Installation guide, Amp1h5 – GE Industrial Solutions AMP1H5 User Manual

Page 17

AMP1H5

INSTALLATION GUIDE

ZL0115-0A

PAGE 17

01132

DET-785

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Analog_Value Objects

Use the Present_Value property of the Analog_Value object for all writable variables in the meter other than those used specifically for BACnet configuration or Time
Synchronization (in the Device Object) or Data Logging (in the Trend_Log objects).

Values are checked when written, and errors are returned for invalid entries. This table describes how the meter uses those variables, what values are valid, and what their
defaults are. When writing values to the Present_Value properties of Analog_Value BACnet objects, there is a delay of up to about two seconds to validate and store the new
value. An immediate read of the same property before that delay has elapsed can return the prior value (even if the new value was accepted). To read a value immediately after
writing it, check the Reliability property first. When it reports a No_Fault_Detected status, the Present_Value of the object is current.

These objects support the Description and Reliability object properties and all required Analog_Value object properties, but Present_Value is the only writable property.

Name

Description R/W

Units

Range

Factory

Default

Value

Additional information

AV1

Config

Configuration R/W

n/a

Always

returns

”0” when

read

Command Register:
- Write 30078 (0x757E) to clear all energy accumulators to 0 (All).
- Write 21211 (0x52DB) to begin new Demand Sub-Interval calculation cycle and log

another data value on Trend_Log objects TL1-TL3 (when the meter is in Manual

“Sync-to Comms” mode). This takes effect at the end of the next 1 second calculation

cycle. Write no more frequently than every 10 seconds.

- Write 21212 (0x52DC) to reset Max Demand values to Present Demand Values. Takes

effect at the end of the next 1 second calculation cycle. Write no more frequently

than every 10 seconds.

- Write 16498 (0x4072) to clear pulse counters to 0.

AV2

System_

Type

System Type

R/W

n/a

40, 31, 12,

11, 10

System_Type:
- Write 10 for Single-Phase: A + N
- Write 11 for Single-Phase: A + B
- Write 12 for Split-Phase: A + B + N
- Write 31 for 3-Phase Δ: A + B + C, no N
- Write 40 for 3-Phase Y: A + B + C + N

AV3

CT_Ratio_

Primary

CT Ratio -

Primary

R/W

Amps

5-32000

200

Current Transducer Size - Primary Current Range (Default is set for 100 A CTs)

AV4

CT_Ratio_

Secondary

CT Ratio -

Secondary

R/W

1/Volts

1,3

Current Transducer Type – Secondary Interface
- Enter 1 for CTs with 1V outputs (Default)
- Enter 3 for CTs with 1/3V outputs

AV5

PT_Ratio

PT Ratio

R/W

Value

0.01 - 320.0

Potential Transformer Ratio - The default is 1.00 (1:1), which is no PT attached. Set this

value before setting the System Voltage (below).

AV6

System_

Voltage

System

Voltage

R/W

Volts

from 82 (times

the PT_Ratio

in AV5) to

660 (times

the PT_Ratio

in AV5 -

absolute

limits are

82-32000)

480

System Voltage – This voltage is Line to Line unless in System Type 10 (in object AV2),

in which case it is Line to Neutral. This value is used to by the meter to calculate the

full scale power for the analog outputs and pulse configuration (see below), and as

full scale for phase loss (in object AV8). Do not set the meter to voltages outside the

range of 82-660 volts times the PT Ratio in object AV5.

AV7

Display_

Units

Display Units R/W

n/a

0,1

Display Units: 0 = IEC (U, V, P, Q, S), 1 = IEEE (default: VLL, VLN, W, VAR, VA)

AV8

Phase_Loss_

Voltage_

Threshold

Phase Loss

Voltage

Threshold

R/W

Percent

1-99

Phase Loss Voltage Threshold in percent of System Voltage (in object AV6). Default is

10 (10%). Any phase (as configured in AV2) whose level drops below this threshold

triggers a Phase Loss alert - i.e. if the System voltage is set to 480 V L-L, the L-N

voltage for each phase should be 277 V. When the threshold is set to 10%, if any

phase drops more than 10% below 277 V, (less than 249 V), or if any L-L voltage

drops more than 10% below 480 V (less than 432 V) the corresponding phase loss

alarm bit will be true.