Conrad Thermostat Variable Temperature Switch Kit With Sensor 192082 Data Sheet
Product codes
192082
1.2 Diodes
Now, the connection wires of the diodes are bent at right angles conforming to
the contact spacing and inserted in the openings provided (as per the component
diagram). Always see to it here that the diodes are inserted in a correctly
polarised way (position of the cathode line)!
In order that the diodes do not fall out when the printed circuit board is turned
over, bend the connection wires away from one another by approx. 45° and
solder them with the conducting pathways in a short soldering time. Thereafter,
the projecting wires are cut away.
D2 = 1 N 4148
D3 = Z-diode P6KE 6V8
the contact spacing and inserted in the openings provided (as per the component
diagram). Always see to it here that the diodes are inserted in a correctly
polarised way (position of the cathode line)!
In order that the diodes do not fall out when the printed circuit board is turned
over, bend the connection wires away from one another by approx. 45° and
solder them with the conducting pathways in a short soldering time. Thereafter,
the projecting wires are cut away.
D2 = 1 N 4148
D3 = Z-diode P6KE 6V8
1.3 Capacitors
Insert the capacitors in the holes marked correspondingly, bend the wires a little
away from one another and solder them cleanly with the conducting pathways. In
case of electrolytic capacitors pay attention to the correct polarity (+ -).
away from one another and solder them cleanly with the conducting pathways. In
case of electrolytic capacitors pay attention to the correct polarity (+ -).
Caution!
Depending upon their make the electrolytic capacitors show different polarity
markings. Some manufacturers mark “+”, others “-“. The polarity specification
printed by the manufacturer on the electrolytic capacitor is important.
C1 = 470 μF
C2 = 10 μF
C3 = 0.1 μF = 100 nF = 104
C4 = 0.1 μF = 100 nF = 104
C5 = 470 μF
C6 = 0.1 uF = 100 nF = 104
markings. Some manufacturers mark “+”, others “-“. The polarity specification
printed by the manufacturer on the electrolytic capacitor is important.
C1 = 470 μF
C2 = 10 μF
C3 = 0.1 μF = 100 nF = 104
C4 = 0.1 μF = 100 nF = 104
C5 = 470 μF
C6 = 0.1 uF = 100 nF = 104