DIB-table-2015-Jul-22

Last updated 2015 Jul 22

 address	DIB table:	1	2	3	4	5	6	7	8	9
0	General control 	0x0A	0x0A	0x0A	0x0A	0x0A	0x0A	0x0A	0x0A	0x0A
1	global enables	        0x01	0x01	0x01	0x01	0x01	0x01	0x01	0x01	0x01
2	front enables	        0x29	0x29	0x29	0x29	0x29	0x29	0x29	0x29	0x29
3	front decimation	0x00	0x00	0x00	0x00	0x00	0x00	0x00	0x00	0x00
4	rear enables	        0x2D	0x2D	0x2D	0x2D	0x2D	0x2D	0x2D	0x2D	0x2D
5	rear decimation	        0x85	0x85	0x85	0x85	0x85	0x85	0x85	0x85	0x85
6	pulser frequency code	0x0B	0x0B	0x0B	0x0B	0x0B	0x0B	0x0B	0x0B	0x0B
7	front slow threshold	0x0C	0x70	0x0C	0x70	0x0C	0x20	0x10	0x15	0x1A
8	front fast threshold	0x40	0x60	0x40	0x80	0x2E	0xB0	0x40	0x30	0x50
9	rear slow threshold	0x30	0x30	0x30	0x30	0x30	0x30	0x30	0x30	0x30
10	rear fast threshold	0x60	0x45	0x70	0x45	0x58	0xA0	0x60	0xD0	0xFF
11	12-bit pulser amplitud	0x00	0xFF	0x00	0x00	0x00    0x00	0x00	0x00	0x00

A note on converting front slow threshold values to keV:

Very roughly, the standard threshold, 0x0C, represents a little under 3 keV. Each step is ~0.2 keV, so 0x58 is roughly 3+(88-12)*0.2 = 18 keV. But in the end we want to calibrate this using flare data.

Old tables: DIB-table-2015-Jul-08, DIB-table-2015-Jun-17, DIB-table-2015-May-27,DIB-table-2015-May-13,DIB-table-2015-Apr-15,DIB-table-2015-Apr-01,DIB-table-2015-Mar-04,DIB-table-2015-Jan-05, DIB-table-2014-Aug-13, DIB-table-2014-May-28, DIB-table-2014-May-20, DIB-table-2014-May-12,DIB-table-2013-Feb-14, DIB-table-2013-Sep-30, DIB-table-2014-Jan-08, DIB-table-2014-Jan-29, DIB-table-2014-Feb-27, DIB-table-2014-Mar-11, DIB-table-2014-Apr-07, DIB-table-2014-Apr-11, DIB-table-2014-Apr-15, DIB-table-2014-Jun-11