| complex-admittance |
uint32 |
The range of valid values for the 3-element complex
conductances and susceptances, GTR and BTR (Tip-to-Ring);
GTG and BTG (Tip-to-Ground); and GRG and BRG (Ring-to-Ground)
is from 0.1 uSiemens to 0.1 Siemens. The values shall be
represented in linear format with a granularity of 0.1
uSiemens.
NOTE - The linear format is chosen for simplicity reason and
does not imply any future accuracy requirements. |
| complex-admittance |
uint32 |
The range of valid values for the 3-element complex
conductances and susceptances, GTR and BTR (Tip-to-Ring);
GTG and BTG (Tip-to-Ground); and GRG and BRG (Ring-to-Ground)
is from 0.1 microsiemens to 0.1 siemens. The values shall be
represented in linear format with a granularity of 0.1
microsiemens.
NOTE - The linear format is chosen for simplicity reason and
does not imply any future accuracy requirements. |
| dc-test-voltage |
int16 |
The test voltages for the measurement of the 4-element DC
resistance, VDCTR (Tip-to-Ring), VDCRT (Ring-to-Tip), VDCTG
(Tip-to-Ground), and VDCRG (Ring-to-Ground), shall be
represented in linear format. The range of valid values is from
-150 V to +150 V with a granularity of 0.1 V. |
| dc-test-voltage |
int16 |
The test voltages for the measurement of the 4-element DC
resistance, VDCTR (Tip-to-Ring), VDCRT (Ring-to-Tip), VDCTG
(Tip-to-Ground), and VDCRG (Ring-to-Ground), shall be
represented in linear format. The range of valid values is from
-150 V to +150 volts with a granularity of 0.1 volts. |
| foreign-ac-voltage |
uint16 |
The range of valid values for the foreign AC voltages
VTR-AC (Tip-to-Ring), VTG-AC (Tip-to-Ground), and VRG-AC
(Ring-To-Ground) is from 0 to 250Vrms. The foreign AC voltage
shall be represented in linear format with a granularity of
100 mV. |
| foreign-ac-voltage |
uint16 |
The range of valid values for the foreign AC voltages
VTR-AC (Tip-to-Ring), VTG-AC (Tip-to-Ground), and VRG-AC
(Ring-To-Ground) is from 0 to 250 volts RMS. The foreign AC
voltage shall be represented in linear format with a
granularity of 100 millivolts. |
| foreign-ac-voltage-frequency |
uint16 |
The range of valid values for the foreign AC voltage FTR-AC
(Tip-to-Ring), FTG-AC (Tip-to-Ground), and FRG-AC
(Ring-To-Ground) is from 10 to 90 Hz with a granularity
of 0.1 Hz. |
| foreign-ac-voltage-frequency |
uint16 |
The range of valid values for the foreign AC voltage FTR-AC
(Tip-to-Ring), FTG-AC (Tip-to-Ground), and FRG-AC
(Ring-To-Ground) is from 10 to 90 Hz with a granularity
of 0.1 Hz. |
| foreign-dc-voltage |
int16 |
The range of valid values for the foreign DC voltages,
VTR-DC (Tip-to-Ring), VTG-DC (Tip-to-Ground), and VRG-DC
(Ring-to-Ground) is from -350 to 350V. The foreign DC voltage
shall be represented in linear format with a granularity of
100 mV.
The reported DC voltage polarity is defined with respect to
ground for the VTG-DC and VRG-DC measurements and returns a
positive result for the VTR-DC measurement if the tip wire
is more positive than the ring wire. |
| foreign-dc-voltage |
int16 |
The range of valid values for the foreign DC voltages,
VTR-DC (Tip-to-Ring), VTG-DC (Tip-to-Ground), and VRG-DC
(Ring-to-Ground) is from -350 to 350 volts. The foreign DC
voltage shall be represented in linear format with a
granularity of 100 millivolts.
The reported DC voltage polarity is defined with respect to
ground for the VTG-DC and VRG-DC measurements and returns a
positive result for the VTR-DC measurement if the tip wire
is more positive than the ring wire. |
| four-element-dc-resistance |
uint32 |
The 4-element DC resistances, RTR (Tip-to-Ring), RRT
(Ring-to-Tip), RTG (Tip-to-Ground), and RRG (Ring-to-Ground),
shall be represented in linear format. The range of valid
values is from 0 to 10 megaohms with a granularity of 1 ohm. |
| four-element-dc-resistance |
uint32 |
The 4-element DC resistances, RTR (Tip-to-Ring), RRT
(Ring-to-Tip), RTG (Tip-to-Ground), and RRG (Ring-to-Ground),
shall be represented in linear format. The range of valid
values is from 0 to 10 Mohms with a granularity of 1 ohm. |
| loop-complex-admittance |
uint32 |
The range of valid values for the 3-element complex
conductance and susceptance GTR,HV and BTR,HV (Tip-to-Ring) is
from 0.1 microsiemens to 0.1 siemens. The values shall be
represented in linear format with a granularity of 0.1
microsiemens. The GTR,HV and BTR,HV values of the loop complex
admittance with high metallic voltage test are the total
conductance and susceptance measured. The GTR and BTR values
obtained from the 3-element complex admittance with controlled
metallic voltage test are not subtracted from the results.
NOTE - The linear format is chosen for simplicity reason and
does not imply any future accuracy requirements. |
| loop-complex-admittance |
uint32 |
The range of valid values for the 3-element complex
conductance and susceptance GTR,HV and BTR,HV (Tip-to-Ring) is
from 0.1 uSiemens to 0.1 Siemens. The values shall be
represented in linear format with a granularity of 0.1
uSiemens. The GTR,HV and BTR,HV values of the loop complex
admittance with high metallic voltage test are the total
conductance and susceptance measured. The GTR and BTR values
obtained from the 3-element complex admittance with controlled
metallic voltage test are not subtracted from the results.
NOTE - The linear format is chosen for simplicity reason and
does not imply any future accuracy requirements. |
| loop-resistance |
uint32 |
The loop resistances RTF-HV (Tip-to-Ring) and RRT-HV
(Ring-to-Tip) shall be represented in linear format. The range
of valid values is from 0 to 10 Mohms with a granularity of 1
ohm. The RTR-HV and RRT-HV values of the loop resistance with
high metallic voltage test are the total resistances measured.
The RTR and RRT values obtained from the 3-element resistance
with controlled metallic voltage test are not subtracted from
the results. |
| loop-resistance |
uint32 |
The loop resistances RTF-HV (Tip-to-Ring) and RRT-HV
(Ring-to-Tip) shall be represented in linear format. The range
of valid values is from 0 to 10 megaohms with a granularity of
1 ohm. The RTR-HV and RRT-HV values of the loop resistance with
high metallic voltage test are the total resistances measured.
The RTR and RRT values obtained from the 3-element resistance
with controlled metallic voltage test are not subtracted from
the results. |
| loop-resistance-test-voltage |
int16 |
The test voltages for the measurement of the loop resistance
with a high metallic voltage, VDCHTR (Tip-to-Ring) and
VDCHRT (Ring-to-Tip) shall be represented in linear format.
The range of valid values is from -150 volts to +150 volts with
a granularity of 0.1 volts. |
| loop-resistance-test-voltage |
int16 |
The test voltages for the measurement of the loop resistance
with a high metallic voltage, VDCHTR (Tip-to-Ring) and
VDCHRT (Ring-to-Tip) shall be represented in linear format.
The range of valid values is from -150 V to +150 V with a
granularity of 0.1 V. |
| measurement-voltage |
uint16 |
The range of valid values for the AC voltages VACTR-CC
(Tip-to-Ring), VACTG-CC (Tip-to-Ground), and VACRG-CC
(Ring-to-Ground) for the 3-element capacitance test with
a controlled metallic voltage is from 0 V rms to 150 V rms.
The values shall be represented in linear format with a
granularity of 0.1 V.
The range of valid values for the AC voltage VACTR-HC for the
loop capacitance test with a high metallic voltage is from 0
Vrms to 150 Vrms. The values shall be represented in linear
format with a granularity of 0.1 V.
The range of valid values for the AC voltages VACTR-CA,
VACTG-CA, and VACRG-CA for the 3-element complex admittance
test with a controlled metallic voltage is from 0 Vrms to 150
Vrms. The values shall be represented in linear format with a
granularity of 0.1 V.
The range of valid values for the AC voltage VACTR-HA for the
loop complex admittance test with a high metallic voltage is
from 0 V rms to 150 V rms. The values shall be represented in
linear format with a granularity of 0.1 V. |
| measurement-voltage |
uint16 |
The range of valid values for the AC voltages VACTR-CC
(Tip-to-Ring), VACTG-CC (Tip-to-Ground), and VACRG-CC
(Ring-to-Ground) for the 3-element capacitance test with
a controlled metallic voltage is from 0 volts RMS to 150 volts
RMS. The values shall be represented in linear format with a
granularity of 0.1 volts.
The range of valid values for the AC voltage VACTR-HC for the
loop capacitance test with a high metallic voltage is from 0
volts RMS to 150 volts RMS. The values shall be represented in
linear format with a granularity of 0.1 volts.
The range of valid values for the AC voltages VACTR-CA,
VACTG-CA, and VACRG-CA for the 3-element complex admittance
test with a controlled metallic voltage is from 0 volts RMS to
150 volts RMS. The values shall be represented in linear format
with a granularity of 0.1 volts.
The range of valid values for the AC voltage VACTR-HA for the
loop complex admittance test with a high metallic voltage is
from 0 volts RMS to 150 volts RMS. The values shall be
represented in linear format with a granularity of 0.1 volts. |
| melt-pmd-measurement-parameter |
enumeration |
An enumerated list of MELT PMD measurement parameters. |
| melt-pmd-measurement-parameter |
enumeration |
An enumerated list of MELT PMD measurement parameters. |
| melt-pmd-reporting-parameter |
enumeration |
An enumerated list of MELT PMD reporting parameters. |
| melt-pmd-reporting-parameter |
enumeration |
An enumerated list of MELT PMD reporting parameters. |
| melt-processing-derived-parameter |
enumeration |
An enumerated list of MELT processing derived parameters. |
| melt-processing-derived-parameter |
enumeration |
An enumerated list of MELT processing derived parameters. |
| pmd-function |
enumeration |
The MELT PMD function. |
| pmd-function |
enumeration |
The MELT PMD function. |
| pmd-profile-ref |
leafref |
Used to reference a Physical Medium Dependent (PMD) profile. |
| pmd-profile-ref |
leafref |
Used to reference a Physical Medium Dependent (PMD) profile. |
| pmd-result |
enumeration |
The overall results of the Physical Medium Dependent (PMD)
measurement. |
| pmd-result |
enumeration |
The overall results of the Physical Medium Dependent (PMD)
measurement. |
| test-current |
int32 |
The test currents for the measurement of the 4-element DC
resistance, IDCTR (Tip-to-Ring), IDCRT (Ring-to-Tip),
IDCTG (Tip-to-Ground), and IDCRG (Ring-to-Ground), shall be
represented in linear format. The range of valid values is from
-1 A to +1 A with a granularity of 1 uA. |
| test-current |
int32 |
The test currents for the measurement of the 4-element DC
resistance, IDCTR (Tip-to-Ring), IDCRT (Ring-to-Tip),
IDCTG (Tip-to-Ground), and IDCRG (Ring-to-Ground), shall be
represented in linear format. The range of valid values is from
-1 A to +1 ampere with a granularity of 1 microampere. |
| three-element-capacitance |
int32 |
The 3-element capacitances, CTR (Tip-to-Ring), CTG
(Tip-to-Ground), and CRG (Ring-to-Ground), shall be represented
in linear format. The range of valid values is from -2 to 5 uF
with a granularity of 0.1 nF. |
| three-element-capacitance |
int32 |
The 3-element capacitances, CTR (Tip-to-Ring), CTG
(Tip-to-Ground), and CRG (Ring-to-Ground), shall be represented
in linear format. The range of valid values is from -2 to 5
microfarads with a granularity of 0.1 nanofarads. |