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Criterion
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Guide
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| Voltage Rating |
Reynolds rates voltage as the “maximum operating voltage.” Ratings are for steady state DC The user should define the maximum DC voltage of the proposed circuit and select a connector rated at least 25% above the maximum circuit operating voltage. If the circuit contains voltage with an AC component or is pulsed DC, the user should consult with Reynolds engineering department before choosing a connector. |
| Altitude Operation |
If a proposed application involves operation at a reduced pressure equivalent to 15,000 ft. or higher, the user should refer to p. 42 for background on the relationship of voltage stand off and atmospheric pressure. Connectors presented in this catalog are clearly rated concerning operation at altitude. Reynolds altitude-rated connectors use precision elastomeric seals
to effect an altitude seal and requires no silicone grease to operate reliably at their rated voltage.
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| Operating Temperature |
The user should accurately establish the operating temperature range of any application for high voltage connectors. This
is very important for sea level applications and becomes critical for altitude operation. The user should be realistic in evaluating the temperature range. Connectors designed to operate over a range of -55°C to +125°C are considerably more expensive than those designed for room ambient operation or even -40°C to +70°C. The operating temperature is clearly indicated for all connectors in this catalog. |
| Plugs |
Plugs, the ends that are attached to cable assemblies, are available in some cases as a bag assembly for installation by the user. Reynolds generally discourages the purchase and installation of these connectors by the user, especially if the final assembly is to be used at altitude and/or extremely cold temperature, for several reasons. (1) Extreme cleanliness must be observed to preclude conductive contamination. (2) If the connector requires bonding (most do), only an experienced person with all the necessary potting room equipment should attempt the installation. (3) Assemblies must be voltage–stress tested and, when destined for use at altitude, in an altitude chamber capable of simulating the equivalent of 70,000 ft.
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| Receptacles |
Receptacles also must be kept clean, particularly in the interface area. If the rear portion of the receptacle requires encapsulation, it is best to have this done and tested by Reynolds prior to shipment. However, the potting of a receptacle
is usually straightforward and can be accomplished by following the material manufacturer’s printed instructions. |
| Wire and Cable |
There is no single wire or cable suitable for all applications and conditions. Following are comparisons:
| FEP Advantages: |
Silicone Rubber Advantages: |
| High dielectric |
Fair dielectric strength |
| Abrasion resistant |
Good flexibility |
| Good corona characteristics |
Easy to bond and encapsulate with silicone rubber |
| Can be etched and silicone–rubber coated |
Disadvantages: |
| Resistant to most fluids including Coolanol™ |
Relatively large diameter compared to FEP |
| Disadvantages: |
Susceptible to pinholes and wire migration |
| Must be etched for bonding or encapsulation |
Incompatible with Coolanol™ and some other oil dielectrics |
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| FEP Wire & Cable Etching -Coating |
FEP wire can be etched and coated with silicone rubber for encapsulation using silicone rubber compounds or bonding to molded silicone rubber components using approved elastomeric bonding materials. FEP wire that has been etched but not coated can also be used for encapsulation or bonding to most epoxy materials. These processes give FEP wire a versatility found in no other high voltage wire or cable and make it an excellent choice for most high voltage applications |
| Cable Routing and Bend Radius |
In routing cable, the user should take care to avoid making sharp bends. Sharp bends put added stress on the wire strands and can create a corona stress point. Sharp or rough metal edges in the routing area should also be eliminated, especially when using silicone cable. Torquing a cable excessively during routing should be avoided. |
| Liquid Dielectrics |
Reynolds connectors use silicone rubber seals and “O” rings to effect dielectric and pressure sealing. Silicone rubber, including silicone rubber cable, is incompatible with many dielectric oils and Coolanol™ dielectric. While these are excellent dielectric mediums they can cause silicone rubber to swell. Some Reynolds connectors offer fluorsilicone seals and/or insulators for use with these dielectrics. Only FEP or PFA cable should be used where these dielectrics are present. |
| Loss Line Cable |
Reynolds manufactures a complete line of high voltage loss line or distributed loss R.F. attenuation cable. The user requiring R.F. attenuation should consider using loss line. Reynolds engineers are available for application consultation. |
| Corona |
Users with concerns about corona should consult Reynolds engineering department before making a high voltage connector choice. Reynolds is extremely knowledgeable concerning the origins of corona and its effects and and possible remedies. Reynolds makes no claim to manufacturing “corona-free” connectors, cable or cable assemblies. Reynolds does, however, maintain extensive corona research and test data on its products with the objective of manufacturing connectors as resistant to the effects of corona as possible. Reynolds is noted in the industry for its corona detection equipment and technical competence to analyze the existence and level of corona in a connector or circuit. |