This year, at the request of XRT and EIS, ISAS has added in calculations of XTW, or X-ray Twilight, in addition to optical night (NGT). It's very helpful to have these extra calculations, and we are road-testing with EIS to see if the predictions do a better job than the default 10-minute buffer around NGT that we used to use.
In the one case I've looked at where a mode change occurs (from gyro to gyro+ufss), the repoint takes of order 15 seconds. This was taken from the shift seen in eis_l0_20070509_074627.fits, a HH---N03 raster, with nominal 5-second cadence (more like 6-and-a-bit). This repoint happened between 07:53:27.275 (expo start time, admittedly) and 07:53:47.117 (expo start time). The corresponding NGT_EXIT happened at 07:45:30, so there is just over 8 minutes until the repoint due to mode switch.
Since the few datasets I've looked at so far (all from the same date, from the merged telemetry) indicate that EIS twilight isn't over until about 10 minutes after NGT_EXIT, this repoint delay is not such a worry for us. The bigger worry was the length of night, including twilight, which cannot easily be calibrated out.
One use for these data might be to use them as dark current calibration. There is effectively no input to the detectors (unless the 3p-1s transition is strong in geocoronal emission) so anything we see will be stray light.