HP 70004A / 70820A Microwave Transition Analyzer DC-40GHz for HP 71500A & 71501A, US $2,076.00 – Picture 0

HP 70004A / 70820A Microwave Transition Analyzer DC-40GHz for HP 71500A & 71501A, US $2,076.00 – Picture 1

HP 70004A / 70820A Microwave Transition Analyzer DC-40GHz for HP 71500A & 71501A, US $2,076.00 – Picture 2

HP 70004A / 70820A Microwave Transition Analyzer DC-40GHz for HP 71500A & 71501A, US $2,076.00 – Picture 3

HP 70004A / 70820A Microwave Transition Analyzer DC-40GHz for HP 71500A & 71501A, US $2,076.00 – Picture 4

HP 70004A / 70820A Microwave Transition Analyzer DC-40GHz for HP 71500A & 71501A, US $2,076.00 – Picture 5

HP 70004A / 70820A Microwave Transition Analyzer DC-40GHz for HP 71500A & 71501A, US $2,076.00 – Picture 6

HP 70004A / 70820A Microwave Transition Analyzer DC-40GHz for HP 71500A & 71501A, US $2,076.00 – Picture 7

HP 70004A / 70820A Microwave Transition Analyzer DC-40GHz for HP 71500A & 71501A, US $2,076.00 – Picture 8

HP 70004A / 70820A Microwave Transition Analyzer DC-40GHz for HP 71500A & 71501A, US $2,076.00 – Picture 9

HP 70004A / 70820A Microwave Transition Analyzer DC-40GHz for HP 71500A & 71501A, US $2,076.00 – Picture 10

HP 70004A / 70820A Microwave Transition Analyzer DC-40GHz for HP 71500A & 71501A, US $2,076.00 – Picture 11

Hp 70004a / 70820a Microwave Transition Analyzer Dc-40ghz For Hp 71500a & 71501a

US $2,076.00

Bel Air, Maryland, United States
Jan 29th

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Get 50 % of for eBay item 231423120849 - HP 70874A - Eye Diagram Analyzer Personality Memory Card if you buy this lot I G H E C H O L O G Y F F E R Do not miss this incredible opportunity!Catch your own Wave! *************************************************************************************************************************************** *************************************************************************************************************************************** Real Time T i m e - D o m a i n & Frequency Domain + Oscilloscope measuring not only magnitude, but a also phase All this it is: Agilent Technologies / Hewlett-Packard HP 70004A / 70820A - Microwave Transition Analyzer (DC-40GHz) for building and use in Microwave Transition Analyzer measurement systems: HP 71500A and HP 71501A About: Hewlett Packard This famous company do not need advertisment!. Product Condition: This HP 70004A / 70820A - Microwave Transition Analyzer (DC-40GHz) is in good cosmetic and working condition as you can see at the pictures. This lot does not include: HP 70874A - Eye Diagram Analyzer Personality Memory Card. It is for sale separately !!! This lot includes: HP 70004A / 70820A - Microwave Transition Analyzer (DC-40GHz) + HP / Agilent 70310-60016 40 VDC Power Pack Assy Power cord Document Library (16 pdf-files) ========================== Manuals (6) Programmer's Guide. HP 71500 Series (885 pages) HP 71500 Series. Installation and Verification (159 pages) User's Guide. HP 71501A and HP 70874A Eye Diagram Analyzer (213 pages) Quick Start Guide. HP 71500A and HP 70820A Microwave Transition Analyzer (25 pages) User's Guide. HP 71500A and HP 70820A Microwave Transition Analyzer (387 pages) Reference Guide. HP 71500 Series (269 pages) Application Notes (8) Product Note 70820-1. The Microwave Transition Analyzer: A Versatile Measurement Set for Bench and Test (100 pages) Product Note 70820-2. The Microwave Transition Analyzer: Measure 25 ps Transitions in Switched and Pulsed Microwave Components (147 pages) Product Note 70820-3. HP 70820A Microwave Transition Analyzer: Picosecond Delta-Time Accuracy (24 pages) Product Note 70820-4. Simplified Triggering of the HP 71500A Improves Accuracy When Characterizing Lightwave Components (4 pages) Product Note 70820-5. Improve Delta Time Accuracies in Semiconductor Device Modeling and Characterization with the HP 71500A (4 pages) Product Note 70820-8. Simplify Analysis of Phase Modulators With Time Domain Testing (8 pages) Product Note 70820-10. HP 71500A Microwave Transition Analyzer Group Delay Personality (22 pages) Product Note 70820-11. AM to PM Conversion and Translation Measurements (12 pages) Brochures & Competitive Overviews (1) HP 71500A Microwave Transition Analyzer (6 pages) Catalogs (1) Agilent RF and Microwave Test Accessories Catalog 2012/13 (215 pages) Drivers, Firmware, Software (1 zip-file) ================================= Programming Example (1) Microwave Transition Analyzer Applications A collection of measurment applications for Agilent/HP Microwave Transition Analyzers 71500A and 70820A. Programming Example 2007-11-05 (zip file 129kb) Product Description: The HP 70004A / 70820A - Microwave Transition Analyzer (DC-40GHz) use for building the following two measurement systems: HP 71500A HP 71501A The HP 71500A microwave transition analyzer system is a preconfigured system that includes an HP 70820A microwave transition analyzer module, an HP 70004A color display/mainframe, and a microwave transition analyzer keypad. The HP 71500A Microwave Transition Analyzer consists of the following: HP 70820A microwave transition analyzer module HP 70004A color display and mainframe synthesized source The HP 71501A consists of the following: HP 70820A microwave transition analyzer module HP 70004A color display and mainframe modular measurement system modules (a pattern generator and clock source) The HP 71501A eye diagram analyzer performs automated eye diagram measurements including repeatable extinction ratio measurements. In addition, you'll need a pattern generator and clock source. The recommended models are the: HP 70841A/B pattern generator HP 70311A clock source These are modular measurement system (MMS) modules that require an additional HP 70001A mainframe HP 70004A / 70820A - Microwave Transition Analyzer (DC-40GHz): The HP 71500A is part of the HP 70000 Modular Measurement System (MMS). The HP 71500A consists of the HP 70820A microwave transition analyzer module and the HP 70004A color display and mainframe. The HP 70004A color display and mainframe and the HP 70820A microwave transition analyzer module is a two-channel, DC to 40 GHz, sampler-based instrument that makes CW and pulsed-RF measurements, specializing in fast transitions. One digital signal processing (DSP) chip per channel demodulates the signal and performs extensive waveform math. Non-linear component testing DC to 40 GHz frequency range 100 ps wide pulses 25 ps rise / fall times 1 picosecond accuracy 0.1 % time span resolution 0.1 dB resolution Two channels Frequency and Power Vector Voltage Network Analysis Power Sweeps Sampled Spectrum Analysis Array Processing Measurements Pulsed frequency response Pulsed power response Overshoot ON/OFF ratios Peak/Average power Phase Switching times Phase Settling times Video feedthrough Rise/fall times Delay Group delay Performance 1 ps ?t accuracy Trigger to 40 GHz 10 ps rise time Measure Magnitude and Phase of Microwave Components in the Time Domain View microwave pulses in four formats: Real -- RF displayed similar to an oscilloscope Magnitude -- RF envelope shown with linear scaling Log magnitude -- RF envelope show with log scaling Phase -- RF phase displayed versus time in the pulse Measure narrow pulses Internal trigger to 40 GHz 100 ps pulse width Resolution: 0.1 dB and 1 degree at 8 GHz Remove and separate video feedthrough without external filters Measure video feedthrough directly Measure RF carrier directly FFT: Provides the bridge from the time domain to the frequency domain Display frequency, magnitude, and phase simultaneously Display fundamental and harmonics to 40 GHz (repetitive) -- results in waveform and tabular formats Compare to CAE simulations Measure Semiconductor Devices Time domain features for high-frequency design 1 ps ?t accuracy Noise filtering, faster than averaging 10 ps rise time Negative time without delay lines Trigger to 40 GHz without external hardware Phase triggering for low-level signals FFT: provides phase information for narrowband modulation analysis 10 MHz frequency spans 10 MHz single-shot bandwidth Unpreselected Measure Magnitude and Phase of Microwave Components in the Frequency Domain CW or pulsed network analysis 100 ps wide pulses Resolution: 0.1 dB and 1 degree at 8 GHz Swept harmonic responses of multiplier View n harmonics to 40 GHz Normalized gain compression AM to PM conversion in TWT’s Measure group delay of receivers Similar to microwave link analyzer Measure delay from baseband modulation (AM, FM, PM) waveform Display intrapulse parameters in the time domain Amplitude, phase, and frequency vs. time Modulation rates to > 1 GHz Max. frequency deviation = 500 / time span(sec) Ideal for verifying signal simulators and synthesized radar systems Features: The HP 71500A requires a stable signal of known frequency. This is normally accomplished by driving your circuits with a synthesized source? Usually under control of the HP 71500A over HP-IB, Locking the frequency reference of the HP 70820A ensures that the signal frequency is known and does not drift. Sources without a frequency reference may drift with respect to the HP 71500A’s reference, preventing the noise filter from functioning correctly *. Also, choose a source with good phase noise performance for minimal jitter in your measurements. There’s even more to find out about than the triggering advantages. The HP 71500A includes 1 ps time scale accuracy, frequency response corrections, FFT, and 100 µV/div sensitivity. Measuring the fast rise and fall times of laser diodes and O/E converters with a traditional sampling oscilloscope is difficult due to the triggering limitations of these oscilloscopes. Not only can triggering be a nuisance, but some aspects of triggering actually can degrade measurement accuracy. The HP 71500A microwave transition analyzer (DC - 40 GHz) makes significant contributions toward simplifying the challenge of triggering on fast edges. These contributions include: Internal triggering on the signal channel to 40 GHz Pre-trigger information Sensitive triggering, even at 40 GHz Phase triggering for noisy signals Reduce Jitter, Increase Measurement Bandwidth Bandwidth, sensitivity, and external-triggering requirements of the sampling oscilloscope often force the user to find a trigger signal that is synchronous with the measured signal. To allow the sampling scope to trigger on it, the trigger signal usually has a wider pulse width and larger amplitude than the measured signal. But a problem arises because timing jitter may exist between the trigger signal and the measured signal. When the measured signal is averaged to clean up the effects of this jitter, some of the high-frequency content of the waveform may be averaged out, reducing the effective bandwidth of the measurement. The HP 71500A can trigger directly on narrow pulses, removing the need for an external trigger signal. By eliminating this source of jitter, better detail can be seen in the waveform, especially when significant jitter would otherwise exist between the trigger signal and the measure signal. The HP 71500A also makes these measurements much easier to set up. Pre-trigger Information Eliminates Need for Delay Line on Delaying to Next Pulse Sequential sampling oscilloscopes do not easily show the trigger event; typically, they do not show anything until 15-70 ns after the trigger. To show the trigger event, a delay line can be used to delay the measured signal with respect to the trigger signal; however, directing the measured signal through a delay line can significantly degrade the pulse fidelity. Delaying until the next pulse is another common solution, but this introduces jitter, which increases with delay in a sequential sampling oscilloscope. The HP 71500A can place the trigger event at center screen. The left half of the screen shows information that occurred prior to the trigger event. This allows triggering on the pulse of interest and permits the entire pulse output of the laser diode or O/E converter to be viewed, without the losses introduced by the delay line. Noise Filter Helps to Trigger on Small Signals Most high-frequency trigger circuits require signals with amplitudes ranging from tens to hundreds of millivolts. Smaller signals require using an external trigger signal, which may introduce jitter. Two problems are encountered when triggering on small signals with the traditional sampling oscilloscope: the size of the signal itself and the noise accompanying the signal. Triggering in the HP 71500A occurs after up to 60 dB of amplification. The analyzer’s noise filter then reduces the noise on the signal before triggering on it. The unique noise-filter function preserves the fundamental and harmonic components of your signal but filters out the noise between these spectral components. The trigger occurs after this filtering, resulting in reliable triggering on very small signals. Phase Trigger Locks onto Noisy Signals Edge triggering on signals having significant noise can result in a mistrigger. Mistriggering can ruin a measurement. Phase triggering with the HP 71500A provides reliable triggering on noisy signals. The phase trigger uses an FFT of the time-domain waveform. The FFT provides noise-processing gain. So even when the noise is roughly equal to the signal in the time domain, a spectral line in the frequency domain may extend above the noise by 20 dB. The phase of the fundamental spectral line can be identified with the FFT. When transformed back to the time domain, the 0? point(based on a cosine definition) can be lined up with center screen. The result is effective triggering, even on signals having signal-to-noise ratios less than 1. Some Specifications: Internal Frequency Reference Frequency: 10 MHz (nominal) Stability Aging rate: <5 x 10-10 /day after 24 hour warm-up. . <1 x 10-7 /year for continuous operation. Temperature: <4.5 x 10-9 over the range 0? C to 70? C. Short term: <5 x 10-12 for 1 s averaging time. Warm-up: <5 x 10-10 of final value 10 minutes after turn-on, at 25? C. Mainframe’s external power pack keeps oven warm while line is plugged in but front-panel power is off. Modulator Output (Characteristics) Repetition frequency: 152.9 Hz - 5 MHz Repetition period: 6.553 ms - 200 ns Pulse width: 6.552 ms - 100 ns Level: TTL into 50 ? Transition time: <5 ns Connector: Rear panel, SMB (m) The pulse generator is phase locked to the 10 MHz reference. Pulse width and repetition period are adjustable in 100 ns steps. Inaccuracies in the pulse width are dominated by the transition times (<5 ns). Time Scale Range (full scale is 10 divisions) 5 ps/div to 100 s/div Delta Time Measurement Accuracy 1 ps Power Requirements HP 70820A 90 W, supplied by mainframe HP 71500A Volts: 100, 120, 220, or 240 V ac (±10%, 47 Hz - 66 Hz and 400 Hz) Power: 260 W, 350 VA maximum External power pack Volts: 100, 120, 220, or 240 V ac (44 Hz - 444 Hz) Weight (Characteristics) HP 70820A 9 kg (20 lb) HP 71500A 29 kg (64 lb) Dimensions (Characteristics) HP 70820A 4/8-width module HP 70004A and Mainframe 222.0 mm (8.74”) High x 425.4 mm (16.75”) Wide x 526.0 mm (20.7”) Long

Condition:

Used: An item that has been used previously. The item may have some signs of cosmetic wear, but is fully operational and functions as intended. This item may be a floor model or store return that has been used. See the seller’s listing for full details and description of any imperfections. ...

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