This paper presents a digitally programmable bi-directional 7-bit passive phase shifter in a 65 nm CMOS technology. The core of this passive vector-synthesized phase shifter is a hybrid quadrature generator (HQG), an interstage matching network, and a passive vector modulator (PVM). This work proposes a high coupling-factor-based quadrature generator design methodology and demonstrates it with a compact vertical transformer. The interstage matching network between HQG and PVM is proposed to release the bandwidth bottleneck and achieve a 34% fractional frequency bandwidth. Two 6-bit X-type attenuators in the I and Q path form a high-resolution 12-bit controlling word. In 32-40 GHz, this 7-bit 360 ∘ phase shifter achieves a measured 2.8 ∘ ste...
This paper presents a 6-bit active phase shifter using a new vector-sum method for X-band (8-12 GHz)...
One of the challenges in implementing phased array systems is to implement high performance phase sh...
A 60 GHz phased array system for mm-wave frequency in 5 G is introduced and a 5 bit digitally contro...
This paper presents a digitally programmable bi-directional 7-bit passive phase shifter in a 65 nm C...
This paper presents a 26-32GHz 6-bit bidirectional passive vector modulation phase shifter in 40nm C...
This paper presents a vector modulator based active phase shifter for the 56-65 GHz frequency band i...
This letter presents a 6 bit vector-sum phase shifter with a novel control circuitry for X-band phas...
This paper presents a scalable baseband phase shifter implemented in a 40-nm CMOS technology for pha...
Two 4-bit active phase shifters integrated with all digital control circuitry in 0.13-mu m RF CMOS t...
This paper presents a 4-bit digital-controlled active phase shifter implemented in a 0.25μm SiGe:C B...
This letter presents the design of a 200-250-GHz compact vector modulator (VM) phase shifter in a 0....
This letter presents the design of a 140-160 GHz vector-modulator-type phase shifter, integrated in ...
This letter presents the design of a 140-160 GHz vector-modulator-type phase shifter, integrated in ...
This paper presents a 6-bit active phase shifter using a new vector-sum method for X-band (8-12 GHz)...
One of the challenges in implementing phased array systems is to implement high performance phase sh...
A 60 GHz phased array system for mm-wave frequency in 5 G is introduced and a 5 bit digitally contro...
This paper presents a digitally programmable bi-directional 7-bit passive phase shifter in a 65 nm C...
This paper presents a 26-32GHz 6-bit bidirectional passive vector modulation phase shifter in 40nm C...
This paper presents a vector modulator based active phase shifter for the 56-65 GHz frequency band i...
This letter presents a 6 bit vector-sum phase shifter with a novel control circuitry for X-band phas...
This paper presents a scalable baseband phase shifter implemented in a 40-nm CMOS technology for pha...
Two 4-bit active phase shifters integrated with all digital control circuitry in 0.13-mu m RF CMOS t...
This paper presents a 4-bit digital-controlled active phase shifter implemented in a 0.25μm SiGe:C B...
This letter presents the design of a 200-250-GHz compact vector modulator (VM) phase shifter in a 0....
This letter presents the design of a 140-160 GHz vector-modulator-type phase shifter, integrated in ...
This letter presents the design of a 140-160 GHz vector-modulator-type phase shifter, integrated in ...
This paper presents a 6-bit active phase shifter using a new vector-sum method for X-band (8-12 GHz)...
One of the challenges in implementing phased array systems is to implement high performance phase sh...
A 60 GHz phased array system for mm-wave frequency in 5 G is introduced and a 5 bit digitally contro...