Instruction Manual

ManualsBrandsMaxim Integrated ManualsHardware6612_OMU_S2+2_URT_V1_14

6612_OMU_S2+2_URT_V1_14 Firmware Description Document UG_6612_017

22 Rev. 1.0

Output

Location

(hex)

LSB Comment Example

Watts A 07 mW

Outlet 1 active power

measurement (per second).

If 120 Watts are measured on

Outlet 1

)07?<CR>

Returns:

+120.000

Wh A 08 mWh

Outlet 1 active accumulated energy

measurement (per hour).

If 120 Wh are measured on

Outlet 1

)08?<CR>

Returns:

+120.000

Total Cost A 09 mUnits Outlet 1 cost of Wh A.

If the cost is 102.536 units on

Outlet 1

)09?<CR>

+102.536

Irms_nb A 0A mArms

Outlet 1 narrowband rms current

measurement.

If narrowband current measured on

Outlet 1 is 12 Amps

)0A?<CR>

Returns:

+12.000

VARs_nb A 0B mW

Outlet 1 narrowband reactive

power measurement (per second).

If narrowband 120 VARs are

measured on Outlet 1

)0B?<CR>

Returns:

+120.000

VAs_nb A 0C mW

Outlet 1 narrowband apparent

power measurement (per second).

If narrowband 120 VAs are

measured on Outlet 1

)0C?<CR>

Returns:

+120.000

Power

Factor_nb A

0D –

Outlet 1 narrowband power factor.

The output will be between -0.950

and 1.000. Positive power factor is

defined as current lagging voltage

(inductive). Negative power factor

is defined as voltage lagging

current (capacitive).

If the narrowband power factor on

Outlet 1 is 0.95

)0D?<CR>

Returns:

+0.950

Phase

Angle_nb A

0E –

Outlet 1 narrowband phase angle.

The output will be between

180.000 and -180.000.

If the narrowband phase angle

measured on Outlet 1 is

60 degrees

)0E?<CR>

Returns:

+60.000

Reserved 0F – Reserved

Reserved

Vrms A Min 10 mV Minimum Vrms measured.

If the minimum line voltage

measured was 105 V

)10<CR>

Returns:

+15.000

Vrms A Max 11 mV Maximum Vrms measured.

If the maximum line voltage

measured was 130 V

)11<CR>

Returns:

+130.000