Unit definitions

Henry

The henry is the SI unit of electric inductance. It is defined as the amount of inductance required to induce an electromotive force (EMF) of one volt when the current is changing at a rate of one ampere per second.

Microhenry

$\frac{1}{10^{6}} \ \text{H}$ is a microhenry.

How to convert Henry to Microhenry

$$\text{Electric Inductance}_{\text{μH}} = \text{Electric Inductance}_{\text{H}} \cdot {10}^{6}$$

Examples

Example 1

Convert $30.0\ \text{H}$ to $\text{μH}$.

$$\text{Electric Inductance}_{\text{μH}} = 30.0 \cdot {10}^{6}$$

$$\text{Electric Inductance}_{\text{μH}} = 30000000$$

$$\therefore \ 30.0\ \text{H} = 30000000 \ \text{μH}$$

Example 2

Convert $60.0\ \text{H}$ to $\text{μH}$.

$$\text{Electric Inductance}_{\text{μH}} = 60.0 \cdot {10}^{6}$$

$$\text{Electric Inductance}_{\text{μH}} = 60000000$$

$$\therefore \ 60.0\ \text{H} = 60000000 \ \text{μH}$$

Example 3

Convert $120.0\ \text{H}$ to $\text{μH}$.

$$\text{Electric Inductance}_{\text{μH}} = 120.0 \cdot {10}^{6}$$

$$\text{Electric Inductance}_{\text{μH}} = 120000000$$

$$\therefore \ 120.0\ \text{H} = 120000000 \ \text{μH}$$

Example 4

Convert $135.0\ \text{H}$ to $\text{μH}$.

$$\text{Electric Inductance}_{\text{μH}} = 135.0 \cdot {10}^{6}$$

$$\text{Electric Inductance}_{\text{μH}} = 135000000$$

$$\therefore \ 135.0\ \text{H} = 135000000 \ \text{μH}$$

Example 5

Convert $175.0\ \text{H}$ to $\text{μH}$.

$$\text{Electric Inductance}_{\text{μH}} = 175.0 \cdot {10}^{6}$$

$$\text{Electric Inductance}_{\text{μH}} = 175000000$$

$$\therefore \ 175.0\ \text{H} = 175000000 \ \text{μH}$$

Henry to Microhenry conversion table

Henry to Microhenry conversion table

Henry [H]	Microhenry [μH]
1	1E+6
2	2E+6
3	3E+6
4	4E+6
5	5E+6
6	6E+6
7	7E+6
8	8E+6
9	9E+6
10	1E+7

Convert Henry to other Electric Inductance units

Convert Henry to other Electric Inductance units

Henry [H]	Other unit
1	1E+3 Millihenry [mH]
1	1E+9 Nanohenry [nH]
1	1E+12 Picohenry [pH]
1	0.001 Kilohenry [kH]
1	0.000001 Megahenry [MH]