Difference between revisions of "Switching Contacts"

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(6.4.4 Switching Contacts)
(6.4.4 Switching Contacts)
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*'''Contact Phenomena under the influence of arcing Matertia'''
 
*'''Contact Phenomena under the influence of arcing Matertia'''
 
**'''Material transfer'''
 
**'''Material transfer'''
Fig. 6.12: Material transfer under DC load a) Cathode; b) Anode.
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6 Material: AgNi0.15; Switching parameters: 12VDC, 3 A, 2x10 operations
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<xr id="fig:fig6.12"/> Fig. 6.12: Material transfer under DC load a) Cathode; b) Anode. <br /> Material: AgNi0.15; Switching parameters: 12V<sub>DC</sub>, 3 A, 2x10<sup>6</sup> operations
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<figure id="fig:fig6.12">
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[[File:Material transfer under DC load.jpg|left|thumb|<caption>Material transfer under DC load a) Cathode; b) Anode. <br /> Material: AgNi0.15; Switching parameters: 12V<sub>DC</sub>, 3 A, 2x10<sup>6</sup> operations</caption>]]
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**'''Arc erosion'''
 
**'''Arc erosion'''
  

Revision as of 15:39, 1 April 2014

6.4.4 Switching Contacts

  • Effects during switching operations

Figure 1 Fig. 6.7: Contact opening with arc formation schematic

Figure 1: Contact opening with arc formation (schematic)
  • Influence of out-gasing from plastics

Figure 2 Fig. 6.9: Histogram of the contact resistance Rk of an electroplated palladium layer (3 μm) with and without hard gold flash plating (0.2 μm) after exposure with different plastic materials

Figure 3 Fig. 6.10: Contact resistance with exposure to out gasing from plastics as a function of numbers of operations at 6 VDC,100 mA: 1 Silicon containing plastic; 2 Plastics with strongly out-gasing components; 3 Plastics with minimal out-gasing components


Figure 2: Histogram of the contact resistance RK< /sub> of an electroplated palladium layer (3 μm) with and without hard gold flash plating (0.2 μm) after exposure with different plastic materials
Figure 3: Contact resistance with exposure to out-gasing from plastics as a function of numbers of operations at 6 VDC,100 mA: 1 Silicon containing plastic; 2 Plastics with strongly out-gasing components; 3 Plastics with minimal out-gasing components


  • Influence of corrosive gases on the contact resistance

Figure 4 Fig. 6.11: Distribution of cumulative frequency H of the contact resistance for solid contact rivets after 10 days exposure in a three-component test environment with 400 ppb each of H2S, SO2 and NO2 at 25°C, 75% RH; Contact force 10cN; Measuring parameters: ≤ 40 mVDC,10 mA; Probing contact: Gold rivet

Figure 4: Distribution of cumulative frequency H of the contact resistance for solid contact rivets after 10 days exposure in a three-component test environment with 400 ppb each of H2S, SO2 and NO2 at 25°C, 75% RH; Contact force 10cN; Measuring parameters: ≤ 40 mVDC,10 mA; Probing contact: Gold rivet


Fig. 6.8: Influences on contact areas in relays


  • Contact Phenomena under the influence of arcing Matertia
    • Material transfer

Figure 5 Fig. 6.12: Material transfer under DC load a) Cathode; b) Anode.
Material: AgNi0.15; Switching parameters: 12VDC, 3 A, 2x106 operations

Figure 5: Material transfer under DC load a) Cathode; b) Anode.
Material: AgNi0.15; Switching parameters: 12VDC, 3 A, 2x106 operations
    • Arc erosion

Fig. 6.13 Arc erosion of a Ag/SnO2 contact pair after extreme arcing conditions a) Overall view; b) Partial detail view

    • Contact welding

Fig. 6.14: Micro structure of a welded contact pair (Ag/SnO2 88/12 - Ag/CdO88/12) after extremely high current load. a) Ag/SnO2 88/12; b) Ag/CdO88/12

References

References

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