Eee<br>‘ jelele|<br>17 8.4<br>, 17.5 | |<br>1-pole 2-pole 3-pole 4-pole<br>SK 0136 Z 01<br>SK 0111 Z 99 SK 0046 Z 02<br>SK 0047 Z 02<br>SK 0058 Z 01<br>**----- End of picture text -----**<br>


**==> picture [133 x 8] intentionally omitted <==**

**----- Start of picture text -----**<br>
S 201 H, S 202 H, S 203 H, S 204 H<br>**----- End of picture text -----**<br>


25 

Accessories **System pro** _**M**_ **compact[®]** Dimensions 

## **Terminal covers** 

**==> picture [80 x 7] intentionally omitted <==**

**----- Start of picture text -----**<br>
PCD 2 N SK 0136 Z 96<br>**----- End of picture text -----**<br>


**PCD 4 N** 

**PCD 6 N** SK 0137 Z 96 

## **measurements in mm** 

**==> picture [100 x 7] intentionally omitted <==**

**----- Start of picture text -----**<br>
PCD 8 N SK 0138 Z 96<br>**----- End of picture text -----**<br>


## **Enclosure of moulded-plastic** 

**QES 4/3 N** 

**==> picture [5 x 37] intentionally omitted <==**

**----- Start of picture text -----**<br>
SK 0078 Z98<br>**----- End of picture text -----**<br>


**QES 6/3 N** 

**==> picture [6 x 37] intentionally omitted <==**

**----- Start of picture text -----**<br>
SK 0079 Z98<br>**----- End of picture text -----**<br>


## **Flush frame** 

**==> picture [6 x 39] intentionally omitted <==**

**----- Start of picture text -----**<br>
SK 0131 Z 94<br>**----- End of picture text -----**<br>


|type|dim. L|max. No. of modules<br>(1 module = 17.5 mm)|
|---|---|---|
|S 500 - ME 1<br>S 500 - ME 2<br>S 500 - ME 3|38 mm<br>88 mm<br>184 mm|for 2 Module<br>for  5 Module<br>for 10 Module|



**==> picture [70 x 11] intentionally omitted <==**

**----- Start of picture text -----**<br>
Mounting rails<br>**----- End of picture text -----**<br>


In the case of DSW 1, the drill holes are vertical 

||name||A|A1|
|---|---|---|---|---|
||DSW||17.5|15|
|SK 0150 Z 93|DSW 2<br>DSW 3<br>DSW 4<br>DSW 6|DSW 2<br>DSW 3<br>DSW 4<br>DSW 6|35<br>52.5<br>70<br>105|20<br>37.5<br>55<br>90|



26 

## Busbars **System pro** _**M**_ **compact[®]** Dimensions 

## **Dimensions** 

**==> picture [230 x 289] intentionally omitted <==**

**----- Start of picture text -----**<br>
Li... Spacing: 17.5<br>aI<br>ey Coe<br>PS 1/2<br>Li...<br>st} DononeeSpacing: 17.5<br>PS 1/6<br>Li... Spacing: 17.5<br>oo ononog<br>ee<br>PS 1/9<br>2CDC 062 139 F0203<br>2CDC 062 140 F0203<br>2CDC 062 141 F0203<br>**----- End of picture text -----**<br>


**==> picture [30 x 7] intentionally omitted <==**

**----- Start of picture text -----**<br>
PS 1/12<br>**----- End of picture text -----**<br>


**==> picture [241 x 413] intentionally omitted <==**

**----- Start of picture text -----**<br>
    measurements in mm<br>L1 L2 L3 Spacing: 17.5<br>1 |<br>2) i tl il tl Yt<br>ee<br>=<br>PS 3/6<br>“112 #13 Spacing: 17.5<br>2 LiltaHt tt it tt it F)<br>PS 3/9<br>Li L2 LS... Spacing: 17.6<br>o =<br>5 |<br>18 |<br>216 (PS 9/12 and 9/12/16) ><br>PS 3/12<br>70.4 Spacing: 17.6 (L1-L2-L3)<br>17.6 17.6 fT] »<br>ui 2 ts) out tas...<br>a |<br>212 (PS 3/2FI<br>2CDC 062 145 F0203<br>2CDC 062 146 F0203<br>2CDC 062 255 F0203<br>2CDC 062 148 F0203<br>**----- End of picture text -----**<br>


**==> picture [61 x 191] intentionally omitted <==**

**----- Start of picture text -----**<br>
ui<br>a<br>PS 3/12 FI<br>2CDC 062 142 F0203<br>2CDC 062 263 F0203<br>**----- End of picture text -----**<br>


**==> picture [31 x 7] intentionally omitted <==**

**----- Start of picture text -----**<br>
PS 3/60<br>**----- End of picture text -----**<br>


**==> picture [66 x 18] intentionally omitted <==**

**----- Start of picture text -----**<br>
auxiliary contact<br>bridge HKB<br>**----- End of picture text -----**<br>


**==> picture [6 x 61] intentionally omitted <==**

**----- Start of picture text -----**<br>
2CDC 062 149 F0203<br>**----- End of picture text -----**<br>


27 

## Busbars **System pro** _**M**_ **compact[®]** Dimensions 

## **Dimensions** 

**==> picture [30 x 7] intentionally omitted <==**

**----- Start of picture text -----**<br>
PS 2/12<br>**----- End of picture text -----**<br>


g (PS 2/58 and 2/58/16) 1019 fe **PS 2/58** Spacing: 17.6 (L1 - L2) Spacing: 44 (L1...L2) Li L2 1 L2... || w {Il tt imi im 1046 (PS 2/48H and 2/48/16H) Is **PS 2/48** a Spacing: 26.4 ee + LAidoone 1020 (PS 3/39H and PS 3/39/16H) 16 **PS 3/39 H** Spacing: 17.6 (L1-L2-L3) 61.6 (Lt... Lt) Li 12 13 Li 12 LB... Pg Tl 975 (PS 3/48H) 980 (PS 3/48/16H) 

**==> picture [39 x 7] intentionally omitted <==**

**----- Start of picture text -----**<br>
PS 3/48 H<br>**----- End of picture text -----**<br>


## **measurements in mm** 

**==> picture [226 x 610] intentionally omitted <==**

**----- Start of picture text -----**<br>
o7 212 (PS 3/12Fl) ga_<br>PS 3/12 FI H<br>L1 L2 LON... Spacing: 17.6<br>& |<br>212 (PS 4/12 and 4/12/16) 23.5<br>ly<br>PS 4/12<br>{1 L2 L3BN... Spacing: 17.6<br>(PS 4/60)<br>22<br>1056 (PS 4/60 and 4/60/16) | (PS 4/60/16)<br>PS 4/60<br>Spacing: 17.6<br>N L2 N LB N...<br>w:<br>1019 (PS 4/58N) | (PS 4/58/16N)<br>1019 (PS 4/58/16N )<br>PS 4/58 N<br>Spacing: 17.6<br>13.8 13.8 17 pacing<br>(rie 13 41 L203...<br>o& a4<br>200(PS 3/12 E463)<br>2CDC 062 148 F0203<br>2CDC 062 265 F0203<br>2CDC 062 269 F0203<br>2CDC 062 267 F0203<br>2CDC 062 143 F0203<br>**----- End of picture text -----**<br>


**==> picture [54 x 7] intentionally omitted <==**

**----- Start of picture text -----**<br>
PS 3/12 E 463<br>**----- End of picture text -----**<br>


28 

## Miniature circuit-breakers **System pro** _**M**_ **compact[®]** S 200 series 

## S 200-D 

## **Selection table** 

|No. of<br>poles|rated<br>current<br>InA|**order details**<br>**type code**<br>order code|**order details**<br>**type code**<br>order code|**bbn**<br>**40 16779**<br>**EAN**|**price**<br>1 piece<br>**€**|price<br>group|w'ght<br>1 pc.<br>kg|pack.<br>unit<br>pc.|
|---|---|---|---|---|---|---|---|---|
|1<br>UBmax<br>440 V<br>60 V ..~~.~~<br>~<br>_|0.5<br>1<br>1.6<br>2<br>3<br>4<br>6<br>8<br>10<br>13<br>16<br>20<br>25<br>32<br>40<br>50<br>63<br>@<br>2)<br>®|**S 201-D   0.5**<br>**S 201-D   1**<br>**S 201-D   1.6**<br>**S 201-D   2**<br>**S 201-D   3**<br>**S 201-D   4**<br>**S 201-D   6**<br>**S 201-D   8**<br>**S 201-D 10**<br>**S 201-D 13**<br>**S 201-D 16**<br>**S 201-D 20**<br>**S 201-D 25**<br>**S 201-D 32**<br>**S 201-D 40**<br>**S 201-D 50**<br>**S 201-D 63**|2CDS 251 001 R0981<br>2CDS 251 001 R0011<br>2CDS 251 001 R0971<br>2CDS 251 001 R0021<br>2CDS 251 001 R0031<br>2CDS 251 001 R0041<br>2CDS 251 001 R0061<br>2CDS 251 001 R0081<br>2CDS 251 001 R0101<br>2CDS 251 001 R0131<br>2CDS 251 001 R0161<br>2CDS 251 001 R0201<br>2CDS 251 001 R0251<br>2CDS 251 001 R0321<br>2CDS 251 001 R0401<br>2CDS 251 001 R0501<br>2CDS 251 001 R0631|**52993 8**<br>**52994 5**<br>**52995 2**<br>**52996 9**<br>**52997 6**<br>**52998 3**<br>**52999 0**<br>**53000 2**<br>**53001 9**<br>**53002 6**<br>**53003 3**<br>**53004 0**<br>**53005 7**<br>**53006 4**<br>**53007 1**<br>**55199 1**<br>**55200 4**|||0.125|10/40|
|2<br>UBmax<br>440 V<br>125 V ..~~.~~<br>®|0.5<br>1<br>1.6<br>2<br>3<br>4<br>6<br>8<br>10<br>13<br>16<br>20<br>25<br>32<br>40<br>50<br>63|**S 202-D   0.5**<br>**S 202-D   1**<br>**S 202-D   1.6**<br>**S 202-D   2**<br>**S 202-D   3**<br>**S 202-D   4**<br>**S 202-D   6**<br>**S 202-D   8**<br>**S 202-D 10**<br>**S 202-D 13**<br>**S 202-D 16**<br>**S 202-D 20**<br>**S 202-D 25**<br>**S 202-D 32**<br>**S 202-D 40**<br>**S 202-D 50**<br>**S 202-D 63**|2CDS 252 001 R0981<br>2CDS 252 001 R0011<br>2CDS 252 001 R0971<br>2CDS 252 001 R0021<br>2CDS 252 001 R0031<br>2CDS 252 001 R0041<br>2CDS 252 001 R0061<br>2CDS 252 001 R0081<br>2CDS 252 001 R0101<br>2CDS 252 001 R0131<br>2CDS 252 001 R0161<br>2CDS 252 001 R0201<br>2CDS 252 001 R0251<br>2CDS 252 001 R0321<br>2CDS 252 001 R0401<br>2CDS 252 001 R0501<br>2CDS 252 001 R0631|**53048 4**<br>**53049 1**<br>**53050 7**<br>**53051 4**<br>**53052 1**<br>**53053 8**<br>**53054 5**<br>**53055 2**<br>**53058 3**<br>**53060 6**<br>**53061 3**<br>**53063 7**<br>**53064 4**<br>**53065 1**<br>**53066 8**<br>**55203 5**<br>**55204 2**|||0.250|5/20|
|3<br>UBmax<br>440 V<br>~|0.5<br>1<br>1.6<br>2<br>3<br>4<br>6<br>8<br>10<br>13<br>16<br>20<br>25<br>32<br>40<br>50<br>63<br>@<br>2)<br>®|**S 203-D   0.5**<br>**S 203-D   1**<br>**S 203-D   1.6**<br>**S 203-D   2**<br>**S 203-D   3**<br>**S 203-D   4**<br>**S 203-D   6**<br>**S 203-D   8**<br>**S 203-D 10**<br>**S 203-D 13**<br>**S 203-D 16**<br>**S 203-D 20**<br>**S 203-D 25**<br>**S 203-D 32**<br>**S 203-D 40**<br>**S 203-D 50**<br>**S 203-D 63**|2CDS 253 001 R0981<br>2CDS 253 001 R0011<br>2CDS 253 001 R0971<br>2CDS 253 001 R0021<br>2CDS 253 001 R0031<br>2CDS 253 001 R0041<br>2CDS 253 001 R0061<br>2CDS 253 001 R0081<br>2CDS 253 001 R0101<br>2CDS 253 001 R0131<br>2CDS 253 001 R0161<br>2CDS 253 001 R0201<br>2CDS 253 001 R0251<br>2CDS 253 001 R0321<br>2CDS 253 001 R0401<br>2CDS 253 001 R0501<br>2CDS 253 001 R0631|**53081 1**<br>**53082 8**<br>**53083 5**<br>**53084 2**<br>**53085 9**<br>**53086 6**<br>**53088 0**<br>**53089 7**<br>**53090 3**<br>**53091 0**<br>**53092 7**<br>**53093 4**<br>**53094 1**<br>**53095 8**<br>**53096 5**<br>**55205 9**<br>**55206 6**|||0.375|3/12|
|4<br>UBmax<br>440 V<br>125 V ..~~.~~<br>®|0.5<br>1<br>1.6<br>2<br>3<br>4<br>6<br>8<br>10<br>13<br>16<br>20<br>25<br>32<br>40<br>50<br>63|**S 204-D   0.5**<br>**S 204-D   1**<br>**S 204-D   1.6**<br>**S 204-D   2**<br>**S 204-D   3**<br>**S 204-D   4**<br>**S 204-D   6**<br>**S 204-D   8**<br>**S 204-D 10**<br>**S 204-D 13**<br>**S 204-D 16**<br>**S 204-D 20**<br>**S 204-D 25**<br>**S 204-D 32**<br>**S 204-D 40**<br>**S 204-D 50**<br>**S 204-D 63**|2CDS 254 001 R0981<br>2CDS 254 001 R0011<br>2CDS 254 001 R0971<br>2CDS 254 001 R0021<br>2CDS 254 001 R0031<br>2CDS 254 001 R0041<br>2CDS 254 001 R0061<br>2CDS 254 001 R0081<br>2CDS 254 001 R0101<br>2CDS 254 001 R0131<br>2CDS 254 001 R0161<br>2CDS 254 001 R0201<br>2CDS 254 001 R0251<br>2CDS 254 001 R0321<br>2CDS 254 001 R0401<br>2CDS 254 001 R0501<br>2CDS 254 001 R0631|**53112 2**<br>**53113 9**<br>**53114 6**<br>**53115 3**<br>**53116 0**<br>**53117 7**<br>**53118 4**<br>**53119 1**<br>**53120 7**<br>**53121 4**<br>**53122 1**<br>**53123 8**<br>**53129 0**<br>**53130 6**<br>**53131 3**<br>**55209 7**<br>**55210 3**|||0.500|2|



> suitable for flow-type heaters 12 kW @ suitable for flow-type heaters 21, 24 and 27 kW 

> suitable for flow-type heaters 18 kW ® UBmax 125 V ... - with 2 poles connected in series 

33 

Miniature circuit-breakers S 200 series M 

## **System pro** _**M**_ **compact[®]** 

## S 200 M-B 

## **Selection table** 

|No. of<br>poles|rated<br>current<br>InA|**order details**<br>**type code**<br>order code|**order details**<br>**type code**<br>order code|**bbn**<br>**40 16779**<br>**EAN**|**price**<br>1 piece<br>**€**|price<br>group|w'ght<br>1 pc.<br>kg|pack.<br>unit<br>pc.|
|---|---|---|---|---|---|---|---|---|
|1<br>UBmax<br>440 V<br>60 V ..~~.~~<br>~|6<br>10<br>13<br>16<br>20<br>25<br>32<br>40<br>50<br>63<br>O)<br>@<br>®|**S 201 M-B   6**<br>**S 201 M-B 10**<br>**S 201 M-B 13**<br>**S 201 M-B 16**<br>**S 201 M-B 20**<br>**S 201 M-B 25**<br>**S 201 M-B 32**<br>**S 201 M-B 40**<br>**S 201 M-B 50**<br>**S 201 M-B 63**|2CDS 271 001 R0065<br>2CDS 271 001 R0105<br>2CDS 271 001 R0135<br>2CDS 271 001 R0165<br>2CDS 271 001 R0205<br>2CDS 271 001 R0255<br>2CDS 271 001 R0325<br>2CDS 271 001 R0405<br>2CDS 271 001 R0505<br>2CDS 271 001 R0635|**54942 4**<br>**54943 1**<br>**54944 8**<br>**54945 5**<br>**54946 2**<br>**54947 9**<br>**54948 6**<br>**54949 3**<br>**54381 1**<br>**54382 8**|||0.125|10/40|
|2<br>UBmax<br>440 V<br>125 V ..~~.~~<br>.|6<br>10<br>13<br>16<br>20<br>25<br>32<br>40<br>50<br>63|**S 202 M-B   6**<br>**S 202 M-B 10**<br>**S 202 M-B 13**<br>**S 202 M-B 16**<br>**S 202 M-B 20**<br>**S 202 M-B 25**<br>**S 202 M-B 32**<br>**S 202 M-B 40**<br>**S 202 M-B 50**<br>**S 202 M-B 63**|2CDS 272 001 R0065<br>2CDS 272 001 R0105<br>2CDS 272 001 R0135<br>2CDS 272 001 R0165<br>2CDS 272 001 R0205<br>2CDS 272 001 R0255<br>2CDS 272 001 R0325<br>2CDS 272 001 R0405<br>2CDS 272 001 R0505<br>2CDS 272 001 R0635|**54958 5**<br>**54959 2**<br>**54960 8**<br>**54961 5**<br>**54962 2**<br>**54963 9**<br>**54964 6**<br>**54965 3**<br>**54385 9**<br>**54386 6**|||0.250|5/20|
|3<br>UBmax<br>440 V<br>~|6<br>10<br>13<br>16<br>20<br>25<br>32<br>40<br>50<br>63<br>O)<br>@<br>®|**S 203 M-B  6**<br>**S 203 M-B 10**<br>**S 203 M-B 13**<br>**S 203 M-B 16**<br>**S 203 M-B 20**<br>**S 203 M-B 25**<br>**S 203 M-B 32**<br>**S 203 M-B 40**<br>**S 203 M-B 50**<br>**S 203 M-B 63**|2CDS 273 001 R0065<br>2CDS 273 001 R0105<br>2CDS 273 001 R0135<br>2CDS 273 001 R0165<br>2CDS 273 001 R0205<br>2CDS 273 001 R0255<br>2CDS 273 001 R0325<br>2CDS 273 001 R0405<br>2CDS 273 001 R0505<br>2CDS 273 001 R0635|**54966 0**<br>**54967 7**<br>**54968 4**<br>**54969 1**<br>**54970 7**<br>**54971 4**<br>**54972 1**<br>**54973 8**<br>**54387 3**<br>**54388 0**|||0.375|3/12|
|4<br>UBmax<br>440 V<br>125 V ..~~.~~|6<br>10<br>13<br>16<br>20<br>25<br>32<br>40<br>50<br>63|**S 204 M-B  6**<br>**S 204 M-B 10**<br>**S 204 M-B 13**<br>**S 204 M-B 16**<br>**S 204 M-B 20**<br>**S 204 M-B 25**<br>**S 204 M-B 32**<br>**S 204 M-B 40**<br>**S 204 M-B 50**<br>**S 204 M-B 63**|2CDS 274 001 R0065<br>2CDS 274 001 R0105<br>2CDS 274 001 R0135<br>2CDS 274 001 R0165<br>2CDS 274 001 R0205<br>2CDS 274 001 R0255<br>2CDS 274 001 R0325<br>2CDS 274 001 R0405<br>2CDS 274 001 R0505<br>2CDS 274 001 R0635|**54982 0**<br>**54983 7**<br>**54984 4**<br>**54985 1**<br>**54986 8**<br>**54987 5**<br>**54988 2**<br>**54989 9**<br>**54391 0**<br>**54392 7**|||0.500|2|



> suitable for flow-type heaters 12 kW ® suitable for flow-type heaters 21, 24 and 27 kW 

> suitable for flow-type heaters 18 kW ® UBmax 125 V ... _ with 2 poles connected in series 

41 

## Miniature circuit-breakers **System pro** _**M**_ **compact[®]** S 200 series M 

## S 200 M-B 

## **Selection table** 

|B|B|B|B|B|||No. of<br>poles|No. of<br>poles||rated<br>current<br>InA|rated<br>current<br>InA|**order details**<br>**type code**|order code|**bbn**<br>**40 16779**<br>**EAN**|**price**<br>1 piece<br>**€**|price<br>group|w'ght<br>1 pc.<br>kg|pack.<br>unit<br>pc.|
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
||||||||||||||||||||
||10000<br>3||||||**With disconnecting neutral NA**||||||||||||
||||||||1|||6||**S 201 M-B   6 NA**|2CDS 271 103 R0065|**54950 9**|||0.250|50/40|
|||||||||||10||**S 201 M-B 10 NA**|2CDS 271 103 R0105|**54951 6**|||||
||||||||+|||13||**S 201 M-B 13 NA**|2CDS 271 103 R0135|**54952 3**|||||
|||||®e||,||NA|||16<br>20|20<br>©|**S 201 M-B 16 NA**<br>**S 201 M-B 20 NA**|2CDS 271 103 R0165<br>2CDS 271 103 R0205|**54953 0**<br>**54954 7**|||||
|||||||SK 032 B 02|UBmax<br>440 V<br>60 V ..~~.~~<br>-}~~|~~|||25<br>32<br>40<br>50|32<br>40<br>®|**S 201 M-B 25 NA**<br>**S 201 M-B 32 NA**<br>**S 201 M-B 40 NA**<br>**S 201 M-B 50 NA**|2CDS 271 103 R0255<br>2CDS 271 103 R0325<br>2CDS 271 103 R0405<br>2CDS 271 103 R0505|**54955 4**<br>**54956 1**<br>**54957 8**<br>**54383 5**|||||
|||||||||||63||**S 201 M-B 63 NA**|2CDS 271 103 R0635|**54384 2**|||||
||||||||3|||6||**S 203 M-B   6 NA**|2CDS 273 103 R0065|**54974 5**|||0.500|2/20|
|||||||||||10||**S 203 M-B 10 NA**|2CDS 273 103 R0105|**54975 2**|||||
||||||||+|||13||**S 203 M-B 13 NA**|2CDS 273 103 R0135|**54976 9**|||||
||||||||NA|||16||**S 203 M-B 16 NA**|2CDS 273 103 R0165|**54977 6**|||||
|||||||||||20|20<br>®|**S 203 M-B 20 NA**|2CDS 273 103 R0205|**54978 3**|||||
|||||||||||25||**S 203 M-B 25 NA**|2CDS 273 103 R0255|**54979 0**|||||
||||||||UBmax|||32|32<br>@|**S 203 M-B 32 NA**|2CDS 273 103 R0325|**54980 6**|||||
||||||||440 V||440 V<br>~|40|40<br>©)|**S 203 M-B 40 NA**|2CDS 273 103 R0405|**54981 3**|||||
|||||||||||50||**S 203 M-B 50 NA**|2CDS 273 103 R0505|**54389 7**|||||
|||||||||||63||**S 203 M-B 63 NA**|2CDS 273 103 R0635|**54390 3**|||0.580||



suitable for flow-type heaters 12 kW ©) suitable for flow-type heaters 21, 24 and 27 kW suitable for flow-type heaters 18 kW 

42 

## Miniature circuit-breakers **System pro** _**M**_ **compact[®]** S 200 series M 

## S 200 M-C 

## **Selection table** 

|No. of<br>poles|rated<br>current<br>InA|**order details**<br>**type code**<br>order code|**order details**<br>**type code**<br>order code|**bbn**<br>**40 16779**<br>**EAN**|**price**<br>1 piece<br>**€**|price<br>group|w'ght<br>1 pc.<br>kg|pack.<br>unit<br>pc.|
|---|---|---|---|---|---|---|---|---|
|1<br>UBmax<br>440 V<br>60 V ..~~.~~<br>~|<br>— ||0.5<br>1<br>1.6<br>2<br>3<br>4<br>6<br>8<br>10<br>13<br>16<br>20<br>25<br>32<br>40<br>50<br>63<br>®<br>@<br>| @|**S 201 M-C   0.5**<br>**S 201 M-C   1**<br>**S 201 M-C   1.6**<br>**S 201 M-C   2**<br>**S 201 M-C   3**<br>**S 201 M-C   4**<br>**S 201 M-C   6**<br>**S 201 M-C   8**<br>**S 201 M-C 10**<br>**S 201 M-C 13**<br>**S 201 M-C 16**<br>**S 201 M-C 20**<br>**S 201 M-C 25**<br>**S 201 M-C 32**<br>**S 201 M-C 40**<br>**S 201 M-C 50**<br>**S 201 M-C 63**|2CDS 271 001 R0984<br>2CDS 271 001 R0014<br>2CDS 271 001 R0974<br>2CDS 271 001 R0024<br>2CDS 271 001 R0034<br>2CDS 271 001 R0044<br>2CDS 271 001 R0064<br>2CDS 271 001 R0084<br>2CDS 271 001 R0104<br>2CDS 271 001 R0134<br>2CDS 271 001 R0164<br>2CDS 271 001 R0204<br>2CDS 271 001 R0254<br>2CDS 271 001 R0324<br>2CDS 271 001 R0404<br>2CDS 271 001 R0504<br>2CDS 271 001 R0634|**54990 5**<br>**54992 9**<br>**54991 2**<br>**54993 6**<br>**54994 3**<br>**54995 0**<br>**54996 7**<br>**54997 4**<br>**54998 1**<br>**54999 8**<br>**55000 0**<br>**55001 7**<br>**55002 4**<br>**55003 1**<br>**55004 8**<br>**54393 4**<br>**54394 1**|||0.125|10/40|
|2<br>UBmax<br>440 V<br>125 V ..~~.~~<br>@|0.5<br>1<br>1.6<br>2<br>3<br>4<br>6<br>8<br>10<br>13<br>16<br>20<br>25<br>32<br>40<br>50<br>63|**S 202 M-C   0.5**<br>**S 202 M-C   1**<br>**S 202 M-C   1.6**<br>**S 202 M-C   2**<br>**S 202 M-C   3**<br>**S 202 M-C   4**<br>**S 202 M-C   6**<br>**S 202 M-C   8**<br>**S 202 M-C 10**<br>**S 202 M-C 13**<br>**S 202 M-C 16**<br>**S 202 M-C 20**<br>**S 202 M-C 25**<br>**S 202 M-C 32**<br>**S 202 M-C 40**<br>**S 202 M-C 50**<br>**S 202 M-C 63**|2CDS 272 001 R0984<br>2CDS 272 001 R0014<br>2CDS 272 001 R0974<br>2CDS 272 001 R0024<br>2CDS 272 001 R0034<br>2CDS 272 001 R0044<br>2CDS 272 001 R0064<br>2CDS 272 001 R0084<br>2CDS 272 001 R0104<br>2CDS 272 001 R0134<br>2CDS 272 001 R0164<br>2CDS 272 001 R0204<br>2CDS 272 001 R0254<br>2CDS 272 001 R0324<br>2CDS 272 001 R0404<br>2CDS 272 001 R0504<br>2CDS 272 001 R0634|**55020 8**<br>**55022 2**<br>**55021 5**<br>**55023 9**<br>**55024 6**<br>**55025 3**<br>**55026 0**<br>**55027 7**<br>**55028 4**<br>**55029 1**<br>**55030 7**<br>**55031 4**<br>**55032 1**<br>**55033 8**<br>**55034 5**<br>**54397 2**<br>**54398 9**|||0.250|5/20|
|3<br>UBmax<br>440 V<br>_|<br>~~@~~|0.5<br>1<br>1.6<br>2<br>3<br>4<br>6<br>8<br>10<br>13<br>16<br>20<br>25<br>32<br>40<br>50<br>63<br>©<br>6<br>©)<br>~~Ty~~|**S 203 M-C   0.5**<br>**S 203 M-C   1**<br>**S 203 M-C   1.6**<br>**S 203 M-C   2**<br>**S 203 M-C   3**<br>**S 203 M-C   4**<br>**S 203 M-C   6**<br>**S 203 M-C   8**<br>**S 203 M-C 10**<br>**S 203 M-C 13**<br>**S 203 M-C 16**<br>**S 203 M-C 20**<br>**S 203 M-C 25**<br>**S 203 M-C 32**<br>**S 203 M-C 40**<br>**S 203 M-C 50**<br>**S 203 M-C 63**<br>~~Ty~~|2CDS 273 001 R0984<br>2CDS 273 001 R0014<br>2CDS 273 001 R0974<br>2CDS 273 001 R0024<br>2CDS 273 001 R0034<br>2CDS 273 001 R0044<br>2CDS 273 001 R0064<br>2CDS 273 001 R0084<br>2CDS 273 001 R0104<br>2CDS 273 001 R0134<br>2CDS 273 001 R0164<br>2CDS 273 001 R0204<br>2CDS 273 001 R0254<br>2CDS 273 001 R0324<br>2CDS 273 001 R0404<br>2CDS 273 001 R0504<br>2CDS 273 001 R0634<br>~~TyqT~~|**55035 2**<br>**55037 6**<br>**55036 9**<br>**55038 3**<br>**55039 0**<br>**55040 6**<br>**55041 3**<br>**55042 0**<br>**55043 7**<br>**55044 4**<br>**55045 1**<br>**55046 8**<br>**55047 5**<br>**55048 2**<br>**55049 9**<br>**54399 6**<br>**54400 9**<br>~~qT~~|~~qT~~|~~qT~~|0.375<br>~~qT~~|3/12|
|4<br>UBmax<br>440 V<br>125 V ..~~.~~<br>~~@~~|0.5<br>1<br>1.6<br>2<br>3<br>4<br>6<br>8<br>10<br>13<br>16<br>20<br>25<br>32<br>40<br>50<br>63<br>~~Ty~~|**S 204 M-C   0.5**<br>**S 204 M-C   1**<br>**S 204 M-C   1.6**<br>**S 204 M-C   2**<br>**S 204 M-C   3**<br>**S 204 M-C   4**<br>**S 204 M-C   6**<br>**S 204 M-C   8**<br>**S 204 M-C 10**<br>**S 204 M-C 13**<br>**S 204 M-C 16**<br>**S 204 M-C 20**<br>**S 204 M-C 25**<br>**S 204 M-C 32**<br>**S 204 M-C 40**<br>**S 204 M-C 50**<br>**S 204 M-C 63**<br>~~Ty~~|2CDS 274 001 R0984<br>2CDS 274 001 R0014<br>2CDS 274 001 R0974<br>2CDS 274 001 R0024<br>2CDS 274 001 R0034<br>2CDS 274 001 R0044<br>2CDS 274 001 R0064<br>2CDS 274 001 R0084<br>2CDS 274 001 R0104<br>2CDS 274 001 R0134<br>2CDS 274 001 R0164<br>2CDS 274 001 R0204<br>2CDS 274 001 R0254<br>2CDS 274 001 R0324<br>2CDS 274 001 R0404<br>2CDS 274 001 R0504<br>2CDS 274 001 R0634<br>~~TyqT~~|**55065 9**<br>**55067 3**<br>**55066 6**<br>**55068 0**<br>**55069 7**<br>**55070 3**<br>**55071 0**<br>**55072 7**<br>**55073 4**<br>**55074 1**<br>**55075 8**<br>**55076 5**<br>**55077 2**<br>**55078 9**<br>**55079 6**<br>**54403 0**<br>**54404 7**<br>~~qT~~|~~qT~~|~~qT~~|0.500<br>~~qT~~|2|



43 

Miniature circuit-breakers **System pro** _**M**_ **compact[®]** S 200 series M 

## S 200 M-C 

## **Selection table** 

C 10000 or 3 

|1<br>+<br>NA<br>UBmax<br>440 V<br>60 V ..~~.~~<br>~<br>~~~~~<br>||0.5<br>1<br>1.6<br>2<br>3<br>4<br>6<br>8<br>10<br>13<br>16<br>20<br>25<br>32<br>40<br>50<br>63<br>®<br>~)<br>~~~~~<br>||**S 201 M-C   0.5 NA**<br>**S 201 M-C   1   NA**<br>**S 201 M-C   1.6 NA**<br>**S 201 M-C   2   NA**<br>**S 201 M-C   3   NA**<br>**S 201 M-C   4   NA**<br>**S 201 M-C   6   NA**<br>**S 201 M-C   8   NA**<br>**S 201 M-C 10   NA**<br>**S 201 M-C 13   NA**<br>**S 201 M-C 16   NA**<br>**S 201 M-C 20   NA**<br>**S 201 M-C 25   NA**<br>**S 201 M-C 32   NA**<br>**S 201 M-C 40   NA**<br>**S 201 M-C 50   NA**<br>**S 201 M-C 63   NA**<br>)<br>~~~~~|2CDS 271 103 R0984<br>2CDS 271 103 R0014<br>2CDS 271 103 R0974<br>2CDS 271 103 R0024<br>2CDS 271 103 R0034<br>2CDS 271 103 R0044<br>2CDS 271 103 R0064<br>2CDS 271 103 R0084<br>2CDS 271 103 R0104<br>2CDS 271 103 R0134<br>2CDS 271 103 R0164<br>2CDS 271 103 R0204<br>2CDS 271 103 R0254<br>2CDS 271 103 R0324<br>2CDS 271 103 R0404<br>2CDS 271 103 R0504<br>2CDS 271 103 R0634<br>)|**55005 5**<br>**55007 9**<br>**55006 2**<br>**55008 6**<br>**55009 3**<br>**55010 9**<br>**55011 6**<br>**55012 3**<br>**55013 0**<br>**55014 7**<br>**55015 4**<br>**55016 1**<br>**55017 8**<br>**55018 5**<br>**55019 2**<br>**54395 8**<br>**54396 5**|||0.250<br>0.290|5|
|---|---|---|---|---|---|---|---|---|
|3<br>+<br>NA<br>UBmax<br>440 V<br>~ ||0.5<br>1<br>1.6<br>2<br>3<br>4<br>6<br>8<br>10<br>13<br>16<br>20<br>25<br>32<br>40<br>50<br>63<br>)<br>||**S 203 M-C   0.5 NA**<br>**S 203 M-C   1   NA**<br>**S 203 M-C   1.6 NA**<br>**S 203 M-C   2   NA**<br>**S 203 M-C   3   NA**<br>**S 203 M-C   4   NA**<br>**S 203 M-C   6   NA**<br>**S 203 M-C   8   NA**<br>**S 203 M-C 10   NA**<br>**S 203 M-C 13   NA**<br>**S 203 M-C 16   NA**<br>**S 203 M-C 20   NA**<br>**S 203 M-C 25   NA**<br>**S 203 M-C 32   NA**<br>**S 203 M-C 40   NA**<br>**S 203 M-C 50   NA**<br>**S 203 M-C 63   NA**|2CDS 273 103 R0984<br>2CDS 273 103 R0014<br>2CDS 273 103 R0974<br>2CDS 273 103 R0024<br>2CDS 273 103 R0034<br>2CDS 273 103 R0044<br>2CDS 273 103 R0064<br>2CDS 273 103 R0084<br>2CDS 273 103 R0104<br>2CDS 273 103 R0134<br>2CDS 273 103 R0164<br>2CDS 273 103 R0204<br>2CDS 273 103 R0254<br>2CDS 273 103 R0324<br>2CDS 273 103 R0404<br>2CDS 273 103 R0504<br>2CDS 273 103 R0634|**55051 2**<br>**55052 9**<br>**55050 5**<br>**55053 6**<br>**55054 3**<br>**55055 0**<br>**55056 7**<br>**55057 4**<br>**55058 1**<br>**55059 8**<br>**55060 4**<br>**55061 1**<br>**55062 8**<br>**55063 5**<br>**55064 2**<br>**54401 6**<br>**54402 3**|||0.500<br>0.580|2|



suitable for flow-type heaters 18 kW 

## **System pro** _**M**_ **compact[®]** 

## Supplementary devices MCB’s Range S 200/S 200 M 

**==> picture [108 x 131] intentionally omitted <==**

**----- Start of picture text -----**<br>
SC-S/H6R<br>S 2C-A<br>SK 011 B 02<br>SK 209 B 02<br>**----- End of picture text -----**<br>


|Description|**order details**||**bbn**|**price**|price|w'ght|pack.|
|---|---|---|---|---|---|---|---|
||||**40 16779**|1 piece|group|1 pc.|unit|
||**type code**|order code|**EAN**|**€**||kg|pc.|
|**Signalcontact/Auxiliary switch**(universal)||||||||
|Retrofittable to the right side of MCB’s, RCB’s and Shunt trip’s<br>1 change over<br>**S 2C-S/H6R**<br>2CDS 200 922 R0001<br>**Auxiliary contact**<br>Retrofittable to the right side of MCB’s<br>1 change over<br>**S 2C-H6R**<br>2CDS 200 912 R0001|||**56381 9**<br>**56382 6**|||0.04<br>0.04|1<br>1|
|**Shunt trip**||||||||
|AC/DC 12 …  60 V|**S 2C-A1**|2CDS 200 909 R0001|**57099 2**|||0.15|1|
|AC 110 …   415 V und||||||||
|DC 110 …   250 V<br>**S 2C-A2**<br>**Undervoltage release (in preparation)**<br>DC         12 V<br>**S 2C-UA  12**<br>AC/DC   24 V<br>**S 2C-UA  24**<br>AC/DC   48 V<br>**S 2C-UA  48**||2CDS 200 909 R0002<br>2CDS 200 911 R0001<br>2CDS 200 911 R0002<br>2CDS 200 911 R0003|**57100 5**<br>**57101 2**<br>**57102 9**<br>**57103 6**|||0.09|1|
|AC/DC 110 V|**S 2C-UA 110**|2CDS 200 911 R0004|**57104 3**|||||
|AC/DC 220 V<br>AC       380 V|**S 2C-UA 220**<br>**S 2C-UA 380**|2CDS 200 911 R0005<br>2CDS 200 911 R0006|**57105 0**<br>**57106 7**|||||



44 

## RCCBs and RCBOs **System pro** _**M**_ **compact[®]** and their fields of applications 

**==> picture [513 x 686] intentionally omitted <==**

**----- Start of picture text -----**<br>
Areas of application DIN VDE… Required F 200 F 200 F 172 F220<br>sensitivity F 660 F 690 FS 200 F 804<br>InmA F 670<br>S<br>In apartments �32 A 0100 – 739 10…30 F 200 F 172<br>Socket-outlets up to 20 A F 660 FS 200<br>0100 – 470 10…30<br>Outdoor lightning F 670<br>installations 0100 – 714 10…30<br>F 200 F 200 F 172<br>Fire protection in<br>F 660 F 690 FS 200<br>high-risk or 0100 – 482 10 u. 30<br>F 670<br>high-danger areas<br>F 200 F 172<br>Rooms with bath tub<br>0100 – 701 10…30 F 660 FS 200<br>or shower<br>Swimming pools 0100 – 702 10…30 F 670<br>Construction sites F 200 F 200 F 172 F 220<br>Socket-outlet circuits 0100 – 704 10…30 F 660 F 690 FS 200 F 804<br>up to 32 A and other BG F&E �300…500 [�] F 670<br>socket-outlet circuits Type B<br>Agricultural and �300…500 [�] F 200 F 200 F 172<br>horticultural properties, F 660 F 690 FS 200<br>0100 – 705<br>General socket-outlet F 670 F 270<br>circuits 10…30 P 270<br>F 200 F 172<br>Feed points for caravans F 660 FS 200<br>0100 – 708 10…30<br>Camp sites F 670<br>F 200 F 172<br>Berths F 660 FS 200<br>0100 – 721 10…30<br>Socket-outlets F 670<br>F 200 F 200 F 172<br>Temporary buildings,<br>F 660 F 690 FS 200<br>carny carriages and 0100 – 722 30 and 300<br>F 670<br>caravans, Feed points<br>Medical rooms at In � 32 A F 200 F 200 F 172 F 220<br>Group 1 0100 – 710 10…30 F 660 F 690 FS 200 F 804<br>Group 2 a 10…30 F 670<br>Group 2 b � 300 Type B<br>Equipment of power F 200 F 200 F 172 F 220<br>0160<br>installations with electronic F 660 F 690 FS 200 F 804<br>DIN EN � 4kVA 10…30<br>items I�b type A, F 670<br>50 178 > 4kVA 300<br>test for type B Type B<br>Photovoltaics F 220<br>0100 – 712 E � 30 F 802<br>EnBW Type B<br>**----- End of picture text -----**<br>


> **� Operating areas subject to fire hazards… VdS 2033: 2002 – 02 � 300 mA** 

51 

**System** Approvals and certifications **pro** _**M**_ **compact[®]** by classification societies 

## **MCB’s and RCB’s** 

|Type|Approvals|Approvals|Approvals|Approvals|Approvals|Approvals|Approvals|Approvals|Approvals|Approvals|Approvals|Approvals|Shipclassification associatons|Shipclassification associatons|Shipclassification associatons|Shipclassification associatons|
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
|Sign of<br>comformity<br>Code<br>Valid for|SEV<br>CH|BD 6<br>DEMKO <br>DK|NEMKO <br>N|SEMKO<br>S|EL.<br>SF|CSA<br>Inspect.<br>CDN<br>USA<br>277/480 V~<br>""||KEMA<br>NL|ÖVE<br>A|CEBEC<br>B|UTE<br>F|VDE<br>D|BV<br>F|GL<br>D|LRS<br>GB|DNV<br>N|
|S 200, B, C<br>1 – 4pole|||||||||||||||||
|S 200 M<br>1 – 4pole|||||||||||||||||
|F 200 - 16/25/<br>40 – 0.01/<br>0.03/0.1/<br>0.3/0.5|||||||||||||||||
|F 200 A, AC, S<br>2/4 pole<br>16…63 A<br>0.01…0.5 A|||||||||||||||||
|FS 201 B<br>6…40/0,03 A<br>C 16/0,03|||||||||||||||||



approved 

submitted for aproval/planed to be submitted Approved variants on request Approval not required 

Back-up protection usually required. For details contact your importer and/or inspector. 

## ABB STOTZ-KONTAKT GmbH 

P.O. Box 10 16 80, 69006 Heidelberg, Germany Eppelheimer Straße 82, 69123 Heidelberg, Germany Telephone: +49 (0) 62 21 701- 0 Fax: +49 (0) 62 21 701-723 www.abb.de/stotz-kontakt 

52
Updated at June 7, 2026
ABB is a global leader in power and automation technologies, recognized for delivering innovative solutions that improve performance while minimizing environmental impact. Serving a diverse range of sectors including industrial processing, OEM, and building services, ABB provides highly reliable components designed to meet the rigorous demands of modern electrical systems. The company is particularly renowned for its advanced circuit protection solutions. This includes a comprehensive selection of thermal magnetic circuit breakers, alongside specialized RCBO, RCD, GFCI, and AFDD circuit breakers. These foundational safety components are supported by a wide array of high-quality fuse holders and circuit breaker accessories, ensuring complete protection for complex industrial and commercial installations. Beyond circuit protection, ABB excels in automation and process control. Their offering features sophisticated visual signal indicator units, industrial switch accessories, and panel instrumentation designed for intuitive system monitoring. Additionally, ABB manufactures a robust range of power relays, safety relays, and AC/DC converters, providing engineers with the critical building blocks needed for efficient, secure, and reliable control panels.
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