Product Description:
Stanford Research Systems SR785 2-Ch, 102.4 kHz Dynamic Signal Analyzer
The Stanford Research Systems SR785 network analyzer is an instrument which measures the complex transmission and reflection characteristics of two-port devices in the frequency domain. It does this by sampling the incident signal, separating the transmitted and reflected waves, and then performing ratios that are directly related to the reflection and transmission coefficients of the two-port. Frequency is swept to rapidly obtain amplitude and phase information over a band of frequencies of interest.
Stanford Research Systems SR785 network analyzers utilize synthesized-frequency sources to provide a known test stimulus that can sweep across a range of frequencies or power levels. Stanford Research Systems SR785 network analyzers also can perform ratioed measurements (including phase), which require multiple receivers. The Stanford Research Systems SR785 can provide a wealth of knowledge about a device under test (DUT), including its magnitude, phase, and group-delay response.
Feature:Minimum Frequency: 0Hz
Maximum Frequency: 102.4kHz
DC to 102.4 kHz Bandwidth
ò 90 dB Dynamic Range
ò 16-bit A/D Conversion
ò Low Distortion Synthesized Source
ò ANSI Standard Octave Measurements
ò 145 dB Dynamic Range Swept Sine Mode
ò Order Tracking
ò 20 Pole/Zero Curve Fitting
ò Time/Histogram Mode
ò 8 Msamples Transient Capture Memory
ò Internal and External Triggering
ò File Output to SDF, MAT, UFF, and ASCII
ò Graphics Outptut to GIF, EPS, PCX, HPGL
ò 3.5`` MS-DOS Compatible Disk Drive
ò GPIB and RS-232 Interfaces Included
ò Windows Data Viewer Program Included
The SR785 Two Channel Dynamic Signal Analyzer is a precision, full-featured signal analyzer that offers state-of-the-art performance and a wide selection of features at a price that's less than half that of competitive analyzers. Building on its predecessor, the SR780, the SR785 incorporates new firmware and hardware that make it the ideal instrument for analyzing both mechanical and el Low Distortion Synthesi source
Order Tracking
Flexible Averaging
16-Bit A/D Conversion
Octave Analysis
Swept-Sine Analysis
Time/Histogram Mode
2 Msample Transi Capture Memry
Windows Data Viewer Program
20 Pole/Zero
Frequency Accuracy:0.025%
Input Impedance:1Mohm
Maximum DC Input:57V
Maximum Frequency:102.4kHz
Maximum Span:102.4kHz
Minimum Frequency:0Hz
Minimum Span:195.3mHz
Noise Source Driver:No
Probe Power:No
Trigger Modes:Delay
Trigger Source:Internal
Zero Span:No
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