XW2Z-200J-B9 Omron, XW2Z-200J-B9 Datasheet - Page 363
XW2Z-200J-B9
Manufacturer Part Number
XW2Z-200J-B9
Description
CONNECTOR CABLE 2M
Manufacturer
Omron
Datasheet
1.XW2Z-200J-C1.pdf
(504 pages)
Specifications of XW2Z-200J-B9
Lead Free Status / Rohs Status
Lead free / RoHS Compliant
Other names
XW2Z200JB9
Complements
Generally the complement of base x refers to a number produced when all digits of a given number are sub-
tracted from x – 1 and then 1 is added to the rightmost digit. (Example: The ten’s complement of 7556 is 9999
– 7556 + 1 = 2444.) A complement is used to express a subtraction and other functions as an addition.
Example: With 8954 – 7556 = 1398, 8954 + (the ten’s complement of 7556) = 8954 + 2444 = 11398. If we
ignore the leftmost bit, we get a subtraction result of 1398.
Two’s Complements
A two’s complement is the base-two complement. Here, we subtract all digits from 1 (2 – 1 = 1) and add one.
Example: The two’s complement of binary number 1101 is 1111 (F hex) – 1101 (D hex) + 1 (1 hex) = 0011 (3
hex). The following shows this value expressed in 4-digit hexadecimal.
The two’s complement b hex of a hex is FFFF hex – a hex + 0001 hex = b hex. To determine the two’s comple-
ment b hex of “a hex,” use b hex = 10000 hex – a hex.
Example: To determine the two’s complement of 3039 hex, use 10000 hex – 3039 hex = CFC7 hex.
Similarly use a hex = 10000 hex – b hex to determine the value a hex from the two’s complement b hex.
Example: To determine the real value from the two’s complement CFC7 hex, use 10000 hex – CFC7 hex =
3039 hex.
Two instructions, NEG(160)(2’S COMPLEMENT) and NEGL(161) (DOUBLE 2’S COMPLEMENT), can be
used to determine the two’s complement from the true number or to determine the true number from the two’s
complement.
336
Programming
+)
)
Two's complement
True number
1111
0000
1111
0000
1111
F
0
F
0
F
1111
0000
1111
0000
1111
F
0
F
0
F
1111
0001
1110
0000
1110
F
1
E
0
E
1111
0011
1100
0001
1101
F
3
1
C
D
Appendix A