Non-switching adaptable 4-way power splitter/combiner
First Claim
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1. A 4-way power splitter/combiner circuit for use with power amplifiers, comprising:
- a splitter circuit, further comprisingan input port;
a first node;
a second node;
a first splitter transmission line having an impedance ZS1 and an electrical length Φ
S1, said first splitter transmission line for connecting said input port to said first node;
a second splitter transmission line having an impedance ZS2 and an electrical length Φ
S2, said second splitter transmission line for connecting said input port to said second node;
a first amplifier input;
a second amplifier input;
a third amplifier input;
a fourth amplifier input;
a third splitter transmission line having an impedance ZS3 and an electrical length Φ
S3, said third splitter transmission line for connecting said first node to said first amplifier input;
a fourth splitter transmission line having an impedance ZS4 and an electrical length Φ
S4, said fourth splitter transmission line for connecting said first node to said second amplifier input;
a fifth splitter transmission line having an impedance ZS5 and an electrical length Φ
S5, said fifth splitter transmission line for connecting said second node to said third amplifier input;
a sixth splitter transmission line having an impedance ZS6 and an electrical length Φ
S6, said sixth splitter transmission line for connecting said second node to said fourth amplifier input;
a combiner circuit, further comprisingan output port;
a third node;
a fourth node;
a first combiner transmission line having an impedance ZC1 and an electrical length Φ
C1, said first combiner transmission line for connecting said output port to said third node;
a second combiner transmission line having an impedance ZC2 and an electrical length Φ
C2, said second combiner transmission line for connecting said output port to said fourth node;
a first amplifier output;
a second amplifier output;
a third amplifier output;
a fourth amplifier output;
a third combiner transmission line having an impedance ZC3 and an electrical length Φ
C3, said third combiner transmission line for connecting said third node to said first amplifier output;
a fourth combiner transmission line having an impedance ZC4 and an electrical length Φ
C4, said fourth combiner transmission line for connecting said third node to said second amplifier output;
a fifth combiner transmission line having an impedance ZC5 and an electrical length Φ
C5, said fifth combiner transmission line for connecting said fourth node to said third amplifier output;
a sixth combiner transmission line having an impedance ZC6 and an electrical length Φ
C6, said sixth combiner transmission line for connecting said fourth node to said fourth amplifier output;
wherein said first amplifier input and said first amplifier output together define a first amplifier port, said second amplifier input and said second amplifier output together define a second amplifier port, said third amplifier input and said third amplifier output together define a third amplifier port, and said fourth amplifier input and said fourth amplifier output together define a fourth amplifier port, each said amplifier port for receiving an amplifier;
wherein said first amplifier port, said second amplifier port, said third amplifier port and said fourth amplifier port collectively accept one to four amplifiers and the fraction of power provided to each of said amplifiers is 1/N where N is the number of operative amplifiers; and
wherein the phase shift of each of said combiner transmission lines and each of said splitter transmission lines is selected to produce an in-phase signal at said output port.
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Abstract
A 4-way power splitter/combiner circuit providing a plurality of transmission lines of selected impedance and phase shift to define four amplifier ports into which one to four amplifiers may be populated without reconfiguration of the circuit. The circuit provides acceptable VSWR and return loss under each operating condition.
27 Citations
19 Claims
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1. A 4-way power splitter/combiner circuit for use with power amplifiers, comprising:
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a splitter circuit, further comprising an input port; a first node; a second node; a first splitter transmission line having an impedance ZS1 and an electrical length Φ
S1, said first splitter transmission line for connecting said input port to said first node;a second splitter transmission line having an impedance ZS2 and an electrical length Φ
S2, said second splitter transmission line for connecting said input port to said second node;a first amplifier input; a second amplifier input; a third amplifier input; a fourth amplifier input; a third splitter transmission line having an impedance ZS3 and an electrical length Φ
S3, said third splitter transmission line for connecting said first node to said first amplifier input;a fourth splitter transmission line having an impedance ZS4 and an electrical length Φ
S4, said fourth splitter transmission line for connecting said first node to said second amplifier input;a fifth splitter transmission line having an impedance ZS5 and an electrical length Φ
S5, said fifth splitter transmission line for connecting said second node to said third amplifier input;a sixth splitter transmission line having an impedance ZS6 and an electrical length Φ
S6, said sixth splitter transmission line for connecting said second node to said fourth amplifier input;a combiner circuit, further comprising an output port; a third node; a fourth node; a first combiner transmission line having an impedance ZC1 and an electrical length Φ
C1, said first combiner transmission line for connecting said output port to said third node;a second combiner transmission line having an impedance ZC2 and an electrical length Φ
C2, said second combiner transmission line for connecting said output port to said fourth node;a first amplifier output; a second amplifier output; a third amplifier output; a fourth amplifier output; a third combiner transmission line having an impedance ZC3 and an electrical length Φ
C3, said third combiner transmission line for connecting said third node to said first amplifier output;a fourth combiner transmission line having an impedance ZC4 and an electrical length Φ
C4, said fourth combiner transmission line for connecting said third node to said second amplifier output;a fifth combiner transmission line having an impedance ZC5 and an electrical length Φ
C5, said fifth combiner transmission line for connecting said fourth node to said third amplifier output;a sixth combiner transmission line having an impedance ZC6 and an electrical length Φ
C6, said sixth combiner transmission line for connecting said fourth node to said fourth amplifier output;wherein said first amplifier input and said first amplifier output together define a first amplifier port, said second amplifier input and said second amplifier output together define a second amplifier port, said third amplifier input and said third amplifier output together define a third amplifier port, and said fourth amplifier input and said fourth amplifier output together define a fourth amplifier port, each said amplifier port for receiving an amplifier; wherein said first amplifier port, said second amplifier port, said third amplifier port and said fourth amplifier port collectively accept one to four amplifiers and the fraction of power provided to each of said amplifiers is 1/N where N is the number of operative amplifiers; and wherein the phase shift of each of said combiner transmission lines and each of said splitter transmission lines is selected to produce an in-phase signal at said output port. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. A 4-way power splitter/combiner circuit for use with power amplifiers, comprising:
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an input port; a first splitter transmission line connecting a first amplifier input to a first splitter node, said first splitter transmission line comprising a first splitter impedance transformer segment having impedance of 59.46 Ω and
electrical length of 90° and
a first splitter phase matching segment having impedance of 50 Ω and
electrical length of 270°
;a second splitter transmission line connecting a second amplifier input to said first splitter node, said second splitter transmission line comprising a second splitter impedance transformer segment and a second splitter phase matching segment, each of said second splitter impedance transformer segment and said second splitter phase matching segment having impedance and electrical length substantially identical to that of said first splitter impedance transformer and said splitter first phase matching segment; a third splitter transmission line connecting a third amplifier input to a second splitter node, said third splitter transmission line having impedance of 50 Ω and
electrical length of 180°
;a fourth splitter transmission line connecting a fourth amplifier input to said second splitter node, said fourth splitter transmission line having impedance and electrical length substantially identical to that of said third splitter transmission line; a fifth splitter transmission line connecting said second splitter node to said input port, said fifth splitter transmission line comprising a third splitter impedance transformer segment having impedance of 38 Ω and
electrical length of 90°
, and a fourth splitter impedance transformer segment having impedance of 64 Ω and
electrical length of 90°
;a sixth splitter transmission line connecting said first splitter node to said input port, said sixth splitter transmission line having impedance of 50 Ω and
electrical length of 90°
;an output port; a first combiner transmission line connecting a first amplifier output to a first combiner node, said first combiner transmission line comprising a first combiner impedance transformer segment having impedance of 59.46 Ω and
electrical length of 90° and
a first combiner phase matching segment having impedance of 50 Ω and
electrical length of 90°
;a second combiner transmission line connecting a second amplifier output to said first combiner node, said second combiner transmission line comprising a second combiner impedance transformer segment and a second combiner phase matching segment, each of said second combiner impedance transformer segment and said second combiner phase matching segment having impedance and electrical length substantially identical to that of said first combiner impedance transformer and said combiner first phase matching segment; a third combiner transmission line connecting a third amplifier output to a second combiner node, said third combiner transmission line having impedance of 50 Ω and
electrical length of 180°
;a fourth combiner transmission line connecting a fourth amplifier output to said second combiner node, said fourth combiner transmission line having impedance and electrical length substantially identical to that of said third combiner transmission line; a fifth combiner transmission line connecting said second combiner node to said output port, said fifth combiner transmission line comprising a third combiner impedance transformer segment having impedance of 38 Ω and
electrical length of 90°
, and a fourth combiner impedance transformer segment having impedance of 64 Ω and
electrical length of 90°
;a sixth combiner transmission line connecting said first combiner node to said output port, said sixth combiner transmission line having impedance of 50 Ω and
electrical length of 90°
;wherein said first amplifier input and said first amplifier output together define a first amplifier port for receiving an amplifier, said second amplifier input and said second amplifier output together define a second amplifier port for receiving an amplifier, said third amplifier input and said third amplifier output together define a third amplifier port for receiving an amplifier, said fourth amplifier input and said fourth amplifier output together define a fourth amplifier port for receiving an amplifier; and wherein 1–
4 power amplifiers may be inserted in said amplifier ports to provide an amplified signal.
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12. A 4-way power splitter/combiner circuit for use with power amplifiers, comprising:
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a splitter circuit, further comprising an input port; a first node; a second node; a first splitter transmission line for connecting said input port to said first node; a second splitter transmission line for connecting said input port to said second node; a first amplifier input; a second amplifier input; a third amplifier input; a fourth amplifier input; a third splitter transmission line for connecting said first node to said first amplifier input; a fourth splitter transmission line for connecting said first node to said second amplifier input; a fifth splitter transmission line for connecting said second node to said third amplifier input; a sixth splitter transmission line for connecting said second node to said fourth amplifier input; a combiner circuit, further comprising an output port; a third node; a fourth node; a first combiner transmission line for connecting said output port to said third node; a second combiner transmission line for connecting said output port to said fourth node; a first amplifier output; a second amplifier output; a third amplifier output; a fourth amplifier output; a third combiner transmission line for connecting said third node to said first amplifier output; a fourth combiner transmission line for connecting said third node to said second amplifier output; a fifth combiner transmission line for connecting said fourth node to said third amplifier output; a sixth combiner transmission line for connecting said fourth node to said fourth amplifier output; wherein said first amplifier input and said first amplifier output together define a first amplifier port, said second amplifier input and said second amplifier output together define a second amplifier port, said third amplifier input and said third amplifier output together define a third amplifier port, and said fourth amplifier input and said fourth amplifier output together define a fourth amplifier port, each said amplifier port for receiving an amplifier; wherein said splitter/combiner circuit accepts one to four amplifiers and the fraction of power provided to each of said amplifiers is 1/N where N is the number of operative amplifiers; and wherein said splitter transmission lines and said combiner transmission lines have a plurality of electrical lengths; and wherein the electrical lengths of each of said combiner transmission lines and each of said splitter transmission lines are selected to produce an in-phase signal at said output port. - View Dependent Claims (13, 14, 15)
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16. A 4-way power splitter/combiner circuit for use with power amplifiers, comprising:
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a splitter circuit, further comprising an input port; a splitter node; a first amplifier input; a second amplifier input; a third amplifier input; a fourth amplifier input; a first splitter transmission line having an impedance and an electrical length, said first splitter transmission line for connecting said input port to said splitter node; a second splitter transmission line having an impedance and an electrical length, said second splitter transmission line for connecting said splitter node to said first amplifier input; a third splitter transmission line having an impedance and an electrical length, said third splitter transmission line for connecting said splitter node to said second amplifier input; a fourth splitter transmission line having an impedance and an electrical length, said fourth splitter transmission line for connecting said input port to said third amplifier input; a fifth splitter transmission line having an impedance and an electrical length, said fifth splitter transmission line for connecting said input port to said fourth amplifier input; a combiner circuit, further comprising an output port; a combiner node; a first amplifier output; a second amplifier output; a third amplifier output; a fourth amplifier output; a first combiner transmission line having an impedance and an electrical length, said first combiner transmission line for connecting said output port to said combiner node; a second combiner transmission line having an impedance and an electrical length, said second combiner transmission line for connecting said combiner node to said first amplifier output; a third combiner transmission line having an impedance and an electrical length, said third combiner transmission line for connecting said combiner node to said second amplifier output; a fourth combiner transmission line having an impedance and an electrical length, said fourth combiner transmission line for connecting said output port to said third amplifier output; a fifth combiner transmission line having an impedance and an electrical length, said fifth combiner transmission line for connecting said output port to said fourth amplifier output; wherein said first amplifier input and said first amplifier output together define a first amplifier port, said second amplifier input and said second amplifier output together define a second amplifier port, said third amplifier input and said third amplifier output together define a third amplifier port, and said fourth amplifier input and said fourth amplifier output together define a fourth amplifier port, each said amplifier port for receiving an amplifier; wherein said splitter/combiner circuit accepts one to four amplifiers and the fraction of power provided to each of said amplifiers is 1/N where N is the number of operative amplifiers; and wherein the electrical length of each of said combiner transmission lines and each of said splitter transmission lines is selected to produce an in-phase signal at said output port. - View Dependent Claims (17, 18)
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19. A splitter/combiner circuit comprising:
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an N-way splitter circuit including a common input port coupled to N-amplifier input ports by way of at least one splitter impedance transformation network, the N-amplifier input ports being configured to accommodate at least one of N-RF amplifiers installed in the splitter/combiner circuit in a predetermined sequence, the at least one splitter impedance transformation network being characterized by at least one predetermined electric length and configured to provide each of the installed N-RF amplifiers with an RF amplifier input signal having an amplifier input signal power that is substantially equal to the signal power of a common input port signal divided by N, whereby N is an integer value between one (1) and four (4) inclusively; and an N-way combiner circuit including N-amplifier output ports coupled to a common output port by way of at least one combiner impedance transformation network, the N-amplifier output ports corresponding to the N-amplifier input ports and configured to accommodate the at least one N-RF amplifiers installed in the splitter/combiner circuit in the predetermined sequence, the at least one combiner impedance transformation network being characterized by the at least one predetermined electric length and configured as a schematic mirror image of the at least one splitter impedance transformation network.
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Specification