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Power Detectore
GIGA-TRONICS 16936
The 16936 is a 18.5 GHz rf sensor from Gigatronics. Electronic test equipment sensors measure the power of waveforms, such as multi-tone and modulated radiofrequency (RF) waveforms. Sensors gather highly accurate modulation measurements using diode detectors.
The Gigatronics 16936 Peak Power Sensor was built for use with the Gigatronics 8501, 8501A, 8502, and 8502A power-meters. The 16936 provides both pulsed and cw measurements.Features of the Gigatronics 16936 sensor include:
Frequency range: 750 MHz to 18.5 GHz
Peak Measurement range: -20 dBm to +20 dBm
CW Measurement range: -40 dBm to +20 dBm
50 ohm input impedance
N (m) connector
DatasheetSKU: n/a -
Power Meter
GIGATRONICS 8541C
The Giga-tronics 8540C Series Universal Power Meters combine accuracy, speed, range and measurement capabilities unavailable from any other power meter. Built-in features such as power sweep calibration and frequency calibration provide an unequalled degree of measurement accuracy. Only the 8540C Series power meters have the speed and range to meet the throughput demands of high volume manufacturing. And the meters can measure the CW, peak and true average power of the complex modulated signals used in EW, radar, and communications systems.
Only the Giga-tronics 8540C Series Universal Power Meters have the extensive measurement capabilities required for today’s sophisticated communications applications.
The 8540C can automatically measure the average power of pulse modulated signals or pulse signals that are amplitude modulated during the pulse ‘on’ period — such as TDMA (time division multiple access) signals. And the exclusive burst start exclude and burst end exclude capabilities of the 8540C allow you to exclude the beginning or end of a burst when measuring the average burst power. Masking the beginning or end of a burst signal, in order to exclude overshoot or other distortions, can be desirable or even required for certain types of measurements.
The exclusive Time Gating feature of the 8540C lets you program a measurement start time and duration to measure the average power during a specific time slot of a burst signal. This is critical for accurately measuring the average power of GSM, NADC and other formats that must control the power trajectory during a specified portion of the burst.
PHS (as well as DECT and CT-2) systems use a variation of the TDMA format. Instead of using different frequency channels for the forward and reverse link, these systems use a Time Domain Duplex (TDD) method at the same frequency. The Time Gating feature of the 8540C can be used in all of the average power measurement modes to accurately measure the average power of the multiplexed time slots.
The 8540C has the speed, accuracy and range to accurately measure the power level of CDMA (code division multiple access) signals for open-loop and closed-loop testing. The wide dynamic range of the 8540C is ideal for openloop tests, which can require power verification over an 80 dB range. Because the 8540C can achieve fast measurement speeds over the GPIB bus, you can quickly measure power in1dB steps over the 48 dB range required for closed-loop tests.
And no power meter is as accurate as the 8540C over the wide dynamic range needed for CDMA testing.
Fast responding diode sensors plus innovative digital signal processing deliver highspeed measurements. Achieve 500 readings per second over GPIB. Or use our exclusive fast buffered mode to further reduce processor overhead and capture up to 4,000 readings per second in CW mode. The 8540C also responds much faster to power level changes than meters using thermocouple sensors. This adds up to a huge reduction in test time and a significant increase in manufacturing throughput.
DatasheetSKU: n/a€320.00 View Product -
Power Supply
H10S CLT-100
Exclusive power supply is required for DC screwdrivers.
● Exclusive power supply converts the electric current from AC outlet (on the primary side) to low-voltage output (HI: DC30V) or (LOW: about DC20V) to supply it to the screwdriver.
● Safe and quiet rotation.
● Please always use HIOS screwdriver in combination with HIOS power supply for safe screw tightening.
● Stable power supply with multiple inputs (AC100V to 240V).
(Not applicable to CLT-100 and MC-70L)SKU: n/a€120.00 View Product -
Network Node Real Time Spectrum Analyzer
HAROGIC NXN-400
Main features:
9 kHz-40 GHz real-time spectrum analyzer
Superheterodyne digital receiver architecture, 14 segments pre-selected filter
9 kHz~40 GHz typical image suppression >75 dBc, typical IF rejection>75 dBc
100 MHz analysis bandwidth with adjustable sampling rate, 291.6 GHz/sec sweep speed
FPGA based digital signal processing
Weight 660 grams, size 167×117×28 mm, power consumption: 18 W
1000M/100M Ethernet interface
Build-in multimode GNSS
Provides 1PPS, latitude and longitude information and timestamp
Highly compatible API interfaces and SAStudio4 GUI
Remote master of ARM and x86 processor are supported
Linux and Windows are supported
Operating temperatures range from -20 ℃/-40 ℃ to 65 ℃ (option)
Built-in OCXO (option) or GNSS disciplined OCXO (option)
Built-in 4G data module (option)SKU: n/a€25,000.00 View Product -
compact real-time spectrum analyzer/receiver
HAROGIC SAE-200
SAE-200 20 GHz Compact Real-Time Spectrum Analyzer/Receiver
Main features:
9 kHz~20 GHz real-time spectrum analyzer/receiver
Superheterodyne digital receiver architecture, 19segments pre-selected filter
9 kHz~9 GHz typical image suppression>90 dB, typical IF rejection>90 dB
9 GHz~20 GHz typical image suppression>60 dB, typical IF rejection>90 dB
100 MHz analysis bandwidth with adjustable sampling rate, 1.2 THz/sec spectrum sweep speed
FPGA based digital signal processing
Weight 195 grams (core module), size 125 × 60 × 15 mm, power consumption 10-14 W
Highly compatible API interfaces and SAStudio4 GUI
Compatible with ARM and x86 processors, Linux and Windows operating systems
Operating temperatures range from – 20 ℃/- 40 ℃ to 70 ℃ (option)
Built-in OCXO (option)Available options
Code Name Option Explanation
01 Built-in OCXO reference clock (hardware) Providing a reference clock with better stability than the standard configuration, with a temperature drift of<0.2 ppm, increasing the overall power consumption by 0.8 W 10 MUXIO IO extended board (accessory) Converting the MUXIO interface into multiple MMCX and board to wire connector to facilitate the connection of trigger input, output, and other signals 11 External GNSS (accessory) Standard GNSS module connected to MUXIO 12 External high precision GNSS (accessory) High precision GNSS module connected to MUXIO 13 External GNSS disciplined OCXO reference clock (accessory) Providing GNSS disciplined reference clock and 1PPS, increasing the overall power consumption by 1.1W 20 Extended temperature class (hardware) Extending the operating temperature to – 20~70 ℃ 21 Wide temperature class (hardware) Extending the operating temperature to – 40~70 ℃ DatasheetSKU: n/a€7,998.00 View Product -
compact real-time spectrum analyzer/receiver
HAROGIC SAE-90
Main features:
9 kHz~9.5 GHz real-time spectrum analyzer/receiver
Superheterodyne digital receiver architecture, 14segments pre-selected filter
9 kHz~9.5 GHz typical image suppression>90 dB, typical IF rejection>90 dB
100 MHz analysis bandwidth with adjustable sampling rate, 1.2 THz/sec spectrum sweep speed
FPGA based digital signal processing
Weight 188 grams (core module), size 118 × 60 × 15 mm, power consumption 10-14 W
Highly compatible API interfaces and SAStudio4 GUI
Compatible with ARM and x86 processors, Linux and Windows operating systems
Operating temperatures range from – 20 ℃/- 40 ℃ to 70 ℃ (option)
USB 3.0/2.0 Type-C interfaceAvailable options
Code Name Option Explanation
01 Built-in OCXO reference clock (hardware) Providing a reference clock with better stability than the standard
configuration, with a temperature drift of<0.2 ppm, increasing the overall power consumption by 0.8 W 10 MUXIO IO extended board (accessory) Converting the MUXIO interface into multiple MMCX and board to wire connector to facilitate the connection of trigger input, output, and other signals 11 External GNSS (accessory) Standard GNSS module connected to MUXIO 12 External high precision GNSS (accessory) High precision GNSS module connected to MUXIO 13 External GNSS disciplined OCXO reference clock (accessory) Providing GNSS disciplined reference clock and 1PPS, increasing the overall power consumption by 1.1W 20 Extended temperature class (hardware) Extending the operating temperature to – 20~70 ℃ 21 Wide temperature class (hardware) Extending the operating temperature to – 40~70 ℃ DatasheetSKU: n/a€4,798.00 View Product -
compact real-time spectrum analyzer/receiver
HAROGIC SAM-60 M3
Main features:
9 kHz~6.3 GHz real-time spectrum analyzer/receiver
Integrated 100 kHz-6.3 GHz analog signal generator (option)
100 MHz analysis bandwidth, 300 GHz/sec spectrum sweep speed
FPGA based digital signal processing
1GHz phase noise: -114 dBc/Hz@10kHz
1GHz DANL: -167 dBm/Hz
Weight 168 grams (core module), size 142mm×54mm×16mm, power consumption 7-10 W
Highly compatible API interfaces and SAStudio4 GUI
Compatible with ARM and x86 processors, Linux and Windows operating systems
Operating temperatures range from -20 oC/-40 oC to 70 oC (option)
Built-in OCXO (option), temperature drift≤0.15 ppm
USB3.0/2.0 Type-C interfaceSKU: n/a€3,398.00 View Product -
compact real-time spectrum analyzer/receiver
HAROGIC SAM-80
Main features:
9 kHz~8.5 GHz real-time spectrum analyzer/receiver
Integrated 100 kHz-6.3 GHz analog signal generator (option)
100MHz analysis bandwidth, 300 GHz/sec spectrum sweep speed
FPGA based digital signal processing
Weight 159 grams (core module), size 142 × 54 × 16 mm, power consumption 7-10 W
Highly compatible API interfaces and SAStudio4 GUI
Compatible with ARM and x86 processors, Linux and Windows operating systems
Operating temperatures range from -20 ℃/-40 ℃ to 70 ℃ (option)
USB 3.0/2.0 Type-C interface
DatasheetSKU: n/a€3,998.00 View Product -
compact real-time spectrum analyzer/receiver
HAROGIC SAN-400
40 GHz Compact Real-Time Spectrum Analyzer/Receiver
Main features:
9 kHz~40 GHz real-time spectrum analyzer/receiver;
Superheterodyne digital receiver architecture, 14 segments pre-selected filter;
Typical image suppression and IF rejection>75 dBc;
100 MHz analysis bandwidth with adjustable sampling rate, 400 GHz/sec spectrum sweep speed;
FPGA based digital signal processing;
40 GHz DANL=-141 dBm/Hz, Phase Noise=-86 dBc/Hz@10 kHz;
Weight 185 grams (core module), size 125 × 60 × 17 mm, power consumption 10-14 W;
Highly compatible API interfaces and SAStudio4 GUI;
Compatible with ARM and x86 processors, Linux and Windows operating systems;
Built-in OCXO (option), temperature drift≤0.15 ppm;
USB3.0/2.0 Type C supported.Compact Real-Time Spectrum Analyzer/Receiver
SAN-400 is a receiver/spectrum analyzer module based on superheterodyne digital IF architecture, equipped with USB3.0 interface and high-speed FPGA digital signal processing, providing good performance in a compact size. It is optimized for applications such as receivers, spectrum monitoring, and RF testing. It offers multiple outputs, including spectrum, digital IQ stream, power detection waveform (zero sweep bandwidth), and real-time spectrum. The volume, weight, and power consumption are highly optimized for field and embedded applications. It provides a highly compatible API interfaces, which can quickly realize efficient secondary development. User code is compatible with other HAROGIC devices such as SAE-90, SAE-200 and NXE-200, allowing users to select hardware flexibly according to their application needs.
SAN-400 provides a particularly flexible solution for receivers, spectrum monitoring and convenient RF testing. The device is with a weight of only 185 g, which is smaller than the size of a mobile phone, realizing the complete functionality of superheterodyne receiver and spectrum analyzer system in a compact size. The module has a highly integrated superheterodyne receiver RF front-end built-in with performance, as well as a back-end digital processing system based on FPGA to accelerate relevant digital signal processing. FPGA-based digital signal processing effectively reduces the performance requirements of the device on the back-end processor. Even on low-power x86 or ARM processor platforms with limited performance, SAN-400 device can still be deployed to achieve good measurement results. SAN-400 works properly on both Linux and Windows operating systems.
SKU: n/a€8,898.00 View Product -
DC Electronic Load
Höcherl & Hackl PLI 2112 / H&H PLI2112
Höcherl & Hackl PLI 2112 Electronic Load
The PLI series of electronic loads provide a comfortable operation by a graphical user interface. The PLI series highlight is the extensive variety of standard interfaces. Apart from Ethernet, USB, RS-232 and Analog interface there is a standard CAN interface. Programming is done in SCPI syntax.
The units provide constant current mode, constant voltage mode, constant power mode and constant resistance mode. In addition, protections for current and voltage can be set in any mode. A static data acquisition function allows to store measurement data on an external USB flash drive. Dynamic operation can be configured by up to 300 list point settings. The Electronic Load saves the synchronously acquired measurement data with timestamp. A configurable trigger model controls data acquisition, static and dynamic settings.
Special applications, such as fuel cell tests, need to load the DUT down to almost 0 V. For these purposes we supply a range of models with an integrated zero-volt supply.– Voltage: 120 V
– Current: 60 A
– Power: 2100 W
DatasheetSKU: n/a -
Frequency Counter
HP – Agilent/ Keysight 53181A
Optimized for RF applications, the single-channel 10 digit/s 53181A measures frequency, period and peak voltage. A digit-blanking function lets you easily eliminate unnecessary digits when you want to read measurements quickly. For higher-frequency measurements, choose an optional second channel that provides measurements up to 1.5, 3, 5, or 12.4 GHz. A self-guided shallow menu makes this counter exceptionally easy to use
RF Frequency Counter, 10 digits/s
One 225 MHz input channel, plus optional second channel up to 12.4 GHz
10 digits/second resolution
GPIB StandardThe Keysight Technologies, Inc. 53131A/132A/181A high-performance counters give you fast, precise frequency measurements at an affordable price. These counters feature an intuitive user interface and one-button access to frequently used functions so you can make accurate measurements quickly and easily. Real-time digital signal processing technology is used to analyze data while simultaneously taking new readings, speeding measurement throughput. The technology, developed for Keysight’s high-end line of modulation domain analyzers, allows the counters to gather more data for each measurement, so you get higher-resolution measurements in a fraction of the time it takes other counters. The 53131A/132A/181A counters offer built-in statistics and math functions so you can scale measurements and simultaneously measure and track average, min/max and standard deviation. Automated limit testing lets you set upper and lower limits for any measurement. An analog display mode lets you see at a glance whether a measurement is within pass/fail limits. The counters flag out-of-limit conditions and can generate an output signal to trigger external devices when a limit is exceeded. For quick access to frequently used tests, a single keystroke recalls up to 20 different stored front-panel set-ups. For computer-controlled systems applications, each counter includes a standard GPIB interface with full SCPI-compatible programmability and a data transfer rate of up to 200 fully formatted measurements per second. The standard RS-232 talk-only interface provides printer support or data transfer to a computer through a terminal-emulation program.
DatasheetSKU: n/a -
HP 10240B
The HP 10240B Blocking Capacitor is a probing accessory that provides ac-coupling while maintaining a 50 ohm system. This capacitor is designed for use with the model HP 10020A Resistive Divider Kit, and the Keysight 54006A Resistive Divider Probe Kit, but may be used with any probe that must be terminated in 50 Ω.
* Provides ac-coupling
* Maintains a 50 ohm system
* Capacitance: 0.18 µF
* Maximum voltage: +/-200 Vdc
* Sag: Approximately 10% per µs (1% in 100 ns)
* Connectors: BNC
* Reflection: less than 12% when driven by a 150 ps risetime step in a 50 ohm system
* Capacitance: 0.18 µF
* Maximum voltage: +/-200 Vdc
* Sag: Approximately 10% per µs (1% in 100 ns)
* Connectors: BNC
* Reflection: less than 12% when driven by a 150 ps risetime step in a 50 ohm system
DatasheetSKU: n/a -
Oscillator
HP 8350A Sweep Oscillator
The HP 8350A Sweep Oscillator is a solid-state, swept signal source. This unit can be used with network analyzer systems such as the HP 8410B (Network Analyzer), the HP 8755 (Frequency Response Test Set), and others.
Accepts the 86200 (with adapter) and 83500 series of plug-ins for true versatility. Frequency range is dependent upon plug-in used (sold separately). Mainframe features also include the ability to save & recall up to 9 different front-panel settings! This is a very reliable mainframe that will provide years of quality service.* LCD Display
* Remote Programmable via GPIB
* Different Configuration Options with Different RF Plug-Ins
* 27.8 kHz or 1 kHz Square Wave ModulationSKU: 397€0.00 View Product -
Adapter
HP E5346A HIGH DENSITY PROBE ADAPTER
The HP E5346A Mictor probe provides a convenient and reliable connection to your target through a Mictor connector designed into your target. Route your signals of interest to the location containing the Mictor connector and when you are ready to measure these signals simply plug-in the Mictor probe. These probes can be used with a support shroud in environments where accidental unplugging of the probe is a concern. This probe can be used with any HP/Agilent logic analyzer with a 40-pin cable connector.
SKU: n/a -
RF Plug
HP-Agilent/Keysight 83545A
The HP 83545A was designed to be used in the 8350 Mainframe
This unit is a RF Sweep Oscillator Plug-in offers high performance 5.9 to 12.4GHz frequency coverage with exceptionally high output power.
In addition, the 83545A provides slope compensation and complete HP-IB programmability.
The output power is internally leveled to at least 17 dB, with power variations less that 0.6 dB.SKU: 633 -
Signal Generator
HP-Agilent/Keysight 83650A
The Agilent 83650A synthesized sweeper is the standard of excellence for applications requiring the high performance and accuracy of a synthesized source and the speed and versatility of a sweep oscillator. Synthesized broadband frequency coverage and precise 1 Hz frequency resolution (Opt 008) are generated by indirect synthesis, enabling the Agilent 83650A to achieve low single-sideband phase noise performance. It delivers excellent harmonic performance with harmonics at least 50 dB below the carrier from 2.0 to 26.5 GHz, and at least 40 dB below the carrier above 26.5 GHz.
Features:
Scan modulation to simulate antenna scan patterns
Accurate fixed and swept frequency offset for two-tone measurement
User flatness correction for leveling at remote points in the test system
General purpose source for use in component test, receiver test and for frequency conversion
Sweep Modes: Step, List, Ramp
Maximum Power: +10 dBm 26.5 GHz
Maximum Power: +2.5 dBm >40 GHz
Power Sweep Range: -20 dBm to maximum power
Phase Noise (50 GHz at 10 KHz): -68 dBc
Max FM Deviation (locked): +/- 8 MHz
DatasheetSKU: n/a -
Power Sensor
HP-Agilent/Keysight 8487D
Il sensore di potenza a diodo 8487D misura la potenza media nell'intervallo di frequenza da 50 MHz a 50 GHz e l'intervallo di potenza da -70 a -20 dBm (intervallo dinamico 50 dB).
L'attenuatore Keysight 11708A 30 dB viene fornito con sensori di potenza serie 8480 con il suffisso “D”, per la calibrazione con misuratore di potenza 0 dBm, riferimento 50 MHz.
SWR eccellente per ridurre l'incertezza di mancata corrispondenza
Calibrazione e tracciabilità accurate alla calibrazione del sensore a onde millimetriche del National Institute of Standards and Technology (NIST)
Compatibile con misuratori di potenza EPM (nuovo N1913A / 14A, E4418B / 19B), EPM-P (E4416A / 17A) e serie P (N1911A / 12A), oltre al misuratore di potenza E1416A VXI e fuori produzione 70100A e 43X
Misurazioni di potenza media accurate oltre -70 a -20 dBm
Gamma di frequenza da 50 MHz a 50 GHz
Elemento di rilevamento della potenza del diodo
DatasheetSKU: n/a
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Power Detectore
GIGA-TRONICS 16936
The 16936 is a 18.5 GHz rf sensor from Gigatronics. Electronic test equipment sensors measure the power of waveforms, such as multi-tone and modulated radiofrequency (RF) waveforms. Sensors gather highly accurate modulation measurements using diode detectors.
The Gigatronics 16936 Peak Power Sensor was built for use with the Gigatronics 8501, 8501A, 8502, and 8502A power-meters. The 16936 provides both pulsed and cw measurements.Features of the Gigatronics 16936 sensor include:
Frequency range: 750 MHz to 18.5 GHz
Peak Measurement range: -20 dBm to +20 dBm
CW Measurement range: -40 dBm to +20 dBm
50 ohm input impedance
N (m) connector
Datasheet -
Power Meter
GIGATRONICS 8541C
The Giga-tronics 8540C Series Universal Power Meters combine accuracy, speed, range and measurement capabilities unavailable from any other power meter. Built-in features such as power sweep calibration and frequency calibration provide an unequalled degree of measurement accuracy. Only the 8540C Series power meters have the speed and range to meet the throughput demands of high volume manufacturing. And the meters can measure the CW, peak and true average power of the complex modulated signals used in EW, radar, and communications systems.
Only the Giga-tronics 8540C Series Universal Power Meters have the extensive measurement capabilities required for today’s sophisticated communications applications.
The 8540C can automatically measure the average power of pulse modulated signals or pulse signals that are amplitude modulated during the pulse ‘on’ period — such as TDMA (time division multiple access) signals. And the exclusive burst start exclude and burst end exclude capabilities of the 8540C allow you to exclude the beginning or end of a burst when measuring the average burst power. Masking the beginning or end of a burst signal, in order to exclude overshoot or other distortions, can be desirable or even required for certain types of measurements.
The exclusive Time Gating feature of the 8540C lets you program a measurement start time and duration to measure the average power during a specific time slot of a burst signal. This is critical for accurately measuring the average power of GSM, NADC and other formats that must control the power trajectory during a specified portion of the burst.
PHS (as well as DECT and CT-2) systems use a variation of the TDMA format. Instead of using different frequency channels for the forward and reverse link, these systems use a Time Domain Duplex (TDD) method at the same frequency. The Time Gating feature of the 8540C can be used in all of the average power measurement modes to accurately measure the average power of the multiplexed time slots.
The 8540C has the speed, accuracy and range to accurately measure the power level of CDMA (code division multiple access) signals for open-loop and closed-loop testing. The wide dynamic range of the 8540C is ideal for openloop tests, which can require power verification over an 80 dB range. Because the 8540C can achieve fast measurement speeds over the GPIB bus, you can quickly measure power in1dB steps over the 48 dB range required for closed-loop tests.
And no power meter is as accurate as the 8540C over the wide dynamic range needed for CDMA testing.
Fast responding diode sensors plus innovative digital signal processing deliver highspeed measurements. Achieve 500 readings per second over GPIB. Or use our exclusive fast buffered mode to further reduce processor overhead and capture up to 4,000 readings per second in CW mode. The 8540C also responds much faster to power level changes than meters using thermocouple sensors. This adds up to a huge reduction in test time and a significant increase in manufacturing throughput.
Datasheet -
Power Supply
H10S CLT-100
Exclusive power supply is required for DC screwdrivers.
● Exclusive power supply converts the electric current from AC outlet (on the primary side) to low-voltage output (HI: DC30V) or (LOW: about DC20V) to supply it to the screwdriver.
● Safe and quiet rotation.
● Please always use HIOS screwdriver in combination with HIOS power supply for safe screw tightening.
● Stable power supply with multiple inputs (AC100V to 240V).
(Not applicable to CLT-100 and MC-70L) -
Network Node Real Time Spectrum Analyzer
HAROGIC NXN-400
Main features:
9 kHz-40 GHz real-time spectrum analyzer
Superheterodyne digital receiver architecture, 14 segments pre-selected filter
9 kHz~40 GHz typical image suppression >75 dBc, typical IF rejection>75 dBc
100 MHz analysis bandwidth with adjustable sampling rate, 291.6 GHz/sec sweep speed
FPGA based digital signal processing
Weight 660 grams, size 167×117×28 mm, power consumption: 18 W
1000M/100M Ethernet interface
Build-in multimode GNSS
Provides 1PPS, latitude and longitude information and timestamp
Highly compatible API interfaces and SAStudio4 GUI
Remote master of ARM and x86 processor are supported
Linux and Windows are supported
Operating temperatures range from -20 ℃/-40 ℃ to 65 ℃ (option)
Built-in OCXO (option) or GNSS disciplined OCXO (option)
Built-in 4G data module (option) -
compact real-time spectrum analyzer/receiver
HAROGIC SAE-200
SAE-200 20 GHz Compact Real-Time Spectrum Analyzer/Receiver
Main features:
9 kHz~20 GHz real-time spectrum analyzer/receiver
Superheterodyne digital receiver architecture, 19segments pre-selected filter
9 kHz~9 GHz typical image suppression>90 dB, typical IF rejection>90 dB
9 GHz~20 GHz typical image suppression>60 dB, typical IF rejection>90 dB
100 MHz analysis bandwidth with adjustable sampling rate, 1.2 THz/sec spectrum sweep speed
FPGA based digital signal processing
Weight 195 grams (core module), size 125 × 60 × 15 mm, power consumption 10-14 W
Highly compatible API interfaces and SAStudio4 GUI
Compatible with ARM and x86 processors, Linux and Windows operating systems
Operating temperatures range from – 20 ℃/- 40 ℃ to 70 ℃ (option)
Built-in OCXO (option)Available options
Code Name Option Explanation
01 Built-in OCXO reference clock (hardware) Providing a reference clock with better stability than the standard configuration, with a temperature drift of<0.2 ppm, increasing the overall power consumption by 0.8 W 10 MUXIO IO extended board (accessory) Converting the MUXIO interface into multiple MMCX and board to wire connector to facilitate the connection of trigger input, output, and other signals 11 External GNSS (accessory) Standard GNSS module connected to MUXIO 12 External high precision GNSS (accessory) High precision GNSS module connected to MUXIO 13 External GNSS disciplined OCXO reference clock (accessory) Providing GNSS disciplined reference clock and 1PPS, increasing the overall power consumption by 1.1W 20 Extended temperature class (hardware) Extending the operating temperature to – 20~70 ℃ 21 Wide temperature class (hardware) Extending the operating temperature to – 40~70 ℃ Datasheet -
compact real-time spectrum analyzer/receiver
HAROGIC SAE-90
Main features:
9 kHz~9.5 GHz real-time spectrum analyzer/receiver
Superheterodyne digital receiver architecture, 14segments pre-selected filter
9 kHz~9.5 GHz typical image suppression>90 dB, typical IF rejection>90 dB
100 MHz analysis bandwidth with adjustable sampling rate, 1.2 THz/sec spectrum sweep speed
FPGA based digital signal processing
Weight 188 grams (core module), size 118 × 60 × 15 mm, power consumption 10-14 W
Highly compatible API interfaces and SAStudio4 GUI
Compatible with ARM and x86 processors, Linux and Windows operating systems
Operating temperatures range from – 20 ℃/- 40 ℃ to 70 ℃ (option)
USB 3.0/2.0 Type-C interfaceAvailable options
Code Name Option Explanation
01 Built-in OCXO reference clock (hardware) Providing a reference clock with better stability than the standard
configuration, with a temperature drift of<0.2 ppm, increasing the overall power consumption by 0.8 W 10 MUXIO IO extended board (accessory) Converting the MUXIO interface into multiple MMCX and board to wire connector to facilitate the connection of trigger input, output, and other signals 11 External GNSS (accessory) Standard GNSS module connected to MUXIO 12 External high precision GNSS (accessory) High precision GNSS module connected to MUXIO 13 External GNSS disciplined OCXO reference clock (accessory) Providing GNSS disciplined reference clock and 1PPS, increasing the overall power consumption by 1.1W 20 Extended temperature class (hardware) Extending the operating temperature to – 20~70 ℃ 21 Wide temperature class (hardware) Extending the operating temperature to – 40~70 ℃ Datasheet -
compact real-time spectrum analyzer/receiver
HAROGIC SAM-60 M3
Main features:
9 kHz~6.3 GHz real-time spectrum analyzer/receiver
Integrated 100 kHz-6.3 GHz analog signal generator (option)
100 MHz analysis bandwidth, 300 GHz/sec spectrum sweep speed
FPGA based digital signal processing
1GHz phase noise: -114 dBc/Hz@10kHz
1GHz DANL: -167 dBm/Hz
Weight 168 grams (core module), size 142mm×54mm×16mm, power consumption 7-10 W
Highly compatible API interfaces and SAStudio4 GUI
Compatible with ARM and x86 processors, Linux and Windows operating systems
Operating temperatures range from -20 oC/-40 oC to 70 oC (option)
Built-in OCXO (option), temperature drift≤0.15 ppm
USB3.0/2.0 Type-C interface -
compact real-time spectrum analyzer/receiver
HAROGIC SAM-80
Main features:
9 kHz~8.5 GHz real-time spectrum analyzer/receiver
Integrated 100 kHz-6.3 GHz analog signal generator (option)
100MHz analysis bandwidth, 300 GHz/sec spectrum sweep speed
FPGA based digital signal processing
Weight 159 grams (core module), size 142 × 54 × 16 mm, power consumption 7-10 W
Highly compatible API interfaces and SAStudio4 GUI
Compatible with ARM and x86 processors, Linux and Windows operating systems
Operating temperatures range from -20 ℃/-40 ℃ to 70 ℃ (option)
USB 3.0/2.0 Type-C interface
Datasheet -
compact real-time spectrum analyzer/receiver
HAROGIC SAN-400
40 GHz Compact Real-Time Spectrum Analyzer/Receiver
Main features:
9 kHz~40 GHz real-time spectrum analyzer/receiver;
Superheterodyne digital receiver architecture, 14 segments pre-selected filter;
Typical image suppression and IF rejection>75 dBc;
100 MHz analysis bandwidth with adjustable sampling rate, 400 GHz/sec spectrum sweep speed;
FPGA based digital signal processing;
40 GHz DANL=-141 dBm/Hz, Phase Noise=-86 dBc/Hz@10 kHz;
Weight 185 grams (core module), size 125 × 60 × 17 mm, power consumption 10-14 W;
Highly compatible API interfaces and SAStudio4 GUI;
Compatible with ARM and x86 processors, Linux and Windows operating systems;
Built-in OCXO (option), temperature drift≤0.15 ppm;
USB3.0/2.0 Type C supported.Compact Real-Time Spectrum Analyzer/Receiver
SAN-400 is a receiver/spectrum analyzer module based on superheterodyne digital IF architecture, equipped with USB3.0 interface and high-speed FPGA digital signal processing, providing good performance in a compact size. It is optimized for applications such as receivers, spectrum monitoring, and RF testing. It offers multiple outputs, including spectrum, digital IQ stream, power detection waveform (zero sweep bandwidth), and real-time spectrum. The volume, weight, and power consumption are highly optimized for field and embedded applications. It provides a highly compatible API interfaces, which can quickly realize efficient secondary development. User code is compatible with other HAROGIC devices such as SAE-90, SAE-200 and NXE-200, allowing users to select hardware flexibly according to their application needs.
SAN-400 provides a particularly flexible solution for receivers, spectrum monitoring and convenient RF testing. The device is with a weight of only 185 g, which is smaller than the size of a mobile phone, realizing the complete functionality of superheterodyne receiver and spectrum analyzer system in a compact size. The module has a highly integrated superheterodyne receiver RF front-end built-in with performance, as well as a back-end digital processing system based on FPGA to accelerate relevant digital signal processing. FPGA-based digital signal processing effectively reduces the performance requirements of the device on the back-end processor. Even on low-power x86 or ARM processor platforms with limited performance, SAN-400 device can still be deployed to achieve good measurement results. SAN-400 works properly on both Linux and Windows operating systems.
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DC Electronic Load
Höcherl & Hackl PLI 2112 / H&H PLI2112
Höcherl & Hackl PLI 2112 Electronic Load
The PLI series of electronic loads provide a comfortable operation by a graphical user interface. The PLI series highlight is the extensive variety of standard interfaces. Apart from Ethernet, USB, RS-232 and Analog interface there is a standard CAN interface. Programming is done in SCPI syntax.
The units provide constant current mode, constant voltage mode, constant power mode and constant resistance mode. In addition, protections for current and voltage can be set in any mode. A static data acquisition function allows to store measurement data on an external USB flash drive. Dynamic operation can be configured by up to 300 list point settings. The Electronic Load saves the synchronously acquired measurement data with timestamp. A configurable trigger model controls data acquisition, static and dynamic settings.
Special applications, such as fuel cell tests, need to load the DUT down to almost 0 V. For these purposes we supply a range of models with an integrated zero-volt supply.– Voltage: 120 V
– Current: 60 A
– Power: 2100 W
Datasheet -
Frequency Counter
HP – Agilent/ Keysight 53181A
Optimized for RF applications, the single-channel 10 digit/s 53181A measures frequency, period and peak voltage. A digit-blanking function lets you easily eliminate unnecessary digits when you want to read measurements quickly. For higher-frequency measurements, choose an optional second channel that provides measurements up to 1.5, 3, 5, or 12.4 GHz. A self-guided shallow menu makes this counter exceptionally easy to use
RF Frequency Counter, 10 digits/s
One 225 MHz input channel, plus optional second channel up to 12.4 GHz
10 digits/second resolution
GPIB StandardThe Keysight Technologies, Inc. 53131A/132A/181A high-performance counters give you fast, precise frequency measurements at an affordable price. These counters feature an intuitive user interface and one-button access to frequently used functions so you can make accurate measurements quickly and easily. Real-time digital signal processing technology is used to analyze data while simultaneously taking new readings, speeding measurement throughput. The technology, developed for Keysight’s high-end line of modulation domain analyzers, allows the counters to gather more data for each measurement, so you get higher-resolution measurements in a fraction of the time it takes other counters. The 53131A/132A/181A counters offer built-in statistics and math functions so you can scale measurements and simultaneously measure and track average, min/max and standard deviation. Automated limit testing lets you set upper and lower limits for any measurement. An analog display mode lets you see at a glance whether a measurement is within pass/fail limits. The counters flag out-of-limit conditions and can generate an output signal to trigger external devices when a limit is exceeded. For quick access to frequently used tests, a single keystroke recalls up to 20 different stored front-panel set-ups. For computer-controlled systems applications, each counter includes a standard GPIB interface with full SCPI-compatible programmability and a data transfer rate of up to 200 fully formatted measurements per second. The standard RS-232 talk-only interface provides printer support or data transfer to a computer through a terminal-emulation program.
Datasheet -
HP 10240B
The HP 10240B Blocking Capacitor is a probing accessory that provides ac-coupling while maintaining a 50 ohm system. This capacitor is designed for use with the model HP 10020A Resistive Divider Kit, and the Keysight 54006A Resistive Divider Probe Kit, but may be used with any probe that must be terminated in 50 Ω.
* Provides ac-coupling
* Maintains a 50 ohm system
* Capacitance: 0.18 µF
* Maximum voltage: +/-200 Vdc
* Sag: Approximately 10% per µs (1% in 100 ns)
* Connectors: BNC
* Reflection: less than 12% when driven by a 150 ps risetime step in a 50 ohm system
* Capacitance: 0.18 µF
* Maximum voltage: +/-200 Vdc
* Sag: Approximately 10% per µs (1% in 100 ns)
* Connectors: BNC
* Reflection: less than 12% when driven by a 150 ps risetime step in a 50 ohm system
Datasheet -
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Oscillator
HP 8350A Sweep Oscillator
The HP 8350A Sweep Oscillator is a solid-state, swept signal source. This unit can be used with network analyzer systems such as the HP 8410B (Network Analyzer), the HP 8755 (Frequency Response Test Set), and others.
Accepts the 86200 (with adapter) and 83500 series of plug-ins for true versatility. Frequency range is dependent upon plug-in used (sold separately). Mainframe features also include the ability to save & recall up to 9 different front-panel settings! This is a very reliable mainframe that will provide years of quality service.* LCD Display
* Remote Programmable via GPIB
* Different Configuration Options with Different RF Plug-Ins
* 27.8 kHz or 1 kHz Square Wave Modulation -
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Adapter
HP E5346A HIGH DENSITY PROBE ADAPTER
The HP E5346A Mictor probe provides a convenient and reliable connection to your target through a Mictor connector designed into your target. Route your signals of interest to the location containing the Mictor connector and when you are ready to measure these signals simply plug-in the Mictor probe. These probes can be used with a support shroud in environments where accidental unplugging of the probe is a concern. This probe can be used with any HP/Agilent logic analyzer with a 40-pin cable connector.
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RF Plug
HP-Agilent/Keysight 83545A
The HP 83545A was designed to be used in the 8350 Mainframe
This unit is a RF Sweep Oscillator Plug-in offers high performance 5.9 to 12.4GHz frequency coverage with exceptionally high output power.
In addition, the 83545A provides slope compensation and complete HP-IB programmability.
The output power is internally leveled to at least 17 dB, with power variations less that 0.6 dB. -
Signal Generator
HP-Agilent/Keysight 83650A
The Agilent 83650A synthesized sweeper is the standard of excellence for applications requiring the high performance and accuracy of a synthesized source and the speed and versatility of a sweep oscillator. Synthesized broadband frequency coverage and precise 1 Hz frequency resolution (Opt 008) are generated by indirect synthesis, enabling the Agilent 83650A to achieve low single-sideband phase noise performance. It delivers excellent harmonic performance with harmonics at least 50 dB below the carrier from 2.0 to 26.5 GHz, and at least 40 dB below the carrier above 26.5 GHz.
Features:
Scan modulation to simulate antenna scan patterns
Accurate fixed and swept frequency offset for two-tone measurement
User flatness correction for leveling at remote points in the test system
General purpose source for use in component test, receiver test and for frequency conversion
Sweep Modes: Step, List, Ramp
Maximum Power: +10 dBm 26.5 GHz
Maximum Power: +2.5 dBm >40 GHz
Power Sweep Range: -20 dBm to maximum power
Phase Noise (50 GHz at 10 KHz): -68 dBc
Max FM Deviation (locked): +/- 8 MHz
Datasheet -
Power Sensor
HP-Agilent/Keysight 8487D
Il sensore di potenza a diodo 8487D misura la potenza media nell'intervallo di frequenza da 50 MHz a 50 GHz e l'intervallo di potenza da -70 a -20 dBm (intervallo dinamico 50 dB).
L'attenuatore Keysight 11708A 30 dB viene fornito con sensori di potenza serie 8480 con il suffisso “D”, per la calibrazione con misuratore di potenza 0 dBm, riferimento 50 MHz.
SWR eccellente per ridurre l'incertezza di mancata corrispondenza
Calibrazione e tracciabilità accurate alla calibrazione del sensore a onde millimetriche del National Institute of Standards and Technology (NIST)
Compatibile con misuratori di potenza EPM (nuovo N1913A / 14A, E4418B / 19B), EPM-P (E4416A / 17A) e serie P (N1911A / 12A), oltre al misuratore di potenza E1416A VXI e fuori produzione 70100A e 43X
Misurazioni di potenza media accurate oltre -70 a -20 dBm
Gamma di frequenza da 50 MHz a 50 GHz
Elemento di rilevamento della potenza del diodo
Datasheet
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Power Detectore
GIGA-TRONICS 16936
The 16936 is a 18.5 GHz rf sensor from Gigatronics. Electronic test equipment sensors measure the power of waveforms, such as multi-tone and modulated radiofrequency (RF) waveforms. Sensors gather highly accurate modulation measurements using diode detectors.
The Gigatronics 16936 Peak Power Sensor was built for use with the Gigatronics 8501, 8501A, 8502, and 8502A power-meters. The 16936 provides both pulsed and cw measurements.Features of the Gigatronics 16936 sensor include:
Frequency range: 750 MHz to 18.5 GHz
Peak Measurement range: -20 dBm to +20 dBm
CW Measurement range: -40 dBm to +20 dBm
50 ohm input impedance
N (m) connector
Datasheet -
Power Meter
GIGATRONICS 8541C
The Giga-tronics 8540C Series Universal Power Meters combine accuracy, speed, range and measurement capabilities unavailable from any other power meter. Built-in features such as power sweep calibration and frequency calibration provide an unequalled degree of measurement accuracy. Only the 8540C Series power meters have the speed and range to meet the throughput demands of high volume manufacturing. And the meters can measure the CW, peak and true average power of the complex modulated signals used in EW, radar, and communications systems.
Only the Giga-tronics 8540C Series Universal Power Meters have the extensive measurement capabilities required for today’s sophisticated communications applications.
The 8540C can automatically measure the average power of pulse modulated signals or pulse signals that are amplitude modulated during the pulse ‘on’ period — such as TDMA (time division multiple access) signals. And the exclusive burst start exclude and burst end exclude capabilities of the 8540C allow you to exclude the beginning or end of a burst when measuring the average burst power. Masking the beginning or end of a burst signal, in order to exclude overshoot or other distortions, can be desirable or even required for certain types of measurements.
The exclusive Time Gating feature of the 8540C lets you program a measurement start time and duration to measure the average power during a specific time slot of a burst signal. This is critical for accurately measuring the average power of GSM, NADC and other formats that must control the power trajectory during a specified portion of the burst.
PHS (as well as DECT and CT-2) systems use a variation of the TDMA format. Instead of using different frequency channels for the forward and reverse link, these systems use a Time Domain Duplex (TDD) method at the same frequency. The Time Gating feature of the 8540C can be used in all of the average power measurement modes to accurately measure the average power of the multiplexed time slots.
The 8540C has the speed, accuracy and range to accurately measure the power level of CDMA (code division multiple access) signals for open-loop and closed-loop testing. The wide dynamic range of the 8540C is ideal for openloop tests, which can require power verification over an 80 dB range. Because the 8540C can achieve fast measurement speeds over the GPIB bus, you can quickly measure power in1dB steps over the 48 dB range required for closed-loop tests.
And no power meter is as accurate as the 8540C over the wide dynamic range needed for CDMA testing.
Fast responding diode sensors plus innovative digital signal processing deliver highspeed measurements. Achieve 500 readings per second over GPIB. Or use our exclusive fast buffered mode to further reduce processor overhead and capture up to 4,000 readings per second in CW mode. The 8540C also responds much faster to power level changes than meters using thermocouple sensors. This adds up to a huge reduction in test time and a significant increase in manufacturing throughput.
Datasheet€320.00 View Product -
Power Supply
H10S CLT-100
Exclusive power supply is required for DC screwdrivers.
● Exclusive power supply converts the electric current from AC outlet (on the primary side) to low-voltage output (HI: DC30V) or (LOW: about DC20V) to supply it to the screwdriver.
● Safe and quiet rotation.
● Please always use HIOS screwdriver in combination with HIOS power supply for safe screw tightening.
● Stable power supply with multiple inputs (AC100V to 240V).
(Not applicable to CLT-100 and MC-70L)€120.00 View Product -
Network Node Real Time Spectrum Analyzer
HAROGIC NXN-400
Main features:
9 kHz-40 GHz real-time spectrum analyzer
Superheterodyne digital receiver architecture, 14 segments pre-selected filter
9 kHz~40 GHz typical image suppression >75 dBc, typical IF rejection>75 dBc
100 MHz analysis bandwidth with adjustable sampling rate, 291.6 GHz/sec sweep speed
FPGA based digital signal processing
Weight 660 grams, size 167×117×28 mm, power consumption: 18 W
1000M/100M Ethernet interface
Build-in multimode GNSS
Provides 1PPS, latitude and longitude information and timestamp
Highly compatible API interfaces and SAStudio4 GUI
Remote master of ARM and x86 processor are supported
Linux and Windows are supported
Operating temperatures range from -20 ℃/-40 ℃ to 65 ℃ (option)
Built-in OCXO (option) or GNSS disciplined OCXO (option)
Built-in 4G data module (option)€25,000.00 View Product -
compact real-time spectrum analyzer/receiver
HAROGIC SAE-200
SAE-200 20 GHz Compact Real-Time Spectrum Analyzer/Receiver
Main features:
9 kHz~20 GHz real-time spectrum analyzer/receiver
Superheterodyne digital receiver architecture, 19segments pre-selected filter
9 kHz~9 GHz typical image suppression>90 dB, typical IF rejection>90 dB
9 GHz~20 GHz typical image suppression>60 dB, typical IF rejection>90 dB
100 MHz analysis bandwidth with adjustable sampling rate, 1.2 THz/sec spectrum sweep speed
FPGA based digital signal processing
Weight 195 grams (core module), size 125 × 60 × 15 mm, power consumption 10-14 W
Highly compatible API interfaces and SAStudio4 GUI
Compatible with ARM and x86 processors, Linux and Windows operating systems
Operating temperatures range from – 20 ℃/- 40 ℃ to 70 ℃ (option)
Built-in OCXO (option)Available options
Code Name Option Explanation
01 Built-in OCXO reference clock (hardware) Providing a reference clock with better stability than the standard configuration, with a temperature drift of<0.2 ppm, increasing the overall power consumption by 0.8 W 10 MUXIO IO extended board (accessory) Converting the MUXIO interface into multiple MMCX and board to wire connector to facilitate the connection of trigger input, output, and other signals 11 External GNSS (accessory) Standard GNSS module connected to MUXIO 12 External high precision GNSS (accessory) High precision GNSS module connected to MUXIO 13 External GNSS disciplined OCXO reference clock (accessory) Providing GNSS disciplined reference clock and 1PPS, increasing the overall power consumption by 1.1W 20 Extended temperature class (hardware) Extending the operating temperature to – 20~70 ℃ 21 Wide temperature class (hardware) Extending the operating temperature to – 40~70 ℃ Datasheet€7,998.00 View Product -
compact real-time spectrum analyzer/receiver
HAROGIC SAE-90
Main features:
9 kHz~9.5 GHz real-time spectrum analyzer/receiver
Superheterodyne digital receiver architecture, 14segments pre-selected filter
9 kHz~9.5 GHz typical image suppression>90 dB, typical IF rejection>90 dB
100 MHz analysis bandwidth with adjustable sampling rate, 1.2 THz/sec spectrum sweep speed
FPGA based digital signal processing
Weight 188 grams (core module), size 118 × 60 × 15 mm, power consumption 10-14 W
Highly compatible API interfaces and SAStudio4 GUI
Compatible with ARM and x86 processors, Linux and Windows operating systems
Operating temperatures range from – 20 ℃/- 40 ℃ to 70 ℃ (option)
USB 3.0/2.0 Type-C interfaceAvailable options
Code Name Option Explanation
01 Built-in OCXO reference clock (hardware) Providing a reference clock with better stability than the standard
configuration, with a temperature drift of<0.2 ppm, increasing the overall power consumption by 0.8 W 10 MUXIO IO extended board (accessory) Converting the MUXIO interface into multiple MMCX and board to wire connector to facilitate the connection of trigger input, output, and other signals 11 External GNSS (accessory) Standard GNSS module connected to MUXIO 12 External high precision GNSS (accessory) High precision GNSS module connected to MUXIO 13 External GNSS disciplined OCXO reference clock (accessory) Providing GNSS disciplined reference clock and 1PPS, increasing the overall power consumption by 1.1W 20 Extended temperature class (hardware) Extending the operating temperature to – 20~70 ℃ 21 Wide temperature class (hardware) Extending the operating temperature to – 40~70 ℃ Datasheet€4,798.00 View Product -
compact real-time spectrum analyzer/receiver
HAROGIC SAM-60 M3
Main features:
9 kHz~6.3 GHz real-time spectrum analyzer/receiver
Integrated 100 kHz-6.3 GHz analog signal generator (option)
100 MHz analysis bandwidth, 300 GHz/sec spectrum sweep speed
FPGA based digital signal processing
1GHz phase noise: -114 dBc/Hz@10kHz
1GHz DANL: -167 dBm/Hz
Weight 168 grams (core module), size 142mm×54mm×16mm, power consumption 7-10 W
Highly compatible API interfaces and SAStudio4 GUI
Compatible with ARM and x86 processors, Linux and Windows operating systems
Operating temperatures range from -20 oC/-40 oC to 70 oC (option)
Built-in OCXO (option), temperature drift≤0.15 ppm
USB3.0/2.0 Type-C interface€3,398.00 View Product -
compact real-time spectrum analyzer/receiver
HAROGIC SAM-80
Main features:
9 kHz~8.5 GHz real-time spectrum analyzer/receiver
Integrated 100 kHz-6.3 GHz analog signal generator (option)
100MHz analysis bandwidth, 300 GHz/sec spectrum sweep speed
FPGA based digital signal processing
Weight 159 grams (core module), size 142 × 54 × 16 mm, power consumption 7-10 W
Highly compatible API interfaces and SAStudio4 GUI
Compatible with ARM and x86 processors, Linux and Windows operating systems
Operating temperatures range from -20 ℃/-40 ℃ to 70 ℃ (option)
USB 3.0/2.0 Type-C interface
Datasheet€3,998.00 View Product -
compact real-time spectrum analyzer/receiver
HAROGIC SAN-400
40 GHz Compact Real-Time Spectrum Analyzer/Receiver
Main features:
9 kHz~40 GHz real-time spectrum analyzer/receiver;
Superheterodyne digital receiver architecture, 14 segments pre-selected filter;
Typical image suppression and IF rejection>75 dBc;
100 MHz analysis bandwidth with adjustable sampling rate, 400 GHz/sec spectrum sweep speed;
FPGA based digital signal processing;
40 GHz DANL=-141 dBm/Hz, Phase Noise=-86 dBc/Hz@10 kHz;
Weight 185 grams (core module), size 125 × 60 × 17 mm, power consumption 10-14 W;
Highly compatible API interfaces and SAStudio4 GUI;
Compatible with ARM and x86 processors, Linux and Windows operating systems;
Built-in OCXO (option), temperature drift≤0.15 ppm;
USB3.0/2.0 Type C supported.Compact Real-Time Spectrum Analyzer/Receiver
SAN-400 is a receiver/spectrum analyzer module based on superheterodyne digital IF architecture, equipped with USB3.0 interface and high-speed FPGA digital signal processing, providing good performance in a compact size. It is optimized for applications such as receivers, spectrum monitoring, and RF testing. It offers multiple outputs, including spectrum, digital IQ stream, power detection waveform (zero sweep bandwidth), and real-time spectrum. The volume, weight, and power consumption are highly optimized for field and embedded applications. It provides a highly compatible API interfaces, which can quickly realize efficient secondary development. User code is compatible with other HAROGIC devices such as SAE-90, SAE-200 and NXE-200, allowing users to select hardware flexibly according to their application needs.
SAN-400 provides a particularly flexible solution for receivers, spectrum monitoring and convenient RF testing. The device is with a weight of only 185 g, which is smaller than the size of a mobile phone, realizing the complete functionality of superheterodyne receiver and spectrum analyzer system in a compact size. The module has a highly integrated superheterodyne receiver RF front-end built-in with performance, as well as a back-end digital processing system based on FPGA to accelerate relevant digital signal processing. FPGA-based digital signal processing effectively reduces the performance requirements of the device on the back-end processor. Even on low-power x86 or ARM processor platforms with limited performance, SAN-400 device can still be deployed to achieve good measurement results. SAN-400 works properly on both Linux and Windows operating systems.
€8,898.00 View Product -
DC Electronic Load
Höcherl & Hackl PLI 2112 / H&H PLI2112
Höcherl & Hackl PLI 2112 Electronic Load
The PLI series of electronic loads provide a comfortable operation by a graphical user interface. The PLI series highlight is the extensive variety of standard interfaces. Apart from Ethernet, USB, RS-232 and Analog interface there is a standard CAN interface. Programming is done in SCPI syntax.
The units provide constant current mode, constant voltage mode, constant power mode and constant resistance mode. In addition, protections for current and voltage can be set in any mode. A static data acquisition function allows to store measurement data on an external USB flash drive. Dynamic operation can be configured by up to 300 list point settings. The Electronic Load saves the synchronously acquired measurement data with timestamp. A configurable trigger model controls data acquisition, static and dynamic settings.
Special applications, such as fuel cell tests, need to load the DUT down to almost 0 V. For these purposes we supply a range of models with an integrated zero-volt supply.– Voltage: 120 V
– Current: 60 A
– Power: 2100 W
Datasheet -
Frequency Counter
HP – Agilent/ Keysight 53181A
Optimized for RF applications, the single-channel 10 digit/s 53181A measures frequency, period and peak voltage. A digit-blanking function lets you easily eliminate unnecessary digits when you want to read measurements quickly. For higher-frequency measurements, choose an optional second channel that provides measurements up to 1.5, 3, 5, or 12.4 GHz. A self-guided shallow menu makes this counter exceptionally easy to use
RF Frequency Counter, 10 digits/s
One 225 MHz input channel, plus optional second channel up to 12.4 GHz
10 digits/second resolution
GPIB StandardThe Keysight Technologies, Inc. 53131A/132A/181A high-performance counters give you fast, precise frequency measurements at an affordable price. These counters feature an intuitive user interface and one-button access to frequently used functions so you can make accurate measurements quickly and easily. Real-time digital signal processing technology is used to analyze data while simultaneously taking new readings, speeding measurement throughput. The technology, developed for Keysight’s high-end line of modulation domain analyzers, allows the counters to gather more data for each measurement, so you get higher-resolution measurements in a fraction of the time it takes other counters. The 53131A/132A/181A counters offer built-in statistics and math functions so you can scale measurements and simultaneously measure and track average, min/max and standard deviation. Automated limit testing lets you set upper and lower limits for any measurement. An analog display mode lets you see at a glance whether a measurement is within pass/fail limits. The counters flag out-of-limit conditions and can generate an output signal to trigger external devices when a limit is exceeded. For quick access to frequently used tests, a single keystroke recalls up to 20 different stored front-panel set-ups. For computer-controlled systems applications, each counter includes a standard GPIB interface with full SCPI-compatible programmability and a data transfer rate of up to 200 fully formatted measurements per second. The standard RS-232 talk-only interface provides printer support or data transfer to a computer through a terminal-emulation program.
Datasheet -
HP 10240B
The HP 10240B Blocking Capacitor is a probing accessory that provides ac-coupling while maintaining a 50 ohm system. This capacitor is designed for use with the model HP 10020A Resistive Divider Kit, and the Keysight 54006A Resistive Divider Probe Kit, but may be used with any probe that must be terminated in 50 Ω.
* Provides ac-coupling
* Maintains a 50 ohm system
* Capacitance: 0.18 µF
* Maximum voltage: +/-200 Vdc
* Sag: Approximately 10% per µs (1% in 100 ns)
* Connectors: BNC
* Reflection: less than 12% when driven by a 150 ps risetime step in a 50 ohm system
* Capacitance: 0.18 µF
* Maximum voltage: +/-200 Vdc
* Sag: Approximately 10% per µs (1% in 100 ns)
* Connectors: BNC
* Reflection: less than 12% when driven by a 150 ps risetime step in a 50 ohm system
Datasheet -
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Oscillator
HP 8350A Sweep Oscillator
The HP 8350A Sweep Oscillator is a solid-state, swept signal source. This unit can be used with network analyzer systems such as the HP 8410B (Network Analyzer), the HP 8755 (Frequency Response Test Set), and others.
Accepts the 86200 (with adapter) and 83500 series of plug-ins for true versatility. Frequency range is dependent upon plug-in used (sold separately). Mainframe features also include the ability to save & recall up to 9 different front-panel settings! This is a very reliable mainframe that will provide years of quality service.* LCD Display
* Remote Programmable via GPIB
* Different Configuration Options with Different RF Plug-Ins
* 27.8 kHz or 1 kHz Square Wave Modulation€0.00 View Product -
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Adapter
HP E5346A HIGH DENSITY PROBE ADAPTER
The HP E5346A Mictor probe provides a convenient and reliable connection to your target through a Mictor connector designed into your target. Route your signals of interest to the location containing the Mictor connector and when you are ready to measure these signals simply plug-in the Mictor probe. These probes can be used with a support shroud in environments where accidental unplugging of the probe is a concern. This probe can be used with any HP/Agilent logic analyzer with a 40-pin cable connector.
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RF Plug
HP-Agilent/Keysight 83545A
The HP 83545A was designed to be used in the 8350 Mainframe
This unit is a RF Sweep Oscillator Plug-in offers high performance 5.9 to 12.4GHz frequency coverage with exceptionally high output power.
In addition, the 83545A provides slope compensation and complete HP-IB programmability.
The output power is internally leveled to at least 17 dB, with power variations less that 0.6 dB. -
Signal Generator
HP-Agilent/Keysight 83650A
The Agilent 83650A synthesized sweeper is the standard of excellence for applications requiring the high performance and accuracy of a synthesized source and the speed and versatility of a sweep oscillator. Synthesized broadband frequency coverage and precise 1 Hz frequency resolution (Opt 008) are generated by indirect synthesis, enabling the Agilent 83650A to achieve low single-sideband phase noise performance. It delivers excellent harmonic performance with harmonics at least 50 dB below the carrier from 2.0 to 26.5 GHz, and at least 40 dB below the carrier above 26.5 GHz.
Features:
Scan modulation to simulate antenna scan patterns
Accurate fixed and swept frequency offset for two-tone measurement
User flatness correction for leveling at remote points in the test system
General purpose source for use in component test, receiver test and for frequency conversion
Sweep Modes: Step, List, Ramp
Maximum Power: +10 dBm 26.5 GHz
Maximum Power: +2.5 dBm >40 GHz
Power Sweep Range: -20 dBm to maximum power
Phase Noise (50 GHz at 10 KHz): -68 dBc
Max FM Deviation (locked): +/- 8 MHz
Datasheet -
Power Sensor
HP-Agilent/Keysight 8487D
Il sensore di potenza a diodo 8487D misura la potenza media nell'intervallo di frequenza da 50 MHz a 50 GHz e l'intervallo di potenza da -70 a -20 dBm (intervallo dinamico 50 dB).
L'attenuatore Keysight 11708A 30 dB viene fornito con sensori di potenza serie 8480 con il suffisso “D”, per la calibrazione con misuratore di potenza 0 dBm, riferimento 50 MHz.
SWR eccellente per ridurre l'incertezza di mancata corrispondenza
Calibrazione e tracciabilità accurate alla calibrazione del sensore a onde millimetriche del National Institute of Standards and Technology (NIST)
Compatibile con misuratori di potenza EPM (nuovo N1913A / 14A, E4418B / 19B), EPM-P (E4416A / 17A) e serie P (N1911A / 12A), oltre al misuratore di potenza E1416A VXI e fuori produzione 70100A e 43X
Misurazioni di potenza media accurate oltre -70 a -20 dBm
Gamma di frequenza da 50 MHz a 50 GHz
Elemento di rilevamento della potenza del diodo
Datasheet