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ICS Electronics Corporation
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700-8MB-05
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700-8MB-05 POLARIZATION ANALYZER
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Agilent
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E4406A
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Agilent E4406A Vector Signal Analyzer with Options B78 & BAC
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The E4406A is a modern vector signal analyzer capable of characterizing most of the world's cellular communications signal standards quickly. Its speed and price make it ideally suited for volume production environments. Extensive one-button measurement personalities and baseband inputs provide unparalleled convenience for research and development.
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Anritsu
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MD1620B
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Anritsu MD1620B Signalling Test with opt 1, 2, 3
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Anritsu MD1620B Signalling Test. Serial Number: M21387
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Anritsu
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MD6420A
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Anritsu MD6420A Data Transmission Analyzer
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Anritsu MD6420A Data Transmission Analyzer.
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Anritsu
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ME0313B
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Anritsu ME0313D 2.5GHz Jitter Detector
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Anritsu ME0313D 2.5GHz Jitter Detector.
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Anritsu
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ME3401A
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Anritsu ME3401A Digital Transmission Analyzer w/Opt. 41
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Anritsu ME3401A Digital Transmission Analyzer.
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Anritsu
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ME3620A
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Anritsu ME3620A Analyzer SDH/ Sonet Receiver Mainframe
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Anritsu ME3620A Analyzer SDH/ Sonet Receiver Mainframe.
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Anritsu
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ME3620A
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Anritsu ME3620A SDH/Sonet Analyzer Transmitter with ME0315B, ME0314B, ME0312B
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The ME3620A can access the Network Node Interface (NNI) of Synchronous Multiplexer/Demultiplexer systems in the world at 52, 156, 622, and 2488 Mb/s. The transmitter and receiver are housed in separate cabinets and can be operated independently.
The analyzer has a variety of modules so the required measurement can be easily performed just by changing the module. In particular, a wide variety of optical sender units is available at 1.31/ 1.55 wavelengths, along with a wide variety of optical receivers and jitter units at various bit rates.
Includes ME0204B and ME0303D. Unit was calibrated on October 23, 2006.
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Anritsu
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MP1520B
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Anritsu MP1520B PDH Analyzer W/ Options 01-04-06
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Anritsu MP1520B PDH Analyzer W/ Options 01-04-06. 220-240V.
Quality Control Information About This Instrument:
As part of TechRecovery?s Inbound Quality Control Procedure, this instrument is guaranteed to be within all OEM specifications and has been calibrated by an accredited independent calibration lab to NIST traceable standards. Should you require a fresh calibration and or an extended warrantee, one can be purchased for an additional charge.
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Anritsu
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MP1560A
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Anritsu MP1560A STM Sonet Analyzer w/ Opt 01, 02, 03
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The MP1560A STM/SONET Analyzer is an error analyzer for the Network Node Interface (NNI) of the Synchronous Digital Hierarchy (SDH). The MP1560A provides many useful functions for evaluating equipment during design, manufacturing, and development and is especially suited for evaluating the transmission characteristics of the 52, 100, and 156 Mb/s interfaces used in SDH equipment. The transmitter and receiver are housed in one frame and optical interfaces (plug-in unit) are provided.
Features:
- Meets mappings for ITU-T (Europe), SONET (North America), and Japan
- Can be used to analyze a variety of signal sources: optical (1.31/1.55 ěm), unipolar, CMI, B3ZS (52 Mb/s), AMI (100 Mb/s)
- Many measurement items and functions for inserting alarms and errors
- OH byte can be set and monitored
- ADD and DROP for 1.5 Mb/s, 2 Mb/s, 64 kb/s, 192 kb/s, 576 kb/s
- Built-in floppy disk drive
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Anritsu
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MP1656A
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Anritsu MP1656A Portable STM-16 Analyzer with options 01 and 21
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Anritsu MP1656A Portable STM-16 Analyzer.
Includes options 1 and 21.
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Anritsu
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MP1777A
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Anritsu MP1777A Jitter Analyzer with Options 02 and 10
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The MP1777A is a measurement solution for jitter
evaluation. It supports both the STM-16/32/64 and
OC-48/96/192 bit rates. In addition to supporting
the bit rates of 2488.32, 4976.64, and 9953.28 MHz, options can add other bit rates. The MP1777A can evaluate jitter characteristics, including jitter tolerance, jitter transfer and output jitter, which are parameters most commonly used to evaluate digital lines.
Includes option 02: 2666M/5332M/10664M Jitter
Includes option 10: High sensitive input of 0.15 to 1.3 Vp-p
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Anritsu
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MT8801B
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Anritsu MT8801B Radio Communications Analyzer with Options 01 and 02
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Anritsu MT8801B Radio Communications Analyzer.
S/N MB17285, Software: MX880113A, MB12185.
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CTC
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T-Star 2000-T1E1D
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CTC T-Star 2000-T1E1D COMMUNICATIONS ANALYZER
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HP
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18179A
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HP 18179A RS-232C/V.24 Interface
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HP
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3710A
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HP 3710A IF/BB Transmitter
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HP
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3764A
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HP 3764A Digital Transmission Anaylzer
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HP
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3782B
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HP 3782B Error Detector
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HP
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18294A
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Hp Agilent 18294A X.21 INTERFACE
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Agilent
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3570A
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HP Agilent 3570A Network Analyzer
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The HP Agilent 3570A: is a network analyzer. For use with the 3320A/B or 3330B.
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Agilent
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3784A
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HP Agilent 3784A Digital Transmission Analyzer
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The HP 3784A is a portable error performance/jitter test set, offering standard telecom interfaces at 704 kb/s, 2, 8 and 34 Mb/s. In addition, it has binary TTL/ECL interfaces for measurements up to 50 Mb/s, using the internal clock synthesizer. The 3784A is easy to use with measurement presets, automatic reciever setup and error performance pass/fail thresholds. Automatic jitter tolerance and transfer plotting routines are provided for fast accurate testing up to and beyond CCITT limits. Through-data mode allows jitter to be added to a structured signal for jitter tolerance testing demultiplexers.
- G.821 error analysis at 704kb/s, 2, 8 and 34MB/s
- Clock synthesizer for rates between 1 kb/s and 50Mb/s
- Applications:
- Automated production test of transmission line and terminal equipment
- Development and test of digital circuits that transport or store data
- Long term monitoring of digital transmission equipment in the field
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Agilent
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3784A
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HP Agilent 3784A Digital Transmission Analyzer Opt. 061
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The HP 3784A is a portable error performance/jitter test set, offering standard telecom interfaces at 704 kb/s, 2, 8 and 34 Mb/s. In addition, it has binary TTL/ECL interfaces for measurements up to 50 Mb/s, using the internal clock synthesizer. The 3784A is easy to use with measurement presets, automatic reciever setup and error performance pass/fail thresholds. Automatic jitter tolerance and transfer plotting routines are provided for fast accurate testing up to and beyond CCITT limits. Through-data mode allows jitter to be added to a structured signal for jitter tolerance testing demultiplexers.
- G.821 error analysis at 704kb/s, 2, 8 and 34MB/s
- Clock synthesizer for rates between 1 kb/s and 50Mb/s
- Applications:
- Automated production test of transmission line and terminal equipment
- Development and test of digital circuits that transport or store data
- Long term monitoring of digital transmission equipment in the field
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Agilent
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4145B
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HP Agilent 4145B Semiconductor Parameter Analyzer - CALIBRATED (no triax cables)
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Our used HP Agilent 4145B Semiconductor Parameter Analyzer.
Fully automatic, high-speed dc characterization of semiconductor devices
High resolution, wide range sourcing and measurement. I: 1pA - 100mA, V: 1mV - 100V
Maximum 1150 measurement and display points for precise measurement and analysis
Flexible graphic analysis functions for quick parameter extraction
Built-in micro flexible disc drive for storage of 240 user programs or 105 measurement results
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Agilent
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4951A
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HP Agilent 4951A Protocol (No LID) Option: 01
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HP Agilent 4951A Protocol Analyzer.
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Agilent
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4951B
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HP Agilent 4951B Protocol Analyzer (No LID) Option:01
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HP Agilent 4951B Protocol Analyzer (No LID).
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Agilent
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4952A
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HP Agilent 4952A Protocol Analyzer (No LID)
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HP Agilent 4952A Protocol Analyzer (No LID).
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Agilent
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4957A
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HP Agilent 4957A Protocol Analyzer (No LID)
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HP Agilent 4957A Protocol Analyzer (No LID).
The 4957A is a portable and rugged protocol analyzer in a compact package. Powerful capability and 64Kb/s performance for quick isolation of problems during installation, maintenance, and design of data communication networks and equipment.
- Compatible with remote troubleshooter software for unattended remote testing
- Built-in RS-232C, RS-449, and V.35 interfaces make the 4957A lightweight and easy to carry
- 768KB extended capture buffer provides the space needed for solving intermittent problems or analyzing lengthy transactions
- LCN and called/calling address filter efficiently locates problems in X.25 networks
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Agilent
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4957A
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HP Agilent 4957A Protocol Analyzer with Option 001
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The 4957A is a portable and rugged protocol analyzer in a compact package. Powerful capability and 64Kb/s performance for quick isolation of problems during installation, maintenance, and design of data communication networks and equipment. Unit has option 001.
- Compatible with remote troubleshooter software for unattended remote testing
- Built-in RS-232C, RS-449, and V.35 interfaces make the 4957A lightweight and easy to carry
- 768KB extended capture buffer provides the space needed for solving intermittent problems or analyzing lengthy transactions
- LCN and called/calling address filter efficiently locates problems in X.25 networks
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Agilent
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70820A
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HP Agilent 70820A Microwave Transition Analyzer
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The Agilent 70820A microwave transition analyzer module is a two-channel sampler-based time-domain instrument for making stimulus-response measurements from dc to 40 GHz. It makes CW and pulse-RF measurements, specializing in measuring fast magnitude and phase transitions.
It is ideal for characterizing components and systems in a benchtop environment. You can measure magnitude and phase settling times, rise and fall times, time delay, peak and average power, group delay, AM to PM conversion, analysis of AM, FM, and PM on RF carriers and much, much more.
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Agilent
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83480A
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HP Agilent 83480A Analyzer Mainframe (*mild screen burn*)
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Our 83480A analyzer has screen burn but functions well. We have lowered our price becasue of this cosmetic issue.
The 83480A digital communications analyzer is a powerful and versatile instrument for characterizing high-speed digital communications waveforms.
The 83480A is a modular platform that accepts up to two plug-in modules. Integrated optical channels include calibrated reference receivers for 155, 622, 1063, 1250, 2488, and 9953 Mbit/s SDH/SONET, fibre channel, or Gbit Ethernet transmitter test.
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Agilent
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83522A
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HP Agilent 83522A RF Plug-In
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HP Agilent 83522A RF Plug-In.
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Agilent
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83545A
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HP Agilent 83545A RF Plug-In Option: 004
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HP Agilent 83545A RF Plug-In.
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Agilent
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8418B
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HP Agilent 8418B Polar Display
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HP Agilent 8418B polar display. Used in conjunction with a 8410C network analyzer, it provides the capability of viewing amplitude and phase readout in both rectangular and polar coordinates simultaneously
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HP
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8591C
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Hp Agilent 8591C Cable TV Analyzer
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The Agilent 8591C Cable TV analyzer provides dedicated non-interfering RF and video measurements in a durable, economical instrument. The one-button measurements can be used for flexible troubleshooting or to test the entire system automatically at the touch of a button. The flexible hardware and software design lets you easily upgrade the analyzer to accommodate changes in required measurements and measurement techniques. For added flexibility, NTSC format is standard, with options available for worldwide PAL and SECAM formats and frequency plans.
*Twenty-millisecond RF sweep time
*±1.5 dB frequency response accuracy
*One-button FCC proof of performance CATV measurements
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Agilent
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86230B
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HP Agilent 86230B RF Plug-In Options: 001,004
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HP Agilent 86230B RF Plug-In. 1.8 - 4.2GHz.
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Agilent
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86241A
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HP Agilent 86241A RF Plug-In
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HP Agilent 86241A RF Plug-In.
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Agilent
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86245A
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HP Agilent 86245A RF Plug-In
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HP Agilent 86245A RF Plug-In.
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Agilent
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8713C
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HP Agilent 8713C Economy Network Analyzer: 300 kHz to 3 GHz
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The 8713C is a 300 kHz to 3 GHz network analyzer.
Quality Control Information About This Instrument:
Should you require a fresh calibration, one can be purchased for an additional charge.
Please Note: slight screen burn, right rear corner dinged
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Agilent
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8750A
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HP Agilent 8750A Storage Normalizer
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The 8750A Storage Normalizer is for use with Network and Spectrum Analyzers. It provides simple CRT photos and X-Y recordings plus digital storage and normalization.
Serial Number: 2045A03204
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Agilent
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8752C
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HP Agilent 8752C RF Network Analyzer with Option 006
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The 8752C is an RF network analyzer with a built-in transmission/reflection test set and option 006 installed.
Quality Control Information About This Instrument:
As part of TechRecovery?s Inbound Quality Control Procedure, this instrument is guaranteed to be within all OEM specifications and has been calibrated by an accredited independent calibration lab to NIST traceable standards.
This item was calibrated July 22, 2008
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HP
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8756A
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HP Agilent 8756A Network Analyzer
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Measure insertion loss and gain, return loss, and absolute power quickly and accurately with the HP 8756A scalar network analyzer. These scalar measurements can be performed over a broad 10 MHz to 60GHz frequency range
- High(40dB) directivity bridges
- "Autoscale" for fast measurements
- Full HPIB programmability
- Fully annotated digital display
- Nine "Save/Recall" registers
- Direct digital plot capability
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Agilent
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8903E
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HP Agilent 8903E Distortion Analyzer
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The Agilent 8903E distortion analyzer provides unparalled versatility and performance for audio measurements from 20 Hz to 100 kHz. The 8903E combines the functionality of a high performance distortion analyzer, frequency counter, ac voltmeter, dc voltmeter and SINAD meter into one compact package.
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HP
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HP Agilent 8903E Distortion Analyzer Option: 001
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HP
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8980A
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HP Agilent 8980A Vector Analyzer
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The HP 8980A is our used Vector Signal Analyzer. It features:
* analyzes coherent phase and amplitude modulation
*350 MHz Q vs. I bandwidth
*Markers for measuring phase, amplitude and time
*12 bit digitizing for HP-IB measurments
The HP8980A can be usedto adjust and trouble shoot an I/Q demodulator directly. The I/Q outputs of thedemodulator are connected directly to the HP8980A. It can display the constellations of high-rate modulation schemes such as QPSK, 16QAM, 40PRS, 64QAM, and 56QAM. It also makes statistical measures of system quality like closure, lock angle error and quadrant error. |
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HP
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8991A
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Hp Agilent 8991A Peak Power Analyzer
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Hp Agilent 8991A Peak Power Analyzer |
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Agilent
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E4209B
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HP Agilent E4209B Cell Protocol Processor 0-155MB/s
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The E4209B Cell Protocol Processor provides real-time and post-processing protocol testing features for the HP Broadband Series Test System (BSTS). The basic CPP assembly and system software can perform monitoring and simulation of ATM, F4 and F5 OAM, and AAL1 protocols. The CPP can be: configured with many different Line Interfaces at rates from 1.5 to 622 Mb/s, including: E1616A 1.5/45 Mb/s (DS1/DS3), E1610A 34 Mb/s (E3), E1695A 45 Mb/s (DS3), E1697A 155 Mb/s (STS-3c/STM-1) Optical, as well as E4219A ATM Network Impairment Emulation Module. The CPP can generate up to eight streams of user-defined ATM traffic. It also provides both real-time and post-processed measurements on ATM traffic. Measurements are automatically synchronized between devices in the test session.
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Agilent
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e4219a
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HP Agilent E4219A ATM Network Impairment Emulator Module
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HP Agilent E4219A ATM Network Impairment Emulator Module
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Agilent
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e4821a
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HP Agilent E4821A Parallel cell/traffic gen./analyzer mod.
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HP Agilent E4821A Parallel cell/traffic gen./analyzer mod.
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Agilent
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E5904B
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HP Agilent E5904B Option 300 ARM Trace Port Analyzer
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HP Agilent E5904B option 300 ARM trace port analyzer.
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Agilent
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E7473A
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HP Agilent E7473A CDMA Drive Test System with Option 320
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The E7473A CDMA drive test system provides comprehensive characterization of the RF environment and call-based performance for CDMA networks in the PCS and cellular bands. Integration of RF coverage and service quality measurements delivers a complete solution for CDMA drive testing. The E7473A system combines Windows95/98/NTą software with CDMA mobile phone(s) and/or Agilent digital RF receiver(s). The E7473A system requires a PC. The minimum
PC requirements are:
- Pentium® processor (233 MHz)
- Windows® 95, 98 or Windows NT® (4.0 or greater)
- RS-232 (DB9) serial port
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- PCMCIA slot (two if using more than two phones)
- 32 MB RAM if using Windows 95 or 98
- 64 MB RAM if using Windows NT
- 50 MB disk space for software installation
- 400 MB disk space recommended for data
- CD-ROM drive recommended
- 800 x 600 display resolution
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Agilent
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E7473A
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HP Agilent E7473A CDMA Drive Test System with Option 330
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The E7473A CDMA drive test system provides comprehensive characterization of the RF environment and call-based performance for CDMA networks in the PCS and cellular bands. Integration of RF coverage and service quality measurements delivers a complete solution for CDMA drive testing. The E7473A system combines Windows95/98/NTą software with CDMA mobile phone(s) and/or Agilent digital RF receiver(s). The E7473A system requires a PC. The minimum
PC requirements are:
- Pentium® processor (233 MHz)
- Windows® 95, 98 or Windows NT® (4.0 or greater)
- RS-232 (DB9) serial port
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- PCMCIA slot (two if using more than two phones)
- 32 MB RAM if using Windows 95 or 98
- 64 MB RAM if using Windows NT
- 50 MB disk space for software installation
- 400 MB disk space recommended for data
- CD-ROM drive recommended
- 800 x 600 display resolution
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Agilent
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j2300c
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HP Agilent J2300C with Opt. 221
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HP Agilent J2300C with Opt. 221
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Agilent
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j2301b
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HP Agilent J2301B with Opt. 200, 220, 221
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HP Agilent J2301B with Opt. 200, 220, 221
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HP
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J2306B
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HP J2306B INTERNET ADVISOR Undercradle
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LeCroy
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DDA-125
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Lecroy DDA-125 Disk Drive Analyzer
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Anritsu
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ME462B
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ME462B Transmission Anaylzer (Receiver)
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Microwave Logic
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SDH / Sonet
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Microwave Logic ST103 TX Analyzer DS1 to OC3
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Features: 1) VT Channel Scan.2) Multiple SONET Alarm Generation.3) J1 Trace Byte Programming.4) Quick Setups.5) User-defined Configurations.6) Non-SONET Testing.7) Payload Mappings.8) Multiple Outputs.9) DCC and Orderwire Access.10) Payload Frame Formats.11) Switch Time and Payload Delays.12) SONET Loop Timing.13) LabVIEW for Windows Compatibility.14) Receiver Frame Capture.15) RS-232, GPIB, and Parallel Printer Interfaces.16) Both Bit-and Byte-synchronous VT 1.5 Payload mappings with SLC-96 and ESF Frame Formats.7) SONET Data Communications Channel Access.18) Multiple Simultaneous SONET Alarms.19) 87/3 and Burst-of-7 Pointer Stress Sequences.20) SONET Line Loop Timing on an OC-n Signal.21) APS Switching Time and SPE Transport Delay Measurements.22) VT 1.5 Payload Analysis, 7X4 and 1X28 Mapping.23) DSI through OC3 standard (optional OC12). Actual unit pictured |
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Data Transit
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Pro64-128K Analyzer
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Pro64-128K Analyzer
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Comes with Power Supply and ProUSB Smart |
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Rohde & Schwarz
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UPD
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Rhode and Schwarz UPD Audio Analyzer OEM refurb CALIBRATED
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The Rohde & Schwarz UPD, Audio Analyzer, performs practically all types of audio measurement, from frequency response measurements through to externally controlled sweeps with reference traces, determination of 3rd-order difference frequency distortion, spectral display of demodulated wow and flutter signals, etc. In contrast to many other audio analyzers, Rohde & Schwarz UPD, Audio Analyzer, is capable of performing real dual-channel measurements in the audio-frequency range, ie: there is no need for switchover between two inputs and this type of measurement is not limited to a few special cases.
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Motorola
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S1339A
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S1339A Communication Analyzer
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Advanced Signal
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SignalPro Analyzer
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SignalPro Analyzer
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Tektronix
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CSA7404
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Tektronix CSA7404 Communications Signal Analyzer with Options 1M and JT3
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The CSA7404 is a digital communications signal analyzer. The vertical system features 4 channels with an analog bandwidth of 4 GHz. The optoelectronic system features a 2.4 GHz optical channel unfiltered bandwidth and a wavelength range of 700 to 1650 nm. Full specifications available by email upon request.
Unit has options 1M: 2 MSample record length and JT3: advanced jitter analysis.
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TTC
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T-Berd Tberd 310
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TTC T-Berd 310 Communications Analyzer
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SONET/ SDH/T-Carrier transmission testing from DS1 to OC48/STM-16 rates
ATM testing capabilities for DS1,DS3, OC3, and OC12 rates
Optical media testing (ORL, IL) at all optical rates up to OC48
Upgradeable, rugged, portable unit ideal for use in central office, lab, mobile telephone switching office, and manufacturing floor
Combines comprehensive electrical-optical and high-speed optical testing in one dynamic and upgradeable instrument
Provides flexible testing platform for central office, laboratory, manufacturing or outside plant environments
Maximizes your investment potential with convenient and easy-to-use upgrade options
Improves field test process control and tracking with automatic setup and electronic capture of test results via T-BERD AutoMATE
310-1: DS1/DS0
310-5: DS3 Jitter
310-9B: ENHAN DS1 Test
310-11: 3 Slot expansion
310-17A: DS1/DS3 ATM Analyzer
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Wandel and Goltermann
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DA-30C
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Wandel and Goltermann DA-30C Protocol Analyzer
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Wandel & Goltermann DA-30C Protocol Analyzer.
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Wandel and Goltermann
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PF45
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Wandel and Goltermann PF45 Analyzer
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Wandel & Goltermann PF45 Analyzer. Various Options available. Please contact sales.
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Wandel and Goltermann
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Wandel and Goltermann PF45 Analyzer Options: BN 9402/02, BN 9402/00.06, BN 9402/00.09, BN 9402/00.12
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Wavecrest
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DTS 2070C
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Wavecrest DTS-2070C 01-110 / 230 Digital Time Scope
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The DTS 2070 is a precise, high-speed time measurement instrument designed for use in automated lab and production environments where large amounts of accurate and repeatable data are required. Because of the patented calibration technique used in the DTS design, the linearity and repeatability of all timing measurements can be guaranteed to tight tolerances.
Calibration is based on a built-in standard with 0.1 femtoseconds of accuracy in 10.0 nanoseconds. The single-shot speed of the DTS enables it to take many measurements in a burst, to verify jitter distributions or to simply verify good continuity on contacts in a production environment.
Valuable settling time and instantaneous cycle-to-cycle pattern data allows the designer to accurately assess company products under dynamic conditions ? without relying on only pass/fail data as provided by go-nogo BERT box testing. The settling time and data enable true jitter margin testing. Therefore, the IC manufacturer can accurately provide their customers with conclusive jitter specifications.
The noise floor of the DTS 2070 is low enough so jitter data can be read directly. Histogram data can then be taken up to 1000 times faster than with some Digital Sampling Scopes. Because the DTS uses high bandwidth input comparators instead of DSO sampling head, special smoothing algorithms are not required to enhance the data. Because rms jitter assumes a Gaussian distribution, it is important to verify that jitter distributions are not bimodal in nature. If histogram distributions are not desired, the TPDs can be measured in the single-shot mode with little change in accuracy.
Input 110/230 vac freq 50/60 Hz all inputs + 1.3 vac max |
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