24
25
8.2) Negative values
Negative values can be entered using the
key. The
second component is used for the conversion of binary,
octal, decimal and hexadecimal values.
Negative value 1010
2
0
9
•
,
-
,
,
+
– x
, =
÷
AC
C/CE
ON/OFF
+/ -
X M
M +
R M
X M
(
)
MODE
INV
E X P
π
DRG
FIX
FLO
SCI
DRG
DEG
X Y
DMS
–
A
F
HEX
AND
OR
XOR
NOT
NEG
OCT
BIN
XNOR
DEC
ENG
1010
0
9
•
,
-
,
,
+
– x
, =
÷
AC
C/CE
ON/OFF
+/ -
X M
M +
R M
X M
(
)
MODE
INV
E X P
π
DRG
FIX
FLO
SCI
DRG
DEG
X Y
DMS
–
A
F
HEX
AND
OR
XOR
NOT
NEG
OCT
BIN
XNOR
DEC
ENG
BIN
1111110110.
Conversion to decimal value
0
9
•
,
-
,
,
+
– x
, =
÷
AC
C/CE
ON/OFF
+/ -
X M
M +
R M
X M
(
)
MODE
INV
E X P
π
DRG
FIX
FLO
SCI
DRG
DEG
X Y
DMS
–
A
F
HEX
AND
OR
XOR
NOT
NEG
OCT
BIN
XNOR
DEC
ENG
-10.
Negative value of 1
2
0
9
•
,
-
,
,
+
– x
, =
÷
AC
C/CE
ON/OFF
+/ -
X M
M +
R M
X M
(
)
MODE
INV
E X P
π
DRG
FIX
FLO
SCI
DRG
DEG
X Y
DMS
–
A
F
HEX
AND
OR
XOR
NOT
NEG
OCT
BIN
XNOR
DEC
ENG
1
0
9
•
,
-
,
,
+
– x
, =
÷
AC
C/CE
ON/OFF
+/ -
X M
M +
R M
X M
(
)
MODE
INV
E X P
π
DRG
FIX
FLO
SCI
DRG
DEG
X Y
DMS
–
A
F
HEX
AND
OR
XOR
NOT
NEG
OCT
BIN
XNOR
DEC
ENG
BIN
1111111111.
Negative value of 2
8
0
9
•
,
-
,
,
+
– x
, =
÷
AC
C/CE
ON/OFF
+/ -
X M
M +
R M
X M
(
)
MODE
INV
E X P
π
DRG
FIX
FLO
SCI
DRG
DEG
X Y
DMS
–
A
F
HEX
AND
OR
XOR
NOT
NEG
OCT
BIN
XNOR
DEC
ENG
2
0
9
•
,
-
,
,
+
– x
, =
÷
AC
C/CE
ON/OFF
+/ -
X M
M +
R M
X M
(
)
MODE
INV
E X P
π
DRG
FIX
FLO
SCI
DRG
DEG
X Y
DMS
–
A
F
HEX
AND
OR
XOR
NOT
NEG
OCT
BIN
XNOR
DEC
ENG
OCT
7777777776.
Negative value of 34
16
0
9
•
,
-
,
,
+
– x
, =
÷
AC
C/CE
ON/OFF
+/ -
X M
M +
R M
X M
(
)
MODE
INV
E X P
π
DRG
FIX
FLO
SCI
DRG
DEG
X Y
DMS
–
A
F
HEX
AND
OR
XOR
NOT
NEG
OCT
BIN
XNOR
DEC
ENG
34
0
9
•
,
-
,
,
+
– x
, =
÷
AC
C/CE
ON/OFF
+/ -
X M
M +
R M
X M
(
)
MODE
INV
E X P
π
DRG
FIX
FLO
SCI
DRG
DEG
X Y
DMS
–
A
F
HEX
AND
OR
XOR
NOT
NEG
OCT
BIN
XNOR
DEC
ENG
HEX
FFFFFFFFCC.
8. CALCULATIONS IN THE BINARY / OCTAL /
DECIMAL SYSTEM
8. CALCULATIONS IN THE BINARY / OCTAL /
DECIMAL SYSTEM
8.1) Binary / Octal / Decimal / Hexadecimal Conversions
Conversion of 22
10
into the binary format
22
BIN
10110.
Conversion of 22
10
into the octal format
OCT
26.
Conversion of 22
10
into the hexadecimal format
HEX
16.
Conversion of 513
10
into the binary format
E
BIN
0.
The conversion is sometimes not possible, if the display
range for the result exceeds the capacity of the display.
Conversion of 7FFFFFFF
16
into the decimal format
0
9
•
,
-
,
,
+
– x
, =
÷
AC
C/CE
ON/OFF
+/ -
X M
M +
R M
X M
(
)
MODE
INV
E X P
π
DRG
FIX
FLO
SCI
DRG
DEG
X Y
DMS
–
A
F
HEX
AND
OR
XOR
NOT
NEG
OCT
BIN
XNOR
DEC
ENG
7FFFFFFF
0
9
•
,
-
,
,
+
– x
, =
÷
AC
C/CE
ON/OFF
+/ -
X M
M +
R M
X M
(
)
MODE
INV
E X P
π
DRG
FIX
FLO
SCI
DRG
DEG
X Y
DMS
–
A
F
HEX
AND
OR
XOR
NOT
NEG
OCT
BIN
XNOR
DEC
ENG
2147483647.
Conversion of 4000000000
8
into the decimal format
0
9
•
,
-
,
,
+
– x
, =
÷
AC
C/CE
ON/OFF
+/ -
X M
M +
R M
X M
(
)
MODE
INV
E X P
π
DRG
FIX
FLO
SCI
DRG
DEG
X Y
DMS
–
A
F
HEX
AND
OR
XOR
NOT
NEG
OCT
BIN
XNOR
DEC
ENG
4000000000
0
9
•
,
-
,
,
+
– x
, =
÷
AC
C/CE
ON/OFF
+/ -
X M
M +
R M
X M
(
)
MODE
INV
E X P
π
DRG
FIX
FLO
SCI
DRG
DEG
X Y
DMS
–
A
F
HEX
AND
OR
XOR
NOT
NEG
OCT
BIN
XNOR
DEC
ENG
-536870912.
Conversion of 123456
10
into the octal format
123456
0
9
•
,
-
,
,
+
– x
, =
÷
AC
C/CE
ON/OFF
+/ -
X M
M +
R M
X M
(
)
MODE
INV
E X P
π
DRG
FIX
FLO
SCI
DRG
DEG
X Y
DMS
–
A
F
HEX
AND
OR
XOR
NOT
NEG
OCT
BIN
XNOR
DEC
ENG
OCT
361100.
Conversion of 1100110
2
into the decimal format
0
9
•
,
-
,
,
+
– x
, =
÷
AC
C/CE
ON/OFF
+/ -
X M
M +
R M
X M
(
)
MODE
INV
E X P
π
DRG
FIX
FLO
SCI
DRG
DEG
X Y
DMS
–
A
F
HEX
AND
OR
XOR
NOT
NEG
OCT
BIN
XNOR
DEC
ENG
1100110
0
9
•
,
-
,
,
+
– x
, =
÷
AC
C/CE
ON/OFF
+/ -
X M
M +
R M
X M
(
)
MODE
INV
E X P
π
DRG
FIX
FLO
SCI
DRG
DEG
X Y
DMS
–
A
F
HEX
AND
OR
XOR
NOT
NEG
OCT
BIN
XNOR
DEC
ENG
102.
Summary of Contents for D1-3
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