Instruction Manual

ManualsBrandsMaxim Integrated ManualsHardware6612_OMU_S2+2_URT_V1_14

6612_OMU_S2+2_URT_V1_14 Firmware Description Document UG_6612_017

48 Rev. 1.0

6.2 CE Parameters

Table 9 lists the CE parameters that the Firmware 6612_OMU_S2+2_URT_V1_14 has set. The user

does not need to alter any of these parameters as they are automatically set by Calibration Commands.

Table 9: CE Parameters

Parameter

Location(

hex)

LSB Default Comment Example

CAL IA 08

16384 is

the default

and is a

gain of 1.

32767 is

max giving

a gain of

+13873

Gain constant for

IA input.

If current on channel A is low by 1%

scale the nominal number, 16384 by

1/(1-0.01). Number to be entered would

be 16549:

]08=+16549<CR>

If current on channel A is high by 1%

scale the nominal number, 16384 by

1/(1+0.01). Number to be entered

would be 16222:

]08=+16222<CR>

CAL IB 09

16384 is

the default

and is a

gain of 1.

32767 is

max giving

a gain of

+13873

Gain constant for

IB input.

If current on channel B is low by 1%

scale the nominal number, 16384 by

1/(1-0.01). Number to be entered would

be 16549:

]09=+16549<CR>

If current on channel A is high by 1%

scale the nominal number, 16384 by

1/(1+0.01). Number to be entered

would be 16222:

]09=+16222<CR>

CAL VA 0A

16384 is

the default

and is a

gain of 1.

32767 is

max giving

a gain of

+13024

Gain constant for

VA input.

If voltage on channel A is low by 1%

scale the nominal number, 16384 by

1/(1-0.01). Number to be entered would

be 16549:

]0A=+16549<CR>

If current on channel A is high by 1%

scale the nominal number, 16384 by

1/(1+0.01). Number to be entered

would be 16222:

]0A=+16222<CR>

CAL VB 0B

16384 is

the default

and is a

gain of 1.

32767 is

max giving

a gain of

+13024

Gain constant for

VB input.

If voltage on channel B is low by 1%

scale the nominal number, 16384 by

1/(1-0.01). Number to be entered would

be 16549:

]0B=+16549<CR>

If current on channel A is high by 1%

scale the nominal number, 16384 by

1/(1+0.01). Number to be entered

would be 16222:

]0B=+16222<CR>

PHASE_

ADJ_IA

-16384 ≤

PHASE_A

DJ_IA ≤

+16384

Outlet 1 Phase

adjustment =15 *

PHASE_ADJ_IA *

-14

(degrees)

No adjustment should be necessary

when using current shunts.

PHASE_

ADJ_IB

-16384 ≤

PHASE_A

DJ_IB ≤

+16384

Outlet 2 Phase

adjustment =15 *

PHASE_ADJ_IB *

-14

(degrees)

No adjustment should be necessary

when using current shunts.