| Lines 28-32 were replaced by lines 28-31 |
| - select the flow by hand (a good flow value is selected when the |
| - heater power at 10 K (stable) is about 0.15 W. |
| - * If you are in controlmode, you might need to increase the "int" |
| - value (to 10 or even 100 sec) and reduce the "minimal pulse" value |
| - to 0.05 sec. |
| + select the flow by hand (a good flow value is selected when the |
| + heater power at 10 K (stable) is about 0.15 W. |
| + * If you are in controlled mode, you might need to increase the "flow int" |
| + value (to 10 or even 100 sec) and change the pulse length. |
| Lines 34-37 were replaced by lines 33-52 |
| - a reasonable needle valve motor position) when not changing |
| - the temperature over a long time. In fixed mode you can also |
| - move the motor directly from the needle valve controller by means |
| - of the arrow keys. |
| + a reasonable needle valve motor position) when not changing |
| + the temperature over a long time. |
| + |
| + !Restarting SEA |
| + Restarting the SEA client is sometimes a good idea when problems |
| + arise. Restarting the SEA server is rarely necessary, but might also |
| + help. From the instrument account enter |
| + {{{ |
| + monit restart sea |
| + }}} |
| + to restart the SEA server. Normally, restarting the SEA server does |
| + not harm the instrument program. However, when the SICS server is in |
| + Driving mode, the objects linked to SEA may be lost. In this case |
| + just enter |
| + {{{ |
| + connect_sea |
| + }}} |
| + on the SICS prompt. |
| + |
| + |
LIN