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| ffc:locking_electronics:rpm-100 [2022/09/27 20:11] – external edit 127.0.0.1 | ffc:locking_electronics:rpm-100 [2022/09/27 20:27] – external edit 127.0.0.1 |
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| Please read [[:limited_warranty|Limited Warranty]] and [[:warnings_cautions|General Warnings and Cautions]] prior to operating the RPM-100. | Please read [[:limited_warranty|Limited Warranty]] and [[:warnings_cautions|General Warnings and Cautions]] prior to operating the RPM-100. |
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| ====Links==== | =====Links===== |
| Click here for the [[http://www.vescent.com/manuals/doku.php?id=manuals|Main Manuals Page]].\\ | Click here for the [[http://www.vescent.com/manuals/doku.php?id=manuals|Main Manuals Page]].\\ |
| Click here for the [[ffc:100|FFC-100 Quick Start Guide]].\\ | Click here for the [[ffc:100|FFC-100 Quick Start Guide]].\\ |
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| ====Locking ƒ(opt)==== | ====Locking ƒ(opt)==== |
| - Navigate to the “Optical Lock” window. Center the beat note near the reference frequency: adjust the “Offset DAC 1” slider (or your reference laser frequency) until you see a circular Baseband IQ diagram (<imgref opt_bbiq>).\\ <imgcaption opt_bbiq|Centerig ƒ(opt) on reference frequency (Baseband IQ optimization)>{{ ffc:fpga_optical_bbiq.png?800 |ffc:fpga_optical_bbiq.png}}</imgcaption>\\ | - Navigate to the “Optical Lock” window. Center the beat note near the reference frequency: adjust the “Offset DAC 1” slider (or your reference laser frequency) until you see a circular Baseband IQ diagram (<imgref opt_bbiq>).\\ <imgcaption opt_bbiq|Centerig ƒ(opt) on reference frequency (Baseband IQ optimization)> |
| - Press the “Lock” button (<imgref fopt_lock>). If ƒ<sub>opt</sub> doesn’t lock, change the VCO sign to the opposite polarity and try again. If the system continues to not lock, lower the K<sub>p</sub> value.\\<imgcaption fopt_lock|Locking ƒ(opt)>{{ ffc:fpga_optical_lock.png?800 |ffc:fpga_optical_lock.png}}</imgcaption>\\ | {{ :ffc:locking_electronics:fopt_1_no-lock.png?800 |}}</imgcaption>\\ |
| | - Press the “Lock” button (<imgref fopt_lock>). If ƒ<sub>opt</sub> doesn’t lock, change the VCO sign to the opposite polarity and try again. If the system continues to not lock, lower the K<sub>p</sub> value.<imgcaption fopt_lock|Locking ƒ(opt)>{{ :ffc:locking_electronics:fopt_2_locked.png?800 |}}</imgcaption>\\ |
| - Adjust PID settings (bottom middle of <imgref fopt_lock>) accordingly to lower the integrated phase noise of each parameter (f<sub>CEO</sub> and f<sub>opt</sub>). The default settings provided in the software are a good place to start but tweaking the values can often improve performance. | - Adjust PID settings (bottom middle of <imgref fopt_lock>) accordingly to lower the integrated phase noise of each parameter (f<sub>CEO</sub> and f<sub>opt</sub>). The default settings provided in the software are a good place to start but tweaking the values can often improve performance. |
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| The external clock input (#5 on the [[ffc:locking_electronics:rpm-100#Front Panel|Front Panel Diagram]]) is used to feed an external reference clock, which can be used to clock the RPM-100s ADCs and generate the 10MHz reference signal which is normally generated with the internal oscillator. For example, the RPM-100 can be clocked with an external reference, or the f<sub>REP</sub> signal from the FFC-100. To use this feature, it is necessary to first specify the input frequency in the settings menu of the software provided with the RPM-100, under the "Target ExtClk Freq" box. Pressing ENTER after giving a value will apply the new clock settings. | The external clock input (#5 on the [[ffc:locking_electronics:rpm-100#Front Panel|Front Panel Diagram]]) is used to feed an external reference clock, which can be used to clock the RPM-100s ADCs and generate the 10MHz reference signal which is normally generated with the internal oscillator. For example, the RPM-100 can be clocked with an external reference, or the f<sub>REP</sub> signal from the FFC-100. To use this feature, it is necessary to first specify the input frequency in the settings menu of the software provided with the RPM-100, under the "Target ExtClk Freq" box. Pressing ENTER after giving a value will apply the new clock settings. |
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| The RPM-100 will attempt to use the specified frequency, however, due to the limitations of the FPGA's Peak Locked Loop hardware, certain frequencies work better than others. For example, frequencies such as 25MHz, 50MHz, 75MHz, 100MHz, 125MHz, or 200MHz will result in exact clocking and a clean 10MHz output signal. Unusual frequencies such as 42.3MHz cannot be used to produce a precise ADC clock or 10MHz reference. | <imgcaption settings|The settings screen of the RPM-100>{{ :ffc:locking_electronics:settings.png?800 |}}</imgcaption> |
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| | The RPM-100 will attempt to use the specified frequency, however, due to the limitations of the FPGA's Peak Locked Loop hardware, certain frequencies work better than others. For example, frequencies such as 25MHz, 50MHz, 75MHz, 100MHz, 125MHz, or 200MHz will result in exact clocking and a clean 10MHz output signal. Unusual frequencies such as 42.3MHz cannot be used to produce a precise ADC clock or 10MHz reference. |
| =====Troubleshooting===== | =====Troubleshooting===== |
| ====Overview==== | ====Overview==== |
