48vdc powered transmitter hookup diagram – Nitek ER8500C User Manual

Optional Hookup for High Power PoE Devices

ET1500C Units

In some cases the PoE device connected at the transmitter end needs more power than can be supported over a
long coaxial run. You can usually identify these cases by watching the POWER LED of the transmitter, located on
the “Network Port”. If the power light cycles ON for less then 1 second and then is off for 3 or 4 seconds when the
PoE device is connected, but it turns ON and operates normally without a PoE device connected, this would indi-
cate you are having a current limit problem.

You should first check the power requirements of the PoE device. Also check the length of the coaxial cable. The
POE POWER CHART on the previous page will indicate the maximum power available for your length of coax.

If the needed level of power is not available for the length of coaxial cable, alternate options are available. One
method is to directly power the transmitter with a 48VDC power supply as shown below (Nitek# PS48). When pow-
ered directly from a 48VDC supply the transmitter can deliver full 802.3AT power regardless of the coaxial cable
length plus an additional length of up to 100 meters of network cable.

Transmitter used as

PoE Injector*

Distance from

Network Port

PoE Device Power

Available

30ft/10m

33 watts

325ft/100m

26 watts

*

Results with 48VDC power to the

Transmitter optional Power Port

IP Camera

Coax from

Head-end

48VDC Powered Transmitter Hookup Diagram

Link Port

Network

Port

115 VAC

Optional

48VDC

Supply