Toa TS-910 Series Installation User Manual

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2) Finding the maximum cable length using voltage drop

The current flowing from the Distributor into each coaxial cable connected to the TS-905 Infrared Transmitter/

Receiver unit is 0.1 A, since the number of Infrared Transmitter/Receiver units connected to each coaxial

cable is 1.

Assuming that RG-59/U coaxial cable is used, the voltage drop between the Distributor and the Infrared

Transmitter/Receiver unit is calculated by the following equation:

Voltage drop = 16.82 Ω x (50 m / 100 m) x 0.1 A

= 0.841 V

A remaining voltage of 4.159 V (5 V – 0.841 V) is the maximum allowable voltage drop between the Central

unit and the Distributor. The current that flows between the two is 0.4 A.

When RG-6/U coaxial cable is used between the Central unit and the Distributor, the cable length L1 between

the two is,

L1 = { (Voltage drop 1 / Current 1) / Coaxial cable loop resistance 1 per 100 m }

= { (4.159 V / 0.4 A) / 12.82 Ω } x 100 m

= 81 m

Maximum cable length L between the Central unit and the Infrared Transmitter/Receiver unit is calculated

by the following equation:

L = L1 + 50 m

= 81 m + 50 m

= 131 m

Similarly calculated for other types of coaxial cables, the maximum cable length between the Central unit

and the Infrared Transmitter/Receiver unit is found in the following table.

The table below shows the required maximum cable length for the example 2, the shorter length of the

calculation results (1) and (2) above.

RG-59/U

111 m

RG-6/U

131 m

RG-11/U

483 m

RG-59/U

111 m

RG-6/U

131 m

RG-11/U

483 m