ffc:100
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ffc:100 [2023/08/10 21:09] – external edit 127.0.0.1 | ffc:100 [2023/08/22 23:46] (current) – external edit 127.0.0.1 | ||
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====FFC Start Up GUI==== | ====FFC Start Up GUI==== | ||
- Touch the “System Off” button at the top of the front panel screen (<imgref gui_off> | - Touch the “System Off” button at the top of the front panel screen (<imgref gui_off> | ||
- | - Once the temperature servos have stabilized and “Standby” has stopped blinking, touch the “Standby” drop-down menu (<imgref stdby>) and select “Laser On” (<imgref stdby_to_on> | + | - Once the temperature servos have stabilized and “Standby” has stopped blinking, touch the “Standby” drop-down menu (<imgref stdby>) and select “Laser On” (<imgref stdby_to_on> |
- | - Touch the “PZT” touch screen button (<imgref pzt>) to bring up a drop-down menu and select “Full Range x10” to enable the PZT servo.\\ < | + | - Touch the “PZT” touch screen button (<imgref pzt>) to bring up a drop-down menu and select “Full Range x10” to enable the PZT servo.\\ < |
- | + | ||
====FPGA Control==== | ====FPGA Control==== | ||
- | The SLICE-FPGA dual-channel Offset Phase Lock Servo can be used to phase lock ƒ< | ||
- | For locking the FFC-100 with the Vescent | + | | {{ :take-note.png? |
- | If using the SLICE-FPGA, [[ffc:locking_electronics:slice-fpga|click here]]. | + | The two channels of the SLICE-FPGA |
- | ====Slow Loop Feedback==== | + | {{ : |
Slow servo functionality is designed to allow indefinite FOPT locking times despite long-term drifts in the reference laser’s frequency outside the dynamic range of the FFC’s PZT feedback. This is achieved by slow temperature feedback to the oscillator of the FFC, which locks the PZT output voltage to a setpoint voltage near the middle of its dynamic range. To enable the slow servo, first lock FOPT normally, with the DAC 1 slider as close to centered as possible. Next, navigate to the home screen of the FFC-100 and press the “Slow Servo” button at the top of the screen (<imgref ss_home> and <imgref ss_enabled> | Slow servo functionality is designed to allow indefinite FOPT locking times despite long-term drifts in the reference laser’s frequency outside the dynamic range of the FFC’s PZT feedback. This is achieved by slow temperature feedback to the oscillator of the FFC, which locks the PZT output voltage to a setpoint voltage near the middle of its dynamic range. To enable the slow servo, first lock FOPT normally, with the DAC 1 slider as close to centered as possible. Next, navigate to the home screen of the FFC-100 and press the “Slow Servo” button at the top of the screen (<imgref ss_home> and <imgref ss_enabled> | ||
- | < | + | < |
This will activate the slow servo but does not turn on the feedback. You can tell that the slow servo has been activated by the blue background on the “Setpoint [°C]” button. | This will activate the slow servo but does not turn on the feedback. You can tell that the slow servo has been activated by the blue background on the “Setpoint [°C]” button. | ||
- | < | + | < |
This will activate the slow servo. On the FPGA software under the “Optical Lock” tab, the “DAC 1” slider should be gradually pushed and eventually stabilize in the center of its dynamic range. The gain of the slow servo comes preconfigured for each unit but can be adjusted via a menu accessed by pressing and holding the “Slow Servo” button on the FFC GUI (<imgref ss_menu> | This will activate the slow servo. On the FPGA software under the “Optical Lock” tab, the “DAC 1” slider should be gradually pushed and eventually stabilize in the center of its dynamic range. The gain of the slow servo comes preconfigured for each unit but can be adjusted via a menu accessed by pressing and holding the “Slow Servo” button on the FFC GUI (<imgref ss_menu> | ||
- | < | + | < |
While the slow servo is on, the color of the “Setpoint [°C]” button will change as the slow servo adjusts the temperature setpoint. A yellow color indicates that the PZT voltage is > 6V away from the setpoint (30V) and the temperature setpoint is being changed to compensate. This box will turn green when the PZT voltage is within the range of ±6V of the voltage setpoint. The color of the “Actual [°C]” box may also momentarily turn yellow as the temperature control servo corrects the cavity temperature when the temperature setpoint changes. | While the slow servo is on, the color of the “Setpoint [°C]” button will change as the slow servo adjusts the temperature setpoint. A yellow color indicates that the PZT voltage is > 6V away from the setpoint (30V) and the temperature setpoint is being changed to compensate. This box will turn green when the PZT voltage is within the range of ±6V of the voltage setpoint. The color of the “Actual [°C]” box may also momentarily turn yellow as the temperature control servo corrects the cavity temperature when the temperature setpoint changes. | ||
Remember to shut off the slow servo by pressing the On/Off button in the slow servo menu, when unlocking the FFC-100. | Remember to shut off the slow servo by pressing the On/Off button in the slow servo menu, when unlocking the FFC-100. |
ffc/100.txt · Last modified: 2023/08/22 23:46 by 127.0.0.1