Difference between revisions of "Signal Sources and Amplifiers"
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| + | *AC Line powered signal generator | ||
| + | *Resistive shunt for measuring current | ||
| + | *AC powered transducer | ||
===Balanced - Floating=== | ===Balanced - Floating=== | ||
Revision as of 11:22, 14 September 2013
Contents
Introduction
In order to record an experimental signal with high fidelity 3 issues need to be considered.
- Signal Sources to be measured
- Characteristics of the signal sources
- Type of Amplifier used to record the signal
Signal Sources
There are 4 types or classes of electical signal sources which occur in various experimental situations. It is important to understand the characteristcs of these signal sources in order that they can be matched to the correct amplifier/recording system without degrading the accuracy of the measurement.
PLEASE NOTE: In discussing the characteristics of signal sources reference will be made to "Source Impedance" which in its most general form consists of a combination of 3 electrical elements: Resistance,Inductance and Capacitance. In most cases one of these elements will predominate, most commonly resistance. So when the term "Source Resistance" is used it implies that the impedance of the source is mainly resistive in nature. At DC or low frequencies source impedance is mainly resistive and the other elements, capacitance and inductance only come into play at higher frequencies.
http://en.wikipedia.org/wiki/Electrical_impedance
These 4 classes are listed and discussed below:
Single ended - Floating
Single Ended Floating signals are not electrically connected to ground. The signal appears between the two terminals of the signal source. This signal can either be a voltage source or a current source.
An ideal voltage Source has a near zero internal impedance. An accurate reading can only be obtained with a measuring circuit whose own internal resistance is much higher than the source resistance of the source. Voltmeters therefore need to have a high internal reistance - ideally infinite.
An ideal current Source has a near infinite internal impedance. In this case to measure the source current the measurement impedance should be very low. Ammeters therefore need to have a low internal resistance - ideally zero.
Here is a picture:
Examples of Single Ended Floating Sources
Voltage sources
- Battery - very low internal resistance
- pH cell - very high internal resistance
- Thermocouple - very low internal reistance
Current sources
- Silicon detector - high internal reisitance
- Electrochemical sensor - high internal resistance
- Piezo-Electric sensor - very high resistance
Single ended - Grounded with Common mode voltage
In this configuration the Single ended signal is connected to ground via another signal source - called a "Common Mode Voltage". This CM Voltage may be intentional but in most cases it is unintentional and presents a significant problem in the measurement of the signal of interest. In this case the effective signal is made up of the signal with the CM voltage added to it as shown below.
A special case of this configuration is when the CN voltage is zero and one of the terminals is effectively connected to ground.
Add picture of single ended driven off ground.
Examples of Single Ended Grounded Sources
*AC Line powered signal generator *Resistive shunt for measuring current
- AC powered transducer
Balanced - Floating
blah blah blah
Balanced - Grounded with Common mode voltage
blah blah blah
Source Characteristics
- Source Impedance
- Source Voltage
- Source Frequency content
Amplifier types
- Single ended - Grounded
- Single ended - Isolated
- Balanced - Grounded
- Balanced - Isolated
