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Pulse Pattern Generator
TEKTRONIX PG 501
PULSE GENERATOR.
The PG501 provides simultaneous positive and negative 50 MHz output pulses with 5 ns rise and fall times and independently variable amplitudes from 0.5 V to 5 V into 50 Ω.
Front panel controls provide calibrated decade selection of pulse period from 20 ns to 20 ms, and duration from 10 ns to 10 ms. Uncalibrated pulse period from 20 ns to 0.2 s and duration from 10 ns to 0.1 s can be obtained with the variable control.
The PG501 has a gate input and a 10 ns pre-trigger output.SKU: n/a -
Current Probe Amplifiter
TEKTRONIX TCPA300
Current Probe Amplifier.
The TCPA300 from Tektronix is a current probe amplifier. This amplifier when used with TCP312A, TCP305A and TCP303 probes, provides a wide range of current measurement capability and spans the gap between low level milliamp measurements to very high current levels. These three probes provide current measurement capabilities of 30A, 50A and 150A DC continuous and for even higher current levels. Higher frequency performance is available with TCP312A providing greater than or equal to 100MHz bandwidth and maximum current of 30A DC. The TCPA300 is approved by UL3111-1 first edition, CAN/CSA C22.2 number 1010.1-92, EN61010-1:2001, EC Council Directive 89/336/EEC, FCC Part 15, Subpart B class A and AS/NZS 2064.1/2 standards.DC to 100MHz maximum bandwidth
Automatic control and onscreen scaling and units
AC/DC input coupling
Low insertion impedance reduces device under test loading
Split core construction allows easy circuit connection
Status indicators provide visual operating status and notification of potential error conditions
Low DC drift and noise allows improved low level current measurements
DatasheetSKU: n/a -
Power Supply
SORENSEN DCS8-125
Programmable POWER SUPPLY 0-8 VOLTS 0-125 AMPS.
he DCS80-125 is a 1000 Watt DC Power Supply from Sorensen. Supplies DC voltage and current to test, design, and troubleshoot electric and electronic circuits.
This unit has a 8V and 125A.
The DCS Family of 1 kW, 1.2 kW and 3 kW programmable power supplies utilize switch-mode technology to achieve high power density in a low profile chassis. Utilizing unique packaging techniques, the DCS Family provides continuous full output power (1 kW, 1.2 kW or 3 kW) in any volt/amp combination within the rated output voltage and current limits. This family has 10-turn potentiometers to adjust voltage and current settings that are displayed simultaneously. LEDs indicate overtemperature, remote programming, shutdown and overvoltage protection, status and constant-voltage/current mode operation.
The DCS 3 kW Models have push button control of the output standby mode, OVP reset, remote/ local programming and preview status of voltage, current and OVP setpoints.
DatasheetSKU: n/a -
Power Supply
SORENSEN DCS80-13
Programmable POWER SUPPLY 0-80 VOLTS 0-13 AMPS
The DCS80-13E is a 1000 Watt DC Power Supply from Sorensen. Supplies DC voltage and current to test, design, and troubleshoot electric and electronic circuits.
This unit has a 80V and 13A.
The DCS Family of 1 kW, 1.2 kW and 3 kW programmable power supplies utilize switch-mode technology to achieve high power density in a low profile chassis. Utilizing unique packaging techniques, the DCS Family provides continuous full output power (1 kW, 1.2 kW or 3 kW) in any volt/amp combination within the rated output voltage and current limits. This family has 10-turn potentiometers to adjust voltage and current settings that are displayed simultaneously. LEDs indicate overtemperature, remote programming, shutdown and overvoltage protection, status and constant-voltage/current mode operation.
The DCS 3 kW Models have push button control of the output standby mode, OVP reset, remote/ local programming and preview status of voltage, current and OVP setpoints.
DatasheetSKU: n/a -
Oscilloscope 2 channels
RIGOL DS1202Z-E
The Rigol Rigol DS1202Z-E is a very high quality two channel digital storage oscilloscope. It features a real-time sample rate of up to 1 GSa/s and a bandwidth of 200 MHz.
The Rigol DS1202Z-E is equipped with well designed and easy to use control panels offering comprehensive ease-of-use functions for all measuring tasks. The menu navigation is intuitive and available in several languages.
This high performance standard not only ensures capturing real-time instantaneous signals, but also observes details of repeated signals.
The Rigol DS1202Z-E has a refresh rate of up to 30.000 wfms/s, enabling users to capture instantaneous signals, as well as abnormal signals more quicky. It also helps to enhance the waveform capturing ability and to expedite a circuit debug course. The quality of the Rigol oscilloscopes is comparable to Agilent and Tektronix oscilloscopes.
The particularly large TFT color displays are very easy to read. Thanks to an intelligent system for displaying or masking information, the largest possible area is always available for displaying signals.
The signal curves, the FFT display, and other functions can be shown simultaneously on the display.
The Rigol Rigol DS1202Z-E oscilloscopes can store up to 24 million measurement points. You can zoom into a selected part of the captured waveforms to get more details and scroll within the measurement points.
The high sampling rate (up to 1 GSa/s) of the Rigol Rigol DS1202Z-E oscilloscopes and the large memory makes it possible to record up to 30,000 waveforms per second.
The recorded waveforms can be conveniently recorded, displayed and analyzed.“Multi-Level Grading Intensity” display, extensive signal characteristics with a very large number of measurement values can also be displayed completely.
The Rigol Rigol DS1202Z-E oscilloscopes offer extensive trigger options for a professional use. The special triggers Windows, Nth Edge, Delay, Timeout, Runt, RS232/UART, I²C und SPI are available as standard accessories.
With the Rigol DS1202Z-E serial data packages of different serial bus systems can be analyzed, decoded, and displayed directly as byte values. Supported protocols are: RS232/UART, I²C, and SPI.
The Rigol DS1202Z-E comes with a modern and advanced math system which lets it solve complicated signal calculations quite simply with predefined formulas.
Pass/fail testing can be used for troubleshooting in various environments like communication networks.
The %ARTICLE_NAME% measures up to five parameters like rise- and fall-time, amplitude, pulse width, duty cycle and many more simultaneously and shows statistics for every parameter (max- , min- and average values).
DatasheetSKU: n/a€335.00 View Product -
Spectrum Analyzer, Spectrum Analyzer - Analizzatore di Spettro
RIGOL RSA3030E-TG
Real-Time Spectrum Analyzer from 9 kHz to 4.5 GHz with Tracking Generator.
The Rigol RSA3000E series is a compact and light weight spectrum analyzer series with premium performance standard spectrum analysis capabilities combined with a Real-Time Spectrum Analyzer which makes it possible to never miss any signal that is longer than 7.45 µs in duration. Engineers integrating WiFi, Bluetooth and other modern RF technologies are confronted with complex challenges like frequency hopping signals, channel conflict, and spectrum interference.
Real-Time Spectrum Analyzers bring the dimension of time to RF Analysis making it easier to monitor and characterize these complex RF systems.
The RSA3000E combines industry leading Realtime performance (7.45µs 100% POI), rich data displays, and advanced triggering options allowing the user to quickly capture, identify and analyze these complex events.
Rigol's new RSA3000E series spectrum analyzers redefines the product category of general purpose spectrum analyzer by adding Real-Time spectrum trigger and analysis capabilities and sets a new level performance and price.
The RSA3000E family features a 10.1” touchscreen display, compact design and easy-to-use interface and operations, making it ideal for benchtop or field apps in RF and wireless testing and production such as IoT, RFID, analog and digital modulated signals.
Embedded-System-Designer can cross trigger and analyze bus signals like IC2, SPI with RF Signals.
The Real-Time-Bandwidth of 10 MHz and the Frequency-Mask-Trigger let you visualize, isolate and capture signals to analyze their behavior over amplitude, frequency and time.
The new spectrum analyzer offers the ability to trigger and capture signals by 100% if longer than 7.45 µs in duration.
The RSA3000E have RBW settable down to 10 Hz, a DANL (displayed average noise level) down to -161 dBm (typical) and a 1ms Full Span Sweep in its general-purpose spectrum analyzer mode.
EMI filter and detector such as 9KHz, 120kHz and Quasi-Peak as example are standard.
Extendibility: Pre-Amplifier, High Stability Clock, Advanced Measurement Kit, EMI Pre-compliance Test Software can be added optional.Features
• 9 kHz to 3 or 4.5 GHz Frequency Range
• 10.1” Capacitive touchscreen display
• Displayed Average Noise Level as low as -161 dBm with opt. PreAmplifier
• Real-Time Analysis Bandwidth of 10 MHz standard (40 MHz option)
• Frequency-Mask-Trigger, IF-Power-Level-Trigger and external Trigger
• 7 Real-Time visualization modes
• 100 % POI as low as 7. 45 µs
• 10 Hz Minimum Resolution Bandwidth (RBW) (1 Hz option)
• 1 ms full span sweep speed
• EMI RBW and Detector standard (200 Hz, 9 kHz, 120 kHz, 1 MHz)
• Tracking Generator and VSWR measurements available
DatasheetSKU: n/a€3,395.00 View Product -
Spectrum Analyzer, Spectrum Analyzer - Analizzatore di Spettro
RIGOL RSA3030E
Real-Time Spectrum Analyzer from 9 kHz to 4.5 GHz
The Rigol RSA3000E series is a compact and light weight spectrum analyzer series with premium performance standard spectrum analysis capabilities combined with a Real-Time Spectrum Analyzer which makes it possible to never miss any signal that is longer than 7.45 µs in duration. Engineers integrating WiFi, Bluetooth and other modern RF technologies are confronted with complex challenges like frequency hopping signals, channel conflict, and spectrum interference.
Real-Time Spectrum Analyzers bring the dimension of time to RF Analysis making it easier to monitor and characterize these complex RF systems.
The RSA3000E combines industry leading Realtime performance (7.45µs 100% POI), rich data displays, and advanced triggering options allowing the user to quickly capture, identify and analyze these complex events.
Rigol's new RSA3000E series spectrum analyzers redefines the product category of general purpose spectrum analyzer by adding Real-Time spectrum trigger and analysis capabilities and sets a new level performance and price.
The RSA3000E family features a 10.1” touchscreen display, compact design and easy-to-use interface and operations, making it ideal for benchtop or field apps in RF and wireless testing and production such as IoT, RFID, analog and digital modulated signals.
Embedded-System-Designer can cross trigger and analyze bus signals like IC2, SPI with RF Signals.
The Real-Time-Bandwidth of 10 MHz and the Frequency-Mask-Trigger let you visualize, isolate and capture signals to analyze their behavior over amplitude, frequency and time.
The new spectrum analyzer offers the ability to trigger and capture signals by 100% if longer than 7.45 µs in duration.
The RSA3000E have RBW settable down to 10 Hz, a DANL (displayed average noise level) down to -161 dBm (typical) and a 1ms Full Span Sweep in its general-purpose spectrum analyzer mode.
EMI filter and detector such as 9KHz, 120kHz and Quasi-Peak as example are standard.
Extendibility: Pre-Amplifier, High Stability Clock, Advanced Measurement Kit, EMI Pre-compliance Test Software can be added optional.Features
• 9 kHz to 3 or 4.5 GHz Frequency Range
• 10.1” Capacitive touchscreen display
• Displayed Average Noise Level as low as -161 dBm with opt. PreAmplifier
• Real-Time Analysis Bandwidth of 10 MHz standard (40 MHz option)
• Frequency-Mask-Trigger, IF-Power-Level-Trigger and external Trigger
• 7 Real-Time visualization modes
• 100 % POI as low as 7. 45 µs
• 10 Hz Minimum Resolution Bandwidth (RBW) (1 Hz option)
• 1 ms full span sweep speed
• EMI RBW and Detector standard (200 Hz, 9 kHz, 120 kHz, 1 MHz)
• Tracking Generator and VSWR measurements available
DatasheetSKU: n/a€2,999.00 View Product -
Spectrum Analyzer, Spectrum Analyzer - Analizzatore di Spettro
RIGOL RSA3015E-TG
Real-Time Spectrum Analyzer from 9 kHz to 1.5 GHz with Tracking Generator.
The Rigol RSA3000E series is a compact and light weight spectrum analyzer series with premium performance standard spectrum analysis capabilities combined with a Real-Time Spectrum Analyzer which makes it possible to never miss any signal that is longer than 7.45 µs in duration. Engineers integrating WiFi, Bluetooth and other modern RF technologies are confronted with complex challenges like frequency hopping signals, channel conflict, and spectrum interference.
Real-Time Spectrum Analyzers bring the dimension of time to RF Analysis making it easier to monitor and characterize these complex RF systems.
The RSA3000E combines industry leading Realtime performance (7.45µs 100% POI), rich data displays, and advanced triggering options allowing the user to quickly capture, identify and analyze these complex events.
Rigol's new RSA3000E series spectrum analyzers redefines the product category of general purpose spectrum analyzer by adding Real-Time spectrum trigger and analysis capabilities and sets a new level performance and price.
The RSA3000E family features a 10.1” touchscreen display, compact design and easy-to-use interface and operations, making it ideal for benchtop or field apps in RF and wireless testing and production such as IoT, RFID, analog and digital modulated signals.
Embedded-System-Designer can cross trigger and analyze bus signals like IC2, SPI with RF Signals.
The Real-Time-Bandwidth of 10 MHz and the Frequency-Mask-Trigger let you visualize, isolate and capture signals to analyze their behavior over amplitude, frequency and time.
The new spectrum analyzer offers the ability to trigger and capture signals by 100% if longer than 7.45 µs in duration.
The RSA3000E have RBW settable down to 10 Hz, a DANL (displayed average noise level) down to -161 dBm (typical) and a 1ms Full Span Sweep in its general-purpose spectrum analyzer mode.
EMI filter and detector such as 9KHz, 120kHz and Quasi-Peak as example are standard.
Extendibility: Pre-Amplifier, High Stability Clock, Advanced Measurement Kit, EMI Pre-compliance Test Software can be added optional.Features
• 9 kHz to 3 or 4.5 GHz Frequency Range
• 10.1” Capacitive touchscreen display
• Displayed Average Noise Level as low as -161 dBm with opt. PreAmplifier
• Real-Time Analysis Bandwidth of 10 MHz standard (40 MHz option)
• Frequency-Mask-Trigger, IF-Power-Level-Trigger and external Trigger
• 7 Real-Time visualization modes
• 100 % POI as low as 7. 45 µs
• 10 Hz Minimum Resolution Bandwidth (RBW) (1 Hz option)
• 1 ms full span sweep speed
• EMI RBW and Detector standard (200 Hz, 9 kHz, 120 kHz, 1 MHz)
• Tracking Generator and VSWR measurements available
DatasheetSKU: n/a€1,795.00 View Product -
Spectrum Analyzer, Spectrum Analyzer - Analizzatore di Spettro
RIGOL RSA3015E
Spectrum Analyzer from 9 kHz to 1.5 GHz
The Rigol RSA3000E series is a compact and light weight spectrum analyzer series with premium performance standard spectrum analysis capabilities combined with a Real-Time Spectrum Analyzer which makes it possible to never miss any signal that is longer than 7.45 µs in duration. Engineers integrating WiFi, Bluetooth and other modern RF technologies are confronted with complex challenges like frequency hopping signals, channel conflict, and spectrum interference.
Real-Time Spectrum Analyzers bring the dimension of time to RF Analysis making it easier to monitor and characterize these complex RF systems.
The RSA3000E combines industry leading Realtime performance (7.45µs 100% POI), rich data displays, and advanced triggering options allowing the user to quickly capture, identify and analyze these complex events.
Rigol's new RSA3000E series spectrum analyzers redefines the product category of general purpose spectrum analyzer by adding Real-Time spectrum trigger and analysis capabilities and sets a new level performance and price.
The RSA3000E family features a 10.1” touchscreen display, compact design and easy-to-use interface and operations, making it ideal for benchtop or field apps in RF and wireless testing and production such as IoT, RFID, analog and digital modulated signals.
Embedded-System-Designer can cross trigger and analyze bus signals like IC2, SPI with RF Signals.
The Real-Time-Bandwidth of 10 MHz and the Frequency-Mask-Trigger let you visualize, isolate and capture signals to analyze their behavior over amplitude, frequency and time.
The new spectrum analyzer offers the ability to trigger and capture signals by 100% if longer than 7.45 µs in duration.
The RSA3000E have RBW settable down to 10 Hz, a DANL (displayed average noise level) down to -161 dBm (typical) and a 1ms Full Span Sweep in its general-purpose spectrum analyzer mode.
EMI filter and detector such as 9KHz, 120kHz and Quasi-Peak as example are standard.
Extendibility: Pre-Amplifier, High Stability Clock, Advanced Measurement Kit, EMI Pre-compliance Test Software can be added optional.Features
• 9 kHz to 3 or 4.5 GHz Frequency Range
• 10.1” Capacitive touchscreen display
• Displayed Average Noise Level as low as -161 dBm with opt. PreAmplifier
• Real-Time Analysis Bandwidth of 10 MHz standard (40 MHz option)
• Frequency-Mask-Trigger, IF-Power-Level-Trigger and external Trigger
• 7 Real-Time visualization modes
• 100 % POI as low as 7. 45 µs
• 10 Hz Minimum Resolution Bandwidth (RBW) (1 Hz option)
• 1 ms full span sweep speed
• EMI RBW and Detector standard (200 Hz, 9 kHz, 120 kHz, 1 MHz)
• Tracking Generator and VSWR measurements available
DatasheetSKU: n/a€1,595.00 View Product -
Signal Generator
RIGOL DSG836A
RF SIGNAL GENERATOR 9 kHz to 3.6 GHz with I/Q Modulation
The DSG800(A) RF signal generator offers standard AM/FM/ØM analog modulation, as well as options for pulse modulation with a maximum frequency 1.5 GHz. Featuring a high signal purity with phase noise measuring <-105 dBc/Hz @ 20 kHz (typical) and a wide output range of -110 dBm to +13 dBm, the DSG800 RF signal generator has an optional pulse modulation with an on/off ratio of up to 70dB, with optional pulse train generator available. The DSG800(A) series also has an amplitude accuracy of < 0.5 dB (typical). Beside the analog output the devices include a USB-Host- and a USB-device and a LAN interface. The DSG800 series is a high-performance RF signal generator. It provides comprehensive modulation solutions such as: Pulse modulation (optional) with customizable pulse train (optional) and standard AM/FM/FM analog modulation. All modulation schemes support internal and external modulation sources. In addition, to meet the demands of production environments, the DSG800 is designed to be both, highly stable and reliable. The DSG800 series also features a clear user interface, small size and light weight. It is easy to operate and can output stable, precise and pure signals. It is an ideal tool for various fields such as communication, computers, instrumentation, R&D, education, production and maintenance. Highly cost-effective economical RF signal generator * Up to -112 dBc/Hz (typical) phase noise * Up to +20 dBm (typical) maximum output power * Higher level of amplitude accuracy, up to 0.5 dB (typical) * Superb signal stability Functions almost matching those of high-level RF signal generators * Flexible frequency and amplitude sweep functions * Complete AM/FM/ØM analog modulation functions * Standard LF output function * Powerful pulse modulation function * Open vector modulation function * System flatness calibration function * Simple and easy to operate Special design ensuring its reliability and durability * Use electronic attenuator to avoid wearing * Specially designed protection functions * Digital ALC circuit * Simple structure Smallest in size among the like products * Occupy the least workbench space * Occupy less rack space * Light weight; the handle offers comfortable grip Special Features * Highest frequency: 1.5 GHz / 3.6 GHz * Amplitude accuracy: < 0.5 dB (typical) * Output amplitude range: -110 dBm to +13 dBm * High signal purity, phase noise: < -105 dBc/Hz @ 20 kHz (typical) * Standard 2 ppm internal clock; 5 ppb high stable clock for option * Standard AM/FM/ΦM analog modulation * Optional pulse modulation; on/off ratio up to 70 dB * Pulse Train Generator (optional) * All modulationschemes support internal and external modulation modes * Standard 2U height design to save rack space. Rack mount kit is available * Standard USB/LAN remote control interfaces. SCPI command set for remote control * Wear-free electronic attenuator design DatasheetSKU: n/a€4,695.00 View Product -
Signal Generator
RIGOL DSG836
RF SIGNAL GENERATOR 9 kHz to 3.6 GHz
The DSG800(A) RF signal generator offers standard AM/FM/ØM analog modulation, as well as options for pulse modulation with a maximum frequency 1.5 GHz. Featuring a high signal purity with phase noise measuring <-105 dBc/Hz @ 20 kHz (typical) and a wide output range of -110 dBm to +13 dBm, the DSG800 RF signal generator has an optional pulse modulation with an on/off ratio of up to 70dB, with optional pulse train generator available. The DSG800(A) series also has an amplitude accuracy of < 0.5 dB (typical). Beside the analog output the devices include a USB-Host- and a USB-device and a LAN interface. The DSG800 series is a high-performance RF signal generator. It provides comprehensive modulation solutions such as: Pulse modulation (optional) with customizable pulse train (optional) and standard AM/FM/FM analog modulation. All modulation schemes support internal and external modulation sources. In addition, to meet the demands of production environments, the DSG800 is designed to be both, highly stable and reliable. The DSG800 series also features a clear user interface, small size and light weight. It is easy to operate and can output stable, precise and pure signals. It is an ideal tool for various fields such as communication, computers, instrumentation, R&D, education, production and maintenance. Highly cost-effective economical RF signal generator * Up to -112 dBc/Hz (typical) phase noise * Up to +20 dBm (typical) maximum output power * Higher level of amplitude accuracy, up to 0.5 dB (typical) * Superb signal stability Functions almost matching those of high-level RF signal generators * Flexible frequency and amplitude sweep functions * Complete AM/FM/ØM analog modulation functions * Standard LF output function * Powerful pulse modulation function * Open vector modulation function * System flatness calibration function * Simple and easy to operate Special design ensuring its reliability and durability * Use electronic attenuator to avoid wearing * Specially designed protection functions * Digital ALC circuit * Simple structure Smallest in size among the like products * Occupy the least workbench space * Occupy less rack space * Light weight; the handle offers comfortable grip Special Features * Highest frequency: 1.5 GHz / 3.6 GHz * Amplitude accuracy: < 0.5 dB (typical) * Output amplitude range: -110 dBm to +13 dBm * High signal purity, phase noise: < -105 dBc/Hz @ 20 kHz (typical) * Standard 2 ppm internal clock; 5 ppb high stable clock for option * Standard AM/FM/ΦM analog modulation * Optional pulse modulation; on/off ratio up to 70 dB * Pulse Train Generator (optional) * All modulationschemes support internal and external modulation modes * Standard 2U height design to save rack space. Rack mount kit is available * Standard USB/LAN remote control interfaces. SCPI command set for remote control * Wear-free electronic attenuator design DatasheetSKU: n/a€3,395.00 View Product -
Signal Generator
RIGOL DSG821A
RF SIGNAL GENERATOR 9 kHz to 2.1 GHz with I/Q Modulation
The DSG800(A) RF signal generator offers standard AM/FM/ØM analog modulation, as well as options for pulse modulation with a maximum frequency 1.5 GHz. Featuring a high signal purity with phase noise measuring <-105 dBc/Hz @ 20 kHz (typical) and a wide output range of -110 dBm to +13 dBm, the DSG800 RF signal generator has an optional pulse modulation with an on/off ratio of up to 70dB, with optional pulse train generator available. The DSG800(A) series also has an amplitude accuracy of < 0.5 dB (typical). Beside the analog output the devices include a USB-Host- and a USB-device and a LAN interface. The DSG800 series is a high-performance RF signal generator. It provides comprehensive modulation solutions such as: Pulse modulation (optional) with customizable pulse train (optional) and standard AM/FM/FM analog modulation. All modulation schemes support internal and external modulation sources. In addition, to meet the demands of production environments, the DSG800 is designed to be both, highly stable and reliable. The DSG800 series also features a clear user interface, small size and light weight. It is easy to operate and can output stable, precise and pure signals. It is an ideal tool for various fields such as communication, computers, instrumentation, R&D, education, production and maintenance. Highly cost-effective economical RF signal generator * Up to -112 dBc/Hz (typical) phase noise * Up to +20 dBm (typical) maximum output power * Higher level of amplitude accuracy, up to 0.5 dB (typical) * Superb signal stability Functions almost matching those of high-level RF signal generators * Flexible frequency and amplitude sweep functions * Complete AM/FM/ØM analog modulation functions * Standard LF output function * Powerful pulse modulation function * Open vector modulation function * System flatness calibration function * Simple and easy to operate Special design ensuring its reliability and durability * Use electronic attenuator to avoid wearing * Specially designed protection functions * Digital ALC circuit * Simple structure Smallest in size among the like products * Occupy the least workbench space * Occupy less rack space * Light weight; the handle offers comfortable grip Special Features * Highest frequency: 1.5 GHz / 3.6 GHz * Amplitude accuracy: < 0.5 dB (typical) * Output amplitude range: -110 dBm to +13 dBm * High signal purity, phase noise: < -105 dBc/Hz @ 20 kHz (typical) * Standard 2 ppm internal clock; 5 ppb high stable clock for option * Standard AM/FM/ΦM analog modulation * Optional pulse modulation; on/off ratio up to 70 dB * Pulse Train Generator (optional) * All modulationschemes support internal and external modulation modes * Standard 2U height design to save rack space. Rack mount kit is available * Standard USB/LAN remote control interfaces. SCPI command set for remote control * Wear-free electronic attenuator design DatasheetSKU: n/a€3,395.00 View Product -
Signal Generator
RIGOL DSG821
RF SIGNAL GENERATOR 9 kHz to 2.1 GHz
The DSG800(A) RF signal generator offers standard AM/FM/ØM analog modulation, as well as options for pulse modulation with a maximum frequency 1.5 GHz. Featuring a high signal purity with phase noise measuring <-105 dBc/Hz @ 20 kHz (typical) and a wide output range of -110 dBm to +13 dBm, the DSG800 RF signal generator has an optional pulse modulation with an on/off ratio of up to 70dB, with optional pulse train generator available. The DSG800(A) series also has an amplitude accuracy of < 0.5 dB (typical). Beside the analog output the devices include a USB-Host- and a USB-device and a LAN interface. The DSG800 series is a high-performance RF signal generator. It provides comprehensive modulation solutions such as: Pulse modulation (optional) with customizable pulse train (optional) and standard AM/FM/FM analog modulation. All modulation schemes support internal and external modulation sources. In addition, to meet the demands of production environments, the DSG800 is designed to be both, highly stable and reliable. The DSG800 series also features a clear user interface, small size and light weight. It is easy to operate and can output stable, precise and pure signals. It is an ideal tool for various fields such as communication, computers, instrumentation, R&D, education, production and maintenance. Highly cost-effective economical RF signal generator * Up to -112 dBc/Hz (typical) phase noise * Up to +20 dBm (typical) maximum output power * Higher level of amplitude accuracy, up to 0.5 dB (typical) * Superb signal stability Functions almost matching those of high-level RF signal generators * Flexible frequency and amplitude sweep functions * Complete AM/FM/ØM analog modulation functions * Standard LF output function * Powerful pulse modulation function * Open vector modulation function * System flatness calibration function * Simple and easy to operate Special design ensuring its reliability and durability * Use electronic attenuator to avoid wearing * Specially designed protection functions * Digital ALC circuit * Simple structure Smallest in size among the like products * Occupy the least workbench space * Occupy less rack space * Light weight; the handle offers comfortable grip Special Features * Highest frequency: 1.5 GHz / 3.6 GHz * Amplitude accuracy: < 0.5 dB (typical) * Output amplitude range: -110 dBm to +13 dBm * High signal purity, phase noise: < -105 dBc/Hz @ 20 kHz (typical) * Standard 2 ppm internal clock; 5 ppb high stable clock for option * Standard AM/FM/ΦM analog modulation * Optional pulse modulation; on/off ratio up to 70 dB * Pulse Train Generator (optional) * All modulationschemes support internal and external modulation modes * Standard 2U height design to save rack space. Rack mount kit is available * Standard USB/LAN remote control interfaces. SCPI command set for remote control * Wear-free electronic attenuator design DatasheetSKU: n/a€2,095.00 View Product -
TESEQ SCHAFFNER NSG 430
Electrostatic Discharge Simulator
Rise Time: 5ns ±30% at 2kV
Discharge voltage: 2 – 16.5kV
Polarity: positive / negative – non switchable
Discharge capacitor Co: 150pF ± 10%
Discharge resistor Ro: 150 ohms ± 5%
Mode of operation: single/continuous (20 Hz)
For testing per IEC 801-2 / 1984
DatasheetSKU: n/a -
Senza categoria
IFR FM/AM1200S Communications Service Monitor, 250 kHz -1 GHz
The IFR FM/AM-1200S is a bench tester multi-function, microprocessor controlled Communications Service Monitors designed to meet the requirements of most radio maintenance applications throughout the RF frequency range of 250 kHz to 1 GHz.
Functions from mobile, aircraft or marine is achievable straight from 11 to 28 volt DC power systems, using a furnished cigar lighter adaptor plug. AC power function is probable from 115/230 VAC 47 to 420 Hz power services.* FM and AM Signal Generator
* 2 µV Receiver for AM, FM, and SSB
* RF Frequency Error Meter with 1 Hz ResolutionSKU: n/a -
System DC Power Supply
HP-Agilent/Keysight 6634B
Output Ratings
Output voltage: 0 to 100 V
Output current: 0 to 1 AProgramming Accuracy at 25°C ±5°C
Voltage: 50 mV
+ Current 0.05% + 0.5 mARipple & Noise (20 Hz to 20 MHz)
Voltage Normal mode rms: 0.5 mV
Voltage Normal mode peak-to-peak: 3 mV
Fast mode rms/peak-to-peak: 2 mV/25 mV
Current rms: 2 mAThis product will be discontinued on June 1, 2017. The recommended substitute product is N6746B.
Keysight high performance DC power supplies offer speed and accuracy for test optimization. The single output, 80-100 W, GPIB 6631B-6634B provide fast, low-noise outputs; programmable active down-programmer sinks the full rated current; dual-range, precision low current measurement; as well as optional isolation and polarity reversal relays.
The Keysight 100W, GPIB, single output 6634B is a versatile medium-power solution for automated applications that reduces development time with a combination of benchtop and system features designed for demanding design and test requirements.
SKU: n/a -
Oscilloscope 2 channels
TEKTRONIX TDS1012B OSCILLOSCOPE 100 MHz, 2 CHANNEL
TDS1000B (mono) and TDS2000B (color) combine performance with ease-of-use at an affordable price. Devices range from 40MHz to 200 MHz bandwidth and up to 2GS/s maximum sample rate. Available in two or four channels, the TDS1000B and TDS2000B feature a USB port to remove data, to connect to a PC with included OpenChoice® and NI SignalExpress® PC software, and access to compatible printers. FFT and 11 automatic measurements are standard, as well as multiple language user interface and help features. Applications for Tektronix´s Digital Storage Oscilloscopes are design, debug, education, training, manufacturing test and QA, service, and repair.
Key performance specifications
– 40 MHz, 60 MHz, and 100 MHz bandwidths
– Sample rates up to 1 GS/s real time
– 2 channels
– Monochrome LCD display
– Advanced triggers including pulse width trigger and line-selectable video trigger
– FFT standard on all models
– 12 automatic measurements
– Multiple-language user interface and context-sensitive helpConnectivity
– Removable data storage using the front-panel USB port
– Seamless PC connectivity through the USB device port, with OpenChoice® and NI SignalExpress® PC software
– Direct print to all PictBridge®-compatible printers through the USB device portAffordable digital precision
With up to 100 MHz bandwidth and 1 GS/s maximum sample rate, no other digital storage oscilloscope offers as much bandwidth and sample rate for the price. The TDS1000B Series oscilloscopes provide accurate real-time acquisition up to their full bandwidth, the same record length at all time base settings, advanced triggers to isolate signals of interest, and 12 standard automatic measurements on all models. Their Fast Fourier Transform (FFT) and waveform add, subtract, and multiply math functions allow you to analyze, characterize, and troubleshoot circuits.Quick and easy waveform capture
The simple user interface with classic analog-style controls makes these instruments easy to use, reducing learning time and increasing efficiency. Innovative features such as the Autoset Menu, Probe Check Wizard, and Context-sensitive Help Menu optimize instrument setup and operation.Flexible data transfer
With USB host and device ports which enable removable data storage, seamless PC connectivity, and direct printing, no other digital storage oscilloscope offers as much flexibility and ease of data transfer for the price.
DatasheetSKU: n/a -
Logic Probe
RIGOL PLA2216 LOGIC PROBE
The PLA2216 is Logic Probe for MSO5000 Series Oscilloscopes. Includes cable, leads and grabber clips.
Being a high-performance active logic probe, PLA2216 connects the digital signals under test to the MSO5000 series digital oscilloscope to realize the logic analyzer function.
The 16 digital channels (D0-D15) of PLA2216 are divided into two channel groups (D0-D7 and D8-D15) each of which includes signal interfaces and ground interfaces. All the channels are marked with different numbers on the label of the probe input to identify different channels. PLA2216 provides 16 input signal leads and 16 ground leads to realize flexible connection of signals and reference ground.SKU: n/a€295.00 View Product -
Power Supply
METAF MCP M10-QR305 2x30V/5A 5V/1A DC Linear Adjustable Power Supply
The MCP M10-QR305 2x30V/5A 5V/1A DC Linear Adjustable Power Supply is a equipment with high stability, high reliability, low noise, its output voltage or current can be continuously adjusted, and its constant voltage and current can auto-conversion. This low cost and universal power supply can be used in many different areas, from test of R&D equipment to test of production lines.
Features:
– Output off function
– Triple independent DC outputs. Two adjustable and one fixed output
– Independent, series and parallel variety output
– Constant voltage and constant current
– Low ripple and noise
– Four LED displays with 3 digits, selectable for two sets output voltage and current display simultaneously
– 16 hours continuous output with full load
– Auto tracking outputIndependent output:
CH1: 0-30V/0-05A
CH2: 0-30V/0-05A
CH3: 5V/1ASerial output:
CH1+CH2: 0-60V/0-5AParallel output:
CH1+CH2: 0-30V/0-10ASpecification:
Line Regulation: CV 1X10^-4+3mV CC 2X10^-3+3mA CH3 5mV
Load Regulation: CV 1X10^-4+4mV CC 2X10^-3+3mA CH3 15mV
Ripple & Noise: CV 1mVrms CC 3mA rms CH3 2mV
Display Accuracy: ±(0.5%Rdg+2digits)
Input Voltage: 110~127VAC±10%, 220~240VAC±10%
Dimensions (L x W x D): 250x135x460mm
Weight: 8,2 kgSKU: n/a -
Network Analyzer
HP/Agilent-Keysight 8753D
The HP 8753D is a vector network analyzer and it offers even more flexibility and measurement capability than the HP 8752C in the following areas:
* Frequency range from 30 kHz to 3 GHz.
* Built-in S-parameter test set provides complete forward and reverse measurements, allowing you to completely characterize your component with a single connection.
* 50 and 75 ohm solutions.
* Superb accuracy. The most comprehensive calibration available guarantees accurate measurements. TRL**nRMt makes calibration in non-coaxial environments easier and more convenient.
* Mixer testing. Quickly and easily characterize frequency translating devices such as mixers.
* Add swept harmonic measurements. Characterize amplifter parameters – gain, 1 dB compression, match – and 2nd and 3rd harmonic distortion with the same test setup.
* Built-in 3.5 inch floppy disk drive provides convenient storage of instrument states and data.
* Parallel and serial ports provide interfaces to popular printers and plotters. The parallel port can also be used as a general U0 bus, with user-controllable TI'L inputs and outputs. Users can also connect a DIN keyboard to speed up entry of titles, labels, or file names, and for remote hnt panel operation.Two excellent choices, the HP 8752C and HP 8753D continue the tradition of affordable excellence in RF component measurements for the lab and production test areas. The HP 8752C and HP 8753D network analyzers bring superior performance and useful productivity features to simplify and speed your device, component, or network measurements in the 30 kHz to 6 GHz frequency range. A swept synthesized source, sensitive receiver, and crisp color display ensure rapid, accurate, and easy-to-read test results. Since the HP 8752C and HP 8753D are vector network analyzers, they not only provide magnitude and phase information, but also offer up to 1 10 dB dynamic range, make group delay and time domain measurements, and utilize vector accuracy enhancement to minimize measurement uncertainty.
DatasheetSKU: n/a -
Power Meter
HP/Agilent-Keysight E4419B
The E4419B power meter is designed for bench and automatic test equipment (ATE) use.
True dual-channel power meter – two simultaneous power readings
Fast measurement speed (up to 100 readings per second, over the GPIB, with E-series sensors)
Speed improvement of x2 using the 8480 series power sensor (compared to the 437B)
No range-switching delays with 8480 series sensors, and only one fast-range switching point with E-series sensors
Code compatibility with 438A power meter
GPIB and RS232 connector for remote control of all functionsSupplemental characteristics (shown in italics) are intended to provide additional information, useful in applying the instrument by giving typical (expected), but not warranted performance parameters. These characteristics are shown in italics or labeled as “typical”, “nominal” or “approximate”.
For information on measurement uncertainty calculations, refer to Application Note 64-1C, “Fundamentals of RF and Microwave Power Measurements”, literature number 5965-6380E.
Frequency range: 9 kHz to 110 GHz, sensor dependent
Power range: –70 dBm to +44 dBm (100 pW to 25 W), sensor dependent.
Power sensors: Compatible with all 8480 series and E-series sensors
Single sensor dynamic range: 90 dB maximum (E-series sensors), 50 dB maximum ( 8480 series sensors).
Display units: Absolute: Watts or dBm. Relative: Percent or dB.
Display resolution: Selectable resolution of 1.0, 0.1, 0.01, and 0.001 dB in Log mode, or 1 to 4 digits in linear mode.
Default resolution: 0.01 dB in log mode, 3 digits in linear mode.
DatasheetSKU: n/a -
Network Analyzer
HP/Agilent-Keysight 8753ES
Agilent 8753ES vector network analyzers perform complete characterization of RF components.
30 kHz to 3 GHz
Frequency and power sweepsSpecifications describe the instrument’s warranted performance after a half-hour warm-up and over the temperature range of 25° ± 5° C, unless otherwise stated. Specifications for frequencies above 3 GHz do not apply to instruments with Option 075 (75-ohm impedance). Supplemental characteristics are typical but nonwarranted performance parameters. These are denoted as “typical,” “nominal,” or “approximate.” The measurement uncertainty curves and measurement port characteristics given for Agilent Technologies 8753ES systems also apply to the 8753ES with Options 006 and 011 and the 85047A test set (50-ohm), or the 8753ES Option 011 with an 85046B test set (75-ohm).
System dynamic range is calculated as the difference between the receiver noise floor and the lesser of either the source maximum output or the receiver maximum input level. System dynamic range applies to transmission measurements only, since reflection measurements are limited by directivity. Noise floor is specified as the mean of the noise trace over frequency. Noise floor is measured with the test ports terminated in loads, full two-port error correction for the 8753ES and enhancedresponse error correction for the 8753ET (with 16 averages used during isolation), 10 Hz IF bandwidth (BW), maximum test port power, and no averaging during the measurement.
Measurement uncertainty curves utilize a Root Sum Square (RSS) model for the contribution of random errors such as noise, typical connector repeatabilities, and test set switching; this is combined with a worst-case model for the contributions of dynamic accuracy and residual systematic errors. Curves show the worst-case magnitude and phase uncertainty for reflection and transmission measurements, after a full two-port error correction for the 8753ES and enhanced-response error correction for the 8753ET (including isolation with an averaging factor of 16) using the specified cal kit, with 10 Hz IF bandwidth (BW) and no averaging.
Characteristics show the residual system uncertainties for uncorrected performance and after accuracy enhancement using full two-port error correction for the 8753ES and enhanced-response error correction for the 8753ET. These characteristics apply for an environmental temperature of 25° ± 5° C, with less than 1° C deviation from the calibration temperature. Agilent 8753ET Option 004 may degrade transmission source match as much as 2 dB, resulting in up to 0.05 dB additional uncertainty in transmission tracking. Corrected performance indicates residual error after calibration. It is determined by the quality of calibration standards, system repeatability, stability, and noise. Uncorrected performance indicates intrinsic errors without calibration correction applied. This is related to the ultimate stability of a calibration.
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 -
Frequency Counter
HP/Agilent-Keysight 53131A
The two-channel 53131A counter offers 10 digits per second of frequency/period resolution and a bandwidth of 225 MHz. Time interval resolution is specified at 500 ps. An optional third channel provides frequency measurements up to 3, 5, or 12.4 GHz. Standard measurements include frequency, period, ratio, time interval, pulse width, rise/fall time, phase angle, duty cycle, totalize, and peak voltage.
Two 225 MHz input channels, plus optional third channel up to 12.4 GHz
10 digits per second, 500 ps time interval resolution
GPIB Standard
option 010 > Optional High Stability Timebase with Oven and Electronic Calibration
option 030 > 100 MHz to 3 GHzThe 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 -
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
METAF HPS305D
Metaf HPS305D is a Single-channel direct current (0 – 5 A) and voltage (0 – 30 V) power supply unit with built-in LED display.
Features:
* Single-channel output.
* CC/CV auto switchable.
* 110V/220V switchable.
* Overload protection function.
* Overheat protection function.
* Short circuit protection function.
* Coarse/fine adjustment of voltage and current.
* Cooling with fan.
* 3/4 digital LED display for voltage and current.
DatasheetSKU: n/a€130.00 View Product
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Pulse Pattern Generator
TEKTRONIX PG 501
PULSE GENERATOR.
The PG501 provides simultaneous positive and negative 50 MHz output pulses with 5 ns rise and fall times and independently variable amplitudes from 0.5 V to 5 V into 50 Ω.
Front panel controls provide calibrated decade selection of pulse period from 20 ns to 20 ms, and duration from 10 ns to 10 ms. Uncalibrated pulse period from 20 ns to 0.2 s and duration from 10 ns to 0.1 s can be obtained with the variable control.
The PG501 has a gate input and a 10 ns pre-trigger output. -
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Current Probe Amplifiter
TEKTRONIX TCPA300
Current Probe Amplifier.
The TCPA300 from Tektronix is a current probe amplifier. This amplifier when used with TCP312A, TCP305A and TCP303 probes, provides a wide range of current measurement capability and spans the gap between low level milliamp measurements to very high current levels. These three probes provide current measurement capabilities of 30A, 50A and 150A DC continuous and for even higher current levels. Higher frequency performance is available with TCP312A providing greater than or equal to 100MHz bandwidth and maximum current of 30A DC. The TCPA300 is approved by UL3111-1 first edition, CAN/CSA C22.2 number 1010.1-92, EN61010-1:2001, EC Council Directive 89/336/EEC, FCC Part 15, Subpart B class A and AS/NZS 2064.1/2 standards.DC to 100MHz maximum bandwidth
Automatic control and onscreen scaling and units
AC/DC input coupling
Low insertion impedance reduces device under test loading
Split core construction allows easy circuit connection
Status indicators provide visual operating status and notification of potential error conditions
Low DC drift and noise allows improved low level current measurements
Datasheet -
Power Supply
SORENSEN DCS8-125
Programmable POWER SUPPLY 0-8 VOLTS 0-125 AMPS.
he DCS80-125 is a 1000 Watt DC Power Supply from Sorensen. Supplies DC voltage and current to test, design, and troubleshoot electric and electronic circuits.
This unit has a 8V and 125A.
The DCS Family of 1 kW, 1.2 kW and 3 kW programmable power supplies utilize switch-mode technology to achieve high power density in a low profile chassis. Utilizing unique packaging techniques, the DCS Family provides continuous full output power (1 kW, 1.2 kW or 3 kW) in any volt/amp combination within the rated output voltage and current limits. This family has 10-turn potentiometers to adjust voltage and current settings that are displayed simultaneously. LEDs indicate overtemperature, remote programming, shutdown and overvoltage protection, status and constant-voltage/current mode operation.
The DCS 3 kW Models have push button control of the output standby mode, OVP reset, remote/ local programming and preview status of voltage, current and OVP setpoints.
Datasheet -
Power Supply
SORENSEN DCS80-13
Programmable POWER SUPPLY 0-80 VOLTS 0-13 AMPS
The DCS80-13E is a 1000 Watt DC Power Supply from Sorensen. Supplies DC voltage and current to test, design, and troubleshoot electric and electronic circuits.
This unit has a 80V and 13A.
The DCS Family of 1 kW, 1.2 kW and 3 kW programmable power supplies utilize switch-mode technology to achieve high power density in a low profile chassis. Utilizing unique packaging techniques, the DCS Family provides continuous full output power (1 kW, 1.2 kW or 3 kW) in any volt/amp combination within the rated output voltage and current limits. This family has 10-turn potentiometers to adjust voltage and current settings that are displayed simultaneously. LEDs indicate overtemperature, remote programming, shutdown and overvoltage protection, status and constant-voltage/current mode operation.
The DCS 3 kW Models have push button control of the output standby mode, OVP reset, remote/ local programming and preview status of voltage, current and OVP setpoints.
Datasheet -
Oscilloscope 2 channels
RIGOL DS1202Z-E
The Rigol Rigol DS1202Z-E is a very high quality two channel digital storage oscilloscope. It features a real-time sample rate of up to 1 GSa/s and a bandwidth of 200 MHz.
The Rigol DS1202Z-E is equipped with well designed and easy to use control panels offering comprehensive ease-of-use functions for all measuring tasks. The menu navigation is intuitive and available in several languages.
This high performance standard not only ensures capturing real-time instantaneous signals, but also observes details of repeated signals.
The Rigol DS1202Z-E has a refresh rate of up to 30.000 wfms/s, enabling users to capture instantaneous signals, as well as abnormal signals more quicky. It also helps to enhance the waveform capturing ability and to expedite a circuit debug course. The quality of the Rigol oscilloscopes is comparable to Agilent and Tektronix oscilloscopes.
The particularly large TFT color displays are very easy to read. Thanks to an intelligent system for displaying or masking information, the largest possible area is always available for displaying signals.
The signal curves, the FFT display, and other functions can be shown simultaneously on the display.
The Rigol Rigol DS1202Z-E oscilloscopes can store up to 24 million measurement points. You can zoom into a selected part of the captured waveforms to get more details and scroll within the measurement points.
The high sampling rate (up to 1 GSa/s) of the Rigol Rigol DS1202Z-E oscilloscopes and the large memory makes it possible to record up to 30,000 waveforms per second.
The recorded waveforms can be conveniently recorded, displayed and analyzed.“Multi-Level Grading Intensity” display, extensive signal characteristics with a very large number of measurement values can also be displayed completely.
The Rigol Rigol DS1202Z-E oscilloscopes offer extensive trigger options for a professional use. The special triggers Windows, Nth Edge, Delay, Timeout, Runt, RS232/UART, I²C und SPI are available as standard accessories.
With the Rigol DS1202Z-E serial data packages of different serial bus systems can be analyzed, decoded, and displayed directly as byte values. Supported protocols are: RS232/UART, I²C, and SPI.
The Rigol DS1202Z-E comes with a modern and advanced math system which lets it solve complicated signal calculations quite simply with predefined formulas.
Pass/fail testing can be used for troubleshooting in various environments like communication networks.
The %ARTICLE_NAME% measures up to five parameters like rise- and fall-time, amplitude, pulse width, duty cycle and many more simultaneously and shows statistics for every parameter (max- , min- and average values).
Datasheet -
Spectrum Analyzer, Spectrum Analyzer - Analizzatore di Spettro
RIGOL RSA3030E-TG
Real-Time Spectrum Analyzer from 9 kHz to 4.5 GHz with Tracking Generator.
The Rigol RSA3000E series is a compact and light weight spectrum analyzer series with premium performance standard spectrum analysis capabilities combined with a Real-Time Spectrum Analyzer which makes it possible to never miss any signal that is longer than 7.45 µs in duration. Engineers integrating WiFi, Bluetooth and other modern RF technologies are confronted with complex challenges like frequency hopping signals, channel conflict, and spectrum interference.
Real-Time Spectrum Analyzers bring the dimension of time to RF Analysis making it easier to monitor and characterize these complex RF systems.
The RSA3000E combines industry leading Realtime performance (7.45µs 100% POI), rich data displays, and advanced triggering options allowing the user to quickly capture, identify and analyze these complex events.
Rigol's new RSA3000E series spectrum analyzers redefines the product category of general purpose spectrum analyzer by adding Real-Time spectrum trigger and analysis capabilities and sets a new level performance and price.
The RSA3000E family features a 10.1” touchscreen display, compact design and easy-to-use interface and operations, making it ideal for benchtop or field apps in RF and wireless testing and production such as IoT, RFID, analog and digital modulated signals.
Embedded-System-Designer can cross trigger and analyze bus signals like IC2, SPI with RF Signals.
The Real-Time-Bandwidth of 10 MHz and the Frequency-Mask-Trigger let you visualize, isolate and capture signals to analyze their behavior over amplitude, frequency and time.
The new spectrum analyzer offers the ability to trigger and capture signals by 100% if longer than 7.45 µs in duration.
The RSA3000E have RBW settable down to 10 Hz, a DANL (displayed average noise level) down to -161 dBm (typical) and a 1ms Full Span Sweep in its general-purpose spectrum analyzer mode.
EMI filter and detector such as 9KHz, 120kHz and Quasi-Peak as example are standard.
Extendibility: Pre-Amplifier, High Stability Clock, Advanced Measurement Kit, EMI Pre-compliance Test Software can be added optional.Features
• 9 kHz to 3 or 4.5 GHz Frequency Range
• 10.1” Capacitive touchscreen display
• Displayed Average Noise Level as low as -161 dBm with opt. PreAmplifier
• Real-Time Analysis Bandwidth of 10 MHz standard (40 MHz option)
• Frequency-Mask-Trigger, IF-Power-Level-Trigger and external Trigger
• 7 Real-Time visualization modes
• 100 % POI as low as 7. 45 µs
• 10 Hz Minimum Resolution Bandwidth (RBW) (1 Hz option)
• 1 ms full span sweep speed
• EMI RBW and Detector standard (200 Hz, 9 kHz, 120 kHz, 1 MHz)
• Tracking Generator and VSWR measurements available
Datasheet -
Spectrum Analyzer, Spectrum Analyzer - Analizzatore di Spettro
RIGOL RSA3030E
Real-Time Spectrum Analyzer from 9 kHz to 4.5 GHz
The Rigol RSA3000E series is a compact and light weight spectrum analyzer series with premium performance standard spectrum analysis capabilities combined with a Real-Time Spectrum Analyzer which makes it possible to never miss any signal that is longer than 7.45 µs in duration. Engineers integrating WiFi, Bluetooth and other modern RF technologies are confronted with complex challenges like frequency hopping signals, channel conflict, and spectrum interference.
Real-Time Spectrum Analyzers bring the dimension of time to RF Analysis making it easier to monitor and characterize these complex RF systems.
The RSA3000E combines industry leading Realtime performance (7.45µs 100% POI), rich data displays, and advanced triggering options allowing the user to quickly capture, identify and analyze these complex events.
Rigol's new RSA3000E series spectrum analyzers redefines the product category of general purpose spectrum analyzer by adding Real-Time spectrum trigger and analysis capabilities and sets a new level performance and price.
The RSA3000E family features a 10.1” touchscreen display, compact design and easy-to-use interface and operations, making it ideal for benchtop or field apps in RF and wireless testing and production such as IoT, RFID, analog and digital modulated signals.
Embedded-System-Designer can cross trigger and analyze bus signals like IC2, SPI with RF Signals.
The Real-Time-Bandwidth of 10 MHz and the Frequency-Mask-Trigger let you visualize, isolate and capture signals to analyze their behavior over amplitude, frequency and time.
The new spectrum analyzer offers the ability to trigger and capture signals by 100% if longer than 7.45 µs in duration.
The RSA3000E have RBW settable down to 10 Hz, a DANL (displayed average noise level) down to -161 dBm (typical) and a 1ms Full Span Sweep in its general-purpose spectrum analyzer mode.
EMI filter and detector such as 9KHz, 120kHz and Quasi-Peak as example are standard.
Extendibility: Pre-Amplifier, High Stability Clock, Advanced Measurement Kit, EMI Pre-compliance Test Software can be added optional.Features
• 9 kHz to 3 or 4.5 GHz Frequency Range
• 10.1” Capacitive touchscreen display
• Displayed Average Noise Level as low as -161 dBm with opt. PreAmplifier
• Real-Time Analysis Bandwidth of 10 MHz standard (40 MHz option)
• Frequency-Mask-Trigger, IF-Power-Level-Trigger and external Trigger
• 7 Real-Time visualization modes
• 100 % POI as low as 7. 45 µs
• 10 Hz Minimum Resolution Bandwidth (RBW) (1 Hz option)
• 1 ms full span sweep speed
• EMI RBW and Detector standard (200 Hz, 9 kHz, 120 kHz, 1 MHz)
• Tracking Generator and VSWR measurements available
Datasheet -
Spectrum Analyzer, Spectrum Analyzer - Analizzatore di Spettro
RIGOL RSA3015E-TG
Real-Time Spectrum Analyzer from 9 kHz to 1.5 GHz with Tracking Generator.
The Rigol RSA3000E series is a compact and light weight spectrum analyzer series with premium performance standard spectrum analysis capabilities combined with a Real-Time Spectrum Analyzer which makes it possible to never miss any signal that is longer than 7.45 µs in duration. Engineers integrating WiFi, Bluetooth and other modern RF technologies are confronted with complex challenges like frequency hopping signals, channel conflict, and spectrum interference.
Real-Time Spectrum Analyzers bring the dimension of time to RF Analysis making it easier to monitor and characterize these complex RF systems.
The RSA3000E combines industry leading Realtime performance (7.45µs 100% POI), rich data displays, and advanced triggering options allowing the user to quickly capture, identify and analyze these complex events.
Rigol's new RSA3000E series spectrum analyzers redefines the product category of general purpose spectrum analyzer by adding Real-Time spectrum trigger and analysis capabilities and sets a new level performance and price.
The RSA3000E family features a 10.1” touchscreen display, compact design and easy-to-use interface and operations, making it ideal for benchtop or field apps in RF and wireless testing and production such as IoT, RFID, analog and digital modulated signals.
Embedded-System-Designer can cross trigger and analyze bus signals like IC2, SPI with RF Signals.
The Real-Time-Bandwidth of 10 MHz and the Frequency-Mask-Trigger let you visualize, isolate and capture signals to analyze their behavior over amplitude, frequency and time.
The new spectrum analyzer offers the ability to trigger and capture signals by 100% if longer than 7.45 µs in duration.
The RSA3000E have RBW settable down to 10 Hz, a DANL (displayed average noise level) down to -161 dBm (typical) and a 1ms Full Span Sweep in its general-purpose spectrum analyzer mode.
EMI filter and detector such as 9KHz, 120kHz and Quasi-Peak as example are standard.
Extendibility: Pre-Amplifier, High Stability Clock, Advanced Measurement Kit, EMI Pre-compliance Test Software can be added optional.Features
• 9 kHz to 3 or 4.5 GHz Frequency Range
• 10.1” Capacitive touchscreen display
• Displayed Average Noise Level as low as -161 dBm with opt. PreAmplifier
• Real-Time Analysis Bandwidth of 10 MHz standard (40 MHz option)
• Frequency-Mask-Trigger, IF-Power-Level-Trigger and external Trigger
• 7 Real-Time visualization modes
• 100 % POI as low as 7. 45 µs
• 10 Hz Minimum Resolution Bandwidth (RBW) (1 Hz option)
• 1 ms full span sweep speed
• EMI RBW and Detector standard (200 Hz, 9 kHz, 120 kHz, 1 MHz)
• Tracking Generator and VSWR measurements available
Datasheet -
Spectrum Analyzer, Spectrum Analyzer - Analizzatore di Spettro
RIGOL RSA3015E
Spectrum Analyzer from 9 kHz to 1.5 GHz
The Rigol RSA3000E series is a compact and light weight spectrum analyzer series with premium performance standard spectrum analysis capabilities combined with a Real-Time Spectrum Analyzer which makes it possible to never miss any signal that is longer than 7.45 µs in duration. Engineers integrating WiFi, Bluetooth and other modern RF technologies are confronted with complex challenges like frequency hopping signals, channel conflict, and spectrum interference.
Real-Time Spectrum Analyzers bring the dimension of time to RF Analysis making it easier to monitor and characterize these complex RF systems.
The RSA3000E combines industry leading Realtime performance (7.45µs 100% POI), rich data displays, and advanced triggering options allowing the user to quickly capture, identify and analyze these complex events.
Rigol's new RSA3000E series spectrum analyzers redefines the product category of general purpose spectrum analyzer by adding Real-Time spectrum trigger and analysis capabilities and sets a new level performance and price.
The RSA3000E family features a 10.1” touchscreen display, compact design and easy-to-use interface and operations, making it ideal for benchtop or field apps in RF and wireless testing and production such as IoT, RFID, analog and digital modulated signals.
Embedded-System-Designer can cross trigger and analyze bus signals like IC2, SPI with RF Signals.
The Real-Time-Bandwidth of 10 MHz and the Frequency-Mask-Trigger let you visualize, isolate and capture signals to analyze their behavior over amplitude, frequency and time.
The new spectrum analyzer offers the ability to trigger and capture signals by 100% if longer than 7.45 µs in duration.
The RSA3000E have RBW settable down to 10 Hz, a DANL (displayed average noise level) down to -161 dBm (typical) and a 1ms Full Span Sweep in its general-purpose spectrum analyzer mode.
EMI filter and detector such as 9KHz, 120kHz and Quasi-Peak as example are standard.
Extendibility: Pre-Amplifier, High Stability Clock, Advanced Measurement Kit, EMI Pre-compliance Test Software can be added optional.Features
• 9 kHz to 3 or 4.5 GHz Frequency Range
• 10.1” Capacitive touchscreen display
• Displayed Average Noise Level as low as -161 dBm with opt. PreAmplifier
• Real-Time Analysis Bandwidth of 10 MHz standard (40 MHz option)
• Frequency-Mask-Trigger, IF-Power-Level-Trigger and external Trigger
• 7 Real-Time visualization modes
• 100 % POI as low as 7. 45 µs
• 10 Hz Minimum Resolution Bandwidth (RBW) (1 Hz option)
• 1 ms full span sweep speed
• EMI RBW and Detector standard (200 Hz, 9 kHz, 120 kHz, 1 MHz)
• Tracking Generator and VSWR measurements available
Datasheet -
Signal Generator
RIGOL DSG836A
RF SIGNAL GENERATOR 9 kHz to 3.6 GHz with I/Q Modulation
The DSG800(A) RF signal generator offers standard AM/FM/ØM analog modulation, as well as options for pulse modulation with a maximum frequency 1.5 GHz. Featuring a high signal purity with phase noise measuring <-105 dBc/Hz @ 20 kHz (typical) and a wide output range of -110 dBm to +13 dBm, the DSG800 RF signal generator has an optional pulse modulation with an on/off ratio of up to 70dB, with optional pulse train generator available. The DSG800(A) series also has an amplitude accuracy of < 0.5 dB (typical). Beside the analog output the devices include a USB-Host- and a USB-device and a LAN interface. The DSG800 series is a high-performance RF signal generator. It provides comprehensive modulation solutions such as: Pulse modulation (optional) with customizable pulse train (optional) and standard AM/FM/FM analog modulation. All modulation schemes support internal and external modulation sources. In addition, to meet the demands of production environments, the DSG800 is designed to be both, highly stable and reliable. The DSG800 series also features a clear user interface, small size and light weight. It is easy to operate and can output stable, precise and pure signals. It is an ideal tool for various fields such as communication, computers, instrumentation, R&D, education, production and maintenance. Highly cost-effective economical RF signal generator * Up to -112 dBc/Hz (typical) phase noise * Up to +20 dBm (typical) maximum output power * Higher level of amplitude accuracy, up to 0.5 dB (typical) * Superb signal stability Functions almost matching those of high-level RF signal generators * Flexible frequency and amplitude sweep functions * Complete AM/FM/ØM analog modulation functions * Standard LF output function * Powerful pulse modulation function * Open vector modulation function * System flatness calibration function * Simple and easy to operate Special design ensuring its reliability and durability * Use electronic attenuator to avoid wearing * Specially designed protection functions * Digital ALC circuit * Simple structure Smallest in size among the like products * Occupy the least workbench space * Occupy less rack space * Light weight; the handle offers comfortable grip Special Features * Highest frequency: 1.5 GHz / 3.6 GHz * Amplitude accuracy: < 0.5 dB (typical) * Output amplitude range: -110 dBm to +13 dBm * High signal purity, phase noise: < -105 dBc/Hz @ 20 kHz (typical) * Standard 2 ppm internal clock; 5 ppb high stable clock for option * Standard AM/FM/ΦM analog modulation * Optional pulse modulation; on/off ratio up to 70 dB * Pulse Train Generator (optional) * All modulationschemes support internal and external modulation modes * Standard 2U height design to save rack space. Rack mount kit is available * Standard USB/LAN remote control interfaces. SCPI command set for remote control * Wear-free electronic attenuator design Datasheet -
Signal Generator
RIGOL DSG836
RF SIGNAL GENERATOR 9 kHz to 3.6 GHz
The DSG800(A) RF signal generator offers standard AM/FM/ØM analog modulation, as well as options for pulse modulation with a maximum frequency 1.5 GHz. Featuring a high signal purity with phase noise measuring <-105 dBc/Hz @ 20 kHz (typical) and a wide output range of -110 dBm to +13 dBm, the DSG800 RF signal generator has an optional pulse modulation with an on/off ratio of up to 70dB, with optional pulse train generator available. The DSG800(A) series also has an amplitude accuracy of < 0.5 dB (typical). Beside the analog output the devices include a USB-Host- and a USB-device and a LAN interface. The DSG800 series is a high-performance RF signal generator. It provides comprehensive modulation solutions such as: Pulse modulation (optional) with customizable pulse train (optional) and standard AM/FM/FM analog modulation. All modulation schemes support internal and external modulation sources. In addition, to meet the demands of production environments, the DSG800 is designed to be both, highly stable and reliable. The DSG800 series also features a clear user interface, small size and light weight. It is easy to operate and can output stable, precise and pure signals. It is an ideal tool for various fields such as communication, computers, instrumentation, R&D, education, production and maintenance. Highly cost-effective economical RF signal generator * Up to -112 dBc/Hz (typical) phase noise * Up to +20 dBm (typical) maximum output power * Higher level of amplitude accuracy, up to 0.5 dB (typical) * Superb signal stability Functions almost matching those of high-level RF signal generators * Flexible frequency and amplitude sweep functions * Complete AM/FM/ØM analog modulation functions * Standard LF output function * Powerful pulse modulation function * Open vector modulation function * System flatness calibration function * Simple and easy to operate Special design ensuring its reliability and durability * Use electronic attenuator to avoid wearing * Specially designed protection functions * Digital ALC circuit * Simple structure Smallest in size among the like products * Occupy the least workbench space * Occupy less rack space * Light weight; the handle offers comfortable grip Special Features * Highest frequency: 1.5 GHz / 3.6 GHz * Amplitude accuracy: < 0.5 dB (typical) * Output amplitude range: -110 dBm to +13 dBm * High signal purity, phase noise: < -105 dBc/Hz @ 20 kHz (typical) * Standard 2 ppm internal clock; 5 ppb high stable clock for option * Standard AM/FM/ΦM analog modulation * Optional pulse modulation; on/off ratio up to 70 dB * Pulse Train Generator (optional) * All modulationschemes support internal and external modulation modes * Standard 2U height design to save rack space. Rack mount kit is available * Standard USB/LAN remote control interfaces. SCPI command set for remote control * Wear-free electronic attenuator design Datasheet -
Signal Generator
RIGOL DSG821A
RF SIGNAL GENERATOR 9 kHz to 2.1 GHz with I/Q Modulation
The DSG800(A) RF signal generator offers standard AM/FM/ØM analog modulation, as well as options for pulse modulation with a maximum frequency 1.5 GHz. Featuring a high signal purity with phase noise measuring <-105 dBc/Hz @ 20 kHz (typical) and a wide output range of -110 dBm to +13 dBm, the DSG800 RF signal generator has an optional pulse modulation with an on/off ratio of up to 70dB, with optional pulse train generator available. The DSG800(A) series also has an amplitude accuracy of < 0.5 dB (typical). Beside the analog output the devices include a USB-Host- and a USB-device and a LAN interface. The DSG800 series is a high-performance RF signal generator. It provides comprehensive modulation solutions such as: Pulse modulation (optional) with customizable pulse train (optional) and standard AM/FM/FM analog modulation. All modulation schemes support internal and external modulation sources. In addition, to meet the demands of production environments, the DSG800 is designed to be both, highly stable and reliable. The DSG800 series also features a clear user interface, small size and light weight. It is easy to operate and can output stable, precise and pure signals. It is an ideal tool for various fields such as communication, computers, instrumentation, R&D, education, production and maintenance. Highly cost-effective economical RF signal generator * Up to -112 dBc/Hz (typical) phase noise * Up to +20 dBm (typical) maximum output power * Higher level of amplitude accuracy, up to 0.5 dB (typical) * Superb signal stability Functions almost matching those of high-level RF signal generators * Flexible frequency and amplitude sweep functions * Complete AM/FM/ØM analog modulation functions * Standard LF output function * Powerful pulse modulation function * Open vector modulation function * System flatness calibration function * Simple and easy to operate Special design ensuring its reliability and durability * Use electronic attenuator to avoid wearing * Specially designed protection functions * Digital ALC circuit * Simple structure Smallest in size among the like products * Occupy the least workbench space * Occupy less rack space * Light weight; the handle offers comfortable grip Special Features * Highest frequency: 1.5 GHz / 3.6 GHz * Amplitude accuracy: < 0.5 dB (typical) * Output amplitude range: -110 dBm to +13 dBm * High signal purity, phase noise: < -105 dBc/Hz @ 20 kHz (typical) * Standard 2 ppm internal clock; 5 ppb high stable clock for option * Standard AM/FM/ΦM analog modulation * Optional pulse modulation; on/off ratio up to 70 dB * Pulse Train Generator (optional) * All modulationschemes support internal and external modulation modes * Standard 2U height design to save rack space. Rack mount kit is available * Standard USB/LAN remote control interfaces. SCPI command set for remote control * Wear-free electronic attenuator design Datasheet -
Signal Generator
RIGOL DSG821
RF SIGNAL GENERATOR 9 kHz to 2.1 GHz
The DSG800(A) RF signal generator offers standard AM/FM/ØM analog modulation, as well as options for pulse modulation with a maximum frequency 1.5 GHz. Featuring a high signal purity with phase noise measuring <-105 dBc/Hz @ 20 kHz (typical) and a wide output range of -110 dBm to +13 dBm, the DSG800 RF signal generator has an optional pulse modulation with an on/off ratio of up to 70dB, with optional pulse train generator available. The DSG800(A) series also has an amplitude accuracy of < 0.5 dB (typical). Beside the analog output the devices include a USB-Host- and a USB-device and a LAN interface. The DSG800 series is a high-performance RF signal generator. It provides comprehensive modulation solutions such as: Pulse modulation (optional) with customizable pulse train (optional) and standard AM/FM/FM analog modulation. All modulation schemes support internal and external modulation sources. In addition, to meet the demands of production environments, the DSG800 is designed to be both, highly stable and reliable. The DSG800 series also features a clear user interface, small size and light weight. It is easy to operate and can output stable, precise and pure signals. It is an ideal tool for various fields such as communication, computers, instrumentation, R&D, education, production and maintenance. Highly cost-effective economical RF signal generator * Up to -112 dBc/Hz (typical) phase noise * Up to +20 dBm (typical) maximum output power * Higher level of amplitude accuracy, up to 0.5 dB (typical) * Superb signal stability Functions almost matching those of high-level RF signal generators * Flexible frequency and amplitude sweep functions * Complete AM/FM/ØM analog modulation functions * Standard LF output function * Powerful pulse modulation function * Open vector modulation function * System flatness calibration function * Simple and easy to operate Special design ensuring its reliability and durability * Use electronic attenuator to avoid wearing * Specially designed protection functions * Digital ALC circuit * Simple structure Smallest in size among the like products * Occupy the least workbench space * Occupy less rack space * Light weight; the handle offers comfortable grip Special Features * Highest frequency: 1.5 GHz / 3.6 GHz * Amplitude accuracy: < 0.5 dB (typical) * Output amplitude range: -110 dBm to +13 dBm * High signal purity, phase noise: < -105 dBc/Hz @ 20 kHz (typical) * Standard 2 ppm internal clock; 5 ppb high stable clock for option * Standard AM/FM/ΦM analog modulation * Optional pulse modulation; on/off ratio up to 70 dB * Pulse Train Generator (optional) * All modulationschemes support internal and external modulation modes * Standard 2U height design to save rack space. Rack mount kit is available * Standard USB/LAN remote control interfaces. SCPI command set for remote control * Wear-free electronic attenuator design Datasheet -
TESEQ SCHAFFNER NSG 430
Electrostatic Discharge Simulator
Rise Time: 5ns ±30% at 2kV
Discharge voltage: 2 – 16.5kV
Polarity: positive / negative – non switchable
Discharge capacitor Co: 150pF ± 10%
Discharge resistor Ro: 150 ohms ± 5%
Mode of operation: single/continuous (20 Hz)
For testing per IEC 801-2 / 1984
Datasheet -
Senza categoria
IFR FM/AM1200S Communications Service Monitor, 250 kHz -1 GHz
The IFR FM/AM-1200S is a bench tester multi-function, microprocessor controlled Communications Service Monitors designed to meet the requirements of most radio maintenance applications throughout the RF frequency range of 250 kHz to 1 GHz.
Functions from mobile, aircraft or marine is achievable straight from 11 to 28 volt DC power systems, using a furnished cigar lighter adaptor plug. AC power function is probable from 115/230 VAC 47 to 420 Hz power services.* FM and AM Signal Generator
* 2 µV Receiver for AM, FM, and SSB
* RF Frequency Error Meter with 1 Hz Resolution -
System DC Power Supply
HP-Agilent/Keysight 6634B
Output Ratings
Output voltage: 0 to 100 V
Output current: 0 to 1 AProgramming Accuracy at 25°C ±5°C
Voltage: 50 mV
+ Current 0.05% + 0.5 mARipple & Noise (20 Hz to 20 MHz)
Voltage Normal mode rms: 0.5 mV
Voltage Normal mode peak-to-peak: 3 mV
Fast mode rms/peak-to-peak: 2 mV/25 mV
Current rms: 2 mAThis product will be discontinued on June 1, 2017. The recommended substitute product is N6746B.
Keysight high performance DC power supplies offer speed and accuracy for test optimization. The single output, 80-100 W, GPIB 6631B-6634B provide fast, low-noise outputs; programmable active down-programmer sinks the full rated current; dual-range, precision low current measurement; as well as optional isolation and polarity reversal relays.
The Keysight 100W, GPIB, single output 6634B is a versatile medium-power solution for automated applications that reduces development time with a combination of benchtop and system features designed for demanding design and test requirements.
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Oscilloscope 2 channels
TEKTRONIX TDS1012B OSCILLOSCOPE 100 MHz, 2 CHANNEL
TDS1000B (mono) and TDS2000B (color) combine performance with ease-of-use at an affordable price. Devices range from 40MHz to 200 MHz bandwidth and up to 2GS/s maximum sample rate. Available in two or four channels, the TDS1000B and TDS2000B feature a USB port to remove data, to connect to a PC with included OpenChoice® and NI SignalExpress® PC software, and access to compatible printers. FFT and 11 automatic measurements are standard, as well as multiple language user interface and help features. Applications for Tektronix´s Digital Storage Oscilloscopes are design, debug, education, training, manufacturing test and QA, service, and repair.
Key performance specifications
– 40 MHz, 60 MHz, and 100 MHz bandwidths
– Sample rates up to 1 GS/s real time
– 2 channels
– Monochrome LCD display
– Advanced triggers including pulse width trigger and line-selectable video trigger
– FFT standard on all models
– 12 automatic measurements
– Multiple-language user interface and context-sensitive helpConnectivity
– Removable data storage using the front-panel USB port
– Seamless PC connectivity through the USB device port, with OpenChoice® and NI SignalExpress® PC software
– Direct print to all PictBridge®-compatible printers through the USB device portAffordable digital precision
With up to 100 MHz bandwidth and 1 GS/s maximum sample rate, no other digital storage oscilloscope offers as much bandwidth and sample rate for the price. The TDS1000B Series oscilloscopes provide accurate real-time acquisition up to their full bandwidth, the same record length at all time base settings, advanced triggers to isolate signals of interest, and 12 standard automatic measurements on all models. Their Fast Fourier Transform (FFT) and waveform add, subtract, and multiply math functions allow you to analyze, characterize, and troubleshoot circuits.Quick and easy waveform capture
The simple user interface with classic analog-style controls makes these instruments easy to use, reducing learning time and increasing efficiency. Innovative features such as the Autoset Menu, Probe Check Wizard, and Context-sensitive Help Menu optimize instrument setup and operation.Flexible data transfer
With USB host and device ports which enable removable data storage, seamless PC connectivity, and direct printing, no other digital storage oscilloscope offers as much flexibility and ease of data transfer for the price.
Datasheet -
Logic Probe
RIGOL PLA2216 LOGIC PROBE
The PLA2216 is Logic Probe for MSO5000 Series Oscilloscopes. Includes cable, leads and grabber clips.
Being a high-performance active logic probe, PLA2216 connects the digital signals under test to the MSO5000 series digital oscilloscope to realize the logic analyzer function.
The 16 digital channels (D0-D15) of PLA2216 are divided into two channel groups (D0-D7 and D8-D15) each of which includes signal interfaces and ground interfaces. All the channels are marked with different numbers on the label of the probe input to identify different channels. PLA2216 provides 16 input signal leads and 16 ground leads to realize flexible connection of signals and reference ground. -
Power Supply
METAF MCP M10-QR305 2x30V/5A 5V/1A DC Linear Adjustable Power Supply
The MCP M10-QR305 2x30V/5A 5V/1A DC Linear Adjustable Power Supply is a equipment with high stability, high reliability, low noise, its output voltage or current can be continuously adjusted, and its constant voltage and current can auto-conversion. This low cost and universal power supply can be used in many different areas, from test of R&D equipment to test of production lines.
Features:
– Output off function
– Triple independent DC outputs. Two adjustable and one fixed output
– Independent, series and parallel variety output
– Constant voltage and constant current
– Low ripple and noise
– Four LED displays with 3 digits, selectable for two sets output voltage and current display simultaneously
– 16 hours continuous output with full load
– Auto tracking outputIndependent output:
CH1: 0-30V/0-05A
CH2: 0-30V/0-05A
CH3: 5V/1ASerial output:
CH1+CH2: 0-60V/0-5AParallel output:
CH1+CH2: 0-30V/0-10ASpecification:
Line Regulation: CV 1X10^-4+3mV CC 2X10^-3+3mA CH3 5mV
Load Regulation: CV 1X10^-4+4mV CC 2X10^-3+3mA CH3 15mV
Ripple & Noise: CV 1mVrms CC 3mA rms CH3 2mV
Display Accuracy: ±(0.5%Rdg+2digits)
Input Voltage: 110~127VAC±10%, 220~240VAC±10%
Dimensions (L x W x D): 250x135x460mm
Weight: 8,2 kg -
Network Analyzer
HP/Agilent-Keysight 8753D
The HP 8753D is a vector network analyzer and it offers even more flexibility and measurement capability than the HP 8752C in the following areas:
* Frequency range from 30 kHz to 3 GHz.
* Built-in S-parameter test set provides complete forward and reverse measurements, allowing you to completely characterize your component with a single connection.
* 50 and 75 ohm solutions.
* Superb accuracy. The most comprehensive calibration available guarantees accurate measurements. TRL**nRMt makes calibration in non-coaxial environments easier and more convenient.
* Mixer testing. Quickly and easily characterize frequency translating devices such as mixers.
* Add swept harmonic measurements. Characterize amplifter parameters – gain, 1 dB compression, match – and 2nd and 3rd harmonic distortion with the same test setup.
* Built-in 3.5 inch floppy disk drive provides convenient storage of instrument states and data.
* Parallel and serial ports provide interfaces to popular printers and plotters. The parallel port can also be used as a general U0 bus, with user-controllable TI'L inputs and outputs. Users can also connect a DIN keyboard to speed up entry of titles, labels, or file names, and for remote hnt panel operation.Two excellent choices, the HP 8752C and HP 8753D continue the tradition of affordable excellence in RF component measurements for the lab and production test areas. The HP 8752C and HP 8753D network analyzers bring superior performance and useful productivity features to simplify and speed your device, component, or network measurements in the 30 kHz to 6 GHz frequency range. A swept synthesized source, sensitive receiver, and crisp color display ensure rapid, accurate, and easy-to-read test results. Since the HP 8752C and HP 8753D are vector network analyzers, they not only provide magnitude and phase information, but also offer up to 1 10 dB dynamic range, make group delay and time domain measurements, and utilize vector accuracy enhancement to minimize measurement uncertainty.
Datasheet -
Power Meter
HP/Agilent-Keysight E4419B
The E4419B power meter is designed for bench and automatic test equipment (ATE) use.
True dual-channel power meter – two simultaneous power readings
Fast measurement speed (up to 100 readings per second, over the GPIB, with E-series sensors)
Speed improvement of x2 using the 8480 series power sensor (compared to the 437B)
No range-switching delays with 8480 series sensors, and only one fast-range switching point with E-series sensors
Code compatibility with 438A power meter
GPIB and RS232 connector for remote control of all functionsSupplemental characteristics (shown in italics) are intended to provide additional information, useful in applying the instrument by giving typical (expected), but not warranted performance parameters. These characteristics are shown in italics or labeled as “typical”, “nominal” or “approximate”.
For information on measurement uncertainty calculations, refer to Application Note 64-1C, “Fundamentals of RF and Microwave Power Measurements”, literature number 5965-6380E.
Frequency range: 9 kHz to 110 GHz, sensor dependent
Power range: –70 dBm to +44 dBm (100 pW to 25 W), sensor dependent.
Power sensors: Compatible with all 8480 series and E-series sensors
Single sensor dynamic range: 90 dB maximum (E-series sensors), 50 dB maximum ( 8480 series sensors).
Display units: Absolute: Watts or dBm. Relative: Percent or dB.
Display resolution: Selectable resolution of 1.0, 0.1, 0.01, and 0.001 dB in Log mode, or 1 to 4 digits in linear mode.
Default resolution: 0.01 dB in log mode, 3 digits in linear mode.
Datasheet -
Network Analyzer
HP/Agilent-Keysight 8753ES
Agilent 8753ES vector network analyzers perform complete characterization of RF components.
30 kHz to 3 GHz
Frequency and power sweepsSpecifications describe the instrument’s warranted performance after a half-hour warm-up and over the temperature range of 25° ± 5° C, unless otherwise stated. Specifications for frequencies above 3 GHz do not apply to instruments with Option 075 (75-ohm impedance). Supplemental characteristics are typical but nonwarranted performance parameters. These are denoted as “typical,” “nominal,” or “approximate.” The measurement uncertainty curves and measurement port characteristics given for Agilent Technologies 8753ES systems also apply to the 8753ES with Options 006 and 011 and the 85047A test set (50-ohm), or the 8753ES Option 011 with an 85046B test set (75-ohm).
System dynamic range is calculated as the difference between the receiver noise floor and the lesser of either the source maximum output or the receiver maximum input level. System dynamic range applies to transmission measurements only, since reflection measurements are limited by directivity. Noise floor is specified as the mean of the noise trace over frequency. Noise floor is measured with the test ports terminated in loads, full two-port error correction for the 8753ES and enhancedresponse error correction for the 8753ET (with 16 averages used during isolation), 10 Hz IF bandwidth (BW), maximum test port power, and no averaging during the measurement.
Measurement uncertainty curves utilize a Root Sum Square (RSS) model for the contribution of random errors such as noise, typical connector repeatabilities, and test set switching; this is combined with a worst-case model for the contributions of dynamic accuracy and residual systematic errors. Curves show the worst-case magnitude and phase uncertainty for reflection and transmission measurements, after a full two-port error correction for the 8753ES and enhanced-response error correction for the 8753ET (including isolation with an averaging factor of 16) using the specified cal kit, with 10 Hz IF bandwidth (BW) and no averaging.
Characteristics show the residual system uncertainties for uncorrected performance and after accuracy enhancement using full two-port error correction for the 8753ES and enhanced-response error correction for the 8753ET. These characteristics apply for an environmental temperature of 25° ± 5° C, with less than 1° C deviation from the calibration temperature. Agilent 8753ET Option 004 may degrade transmission source match as much as 2 dB, resulting in up to 0.05 dB additional uncertainty in transmission tracking. Corrected performance indicates residual error after calibration. It is determined by the quality of calibration standards, system repeatability, stability, and noise. Uncorrected performance indicates intrinsic errors without calibration correction applied. This is related to the ultimate stability of a calibration.
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 -
Frequency Counter
HP/Agilent-Keysight 53131A
The two-channel 53131A counter offers 10 digits per second of frequency/period resolution and a bandwidth of 225 MHz. Time interval resolution is specified at 500 ps. An optional third channel provides frequency measurements up to 3, 5, or 12.4 GHz. Standard measurements include frequency, period, ratio, time interval, pulse width, rise/fall time, phase angle, duty cycle, totalize, and peak voltage.
Two 225 MHz input channels, plus optional third channel up to 12.4 GHz
10 digits per second, 500 ps time interval resolution
GPIB Standard
option 010 > Optional High Stability Timebase with Oven and Electronic Calibration
option 030 > 100 MHz to 3 GHzThe 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 -
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
METAF HPS305D
Metaf HPS305D is a Single-channel direct current (0 – 5 A) and voltage (0 – 30 V) power supply unit with built-in LED display.
Features:
* Single-channel output.
* CC/CV auto switchable.
* 110V/220V switchable.
* Overload protection function.
* Overheat protection function.
* Short circuit protection function.
* Coarse/fine adjustment of voltage and current.
* Cooling with fan.
* 3/4 digital LED display for voltage and current.
Datasheet
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Pulse Pattern Generator
TEKTRONIX PG 501
PULSE GENERATOR.
The PG501 provides simultaneous positive and negative 50 MHz output pulses with 5 ns rise and fall times and independently variable amplitudes from 0.5 V to 5 V into 50 Ω.
Front panel controls provide calibrated decade selection of pulse period from 20 ns to 20 ms, and duration from 10 ns to 10 ms. Uncalibrated pulse period from 20 ns to 0.2 s and duration from 10 ns to 0.1 s can be obtained with the variable control.
The PG501 has a gate input and a 10 ns pre-trigger output. -
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Current Probe Amplifiter
TEKTRONIX TCPA300
Current Probe Amplifier.
The TCPA300 from Tektronix is a current probe amplifier. This amplifier when used with TCP312A, TCP305A and TCP303 probes, provides a wide range of current measurement capability and spans the gap between low level milliamp measurements to very high current levels. These three probes provide current measurement capabilities of 30A, 50A and 150A DC continuous and for even higher current levels. Higher frequency performance is available with TCP312A providing greater than or equal to 100MHz bandwidth and maximum current of 30A DC. The TCPA300 is approved by UL3111-1 first edition, CAN/CSA C22.2 number 1010.1-92, EN61010-1:2001, EC Council Directive 89/336/EEC, FCC Part 15, Subpart B class A and AS/NZS 2064.1/2 standards.DC to 100MHz maximum bandwidth
Automatic control and onscreen scaling and units
AC/DC input coupling
Low insertion impedance reduces device under test loading
Split core construction allows easy circuit connection
Status indicators provide visual operating status and notification of potential error conditions
Low DC drift and noise allows improved low level current measurements
Datasheet -
Power Supply
SORENSEN DCS8-125
Programmable POWER SUPPLY 0-8 VOLTS 0-125 AMPS.
he DCS80-125 is a 1000 Watt DC Power Supply from Sorensen. Supplies DC voltage and current to test, design, and troubleshoot electric and electronic circuits.
This unit has a 8V and 125A.
The DCS Family of 1 kW, 1.2 kW and 3 kW programmable power supplies utilize switch-mode technology to achieve high power density in a low profile chassis. Utilizing unique packaging techniques, the DCS Family provides continuous full output power (1 kW, 1.2 kW or 3 kW) in any volt/amp combination within the rated output voltage and current limits. This family has 10-turn potentiometers to adjust voltage and current settings that are displayed simultaneously. LEDs indicate overtemperature, remote programming, shutdown and overvoltage protection, status and constant-voltage/current mode operation.
The DCS 3 kW Models have push button control of the output standby mode, OVP reset, remote/ local programming and preview status of voltage, current and OVP setpoints.
Datasheet -
Power Supply
SORENSEN DCS80-13
Programmable POWER SUPPLY 0-80 VOLTS 0-13 AMPS
The DCS80-13E is a 1000 Watt DC Power Supply from Sorensen. Supplies DC voltage and current to test, design, and troubleshoot electric and electronic circuits.
This unit has a 80V and 13A.
The DCS Family of 1 kW, 1.2 kW and 3 kW programmable power supplies utilize switch-mode technology to achieve high power density in a low profile chassis. Utilizing unique packaging techniques, the DCS Family provides continuous full output power (1 kW, 1.2 kW or 3 kW) in any volt/amp combination within the rated output voltage and current limits. This family has 10-turn potentiometers to adjust voltage and current settings that are displayed simultaneously. LEDs indicate overtemperature, remote programming, shutdown and overvoltage protection, status and constant-voltage/current mode operation.
The DCS 3 kW Models have push button control of the output standby mode, OVP reset, remote/ local programming and preview status of voltage, current and OVP setpoints.
Datasheet -
Oscilloscope 2 channels
RIGOL DS1202Z-E
The Rigol Rigol DS1202Z-E is a very high quality two channel digital storage oscilloscope. It features a real-time sample rate of up to 1 GSa/s and a bandwidth of 200 MHz.
The Rigol DS1202Z-E is equipped with well designed and easy to use control panels offering comprehensive ease-of-use functions for all measuring tasks. The menu navigation is intuitive and available in several languages.
This high performance standard not only ensures capturing real-time instantaneous signals, but also observes details of repeated signals.
The Rigol DS1202Z-E has a refresh rate of up to 30.000 wfms/s, enabling users to capture instantaneous signals, as well as abnormal signals more quicky. It also helps to enhance the waveform capturing ability and to expedite a circuit debug course. The quality of the Rigol oscilloscopes is comparable to Agilent and Tektronix oscilloscopes.
The particularly large TFT color displays are very easy to read. Thanks to an intelligent system for displaying or masking information, the largest possible area is always available for displaying signals.
The signal curves, the FFT display, and other functions can be shown simultaneously on the display.
The Rigol Rigol DS1202Z-E oscilloscopes can store up to 24 million measurement points. You can zoom into a selected part of the captured waveforms to get more details and scroll within the measurement points.
The high sampling rate (up to 1 GSa/s) of the Rigol Rigol DS1202Z-E oscilloscopes and the large memory makes it possible to record up to 30,000 waveforms per second.
The recorded waveforms can be conveniently recorded, displayed and analyzed.“Multi-Level Grading Intensity” display, extensive signal characteristics with a very large number of measurement values can also be displayed completely.
The Rigol Rigol DS1202Z-E oscilloscopes offer extensive trigger options for a professional use. The special triggers Windows, Nth Edge, Delay, Timeout, Runt, RS232/UART, I²C und SPI are available as standard accessories.
With the Rigol DS1202Z-E serial data packages of different serial bus systems can be analyzed, decoded, and displayed directly as byte values. Supported protocols are: RS232/UART, I²C, and SPI.
The Rigol DS1202Z-E comes with a modern and advanced math system which lets it solve complicated signal calculations quite simply with predefined formulas.
Pass/fail testing can be used for troubleshooting in various environments like communication networks.
The %ARTICLE_NAME% measures up to five parameters like rise- and fall-time, amplitude, pulse width, duty cycle and many more simultaneously and shows statistics for every parameter (max- , min- and average values).
Datasheet€335.00 View Product -
Spectrum Analyzer, Spectrum Analyzer - Analizzatore di Spettro
RIGOL RSA3030E-TG
Real-Time Spectrum Analyzer from 9 kHz to 4.5 GHz with Tracking Generator.
The Rigol RSA3000E series is a compact and light weight spectrum analyzer series with premium performance standard spectrum analysis capabilities combined with a Real-Time Spectrum Analyzer which makes it possible to never miss any signal that is longer than 7.45 µs in duration. Engineers integrating WiFi, Bluetooth and other modern RF technologies are confronted with complex challenges like frequency hopping signals, channel conflict, and spectrum interference.
Real-Time Spectrum Analyzers bring the dimension of time to RF Analysis making it easier to monitor and characterize these complex RF systems.
The RSA3000E combines industry leading Realtime performance (7.45µs 100% POI), rich data displays, and advanced triggering options allowing the user to quickly capture, identify and analyze these complex events.
Rigol's new RSA3000E series spectrum analyzers redefines the product category of general purpose spectrum analyzer by adding Real-Time spectrum trigger and analysis capabilities and sets a new level performance and price.
The RSA3000E family features a 10.1” touchscreen display, compact design and easy-to-use interface and operations, making it ideal for benchtop or field apps in RF and wireless testing and production such as IoT, RFID, analog and digital modulated signals.
Embedded-System-Designer can cross trigger and analyze bus signals like IC2, SPI with RF Signals.
The Real-Time-Bandwidth of 10 MHz and the Frequency-Mask-Trigger let you visualize, isolate and capture signals to analyze their behavior over amplitude, frequency and time.
The new spectrum analyzer offers the ability to trigger and capture signals by 100% if longer than 7.45 µs in duration.
The RSA3000E have RBW settable down to 10 Hz, a DANL (displayed average noise level) down to -161 dBm (typical) and a 1ms Full Span Sweep in its general-purpose spectrum analyzer mode.
EMI filter and detector such as 9KHz, 120kHz and Quasi-Peak as example are standard.
Extendibility: Pre-Amplifier, High Stability Clock, Advanced Measurement Kit, EMI Pre-compliance Test Software can be added optional.Features
• 9 kHz to 3 or 4.5 GHz Frequency Range
• 10.1” Capacitive touchscreen display
• Displayed Average Noise Level as low as -161 dBm with opt. PreAmplifier
• Real-Time Analysis Bandwidth of 10 MHz standard (40 MHz option)
• Frequency-Mask-Trigger, IF-Power-Level-Trigger and external Trigger
• 7 Real-Time visualization modes
• 100 % POI as low as 7. 45 µs
• 10 Hz Minimum Resolution Bandwidth (RBW) (1 Hz option)
• 1 ms full span sweep speed
• EMI RBW and Detector standard (200 Hz, 9 kHz, 120 kHz, 1 MHz)
• Tracking Generator and VSWR measurements available
Datasheet€3,395.00 View Product -
Spectrum Analyzer, Spectrum Analyzer - Analizzatore di Spettro
RIGOL RSA3030E
Real-Time Spectrum Analyzer from 9 kHz to 4.5 GHz
The Rigol RSA3000E series is a compact and light weight spectrum analyzer series with premium performance standard spectrum analysis capabilities combined with a Real-Time Spectrum Analyzer which makes it possible to never miss any signal that is longer than 7.45 µs in duration. Engineers integrating WiFi, Bluetooth and other modern RF technologies are confronted with complex challenges like frequency hopping signals, channel conflict, and spectrum interference.
Real-Time Spectrum Analyzers bring the dimension of time to RF Analysis making it easier to monitor and characterize these complex RF systems.
The RSA3000E combines industry leading Realtime performance (7.45µs 100% POI), rich data displays, and advanced triggering options allowing the user to quickly capture, identify and analyze these complex events.
Rigol's new RSA3000E series spectrum analyzers redefines the product category of general purpose spectrum analyzer by adding Real-Time spectrum trigger and analysis capabilities and sets a new level performance and price.
The RSA3000E family features a 10.1” touchscreen display, compact design and easy-to-use interface and operations, making it ideal for benchtop or field apps in RF and wireless testing and production such as IoT, RFID, analog and digital modulated signals.
Embedded-System-Designer can cross trigger and analyze bus signals like IC2, SPI with RF Signals.
The Real-Time-Bandwidth of 10 MHz and the Frequency-Mask-Trigger let you visualize, isolate and capture signals to analyze their behavior over amplitude, frequency and time.
The new spectrum analyzer offers the ability to trigger and capture signals by 100% if longer than 7.45 µs in duration.
The RSA3000E have RBW settable down to 10 Hz, a DANL (displayed average noise level) down to -161 dBm (typical) and a 1ms Full Span Sweep in its general-purpose spectrum analyzer mode.
EMI filter and detector such as 9KHz, 120kHz and Quasi-Peak as example are standard.
Extendibility: Pre-Amplifier, High Stability Clock, Advanced Measurement Kit, EMI Pre-compliance Test Software can be added optional.Features
• 9 kHz to 3 or 4.5 GHz Frequency Range
• 10.1” Capacitive touchscreen display
• Displayed Average Noise Level as low as -161 dBm with opt. PreAmplifier
• Real-Time Analysis Bandwidth of 10 MHz standard (40 MHz option)
• Frequency-Mask-Trigger, IF-Power-Level-Trigger and external Trigger
• 7 Real-Time visualization modes
• 100 % POI as low as 7. 45 µs
• 10 Hz Minimum Resolution Bandwidth (RBW) (1 Hz option)
• 1 ms full span sweep speed
• EMI RBW and Detector standard (200 Hz, 9 kHz, 120 kHz, 1 MHz)
• Tracking Generator and VSWR measurements available
Datasheet€2,999.00 View Product -
Spectrum Analyzer, Spectrum Analyzer - Analizzatore di Spettro
RIGOL RSA3015E-TG
Real-Time Spectrum Analyzer from 9 kHz to 1.5 GHz with Tracking Generator.
The Rigol RSA3000E series is a compact and light weight spectrum analyzer series with premium performance standard spectrum analysis capabilities combined with a Real-Time Spectrum Analyzer which makes it possible to never miss any signal that is longer than 7.45 µs in duration. Engineers integrating WiFi, Bluetooth and other modern RF technologies are confronted with complex challenges like frequency hopping signals, channel conflict, and spectrum interference.
Real-Time Spectrum Analyzers bring the dimension of time to RF Analysis making it easier to monitor and characterize these complex RF systems.
The RSA3000E combines industry leading Realtime performance (7.45µs 100% POI), rich data displays, and advanced triggering options allowing the user to quickly capture, identify and analyze these complex events.
Rigol's new RSA3000E series spectrum analyzers redefines the product category of general purpose spectrum analyzer by adding Real-Time spectrum trigger and analysis capabilities and sets a new level performance and price.
The RSA3000E family features a 10.1” touchscreen display, compact design and easy-to-use interface and operations, making it ideal for benchtop or field apps in RF and wireless testing and production such as IoT, RFID, analog and digital modulated signals.
Embedded-System-Designer can cross trigger and analyze bus signals like IC2, SPI with RF Signals.
The Real-Time-Bandwidth of 10 MHz and the Frequency-Mask-Trigger let you visualize, isolate and capture signals to analyze their behavior over amplitude, frequency and time.
The new spectrum analyzer offers the ability to trigger and capture signals by 100% if longer than 7.45 µs in duration.
The RSA3000E have RBW settable down to 10 Hz, a DANL (displayed average noise level) down to -161 dBm (typical) and a 1ms Full Span Sweep in its general-purpose spectrum analyzer mode.
EMI filter and detector such as 9KHz, 120kHz and Quasi-Peak as example are standard.
Extendibility: Pre-Amplifier, High Stability Clock, Advanced Measurement Kit, EMI Pre-compliance Test Software can be added optional.Features
• 9 kHz to 3 or 4.5 GHz Frequency Range
• 10.1” Capacitive touchscreen display
• Displayed Average Noise Level as low as -161 dBm with opt. PreAmplifier
• Real-Time Analysis Bandwidth of 10 MHz standard (40 MHz option)
• Frequency-Mask-Trigger, IF-Power-Level-Trigger and external Trigger
• 7 Real-Time visualization modes
• 100 % POI as low as 7. 45 µs
• 10 Hz Minimum Resolution Bandwidth (RBW) (1 Hz option)
• 1 ms full span sweep speed
• EMI RBW and Detector standard (200 Hz, 9 kHz, 120 kHz, 1 MHz)
• Tracking Generator and VSWR measurements available
Datasheet€1,795.00 View Product -
Spectrum Analyzer, Spectrum Analyzer - Analizzatore di Spettro
RIGOL RSA3015E
Spectrum Analyzer from 9 kHz to 1.5 GHz
The Rigol RSA3000E series is a compact and light weight spectrum analyzer series with premium performance standard spectrum analysis capabilities combined with a Real-Time Spectrum Analyzer which makes it possible to never miss any signal that is longer than 7.45 µs in duration. Engineers integrating WiFi, Bluetooth and other modern RF technologies are confronted with complex challenges like frequency hopping signals, channel conflict, and spectrum interference.
Real-Time Spectrum Analyzers bring the dimension of time to RF Analysis making it easier to monitor and characterize these complex RF systems.
The RSA3000E combines industry leading Realtime performance (7.45µs 100% POI), rich data displays, and advanced triggering options allowing the user to quickly capture, identify and analyze these complex events.
Rigol's new RSA3000E series spectrum analyzers redefines the product category of general purpose spectrum analyzer by adding Real-Time spectrum trigger and analysis capabilities and sets a new level performance and price.
The RSA3000E family features a 10.1” touchscreen display, compact design and easy-to-use interface and operations, making it ideal for benchtop or field apps in RF and wireless testing and production such as IoT, RFID, analog and digital modulated signals.
Embedded-System-Designer can cross trigger and analyze bus signals like IC2, SPI with RF Signals.
The Real-Time-Bandwidth of 10 MHz and the Frequency-Mask-Trigger let you visualize, isolate and capture signals to analyze their behavior over amplitude, frequency and time.
The new spectrum analyzer offers the ability to trigger and capture signals by 100% if longer than 7.45 µs in duration.
The RSA3000E have RBW settable down to 10 Hz, a DANL (displayed average noise level) down to -161 dBm (typical) and a 1ms Full Span Sweep in its general-purpose spectrum analyzer mode.
EMI filter and detector such as 9KHz, 120kHz and Quasi-Peak as example are standard.
Extendibility: Pre-Amplifier, High Stability Clock, Advanced Measurement Kit, EMI Pre-compliance Test Software can be added optional.Features
• 9 kHz to 3 or 4.5 GHz Frequency Range
• 10.1” Capacitive touchscreen display
• Displayed Average Noise Level as low as -161 dBm with opt. PreAmplifier
• Real-Time Analysis Bandwidth of 10 MHz standard (40 MHz option)
• Frequency-Mask-Trigger, IF-Power-Level-Trigger and external Trigger
• 7 Real-Time visualization modes
• 100 % POI as low as 7. 45 µs
• 10 Hz Minimum Resolution Bandwidth (RBW) (1 Hz option)
• 1 ms full span sweep speed
• EMI RBW and Detector standard (200 Hz, 9 kHz, 120 kHz, 1 MHz)
• Tracking Generator and VSWR measurements available
Datasheet€1,595.00 View Product -
Signal Generator
RIGOL DSG836A
RF SIGNAL GENERATOR 9 kHz to 3.6 GHz with I/Q Modulation
The DSG800(A) RF signal generator offers standard AM/FM/ØM analog modulation, as well as options for pulse modulation with a maximum frequency 1.5 GHz. Featuring a high signal purity with phase noise measuring <-105 dBc/Hz @ 20 kHz (typical) and a wide output range of -110 dBm to +13 dBm, the DSG800 RF signal generator has an optional pulse modulation with an on/off ratio of up to 70dB, with optional pulse train generator available. The DSG800(A) series also has an amplitude accuracy of < 0.5 dB (typical). Beside the analog output the devices include a USB-Host- and a USB-device and a LAN interface. The DSG800 series is a high-performance RF signal generator. It provides comprehensive modulation solutions such as: Pulse modulation (optional) with customizable pulse train (optional) and standard AM/FM/FM analog modulation. All modulation schemes support internal and external modulation sources. In addition, to meet the demands of production environments, the DSG800 is designed to be both, highly stable and reliable. The DSG800 series also features a clear user interface, small size and light weight. It is easy to operate and can output stable, precise and pure signals. It is an ideal tool for various fields such as communication, computers, instrumentation, R&D, education, production and maintenance. Highly cost-effective economical RF signal generator * Up to -112 dBc/Hz (typical) phase noise * Up to +20 dBm (typical) maximum output power * Higher level of amplitude accuracy, up to 0.5 dB (typical) * Superb signal stability Functions almost matching those of high-level RF signal generators * Flexible frequency and amplitude sweep functions * Complete AM/FM/ØM analog modulation functions * Standard LF output function * Powerful pulse modulation function * Open vector modulation function * System flatness calibration function * Simple and easy to operate Special design ensuring its reliability and durability * Use electronic attenuator to avoid wearing * Specially designed protection functions * Digital ALC circuit * Simple structure Smallest in size among the like products * Occupy the least workbench space * Occupy less rack space * Light weight; the handle offers comfortable grip Special Features * Highest frequency: 1.5 GHz / 3.6 GHz * Amplitude accuracy: < 0.5 dB (typical) * Output amplitude range: -110 dBm to +13 dBm * High signal purity, phase noise: < -105 dBc/Hz @ 20 kHz (typical) * Standard 2 ppm internal clock; 5 ppb high stable clock for option * Standard AM/FM/ΦM analog modulation * Optional pulse modulation; on/off ratio up to 70 dB * Pulse Train Generator (optional) * All modulationschemes support internal and external modulation modes * Standard 2U height design to save rack space. Rack mount kit is available * Standard USB/LAN remote control interfaces. SCPI command set for remote control * Wear-free electronic attenuator design Datasheet€4,695.00 View Product -
Signal Generator
RIGOL DSG836
RF SIGNAL GENERATOR 9 kHz to 3.6 GHz
The DSG800(A) RF signal generator offers standard AM/FM/ØM analog modulation, as well as options for pulse modulation with a maximum frequency 1.5 GHz. Featuring a high signal purity with phase noise measuring <-105 dBc/Hz @ 20 kHz (typical) and a wide output range of -110 dBm to +13 dBm, the DSG800 RF signal generator has an optional pulse modulation with an on/off ratio of up to 70dB, with optional pulse train generator available. The DSG800(A) series also has an amplitude accuracy of < 0.5 dB (typical). Beside the analog output the devices include a USB-Host- and a USB-device and a LAN interface. The DSG800 series is a high-performance RF signal generator. It provides comprehensive modulation solutions such as: Pulse modulation (optional) with customizable pulse train (optional) and standard AM/FM/FM analog modulation. All modulation schemes support internal and external modulation sources. In addition, to meet the demands of production environments, the DSG800 is designed to be both, highly stable and reliable. The DSG800 series also features a clear user interface, small size and light weight. It is easy to operate and can output stable, precise and pure signals. It is an ideal tool for various fields such as communication, computers, instrumentation, R&D, education, production and maintenance. Highly cost-effective economical RF signal generator * Up to -112 dBc/Hz (typical) phase noise * Up to +20 dBm (typical) maximum output power * Higher level of amplitude accuracy, up to 0.5 dB (typical) * Superb signal stability Functions almost matching those of high-level RF signal generators * Flexible frequency and amplitude sweep functions * Complete AM/FM/ØM analog modulation functions * Standard LF output function * Powerful pulse modulation function * Open vector modulation function * System flatness calibration function * Simple and easy to operate Special design ensuring its reliability and durability * Use electronic attenuator to avoid wearing * Specially designed protection functions * Digital ALC circuit * Simple structure Smallest in size among the like products * Occupy the least workbench space * Occupy less rack space * Light weight; the handle offers comfortable grip Special Features * Highest frequency: 1.5 GHz / 3.6 GHz * Amplitude accuracy: < 0.5 dB (typical) * Output amplitude range: -110 dBm to +13 dBm * High signal purity, phase noise: < -105 dBc/Hz @ 20 kHz (typical) * Standard 2 ppm internal clock; 5 ppb high stable clock for option * Standard AM/FM/ΦM analog modulation * Optional pulse modulation; on/off ratio up to 70 dB * Pulse Train Generator (optional) * All modulationschemes support internal and external modulation modes * Standard 2U height design to save rack space. Rack mount kit is available * Standard USB/LAN remote control interfaces. SCPI command set for remote control * Wear-free electronic attenuator design Datasheet€3,395.00 View Product -
Signal Generator
RIGOL DSG821A
RF SIGNAL GENERATOR 9 kHz to 2.1 GHz with I/Q Modulation
The DSG800(A) RF signal generator offers standard AM/FM/ØM analog modulation, as well as options for pulse modulation with a maximum frequency 1.5 GHz. Featuring a high signal purity with phase noise measuring <-105 dBc/Hz @ 20 kHz (typical) and a wide output range of -110 dBm to +13 dBm, the DSG800 RF signal generator has an optional pulse modulation with an on/off ratio of up to 70dB, with optional pulse train generator available. The DSG800(A) series also has an amplitude accuracy of < 0.5 dB (typical). Beside the analog output the devices include a USB-Host- and a USB-device and a LAN interface. The DSG800 series is a high-performance RF signal generator. It provides comprehensive modulation solutions such as: Pulse modulation (optional) with customizable pulse train (optional) and standard AM/FM/FM analog modulation. All modulation schemes support internal and external modulation sources. In addition, to meet the demands of production environments, the DSG800 is designed to be both, highly stable and reliable. The DSG800 series also features a clear user interface, small size and light weight. It is easy to operate and can output stable, precise and pure signals. It is an ideal tool for various fields such as communication, computers, instrumentation, R&D, education, production and maintenance. Highly cost-effective economical RF signal generator * Up to -112 dBc/Hz (typical) phase noise * Up to +20 dBm (typical) maximum output power * Higher level of amplitude accuracy, up to 0.5 dB (typical) * Superb signal stability Functions almost matching those of high-level RF signal generators * Flexible frequency and amplitude sweep functions * Complete AM/FM/ØM analog modulation functions * Standard LF output function * Powerful pulse modulation function * Open vector modulation function * System flatness calibration function * Simple and easy to operate Special design ensuring its reliability and durability * Use electronic attenuator to avoid wearing * Specially designed protection functions * Digital ALC circuit * Simple structure Smallest in size among the like products * Occupy the least workbench space * Occupy less rack space * Light weight; the handle offers comfortable grip Special Features * Highest frequency: 1.5 GHz / 3.6 GHz * Amplitude accuracy: < 0.5 dB (typical) * Output amplitude range: -110 dBm to +13 dBm * High signal purity, phase noise: < -105 dBc/Hz @ 20 kHz (typical) * Standard 2 ppm internal clock; 5 ppb high stable clock for option * Standard AM/FM/ΦM analog modulation * Optional pulse modulation; on/off ratio up to 70 dB * Pulse Train Generator (optional) * All modulationschemes support internal and external modulation modes * Standard 2U height design to save rack space. Rack mount kit is available * Standard USB/LAN remote control interfaces. SCPI command set for remote control * Wear-free electronic attenuator design Datasheet€3,395.00 View Product -
Signal Generator
RIGOL DSG821
RF SIGNAL GENERATOR 9 kHz to 2.1 GHz
The DSG800(A) RF signal generator offers standard AM/FM/ØM analog modulation, as well as options for pulse modulation with a maximum frequency 1.5 GHz. Featuring a high signal purity with phase noise measuring <-105 dBc/Hz @ 20 kHz (typical) and a wide output range of -110 dBm to +13 dBm, the DSG800 RF signal generator has an optional pulse modulation with an on/off ratio of up to 70dB, with optional pulse train generator available. The DSG800(A) series also has an amplitude accuracy of < 0.5 dB (typical). Beside the analog output the devices include a USB-Host- and a USB-device and a LAN interface. The DSG800 series is a high-performance RF signal generator. It provides comprehensive modulation solutions such as: Pulse modulation (optional) with customizable pulse train (optional) and standard AM/FM/FM analog modulation. All modulation schemes support internal and external modulation sources. In addition, to meet the demands of production environments, the DSG800 is designed to be both, highly stable and reliable. The DSG800 series also features a clear user interface, small size and light weight. It is easy to operate and can output stable, precise and pure signals. It is an ideal tool for various fields such as communication, computers, instrumentation, R&D, education, production and maintenance. Highly cost-effective economical RF signal generator * Up to -112 dBc/Hz (typical) phase noise * Up to +20 dBm (typical) maximum output power * Higher level of amplitude accuracy, up to 0.5 dB (typical) * Superb signal stability Functions almost matching those of high-level RF signal generators * Flexible frequency and amplitude sweep functions * Complete AM/FM/ØM analog modulation functions * Standard LF output function * Powerful pulse modulation function * Open vector modulation function * System flatness calibration function * Simple and easy to operate Special design ensuring its reliability and durability * Use electronic attenuator to avoid wearing * Specially designed protection functions * Digital ALC circuit * Simple structure Smallest in size among the like products * Occupy the least workbench space * Occupy less rack space * Light weight; the handle offers comfortable grip Special Features * Highest frequency: 1.5 GHz / 3.6 GHz * Amplitude accuracy: < 0.5 dB (typical) * Output amplitude range: -110 dBm to +13 dBm * High signal purity, phase noise: < -105 dBc/Hz @ 20 kHz (typical) * Standard 2 ppm internal clock; 5 ppb high stable clock for option * Standard AM/FM/ΦM analog modulation * Optional pulse modulation; on/off ratio up to 70 dB * Pulse Train Generator (optional) * All modulationschemes support internal and external modulation modes * Standard 2U height design to save rack space. Rack mount kit is available * Standard USB/LAN remote control interfaces. SCPI command set for remote control * Wear-free electronic attenuator design Datasheet€2,095.00 View Product -
TESEQ SCHAFFNER NSG 430
Electrostatic Discharge Simulator
Rise Time: 5ns ±30% at 2kV
Discharge voltage: 2 – 16.5kV
Polarity: positive / negative – non switchable
Discharge capacitor Co: 150pF ± 10%
Discharge resistor Ro: 150 ohms ± 5%
Mode of operation: single/continuous (20 Hz)
For testing per IEC 801-2 / 1984
Datasheet -
Senza categoria
IFR FM/AM1200S Communications Service Monitor, 250 kHz -1 GHz
The IFR FM/AM-1200S is a bench tester multi-function, microprocessor controlled Communications Service Monitors designed to meet the requirements of most radio maintenance applications throughout the RF frequency range of 250 kHz to 1 GHz.
Functions from mobile, aircraft or marine is achievable straight from 11 to 28 volt DC power systems, using a furnished cigar lighter adaptor plug. AC power function is probable from 115/230 VAC 47 to 420 Hz power services.* FM and AM Signal Generator
* 2 µV Receiver for AM, FM, and SSB
* RF Frequency Error Meter with 1 Hz Resolution -
System DC Power Supply
HP-Agilent/Keysight 6634B
Output Ratings
Output voltage: 0 to 100 V
Output current: 0 to 1 AProgramming Accuracy at 25°C ±5°C
Voltage: 50 mV
+ Current 0.05% + 0.5 mARipple & Noise (20 Hz to 20 MHz)
Voltage Normal mode rms: 0.5 mV
Voltage Normal mode peak-to-peak: 3 mV
Fast mode rms/peak-to-peak: 2 mV/25 mV
Current rms: 2 mAThis product will be discontinued on June 1, 2017. The recommended substitute product is N6746B.
Keysight high performance DC power supplies offer speed and accuracy for test optimization. The single output, 80-100 W, GPIB 6631B-6634B provide fast, low-noise outputs; programmable active down-programmer sinks the full rated current; dual-range, precision low current measurement; as well as optional isolation and polarity reversal relays.
The Keysight 100W, GPIB, single output 6634B is a versatile medium-power solution for automated applications that reduces development time with a combination of benchtop and system features designed for demanding design and test requirements.
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Oscilloscope 2 channels
TEKTRONIX TDS1012B OSCILLOSCOPE 100 MHz, 2 CHANNEL
TDS1000B (mono) and TDS2000B (color) combine performance with ease-of-use at an affordable price. Devices range from 40MHz to 200 MHz bandwidth and up to 2GS/s maximum sample rate. Available in two or four channels, the TDS1000B and TDS2000B feature a USB port to remove data, to connect to a PC with included OpenChoice® and NI SignalExpress® PC software, and access to compatible printers. FFT and 11 automatic measurements are standard, as well as multiple language user interface and help features. Applications for Tektronix´s Digital Storage Oscilloscopes are design, debug, education, training, manufacturing test and QA, service, and repair.
Key performance specifications
– 40 MHz, 60 MHz, and 100 MHz bandwidths
– Sample rates up to 1 GS/s real time
– 2 channels
– Monochrome LCD display
– Advanced triggers including pulse width trigger and line-selectable video trigger
– FFT standard on all models
– 12 automatic measurements
– Multiple-language user interface and context-sensitive helpConnectivity
– Removable data storage using the front-panel USB port
– Seamless PC connectivity through the USB device port, with OpenChoice® and NI SignalExpress® PC software
– Direct print to all PictBridge®-compatible printers through the USB device portAffordable digital precision
With up to 100 MHz bandwidth and 1 GS/s maximum sample rate, no other digital storage oscilloscope offers as much bandwidth and sample rate for the price. The TDS1000B Series oscilloscopes provide accurate real-time acquisition up to their full bandwidth, the same record length at all time base settings, advanced triggers to isolate signals of interest, and 12 standard automatic measurements on all models. Their Fast Fourier Transform (FFT) and waveform add, subtract, and multiply math functions allow you to analyze, characterize, and troubleshoot circuits.Quick and easy waveform capture
The simple user interface with classic analog-style controls makes these instruments easy to use, reducing learning time and increasing efficiency. Innovative features such as the Autoset Menu, Probe Check Wizard, and Context-sensitive Help Menu optimize instrument setup and operation.Flexible data transfer
With USB host and device ports which enable removable data storage, seamless PC connectivity, and direct printing, no other digital storage oscilloscope offers as much flexibility and ease of data transfer for the price.
Datasheet -
Logic Probe
RIGOL PLA2216 LOGIC PROBE
The PLA2216 is Logic Probe for MSO5000 Series Oscilloscopes. Includes cable, leads and grabber clips.
Being a high-performance active logic probe, PLA2216 connects the digital signals under test to the MSO5000 series digital oscilloscope to realize the logic analyzer function.
The 16 digital channels (D0-D15) of PLA2216 are divided into two channel groups (D0-D7 and D8-D15) each of which includes signal interfaces and ground interfaces. All the channels are marked with different numbers on the label of the probe input to identify different channels. PLA2216 provides 16 input signal leads and 16 ground leads to realize flexible connection of signals and reference ground.€295.00 View Product -
Power Supply
METAF MCP M10-QR305 2x30V/5A 5V/1A DC Linear Adjustable Power Supply
The MCP M10-QR305 2x30V/5A 5V/1A DC Linear Adjustable Power Supply is a equipment with high stability, high reliability, low noise, its output voltage or current can be continuously adjusted, and its constant voltage and current can auto-conversion. This low cost and universal power supply can be used in many different areas, from test of R&D equipment to test of production lines.
Features:
– Output off function
– Triple independent DC outputs. Two adjustable and one fixed output
– Independent, series and parallel variety output
– Constant voltage and constant current
– Low ripple and noise
– Four LED displays with 3 digits, selectable for two sets output voltage and current display simultaneously
– 16 hours continuous output with full load
– Auto tracking outputIndependent output:
CH1: 0-30V/0-05A
CH2: 0-30V/0-05A
CH3: 5V/1ASerial output:
CH1+CH2: 0-60V/0-5AParallel output:
CH1+CH2: 0-30V/0-10ASpecification:
Line Regulation: CV 1X10^-4+3mV CC 2X10^-3+3mA CH3 5mV
Load Regulation: CV 1X10^-4+4mV CC 2X10^-3+3mA CH3 15mV
Ripple & Noise: CV 1mVrms CC 3mA rms CH3 2mV
Display Accuracy: ±(0.5%Rdg+2digits)
Input Voltage: 110~127VAC±10%, 220~240VAC±10%
Dimensions (L x W x D): 250x135x460mm
Weight: 8,2 kg -
Network Analyzer
HP/Agilent-Keysight 8753D
The HP 8753D is a vector network analyzer and it offers even more flexibility and measurement capability than the HP 8752C in the following areas:
* Frequency range from 30 kHz to 3 GHz.
* Built-in S-parameter test set provides complete forward and reverse measurements, allowing you to completely characterize your component with a single connection.
* 50 and 75 ohm solutions.
* Superb accuracy. The most comprehensive calibration available guarantees accurate measurements. TRL**nRMt makes calibration in non-coaxial environments easier and more convenient.
* Mixer testing. Quickly and easily characterize frequency translating devices such as mixers.
* Add swept harmonic measurements. Characterize amplifter parameters – gain, 1 dB compression, match – and 2nd and 3rd harmonic distortion with the same test setup.
* Built-in 3.5 inch floppy disk drive provides convenient storage of instrument states and data.
* Parallel and serial ports provide interfaces to popular printers and plotters. The parallel port can also be used as a general U0 bus, with user-controllable TI'L inputs and outputs. Users can also connect a DIN keyboard to speed up entry of titles, labels, or file names, and for remote hnt panel operation.Two excellent choices, the HP 8752C and HP 8753D continue the tradition of affordable excellence in RF component measurements for the lab and production test areas. The HP 8752C and HP 8753D network analyzers bring superior performance and useful productivity features to simplify and speed your device, component, or network measurements in the 30 kHz to 6 GHz frequency range. A swept synthesized source, sensitive receiver, and crisp color display ensure rapid, accurate, and easy-to-read test results. Since the HP 8752C and HP 8753D are vector network analyzers, they not only provide magnitude and phase information, but also offer up to 1 10 dB dynamic range, make group delay and time domain measurements, and utilize vector accuracy enhancement to minimize measurement uncertainty.
Datasheet -
Power Meter
HP/Agilent-Keysight E4419B
The E4419B power meter is designed for bench and automatic test equipment (ATE) use.
True dual-channel power meter – two simultaneous power readings
Fast measurement speed (up to 100 readings per second, over the GPIB, with E-series sensors)
Speed improvement of x2 using the 8480 series power sensor (compared to the 437B)
No range-switching delays with 8480 series sensors, and only one fast-range switching point with E-series sensors
Code compatibility with 438A power meter
GPIB and RS232 connector for remote control of all functionsSupplemental characteristics (shown in italics) are intended to provide additional information, useful in applying the instrument by giving typical (expected), but not warranted performance parameters. These characteristics are shown in italics or labeled as “typical”, “nominal” or “approximate”.
For information on measurement uncertainty calculations, refer to Application Note 64-1C, “Fundamentals of RF and Microwave Power Measurements”, literature number 5965-6380E.
Frequency range: 9 kHz to 110 GHz, sensor dependent
Power range: –70 dBm to +44 dBm (100 pW to 25 W), sensor dependent.
Power sensors: Compatible with all 8480 series and E-series sensors
Single sensor dynamic range: 90 dB maximum (E-series sensors), 50 dB maximum ( 8480 series sensors).
Display units: Absolute: Watts or dBm. Relative: Percent or dB.
Display resolution: Selectable resolution of 1.0, 0.1, 0.01, and 0.001 dB in Log mode, or 1 to 4 digits in linear mode.
Default resolution: 0.01 dB in log mode, 3 digits in linear mode.
Datasheet -
Network Analyzer
HP/Agilent-Keysight 8753ES
Agilent 8753ES vector network analyzers perform complete characterization of RF components.
30 kHz to 3 GHz
Frequency and power sweepsSpecifications describe the instrument’s warranted performance after a half-hour warm-up and over the temperature range of 25° ± 5° C, unless otherwise stated. Specifications for frequencies above 3 GHz do not apply to instruments with Option 075 (75-ohm impedance). Supplemental characteristics are typical but nonwarranted performance parameters. These are denoted as “typical,” “nominal,” or “approximate.” The measurement uncertainty curves and measurement port characteristics given for Agilent Technologies 8753ES systems also apply to the 8753ES with Options 006 and 011 and the 85047A test set (50-ohm), or the 8753ES Option 011 with an 85046B test set (75-ohm).
System dynamic range is calculated as the difference between the receiver noise floor and the lesser of either the source maximum output or the receiver maximum input level. System dynamic range applies to transmission measurements only, since reflection measurements are limited by directivity. Noise floor is specified as the mean of the noise trace over frequency. Noise floor is measured with the test ports terminated in loads, full two-port error correction for the 8753ES and enhancedresponse error correction for the 8753ET (with 16 averages used during isolation), 10 Hz IF bandwidth (BW), maximum test port power, and no averaging during the measurement.
Measurement uncertainty curves utilize a Root Sum Square (RSS) model for the contribution of random errors such as noise, typical connector repeatabilities, and test set switching; this is combined with a worst-case model for the contributions of dynamic accuracy and residual systematic errors. Curves show the worst-case magnitude and phase uncertainty for reflection and transmission measurements, after a full two-port error correction for the 8753ES and enhanced-response error correction for the 8753ET (including isolation with an averaging factor of 16) using the specified cal kit, with 10 Hz IF bandwidth (BW) and no averaging.
Characteristics show the residual system uncertainties for uncorrected performance and after accuracy enhancement using full two-port error correction for the 8753ES and enhanced-response error correction for the 8753ET. These characteristics apply for an environmental temperature of 25° ± 5° C, with less than 1° C deviation from the calibration temperature. Agilent 8753ET Option 004 may degrade transmission source match as much as 2 dB, resulting in up to 0.05 dB additional uncertainty in transmission tracking. Corrected performance indicates residual error after calibration. It is determined by the quality of calibration standards, system repeatability, stability, and noise. Uncorrected performance indicates intrinsic errors without calibration correction applied. This is related to the ultimate stability of a calibration.
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 -
Frequency Counter
HP/Agilent-Keysight 53131A
The two-channel 53131A counter offers 10 digits per second of frequency/period resolution and a bandwidth of 225 MHz. Time interval resolution is specified at 500 ps. An optional third channel provides frequency measurements up to 3, 5, or 12.4 GHz. Standard measurements include frequency, period, ratio, time interval, pulse width, rise/fall time, phase angle, duty cycle, totalize, and peak voltage.
Two 225 MHz input channels, plus optional third channel up to 12.4 GHz
10 digits per second, 500 ps time interval resolution
GPIB Standard
option 010 > Optional High Stability Timebase with Oven and Electronic Calibration
option 030 > 100 MHz to 3 GHzThe 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 -
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
METAF HPS305D
Metaf HPS305D is a Single-channel direct current (0 – 5 A) and voltage (0 – 30 V) power supply unit with built-in LED display.
Features:
* Single-channel output.
* CC/CV auto switchable.
* 110V/220V switchable.
* Overload protection function.
* Overheat protection function.
* Short circuit protection function.
* Coarse/fine adjustment of voltage and current.
* Cooling with fan.
* 3/4 digital LED display for voltage and current.
Datasheet€130.00 View Product