Resistors 101
A resistor is an electronic component whose purpose is to "resist" the flow of electrical current. All resistances are measured in ohms (symbol: Ω), which is the units for volts divided by amps. Ohm's law relates these three quantities:
- Volts = Amps × Ohms or E = I × R
Large values of resistors use the scalars "Kilo" (k) and "Mega" (M) to represent "times 1,000" and "times 1,000,000" respectively.
Resistors dissipate power by doing their "resisting" job, and therefore all resistors also have a power rating - this rating can only be judged by size on smaller resistors, and common ratings include 1/8, 1/4, 1/2, 1, and 2 watts. A resistor which dissipates too much power will burn up, producing that hopefully not-too-familiar "burnt electronics" smell.
In tube audio amplifiers, resistors have several common uses:
- Plate resistor (usually a load)
- Cathode resistor (usually for biasing, sometimes a load)
- Grid resistor (to limit ultra HF response)
- Screen resistor (to limit screen current)
- Bias resistor (to keep the grid at a constant DC level, often zero or ground)
- Voltage divider (to cut down the signal level, particularly in high gain amps)
- Part of an RC low-pass filter (to both lower the voltage and reduce the ripple in the "downstream" parts of a power supply)
This page contains an introduction to the standard resistor color codes. These color codes tell you how many ohms the resistor you're looking at is rated. There are slightly different codes for resistors, but they all are just a variation on a theme. First, the digits 0 to 9 are given colors:
| Black | 0 | Green | 5 | |
| Brown | 1 | Blue | 6 | |
| Red | 2 | Violet | 7 | |
| Orange | 3 | Gray | 8 | |
| Yellow | 4 | White | 9 |
One old menomnic to help you remember this sequence is an old (and slightly PC-ified) one: "Bad Boys Rate Our Young Girls But Violet Grins Willingly."
These digit codes may represent significant digits, as in the 2 and 0 in "2.0", or a power of ten multiplier. For example, the simplest and most common code has three bands. "brown red orange" translates to 1 2 3, which can be interpreted as "12 × 103 or 12000 (12K) ohms.
An easy way to remember how to figure the multiplier is "it says how many zeroes to add on to the end."
Ah, if were always so easy! The colors gold and silver may also be used to indicate a power of 10 or a tolerance (how far away from the intended resistance the resistor is allowed to be.)
| Color | as Tolerance | as power of 10 |
|---|---|---|
 Gold | 5% | × 10-1 (.1) |
 Silver | 10% | × 10-2 (.01) |
| (None) | +/- 20% | -- |
For example, "brown black silver gold" would mean 10 x 10-2 with a tolerance of 5%, or .1 ohms (+/- 5%, which means it could actually be .095 or .105 ohms).
In general, 20% tolerance resistors have three color bands, 10% and 5% tolerance resistors have four color bands (the last being silver or gold), and 2% and 1% resistors also have four color bands (three significant digits and a multiplier) but the last is normally not gold or silver. This is summarized below:
| Tolerance | Bands | Significant Digits |
|---|---|---|
| 20% | 3 | 2 |
| 10% and 5% | 4 | 2 |
Some Mil-spec metal films actually have the digits printed right on the resistor (tolerance is assumed to be 1%), for example "1002" would be 100 × 102 or 10000 Ω (10KΩ).
Note that I have (rarely) seen 5% resistors that have five bands, the fifth being some sort of failure rate spec or temperature tolerance. The tipoff is the fifth band being something wierd, like yellow. These are extremely unusual, and hopefully you'll never see one.
You'll sometimes see some questionable colors (um, is that brown or orange?) and sometimes it will be difficult to tell which end to start from. Even when you know these codes, your best friend is always an ohmmeter to confirm the resistance you're looking at!
Examples
Here's some real world examples to get you started. The collective pictures below with the ruler will give you an idea of their actual size:Smaller Resistors | Larger Power Resistors | |
 |  |
Here they are individually:
Smaller (1/4 and 1/2 watt) Resistors
R1 |  | Yellow Violet Brown Red 4 7 1 × 102 = 47100 Ω (47.1 KΩ) |
R2 |  | Brown Black Yellow Silver 1 0 × 104 (10%) = 100000 Ω (100 KΩ) |
R3 |  | Yellow Violet Red Gold 4 7 × 102 (5%) = 4700 Ω (4.7 KΩ) |
R4 |  | Green Brown Red Gold 5 1 × 102 (5%) = 5100 Ω (5.1 KΩ) |
R5 |  | Brown Black Orange Gold 1 0 × 103 (5%) = 10000 Ω (10 KΩ) |
R6 |  | Brown Green Orange Red 1 5 3 × 102 = 15300 Ω (15.3 KΩ) |
R7 |  | 8 0 6 1 8 0 6 × 101 = 8060 Ω (8.06 KΩ) |
Larger (1 watt and up) Resistors
PR1 |  | Orange Green Blue Silver 3 5 × 106 (10%) = 35000000Ω (35 MΩ) |
PR2 |  | Red Violet Black Gold 2 7 × 100 (5%) = 27 Ω |
PR3 |  | Green Blue Red Silver 5 6 × 102 (10%) = 5600 Ω (5.6 KΩ) |
PR4 |  | Orange Orange Orange Silver 3 3 × 103 (10%) = 33000 Ω (33 KΩ) |
PR5 |  | Red Black Orange Gold Yellow 2 0 × 103 (5%) = 20000 Ω (20 KΩ) This is one of the wierdos I warned you about - ignore the yellow band |
PR6 |  | Red Red Gold Gold 2 2 × 10-2 (5%) = .22 Ω |
PR7 |  | Orange Black Black Gold 3 0 × 100 (5%) = 30 Ω |
PR8 |  | Brown Black Gold Gold 1 0 × 10-2 (5%) = .1 Ω |
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