News from Mini-Circuits

From the Mini-Circuits Blog:

SMT Passives to 250W, DC TO 14.5 GHz

Compact Stripline Couplers & Hybrids up to 250W

Mini-Circuits’ surface-mount stripline couplers and 90° hybrids cover an operational frequency range of DC to 14.5 GHz. Coupler models feature greater than 2 decades of bandwidth and power handling up to 180W, while the hybrids exhibit up to 6:1 bandwidth and power handling up to 250W. Robust, reliable, and cost-effective with compact footprints, models from this line meet a wide range of customers’ needs where power and size are paramount.

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New Product Releases from Mini-Circuits:

Test Solutions

– Peak & Average Power Sensor, -60 to +20 dBm, 80 Msps sample rate, 50Ω

o PWR-18PWHS-RC, 50 MHz to 18 GHz

Together with our suppliers we are constantly working to shorten the time between order and delivery however due to current material shortage lead times for some models are still longer than usual so please take this into account when placing your order.

Update from Mini-Circuit’s blog

MMIC LNA with Bypass

Versatile Performance with Extended Dynamic Range

Mini-Circuits’ TSY-83LN+ wideband, MMIC LNA incorporates a bypass mode feature to extend system dynamic range. This model operates from 0.4 to 8 GHz and achieves an industry leading combination of wideband gain flatness, NF, P1dB and OIP3. 

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New Product Releases from Mini-Circuits:

Test Solutions

– USB & Ethernet 4-Channel Programmable Attenuator, 0-63 dB, SMA, 50Ω

o ZTDAT-4-18G63S, 0.1 GHz to 18 GHz

– 16-Way, Panel Mount Splitter & Combiner, 30W, 1U, SMA, 50Ω

o ZT-394, 0.6 GHz to 6 GHZ

Together with our suppliers we are constantly working to shorten the time between order and delivery however due to current material shortage lead times for some models are still longer than usual so please take this into account when placing your order.

Additional update from Mini-Circuits

New Product Releases

Switches

– Mechanical SPDT Switch, Absorptive, TTL, SMA, 50Ω
ZK-MSP2TA-18, DC to 18 GHz

– Mechanical SP4T Switch, Absorptive, TTL, SMA, 50Ω
ZK-MSP4TA-18, DC to 18 GHz

– Mechanical SP6T Switch, Absorptive, TTL, SMA, 50Ω
ZK-MSP6TA-12, DC to 12 GHz

– Mechanical SP8T Switch, Absorptive, TTL, SMA, 50Ω
ZK-MSP8TA-12, DC to 12 GHz

Together with our suppliers we are constantly working to shorten the time between order and delivery however due to current material shortage lead times for some models are still longer than usual so please take this into account when placing your order

Updates from Mini-Circuits

Wideband MMIC Variable Gain Amplifier

The PVGA-273+ low noise, variable gain MMIC amplifier features an NF of 2.6 dB, 13.9 dB gain, +15 dBm P1dB, and +29 dBm OIP3. This VGA affords a gain control range of 30 dB with a control voltage of -0.7 to 2.0V. The compact 5×5 mm QFN-style package includes internally-matched, 50Ω RF ports, ideal for insertion into any lineup to trim gain and balance system GNIP parameters.

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Selecting VCOs for Clock Timing Circuits – A System Perspective

Clock Timing, Phase Noise and Bit Error Rate (BER)

Timing is critical in digital systems, especially in electronic systems that feature high-speed data converters and high-resolution sampling. A clock source is the “timekeeper” and the system performance depends upon the effectiveness of this component. For some system designers, implementing a clock source automatically means using a crystal oscillator, typically a single-frequency source. But other designers, especially those tasked with synchronizing systems at multiple clock frequencies, have learned to appreciate the flexibility of using voltage-controlled oscillators (VCOs) as clock sources.

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1.35mm DC to 90 GHz Adapters

Wideband 1.35mm Adapters

Low Insertion Loss & VSWR through RF/mmWave

Mini-Circuits’ 1.35mm to 1.35mm RF/mmWave adapter series offers three mating adaptations to meet all possible interface configurations. Ultra-wideband, 90 GHz capability allows these units to be integrated into a variety of system types, while low insertion loss and exceptional VSWR result in minimal impact to interconnections. Adapters feature passivated stainless steel construction and a rugged, compact design.

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Together with our suppliers we are constantly working to shorten the time between order and delivery however due to current material shortage lead times for some models are still longer than usual so please take this into account when placing your order.

Update from Mini-Circuits

Fast-Switching GaAs Switches Are a High-Performance, Low-Cost Alternative to SOI

A mistaken belief has arisen in recent years that SOI has somehow taken over as the prevailing technology for fast RF switch applications. However, Mini-Circuits has recently introduced the M3SWA2-63DRC+ and the M3SWA2-34DR+ultrafast, absorptive RF switches which has given cause for designers to reconsider their switch choices. Designers are discovering that it is no longer necessary to bear the expense of an SOI switch just to get the speed they need. 

In this application note, a comprehensive, side-by-side, parametric comparison of the Mini-Circuits’ wideband GaAs MMIC M3SWA2-34DR+ switch to two SOI competitive offerings is performed. This comparison leads to the conclusion that there is no reason to take the foot off the GaAs.

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New Product Releases

RF Energy

  • 1 kW Rack Mount Signal Source, 53 dB Gain, CW and Pulsed, 7/16” RF Out, 50Ω
    • 135F-135F+, 2.4 GHz to 2.5 GHz

Together with our suppliers we are constantly working to shorten the time between order and delivery however due to current material shortage lead times for some models are still longer than usual so please take this into account when placing your order.

Updates from Mini-Circuits

UHF to mmWave Cavity Filter Solutions

Cavity Filters 300 Mhz to 50 GHz

High Rejection & Selectivity

Cavity filters achieve much higher Q, steeper rejection skirts, and higher power handling than other filter technologies, such as ceramic resonator filters, and are utilized where low passband insertion loss and high rejection of neighboring channels/spurious emissions are critical. Applications include military and commercial fixed site and mobile networks, as well as satellite communications.

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Measurement of Amplifier Additive Phase Modulation Noise (APM)

Part 1: Background & Theory

Optimum APM Test Configuration

In the efforts to properly characterize the Additive Phase Modulation Noise (APM) and Additive Amplitude Modulation Noise (AAM) performance of MMIC amplifiers in the lab, it is important to consider the performance capabilities and limitations of phase noise analyzer and test setup (see Figure 4).  Both APM and AAM performance can be dependent upon the analyzer’s internal signal source carrier frequency, power level, and, importantly, the phase length from signal source output to RF input, so great care must be taken to optimize these parameters.

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New Product Releases

Adapters

  • Coaxial Adapter, 0.29 dB IL, 1.35mm F-F, 50Ω
    • 135F-135F+, DC to 90 GHz
  • Coaxial Adapter, 0.24 dB IL, 1.35mm F-M, 50Ω
    • 135F-135M+, DC to 90 GHz
  • Coaxial Adapter, 0.24 dB IL, 1.35mm M-M, 50Ω
    • 135M-135M+, DC to 90 GHz

Amplifiers

  • 1W VGA, 33 to 50 dB Gain, Analog & TTL Control with Heatsink, 50Ω
    • ZVA-0543VG+, 20 GHz to 54 GHz
  • 1W VGA, 33 to 50 dB Gain, Analog & TTL Control, without Heatsink, 50Ω
    • ZVA-20543VGX+, 20 GHz to 54 GHz
  • MMIC VGA, 2.6 dB NF, 30 dB Gain Control, 5x5mm QFN, 50Ω
    • PVGA-273+, 0.3 GHz to 26.5 GHz
  • MMIC VGA Die, 2.6 dB NF, 30 dB Gain Control, 50Ω
    • PVGA-273-DG+, 0.3 GHz to 26.5 GHz
  • MMIC LNA with Bypass, 1.5 dB NF, +33.6 dBm OIP3, 3x3mm QFN, 50Ω
    • TSY-83LN+, 400 MHz to 8 GHz
  • MMIC Amp., -165 dBc/Hz @ 10 kHz APN, +28.7 dBm OIP3, 4x4mm QFN, 50Ω
    • LVA-6183PN+, 6 GHz to 18 GHz

Filters

  • Coaxial Cavity Bandpass Filter, SMA, 5W, 50Ω
    • ZVBP-18R7G-S+, 18.2 GHz to 19.2 GHz

Splitters

  • SMT 2-Way Quadrature Hybrid, 200W, 50Ω
    • QCH-63+, 2 GHz to 6 GHz

Together with our suppliers we are constantly working to shorten the time between order and delivery however due to current material shortage lead times for some models are still longer than usual so please take this into account when placing your order.

Weekly update from Mini-Circuits

Frequency Modulation Fundamentals.

Originally a Solution for Eliminating Static.

Beginning in 1923, in Columbia University’s Marcellus Hartley Research Laboratory, in the basement of Philosophy Hall, a driven genius in electronic circuitry named Edwin Howard Armstrong set out to reduce static through the use of FM. After approximately 8 years of toil, Armstrong had a brainstorm and decided to challenge the assumption that the FM transmission bandwidth had to be narrow to keep noise low.

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New Product Releases

Bias Tees

  • Coaxial Bias-Tee, 0.1 dB, 250W, N/SMA, with Heat-Sink, 50Ω
    • ZABT-250W-63+, 420 MHz to 6 GHz
  • Coaxial Bias-Tee, 0.1 dB, 250W, N/SMA, without Heat-Sink, 50Ω
    • ZABT-250W-63X+, 420 MHz to 6 GHz

Filters

  • LTCC Coaxial Diplexer, 5.5W, SMA, 50Ω
    • ZDPL-6G-S+, F Low DC to 1.6 GHz – F High 2.4 GHz to 6 GHz
  • LTCC High Pass Filter, 1812, 7W, 50Ω
    • HFCU-223+, 22.8GHz to 39 GHz
  • LTCC High Pass Filter, 1812, 7W, 50Ω
    • HFCU-243+, 5 GHz to 40 GHz

Test Solutions

  • USB & Ethernet Programmable Attenuator, 31.5 dB, 2.92 mm, 50Ω
    • RCDAT-44G-30, 100 MHz to 44 GHz

Together with our suppliers we are constantly working to shorten the time between order and delivery however due to current material shortage lead times for some models are still longer than usual so please take this into account when placing your order.

Updates from Mini-Circuits

New Product Releases

Filters

  • SIW Bandpass Filter, 1.7 dB Insertion Loss, n258, 1W, 50Ω
    • WSBP-26G+, 25 GHz to 27 GHz
  • LTCC Bandpass Filter, 3.3 dB Insertion Loss, 1W, 50Ω
    • BFHKI-2492+, 22 GHz to 28 GHz
  • LTCC Bandpass Filter, 2.8 dB Insertion Loss, 1W, 50Ω
    • BFHKI-3142+, 28 GHz to 36 GHz
  • LTCC Thru-Line, 0.3 – 1.3 dB Insertion Loss, 1W, 50Ω
    • TPHKI-3002+, DC to 30 GHz

Test Solutions

  • Connector Adapter Patch Panel, 24 x N-Type (f-f), 2U
    • ZT-226, DC to 11 GHz
  • Connector Adapter Patch Panel, 16 x SMA (f-f), 1U
    • ZT-396, DC to 18 GHz
  • Splitter / Combiner Panel, 4 x 4-Way, 1U, SMA
    • ZT-392, 0.6 GHz to 6 GHz
  • Splitter / Combiner Panel, 2 x 8-Way, 1U, SMA
    • ZT-393, 0.6 GHz to 6 GHz

Together with our suppliers we are constantly working to shorten the time between order and delivery however due to current material shortage lead times for some models are still longer than usual so please take this into account when placing your order.

Weekly Updates from our suppliers

Recent News:

3 To N PORTS

Mesh Network Simulators

WiFi, IoT, Defense Radio Comms & More

Mini-Circuits has expanded the range of test systems for characterizing wireless mesh network devices, now with standard configurations up to 16-ports built to order with fast turnaround. All external ports of the mesh are interconnected to simulate an over-the-air wireless mesh configuration. Programmable attenuators on each internal path allow the path loss to be varied independently between any pair of devices, without affecting communication between any other pair.

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New Product Releases

Filters

  • LTCC Coaxial High Pass Filter, 2.92mm, 3W, 50Ω
    • ZHFG-K3250+, 3.65 GHz to 16.5 GHz
  • LTCC Coaxial High Pass Filter, 2.92mm, 3W, 50Ω
    • ZHFG-K4000+, 4.5 GHz to 18 GHz
  • LTCC Coaxial High Pass Filter, 2.92mm, 2.5W, 50Ω
    • ZHFW-K1042+, 11.5 GHz to 20 GHz
  • LTCC Coaxial High Pass Filter, 2.92mm, 2.5W, 50Ω
    • ZHFW-K133+, 14.2 GHz to 20.5 GHz
  • LTCC Coaxial High Pass Filter, 2.92mm, 1.75W, 50Ω
    • ZHFW-K5000+, 5.5 GHz to 20 GHz
  • LTCC Coaxial High Pass Filter, 2.92mm, 1.75W, 50Ω
    • ZHFW-K5500+, 6.1 GHz to 20 GHz
  • LTCC Coaxial High Pass Filter, 2.92mm, 2.5W, 50Ω
    • ZHFW-K6600+, 7.2 GHz to 20 GHz
  • LTCC Coaxial High Pass Filter, 2.92mm, 2.5W, 50Ω
    • ZHFW-K7000+, 7.6 GHz to 20 GHz
  • LTCC Coaxial High Pass Filter, 2.92mm, 2.5W, 50Ω
    • ZHFW-K8400+, 9.2 GHz to 18 GHz
  • LTCC Coaxial Low Pass Filter, 2.92mm, 6.5W, 50Ω
    • ZLFV-K1552+, DC to 15.5 GHz
  • LTCC Coaxial Low Pass Filter, 2.92mm, 2.5W, 50Ω
    • ZLFW-K1292+, DC to 12.9 GHz
  • Cavity Coaxial Bandpass Filter, SMA, 100W, 50Ω
    • ZVBP-778-S+, 773 MHz 783 MHz
  • LTCC High Pass Filter, 1206, 1W, 50Ω
    • HFCN-3052+, 30.5 GHz to 56.2 GHz
  • LTCC Coaxial High Pass Filter, SMA, 2.5W, 50Ω
    • VHFG-1230+, 1.4 GHz to 8 GHz
  • LTCC Coaxial Low Pass Filter, SMA, 4.5W, 50Ω
    • VLFG-2275+, DC to 2.275 GHz

Together with our suppliers we are constantly working to shorten the time between order and delivery however due to current material shortage lead times for some models are still longer than usual so please take this into account when placing your order. 

Updates from our suppliers

From Mini-Circuits:

Recent News:

High Pass Filters – Compact, Cost-Effective and Extending to 60 GHz

When designing mmWave frequency systems that span Q-band and half of V-band, engineers are often faced with difficult tradeoffs when it comes to filter selection. Mini-Circuits has broken through with the HFCQ (1008), HFCN (1206) and HFCV (1210) series high pass filters. These latest LTCC filters from Mini-Circuits exhibit passbands that cover Q-band and the lower half of V-band while offering a combination of insertion loss, return loss, rejection, size, cost, repeatability, ruggedness and reliability that has only now become available.

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New Product Releases

Filters

  • LTCC SMT Diplexer, 0.4 dB Insertion Loss, 4W, 50Ω
    • LDPQ-550-252+, F-low – DC to 0.5 GHz. F-High – 1.3 to 2.5 GHz

Test Solutions

  • USB & Ethernet Signal Generator, -40 to +17 dBm, 2.92mm, CW & Pulsed, 50Ω
    • SSG-44G-RC, 0.1 GHz to 44 GHz

Together with our suppliers we are constantly working to shorten the time between order and delivery however due to current material shortage lead times for some models are still longer than usual so please take this into account when placing your order.