1	// 1 = sort,   2 = calibrate fu,fv,fw, w_offset,    3 = generate correction tables and write them to disk

1	// type of detector (HEX = 1, DLD = 0)
0	// 0 = common start, 1 = common stop (for TDC8HP and fADC always use 0)

1	// TDC channel for u1 (counting starts at 1)
2	// TDC channel for u2 (counting starts at 1)
4	// TDC channel for v1 (counting starts at 1)
3	// TDC channel for v2 (counting starts at 1)
5	// HEX ONLY: TDC channel for w1 (counting starts at 1)
6	// HEX ONLY: TDC channel for w2 (counting starts at 1)
7	// TDC channel for mcp (counting starts at 1)  (0 if not used)

-138.5	// offset to shift timesum layer U to zero (in nanoseconds)
-148.3  // offset to shift timesum layer V to zero (in nanoseconds)
-135.5 	// HEX ONLY: offset to shift timesum layer W to zero (in nanoseconds)

0.	// offset to shift the position picture in X
0.	// offset to shift the position picture in Y

5.5  	// halfwidth (at base) of timesum layer U (in nanoseconds)
5.5  	// halfwidth (at base) of timesum layer V (in nanoseconds)
5.5  	// HEX ONLY: halfwidth (at base) of timesum layer W (in nanoseconds)

0.680  	// scalefactor for layer U
0.6795	// scalefactor for layer V
0.702	// HEX ONLY: scalefactor for layer W

1.9 	// HEX ONLY: offset layer W (in nanoseconds)
117.  	// runtime u (in nanosecods)
117.  	// runtime v (in nanosecods)
117.  	// runtime w (in nanosecods)
43.  	// radius of active MCP area (in millimeters) (always a bit larger than the real radius)
20.  	// deadtime of signals from the anode
20.  	// deadtime of signals from the mcp

0  	// use position dependend correction of time sums?   0=no 1=yes
0  	// use position dependend NL-correction of position? 0=no 1=yes

88888	// check value for reading this file. Must be 88888