Operational Theory; Introduction; Electronics And Signal Processing - Teledyne 3010TA Operating Instructions Manual

Oxygen Analyzer
2.1
The Model 3010TA Oxygen Analyzer Control Unit uses an 8031
microcontroller with 32 kB of RAM and 128 kB of ROM to control all
signal processing, input/output, and display functions for the Model
3010TA analyzer. (The sample system and Micro-Fuel Cell sensor are
covered in Part II, Analysis Unit, in this manual.) System power is supplied
from a universal power supply module designed to be compatible with any
international power source.
2.2
All of the Analyzer electronics are located on Printed Circuit Board
(PCB) assemblies inside the Control Unit chassis. The PCB locations are
illustrated in section 5, Maintenance.
Refer to Figure 2-1, Block Diagram of the 3010TA CU Electronics:
In the presence of oxygen, the sensor (in the Analysis Unit) generates
a current. A current to voltage amplifier (in the Control Unit) converts this
current to a voltage.
The second stage amplifier amplifies the voltage. It also uses a signal
from the thermistor (which is physically located in the Analysis Unit cell
block) to provide temperature compensation for the sensor signal. The
thermistor is a temperature dependent resistance that changes the gain of
the amplifier in proportion to the temperature changes in the block. This
thermistor signal compensates for the change in the cell output due to the
temperature changes. The result is a signal that is temperature independent.
The output from the second stage amplifier is sent to an 18-bit analog to
digital converter controlled by the microprocessor.

Operational Theory

Introduction

Electronics and Signal Processing

Part I: Control Unit
Part I: 2-1