Some Laboratory Testers (page 1)
The design of most of the following mustn't have changed much
for years when they were made. Some look twenty years older than
their indicated dates. Apart from the first and last items, the
following came from Christchurch recycling centre and are marked
"Hawker Siddley Dynamics" and may have been dumped by
British Aerospace who now occupy the old Plessey site nearby.
In the 1970s test equipment began to look "high tech"
instead of "quaint". One has to have very small fingers
to operate the latest gear but the biggest advance is the use
of transistors which do away with long warm-up times. The advice,
"switch on at least an hour before measurements are taken
to allow the equipment to stabilise" is no more.
Condenser checker
Heathkit home built tester made
from a kit of parts. It uses a "magic eye" to indicate
resonance
Spot Gavanometer or "Scalamp"
made by Pye
This strange shaped instrument uses a filament lamp
and mirrors to provide extremely sensitive current measurement.
I think the scale reads +/- 7uAmp FSD. At least it's calibrated
in units to 7 either side of the centre line and there are 10
subdivisions making it possible to measure changes of 0.1uAmp.
There's a multi-position switch allowing the moving coil to be
shunted to provide various sensitivities. It is claimed that current
changes down to 1 nanoamp can be detected by similar instruments.
One use of this instrument is to measure magnetic field, when
it is known as a "Fluxmeter". A coil is connected to
the input terminals and this can be used to measure changes in
field strength. This technique pre-dates measurement of magnetic
field by nuclear magnetic resonance which is a technique used
in archaelogical searches.
Wheatstone Bridge by H.W.Sullivan
A design dating back to pre-Victorian times this
example was made in 1956 but looks much older. It was used for
making accurate measurements of a component by comparing its parameters
with known values.
Who invented Wheatstone's Bridge?
Not Mr.Wheatstone but a chap called Christie or so an old
Physics book in my library tells me. None of my other books gives
this information and I cannot find another refenece to Mr.Christie.
So who was he? Wheatstone was the first to apply the bridge for
practical measurements.
It's like saying a chap by the name of Flintstone invented
a useful looking round disk and a Mr.Wheel first nailed them to
the side of his cart.
Hands up anyone that knew that Mr.Wheatstone invented the
Telephone. Well he did, and in 1821, no less than 55 years before
it was patented by a Mr.Alexander Graham Bell! Can anyone explain
that conundrum!
Slide Wire Potentiometer, Cambridge
Instruments
This complicated-looking equipment employs an external
"Standard cell" which can be from 1.017 to 1.019 volts
and a 2V accumulator connected across two pairs of its terminals.
I haven't had time to study it... perhaps someone would let me
know what it might have been used for? I guess it's a precision
Wheatstone Bridge and it can provide readings to 0.0002V which
I think is 0.2millivolt or 200microvolt.
Resistance Boxes
On the left a basic model, Croydon RBB5 supplying from 0.1
to 111,110ohms. On the right A Sullivan & Griffiths Dual Dial
equipment made in 1959 claiming zero reactance. The latter can
be achieved by using non-inductive resistance elements or perhaps
bifilar wound components. This model with three knobs is interesting.
One can switch in multiples of 100k, 10k, 1k, 100, 10, 1 : the
last three by swinging the lower half of the dial to the top.
This saves panel space whilst keeping the knobs and scales a handy
size. It covers from 1 ohm to 1,110,000 ohms.
Signal Generator
Made by Taylor, this must be one of the
last valved equipments before transistors took over.
The simple analogue tuning dial enabled
receiver alignments to be made very easily, the engineer being
virtually oblivious to the sort of accuracy imposed by later digital
equipments.
Tuning drift was irrelevant and in fact
for most applications the accuracy provided by this equipment
was fine. The mathematics of superhet ganging alignment does not
require much in the way of pin-point accuracy when it comes to
setting up medium and long waves on an ordinary radio set.
See more laboratory test equipment>>