2641: Difference between revisions

From TekWiki
Jump to navigation Jump to search
No edit summary
No edit summary
 
(9 intermediate revisions by 4 users not shown)
Line 1: Line 1:
{{Oscilloscope Sidebar |
{{Instrument Sidebar  
title=Tektronix 2641 |
|manufacturer=Tektronix
summary=Fourier Analyzer DC to 100 kHz |
|model=2641  
image= Tek_2641_1.JPG |
|class=Spectrum Analyzer
caption=Tektronix 2641 |
|summary=100 kHz Fourier Analyzer  
introduced=1991 |
|image=Tek_2641_1.JPG  
discontinued=1993 |
|caption=Tektronix 2641  
manuals=
|introduced=1991  
Need User Guide and Service Manual
|discontinued=1993  
|manuals=
* [[Media: Tek_2600_Series_Catalog_1991.pdf| Tektronix 2641 Final Spec (PDF)]]
* [[Media: Tek_2600_Series_Catalog_1991.pdf| Tektronix 2641 Final Spec (PDF)]]
* ''User Guide and Service Manual needed'' [[Category:Manual needed]]
}}
}}
The '''Tektronix 2641''' is a Fourier analyzer that links dedicated signal acquisition and analysis with a personal computer’s mass storage and graphics. 
It allows measurement solutions for electrical, mechanical, and electromechanical applications in the DC to 100 kHz frequency range. 
Typical applications are Structural Analysis, Control Systems, Machine Vibration, Audio and Acoustic Tests, and General Purpose Signal and System Analysis.


The '''Tektronix 2641''' is a Fourier analyzer that links dedicated signal acquisition and analysis with a personal computer’s mass storage and graphicsIt allows measurement solutions for electrical, mechanical, and electromechanical applications in the DC to 100 kHz frequency range.  Typical applications are Structural Analysis, Control Systems, Machine Vibration, Audio and Acoustic Tests, and General Purpose Signal and System Analysis.
Each of the channel inputs provide simultaneous sampling of all channels utilizing 12 bit ADC standard or 16 bit ADC optionally. 
Signal processing includes Fourier Transform ([[wikipedia:Fast_Fourier_transform|FFT]]) and Spectral Lines.   
The signal generator has a wide variety of functions, like sine, square, sawtooth, triangle, input, random, adjustable random, chirp, and arbitrary.  With the optional TurboPac Application Library and Run-Time License advanced measurement calculations and graphs can be generated from the data collected.


Each of the channel inputs provide simultaneous sampling of all channels utilizing 12 bit ADC standard or 16 bit ADC optionallySignal processing includes Fourier Transform (FFT) and Spectral LinesThe signal generator has a wide variety of functions, like sine, square, sawtooth, triangle, input, random, adjustable random, chirp, and arbitraryWith the optional TurboPac Application Library and Run-Time License advanced measurement calculations and graphs can be generated from the data collected.
The PC’s monitor displays the measurements results – but that’s where the Fourier Analyzer dependence on the PC stops.   
All of the data acquisition, data management, signal processing and other computationally intensive operations
are reserved for the Fourier Analyzer’s high-performance measurement and analysis hardware.   
Built-in analog and digital anti-alias filters automatically track all of the bandwidth settings.   
A selection of frame sizes allows the user to choose the best trade-off between acquisition time and frequency resolution. 
When high frequency resolution around a specific signal is needed, the option "zoom" feature can be used. 
It allows one to focus up to 1600 spectral line with a span as small as 10 Hz about the frequency of interest.


The PC’s monitor displays the measurements results – but that’s where the Fourier Analyzer dependence on the PC stops.  All of the data acquisition, data management, signal processing and other computationally intensive operations are reserved for the Fourier Analyzer’s high-performance measurement and analysis hardware.  Built-in analog and digital anti-alias filters automatically track all of the bandwidth settings.  A selection of frame sizes allows the user to choose the best trade-off between acquisition time and frequency resolution.  When high frequency resolution around a specific signal is needed, the option "zoom" feature can be used.  It allows one to focus up to 1600 spectral line with a span as small as 10 Hz about the frequency of interest.
'''[[wikipedia:Fast_Fourier_transform|Fast Fourier transform]]''' (FFT) is an algorithm that computes the [[wikipedia:Discrete_Fourier_transform|descrete Fourier transform]] (DFT) of a sequence, or its inverse (IDFT).  [[Wikipedia:Fourier_analysis|Fourier analysis]] converts a signal from its original domain (often time or space) to a representation in the [[Wikipedia:Frequency_domain|frequency domain]] and vice versa..
[[File:FFT_of_Cosine_Summation_Function.png|center|500px|Fourier analysis]]
Front panel inputs/outputs are: CH1, CH2, CH3, and CH4 each with a [[BNC connector]] (1 MΩ; 200 pF; ±30 V); and OUTPUT [[BNC connector]] (50Ω; ±10 V; signal general output capable of a variety of pre-defined, as well as user-defined, signals.)
Rear panel inputs/outputs are: SYSTEM INTERCONNECT [[DB9 connector]] (Male connector used for both External triggering, and External sampling inputs.  All pins TTL-level except Signal ground: Pin 1 triggering signal input; pin 2 trigger sense output; pin 3 external clock input; pins 6 thru 8 signal ground; pin 9 is the external sampling input); and SERIAL PORT [[BNC connector]] (Female connector used linking to the host computer via a Tektronix supplied serial interface cable).
---------------------------------------------------------
<div style='text-align: center;'>Specifications based on 1991 published documentation, unless otherwise specified.</div>
{{BeginSpecs}}
{{BeginSpecs}}
{{Spec | Frequency Ranges | DC to 100 kHz }}  
{{Spec | Frequency Ranges | DC to 100 kHz }}  
Line 38: Line 39:
{{Spec | Input Impedance | 1 MΩ; 200 pF }}
{{Spec | Input Impedance | 1 MΩ; 200 pF }}
{{Spec | Max Input Level | ±30 V }}
{{Spec | Max Input Level | ±30 V }}
{{Spec | Included Accessories | User Guide; Instrument Program Software; System Simulator Box; Power Cord; and Serial Interface Cable (please specify) }}
{{Spec | Weight | Standard accessories: 11.8 kg (26 lbs) }}
{{Spec | Weight | Standard accessories: 11.8 kg (26 lbs) }}
{{Spec | Power | 90 − 250 V<sub>AC</sub>, 48 to 66 Hz, >120 W }}
{{Spec | Power | 90 − 250 V<sub>AC</sub>, 48 to 66 Hz, >120 W }}
{{Spec | Operating Atmospherics | Temperatures: 0 °C to +50 °C; Humidity: 95% for five days; Altitude: Up to 4.8 km (15,000 ft) }}
{{EndSpecs}}
{{EndSpecs}}
Front panel:
* CH1, CH2, CH3, and CH4 each with a [[BNC connector]] (1 MΩ; 200 pF; ±30 V);
* OUTPUT [[BNC connector]] (50 Ω; ±10 V; signal general output capable of a variety of pre-defined, as well as user-defined, signals.)
Rear panel:
* SYSTEM INTERCONNECT [[DB9 connector|DB-9 male]] used for both External triggering, and External sampling inputs. 
All pins TTL-level: Pin 1 triggering signal input; pin 2 trigger sense output; pin 3 external clock input; pins 6 thru 8 signal ground;
pin 9 is the external sampling input);
* SERIAL PORT [[BNC connector]] (linking to the host computer via a Tektronix supplied serial interface cable).


==Options==
==Options==
Line 49: Line 57:
* Opt. 3H: 4-CH Zoom
* Opt. 3H: 4-CH Zoom
* Opt. 4H: Signal Generator
* Opt. 4H: Signal Generator
 
==Software==
* [[Media:Tektronix-2622,2630,2641,2642,Software_and_app._utilies_for_Tek_26xx_Fourier_Analyzer_2.26-2600.zip|DOS software and applications for 2622, 2630, 2641 and 2642]]
==Pictures==
==Pictures==
<gallery>
<gallery>
Line 55: Line 64:
</gallery>
</gallery>


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

Latest revision as of 03:22, 11 September 2023

Tektronix 2641
100 kHz Fourier Analyzer
Tektronix 2641

Produced from 1991 to 1993

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

The Tektronix 2641 is a Fourier analyzer that links dedicated signal acquisition and analysis with a personal computer’s mass storage and graphics. It allows measurement solutions for electrical, mechanical, and electromechanical applications in the DC to 100 kHz frequency range. Typical applications are Structural Analysis, Control Systems, Machine Vibration, Audio and Acoustic Tests, and General Purpose Signal and System Analysis.

Each of the channel inputs provide simultaneous sampling of all channels utilizing 12 bit ADC standard or 16 bit ADC optionally. Signal processing includes Fourier Transform (FFT) and Spectral Lines. The signal generator has a wide variety of functions, like sine, square, sawtooth, triangle, input, random, adjustable random, chirp, and arbitrary. With the optional TurboPac Application Library and Run-Time License advanced measurement calculations and graphs can be generated from the data collected.

The PC’s monitor displays the measurements results – but that’s where the Fourier Analyzer dependence on the PC stops. All of the data acquisition, data management, signal processing and other computationally intensive operations are reserved for the Fourier Analyzer’s high-performance measurement and analysis hardware. Built-in analog and digital anti-alias filters automatically track all of the bandwidth settings. A selection of frame sizes allows the user to choose the best trade-off between acquisition time and frequency resolution. When high frequency resolution around a specific signal is needed, the option "zoom" feature can be used. It allows one to focus up to 1600 spectral line with a span as small as 10 Hz about the frequency of interest.

Key Specifications

Frequency Ranges DC to 100 kHz
Max Real-time Bandwidth 10 kHz
Dynamic Range 75 dB
Standard Channels 2
Max Channels 4
Channel Match ±0.075 dB (DC to 50 kHz)
Transient Capture Samples 500 K
Spectral Lines 25 to 1600
Input Impedance 1 MΩ; 200 pF
Max Input Level ±30 V
Weight Standard accessories: 11.8 kg (26 lbs)
Power 90 − 250 VAC, 48 to 66 Hz, >120 W

Front panel:

  • CH1, CH2, CH3, and CH4 each with a BNC connector (1 MΩ; 200 pF; ±30 V);
  • OUTPUT BNC connector (50 Ω; ±10 V; signal general output capable of a variety of pre-defined, as well as user-defined, signals.)

Rear panel:

  • SYSTEM INTERCONNECT DB-9 male used for both External triggering, and External sampling inputs.

All pins TTL-level: Pin 1 triggering signal input; pin 2 trigger sense output; pin 3 external clock input; pins 6 thru 8 signal ground; pin 9 is the external sampling input);

  • SERIAL PORT BNC connector (linking to the host computer via a Tektronix supplied serial interface cable).

Options

  • Opt. 1H: Four Input Channels
  • Opt. 2H: 2-CH Zoom
  • Opt. 3H: 4-CH Zoom
  • Opt. 4H: Signal Generator

Software

Pictures