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{{Oscilloscope Sidebar |
{{Instrument Sidebar  
title=Tektronix 492 |
|class=Spectrum Analyzer
summary=Spectrum Analyzer 10 kHz to 21 GHz |
|manufacturer=Tektronix  
image= Tek 492 3.jpg |
|model=492  
caption=Tektronix 492 |
|summary=21 GHz Spectrum Analyzer
introduced=1980 |
|image=Tek 492 3.jpg
discontinued=1993 |
|caption=Tektronix 492  
manuals=
|introduced=1980  
Need 492 Programmers Manual
|discontinued=1993  
* [[Media:070-2726-03.pdf| Tektronix 492 & 492P Operator Manual (PDF, OCR)]]
|designers=Larry Lockwood;Steve Morton;Linley Gumm;Robert Alm;Bob Bales;Carlos Beeck;Bill Benedict;Craig Bryant;Russell Brown;Wes Hayward;David Leatherwood;Gordon Long;Dave Morton;Bill Peterson;David Shores;Steve Skidmore;Dennis Smith;Phil Snow;Leighton Whitset;Norman Witt;
* [[Media:070-3783-01.pdf| Tektronix 492 & 492P Service Manual – Volume 1 (PDF)]]
|manuals=
* [[Media:070-3784-01.pdf| Tektronix 492 & 492P Service Manual – Volume 2 (PDF)]]
'''492/492P'''
* [[Media:050-1467-01.pdf| Product modification – Variable Resolution Module Replacement (PDF) ]]
* [[Media:070-2729-00.pdf|Tektronix 492(P) Operators Handbook]]
* [[Media:Tek_492_Catalog_Spec_1980.pdf| Tektronix 492 Introduction Spec (PDF, OCR)]]
* [[Media:070-2726-02.pdf|Tektronix 492(P) Operator Manual -02]] (OCR)
* [[Media:Tek_490-Series_Final Spec_1991.pdf| Tektronix 492 Final Spec (PDF, OCR)]]
* [[Media:070-2726-03.pdf|Tektronix 492(P) Operator Manual -03]] (OCR)
 
* [[Media:070-2727-03.pdf|Tektronix 492(P) (SN B029999 & below) Service Volume 1]]
* [[Media:070-3783-01.pdf|Tektronix 492(P) Service Manual – Volume 1]]
* [[Media:070-2852-01.pdf|Tektronix 492(P) Service Manual - Volume 2 July 1979]]
* [[Media:070-3784-01.pdf|Tektronix 492(P) Service Manual – Volume 2 December 1987]]
* [[Media:TM_11-6625-3136-24P.PDF|Military manual for 492 2 June 1986]]
 
* [[Media:070-3401-00.pdf|Tektronix 492P Programmers Manual]] (OCR)
 
'''492A/492AP/492BP'''
* [[Media:070-5562-01.pdf|Tektronix 492A(P) Operators Manual -01]]
* [[Media:070-5562-00.pdf|Tektronix 492A(P) Operators Manual -00]]
* [[Media:070-5566-01.pdf|Tektronix 492A(P) Service Manual Vol.2]]
 
* [[Media:070-5564-01.pdf|Tektronix 492AP/492BP Programmers Manual]]
'''Modifications'''
* [[Media:050-1467-01.pdf|Product modification – Variable Resolution Module Replacement]]
'''Specifications'''
* [[Media:Tek_492_Catalog_Spec_1980.pdf|Tektronix 492 Introduction Spec]] (OCR)
* [[Media:Tek_490-Series_Final Spec_1991.pdf| Tektronix 492 Final Spec]] (OCR)
}}
}}
The '''Tektronix 492''' is a spectrum analyzer with a frequency range of 10 kHz to 21 GHz in coax, and up to 325 GHz with external waveguide mixers (492PGM N/A).  The '''P''' suffix designation indicates GPIB '''P'''rogrammability. 
During the lifespan of the instrument, the specifications and included options were altered several times. A major upgrade was the introduction of the '''492A''' in 1987 which added marker functionality and resolution bandwidths and the '''492BP''' in 1989 which added a counter and increased the displayed dynamic range. The '''492PGM''' is a cost reduced version introduced in 1990. Also see [[49X Series Comparison]].
Regarding the 492, [[Linley Gumm]] says,
<blockquote>
Given how complicated it was,  many people contributed to the design.  I currently have a list of 20 people. 
The problem is that I’m sure that I am missing several people and I hate to submit a list without them.


The '''Tektronix 492''' is a spectrum analyzer with a frequency range of 10 kHz to 21 GHz in coax, and up to 325 GHz with external waveguide mixers (492PGM N/A)The '''P''' suffix designation indicates GPIB '''P'''rogrammabilityThe minimum resolution bandwidth is 100 Hz, and provides measurement resolution proportional to the frequency accuracy or span.  With non-volatile memory (NVRAM) you can save up to 9 waveform displays, up to 10 complete front panel measurement parameter setups, and 8 K for programming macros of commonly used routines.
The 492 was designed at the request of the militaryThey asked for a modern replacement of the [[491]].   
It was required that it provide coaxial input coverage of the lower microwave bands (~18 GHz),  
be very rugged, be a one person carry and fit through a submarine hatch. 
There was a lot more than that of course.


The single and delta markers provide direct readout of frequency and amplitude information of any point along any displayed traceOr, get the relative (delta) frequency and amplitude information between any two points along any displayed trace or between traces.
When the 492 program started I was the project leader of the [[7L18]] and was still working to finish it off.   
The 7L18 was the first instrument at Tektronix to use a microprocessor. 
We had worked long and hard to learn how to electronically switch and control all the elements that were controlled by physical switch closures in the earlier instruments.


Additional features include: Continuous Resolution Frequency Tuning, Up to 90 dB Viewable Dynamic Range, Built-in Frequency Counters Provide Frequency Determination to within 0.0000001%, Sensitivities to -134 dBm, Built-in Intelligence for Signal Processing/Marker Functions, Push Button Occupied-Bandwidth/Noise Normalization Functions, Macro Capability with Nonvolatile Memory, Optional Switch-Selectable 50/75Ω Impedances, GPIB Programming with Tek Codes and Formats for Standardized Bus Operation, and optional MATE/CIIL Compatibility for Military Applications.
Understand that to position the frequency of a YIG filter correctly with respect to the frequency of a YIG oscillator
one must generate very quiet DC voltages accurate to roughly 1 part in 20,000 (i.e. 1 MHz in 18 GHz), so new control techniques were required. 
Plus the TEK-made YIG filter designed for the 7L18 was therefore ready for use in the 492.


Front panel inputs/outputs are: RF INPUT 50Ω [[N connector]] (Input connector for RF signals to 21 GHzIf input signal has a dc component use a blocking capacitor in line with the signals); CAL OUT [[BNC connector]] (Calibrator output provides -20 dBm 100 MHz signal and a comb of frequency markers 100 MHz apart); 1ST LO OUTPUT [[SMA connector]] (Provides access to the output of the 1st local oscillator.  Must be terminated into 50 Ω when they are not connector to an external device); 2ND LO OUTPUT [[SMA connector]] (Provides access to the output of the 2nd local oscillator.  Must be terminated into 50 Ω when they are not connector to an external device); EXTERNAL MIXER RF INPUT [[TNC connector]] (50Ω); and Camera Power .
We had also learned quite a number of things not to do and this was also used to anchor the 492 program. 
I say this to note that most of the long lasting, “classic”, Tektronix products were often the second, but more often the third generation product by the same design group.   
The 492 was definitely a second generation product in its use of microwave components and a microprocessor based control system;
perhaps a third if you lump the [[7L12]], [[7L13]] (microwave systems) and the [[7L5]] (electronic bus control system) together as a first generation.


Rear panel inputs/outputs are: PROBE POWER (Provides operating voltages (+5V, -15 V, +15 V; 100 mA max each) for active probes); HORIZ|TRIG (EXT IN) [[BNC connector]] (A dual function connector: When in External Triggering mode the connector is an AC coupled input for trigger signalsWhen the TIME/DIV selection is EXT the connector is a DC coupled input for horizontal sweep voltages); MARKER/VIDEO (OUTPUT) (B053575 AND UP) or EXT PRESELECTOR (OUTPUT) (B053574 and below) [[BNC connector]] (MARKER/VIDEO interfaces the 492/492P with a TV Sideband Adapter, such as the Tek 1405, so a marker from the adapter is displayed on the internal videoExternal video applied to this connector will also be displayed if pin 1 of the ACCESSORIES connector is grounded.  EXT PRESELECTOR provides a variable voltage (approx -0.2 V to +10 V) that is proportional to center frequency, for preselector bands of Opt. 01 instruments, to drive an external preselector.); Opt. 42 replaces MARKER/VIDEO (OUTPUT) with 110 MHz IF (OUTPUT) [[BNC connector]] (Provides 3 dB signal bandwidth ≥ 4.5 MHz); HORIZ (OUTPUT) [[BNC connector]] (Supplies a 0.5 V/div horizontal signal); VERT (OUTPUT) [[BNC connector]] (Provides access to the video signal with 0.5 V for each division of displayed video above or below the center line.); PEN LIFT (OUTPUT) [[BNC connector]] (Provides access to a TTL compatible signal to lift the pen of a chart recorder during sweep retraceIn Opt. 42 instruments this port may also be used for inputting external video, if pin 1 of the ACCESSORIES connector is ground); use this connector to input external video signals if pin 1 of the ACCESSORIES connector is grounded); 10 MHz IF (OUTPUT) [[BNC connector]] (Provides access to the output of the 10 MHz IF); J104 ACCESSORY (B053575 AND UP) female [[DB25 connector]] (Provides bidirectional access to the instrument bus.  For instruments B053574 and below, this connector has no application.); IEEE STD 488 PORT [[GPIB interface]] (Added to all "P" suffixed instruments)
[[Larry Lockwood]] led the first part of the programHe defined the RF and microwave frequency conversion architecture of the 492.   
As the program progressed, [[Steve Morton]] became the project manager of the initial 492 program.  
Recognize that beyond that initial project, follow-on design work went on for years as new features were added.   
Further, after their initial design work in the initial portion of the project, designers often went on to do rather different subsystems in the follow-ons.


---------------------------------------------------------
I worked on the 492 as a circuit designer in the initial design and in several other roles later, none of which were leadership roles.
Specifications based on final published documentation, unless otherwise specified.
 
The other people I can recall having worked on the 492 at some point in its life were:
[[Robert Alm]],
[[Bob Bales]],
[[Carlos Beeck]],
[[Bill Benedict]],
[[Craig Bryant]],
[[Russell Brown]],
[[Wes Hayward]],
[[David Leatherwood]],
[[Gordon Long]],
[[Dave Morton]],
[[Bill Peterson]],
[[David Shores]],
[[Steve Skidmore]],
[[Dennis Smith]],
[[Phil Snow]],
[[Leighton Whitset]], and
[[Norman Witt]].
 
Be aware my spelling is often “inventive”.  There are at least two other names I can’t bring to mind.
</blockquote>


{{BeginSpecs}}
{{BeginSpecs}}
{{Spec | Frequency Range |  
{{Spec | Frequency |  
* Coaxial Input Bands: 10 kHz to 21 GHz
* Coaxial Input Bands: 10 kHz to 21 GHz
* External Waveguide mixers: 10 kHz to 325 GHz (applies to 492BP not 492PGM) }}  
* External Waveguide mixers: 10 kHz to 325 GHz (applies to 492BP not 492PGM) }}  
{{Spec | Frequency Span Range (plus 0 Hz and MAX) | 492BP: 100 Hz/div to 10 GHz/div; 492PGM: 200 MHz to 1 GHz; both in 1, 2, 5 sequence }}  
{{Spec | Frequency Span | 492BP: 100 Hz/div to 10 GHz/div; 492PGM: 200 MHz to 1 GHz; both in 1, 2, 5 sequence; plus 0 Hz and MAX }}  
{{Spec | Resolution Bandwidth Range (-6 dB bandwidth) | 492BP: 100 Hz to 3 MHz; 492PGM: 1 kHz to 3 MHz; both in decade steps }}  
{{Spec | Resolution Bandwidth (-6 dB bandwidth) | 492BP: 100 Hz to 3 MHz; 492PGM: 1 kHz to 3 MHz; both in decade steps }}  
{{Spec | RF Input impedance | 50Ω }}
{{Spec | RF Input | 50 Ω, max. +30 dBm (1 W) CW; / 75 W peak pulse (1 µs, 0.1% duty factor) }}
{{Spec | Maximum Safe Input Power | CW: +30 dBm (1 W); Pulse: 75 W Pk (1 µS pulse, 0.1% duty factor) }}
{{Spec | RF Attenuator | 0 dB to 60 dB, 10 dB steps }}
{{Spec | RF Attenuator Range | 0 dB to 60 dB, 10 dB steps }}
{{Spec | Reference Level | -117 dBm to +30 dBm }}  
{{Spec | Reference Level Range | -117 dBm to +30 dBm }}  
{{Spec | Sweep Speed | 10 sec/div to 20 µs/div, 1−2−5 }}
{{Spec | Sweep Speed Range | 10 sec/div to 20 µs/div in 1, 2, 5 sequence }}
{{Spec | Video Bandwidth | 492BP: 0.3 Hz to 30 kHz; 492PGM: 3 Hz to 30 kHz }}
{{Spec | Video Bandwidth Range | 492BP: 0.3 Hz to 30 kHz; 492PGM: 3 Hz to 30 kHz }}  
{{Spec | Memory | NVRAM for up to 9 waveform displays, up to 10 front panel setups, plus 8 K for programming macros
}}
{{Spec | Triggering Modes | Free Run, Line, Video, Single, External }}
{{Spec | Triggering Modes | Free Run, Line, Video, Single, External }}
{{Spec | Displayed Average Noise | −30 dBm to −131 dBm }}
{{Spec | Displayed Average Noise | −30 dBm to −131 dBm }}
{{Spec | Display Dynamic Range | 90 dB; 492PGM is only 80 dB }}  
{{Spec | Display Dynamic Range | 492BP: 90 dB; 492PGM: 80 dB }}  
{{Spec | Calibrator (Cal out) | 50Ω, -20 dBm ±0.3 dB at 100 MHz }}
{{Spec | Calibrator (Cal out) | 50 Ω, -20 dBm ±0.3 dB at 100 MHz }}
{{Spec | Included Accessories | Operator’s Manual; Programmer Manual; 6-ft 50Ω coaxial cable N-N; 18-inch 50Ω coaxial cable BNC-BNC; N male to BNC female adapter; rear connector shield; Power Cord; spare fuses; CRT filter set consisting of amber and gray light filters plus mesh filter, 492PGM includes gray CRT filter (no filter set) }}
{{Spec | Weight | 492BP: 21.8 kg (47 lbs) 492PGM: 21.3 kg (46 lbs) }}  
{{Spec | Weight | 492BP: 21.76 kg (47 lbs) 492PGM: 21.3 kg (46 lbs) }}  
{{Spec | Power | 90 − 132 V<sub>AC</sub>, 48 to 440 Hz; 180 – 250 V<sub>AC</sub>, 48 to 440 Hz.  At 115 V<sub>AC</sub>, 60 Hz, 210 W max }}
{{Spec | Power | 90 − 132 V<sub>AC</sub>, 48 to 440 Hz; 180 – 250 V<sub>AC</sub>, 48 to 440 Hz.  At 115 V<sub>AC</sub>, 60 Hz, 210 W max }}
{{Spec | Operating Atmospherics | Temperatures: -15 °C to +55 °C;  Humidity: Five cycles (120 hours) MIL-STD-810; Altitude: Up to 4.6 km (15,000 ft) }}
{{Spec | GPIB Characteristics | In accordance with IEEE Standard 488-1978 implemented as SH1, AH1, T5, L3, SR1, RL1, PP1, DC1, DT1, and C0 }}
{{EndSpecs}}
{{EndSpecs}}


==Options==
==Options==
* Opt. 02: Precision Frequency Reference. 1 x 10-9/yr aging
* Opt. 01: Internal Preselection. (Limits the first band to 1.8 GHz instead 4.2 GHz). Later became standard
* Opt. 07: 75Ω dBmV input and calibration in addition to the normal 50Ω dBm input and calibration.  (Not combinable with Opt. 21 and 22; no external mixer capability).  Include 42-inch 75Ω BNC-BNC coax cable and BNC male to “F” female adapter.
* Opt. 02: Digital Storage. Later became standard
* Opt. 03: Frequency Stabilization & 100 Hz Resolution. Later became standard
* Opt. 07: 75 Ω dBmV input and calibration in addition to the normal 50 Ω dBm input and calibration.  (Not combinable with Opt. 21 and 22; no external mixer capability).  Include 42-inch 75 Ω BNC-BNC coax cable and BNC male to “F” female adapter.
* Opt. 21: (492BP) High performance 18 to 40 GHz WM490 Series Waveguide Mixer Set
* Opt. 21: (492BP) High performance 18 to 40 GHz WM490 Series Waveguide Mixer Set
* Opt. 22: (492BP) Same as Opt. 21 plus WM490U (40-60 GHz) Waveguide Mixer
* Opt. 22: (492BP) Same as Opt. 21 plus WM490U (40-60 GHz) Waveguide Mixer
Line 72: Line 134:
* [https://www.circuitben.net/node/4 Tek 492 DIY USB interface project]
* [https://www.circuitben.net/node/4 Tek 492 DIY USB interface project]
* [[016-0631-01|Waveguide Mixers for 492 and 7L18]]
* [[016-0631-01|Waveguide Mixers for 492 and 7L18]]
* [https://www.youtube.com/watch?v=tKC24SpHTSY YouTube: Tektronix 492 and 496 Portable Spectrum Analyzers]
* [[067-1137-99|067-1137-99 GPIB to accessory controller]]
{{Documents|Link=492}}
==Connections==
Front panel inputs/outputs are:
* RF INPUT (50 Ω [[N connector]]) – Input for RF signals to 21 GHz.  If input signal has a DC component, use a blocking capacitor
* CAL OUT ([[BNC connector]]) – Provides 100 MHz, –20 dBm signal and a comb of frequency markers 100 MHz apart
* 1ST LO OUTPUT ([[SMA connector]]) – Output of the 1st local oscillator, must be terminated into 50 Ω when not connected.
* 2ND LO OUTPUT ([[SMA connector]]) – Output of the 2nd local oscillator, must be terminated into 50 Ω when not connected.
* EXTERNAL MIXER RF INPUT ([[TNC connector]], 50 Ω)
* Camera Power
Rear panel inputs/outputs are:
* PROBE POWER – Provides operating voltages (+5 V, -15 V, +15 V; 100 mA max each) for active probes
* HORIZ/TRIG (input, [[BNC connector|BNC]]) – In External Triggering mode, AC coupled input for trigger signals; when TIME/DIV selection is EXT, DC coupled input for horizontal sweep voltages
* MARKER/VIDEO (B053575+, output, [[BNC connector|BNC]]) – interfaces the 492/492P with a TV Sideband Adapter, such as the Tek [[1405]], so a marker from the adapter is displayed on the internal video.  External video applied to this connector will also be displayed if pin 1 of the ACCESSORIES connector is grounded. 
** Opt. 42 replaces MARKER/VIDEO with 110 MHz IF (output, [[BNC connector|BNC]]) – 3 dB signal bandwidth ≥ 4.5 MHz
* EXT PRESELECTOR (B053574 and below) (output, [[BNC connector|BNC]]) – variable voltage (approx -0.2 V to +10 V) proportional to center frequency, for preselector bands of Opt. 01 instruments, to drive an external preselector
* HORIZ (output, [[BNC connector|BNC]]) – 0.5 V/div horizontal signal
* VERT (output, [[BNC connector|BNC]]) – Video signal with 0.5 V/Div
* PEN LIFT (output, [[BNC connector|BNC]]) – TTL compatible signal to lift the pen of a chart recorder during sweep retrace.  In Opt. 42 instruments this port may also be used for inputting external video if pin 1 of the ACCESSORY connector is grounded.
* 10 MHz IF (output, [[BNC connector|BNC]]) – Output of the 10 MHz IF
* J104 ACCESSORY (B053575+ only), female [[DB25 connector]] – Provides bidirectional access to the instrument bus.
* IEEE STD 488 PORT [[GPIB interface]] – Added to all "P" suffixed instruments


==Pictures==
==Pictures==
===492===
<gallery>
Tek 492 trace open.jpg
Tek 492 top internal.jpg|Internal top view
</gallery>
===492A===
<gallery>
<gallery>
Tek 492 3.jpg
Tek 492 3.jpg
Line 82: Line 177:
Tek 492 7.jpg
Tek 492 7.jpg
Tek 492 8.jpg
Tek 492 8.jpg
Tek 492 top internal.jpg|Internal top view
</gallery>
Tek 492 trace open.jpg</gallery>
 
===492BP===
<gallery>
492BP_ebay_1.jpg
492BP_ebay_2.jpg
492BP_ebay_3.jpg
492BP_ebay_4.jpg
492BP_ebay_5.jpg
</gallery>
 
===492PGM===
<gallery>
492PGM_front.jpg
</gallery>


[[Category: Spectrum Analyzers]]
[[Category:Spectrum analyzers]]
[[Category:Manual needed]]

Latest revision as of 10:54, 13 September 2024

Manuals – Specifications – Links – Pictures

The Tektronix 492 is a spectrum analyzer with a frequency range of 10 kHz to 21 GHz in coax, and up to 325 GHz with external waveguide mixers (492PGM N/A). The P suffix designation indicates GPIB Programmability.

During the lifespan of the instrument, the specifications and included options were altered several times. A major upgrade was the introduction of the 492A in 1987 which added marker functionality and resolution bandwidths and the 492BP in 1989 which added a counter and increased the displayed dynamic range. The 492PGM is a cost reduced version introduced in 1990. Also see 49X Series Comparison.

Regarding the 492, Linley Gumm says,

Given how complicated it was, many people contributed to the design. I currently have a list of 20 people. The problem is that I’m sure that I am missing several people and I hate to submit a list without them.

The 492 was designed at the request of the military. They asked for a modern replacement of the 491. It was required that it provide coaxial input coverage of the lower microwave bands (~18 GHz), be very rugged, be a one person carry and fit through a submarine hatch. There was a lot more than that of course.

When the 492 program started I was the project leader of the 7L18 and was still working to finish it off. The 7L18 was the first instrument at Tektronix to use a microprocessor. We had worked long and hard to learn how to electronically switch and control all the elements that were controlled by physical switch closures in the earlier instruments.

Understand that to position the frequency of a YIG filter correctly with respect to the frequency of a YIG oscillator one must generate very quiet DC voltages accurate to roughly 1 part in 20,000 (i.e. 1 MHz in 18 GHz), so new control techniques were required. Plus the TEK-made YIG filter designed for the 7L18 was therefore ready for use in the 492.

We had also learned quite a number of things not to do and this was also used to anchor the 492 program. I say this to note that most of the long lasting, “classic”, Tektronix products were often the second, but more often the third generation product by the same design group. The 492 was definitely a second generation product in its use of microwave components and a microprocessor based control system; perhaps a third if you lump the 7L12, 7L13 (microwave systems) and the 7L5 (electronic bus control system) together as a first generation.

Larry Lockwood led the first part of the program. He defined the RF and microwave frequency conversion architecture of the 492. As the program progressed, Steve Morton became the project manager of the initial 492 program. Recognize that beyond that initial project, follow-on design work went on for years as new features were added. Further, after their initial design work in the initial portion of the project, designers often went on to do rather different subsystems in the follow-ons.

I worked on the 492 as a circuit designer in the initial design and in several other roles later, none of which were leadership roles.

The other people I can recall having worked on the 492 at some point in its life were: Robert Alm, Bob Bales, Carlos Beeck, Bill Benedict, Craig Bryant, Russell Brown, Wes Hayward, David Leatherwood, Gordon Long, Dave Morton, Bill Peterson, David Shores, Steve Skidmore, Dennis Smith, Phil Snow, Leighton Whitset, and Norman Witt.

Be aware my spelling is often “inventive”. There are at least two other names I can’t bring to mind.

Key Specifications

Frequency
  • Coaxial Input Bands: 10 kHz to 21 GHz
  • External Waveguide mixers: 10 kHz to 325 GHz (applies to 492BP not 492PGM)
Frequency Span 492BP: 100 Hz/div to 10 GHz/div; 492PGM: 200 MHz to 1 GHz; both in 1, 2, 5 sequence; plus 0 Hz and MAX
Resolution Bandwidth (-6 dB bandwidth) 492BP: 100 Hz to 3 MHz; 492PGM: 1 kHz to 3 MHz; both in decade steps
RF Input 50 Ω, max. +30 dBm (1 W) CW; / 75 W peak pulse (1 µs, 0.1% duty factor)
RF Attenuator 0 dB to 60 dB, 10 dB steps
Reference Level -117 dBm to +30 dBm
Sweep Speed 10 sec/div to 20 µs/div, 1−2−5
Video Bandwidth 492BP: 0.3 Hz to 30 kHz; 492PGM: 3 Hz to 30 kHz
Memory NVRAM for up to 9 waveform displays, up to 10 front panel setups, plus 8 K for programming macros
Triggering Modes Free Run, Line, Video, Single, External
Displayed Average Noise −30 dBm to −131 dBm
Display Dynamic Range 492BP: 90 dB; 492PGM: 80 dB
Calibrator (Cal out) 50 Ω, -20 dBm ±0.3 dB at 100 MHz
Weight 492BP: 21.8 kg (47 lbs) 492PGM: 21.3 kg (46 lbs)
Power 90 − 132 VAC, 48 to 440 Hz; 180 – 250 VAC, 48 to 440 Hz. At 115 VAC, 60 Hz, 210 W max

Options

  • Opt. 01: Internal Preselection. (Limits the first band to 1.8 GHz instead 4.2 GHz). Later became standard
  • Opt. 02: Digital Storage. Later became standard
  • Opt. 03: Frequency Stabilization & 100 Hz Resolution. Later became standard
  • Opt. 07: 75 Ω dBmV input and calibration in addition to the normal 50 Ω dBm input and calibration. (Not combinable with Opt. 21 and 22; no external mixer capability). Include 42-inch 75 Ω BNC-BNC coax cable and BNC male to “F” female adapter.
  • Opt. 21: (492BP) High performance 18 to 40 GHz WM490 Series Waveguide Mixer Set
  • Opt. 22: (492BP) Same as Opt. 21 plus WM490U (40-60 GHz) Waveguide Mixer
  • Opt. 23: GRASP software, PC2A interface, and GPIB cable
  • Opt. 27: Epson LT-386SX, GRASP software, PC2A interface, and GPIB cable
  • Opt. 28: Compaq Deskpro 386S, Model 40, GRASP software, PC2A interface, and GPIB cable
  • Opt. 39: Non-lithium (Silver) batteries for battery-backed memory
  • Opt. 41: Digital Microwave Radio Measurement Enhancement package
  • Opt. 42: Replaces MARKER/VIDEO input port on the rear panel with a 110 MHz IF output port that provides a 3 dB signal bandwidth ≥ 4.5 MHz
  • Opt. 45: (all except 492PGM) MATE/CIIL language interface

Links

Documents Referencing 492

Document Class Title Authors Year Links
Tekscope 1980 V12 N1.pdf Article Packaging A Spectrum Analyzer for Performance, Maintainability and Survival Carlos Beeck 1980
Tekscope 1980 V12 N1.pdf Article A First Converter With Field Replaceable Diodes Phil Snow 1980
Tekscope 1980 V12 N1.pdf Article A Switching Power Supply For The 492 Spectrum Analyzer David Leatherwoood 1980
Tekscope 1980 V12 N1.pdf Article A Portable High-Performance Microwave Spectrum Analyzer Dave Morton 1980
Tekscope 1980 V12 N1.pdf Article The Tektronix 492 Is A New-Generation Spectrum Analyzer Morris Engelson 1980
Tekscope 1980 V12 N1.pdf Article Making Measurements with the 492 Morris Engelson 1980
26W-4817-1.pdf Application Note We Go Where You Go With Lab Quality Spectrum Analysis 1983
26W-5256.pdf Application Note The Spectrum Analyzer and the Earth Station Archie F. Brusch 1983

Connections

Front panel inputs/outputs are:

  • RF INPUT (50 Ω N connector) – Input for RF signals to 21 GHz. If input signal has a DC component, use a blocking capacitor
  • CAL OUT (BNC connector) – Provides 100 MHz, –20 dBm signal and a comb of frequency markers 100 MHz apart
  • 1ST LO OUTPUT (SMA connector) – Output of the 1st local oscillator, must be terminated into 50 Ω when not connected.
  • 2ND LO OUTPUT (SMA connector) – Output of the 2nd local oscillator, must be terminated into 50 Ω when not connected.
  • EXTERNAL MIXER RF INPUT (TNC connector, 50 Ω)
  • Camera Power

Rear panel inputs/outputs are:

  • PROBE POWER – Provides operating voltages (+5 V, -15 V, +15 V; 100 mA max each) for active probes
  • HORIZ/TRIG (input, BNC) – In External Triggering mode, AC coupled input for trigger signals; when TIME/DIV selection is EXT, DC coupled input for horizontal sweep voltages
  • MARKER/VIDEO (B053575+, output, BNC) – interfaces the 492/492P with a TV Sideband Adapter, such as the Tek 1405, so a marker from the adapter is displayed on the internal video. External video applied to this connector will also be displayed if pin 1 of the ACCESSORIES connector is grounded.
    • Opt. 42 replaces MARKER/VIDEO with 110 MHz IF (output, BNC) – 3 dB signal bandwidth ≥ 4.5 MHz
  • EXT PRESELECTOR (B053574 and below) (output, BNC) – variable voltage (approx -0.2 V to +10 V) proportional to center frequency, for preselector bands of Opt. 01 instruments, to drive an external preselector
  • HORIZ (output, BNC) – 0.5 V/div horizontal signal
  • VERT (output, BNC) – Video signal with 0.5 V/Div
  • PEN LIFT (output, BNC) – TTL compatible signal to lift the pen of a chart recorder during sweep retrace. In Opt. 42 instruments this port may also be used for inputting external video if pin 1 of the ACCESSORY connector is grounded.
  • 10 MHz IF (output, BNC) – Output of the 10 MHz IF
  • J104 ACCESSORY (B053575+ only), female DB25 connector – Provides bidirectional access to the instrument bus.
  • IEEE STD 488 PORT GPIB interface – Added to all "P" suffixed instruments

Pictures

492

492A

492BP

492PGM