CHECK OUT THE WIKI The purpose of the wiki is mainly to allow you to find information on instruments, either from either
- The model number
- The function(s) listed below. Some instruments have multiple functions - for example, the 4195A is a VNA, spectrum analyzer and an impedance analyzer. Therefore the 4195A is listed in multiple categories
Please also check out HPWiki available here:
- Accessory kits - various types
- AC power analyzers - PA2201A and PA2203A
- AC power supplies 6811C, 6812C, 6813C
- Airlines
- Arbitrary waveform generators M8194A
- Amplifiers?493A, 495A?
- Attenuators (optical) 8156A, 8157A, 8158B, 81566A, 81576A,?
- Attenuators (RF) 8494A
- Attenuator set (500 ¦¸) 350C
- Attenuator set (600 ¦¸) 350D
- Attenuator switch driver
- Audio analyzers? 8903A, 8903B, 8903E,? ?
- Base station test sets
- Bit error rate testers (BERTs)
- Cables
- Capacitance meters U1701A, U1701B, 4272A, 4278A, 4279A
- Capacitor Bridge 4270A,
- Capacitor standards 16380A, 16380C,?
- Carrier noise test setsi
- Cesium frequency standards
- Clamp ammeters
- Close field probes
- Crystal Impedance E4915A, E4916A
- Data Acquisition Systems (DAQs)
- DC power analyzers
- DC power supplies 6030A , 6031A , 6032A, 6033A, 6035A, 6131C, 6621A, 6622A, 6623A, 6624A, 6627A, 6255A, 6645A, 6671A, 6672A, 6673A, 6674A, 6675A, 62003A, 62003C, 62003E, 62004A, 62004B, 62004E, 62005A, 62005B, 62005E, 62006A, 62006B, 62006E, 62010A, 62010C, 62010E, 62012A, 62012C, 62012E, 62015A, 62015C, 62015E, 62018A, 62018C, 62018E, 62024A, 62024C, 62024E, 62028A, 62028C, 62028E, 62048A, 62048C, 62048E
- Delay lines
- Detectors
- Device current waveform analyzers
- Digital communications analyzers
- Directional couplers
- Distortion analyzers 330B, 330C, 330D, 331A, 332A, 333A, 334A, 339A, 8903A, 8903B, 8903E,???
- Dynamic measurement DC source
- Electrometers
- Fading simulators
- Femto ammeters
- Filters
- Frequency counters 522B, 5342A 5343A 5352B
- Frequency standards?
- Function Generators ? 3310A,? 8165A,
- GPIB controllers, extenders, cables etc.
- GPS frequency standards
- Harmonic mixers
- High resistance meters 4339B
- High resistance meter fixtures 16008B
- HEV EV Grid Emulators and Test Systems
- In-circuit test systems
- Impedance analyzers 4195A, 4291A, 4291B, 4395A, 4396A, 4396B, 4294A, E4990A, E4991A
- Impedance Analyzer Accessories
- Impedance / Gain Phase analyzer 4194A
- Impedance Meter 4193A,
- Isolators
- LCR meters? U1701A, U1701B, U1731A,? U1731B, U1731C, U1732A, U1732B, U1732C, U1733C, 4191A , 4192A, 4194A, 4195A, E4196A,? 4216A, 4260A, 4261A, 4262A? 4263A, 4263B, 4271B, 4274A, 4275A, 4276A , 4277A, 4284A, 4285A, 4286A, 4287A, 4291A, 4291B, 4294A, 4332A, 4342A, 4395A, 4396A, 4396B, E4980A and E4980AL
- LCR meter calibration devices? 16380A 42030A? 42090A, 42091A and 42100A
- LCR meter accessories
- 2-Terminal BNCs.
- 4-Terminal Pair (BNC connectors)
- Cable extension 16048A, 16048D, 16048E, 16048G, 16048H
- DC current bias accessories 42841A, 42842A, 42842B, 42842C, 42843A
- DC voltage bias accessories 16065A, 16065C,
- Kelvin clips 16089A, 16089B, 16089C,16089E
- Lead Components 16047A,16047B, 16047D, 16047E
- Material 16451B, 16452A
- Probes 42941A
- SMD 16034E, 16034G, 16034H
- 2-port 16096A
- 7 mm (APC7)
- 2-Terminal BNCs.
- LCZ meters? 4276A, 4277A,
- Lightwave clock / data receivers
- Lightwave converter
- Lightwave component analyzer
- Lightwave measurement system mainframes
- Lightwave polarization analyzers 8509B
- Logic analyzers
- Nemo wireless network solutions.
- Noise and interference test set
- Noise figure analyzers
- Noise sources 346A, 346B. 346C ,
- Matching pads (50 ohm to 75 ohm or similar)
- Materials test equipment
- Microwave repeaters
- Microwave downconverters 70427A
- Microwave / THz sources
- Milliammeter 428B
- Milliohm meter
- Mobile communications DC source
- Modular instruments
- AXIe
- Data acquisition (DAQ)
- USB
- PXIe
- Modulation analyzers
- Multimeters 427A, 970A
- Optical attenuators
- Optical heads
- Optical sources
- Optical spectrum analyzers
- Oscilloscopes 120A, 120AR, 120B, 122A, 130A, 130B, 130BR, 130C, 140A, 140B, 141A, 150A, 150AR, 160B, 180A, 180AR, 180CD, 181A, 181AR, 181T, 181TR, 182C, 182T, 183A, 183B, 184A, 184B, 185A, 185B, 1200A, 1200B, 1220A, 1221A, 1703A, 1707A, 1707B, 1710A, 1710B, 1715A, 1722A, 1725A, 1726A, 1740A, 1741A, 1742A, 1743A, 1744A, 1746A, 1980A, 1980B, 5403A, 6000A, 6000L, 16533A, 16534A, 54100A, 5410B, 54100C, 5100D, 54111D, 54120A, 54120B, 54200A, 54501A, 54502A, 54503A, 54504A, 54520A, 54520C, 54540A, 54540C, 54542A, 54542C, 54600B, 54601A, 54601B, 54602B, 54603B,? 54645A, 54654N, 54710A, 54720A, 54750A, 54825N, E1428,?
- Oven controlled crystal oscillators (OCXOs)
- Pattern generators
- PCM terminal test set
- Phase noise measurement
- Pico ammeters
- Printers 2225
- Plotters 7470A, 7475A?
- Probes
- Protocol analyzers and exercisers.
- Power booster test sets
- Power meters 431A, 431B, 431C, 432A, 435A, 435B, 437B, 438A
- Power splitters
- Power supplies
- Pulse generators
- Q-meters 4342A?
- Q-meter calibration inductors 16470A
- Reflection transmission test set
- Return loss module (optical)
- Relays / switches / switch matrices (optical)
- Relays / switches / switch matrices (RF)
- Resistor standards 42030A?and 42100A
- S-parameter test sets
- Scalar network analyzers
- SCSI bus preprocessor interface E2324A
- Selective level meters 3746A
- Semiconductors
- Semiconductor parameter analyzers 4145A, 4155B, 4156B,
- Signal analyzers
- Signal generators / sweep generators / signal sources / oscillators 200CD, 201B, 209A, 204D,? 608A,? 8165A
- Software
- Source measure units
- Spectrum analyzers 4195A,???
- Switch control units
- SWR meter 415E?
- Time interval? counters
- Time mark generator 226A
- Timing and data state modules
- Torque wrenches
- Transmitter testers
- Trigger modules
- Ultrasound transducers
- Universal bridge? 4260A, 4265A, 4265B?
- Vacuum tube voltmeter 410C
- Vector Impedance Meter 4193A, 4800A, 4815A
- Vector Network Analyzers (VNAs) 4195A,? 8510A, 8510B, 8510C, 8753A, 8753B, 8753C, 8753D, 8753E, 8753ES, 8752ET, 8719A, 8719B, 8719C, 8719D, 8720A, 8720B, 8720C, 8720D, 8720ES, 8722A, 8722B, 8722C, 8722D, 8722ES,
- Vector Network Analyzers (VNA) calibration kits 85032B, 85032E, 85033C, 85033D, 85033E, 85050B, 85050C, 85050D, 85052B, 85052C, 85052D, 85054A, 85054B, 85054D, 85056A
- Vector Network Analyzer (VNA) verification kits
- Vector Signal Analyzer 89650S, 89600S
- Vector voltmeters 8405A, 8508A,
- VXI mainframes 70000B, 70000C
- Waveform and function generators
- Waveguide to waveguide and waveguide to coaxial transitions.
- Wireless 58 OTA chambers
- Wireless channel emulators
- Wireless network emulators
- Wireless communication test sets
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Re: Measuring Phase with Agilent E5062A ENA
Indeed! Yeah, unfortunately, the ENA won't do it.? Not sure if some of the new ones will or not..... I've been retired too long! Still have to get back up your way... maybe in the spring! Daun
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Daun Yeagley
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#92657
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Re: Measuring Phase with Agilent E5062A ENA
Hi Daun....long time no chat. Yup understand 100% but was hoping that the ENA had a function to do that for me. There are some "VNA's" that will do that for you. I guess this one will not hi-hi.
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Gedas
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#92656
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Re: Measuring Phase with Agilent E5062A ENA
Gedas, what you are seeing is "phase wrap".? The detectors in the VNA's can't resolve more than 360 degrees... 370 degrees looks the same as 10 degrees! The only way you can do it is to count how
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Daun Yeagley
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#92655
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Measuring Phase with Agilent E5062A ENA
Can someone point me to some reading material to help me understand how to measure phase on my ENA? I have the operators manual but it is not at all helpful. In short I chose a simple ~19" length
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Gedas
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#92654
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Re: Readings from 436A power meter using 82357B USB-GPIB?
Hi Staffan Yes, you need to meter to be in addressable mode (or as you say, "normal"). If you use the interactive IO, you would use the "Send and Read".. Type the command to fetch the reading in the
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Daun Yeagley
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#92653
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WANTED: HP 606B Sig Gen RF Output Attenuator Module A10
Needed to repair a 606B. My preferred repair solution is to replace the faulty A10 attenuator module with a serviceable module. The existing module has three coax cables hard-wired internally to it -
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Graeme Dennes
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#92652
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Re: Issue with homemade diode power sensor for HP meters
Hi Tobias!? Great experiment. Now add C2 & C3, c6,c7,c5 & c8.? These caps are part of the AC circuit and are used for balance in the autozero (C2 & C3). HP did not put in parts they did not need! I
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Jeff Kruth
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#92651
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Re: A homemade diode power sensor for HP meters
The worrying thing is the Chinese counterfeiters will probably do just that. eBay seller yixunhk springs to mind - someone called them the HP rebirthing centre. I can see them "rebirthing" power
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Dr. David Kirkby from Kirkby Microwave Ltd <drkirkby@...>
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#92650
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Re: A homemade diode power sensor for HP meters
Hi Tobias, I looked at the OP again, and realized that you already knew about the "mount" resistor - I didn't notice that the first time. I grabbed that 8484A manual pdf that Orin linked - thanks
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Ed Breya
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#92649
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Readings from 436A power meter using 82357B USB-GPIB?
Hello, Just got hold of an old HP436A power meter and would like to do some automated measurements. Controlling the instrument is simple using the 82357B USB-GPIB module (I can set range etc), but
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Staffan
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#92648
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Re: A homemade diode power sensor for HP meters
Hi Robert, yes, I have an extra diode. While the RF has negative polarity, the 3.3nF capacitor gets charged through the bottom diode. As soon as the RF has positive polarity, the top diode conducts,
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Tobias Pluess
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#92647
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Re: A homemade diode power sensor for HP meters
Hi , it seems to me that q1 and q2 (FET) form an electronic key. then the capacitors must be there for the switch to work properly without switching aberrations. Already C7 and C8, possibly keep the
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joarez siczkoriz
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#92646
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Re: A homemade diode power sensor for HP meters
You seem to have an extra diode, no terminator and reversed polarity. The terminator is probably the issue. The 11863A calibrator manuals may give some clues too.
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Robert G8RPI
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#92645
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Re: A homemade diode power sensor for HP meters
Orin beat me to it but BAMA also have a copy (with some the change sheets) at: http://bama.edebris.com/manuals/hp/8484a/ I bought a box of a dozen dead 84xx sensors a while back for about 60 USD, with
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Adrian Nicol
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#92644
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Re: A homemade diode power sensor for HP meters
8484A diode sensor schematic is here... http://www.dudleylab.com/08484-90019-PowerSensor.pdf wrote:
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Orin Eman
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#92643
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Re: A homemade diode power sensor for HP meters
Robert, do you own a schematic of the diode sensors? The schematic for the thermocouple sensors was hard enough to obtain. In the current service manuals, there are of course no schematics at all, and
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Tobias Pluess
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#92642
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Re: A homemade diode power sensor for HP meters
Interesting project. The diagram you show is for the Thermocouple "A" suffix sensor. While the principle and basic circuit is the same for diode and thermocouple, the A2 PCB is different so there must
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Robert G8RPI
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#92641
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Re: Yet another TG project
I have added a new picture, showing the low frequency end performance: /g/HP-Agilent-Keysight-equipment/photo/78668/1?p=Name,,,20,1,0,0 The upper trace A is the TG output near 0 dBm,
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Ed Breya
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#92640
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Re: A homemade diode power sensor for HP meters
@Peter thanks. Yes, exactly, the meters themselves are really cheap. I currently don't have access to some blown 8481A or similar sensors, so I cannibalized a sensor cable :-( because the connectors
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Tobias Pluess
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#92639
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Re: A homemade diode power sensor for HP meters
Very cool, Tobias. You may want to study up on the interface between the 436 and sensor heads. There's typically a particular resistor in each head type for identification by the 436 - it then figures
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Ed Breya
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#92638
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