Stanford SR785 Analizador de Señal Dinámico
Stanford SR785 Dynamic Signal Analyzer
Solicitar presupuesto
Stanford SR785 es un analizador de señal dinámico de dos canales con ancho de banda DC a 102.4kHz, rango dinámico FFT de 90dB (onda senoidal barrida de 145dB), análisis avanzado de FFT, octava y seguimiento de orden.
Detalles del producto
| Modelo | SR785 |
| Fabricante | Stanford |
| Categoría | Generadores de Señal de RF y Microondas |
| Disponibilidad | Bajo pedido |
Description
Descripción General
El Stanford SR785 es un analizador de señal dinámico de doble canal de precisión que ofrece rendimiento de vanguardia para mediciones de sistemas mecánicos y eléctricos. Combina las capacidades de un analizador de espectro, analizador de red, analizador de vibración, analizador de octava y osciloscopio en un solo instrumento, con ancho de banda DC a 102.4kHz, rango dinámico FFT de 90dB y rango dinámico de onda senoidal barrida de 145dB para precisión de medición excepcional.
Características Principales
- Configuración de dos canales con control independiente de espacio y frecuencia por canal
- Ancho de banda: DC a 102.4kHz con adquisición de datos continua en tiempo real
- Rango dinámico: 90dB (modos FFT y Octava), 145dB (modo Onda Senoidal Barrida)
- Seguimiento de orden con orden delta de 0.0075 a 1
- Análisis de octava en tiempo real (1/1, 1/3, 1/12 octava) según la norma ANSI S1.11-1986
- Múltiples modos de medición: FFT, Tiempo/Histograma, Correlación, Octava, Onda Senoidal Barrida, Seguimiento de Orden
- Mediciones de respuesta de frecuencia, coherencia y densidad espectral de potencia
- Ajuste de curva y síntesis de 20 polos/20 ceros
- Memoria de hasta 32 Mbyte con capacidad de captura de 2 u 8 Msamples opcional
- Funciones de marcador avanzadas incluyendo búsqueda de picos, armónico, banda y marcadores de banda lateral
- Interfaces GPIB y RS-232 para control remoto y exportación de datos
Aplicaciones
- Análisis de vibración mecánica y modal
- Caracterización de sistemas de control y pruebas de respuesta de frecuencia
- Diagnóstico de maquinaria y detección de fallas
- Mediciones acústicas y de ruido con filtros de ponderación
- Análisis de función de transferencia y coherencia
- Análisis armónico de sistema de potencia y pruebas de calidad
Especificaciones técnicas
| Averaging | The SR785 comes equipped with a wide selection of averaging techniques to improve your signal-to-noise ratio. RMS averaging reduces signal fluctuations, while vector averaging minimizes noise from synchronous signals. Peak hold averaging is also available. Both linear and exponential averaging are provided for each mode. Because the SR785 is so fast, there's no need for a separate "fast averaging" mode. For instance, in a full-span FFT measurement with a 4 ms time record, 1000 averages take exactly 4 seconds, during which the SR785 still operates at its maximum display rate. For impact testing, the average preview feature allows each time record or spectrum to be accepted or rejected before adding it to the measurement. |
| Order Tracking | Order tracking is used to evaluate the behavior of rotating machinery. Measurement data is displayed as a function of multiples of the shaft frequency (orders), rather than absolute frequency. Combined with a waterfall plot, the SR785 provides a complete history or "order map" of your data as a function of time or rpm. Using the slice feature, the amplitude profile of specific orders in the map can be analyzed. In tracked order mode, the intensity of individual orders vs rpm is measured. Unlike other analyzers, there's no need to track a limited number of orders to ensure full speed measurements. The SR785's speed allows simultaneous tracking of up to 400 orders. Run-up and run-down measurements are available in both polar and magnitude/phase formats. RPM profiling is provided to monitor variations of rpm as a function of time. A complete selection of time and rpm triggering modes is included, allowing you to make virtually any rotating machinery measurement. |
| Octave Analysis | Real-time 1/1, 1/3 and 1/12 octave analysis, at frequencies up to 40 kHz (single channel) or 20 kHz (two channel), is a standard feature of the SR785. Octave analysis is fully compliant with ANSI S1.11-1986 (Order 3, type 1-D) and IEC 225-1966. Switchable analog A-weighting filters, as well as A, B and C weighting math functions, are included. Averaging choices include exponential time averaging, linear time averaging, peak hold, and equal confidence averaging. Broadband sound level is measured and displayed as the last band in the octave graph. Total power, impulse, peak hold and Leq are all available. Exponentially averaged sound power (Leq) is calculated according to ANSI S1.4-1983, Type 0. Octave displays can be plotted as waterfalls with a fast 4 ms storage interval. Once data is stored in the waterfall buffer, the SR785 can display centile exceedance statistics for each 1/1, 1/3 or 1/12 octave band, as well as for Leq. |
| Swept-Sine Measurements | Swept-sine mode is ideal for signal analysis that involves high dynamic range or wide frequency spans. Gain is optimized at each point in the measurement, producing up to 145 dB of dynamic range. A frequency resolution of up to 2000 points is also provided. Auto-ranging can be used with source auto-leveling to maintain a constant input or output level at the device under test (to test response at a specific amplitude, for instance). Auto-resolution ensures the fastest possible sweeps and adjusts the frequency steps in the scan based on the DUT's response. Phase and amplitude changes that exceed user-defined thresholds are measured with high frequency resolution, while small changes are measured using wider frequency steps between points. A choice of linear sweeps with high resolution, or logarithmic sweeps with up to eight decades of frequency range, is provided. |
| Time/Histogram | The time/histogram measurement group is used to analyze time-domain data. A histogram of the time data vs. signal amplitude is provided for accurate time domain signal characterization. Statistical analysis capabilities include both probability density function (PDF) and cumulative density function (CDF). The sample rate, number of samples, and number of bins can all be adjusted. |
| Time Capture | The SR785 comes with 8 Mbytes of memory (32 Mbytes optional). Analog waveforms can be captured at sampling rates of 262 kHz or any binary sub-multiple, allowing you to optimize sampling rate and storage for any application. For example, 8 Msamples of memory will capture 32 seconds of time domain data at the maximum 262 kHz sample rate, or about 9 hours of data at a 256 Hz sample rate. Once captured, any portion of the signal can be played back in any of the SR785's measurement groups except swept-sine. The convenient Auto-Pan feature lets you display measurement results synchronously with the corresponding portion of the capture buffer to identify important features. |
| Source | The SR785 comes with six precision source types: low-distortion (-80 dBc) single or two-tone sine waves, white noise, pink noise, chirp, and arbitrary waveforms. The chirp and noise sources can be bursted to provide activity over a selected portion of the time record for FFT measurements, or to provide impulse noise for acoustic measurements. The digitally-synthesized source produces output levels from 0.1 mV to 5 V plus DC offset from 0 to ±5 V, and delivers up to 100 mA of current. Arbitrary waveform capability is standard with the SR785. 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 your computer. |
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Stanford SR785 Analizador de Señal Dinámico
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