A Low-Noise Transmission-Type Yttrium Iron Garnet Tuned Oscillator Based on a SiGe MMIC and Bond-Coupling Operating up to 48 GHz

Delden, Marcel van; Pohl, Nils; Aufinger, Klaus; Baer, Christoph; Musch, Thomas

doi:10.1109/tmtt.2019.2926293

Cited by 13 publications

(9 citation statements)

References 32 publications

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“…Using two VCOs and subtracting their signals is, as explained above, not beneficial regarding phase noise. This is partly because designing the VCOs for higher frequencies increases their individual phase noise by 20 dB per decade [33]. With a singular VCO at the fundamental frequency however, the relative bandwidth is limited.…”

Section: Measurement Resultsmentioning

confidence: 99%

Overcoming the relative bandwidth limitations of single VCO frequency synthesizers by implementing a novel PLL architecture

Braun,

Schoepfel,

Marquez M.

et al. 2024

Int. J. Microw. Wireless Technol.

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Frequency-modulated continuous-wave radar systems profit from increasing the absolute bandwidths of the generated frequency chirps to improve range resolution. As the relative bandwidth of SiGe-voltage-controlled oscillators (VCOs) is limited to about 80%, increasing the center frequency fundamentally or via frequency multiplication is the most direct way to increase that absolute bandwidth. However, as some applications require penetration depth, which dramatically decreases with frequency, other solutions are necessary. Therefore, state-of-the-art concepts rely on the down-conversion of generated frequency chirps via two separately stabilized frequency sources. This article implements a novel architecture, offering relative bandwidths of >100% within a single phase-locked loop (PLL). Therefore, two VCOs at different center frequencies are fed into a down-conversion mixer, whose output is directly stabilized via that PLL with one loop filter generating both tuning voltages. Those circuit blocks can be summarized as one equivalent VCO, offering a higher relative bandwidth and a significantly more linear tuning curve. Thereby, a solution to limited relative bandwidths with high VCO gain variation of single VCO synthesizers is offered while substantially reducing the hardware and implementation effort compared to the state-of-the-art.

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Section: Measurement Resultsmentioning

confidence: 99%

Overcoming the relative bandwidth limitations of single VCO frequency synthesizers by implementing a novel PLL architecture

Braun,

Schoepfel,

Marquez M.

et al. 2024

Int. J. Microw. Wireless Technol.

Self Cite

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show abstract

“…While all presently commercially-available YIG oscillators [80,81] employ a reflection architecture, the device here employs a transmission (feedback) architecture [82][83][84][85][86]. The transmission oscillator is constructed from four components connected in a serial feedback loop as shown in Fig.…”

Section: Methodsmentioning

confidence: 99%

Ferrimagnetic Oscillator Magnetometer

et al. 2023

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“…Using a YTO is an obvious choice because of its superior phase noise performance compared to a VCO. This was shown by ourselves with a YTO ranging from 19.1 to 41.4 GHz with a phase noise of only −150 dBc/Hz at 1 MHz offset [12]. However, this comes with a significantly higher complexity.…”

Section: Introductionmentioning

confidence: 95%

A phase-locked loop with a jitter of 50 fs for astronomy applications

Braun

Delden

Bredendiek

et al. 2023

Int. J. Microw. Wireless Technol.

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Radio telescopes are among the applications with the highest demands on a local oscillator (LO), which is used to receive and process the signals coming from the sky. Therefore the modules providing the required LO signal have traditionally been big and complicated. To overcome this disadvantage, we implement our own integrated frequency synthesizer inside a small LO module in this article. With this synthesizer we are able to achieve a jitter of only 50 fs integrated from 10 Hz to 2.5 GHz offset at a carrier frequency of 75 GHz. This is in part achieved by a very low in-band phase noise of −111.8 dBc at 10 kHz offset. The stabilizable frequency range is 62–88 GHz. Thus achieving promising results to fulfill this very demanding task with integrated frequency synthesizers in the future.

show abstract

A Low-Noise Transmission-Type Yttrium Iron Garnet Tuned Oscillator Based on a SiGe MMIC and Bond-Coupling Operating up to 48 GHz

Cited by 13 publications

References 32 publications

Overcoming the relative bandwidth limitations of single VCO frequency synthesizers by implementing a novel PLL architecture

Overcoming the relative bandwidth limitations of single VCO frequency synthesizers by implementing a novel PLL architecture

Ferrimagnetic Oscillator Magnetometer

A phase-locked loop with a jitter of 50 fs for astronomy applications

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