General Lab Equipment Obstacle Course
A general primer in important equipment in a scientific laboratory.
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: 500ohm, 1kohm, 2kohm
- 3 Capacitors:
- A diode:
- A breadboard (or protoboard)
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
Connect two probes to the right most inputs to the multimeter. I would recommend using probes with pointed tips or alligator clips at the end. The bottom input is the common/ground input and the upper right input is the voltage/resistance/diode. input. For simplicity, I'll refer to the probe connected to the voltage/resistance/diode input as the "red" probe and the probe connected to the ground input as the "black" probe. Turn the dial on the multimeter so that it points to V (with a line/dashed line over it) or the mV symbol. These are DC (or RMS) volt and millivolt measuring modes. These modes with measure the voltage difference between the top input and the common input (Vmeas = Vtop - Vbottom).
- To verify this, touch your two probes together. What does the meter read? Does this make sense? What is the voltage difference between two points without any resistance between them?
Now, turn on the power supply. Hopefully, the yellow box on the screen will be highlighted. If not, press the +25V button on the power supply (above the yellow line) to change to that output. Press the left most button under the screen, so that VOLT is highlighted. This will give you control over the voltage output of the power supply. You can verify this by seeing that one of the numbers in the voltage box has turned white.
Connect the positive output of the power supply (yellow) to one row of inputs on the breadboard and the common output of the power supply (labelled as "COM") to another row. Between these two rows, plug in the 1kohm resistor.
Turn on the yellow output by pressing the center ON/OFF button (under the yellow box). The black OFF box at the top of the yellow window should change to a green ON box. Use the right/left arrows on the directional control buttons to highlight the tenths digit of the voltage line. Use the up/down buttons to change the voltage output to 00.50V. The box should be out putting half a voltage now.
- To verify this, touch the red probe to one end of the 1kohm resistor and the black probe to the other end. What does the multimeter read? If it reads 0.00, make sure the connections to the power supply are secure.
- If you flip the locations of the probe, what do you think will happen? Take a guess, then try it.
Replace the 2kohm resistor with the 500ohm resistor and 2kohm resistor in series (that is, end-to-end so current flows through one and then the other).
- Using your knowledge of resistors in series, what do you think the voltage dropped across the 500ohm resistor will be? What about the 2kohm resistor?
- Measure the voltage across each resistor separately (place the probes on either side of one resistor, then on either side of the other). Were your guesses correct?
- Measuring current (check that fuse isn't blown!)
- Measuring resistance and testing for continuity
- Diode check
- AC signals, frequency response
- Clamp meter
- Digital and Analog
- Floating and grounding
- Current/voltage limiting
(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)
- Voltage/time scale
- Scope probes
- Bandwidth, sampling
- Analyzing data: cursors, averaging, math menu
- Exporting data
- Analog and digital scopes
- Measuring RF power
- Termination and impedance matching
- Attenuation and filtering
- Splitters, mixers, and switches
- 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
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 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