Quantic PMI's PA-30-1D32D7-SFF Power Amplifier for RF Engineering

Highlighted on everything RF... The PS-360-16G22G-10B-SFF from Quantic PMI (Planar Monolithics) is a 10-Bit Digitally-Controlled Analog Phase Shifter that operates from 16 to 22 GHz that provides a phase shift from 0° to 360° (10-bit TTL control) and has a phase accuracy of ±5°. This phase shifter can handle a CW input power of up to +25 dBm and has an insertion loss of 11.5 dB with a VSWR of less than 2.0:1. It requires a DC supply from 12 to 15 V and consumes less than 15 mA of current. This analog phase shifter is available in a module that measures 2.0" x 2.1" x 0.5" and has SMA (female) connectors. It complies with MIL-STD-202F standard and can operate over a temperature range of -55 to +85 ºC. https://lnkd.in/dibGctkY #RFengineering #RF #RFcomponents #microwave #microwavetechnology #Phaseshifters

Featured on everything RF... The LM-10M12G-20-10W-SFF from Quantic PMI (Planar Monolithics) is a Power Limiter that operates from 0.01 to 12 GHz. It can handle an input power of up to 10 W (CW) and a peak power of up to 100 W (pulsed) (1 µs pulse with 1% duty cycle). This power limiter has an RF leakage of 20 dBm and a recovery time of <1 µs. It has an insertion loss of less than 2 dB and a VSWR of <2.0:1 (input/output). It is available in a module that measures 1.0" x 0.68" x 0.35" inches and has SMA female connectors. https://lnkd.in/dT-95WwN #RF #RFcomponents #RFengineering #microwavecomponents #mivcrowave

Tim Daly has selected the Knowles Corporation Milli-Cap® series of broadband blocking capacitors as the RFMW #RF Expert Product Pick for September. These capacitors deliver ultra-low loss, very low series inductance, and ultra-high series resonance while fitting into compact 0201, 0402, and 0602 footprints. Designed to behave like an ideal capacitor across a wide frequency range, they are well suited for test equipment, fiber optic modules, high-speed data systems, and broadband microwave and millimeter-wave designs. Learn more: https://lnkd.in/gJvXSziW

Featured on everything RF ... The SBA-100M18G-31D5-6B-RL-SFF from Quantic PMI (Planar Monolithics) is a Switched Digital Step Attenuator that operates from 0.1 to 18 GHz with an attenuation range of 0 to 31.5 dB in 0.5 dB step size. This attenuator has an insertion loss of less than 6.0 dB and a switching speed of 100 ns. It can handle an input power of up to +27 dBm and has a VSWR of less than 2.0:1. The SBA-100M18G-31D5-6B-RL-SFF uses a 6-bit independent control logic for adjusting the attenuation level. This digital attenuator is available as a module that measures 1.15" x 0.85" x 0.5" and has SMA (female) connectors. https://lnkd.in/geAczfqU #RF #RFengineering #RFcomponents #microwave #microwavetechnologies #Attenuators

An RF power amplifier is an electronic circuit whose core function is to amplify low-power RF signals to high power levels so that they can be effectively radiated through an antenna for long-distance transmission. news url:https://lnkd.in/dkibDdKx

Highlighted in Microwave Product Digest's On-the-Market... The PS-360-DC-3 OPTION 618-15D-10BIT from Quantic PMI (Planar Monolithics) is a 360° 10-bit, digitally-controlled phase shifter operating from 6 to 18 GHz that has insertion loss of 12 dB, accuracy of 8.5°, PM/AM of ±2.5 dB, carrier suppression of 18 dB, sideband suppression of 15 dB, and maximum RF input power is +20 dBm. https://lnkd.in/epiXa4S2 #RF #RFengineering #RFcomponents #microwave #microwavetechnology #PhaseShifters

To help you overcome phase noise challenges in demanding RF and microwave systems, our proprietary bootstrap oscillator technology delivers exceptional stability in harsh environments. It uses two rugged OCXOs at the same frequency that are phase-locked together, with advanced compensation techniques that dramatically reduce vibration-induced phase noise. By mechanically aligning the oscillators and applying a compensation voltage to fine-tune their performance, this design ensures your system maintains ultra-low phase noise and reliable operation- even under vibration and shock. Access the datasheet now. >>> https://lnkd.in/g9-ZEsh9 #wenzel #rf #oscillator #microwave

SV MICROWAVE’s Non-Magnetic RF Cable Assemblies are engineered for magnetically sensitive environments. These compact 6" assemblies combine SMA and SMPM interfaces with Ø.047" or Ø.085" flexible cables to deliver low-loss, high-frequency performance in a ready-to-use format. These cable assemblies maintain a maximum magnetic susceptibility of 10⁻⁵ with no field distortion and support frequencies up to 40 GHz, ensuring reliable signal integrity where magnetic interference cannot be tolerated. Explore the product line: https://bit.ly/3Il9eWI #Cover2Sales #SVMicrowave

🚀 Mixer Spur Analysis – Double Balanced Mixer When I working with RF systems, mixer design is never just about translating frequencies. One of the most critical aspects is understanding and mitigating spurious responses (spurs). 🔹 In the plot below, I’ve analyzed the spur distribution for a double balanced mixer. Desired TX (RF) output → centered around 17 GHz Spurious components → extending into higher frequency bands A double balanced mixer offers significant advantages over single balanced or unbalanced designs: ✅ Better LO-to-RF and LO-to-IF isolation ✅ Suppression of even-order harmonics ✅ Reduced feedthrough and unwanted mixing products However, spurs still appear due to higher-order mixing products (m·LO ± n·IF). Analyzing these spurs within the TX bandwidth limits ensures that unwanted emissions don’t fall into regulatory bands or interfere with adjacent channels. This kind of spur chart helps in: 📡 Evaluating mixer linearity 📡 Optimizing LO/IF selection 📡 Meeting compliance requirements (e.g., 3GPP, ETSI, FCC) 👉 Double balanced mixers aren’t “spur-free” — but they strike the right balance for many RF front-end designs. What techniques do you use to manage mixer spurs in your designs? The image is my analysis representation for frequency, Please don't consider the amplitude as correct value. #RFDesign #Mixer #Wireless #Radar #5G #SpurAnalysis #RFEngineering

The Marki Microwave ADM1-8007APC is a high-linearity, high gain, low noise distributed amplifier capable of providing +22 dBm output power up to 35 GHz. When driven with an input power of 0 to +5 dBm, the ADM1-8007APC can provide sufficient LO drive to power all H and most S diode mixers to 40 GHz. The amplifier has excellent return losses and gain flatness. The ADM1-8007APC is a single-pin bias variant of the ADM1-8007PC. RF Performance is identical to the ADM1-8007PC. View product details: https://lnkd.in/gwGmwYiJ