slice:dcc:api
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slice:dcc:api [2019/12/10 05:30] – [Global SLICE Commands] Michael Radunsky | slice:dcc:api [2019/12/11 02:59] – [SLICE-DCC-specific Commands] Michael Radunsky | ||
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__Possible system responses__\\ | __Possible system responses__\\ | ||
Requested current in Amps or closest value as bounded by unit capacity.\\ | Requested current in Amps or closest value as bounded by unit capacity.\\ | ||
+ | <WRAP center round box 60%> | ||
+ | | {{ : | ||
+ | </ | ||
---- | ---- | ||
< | < | ||
- | Returns user-set maximum current in Amps for channel CHANNEL. In the example, the maximum current | + | Returns user-set maximum current in Amps for channel CHANNEL. In the example, the maximum current |
__Input range__\\ | __Input range__\\ | ||
CHANNEL: {1,2}\\ | CHANNEL: {1,2}\\ | ||
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CHANNEL: {1,2}\\ | CHANNEL: {1,2}\\ | ||
---- | ---- | ||
- | < | + | < |
Sets the set point power level in milliwatts to which the Constant Power Mode will attempt to servo for channel CHANNEL. Returns PWRSET? CHANNEL. In the example, the set point power for channel 2 is set to 314.0 mW.\\ \\ | Sets the set point power level in milliwatts to which the Constant Power Mode will attempt to servo for channel CHANNEL. Returns PWRSET? CHANNEL. In the example, the set point power for channel 2 is set to 314.0 mW.\\ \\ | ||
__Input parameter ranges__\\ | __Input parameter ranges__\\ | ||
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---- | ---- | ||
< | < | ||
- | Returns the Integral Gain of the Constant Power feedback loop for channel CHANNEL in dB. In the example, the Gain for Constant Power mode feedback for channel 1 is 30.000000 | + | Returns the Integral Gain of the Constant Power feedback loop for channel CHANNEL in dB. In the example, the Gain for Constant Power mode feedback for channel 1 is +30.000 000 dB. The default value of the Gain is +30.000 000 dB.\\ \\ |
__Input range__\\ | __Input range__\\ | ||
CHANNEL: {1,2}\\ | CHANNEL: {1,2}\\ | ||
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CHANNEL: {1,2}\\ | CHANNEL: {1,2}\\ | ||
---- | ---- | ||
- | < | + | < |
Sets the Constant Power mode external (customer-supplied) detector responsivity in Amps per Watt for channel CHANNEL. Returns RESPVTY? CHANNEL. In the example, the responsivity of the detector for channel 1 is set to 0.0035 A/W.\\ \\ | Sets the Constant Power mode external (customer-supplied) detector responsivity in Amps per Watt for channel CHANNEL. Returns RESPVTY? CHANNEL. In the example, the responsivity of the detector for channel 1 is set to 0.0035 A/W.\\ \\ | ||
__Input parameter ranges__\\ | __Input parameter ranges__\\ | ||
CHANNEL: {1,2}\\ | CHANNEL: {1,2}\\ | ||
- | GAIN: (TBD)\\ | + | RESPONSIVITY: (TBD)\\ |
---- | ---- | ||
< | < | ||
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---- | ---- | ||
< | < | ||
- | Returns the analog modulation source for channel CHANNEL. In the example, the modulation source for channel 1 is the front-panel | + | Returns the analog modulation source for channel CHANNEL. In the example, the modulation source for channel 1 is the front-panel input (labeled A).\\ \\ |
__Return Values__\\ | __Return Values__\\ | ||
0 = Modulation input is the SMA connector labeled Mod In on the back of the unit for the respective channel (default).\\ | 0 = Modulation input is the SMA connector labeled Mod In on the back of the unit for the respective channel (default).\\ | ||
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CHANNEL: {1,2}\\ | CHANNEL: {1,2}\\ | ||
__Possible output values__\\ | __Possible output values__\\ | ||
- | Power: (0 to 41.5 W) | + | Power: (0 to 42.5 W) |
---- | ---- | ||
===== Error Handling ===== | ===== Error Handling ===== |
slice/dcc/api.txt · Last modified: 2023/12/06 20:35 by Christiana Sasser