TL-61
OUTPUT CONNECTION. LOAD
. The TL-63 outputs are controlled by a relay, and accepts any device up to 3 A. The relay is
not a component supplying voltage but its function is limited to accept or deny the voltage passage like a standard switch.
For this reason, you have to supply the load through this component.
The relay has three output terminals: The normally open quiescent (NO), the normally closed quiescent (NC) and the
common. Install it between the Common and the NO in accordance with the schedule “Output Connection. Load”. For the
inverse function you have to place the load between the NC and Common.
INFORMATION ABOUT THE OUTPUT.
During the circuit operating mode and according to its load, it could happen a
fluctuation or an incorrect working of the output. In such case, you have to install an anti-spark circuit between both contacts
of the used relay, as it is indicated on the drawing.
TO CONFIGURE THE 2 CHANNELS
SHIPMENT OF DATA.
When you select a decimal number on the transmitter and send an order, the channel on with this
assigned number will recognize and execute it. Therefore, each channel or output must have a different code that differentiates
it from the others. Otherwise, if different channels have the same code, all these channels would be connected at the same
time when the transmitter will emit an order on this code.
Each output or channel has its own micro switches battery to allow you to configure the code or identification number. On the
TL-61, the DIP1 micro switches battery will control the channel Nº1, and DIP2 battery will control channel Nº2.
The configuration and introduction of this code will be done differently according to the used TL-50 or TL-51 transmitter. Read
the corresponding paragraph.
OPERATING WITH EMITTER TL-51
. To use the TL-51 as transmitter in you Via Cables Cebek system, you have to configure
micro switches of the receiver as it is described hereafter:
Select on each channel a decimal number between 1 and 255. When you indicate it on the corresponding micro switches
battery, you must do it in binary.
The conversion from a decimal number to a binary one or vice versa can be done with a scientific calculator. See instructions of
your calculator regarding this matter. However, you have a key with DEC (decimal) and BIN (Binary) abbreviation. In order to do
the conversion from decimal to binary, you have to firstly select the DEC option in the calculator, then introduces the decimal
number. Finally select the option BIN and the calculator will do the conversion, displaying the corresponding binary number.
This number, composed by zero and one will be the number that you have to assign to the wished channel.
Each micro switches battery is composed by 8 switches that can be positioned in ON or OFF. If you select the ON position, this
one will be configured as 1. If you select OFF position, it will be configured as 0. Then you could indicate on the battery the
required binary number.
Once you have this number, you have to indicate it on the corresponding battery. To do it, you have to place all switches in ON
position (1), or in OFF (0) according to the selected number. Switch 1 will be the bit with smaller weight (LSB), whereas switch
8 is the major weight (MSB). Then, you have to introduce the binary number in the opposite way regarding the way you write it
on a paper.
EXAMPLE
. To indicate the number 87 on the channel Nº1 and number 3 on the channel Nº2. Firstly, you have to convert
both decimal numbers into binary numbers. The equivalent binary for the number 87 is 1010111, and the equivalent of the
number 3 is 11. After the conversion, start introducing the code 1010111, (corresponding to the number 87) in DIP1 battery.
Remember that units will correspond with switch 1; tens with switch 2; hundreds with switch 3, etc…. Therefore you have to
configure the number as it is described in fig 3. Switches not used, as in this case the 8, must to remain to 0 (In OFF
position).
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