2 functional description, Functional description – Metrohm 767 Calibrated Reference User Manual

1 Overview

2

767 Calibrated Reference Instructions for Use

1.2 Functional

description

As mentioned before the input resistance of high-impedance measuring

amplifiers (pH Meters, Titrators) and, for separate amplifiers, the insula-

tion of the reference point from the earth can be checked.
This is done using the potential of a reference diode (approx. 1200 mV)

on the one hand at output socket (5) +U/direct and on the other hand

a high-impedance resistor (1 GΩ) at socket (4) +U/1 GΩ. This potential

is also switched to socket (6) −U÷/direct by a divider. This means that

a lower potential (approx. 341 mV) with inverted polarity is also avail-

able; this can also be converted to a value within the pH scale (approx.

pH 12.7).
The reference diode is fed by a solar cell. This means that neither a

mains supply nor a battery is necessary and makes the instrument vir-

tually maintenance-free. An internal potential monitor ensures that the

output potential is switched off under inadequate lighting conditions be-

fore the tolerance requirements are no longer fulfilled.
The solar cell can be covered and thus switched off. The potential

monitor then switches a second electronic switch so that the internal

resistance of the switched-off source is 14.3 kΩ. This resistance can be

used to check the current and voltage sources built into pH Meters and

Titrators in a very simple manner. The voltage divider at socket (6)

−U÷/direct gives a resistance of about 460 kΩ, which can also be used

for testing purposes.
For checking the temperature measuring amplifier the 0°C resistances

of the temperature sensors Pt 100 and Pt 1000 are built-in, see sock-

ets (1), (2), (3). These are separated from the other circuits in the test

instrument. This means that no unwanted earthing loops can occur

when they are used.
This means that 4 resistance values which can be used for checking

conductivity meters.
For the 767 Calibrated Reference we have done without fine adjustment

and instead have entered the resulting exact values in the table on the

cover. In this way we have gained a considerable degree of accuracy

and stability. In addition we have converted the resistance values into

conductance (µS) and temperature (°C), and the potential into the exact

pH value wherever this makes sense. This means that it is possible to

compare the display of the instrument to be tested directly with the cor-

responding value in this table. Two different tables are provided for the

open and closed covers.
Practice has shown that problems are often caused by the electrode

cable. They are subjected to mechanical stress (tension, pressure, tor-

sion, etc.) and on the other hand they constantly and unavoidably come

directly into contact with chemicals (spilt solutions, vapors, etc.). Never-

theless their insulation value must always remain exactly as good as

that at the measuring amplifier input. Such an exposed element must

therefore be included in a test at all costs. This is why this measuring

source is equipped with sockets which correspond to the plug head of