Dielectric flare notch radiator with separate transmit and receive ports
First Claim
1. An integrated antipodal flared notch radiating element for radiating energy into, or receiving energy from free space and having separate, integral transmit and receive ports, said element suitable for a large active array characterized by an element lattice spacing, the integrated antipodal flared notch radiating element comprising:
- a planar dielectric board having first and second opposed surfaces, the first surface having a first conductive pattern formed thereon, the second surface having a second conductive pattern formed thereon;
wherein said first and second conductive patterns cooperate to define an antipodal slotline adjacent a flared end thereof and a broadside coupled strip transmission line region which transitions into said antipodal slotline, said broadside coupled strip transmission line region formed by first and second conductive strips overlying each other on opposite sides of the dielectric board;
said first conductive pattern further defining first and second microstripline conductors formed on said first board surface adjacent a receive/transmit port end of said radiating element, said first microstripline conductor connecting to a transmit port integrated with said radiating element, said second microstripline conductor connecting to a receive port integrated with said radiating element;
said second conductive pattern further defining a ground plane region adjacent said port end of said radiating element underlying said microstripline conductors, said ground plane region transitioning to said second conductive strip comprising said broadside coupled strip region;
a circulator device integrated with said broadside coupled strip transmission line region such that the circulator device is mounted on said dielectric board and includes a terminal connected to one of said conductive strips comprising said broadside coupled strip transmission line region, said circulator device having a first terminal connected to said first microstripline conductor, a second terminal connected to said first conductor strip comprising said broadside coupled strip region, and a third terminal connected to said second microstripline conductor, wherein said broadside coupled strip transmission line region is coupled to said first and second microstripline conductors without a balun; and
first and second dielectric sheets disposed to sandwich said flared end of said element and force said antipodal slotline of said radiating element to operate as a coplanar slotline-type of structure by concentrating fields.
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Accused Products
Abstract
A dielectric antipodal flared notch radiator with separate transmit and receive ports for phased array and active array antennas. A circulator is integrated directly to the broadside coupled-strip transmission line portions of the antipodal flared notch radiator without the use of baluns. The look-in impedance of the radiator element is improved as a result of the circulator and lack of a balun. By sandwiching the antipodal flared notch between two additional layers of dielectric, the device can be made a building block for broadband active array antennas.
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Citations
8 Claims
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1. An integrated antipodal flared notch radiating element for radiating energy into, or receiving energy from free space and having separate, integral transmit and receive ports, said element suitable for a large active array characterized by an element lattice spacing, the integrated antipodal flared notch radiating element comprising:
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a planar dielectric board having first and second opposed surfaces, the first surface having a first conductive pattern formed thereon, the second surface having a second conductive pattern formed thereon; wherein said first and second conductive patterns cooperate to define an antipodal slotline adjacent a flared end thereof and a broadside coupled strip transmission line region which transitions into said antipodal slotline, said broadside coupled strip transmission line region formed by first and second conductive strips overlying each other on opposite sides of the dielectric board; said first conductive pattern further defining first and second microstripline conductors formed on said first board surface adjacent a receive/transmit port end of said radiating element, said first microstripline conductor connecting to a transmit port integrated with said radiating element, said second microstripline conductor connecting to a receive port integrated with said radiating element; said second conductive pattern further defining a ground plane region adjacent said port end of said radiating element underlying said microstripline conductors, said ground plane region transitioning to said second conductive strip comprising said broadside coupled strip region; a circulator device integrated with said broadside coupled strip transmission line region such that the circulator device is mounted on said dielectric board and includes a terminal connected to one of said conductive strips comprising said broadside coupled strip transmission line region, said circulator device having a first terminal connected to said first microstripline conductor, a second terminal connected to said first conductor strip comprising said broadside coupled strip region, and a third terminal connected to said second microstripline conductor, wherein said broadside coupled strip transmission line region is coupled to said first and second microstripline conductors without a balun; and first and second dielectric sheets disposed to sandwich said flared end of said element and force said antipodal slotline of said radiating element to operate as a coplanar slotline-type of structure by concentrating fields. - View Dependent Claims (2, 3)
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4. An integrated antipodal flared notch radiating element for radiating energy into, or receiving energy from, free space, said radiating element having separate, integral transmit and receive connections which are isolated from each other, said integrated antipodal flared notch radiating element comprising:
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a planar dielectric board having first and second opposed surfaces, the first surface having a first conductive pattern formed thereon, the second surface having a second conductive pattern formed thereon; wherein said first and second conductive patterns cooperate to define an antipodal slotline adjacent a flared end thereof and a broadside coupled strip transmission line region which transitions into said antipodal slotline, said broadside coupled strip transmission line region formed by first and second conductive strips overlying each other on opposite sides of the dielectric board; said first conductive pattern further defining first and second microstripline conductors adjacent a receive/transmit port end of said radiating element, said first microstripline conductor comprising a transmit signal connection integrated with said radiating element, said second microstripline conductor comprising a receive signal connection integrated with said radiating element; said second conductive pattern further defining a ground plane region adjacent said transmit/receive port end of said element and underlying said microstripline conductors, said ground plane region transitioning to said second conductive strip comprising said broadside coupled strip transmission line region; and a circulator device integrated with said broadside coupled strip transmission line region such that the circulator device is mounted on said dielectric board and includes a terminal connected to one of said conductive strips comprising said broadside coupled strip transmission line region, said circulator device connecting said broadside coupled strip transmission line region to said first microstripline conductor without a balun, and connecting said broadside coupled strip transmission line region to said second microstripline conductor without a balun, said circulator device electrically isolating said first microstripline conductor from said second microstripline conductor at microwave frequencies, said circulator device including a first terminal connected to said first microstripline conductor, a second terminal connected to said first conductive strip comprising said broadside coupled strip transmission line region, and a third terminal connected to said second microstripline conductor. - View Dependent Claims (5, 6, 7, 8)
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Specification