Globaltronics D1-3, User Manual & Warranty

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26 27

The uneven components of calculation results are abbreviated.
110
2
+ 456
8
x 78
10
÷ 1A
16
= 390
16
= 912
10
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
110
0 9 •
,
-
,
,
+
– x
, =
÷
AC
C/CE
ON/OFF
+/ -
X M
M +
R M
X M
( )
MODE
INV
E X P
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
456
2 + 3 x
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
78
0 9 •
,
-
,
,
+
– x
, =
÷
AC
C/CE
ON/OFF
+/ -
X M
M +
R M
X M
( )
MODE
INV
E X P
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
1A
0 9 •
,
-
,
,
+
– x
, =
÷
AC
C/CE
ON/OFF
+/ -
X M
M +
R M
X M
( )
MODE
INV
E X P
HEX
390.
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
912.

Multiplication and division take priority over addition and
subtraction in mixed calculations.
BC
16
x (14
10
+ 69
10
) = 15604
10
= 3CF4
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
BC
2 + 3 x
0 9 •
,
-
,
,
+
– x
, =
÷
AC
C/CE
ON/OFF
+/ -
X M
M +
R M
X M
( )
MODE
INV
E X P
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
14
0 9 •
,
-
,
, +
– x
, =
÷
AC
C/CE
ON/OFF
+/ -
X M
M +
R M
X M
( )
MODE
INV
E X P
69
0 9 •
,
-
,
,
+
– x
, =
÷
AC
C/CE
ON/OFF
+/ -
X M
M +
R M
X M
( )
MODE
INV
E X P
0 9 •
,
-
,
, +
– x
, =
÷
AC
C/CE
ON/OFF
+/ -
X M
M +
R M
X M
( )
MODE
INV
E X P
15604.
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
3CF4.
23
8
+ 963
10
= 982
10
23 963
M
982.
23
8
+ 101011
2
= 111110
2
M 101011
BIN
111110.
2A56
16
x 23
8
= 32462
16
M
2A56 32462.
8. CALCULATIONS IN THE BINARY / OCTAL /
DECIMAL SYSTEM
8. CALCULATIONS IN THE BINARY / OCTAL /
DECIMAL SYSTEM
8.3) Calculations with binary / octal / decimal / hexadecimal
values

Interim memory calculations and brackets are admissible for
calculations in the binary, octal, decimal and hexadecimal
number systems.
10111
2
+ 11010
2
= 110001
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
10111
0 9 •
,
-
,
,
+
– x
, =
÷
AC
C/CE
ON/OFF
+/ -
X M
M +
R M
X M
( )
MODE
INV
E X P
11010
0 9 •
,
-
,
,
+
– x
, =
÷
AC
C/CE
ON/OFF
+/ -
X M
M +
R M
X M
( )
MODE
INV
E X P
BIN
110001.
123
8
x ABC
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
123
2 + 3 x
= 37AF4
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
ABC
0 9 •
,
-
,
, +
– x
, =
÷
AC
C/CE
ON/OFF
+/ -
X M
M +
R M
X M
( )
MODE
INV
E X P
HEX
37AF4.
= 228084
10
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
228084.
1F2D
16
- 100
10
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
1F2D
0 9 •
,
-
,
,
+
– x
, =
÷
AC
C/CE
ON/OFF
+/ -
X M
M +
R M
X M
( )
MODE
INV
E X P
= 7881
10
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
100
0 9 •
,
-
,
,
+
– x
, =
÷
AC
C/CE
ON/OFF
+/ -
X M
M +
R M
X M
( )
MODE
INV
E X P
7881.
= 1EC9
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
HEX
1EC9.
7654
8
÷ 12
10
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
7654
0 9 •
,
-
,
, +
– x
, =
÷
AC
C/CE
ON/OFF
+/ -
X M
M +
R M
X M
( )
MODE
INV
E X P
= 334.33....
10
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
12
0 9
•
,
-
,
,
+
– x
, =
÷
AC
C/CE
ON/OFF
+/ -
X M
M +
R M
X M
( )
MODE
INV
E X P
334.3333333
= 516
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
OCT
516.