E-21
number modes:
w
(DEC) for decimal,
M
(HEX) for hexadecimal,
l
(BIN) for binary, or
i
(OCT) for octal.
To enter the BASE Mode, switch to the binary mode, and
calculate 11
2
+ 1
2
NN
3
(BASE)
l
(BIN)
11
+
1
=
Note:
• Use the following keys to input the letters A through F for
hexadecimal values:
-
(A),
$
(B),
w
(C),
s
(D),
c
(E),
t
(F).
• In the BASE Mode, input of fractional (decimal) values and
exponents is not supported. If a calculation result has a fractional
part, it is cut off.
The following shows details about input and output ranges.
Base-
n
Mode
Input/Output Ranges
Binary
Positive: 0
x
0111111111
Negative: 1000000000
x
1111111111
Octal
Positive: 0
x
3777777777
Negative: 4000000000
x
7777777777
Decimal
–2147483648
x
2147483647
Hexadecimal
Positive: 0
x
7FFFFFFF
Negative: 80000000
x
FFFFFFFF
Specifying the Number Mode of a Particular
Input Value
You can input a special command immediately following a value to
specify the number mode of that value. The special commands are: d
(decimal), h (hexadecimal), b (binary), and o (octal).
To calculate 10
10
+ 10
16
+ 10
2
+ 10
8
and display the result as a
decimal value
A
w
(DEC)
X
(LOGIC)
X
(LOGIC)
X
(LOGIC)
1
(d) 10
+
X
(LOGIC)
X
(LOGIC)
X
(LOGIC)
2
(h) 10
+
X
(LOGIC)
X
(LOGIC)
X
(LOGIC)
3
(b) 10
+
X
(LOGIC)
X
(LOGIC)
X
(LOGIC)
4
(o) 10
=
36
Converting a Calculation Result to another
Type of Value
You can use any one of the following key operations to convert the currently
displayed calculation result to another type of value:
x
(DEC) (decimal),
M
(HEX) (hexadecimal),
l
(BIN) (binary),
i
(OCT)(octal).
0.
d
0.
d
0.
b
0.
b
100.
b
100.
b