Difference between revisions of "General Lab Equipment Obstacle Course"
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== Multimeters == | == Multimeters == | ||
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| + | This module will teach you about how to use the Fluke 179 True RMS multimeter. For this, you will need: | ||
| + | <ul> | ||
| + | <li></li> Rigola DP1308A DC Power Supply | ||
| + | <li></li> Rigola DG1022 Function Generator | ||
| + | <li></li> An assortment of short wires | ||
| + | <li></li> 3 Resistors: 10ohm, 50ohm, 200ohm | ||
| + | <li></li> 4 Capacitors: | ||
| + | <li></li> A diode: | ||
| + | </ul> | ||
| + | |||
| + | You'll learn more about the Power Supply and Function Generator later, but we'll need a minimum of functionality from them to make measurements with the multimeter. | ||
| + | |||
| + | |||
<ul> | <ul> | ||
| − | <li> Measuring voltage </li> | + | <li> Measuring voltage |
| + | <ol> | ||
| + | <li> | ||
| + | <li> | ||
| + | <li> | ||
| + | </li> | ||
<li> Measuring current (check that fuse isn't blown!) </li> | <li> Measuring current (check that fuse isn't blown!) </li> | ||
<li> Measuring resistance and testing for continuity </li> | <li> Measuring resistance and testing for continuity </li> | ||
Revision as of 11:07, 13 January 2016
A general primer in important equipment in a scientific laboratory.
Contents
Multimeters
This module will teach you about how to use the Fluke 179 True RMS multimeter. For this, you will need:
-
Rigola DP1308A DC Power Supply
Rigola DG1022 Function Generator
An assortment of short wires
3 Resistors: 10ohm, 50ohm, 200ohm
4 Capacitors:
A diode:
You'll learn more about the Power Supply and Function Generator later, but we'll need a minimum of functionality from them to make measurements with the multimeter.
- Measuring voltage
- Measuring current (check that fuse isn't blown!)
- Measuring resistance and testing for continuity
- Diode check
- AC signals, frequency response
- Capacitance
- Clamp meter
Power Supplies
- Digital and Analog
- Floating and grounding
- Current/voltage limiting
Function Generators
(Should look at this in tandem with the following oscilloscope discussion)
- Frequency, amplitude, offset, phase
- Frequency sweep/ramp
- Sine, square (incl. TTL), triangle, sawtooth, arbitrary waveforms (possibly a demonstration of Fourier components)
Oscilloscopes
- Voltage/time scale
- Coupling
- Triggering
- Scope probes
- Termination
- Bandwidth, sampling
- Aliasing
- Analyzing data: cursors, averaging, math menu
- Exporting data
- Analog and digital scopes
RF Signals
- Measuring RF power
- Termination and impedance matching
- Attenuation and filtering
- Splitters, mixers, and switches
Lock-in Amplifier
- Basic idea of operation; reason for using
- Use switch to turn on and off a highly attenuated signal and detect it with the lock-in
Frequency Counters
Measure the frequency of an RF source; map frequency vs. voltage curve of a voltage controlled oscillator (VCO)
RF Spectrum Analyzer
Always be careful to ensure signal input to spectrum analyzer is not too large
- What does a spectrum analyzer do?
- Attach wire-loop antenna and find radio stations
- Mix two RF signals and observe the expected spectrum
- Measuring amplitude of signal above background
- Save and export data
Soldering
- Soldering technique
- Cleaning iron tip
- Heat pieces to be soldered (hot iron, short time)
- Avoid cold solder joints
- Look for shiny and smooth result
- Tools of the trade: heatshrink tubing, desoldering pump, solder wick, wire strippers, soldering gun, heat gun, rosin flux
- Solder end of DB9 cable (using only 4 or 5 conductors) to practice stripping wire, using heatshrink tubing, and creating usable product
- Construct voltage divider on perfboard with BNC input/output connectors
