ice:servo-opls
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ice:servo-opls [2019/11/18 23:33] – [Understanding the Transfer Function] Michael Radunsky | ice:servo-opls [2021/08/26 15:26] (current) – external edit 127.0.0.1 | ||
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Please read [[: | Please read [[: | ||
- | The guide to programming the ICE-CP1 through serial commands can be [[ice: | + | The guide to programming the ICE-CP1 through serial commands can be [[ice: |
===== Description ===== | ===== Description ===== | ||
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| Current range | | Current range | ||
| Current setpoint resolution | | Current setpoint resolution | ||
- | | Current noise density((All measurements guaranteed on design and verified experimentally on D2-105 which uses same circuit.)) | + | | Current noise density |
- | | RMS Noise (10Hz - 100kHz)((All measurements guaranteed on design and verified experimentally on D2-105 which uses same circuit.)) | + | | RMS Noise (10Hz - 100kHz) |
- | | RMS Noise (10Hz - 1MHz)((All measurements guaranteed on design and verified experimentally on D2-105 which uses same circuit.)) | + | | RMS Noise (10Hz - 1MHz) | < |
- | | RMS Noise (10Hz - 10MHz)((All measurements guaranteed on design and verified experimentally on D2-105 which uses same circuit.)) | + | | RMS Noise (10Hz - 10MHz) |
| Absolute accuracy | | Absolute accuracy | ||
^ Offset Phase Lock Servo Input Signal | ^ Offset Phase Lock Servo Input Signal | ||
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Two numbers control the offset frequency of the ICE-CP1: The divider setting N and the reference frequency. The divider setting N can be set to N=8,16,32 or 64. The reference frequency can be generated internally with a range from 50 - 240 MHz. Or an external frequency reference can be provided (external frequency must be from 32 MHz - 240 MHz). The offset frequency of the laser is given by the following formula: | Two numbers control the offset frequency of the ICE-CP1: The divider setting N and the reference frequency. The divider setting N can be set to N=8,16,32 or 64. The reference frequency can be generated internally with a range from 50 - 240 MHz. Or an external frequency reference can be provided (external frequency must be from 32 MHz - 240 MHz). The offset frequency of the laser is given by the following formula: | ||
- | <WRAP center round box 450px>< | + | <WRAP center round box 260px> **Offset = N * Reference Frequency** </ |
The table below shows the offset range for different values of N and using the internal or external frequency reference. | The table below shows the offset range for different values of N and using the internal or external frequency reference. | ||
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**Beat Note Monitor ** | **Beat Note Monitor ** | ||
- | The Front Panel for the ICE-CP1 has four SMA or FC connectors. The second bottom-most connector is an SMA which is the digitized (i.e. square-wave) version of the input beat-note after a divide-by-2. For example, if the input beat note is 6 GHz, the monitor will have a 3 GHz output. | + | The Front Panel for the ICE-CP1 has four SMA or FC connectors. The top-most connector is an SMA which is the digitized (i.e. square-wave) version of the input beat-note after a divide-by-2. For example, if the input beat note is 6 GHz, the monitor will have a 3 GHz output. |
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**Beat Note Input ** | **Beat Note Input ** | ||
- | The Front Panel for the ICE-CP1 has four SMA or FC connectors. The top connector | + | The Front Panel for the ICE-CP1 has four SMA or FC connectors. The SMA connector |
**Laser Current ** | **Laser Current ** |
ice/servo-opls.txt · Last modified: 2021/08/26 15:26 by 127.0.0.1