Basic properties describe specific input
parameters associated with the transmitter model.
| Name |
Dimension |
Type |
Description |
| Xmtr Model |
Unitless |
Text |
The transmitter model type. This can be one of ten
types: Simple Source Transmitter, Medium Source Transmitter, Comlex
Source Transmitter, Multibeam Source Transmitter, Laser Source
Transmitter, Plugin Source Transmitter, GPS Satellite Source
Transmitter, Simple Retransmitter, Medium Retransmitter, and
Complex Retransmitter. |
| Frequency |
FrequencyUnit |
Real Number or Text |
This is the frequency that the receiver is tuned to
or operating at. |
| Use Spectral
Filter |
Unitless |
Text |
The status of the spectral filter feature. If the
spectral filter is enabled "True" is returned, otherwise "False" is
returned. |
| Filter - Type |
Unitless |
Text |
The type of filter that is selected (e.g.
Butterworth). |
| Filter - Upper Spectral
Limit |
BandwidthUnit |
Real Number or Text |
The selected filter's upper spectral limit. The
filter's upper limit on the power spectrum. The bandwidth limit is
relative to the carrier frequency (the carrier being at zero Hz),
and is specified as a positive value. The upper limit is considered
to be a sharp cutoff point and the spectrum is zero beyond the
limit. |
| Filter - Lower Spectral
Limit |
BandwidthUnit |
Real Number or Text |
The selected filter's lower spectral limit. The
filter's lower limit on the power spectrum. The bandwidth limit is
relative to the carrier frequency and is specified as a positive
value. The lower limit is considered to be a sharp cutoff point and
the spectrum is zero beyond the limit. |
| Filter -
Insertion Loss |
RatioUnit |
Real Number or Text |
The selected filter's insertion loss. This is a
fixed signal attenuation in addition to the spectral loss computed
by the filter's response characteristics. |
| Filter - Order |
Unitless |
Real Number or Text |
The selected filter's order. In general, higher
order filters have sharper roll-offs at the cutoff
frequencies. |
| Filter - -3dB Cutoff
Frequency |
BandwidthUnit |
Real Number or Text |
The selected filter's -3dB (50 percent) filter
attenuation response point. |
| Filter - Ripple |
RatioUnit |
Real Number or Text |
The selected filter's ripple. This value represents
the amount of ripple present in the filter pass and stop
bands. |
| Filter - External Filename |
Unitless |
Text |
The external filter filename, if an external filter
type is selected. |
| Auto Scale
Bandwidth |
Unitless |
Text |
The status of the source transmitter's auto scale
feature. If autoscale is enabled "True" is reported, other "False"
is reported. For retransmitter's, "N/A" is always reported. |
| Bandwidth Type |
Unitless |
Text |
The source transmitter's bandwidth type. This can
be one of two values "Asymmetric" or "Symmetric". For
retransmitter's, "N/A" is always reported. |
| Bandwidth |
BandwidthUnit |
Real Number or Text |
Bandwidth is the Receiver Bandwidth. |
| Bandwidth
Upper Limit |
BandwidthUnit |
Real Number or Text |
The source transmitter's upper bandwidth limit. For
retransmitter's, "N/A" is always reported. |
| Bandwidth
Lower Limit |
BandwidthUnit |
Real Number or Text |
The source transmitter's lower bandwidth limit. For
retransmitter's, "N/A" is always reported. |
| Mod.
Upper Spectral Limit |
BandwidthUnit |
Real Number or Text |
The source transmitter's modulation upper spectral
limit. If the power spectral density feature is enabled for the
source transmitter, this value will be reported as 15 times the
first null frequency. For retransmitter's, "N/A" is always
reported. |
| Mod.
Lower Spectral Limit |
BandwidthUnit |
Real Number or Text |
The source transmitter's modulation lower spectral
limit. If the power spectral density feature is enabled for the
source transmitter, this value will be reported as -15 times the
first null frequency. For retransmitter's, "N/A" is always
reported. |
| Use PSD |
Unitless |
Text |
The filter's power spectral density feature. If
power spectral density is enabled "True" is reported, other "False"
is reported. For retransmitter's, "N/A" is always reported. |
| WaveLength |
SmallDistanceUnit |
Real Number or Text |
The source transmitter's wavelength. This is equal
to the speed of light (2.99792e8 m/s) divided by the source
transmitter's frequency. |
| Number of Beams |
Unitless |
Real Number or Text |
The number of beams modeled by the transmitter. If
the transmitter type does not model beams (e.g., Simple Source
Transmitter), "N/A" is reported. |
| EIRP |
PowerUnit |
Real Number or Text |
The effective isotropic radiated power is the
product of the transmitter power and the transmitter boresight gain
with the inclusion of user-defined post transmit gains and
losses. |
| Gain |
RatioUnit |
Real Number or Text |
Receiver Gain is the antenna gain (in dBi) of the
receiver which is dependent on the antenna type used. For medium
and laser receiver's this value is a constant defined by the user.
For complex and multibeam receiver's, the maximum antenna gain for
the selected antenna type or the receiver is reported. The simple
receiver model assumes an isotropic antenna and therefore reports
the antenna gain as a constant 0.0 dB. |
| Power |
PowerUnit |
Real Number or Text |
The RF power output of the transmitter as measured
at the input to the antenna. This is a user selectable value. For
retransmitter's, "N/A" is always reported. |
| Data Rate |
DataRate |
Real Number or Text |
The data rate of the source transmitter. For
retransmitter's, "N/A" is always reported. |
| Modulation Type |
Unitless |
Text |
The modulation type of the source transmitter. For
retransmitter's, "N/A" is always reported. |
| Gains and Losses |
RatioUnit |
Real Number or Text |
The total post-transmit gains and losses of the
transmitter. |
| Saturated
Flux Density |
PowerFluxDensity |
Real Number or Text |
The retransmitter's saturation flux density. This
value represents the amplifier's saturation point in terms of the
input flux density in dBW per meter squared and is the per carrier
flux density for systems supporting multiple carriers per
transmitter. For source transmitter's, "N/A" is always
reported. |
| Saturated EIRP |
PowerUnit |
Real Number or Text |
The simple retransmitter's saturated effective
isotropic power (EIRP). This value represents the EIRP at the
output of the transmit antenna when the amplifier is at its
saturated state and is the per carrier EIRP for systems supporting
multiple carriers per transmitter. For all other transmitter types,
"N/A" is always reported. |
| Saturated
Output Power |
PowerUnit |
Real Number or Text |
The retransmitter's saturated output power. This
value represents the RF Power output of the transmitter as measured
at the input to the antenna when the amplifier is at its saturated
state. For source transmitter's, "N/A" is always reported. |
| Chips/Bit |
Unitless |
Real Number or Text |
The source transmitter's chips/bit value. This
value is used to compute the code division multiple access (CDMA)
spreading gain. CDMA spreading gain improves the C/N
carrier-to-noise ratio by a factor equal to the spreading gain. For
retransmitter's, "N/A" is always reported. |
| CDMA Spreading
Gain |
RatioUnit |
Real Number or Text |
The source transmitter's code division multiple
access (CDMA) spreading gain. This value is computed as 10 *
log10(chips/bit). For retransmitter's, "N/A" is always
reported. |
| CDMA Gain Select |
Unitless |
Text |
The status of the code division multiple access
(CDMA) feature for source transmitter's. If CDMA is enabled "True"
is reported, otherwise "False" is reported. For retransmitter's,
"N/A" is always reported. |
| Polarization |
Unitless |
Text |
Polarization shows which polarization type has been
selected for the antenna. Polarization is a property of an
electromagnetic wave that describes the orientation of the electric
field vector with reference to the antenna's orientation. The three
basic types of polarization are linear, elliptical and circular. In
special cases of linear polarization, the electrical field is
aligned vertically or horizontally with reference to the antenna.
Circular polarization can be right-handed or left-handed. STK
computes the polarization match, which is a quantity between a
transmitter and a receiver based on their polarization types,
positions, and attitudes. If a receiver or transmitter is of a
single-beam type, the Model page for that communications object
allows you to select among several polarization types, and,
depending on the type selected, to specify one or more parameters.
For multi-beam models, polarization is defined in the Modify
Antenna Beam window. |
| Polarization -
Vertical Reference Axis |
Unitless |
Text |
Vertical reference axis specifies the axis (X, Y or
Z) with respect to which the electrical field is oriented. This is
applicable to linear, vertical, horizontal or elliptical
polarization. Otherwise N/A is reported. |
| Polarization - Tilt Angle |
AngleUnit |
Real Number or Text |
Tilt angle is the angle between the vertical
reference axis and the x axis of the coordinate system. This is
applicable to linear or elliptical polarization. Otherwise "N/A" is
reported. |
| Polarization - Axial Ratio |
Unitless |
Real Number or Text |
Axial ratio is the ratio of the major to the minor
axis of the polarization ellipse. This is only applicable to the
elliptical polarization type. |