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Phone: +41 56 310 4593
Updated: 09.09.2015
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SLS DBPM System
DBPM Test System:
| Test System | BPM Devices | |
| MRIDI-VME-BPM1 |
intensity/x/y: min/max intensity/x/y (fixed scale): min/max intensity/x/y (auto scale): min/max button values: intensity/RF-offset/temperature: |
12LD
12LE
12LB
01LB
01LE
01LD 12LD 12LE 12LB 01LB 01LE 01LD 12LD 12LE 12LB 01LB 01LE 01LD 12LD 12LE 12LB 01LB 01LE 01LD 12LD 12LE 12LB 01LB 01LE 01LD |
| MRIDI-VME-BPM2 |
intensity/x/y: min/max intensity/x/y (fixed scale): min/max intensity/x/y (auto scale): min/max button values: intensity/RF-offset/temperature: |
01SD
01SE
01SB
02SB
02SE
02SD 01SD 01SE 01SB 02SB 02SE 02SD 01SD 01SE 01SB 02SB 02SE 02SD 01SD 01SE 01SB 02SB 02SE 02SD 01SD 01SE 01SB 02SB 02SE 02SD |
| MRIDI-VME-BPM3 |
intensity/x/y: min/max intensity/x/y (fixed scale): min/max intensity/x/y (auto scale): min/max button values (auto scale): intensity/RF-offset/temperature: |
02MD
02ME
02MB
03MB
03ME
03MD 02MD 02ME 02MB 03MB 03ME 03MD 02MD 02ME 02MB 03MB 03ME 03MD 02MD 02ME 02MB 03MB 03ME 03MD 02MD 02ME 02MB 03MB 03ME 03MD |
| MRIDI-VME-BPM12 |
intensity/x/y: min/max intensity/x/y (fixed scale): min/max intensity/x/y (auto scale): min/max button values: intensity/RF-offset/temperature: |
11SD
11SE
11SB
12D1
12SB
12SE
12SD 11SD 11SE 11SB 12D1 12SB 12SE 12SD 11SD 11SE 11SB 12D1 12SB 12SE 12SD 11SD 11SE 11SB 12D1 12SB 12SE 12SD 11SD 11SE 11SB 12D1 12SB 12SE 12SD |
| Test System | BPM Devices | |
| MBODI-VME-BPM1 |
intensity/x/y (average): intensity/x/y @ marker: intensity/x/y @ intensity peak intensity/x/y RMS: button value A/B/C/D (average): button value A/B/C/D (@ marker): |
6G
6H
6S
1S
1H
1G 6G 6H 6S 1S 1H 1G 6G 6H 6S 1S 1H 1G 6G 6H 6S 1S 1H 1G 6G 6H 6S 1S 1H 1G 6G 6H 6S 1S 1H 1G |
Channel Information:
The following EPICS channels are automatically archived for the above DBPM test systems. The parameter $(DEV) has to be replaced by the corresponding BPM device name, e.g. $(DEV) = MRIDI-BPM-01SD. Sector wide parameter definitions are abreviated by $(SEC), e.g. $(SEC) = MRIDI-BPM-SEC2.
| EPICS Channel Name | engineering unit | Description |
| $(DEV):INT-AVG | ADC digits / mA | BPM intensity average signal. The averaging period is defined by the channel $(SEC):SET-AVG-SIZE which specifies the number of samples for the sliding average in the closed orbit mode. The unit depends on the setting of the scaling factor $(DEV):CUR-SCALE which scales the ADC raw value ($(DEV):INT-AVG-RAW) into $(DEV):INT-AVG. Usually, for test systems the scaling factor is set to 1. |
| $(DEV):X-AVG | mm | horizontal average signal. The averaging period is defined by the channel $(SEC):SET-AVG-SIZE which specifies the number of samples for the sliding average in the closed orbit mode. |
| $(DEV):Y-AVG | mm | vertical average signal. The averaging period is defined by the channel $(SEC):SET-AVG-SIZE which specifies the number of samples for the sliding average in the closed orbit mode. |
| $(DEV):INT-MAX | ADC digits / mA | BPM intensity maximum signal. The period in which the maximum value is determined is defined by the channel $(SEC):MINMAX-MODE togehter with the period length $(SEC):MINMAX-INTVL. The unit depends on the setting of the scaling factor $(DEV):CUR-SCALE which scales the ADC raw value ($(DEV):INT-AVG-RAW) into $(DEV):INT-AVG. Usually, for test systems the scaling factor is set to 1. |
| $(DEV):INT-MIN | ADC digits / mA | BPM intensity minimum signal. The period in which the minimum value is determined is defined by the channel $(SEC):MINMAX-MODE togehter with the period length $(SEC):MINMAX-INTVL. The unit depends on the setting of the scaling factor $(DEV):CUR-SCALE which scales the ADC raw value ($(DEV):INT-AVG-RAW) into $(DEV):INT-AVG. Usually, for test systems the scaling factor is set to 1. |
| $(DEV):X-MAX | mm | horizontal maximum signal. The period in which the maximum value is determined is defined by the channel $(SEC):MINMAX-MODE togehter with the period length $(SEC):MINMAX-INTVL. |
| $(DEV):X-MIN | mm | horizontal minimum signal. The period in which the minimum value is determined is defined by the channel $(SEC):MINMAX-MODE togehter with the period length $(SEC):MINMAX-INTVL. |
| $(DEV):Y-MAX | mm | vertical maximum signal. The period in which the maximum value is determined is defined by the channel $(SEC):MINMAX-MODE togehter with the period length $(SEC):MINMAX-INTVL. |
| $(DEV):Y-MIN | mm | vertical minimum signal. The period in which the minimum value is determined is defined by the channel $(SEC):MINMAX-MODE togehter with the period length $(SEC):MINMAX-INTVL. |
| $(DEV):VA-MAX | ADC digits | channel A maximum signal (button signal A). The period in which the maximum value is determined is defined by the channel $(SEC):MINMAX-MODE togehter with the period length $(SEC):MINMAX-INTVL. |
| $(DEV):VA-MIN | ADC digits | channel A minimum signal (button signal A). The period in which the minimum value is determined is defined by the channel $(SEC):MINMAX-MODE togehter with the period length $(SEC):MINMAX-INTVL. |
| $(DEV):VB-MAX | ADC digits | channel B maximum signal (button signal B). The period in which the maximum value is determined is defined by the channel $(SEC):MINMAX-MODE togehter with the period length $(SEC):MINMAX-INTVL. |
| $(DEV):VB-MIN | ADC digits | channel B minimum signal (button signal B). The period in which the minimum value is determined is defined by the channel $(SEC):MINMAX-MODE togehter with the period length $(SEC):MINMAX-INTVL. |
| $(DEV):VC-MAX | ADC digits | channel C maximum signal (button signal C). The period in which the maximum value is determined is defined by the channel $(SEC):MINMAX-MODE togehter with the period length $(SEC):MINMAX-INTVL. |
| $(DEV):VC-MIN | ADC digits | channel C minimum signal (button signal C). The period in which the minimum value is determined is defined by the channel $(SEC):MINMAX-MODE togehter with the period length $(SEC):MINMAX-INTVL. |
| $(DEV):VD-MAX | ADC digits | channel D maximum signal (button signal D). The period in which the maximum value is determined is defined by the channel $(SEC):MINMAX-MODE togehter with the period length $(SEC):MINMAX-INTVL. |
| $(DEV):VD-MIN | ADC digits | channel D minimum signal (button signal D). The period in which the minimum value is determined is defined by the channel $(SEC):MINMAX-MODE togehter with the period length $(SEC):MINMAX-INTVL. |
| $(DEV):RF-OFFSET | kHz | RF frequency offset between programmed NCO frequency and carrier input. In normal operation mode (closed orbit), the RF-OFFSET is constant. Only in NCO_readout mode the NCO frequency is automatically adjusted to track the LO drifts in the RF frontend and/or changes in the carrier input frequency. |
| MRIDI-BPM-SEC2:TEMP | deg. Celcius | temperature crate MRIDI-VME-BPM2. Averaged temperature of three temperature sensors LM35 at the back of the crate. |
| MRIDI-BPM-SEC12:TEMP | deg. Celcius | temperature crate MRIDI-VME-BPM12. Averaged temperature of three temperature sensors LM35 at the back of the crate. |
Author: Thomas Schilcher Phone: +41 56 310 4593 Updated: 09.09.2015