3B Scientific Teltron Diode D User Manual

2

3 Technical data

Filament voltage:

≤

7.5 V

Filament current:

≤

3 A approx.

Anode voltage:

max. 500 V

Anode current:

2.5 mA typical
at U

A

= 300 V,

U

F

= 6.3 V DC

Length of tube:

300 mm approx.

Diameter:

130 mm approx.

Distance between
cathode and anode:

15 mm approx.

4. Operation

To perform experiments using the diode, the
following equipment is additionally required:
1 Tube holder D

1008507

1 DC power supply 500 V (@230 V) 1003308
or
1 DC power supply 500 V (@115 V) 1003307

Additionally recommended:
Protective Adapter, 2-Pole

1009961

4.1 Setting up the tube in the tube holder

•

The tube should not be mounted or removed
unless all power supplies are disconnected.

•

Push the jaw clamp sliders on the stanchion
of the tube holder right back so that the jaws
open.

•

Push the bosses of the tube into the jaws.

•

Push the jaw clamps forward on the stan-
chions to secure the tube within the jaws.

•

If necessary plug the protective adapter onto
the connector sockets for the tube.

4.2 Removing the tube from the tube holder

•

To remove the tube, push the jaw clamps
right back again and take the tube out of the
jaws.

5. Sample experiments

5.1 Generation of charge carriers by a hot

cathode (thermionic effect) and meas-
urement of the anode current in depend-
ency on the power supplied to the cath-
ode filament

Additionally required:
1 Analogue multimeter AM50

1003073

•

Set up the circuit as in Fig. 1. Connect the
minus-pole of the anode voltage to the 4-
mm socket marked with a minus.

•

Start with the filament cold (filament voltage
U

F

= 0).

•

Vary the anode voltage U

A

between 0 and

300 V.

Practically no current (< 0.1 µA) flows between
the cathode filament and the anode, even at
high voltages.

•

Apply 6 V to the filament so that it gets hot,
gradually increase the anode voltage and
measure the anode current I

A

.

•

Set the filament voltage back to zero, let it
cool, then gradually increase the filament
voltage with a fixed anode voltage and ob-
serve the effect on the anode current.

When the filament voltage is fixed, the anode
current increases in proportion to the anode
voltage.
With the anode voltage fixed, the anode current
increases in proportion to the filament voltage.

5.2 Recording diode characteristics

•

Set up the circuit as in Fig. 1. Connect the
minus-pole of the anode voltage to the 4-
mm socket marked with a minus.

•

Set filament voltages of 4.5 V, 5 V and
6 V.

•

Determine how the anode current I

A

de-

pends on the anode voltage U

A

for each of

the filament voltages by raising the anode
voltage step by step from 40 V to 300 V.

•

Plot the values of I

A

and U

A

on a graph.

With increasing the anode voltage the anode
current rises to an approximately steady value
known as the saturation current.
With increasing the filament voltage the anode
current rises.

5.3 Diode rectifier
Additionally required:
1 10 kΩ resistor
1 power supply for 16 V AC
1 oscilloscope

•

Set up the circuit as in Fig. 3 with U

F

= 6.3 V

and U

A

= 16 V AC

•

Using an oscilloscope to measure the volt-
age across the 10 kΩ resistor, observe the
rectifier operation of the diode

When the anode circuit operates as a diode, an
AC voltage is rectified in that during one half of
the current waveform the current is prevented
from flowing.