rfckt.lchighpasstee
Highpass tee filter
Description
Use the rfckt.lchighpasstee
object to create a two-port a
highpass tee filter as a network of inductors and capacitors as shown in this
figure.
In the diagram, [L1, L2,
L3, ...] is the value of the 'L'
object
property, and [C1, C2,
C3, ...] is the value of the 'C'
object
property.
Note
lcladder
is recommended over
rfckt.lchighpasstee
because it enables you to:
Create a two-port highpass tee filter.
Convert an
rffilter
object to an LC ladder filter.Build a
circuit
object with a highpass tee filter.Model a two-port highpass tee filter element in an RF chain created using an
rfbudget
object or the RF Budget Analyzer app, and then export this element to RF Blockset™ or torfsystem
System object™ for circuit envelope analysis.
(since R2023b)
Creation
Description
h = rfckt.lchighpasstee
returns an LC highpass tee
network object whose properties all have their default values.
h = rfckt.lchighpasstee('Property1',value1,'Property2',value2,...)
sets properties using one or more name-value pairs. You can specify multiple
name-value pairs. Enclose each property name in a quote
Properties
Object Functions
analyze | Analyze RFCKT object in frequency domain |
calculate | Calculate specified parameters for rfckt objects or rfdata objects |
circle | Draw circles on Smith Chart |
extract | Extract specified network parameters from rfckt object or data object |
listformat | List valid formats for specified circuit object parameter |
listparam | List valid parameters for specified circuit object |
loglog | Plot specified circuit object parameters using log-log scale |
plot | Plot circuit object parameters on X-Y plane |
plotyy | Plot parameters of RF circuit or RF data on xy-plane with two Y-axes |
getop | Display operating conditions |
polar | Plot specified object parameters on polar coordinates |
semilogx | Plot RF circuit object parameters using log scale for x-axis |
semilogy | Plot RF circuit object parameters using log scale for y-axis |
smith | Plot circuit object parameters on Smith Chart |
write | Write RF data from circuit or data object to file |
getz0 | Calculate characteristic impedance of RFCKT transmission line object |
read | Read RF data from file to new or existing circuit or data object |
restore | Restore data to original frequencies |
getop | Display operating conditions |
groupdelay | Group delay of S-parameter object or RF filter object or RF Toolbox circuit object |
Examples
References
[1] Ludwig, R. and P. Bretchko, RF Circuit Design: Theory and Applications, Prentice-Hall, 2000.
[2] Zverev, A.I., Handbook of Filter Synthesis, John Wiley & Sons, 1967.
Version History
Introduced before R2006a