Multiple Frequencies (MF) Phase-Locked Oscillator (PLL Synthesizer) can provide up to 32 predefined selectable frequencies, which can help RF engineers to adapt the module into any design.

5G mmWave is here!

28 GHz LO sources are available now!
Single Frequency (SF) outputs single and precise frequency as per your request.
Multiple Frequency (MF) offers up to 32 preconfigured frequencies to be selected digitally.

Specifications

TMYTEK’s phase-locked oscillator (PLL Synthesizer) is a pre-configured source suitable for any RF front-end system. It features excellent phase noise performance, wideband coverage, and superior flexibility. Available in three packages: SMT Module, evaluation board, and connectorized module with reference clock from 10 to 250 MHz.

		SMT Module	EVA Board	Connectorized Module
TV version	Port A	1.925 GHz to 8 GHz / +2 to +8 dBm	1.925 GHz to 8 GHz / +2 to +8 dBm	16 GHz to 32 GHz / +8 to +10 dBm
TV version	Port B	7.7 to 16 GHz / -1 to +5 dBm	7.7 to 16 GHz / -1 to +5 dBm	16 GHz to 32 GHz / +8 to +10 dBm
JF Version	Port A	180 MHz to 18 GHz / -4 to +8 dBm	180 MHz to 18 GHz / -4 to +8 dBm	---
JF Version	Port B	180 MHz to 18 GHz / -4 to +8 dBm	180 MHz to 18 GHz / -4 to +8 dBm	---
Dimension (mm)		25.4 x 25.4 x 5.5	43.9 x 65	103.5 x 85.1 x 26

Performance

SSB Phase Noise at Carrier Frequency of 6GHz and 12GHz

Applications

Satcom

Ka and Ku band communication is widely used in Satcom industry and TMYTEK’s Phase-Locked Oscillator meets these bands.

5G Infrastructure

28 GHz is announced by 3GPP as the carrier of 5G standard. Band 2 and Band 3 Phase-Locked Oscillators are exactly for the purpose.

Instruments

Spectrum and Network Analyzer and customized test equipment have strongly relied on good Phase-Locked Oscillator sources.

Use Case:Plasma Density Measurement by Phase Difference Calculation

Plasma density can be calculated by the phase difference of its microwave reflection characteristics. Microwave signal source plays a crucial role to an accurate measurement.

This experiment, called microwave interferometer, can be accomplished using TMYTEK's components, including a 28 GHz Signal Source (PLO), power splitter, amplifier, horn antenna, and BBoard.
The technology works by separating the 28 GHz signal from the PLO into two pathways. In the first path, the signal passes through a power splitter and an amplifier into the LO port of the IQ mixer. In the second path, the signal is routed to an RF port of the IQ mixer via the power splitter and amplifier after interacting with plasma. A horn antenna receives the reflected signal from the plasma and adjusts its phase using the BBoard. The corrected signals are then delivered into the IQ mixer, which calculates the phase difference between two 28 GHz signals.

This phase information enables the calculation of plasma density and characteristics, providing useful insights into plasma behavior for a variety of applications.

Use Case: Communication Link Budget Evaluation

The 5G mmWave Developer Kit stands as a versatile tool facilitating a wide range of research and development on 5G mmWave beamforming.

Adding to its capabilities, this kit proves invaluable for link budget evaluation—an essential process in understanding received power dynamics at the receiver. The link budget accounts for gains and losses across the communication chain, aiding engineers in system design based on target distances and receiver sensitivity.

Utilizing a stable and low phase noise 28 GHz signal source, the PLO plays a crucial role in supplying signals to the 5G FR2 beamformer. The CoCo antenna, receiving the 5G mmWave, allows for the monitoring of the transmitted power from the beamformer. This approach is designed to foster a robust understanding of beamforming theory and its practical application in 5G NR. TMYTEK offers a comprehensive developer kit, featuring all the essential RF front-end components for seamless integration.

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Information & Documentation

FAQ

What is the phase noise spec?

TMYTEK Phase-Locked Oscillator is designed carefully with low phase noise to provide designer a powerful RF building block. Listed typical phase noise for 3 bands. For more details please check out the datasheet.
Band 1 at 6 GHz is -92.5 dBc/Hz@100 kHz offset.
Band 2 at 24 GHz is -89.2 dBc/Hz@100 kHz offset.
Band 3 at 32 GHz is -77.5 dBc/Hz@100 kHz offset.

1.925 - 45 GHz in one unit?

No. We separate 3 different bands to obtain the best performance.
Band 1 covers 1.925 to 16 GHz
Band 2 covers 16 to 32 GHz
Band 3 covers 32 to 45 GHz

How to implement power supply to core module?

Refer to the datasheet of Band 1 Phase-Locked Oscillator, to supply the module power you need to connect pin 12 with 5V and pin 23 with 3.3V.

Can you ship the product to China?

Absolutely! We ship our products to worldwide!

How to implement digital control?

Refer to the datasheet of Band 1, control pins are 17, 18, 19, 20, 21. Users are able to control the frequencies by assigned 0 or 1 on control pins.

What is your settling time (lock-time)?

The settling time is 90 μs.

What is the minimum step of frequency changes?

The minimum frequency step is 1 MHz. For smaller step we can customize it for you.

What is the output power level of your Phase-Locked Oscillator?

The output power of three bands are listed
Band 1 low band (1.925 GHz to 8 GHz): +2 to +8 dBm
Band 1 high band (7.7 to 16 GHz): -1 to +5 dBm
Band 2 (16 to 32 GHz): +10 to +15 dBm
Band 3 (32 to 45 GHz): +12 to +18 dBm

Is the output power level adjustable?

No. In current models we fixed the output power level.

What about the spur/harmonic?

In Band 1, spurs < 40 dBc. Second Harmonic is < 20 dBc

What is the performance of Internal Ref. frequency?

Internal frequency 100 MHz, ±25 ppm

What are the external ref frequency core ranges?

External reference is suggested in-between 10 to 800 MHz

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