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{{Oscilloscope Sidebar |
{{Instrument Sidebar  
title=Tektronix 2795 |
|manufacturer=Tektronix
summary=Spectrum Analyzer 100 Hz to 1.8 GHz |
|model=2795  
image= Tek_2795_1a.jpg |
|class=Spectrum Analyzer
caption=Tektronix 2795 |
|summary=1.8 GHz Spectrum Analyzer
introduced=1993 |
|image= Tek_2795_1a.jpg  
discontinued=1996 |
|caption=Tektronix 2795  
manuals=
|introduced=1993  
Need Operator’s and Service Manuals
|discontinued=1996  
|manuals=
* [[Media:tek_2790_series_programming_manual.pdf| Tektronix 2790 Series Programming Manual (PDF)]]
* [[Media:tek_2790_series_programming_manual.pdf| Tektronix 2790 Series Programming Manual (PDF)]]
*[[Media:Tektronix_279X_Catalog_Datasheet.pdf| Tektronix 279X Datasheet (PDF)]]
* [[Media:Tektronix_279X_Catalog_Datasheet.pdf| Tektronix 279X Datasheet (PDF)]]
* ''Need Operator and Service Manuals'' [[Category:Manual needed]]
}}
}}
 
The '''Tektronix 2795''' is a spectrum analyzer with a frequency range of 100 Hz to 1.8 GHz.  The minimum resolution bandwidth is 10 Hz, and provides measurement resolution proportional to the frequency accuracy or span.  In addition to conventional digital storage features, non-volatile memory (NVRAM) stores up to 9 separate waveforms with their readouts and markers, for later recall for additional analysis and comparison.  Also, store up to 10 different front-panel control setups for future recall.  The instrument can selectively count one particular signal out of several that may be present at its input.
The '''Tektronix 2795''' is a spectrum analyzer with a frequency range of 100 Hz to 1.8 GHz in coax.  The minimum resolution bandwidth is 10 Hz, and provides measurement resolution proportional to the frequency accuracy or span.  In addition to conventional digital storage features, non-volatile memory (NVRAM) stores up to 9 separate waveforms with their readouts and markers, for later recall for additional analysis and comparison.  Also, store up to 10 different front-panel control setups for future recall.  The instrument can selectively count one particular signal out of several that may be present at its input.


The single and delta markers provide direct readout of frequency and amplitude information of any point along any displayed trace.  Or, get the relative (delta) frequency and amplitude information between any two points along any displayed trace or between traces.
The single and delta markers provide direct readout of frequency and amplitude information of any point along any displayed trace.  Or, get the relative (delta) frequency and amplitude information between any two points along any displayed trace or between traces.
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{{BeginSpecs}}
{{BeginSpecs}}
{{Spec | Frequency Range | Coaxial Input Bands: 100 Hz to 1.8 GHz }}
{{Spec | Frequency Range | 100 Hz to 1.8 GHz }}
{{Spec | Frequency Span Range (plus 0 Hz and MAX) | 100 Hz to 1.7 GHz }}
{{Spec | Frequency Span Range (plus 0 Hz and MAX) | 100 Hz to 1.7 GHz }}
{{Spec | Resolution Bandwidth Range | 6 dB bandwidths from 10 Hz to 3 MHz }}
{{Spec | Resolution Bandwidth Range | 6 dB bandwidths from 10 Hz to 3 MHz }}
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</gallery>
</gallery>


[[Category: Spectrum Analyzers]]
[[Category:Spectrum analyzers]]

Latest revision as of 03:44, 9 August 2021

Tektronix 2795
1.8 GHz Spectrum Analyzer
Tektronix 2795

Produced from 1993 to 1996

Manuals
(All manuals in PDF format unless noted otherwise)
Manuals – Specifications – Links – Pictures

The Tektronix 2795 is a spectrum analyzer with a frequency range of 100 Hz to 1.8 GHz. The minimum resolution bandwidth is 10 Hz, and provides measurement resolution proportional to the frequency accuracy or span. In addition to conventional digital storage features, non-volatile memory (NVRAM) stores up to 9 separate waveforms with their readouts and markers, for later recall for additional analysis and comparison. Also, store up to 10 different front-panel control setups for future recall. The instrument can selectively count one particular signal out of several that may be present at its input.

The single and delta markers provide direct readout of frequency and amplitude information of any point along any displayed trace. Or, get the relative (delta) frequency and amplitude information between any two points along any displayed trace or between traces.

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, and Optional Switch-Selectable 50/75Ω Impedances.

Front panel inputs/outputs are: RF INPUT 50Ω N connector; 1ST LO OUTPUT SMA connector (Provides access to the output of the 1st local oscillator); 2ND LO OUTPUT SMA connector (Provides access to the output of the 2nd local oscillator); and CAL OUT BNC connector (Provides a 100 MHz ±10 Hz, -20 dBm ±0.3 dB signal).

Rear panel inputs/outputs are: PROBE POWER (Provides operating voltages 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 signals. When the TIME/DIV selection is EXT the connector is a DC coupled input for horizontal sweep voltages); MARKER|VIDEO (EXT IN) BNC connector (Interfaces to a Tektronix 1405 TV Adapter to display an externally-generated marker); HORIZ (OUTPUT) BNC connector (A dual function connector: Provides 110 MHz IF output as an input into the PEN LIFT connector. Alternately 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 retrace); 10 MHz IF (OUTPUT) BNC connector (Provides access to the output of the 10 MHz IF); EXT REF IN BNC connector (50Ω input for a 1, 2, 5, or 10 MHz ext ref signal); J104 ACCESSORY female DB25 connector (External inputs and outputs to instrument bus)); IEEE STD 488 PORT GPIB interface.

Key Specifications

Frequency Range 100 Hz to 1.8 GHz
Frequency Span Range (plus 0 Hz and MAX) 100 Hz to 1.7 GHz
Resolution Bandwidth Range 6 dB bandwidths from 10 Hz to 3 MHz
RF Input impedance 50 Ω
Maximum Safe Input Power
  • CW Power: 1 Watt (+30 dBm);
  • Pulse Power: 75 W peak, 1 µS, 0.1% duty factor
RF Attenuator Range 0 dB to 60 dB, 10 dB steps
Reference Level Range -117 dBm to +30 dBm
LO Output Power (2 to 6 GHz) 1st LO: +6 dBm to +20 dBm; 2nd LO: -10 dBm to +15 dBm
Sweep Speed Range 100 s to 200 µs in 1, 2, 5 sequence
Video Bandwidth Range 0.3 Hz to 30 kHz
Triggering Modes Free Run, Line, Video, Single, Ext
Displayed Average Noise −75 dBm to −131 dBm
Display Dynamic Range 90 dB
Dynamic Range (Compression to noise) 130 dBm
Included Accessories Operator’s Manual; Programmer’s 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 and spare fuses; CRT filter set consisting of amber and gray light filters plus mesh filter
Weight 19.44 kg (42 lbs)
Power 90 − 132 VAC, 47 to 63 Hz; 180 – 250 VAC, 47 to 63 Hz. At 115 VAC, 60 Hz, 210 W max

Options

  • Opt. 23: GRASP software, PC2A interface, GPIB cable
  • Opt. 30: Rackmount with handles for 19 in. rack
  • Opt. 39: Non-lithium batteries for battery-backed memory
  • 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

Pictures