Passive phase shifter having switchable filter paths to provide selectable phase shift
First Claim
1. A radio frequency network having an input terminal and an output terminal, and a pair of control signal terminals each fed by one of a pair of control signals with said network comprising:
- a first signal path means for capacitively coupling the input terminal to the output terminal;
a second signal path means for inductively coupling the input terminal to the output terminal;
means for connecting to a reference potential the first signal path means and for connecting between the input and output terminals the second signal path means in response to a first state of said control signals to configure said first and second path means as a low pass filter, and for connecting to said reference potential the second path means and for connecting between the input and output terminals the first signal path means in repsonse to a second, different state of said control signals, to configure said first and second path means as a high pass filter; and
wherein the means for connecting said first and second path means comprises;
two sets of transistors with one set respectively disposed in each one of said first and second path means, and each set comprising;
(a) a pair of transistors having drain and source electrodes coupled in series with a first one of the drain and source electrodes of one transistor coupled to a first one of the drain and source electrodes of the other transistor; and
(b) a thrid transistor having drain and source electrodes coupled between the common connection of the pair of transistors and the reference potential.
1 Assignment
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Accused Products
Abstract
A network is provided which is selectively configurable as a high pass and low pass filter. A pair of sets of field effect transistors FETS is provided, each set comprising three FETS connected in a T-configuration. A pair of the FETS in each set have a drain electrode of one FET coupled to the source electrode of the other FET to provide a series element of the T-configured set. The third FET has drain and source electrodes coupled between the common connection of the pair of FETS and ground to form a shunt element of the T-configured set. The gate electrodes of the series elements of a first one of the sets of FETS and the shunt element of the other set of the FETS are each fed a common control voltage signal. A first one of the sets of FETS is capacitively coupled between the input and output terminals of the network, and the second one of the set of FETS is inductively coupled between the input and output terminals of the network. One of a pair of complementary control signals is fed to each one of the gate electrodes of the FETS, and in response to a first state of said pair of control signals, the network is configured to provide a low pass filter having a first predetermined phase shift characteristic as a function of frequency over a predetermined operating frequency range. In response to a second, different set of said control signals, the network is reconfigured to provide a high pass filter section having a second, different predetermined phase shift characteristic as a function of frequency range. The difference in phase characteristics of the network configured as a low pass filter and a high pass filter is provided to be substantially constant over the predetermined frequency range, thereby providing a single phase shift bit.
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Citations
15 Claims
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1. A radio frequency network having an input terminal and an output terminal, and a pair of control signal terminals each fed by one of a pair of control signals with said network comprising:
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a first signal path means for capacitively coupling the input terminal to the output terminal; a second signal path means for inductively coupling the input terminal to the output terminal; means for connecting to a reference potential the first signal path means and for connecting between the input and output terminals the second signal path means in response to a first state of said control signals to configure said first and second path means as a low pass filter, and for connecting to said reference potential the second path means and for connecting between the input and output terminals the first signal path means in repsonse to a second, different state of said control signals, to configure said first and second path means as a high pass filter; and wherein the means for connecting said first and second path means comprises; two sets of transistors with one set respectively disposed in each one of said first and second path means, and each set comprising; (a) a pair of transistors having drain and source electrodes coupled in series with a first one of the drain and source electrodes of one transistor coupled to a first one of the drain and source electrodes of the other transistor; and (b) a thrid transistor having drain and source electrodes coupled between the common connection of the pair of transistors and the reference potential. - View Dependent Claims (2, 3)
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4. A radio frequency network having an input terminal and an output terminal comprising:
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(a) a first signal path comprising; (i) a first capacitor having a first end coupled to the input terminal, and a second capacitor having a first end coupled th the output terminal; (ii) first and second field effect transistors having drain and source electrodes coupled in series between second ends of the pair of capacitors, with a first one of the drain and source electrodes of one of the field effect transistors coupled to a first one of the drain and source electrodes of the other field effect transistor; (iii) a third field effect transistor, having drain and source electrodes, coupled betwen the common connection of the first pair of field effect transistors and a reference potential; (iv) an inductive element having a pair of electrodes coupled between the common connection of the pair of field effect transistors and the reference potential; (b) a second signal path comprising; (i) a first pair of inductive elements, a first one having a first end coupled to the input terminal and the second one having a first end coupled to the output terminal; (ii) a second pair of inductive elements, serially coupled together and serially coupled with the second ends of the first pair of inductive elements; (iii) fourth and fifth field effect transistors, each one of said fourth and fifth transistors including drain and source electrodes coupled in shunt with a corresponding one of the second pair of inductive elements; and (iv) a sixth field effect transistor, including drain and source electrodes, coupled between the common connection of the second pair of inductive elements and the reference potential. - View Dependent Claims (5, 6, 7)
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8. A radio frequency network having an input terminal and an output terminal comprising:
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two sets of field effect transistors, each set comprising three field effect transistors connected in a T-configuration, a pair of such field effect transistors in each set having a drain electrode of one transistor coupled to the source electrode of the other transistor of the pair to provide a series element of the T-configuration set, the third transistor of each set having drain and source electrodes with one of said electrodes coupled to the common connection of the pair of transistors and the other electrode coupled to a reference potential; means for capacitively coupling a first one of the sets of the field effect transistors between the input terminal and the output terminal; and means for inductively coupling a second one of the sets of the field effect transistors between the input terminal and the output terminal. - View Dependent Claims (9, 10, 11, 12, 13, 14, 15)
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Specification