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The SR780 Dynamic Signal Analyzer from SRS (Stanford Research Systems)available in the UK from TTid |
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SR780 Dynamic Signal Analyser |
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Full
brochure with detailed specifications and screen illustrations 
(697kB)
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The SR780 Dynamic Signal Analyser combines high performance, low cost and all the features you need without forcing you to buy an array of expensive options. It offers 102.4 kHz dual-channel FFTs with 90 dB dynamic range, 145 dB dynamic range swept-sine measurements, real-time ANSI standard octave analysis, waterfalls, transient capture, and more, for less than half the cost of other similarly equipped analyzers. Whether your application involves acoustic measurements, vibration testing, servo systems or filter design, the SR780’s features, performance and low cost are unmatched.
Spectrum Analysis The SR780 delivers true two-channel 102.4 kHz FFT performance. Unlike other analyzers, the SR780 doesn’t make you sacrifice two-channel performance for bandwidth—its fast 32-bit floating-point DSP processor gives the SR780 102.4 kHz real-time rate with both channels selected. Two precision 16-bit ADCs provide a 90 dB dynamic range in FFT mode. Selectable 100 to 800 line analysis optimizes time and frequency resolution and you can zoom in on any portion of the 102.4 kHz range with a frequency span down to 191 mHz. The SR780’s unique architecture lets the two displays function as separate analyzers. You can choose separate frequency spans, starting frequencies, number of FFT lines, or averaging modes for each display. So it’s no problem to look at a wideband display and zoom in on a specific feature simultaneously. The SR780 lets you select from two sampling rates: 256 kHz or 262 kHz, so frequency spans come out in either a binary (102.4 kHz, 51.2 kHz,...) or decimal (100 kHz, 50 kHz, 25 kHz,...) sequence depending on your requirements. Flexible Averaging Several averaging choices are provided. Choose rms averaging to reduce signal fluctuations, or vector averaging to actually eliminate noise from synchronous signals. Choose linear averaging (stable averaging) for fixed signals, or exponential averaging to track drifting features. Because the SR780’s 102.4 kHz real-time bandwidth lets it take data seamlessly, vector averaging can be selected for any signal that’s repetitive within the time record—no trigger is necessary. Automatic Unit Conversion Automatic unit conversion makes translating accelerometer data easy. Enter your accelerometer conversion directly in V/EU, EU/V or dB (1 V/EU). The SR780 will display results in units of meters, inches, mil, g, kg, lbs., N, dynes, pascals, bars, or dBSPL. Accelerometer data is automatically converted to velocity or displacement units. Built-in ICP power means you won’t have to take along an external power supply for your accelerometer.
Octave Analysis Real-time octave analysis at frequencies up to 40 kHz (single channel) or 20 kHz (two-channel), is standard on the SR780. Octave analysis is fully compliant with ANSI S1.11-1986 (Order 3, type 1-D) and IEC 225-1966. 1/1 octave, 1/3 octave and 1/12 octave analysis are all available. Switchable analog A-weighting filters as well as built-in user math A, B, and C-weighting functions are all included. Octave averaging choices include exponential time averaging, linear time averaging, peak hold and equal confidence averaging. IEC 651-1979 Type 0 compliant peak hold, impulse, fast and slow sound level measurements are all calculated.
Swept-Sine Analysis Swept-sine analysis for measurements involving high dynamic range or wide frequency intervals is also a standard feature of the SR780. Selectable auto-ranging optimizes the input range at each point in the measurement, providing up to 145 dB of dynamic range. Auto-ranging can be used with source auto-leveling to maintain a constant input or output level at the device under test. To ensure the fastest sweeps possible, auto-resolution can also be selected, providing a variable scan speed tailored precisely to the signal being measured. Choose linear sweeps for high frequency resolution or logarithmic sweeps (up to 8 decades) for the widest frequency coverage.
User Math All three measurement groups: FFT, Octave, and Swept-Sine, allow you to create your own measurement using the SR780’s user math menu. Enter any equation involving time or frequency data, stored files, constants, or a rich array of supplied operations including the arithmetic functions, FFT, inverse FFT, jw, d/dw, exp, ln x and many others. Unlike many analyzers, the SR780 doesn’t slow to a snail’s pace when user math is selected. For instance, the function exp(ln(conj(Average(FFT2/FFT1))) can be calculated with a 50 kHz real-time bandwidth. Source Choose from six precision source types: low distortion (-80 dBc) single or two-tone sine waves, chirps, white noise, pink noise, or arbitrary waveforms. The chirp and noise sources can both be bursted to provide a source that’s active only over a selected portion of the time record for FFT measurements, or to provide an impulsive noise source for acoustic measurements. The digitally synthesized source provides output levels from 0.1 mV to 5 V and delivers up to 100 mA of current. Arbitrary waveform capability is standard on the SR780. Use the arbitrary source to playback a section of a captured waveform, play a selected FFT time record or upload your own custom waveform from disk or over the remote interface. Capture The SR780 comes with 2 Msamples of standard capture memory. Waveforms can be captured at 262 kHz or any sub-multiple of 262 kHz, allowing you to select the sample rate and capture length that’s right for your data. Once captured, any portion of the signal can be played back in any FFT or Octave measurement. The convenient "AutoPan" feature lets you display the measurement results synchronously with the corresponding portion of the capture buffer to easily identify important features. Optional memory expansion modules let you expand the SR780’s capture depth to 8 Msamples—that’s almost 30 seconds of capture at the maximum sampling rate.
Waterfall All Octave and FFT Measurements can be stored in the SR780’s two, 2-k deep waterfall buffers. Waterfall storage is selectable as every nth time record for FFT measurements, or you can select a storage interval in seconds (down to 4 ms) for octave measurements. While displaying waterfalls you can adjust the skew angle to reveal important features, or change the baseline threshold to eliminate low-level clutter. Any z-axis slice or x-axis record can be saved to disk or displayed separately for individual analysis. Analysis The SR780 includes a wide variety of built-in analysis features. Marker analysis lets you use the marker to easily measure the power contained in the harmonics, sidebands or within a given band of a frequency domain measurement. Important signal information such as THD, THD+N, sideband power relative to carrier, and total integrated power are calculated in real time and displayed on the screen. Marker statistics quickly calculate the maximum, minimum, mean and standard deviation of data at any point in the display. Use data tables to display up to 100 selected data points in a tabular format. Limit tables allow you to define up to 100 upper and lower limit segments in each display for GO/NO-GO testing. Data and limit table definitions can also be saved and recalled from disk for quick setup. Output The SR780's built-in 3.5" disk drive, computer interfaces (GPIB and RS-232) and printer port provide flexibility when saving, printing and exporting data. Data can be saved in binary or ASCII formats and displays can be printed/plotted to any of the ports or the disk drive. Supported formats include PCX, GIF, PCL (LaserJet and DeskJet), dot-matrix, postscript and HP-GL. An annotation editor lets you add text, time, date and filenames to any portion of the plot. Utilities are included to translate your HP SDF files into SR780 format. Help Full, context-sensitive help screens for all SR780 features mean you will rarely have to refer to a printed manual. Hypertext links let you quickly switch between related help pages or instantly reference the remote command corresponding to any SR780 function. Use the help index to quickly locate help on any topic, jump to the online troubleshooting guide, browse a complete listing of the SR780’s specifications, or examine a comprehensive description the SR780’s remote commands... all from the front panel. Measurements - FFT Group Measurements - Octave Analysis
Group Measurements - Swept-Sine
Group FFT Resolution Views Units Displays Averaging Triggering Source Outputs Windows User Math Analysis Time Capture Storage Hard Copy and Interfaces
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| Specifications apply after 30 minutes warm-up and within 2 hours of last auto-offset. Measured with 400 line resolution and anti-alias filters enabled unless stated otherwise. | ||
| Measurement Groups | ||
| Groups | FFT, Octave Analysis, Swept-Sine | |
| Frequency | ||
| Range | 102.4 kHz or 100 kHz (both displays have the same range) | |
| FFT spans | 195.3 mHz to 102.4 kHz or 191 mHz to 100 kHz. The two displays can have different spans and start frequencies. | |
| FFT resolution | 100, 200, 400 or 800 lines | |
| Real-time bandwidth | 102.4 kHz (highest FFT span with continuous data acquisition and averaging) | |
| Accuracy | 25 ppm from 20 °C to 40 °C | |
| Dynamic Range | ||
| Dynamic range | 90 dB typical, 80 dB guaranteed (FFT and Octave). 145 dB (Swept-Sine). Includes spurs, harmonic and intermodulation distortion and alias products. Excludes alias responses at extremes of span. | |
| Harmonic distortion | <-80 dB (single tone in band) | |
| Intermod. distortion | <-80 dB (two tones in band, each less than -6.02 dBfs) | |
| Spurious | <-80 dBfs | |
| Alias responses | <-80 dBfs (single tone outside of span, <0 dBfs, less than 1 MHz) | |
| Full-span FFT noise floor | -100 dBfs typ. (input grounded, >-30 dBV, Hanning window, 64 rms averages) | |
| Residual DC response | <-30 dBfs (FFT with Auto-Cal on) | |
| Amplitude Accuracy | ||
| Single channel | ±0.2 dB (excluding windowing) | |
| Cross channel | ±0.05 dB (transfer function measurement, both inputs on the same range, rms averaged, DC to 102.4 kHz) | |
| Phase Accuracy | ||
| Single channel | ±3.0 deg. relative to external TTL trigger (-50 dBfs to 0 dBfs, frequency <10.24 kHz, center of frequency bin, DC coupled). For Blackman-Harris, Hanning, Flat-Top and Kaiser windows, phase is relative to a cosine wave at the center of the time record. For Uniform, Force and Exponential windows, phase is relative to a cosine wave at the beginning of the time record. | |
| Cross channel | ±0.5 deg. (DC to 51.2 kHz) ±1.0 deg. (DC to 102.4 kHz) (transfer function measurement, both inputs on the same input range, vector averaged) | |
| Signal Inputs | ||
| Number of inputs | 2 | |
| Full-scale input range | -50 dBV (3.16 mVp) to +34 dBV (50 Vp) in 2 dB steps | |
| Maximum input level | 57 Vp | |
| Input configuration | Single-ended (A) or differential (A-B) | |
| Input impedance | 1 MW + 50 pF | |
| Shield to chassis | Floating mode: 1 MW + 0.01 µF. Grounded mode: 50 W. Shields grounded in (A-B) mode | |
| Max. shield voltage | 4 Vp | |
| AC coupling | 0.16 Hz cutoff frequency | |
| CMRR | 90 dB at 1 kHz (input range <0 dBV) 80 dB at 1 kHz (input range <10 dBV) 50 dB at 1 kHz (input range ³10 dBV) | |
| ICP signal conditioning | Current source: 4.8 mA Open circuit voltage: +26 V | |
| A-weight filter | Type 0 tolerance, ANSI standard S1.4-1983 (10 Hz to 25.6 kHz) | |
| Crosstalk | <-145 dB below signal (input to input and source to inputs, 50 W receiving input source impedance) | |
| Input noise | <10 nVrms/ÖHz above 200 Hz (<-160 dBVrms/ÖHz) | |
| Trigger Input | ||
| Modes | Free run, Internal, External, or External TTL | |
| Internal | Level adjustable to ±100 % of input scale, positive or negative slope. Min. trigger level: 5 % of input range | |
| External | Level adjustable to ±5 V in 40 mV steps, positive or
negative slope. Input impedance: 1 MW Max. input: ±5 V Min. trigger amplitude: 100 mV | |
| External TTL | Requires TTL level to trigger (low <0.7 V, high >3.0 V) | |
| Post-trigger | Measurement record is delayed up to 8192 samples after the trigger. | |
| Pre-trigger | Measurement record starts up to 8192 samples prior to the trigger. | |
| Transient Capture | ||
| Mode | Continuous data recording | |
| Maximum rate | 262,144 samples/s for both inputs | |
| Maximum capture Length | 2 Msamples (single input) 8 Msamples with optional memory | |
| Octave Analysis | ||
| Standards | Conforms to ANSI standard S1.11- 1986, Order 3, Type 1-D and IEC 225-1966 | |
| Frequency range | (Band centers) Single channel 1/1 Octave 0.125 Hz to 32 kHz 1/3 Octave 0.100 Hz to 40 kHz 1/12 Octave 0.091 Hz to 12.3 kHz Two channels 1/1 Octave 0.125 Hz to 16 kHz 1/3 Octave 0.100 Hz to 20 kHz 1/12 Octave 0.091 Hz to 6.17 kHz | |
| Accuracy | <0.2 dB (1 second stable average, single tone at band center) | |
| Dynamic range | 80 dB (1/3 Octave, 2 second stable average) per ANSI S1.11-1986 | |
| Sound level | Impulse, Peak, Fast, Slow and Leq per ANSI S1.4-1983 Type 0 and IEC 651-1979 Type 0 | |
| Source Output | ||
| Amplitude range | 1.0 mVp to 5 Vp | |
| Amplitude resolution | 1 mVp (output >500 mVp) | |
| DC offset | <10.0 mV (typ.) | |
| Offset adjust | ±5 VDC (sine, two-tone) | |
| Output impedance | <5 W, ±100 mA peak output current | |
| Sine Source | ||
| Amplitude accuracy | ±1 % of setting, 0 Hz to 102.4 kHz 0.1 Vp to 5.0 Vp, High-Z load | |
| Harmonics, sub-harm. & spurious | 0.1 Vp to 5 Vp <-80 dBc (fundamental <30 kHz) <-75 dBc (fundamental <102 kHz) | |
| Two-Tone Source | ||
| Amplitude accuracy | ±1 % of setting, 0 Hz to 102.4 kHz 0.1 Vp to 5 Vp, High-Z load | |
| Harmonics, sub-harm. | <-80 dBc, 0.1 Vp to 2.5 Vp | |
| White Noise Source | ||
| Time record | Continuous or burst | |
| Bandwidth | DC to 102.4 kHz or limited to span | |
| Flatness | <0.25 dBpp (typ.), <1.0 dBpp (max.), 5000 rms averages | |
| Pink Noise Source | ||
| Bandwidth | DC to 102.4 kHz | |
| Flatness | <2.0 dBpp, 20 Hz to 20 kHz (measured using averaged 1/3 Octave Analysis) | |
| Chirp Source | ||
| Time record | Continuous or Burst | |
| Output | Sine sweep across the FFT span | |
| Flatness | ±0.25 dB (amplitude: 1.0 Vp) | |
| Swept-Sine Source | ||
| Auto functions | Source level, input range and frequency resolution | |
| Dynamic range | 145 dB | |
| Arbitrary Source | ||
| Amplitude range | ±5 V | |
| Record length | 2 Msamples (playback from arbitrary waveform memory or capture buffer). Variable output sample rate. | |
| General | ||
| CRT monitor | Monochrome, 800H by 600V resolution | |
| Interfaces | IEEE-488.2, RS-232 and printer interfaces standard. All instrument functions can be controlled through computer interfaces. A PC (XT) keyboard input is provided for additional flexibility. | |
| Hardcopy | Print to dot matrix and PCL compatible printers. Plot to HP-GL or postscript plotters. Print/plot to RS-232 or IEEE-488.2 interfaces or to disk file. Additional file formats include GIF, PCX and EPS. | |
| Disk | 3.5" DOS format, 1.44 Mbytes | |
| Preamp power | Power connector for SRS preamps | |
| Power | 70 W, 100/120/220/240 VAC, 50/60 Hz | |
| Dimensions | 17" ´ 8.25" ´ 24" (WHL) | |
| Weight | 56 lbs. | |
| Warranty | One year parts and labor on defects in materials and workmanship | |
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Get More Information: Please contact our sales desk and ask for a data sheet along with a brochure covering other SRS products. Alternatively use the PDF link to download the data sheet, or use the Request Data button to ask for one to be sent to you. |
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TTid.co.uk - Thurlby Thandar instrument distribution |
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