Triplett CableRater- PN: 3279 User Manual

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(at 100 feet) must be considered if the Provider has channels reaching up to 100

or more. The difference between the 60MHz and 900MHz levels is called ‘tilt’. In

this case, the tilt is about 8dB in 100ft of RG-59. 50ft of RG-59 would exhibit

about 4dB of tilt.

It is not unusual for the Cable TV Provider to have already introduced tilt com-

pensation to the TV signals. That is, the higher frequencies (channels) will al-

ready be adjusted higher in level when delivered to the customer premises. A tilt

of +4dB is typical.. which would compensate for about 50ft of coax. If one con-

siders the AGC circuit (Automatic Gain Control) in all modern TV appliances, the

tilt of an additional 50ft of coax is automatically compensated for. So, depending

on the signal coming from the Provider, it may not be necessary to introduce

any special compensation on up to 100ft of coax... even on a 100 or 150 channel

system.

Systems with a lower number of channels, like 78 or 80 channel systems, often

don’t require special compensation until the coax is longer than 200ft.

If tilt compensation is required, an in-line tilt compensator or an amplifier with a

tilt adjustment can be used. Use the instructions provided with the compensator

for proper use and adjustment.

9.9 Identifying Cables

When a large number of cables have been installed and are unmarked, the

CableRater can aid in identifying the cables. The typical distribution system lay-

out has the ends of all of the cables routed to a central location, and the far ends

of these cables located in the areas where televisions will be connected.

Calibrate the Transmitter as described in 9.4. Estimate the length of cable to be

tested and estimate its loss. For example, a 100 foot cable will have about 2 or

3dB of Loss (see Figure 6). Turn on the Transmitter and connect it to the TV end

of the cable. At the central location, turn on the Receiver and experimentally

connect it to various cable ends. All of the cables, except the one with the Trans-

mitter signal, should measure Underrange.

The measured signal from the Transmitter should show the loss of the cable. If

the loss is higher than the amount attributable to the estimate of cable length,

then there may be a splitter or other device inserted somewhere in the cable... or

the cable may be faulty. If there is a splitter in the cable, then the Transmitter’s

signal may appear on more than one cable. Once you believe you have identified

the cable, turn off the Transmitter and verify that the Receiver reads Underrange.

If you obtain unexpected readings on the Receiver, you may be seeing the ef-

fects of Ingress. See section 9.3.