The formula to calculate Voltage Equivalent of Temperature is:
\[ V_{\text{temp}} = \frac{T_{\text{room}}}{11600} \]
The Volt-Equivalent of Temperature is the change in voltage per unit change in temperature of a conductor or semiconductor device. Room Temperature is defined as the temperature of the room or surrounding in which the semiconductor device is kept.
Let's assume the following values:
Using the formula:
\[ V_{\text{temp}} = \frac{300}{11600} \approx 0.0258620689655172 \, \text{Volts} \]
The Voltage Equivalent of Temperature is approximately 0.0258620689655172 Volts.
| Room Temperature (Kelvin) | Voltage Equivalent of Temperature (Volts) |
|---|---|
| 290 | 0.025000000000000 |
| 291 | 0.025086206896552 |
| 292 | 0.025172413793104 |
| 293 | 0.025258620689655 |
| 294 | 0.025344827586207 |
| 295 | 0.025431034482759 |
| 296 | 0.025517241379310 |
| 297 | 0.025603448275862 |
| 298 | 0.025689655172414 |
| 299 | 0.025775862068966 |
| 300 | 0.025862068965517 |
| 301 | 0.025948275862069 |
| 302 | 0.026034482758621 |
| 303 | 0.026120689655172 |
| 304 | 0.026206896551724 |
| 305 | 0.026293103448276 |
| 306 | 0.026379310344828 |
| 307 | 0.026465517241379 |
| 308 | 0.026551724137931 |
| 309 | 0.026637931034483 |
| 310 | 0.026724137931035 |