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| dsa:fft [2024/05/21 14:59] – [Input Channels] dsain_go-ci.com | dsa:fft [2024/07/17 19:39] (current) – [Input Channels] dsain_go-ci.com | ||
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| Follow the guided steps below on how to set-up a FFT Analysis in EDM to use with Spider hardware.\\ | Follow the guided steps below on how to set-up a FFT Analysis in EDM to use with Spider hardware.\\ | ||
| ===== Create Test ===== | ===== Create Test ===== | ||
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| In EDM, select to create a new test. From the New Test Wizard, select the **FFT Analysis** test type.\\ | In EDM, select to create a new test. From the New Test Wizard, select the **FFT Analysis** test type.\\ | ||
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| Next, give the test a name and description.\\ | Next, give the test a name and description.\\ | ||
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| Finally, select the signal types that are wanted. You can select more than one signal type. Additionally, | Finally, select the signal types that are wanted. You can select more than one signal type. Additionally, | ||
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| ===== Test Configuration ===== | ===== Test Configuration ===== | ||
| Before testing, the **Analysis Parameters** must be configured to ensure all the data is properly measured.\\ | Before testing, the **Analysis Parameters** must be configured to ensure all the data is properly measured.\\ | ||
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| - | At the bottom of the window, the *Test Summary** can be found. This displays important stats about the analysis such as the Block Time, Sampling Rate, and Frequency Resolution (dF).\\ | + | At the bottom of the window, the **Test Summary** can be found. This displays important stats about the analysis such as the Block Time, Sampling Rate, and Frequency Resolution (dF).\\ |
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| ===== Input Channels ===== | ===== Input Channels ===== | ||
| - | The input channels will now need to be set up. All sensors will to be properly configured before testing. The **Input Channels** menu can be found through **Setup -> Input Channels**. | + | |
| - | ===== Run Test ===== | + | The input channels will now need to be set up. All sensors will to be properly configured before testing. The Input Channels menu can be found through **Setup |
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| + | **Measurement Quantity**\\ | ||
| + | **Sensitivity**\\ | ||
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| + | **Input Mode**\\ | ||
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| + | DC-Differential- In the DC-Differential mode, neither of the input connections is referenced to the local ground. The input is taken as the potential difference between the two input terminals, and any potential in common with both terminals is canceled out. The Common Mode Voltage (CMV) will be rejected as long as the overall input voltage level does not saturate the input gain stage. Beware that very high CMV will cause clipping and may damage the input circuitry. Signals with a nonzero mean (DC component) can be measured in this mode.\\ | ||
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| + | DC-Single End- In single-ended mode, one of the input terminals is grounded and the input is taken as the potential difference of the center terminal with respect to this ground. Use this mode when the input needs to be grounded to reduce EMI noise or static buildup. Do not use this mode when the signal source is ground referenced or ground loop interference may result. This mode also allows signals with a non-zero mean to be measured.\\ | ||
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| + | AC-Differential- AC-Differential is a differential input mode that applies a low-frequency high-pass (DC-blocking) analog filter to the input. It rejects common mode signals and DC components in the input signal. Use this when DC and low-frequency AC voltage measurements are not required or when a DC bias voltage is present. The analog high-pass filter has a cutoff frequency of -3dB at 0.3 Hz, and -0.1dB at 0.7 Hz for the IEPE input mode.\\ | ||
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| + | AC-Single End- AC-Single End grounds one of the input terminals and enables the DC-blocking analog filter. Use this mode for non-ground referenced sources where measuring the DC or low-frequency components are not required. It shares the same high-pass filter as that of AC-Differential.\\ | ||
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| + | IEPE (ICP)- All Crystal Instruments products support IEPE (Integral Electronic PiezoElectric) constant current output type input channels. IEPE refers to a class of transducers that are packaged with built-in voltage amplifiers powered by a constant current. These circuits are powered by a 4 mA constant current source at roughly 21 Volts.\\ | ||
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| + | Charge- Some sensors provide a high-impedance charge output. Usually, these are high-sensitivity piezoelectric units that lack a built-in voltage mode amplifier (i.e. IEPE), allowing them to be used in high-temperature environments. The Spider-81 front-end module has a built-in charge amplifier that allows the system to read the output of these sensors.\\ | ||
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| + | **High-Pass Filter**\\ | ||
| + | Ability to set a digital high-pass filter for specific channels.\\ | ||
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| + | **Integration/ | ||