Amphenol Procom PRO-DAR8 Manuel de l'utilisateur - Page 13
Parcourez en ligne ou téléchargez le pdf Manuel de l'utilisateur pour {nom_de_la_catégorie} Amphenol Procom PRO-DAR8. Amphenol Procom PRO-DAR8 15 pages. 19” rack-mountable dual amplifier receiver multicoupler
A 3-wire IEC power cord must be used for mains voltage connection.
7.3.2 Protective earth
The main earthing point is the center contact of the mains power inlet.
See rear view above in section 7.2.
Connection to protective earth is provided via the 3-wire IEC power cord.
The PRO-DAR models therefore must be connected to an earthed mains socket-outlet.
7.3.3 DC power connection
When operating on DC supply voltage as back-up power, together with mains supply
voltage, the PRO-DAR models are to be considered as a class I product with requirement of
connection to protective earth.
In this situation, connection to protective earth is provided via the mains power 3-wire
IEC power cord.
When operating on DC supply voltage exclusively, without mains supply connection,
the PRO-DAR models are to be considered as a class III product with no requirement of
connection to protective earth.
The PRO-DAR models are provided with a 3 pole Phoenix 7.62 mm header/plug
(DC inlet) for connection of 12 VDC, 24 VDC or 48 VDC voltage (depending on model).
The Phoenix header/plug is located on the rear side.
See rear view above in section 7.2.
Regarding Phoenix 7.62 mm cable connector, see chapter 9.1: "Spare parts".
Applied DC voltage must be within the range:
12 VDC models:
24 VDC models:
48 VDC models:
On the top plate next to the Phoenix header/plug are indicated the polarity of the
terminals:
DC supply voltage (if used) must be applied correctly to the PRO-DAR multicoupler.
If the polarization of the applied DC voltage is wrong, the DC fuse will blow.
The fuse must be replaced by a fuse according to chapter 9.1: "Spare parts".
7.4
Equipotential bonding
The center terminal of the 3-pole terminal block marked
bonding.
It is strongly recommended that all interconnected conductive accessible parts in a
system are connected to an equipotential bonding system, in order that no hazardous
touch voltage appears on exposed conductive parts.
10.8 – 14.4 VDC
20 – 32 VDC
40 – 60 VDC
–
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is intended for equipotential