Search results for "sma an"
RF/Coaxial Cable Assembly - SMA Plug to SMA Plug (76.2 mm) MC001054
SMA Straight Plug to SMA Straight Plug, 76.2 mm Specifications Frequency range 0 to 18GHz VSWR (≤1.35) Insertion loss ≤0,22 db Body Brass Nickel Centre contact Brass Gold Insulator PTFE
€ 14,95
Members € 13,46
SparkFun GPS/GNSS Magnetic Mount Antenna - 3 m (SMA)
This exceptional GPS/GNSS antenna is designed for both GPS and GLONASS reception. The magnetic mount allows it to be easily mounted to a metal base such as a ground plate or car roof. The antenna is terminated with a 3m cable and standard SMA connector. Features Dimensions: 50x38x17mm Weight: 75g including 3m cable Frequency Range: 1575 - 1610MHz GPS Center Frequency: 1575.42MHz GLONASS Center Frequency: 1602MHz LNA Voltage: 3 to 5VDC LNA Gain: 28dB LNA Current: 10mA Termination Connector: SMA Impedance: 50Ω Right-hand polarization Cable Length: 3 meter
€ 13,95
Members € 12,56
RTL-SDR RTL-SDR Semi-Rigid RG402 SMA Antenna Adapter Set
This set contains 10 semi-rigid RG402 adapter cables (SMA Male to SMA, BNC, Type N, Type F, UHF Male + Female adapters) with a length of 20 cm.
€ 32,95
Members € 29,66
SparkFun SparkFun GPS-RTK-SMA Breakout - ZED-F9P (Qwiic)
Based on the SparkFun GPS-RTK2 designs, the SparkFun GPS-RTK-SMA raises the bar for high-precision GPS and is the latest in a line of powerful RTK boards featuring the ZED-F9P module from u-blox. The ZED-F9P is a top-of-the-line module for high accuracy GNSS and GPS location solutions, including RTK capable of 10mm, three-dimensional accuracy. With this board, you will be able to know where your (or any object's) X, Y, and Z location is within roughly the width of your fingernail! The ZED-F9P is unique in that it is capable of both rover and base station operations. Utilizing our handy Qwiic system, no soldering is required to connect it to the rest of your system. However, we still have broken out 0.1'-spaced pins if you prefer to use a breadboard. We've included a rechargeable backup battery to keep the latest module configuration and satellite data available for up to two weeks. This battery helps 'warm start' the module decreasing the time-to-first-fix dramatically. This module features a survey-in mode allowing the module to become a base station and produce RTCM 3.x correction data. Based on your feedback, we switched out the u.FL connector and included an SMA connector in this version of the board. The number of configuration options of the ZED-F9P is incredible! Geofencing, variable I²C address, variable update rates, even the high precision RTK solution can be increased to 20Hz. The GPS-RTK2 even has five communications ports which are all active simultaneously: USB-C (which enumerates as a COM port), UART1 (with 3.3V TTL), UART2 for RTCM reception (with 3.3V TTL), I²C (via the two Qwiic connectors or broken out pins), and SPI. SparkFun has also written an extensive Arduino library for u-blox modules to easily read and control the GPS-RTK-SMA over our Qwiic Connect System. Leave NMEA behind! Start using a much lighter weight binary interface and give your microcontroller (and its one serial port) a break. The SparkFun Arduino library shows how to read latitude, longitude, even heading and speed over I²C without the need for constant serial polling. Features Concurrent reception of GPS, GLONASS, Galileo and BeiDou Receives both L1C/A and L2C bands Voltage: 5 V or 3.3 V, but all logic is 3.3 V Current: 68 mA - 130 mA (varies with constellations and tracking state) Time to First Fix: 25 s (cold), 2 s (hot) Max Navigation Rate: PVT (basic location over UBX binary protocol) - 25 Hz RTK - 20 Hz Raw - 25 Hz Horizontal Position Accuracy: 2.5 m without RTK 0.010 m with RTK Max Altitude: 50 km Max Velocity: 500 m/s Weight: 6.8 g Dimensions: 43.5 mm x 43.2 mm 2 x Qwiic Connectors
€ 379,00
Members € 341,10
RTL-SDR YouLoop Portable Passive Magnetic Loop Antenna for HF and VHF
This portable passive HF/VHF loop antenna is designed for low NF receivers. It also works with RTL-SDR in direct sampling mode if you enable RTL AGC. Signals can be boosted by using any external low cost HF amplifier, or even our wideband LNA. Specifications HF Portable & Flexible Receive Loop Antenna Covers HF frequencies (10 kHz to 30 MHz) Usable on FM/VHF up to 300 MHz as a folded Dipole Maximum power 250 mW Passive Design No Tuning required Low-Loss Wide-Band BALUN with 0.28 dB loss typ Connection: SMA Male on the end of the feedline Included 1x YouLoop T shaped low-loss wide-band BALUN 1x Coax Inverter Connector 2x Semi-rigid RG402 coax with SMA Male connectors – Branches (1 m) 1x Semi-rigid RG402 coax with SMA Male connectors – Transmission (2 m)
€ 49,95
Members € 44,96
Great Scott Gadgets Great Scott Gadgets ANT500 Telescopic Antenna (75 MHz to 1 GHz)
ANT500 from Great Scott Gadgets is a telescopic antenna designed for operation from 75 MHz to 1 GHz. Its total length is configurable from 20 cm to 88 cm. ANT500 is constructed of stainless steel and features an SMA male connector, rotating shaft, and adjustable elbow. ANT500 is a 50 ohm general purpose antenna. It is the perfect first antenna for use with HackRF One.
€ 34,95
Members € 31,46
iLabs iLabs LoRa Antenna (EU868)
This is a 170 mm long 868 MHz 50 hm antenna kit targeted for use with iLabs Challenger LoRa products. The antenna can tilt and swivel making it easy to install it in various applications. The kit also comes with a RF cable assembly containing an SMA (Female) and JK-IPEX/MHF/U.FL for connection to the PCB. The coax is a 1-13 mm 50 Ohm cable and is 100 mm’s long.
€ 7,95
Members € 7,16
Great Scott Gadgets Great Scott Gadgets ANT700 Telescopic Antenna (300 MHz to 1100 MHz)
ANT700 from Great Scott Gadgets is a lightweight telescopic antenna designed for operation from 300 MHz to 1100 MHz. Its total length is configurable from 9.5 cm to 24.5 cm. ANT700 is constructed of stainless steel and features an SMA male connector, rotating shaft, and adjustable elbow. ANT700 is a 50 ohm general purpose antenna. It is a perfect first antenna for use with HackRF One.
€ 29,95
Members € 26,96
RTL-SDR RTL-SDR V4 (Software Defined Radio) with Dipole Antenna Kit
Best value RTL-SDR on the market RTL-SDR is an affordable dongle that can be used as a computer-based radio scanner for receiving live radio signals between 500 kHz and 1.75 GHz in your area. The new RTL-SDR V4 offers several improvements over generic brands including use of the R828D tuner chip, triplexed input filter, notch filter, improved component tolerances, a 1 PPM temperature compensated oscillator (TCXO), SMA F connector, aluminium case with passive cooling, bias tee circuit, improved power supply, and a built in HF upconverter. RTL-SDR V4 comes with the portable dipole antenna kit. It is great for beginners as it allows for terrestrial and satellite reception and easy to mount outdoors and designed for portable and temporary outside usage. Features Improved HF reception: V4 now uses a built-in upconverter instead of using a direct sampling circuit. This means no more Nyquist folding of signals around 14.4 MHz, improved sensitivity, and adjustable gain on HF. Like the V3, the lower tuning range remains at 500 kHz and very strong reception may still require front end attenuation/filtering. Improved filtering: The V4 makes use of the R828D tuner chip, which has three inputs. The SMA input has been triplexed input into 3 bands: HF, VHF and UHF. This provides some isolation between the 3 bands, meaning out of band interference from strong broadcast stations is less likely to cause desensitization or imaging. Improved filtering x2: In addition to the triplexing, the open drain pin on the R828D can be also used, which allows to add simple notch filters for common interference bands such as broadcast AM, broadcast FM and the DAB bands. These only attenuate by a few dB, but may still help. Improved phase noise on strong signals: Due to an improved power supply design, phase noise from power supply noise has been significantly reduced. Less heat: Another advantage of the improved power supply is low power consumption and less heat generation compared to the V3. Contents 1x RTL-SDR V4 dongle (R828D RTL2832U 1PPM TCXO SMA) 2x 23 cm to 1 m telescopic antenna 2x 5 cm to 13 cm telescopic antenna 1x Dipole antenna base with 60 cm RG174 1x 3 m RG174 extension cable 1x Flexible tripod mount 1x Suction cup mount Links User Guide Quick Start Guide SDR# User Guide Dipole Antenna Guide
€ 59,95
Members € 53,96
RTL-SDR RTL-SDR V3 (Software Defined Radio) with Dipole Antenna Kit
RTL-SDR is an affordable dongle that can be used as a computer based radio scanner for receiving live radio signals in your area. This particular dongle includes a R820T2 tuner, a 1 PPM temperature compensated oscillator (TCXO), SMA F connector. It features an aluminium case with passive cooling via a thermal pad. Moreover, there is a software switchable bias tee circuit, supplementary ESD protection, lower overall noise and built-in direct sampling for HF reception. This device can receive frequencies from 500 kHz to 1.7 GHz and has up to 3.2 MHz of instantaneous bandwidth (2.4 MHz stable). Note: RTL-SDR dongles are RX only. You can use this kit either for terrestrial or satellite reception just by changing the orientation of the antenna. Thanks to the included mounts and extension cables it is possible to temporarily place the antenna outside for a better reception. Other potential applications are general radio scanning, air traffic control, public safety radio, ADSB, ACARS, trunked radio, P25 digital voice, POCSAG, weather balloons, APRS, NOAA APT weather satellites, radio astronomy, meteor scatter monitoring etc. Included RTL-SDR V3 Dongle (R820T2 RTL2832U 1PPM TCXO SMA) 2x 23 cm to 1 m telescopic antenna 2x 5 cm to 13 cm telescopic antenna Dipole Antenna Base with 60 cm RG174 extension cable 3 m RG174 extension cable Flexible Tripod Mount Suction Cup Mount Downloads Quick Start Guide SDR# User Guide Dipole Antenna Kit Guide
€ 59,95
Members € 53,96
Great Scott Gadgets Great Scott Gadgets HackRF One SDR + Opera Cake Antenna Switch (Bundle)
HackRF One Software Defined Radio HackRF One is a Software Defined Radio (SDR) peripheral capable of transmission or reception of radio signals from 1 MHz to 6 GHz. Designed to enable test and development of modern and next generation radio technologies, HackRF One is an open source hardware platform that can be used as a USB peripheral or programmed for stand-alone operation. Specifications 1 MHz to 6 GHz operating frequency Half-duplex transceiver Up to 20 million samples per second 8-bit quadrature samples (8-bit I and 8-bit Q) Compatible with GNU Radio, SDR and more Software-configurable RX and TX gain and baseband filter Software-controlled antenna port power (50 mA at 3.3 V) SMA female antenna connector SMA female clock input and output for synchronization Convenient buttons for programming Internal pin headers for expansion Hi-Speed USB 2.0 USB-powered Open source hardware HackRF One is test equipment for RF systems. It has not been tested for compliance with regulations governing transmission of radio signals. You are responsible for using your HackRF One legally. Note: An antenna is not included. ANT500 is recommended as a starter antenna for HackRF One. Documentation/Software Documentation GitHub Source code and hardware design files Opera Cake Antenna Switch for HackRF One Opera Cake is an antenna switching add-on board for HackRF One that is configured with command-line software either manually, or for automated port switching based on frequency or time. It has two primary ports, each connected to any of eight secondary ports, and is optimized for use as a pair of 1x4 switches or as a single 1x8 switch. Its recommended frequency range is 1 MHz to 4 GHz. When HackRF One is used to transmit, Opera Cake can automatically route its output to the appropriate transmit antennas, as well as any external filters, amplifiers, etc. No changes are needed to the existing SDR software, but full control from the host is available. Opera Cake also enhances the HackRF One’s use as a spectrum analyzer across its entire operating frequency range of 1 MHz to 4 GHz. Antenna switching works with the existing hackrf_sweep feature, which can sweep the whole tuning range in less than a second. Automatic switching mid-sweep enables the use of multiple antennas when sweeping a wide frequency range. Downloads Documentation GitHub Bundle Contents 1x HackRF One SDR 1x Injection molded plastic enclosure 1x micro-USB cable 1x Opera Cake Antenna Switch
€ 538,95€ 449,00
Members identical
Ikalogic Ikalogic SP209 9-ch Logic Analyzer & Protocol Decoder
SP209 series logic analyzers rely on ScanaStudio software (runs Windows, Mac and Linux) to capture, display, analyze and decode signals. Most industry standard protocols can be interpreted, among which: SPI, I²C, USART, 1-Wire, CAN, LIN, IC, RS232, RS485, TWI and much more (click for full list of supported protocol decoders) Features 9 logic channels with adjustable thresholds (1.8 V, 2.5 V, 3.3 V, 5 V) State of the art input stage, with Schmitt triggers that eliminate glitches on slow signals 200 MHz sampling rate, with all 9 channels used. External clock option (state mode), up to 50 MHz Precise trigger-In and trigger-Out signals on SMA ports Samples compression and streaming via USB. 2 GB DDR-3 memory kicks-in when USB isn't fast enough. Guaranteed performances on all hosts. SP series logic analyzers compress and stream captured signals via USB 2.0 to a Windows, Linux or MacOS machine. USB bandwidth can be variable from a system to another and is practically limited to 20 MB/s. That's why SP logic analyzers have an embedded 2 GB DDR-3 memory that buffers captured samples at 1.6 GB/s, overcoming USB limitations. Trigger options Edge trigger Logic change on one or various channels Trigger on a sequence of timed logic signals Trigger on a protocol word or event (like serial word or I²C address acknowledge) External trigger input Trigger output Dual stage trigger (Ex: Edge trigger, then, Trigger on I²C address). Typical applications Designed for performance, SP series logic analyzers offer the possibility to capture and analyze 9 channels of logic signals and industrial buses at a rate of 200 MHz. This is perfectly adapted for demanding applications, where it is needed to capture logic signals with maximum resolution on all 9 channels. Embedded systems development and debugging Research and educational Serial protocols analysis, like I²C, SPI, UART or 1-Wire (non-exhaustive list) Industrial bus analysis: RS232, RS485, CAN, LIN ADC (Analog to Digital Converter) diagnostic Reverse engineering ScanaStudio application packs all the features you need to capture, measure and analyze analog signals. It's available free of charge for the major platforms below. The application is regularly updated, please check the release notes here ScanaStudio can be downloaded free of charge here. All decoders are free and open source and accessible in the GitHub repository.
€ 499,00
Members € 449,10