Calculadora de Código de Cores de Resistor
Calculadora gratuita de código de cores de resistor. Identifique o valor da resistência, tolerância e coeficiente de temperatura pelas faixas de cor.
Decodifique resistores de 3, 4, 5 ou 6 faixas de cor.
Resistors are among the most common components in electronic circuits, and nearly all through-hole resistors are marked with colored bands that encode their resistance value and tolerance. Learning to read these bands — or using this calculator — saves time and prevents circuit errors.
How Resistor Color Coding Works
The IEC 60062 standard defines the color coding system used worldwide. Each color corresponds to a digit (0–9), a multiplier, or a tolerance value. The bands are read from one end of the resistor to the other, starting from the end closer to a group of bands.
Color-to-Digit Mapping
| Color | Digit | Multiplier | Tolerance |
|---|---|---|---|
| Black | 0 | ×1 | — |
| Brown | 1 | ×10 | ±1% |
| Red | 2 | ×100 | ±2% |
| Orange | 3 | ×1k | — |
| Yellow | 4 | ×10k | — |
| Green | 5 | ×100k | ±0.5% |
| Blue | 6 | ×1M | ±0.25% |
| Violet | 7 | ×10M | ±0.1% |
| Gray | 8 | ×100M | ±0.05% |
| White | 9 | ×1G | — |
| Gold | — | ×0.1 | ±5% |
| Silver | — | ×0.01 | ±10% |
4-Band Resistors
A 4-band resistor has:
- Band 1: First significant digit
- Band 2: Second significant digit
- Band 3: Multiplier
- Band 4: Tolerance
Formula: R = (Band1 × 10 + Band2) × Multiplier
Example: Brown – Black – Red – Gold
- Brown = 1, Black = 0 → 10
- Red = ×100
- Gold = ±5%
- R = 10 × 100 = 1,000 Ω = 1 kΩ ±5%
5-Band Resistors
A 5-band resistor has:
- Band 1: First significant digit
- Band 2: Second significant digit
- Band 3: Third significant digit
- Band 4: Multiplier
- Band 5: Tolerance
Formula: R = (Band1 × 100 + Band2 × 10 + Band3) × Multiplier
Example: Brown – Green – Black – Brown – Brown
- Brown = 1, Green = 5, Black = 0 → 150
- Brown = ×10
- Brown = ±1%
- R = 150 × 10 = 1,500 Ω = 1.5 kΩ ±1%
5-band resistors are used for precision components (usually ±1% or better tolerance).
Understanding Tolerance
Tolerance tells you how much the actual resistance may deviate from the nominal value. For a 1 kΩ resistor:
- Gold (±5%): actual range is 950–1,050 Ω
- Silver (±10%): actual range is 900–1,100 Ω
- Brown (±1%): actual range is 990–1,010 Ω
For most digital logic circuits, ±5% resistors (gold band) are sufficient. For precision analog circuits, op-amp feedback networks, or ADC reference voltage dividers, use ±1% or better.
Practical Tips
- Identify orientation: The tolerance band (gold/silver) is usually on one end, making it easy to determine reading direction.
- Verify with a multimeter: Always measure critical resistors before installation in precision circuits.
- E-series values: Resistors are only made in standard E-series values (E12, E24, E48, E96). A calculated “resistance” that doesn’t match a standard value may indicate a reading error.
- Surface-mount (SMD) resistors: SMD resistors use a 3-digit or 4-digit numerical code, not color bands. This calculator is for through-hole resistors only.
Common Resistor Values
| Resistance | Code | Series |
|---|---|---|
| 100 Ω | Brown-Black-Brown-Gold | E24 |
| 220 Ω | Red-Red-Brown-Gold | E24 |
| 330 Ω | Orange-Orange-Brown-Gold | E24 |
| 470 Ω | Yellow-Violet-Brown-Gold | E24 |
| 1 kΩ | Brown-Black-Red-Gold | E24 |
| 10 kΩ | Brown-Black-Orange-Gold | E24 |
| 100 kΩ | Brown-Black-Yellow-Gold | E24 |
| 1 MΩ | Brown-Black-Green-Gold | E24 |
Reference
IEC 60062:2016 — Marking codes for resistors and capacitors. International Electrotechnical Commission. Geneva, Switzerland.