Fitur Dasar Proteus Gambar Teknik
J1:0
J1:1
J1:2
J1:3
This is perfectly acceptable in ISIS.
It means that all VCC dan VDD pins will be connected together.
Wires And Multiple Wire Labels
It is also possible to have different groups of VCC pins
connected to different nets if this is required.
As well as allowing you control over the potition and appearance
of individual wires and their label(s) ISIS also allows you any
number of labels per wire.
*FIELD
J1, PACKAGE=CONN-SIL4
J1:4
2
STB
3
STB
74LS04
VIN
4
J1:6
1
START=POWER
U7
VI
VO
74LS04
3
START=POWER
VOUT
Q1
Such connections can be made across sheets too.
1
U1:A
3
2
74LS00
4
The above wire labels convery strategy informations to ARES.
ANALOG
1
6
74LS00
RL1:B
L-IN
5
RELAY
RL1:C
2
RELAY
N-IN
6
8
Multi-Element Homogeneous Parts
Here we see how ISIS support multi-element parts where all parts are basically
identical-hence the term 'homoneneous'.
The syntax "U1:B" means "element" B of U1. Once a part has a reference like this,
its pin numbers change automatically according to the element specified.
4
1
5
C2
r o n i
c s
R1
100n
L-OUT
R3
DIGITAL
Q2
BC184
2k2
R2
1k
N-OUT
Multi-Element Heterogeneous Parts
Here we see a Heterogeneous Multi-Element Device. Unlike the homogeneous
example on the left here the parts of the overall device (a relay with a single
coil and two SPDT contacts) are different.
In other words, the relay coil and the two contacts all belong to a the same
physical component but can be placed separately on the schematic.
Rangkaian Power Supply
Rangkaian ini merupakan PSU yang dapat
diprogram dengan memberikan input clock
pada probe DIGITAL.
FITUR DASAR KOMPONEN (PROTEUS)
E l e c t
OA91
47p
C1
7
RELAY
D1
6
9k1
4
3
3
2
Alternatively, you can define a default strategy for all wires on
a sheet using a *NETPROP script objects such as the one
shown below.
RL1:A
U1:B
5
CA3140
Routing Strategies
Net names VCC and GND take POWER strategy automatically.
Note also how a proper inversion bar can be used. The label
is entered with a dollar ($) symbol before and after the part of the
text to be over-barred. In this case the text is $STB$.
VOUT
U1
Logical Terminals
Here we have logical terminals which make a connection without
using a wire-the two STB terminals are deemed to be connected.
TIP31
UNREG
2
1
78L05
U6:B
GND
U6:A
Dashed/Blue
B
Merging Nets
8
D0
D1
D2
D3
Label 3
7
The syntax "J1 : 1" means pin 1 on connector J1 - this
is what we call a physical terminal. This feature means
that connector pins can be placed all over a design.
This aids neatness and clarity and avoids the need to
run wiresacross the diagram to reach a single
connector component.
Green
Label 2
Physical Terminals
Cyan
Label 1
Yellow
A
VDD
Magentha
VCC
PEND.TEK. ELEKTRONIKA S-1
FAKULTAS TEKNIK
UNIV. NEGERI YOGYAKARTA
SKL: -
DIP: M.Munir,M.Pd.
DIG: A Aziz STP
DIS: M.Munir,M.Pd.
KETERANGAN
A4
No. 08
NIM. 11502244001/A2
J1:1
J1:2
J1:3
This is perfectly acceptable in ISIS.
It means that all VCC dan VDD pins will be connected together.
Wires And Multiple Wire Labels
It is also possible to have different groups of VCC pins
connected to different nets if this is required.
As well as allowing you control over the potition and appearance
of individual wires and their label(s) ISIS also allows you any
number of labels per wire.
*FIELD
J1, PACKAGE=CONN-SIL4
J1:4
2
STB
3
STB
74LS04
VIN
4
J1:6
1
START=POWER
U7
VI
VO
74LS04
3
START=POWER
VOUT
Q1
Such connections can be made across sheets too.
1
U1:A
3
2
74LS00
4
The above wire labels convery strategy informations to ARES.
ANALOG
1
6
74LS00
RL1:B
L-IN
5
RELAY
RL1:C
2
RELAY
N-IN
6
8
Multi-Element Homogeneous Parts
Here we see how ISIS support multi-element parts where all parts are basically
identical-hence the term 'homoneneous'.
The syntax "U1:B" means "element" B of U1. Once a part has a reference like this,
its pin numbers change automatically according to the element specified.
4
1
5
C2
r o n i
c s
R1
100n
L-OUT
R3
DIGITAL
Q2
BC184
2k2
R2
1k
N-OUT
Multi-Element Heterogeneous Parts
Here we see a Heterogeneous Multi-Element Device. Unlike the homogeneous
example on the left here the parts of the overall device (a relay with a single
coil and two SPDT contacts) are different.
In other words, the relay coil and the two contacts all belong to a the same
physical component but can be placed separately on the schematic.
Rangkaian Power Supply
Rangkaian ini merupakan PSU yang dapat
diprogram dengan memberikan input clock
pada probe DIGITAL.
FITUR DASAR KOMPONEN (PROTEUS)
E l e c t
OA91
47p
C1
7
RELAY
D1
6
9k1
4
3
3
2
Alternatively, you can define a default strategy for all wires on
a sheet using a *NETPROP script objects such as the one
shown below.
RL1:A
U1:B
5
CA3140
Routing Strategies
Net names VCC and GND take POWER strategy automatically.
Note also how a proper inversion bar can be used. The label
is entered with a dollar ($) symbol before and after the part of the
text to be over-barred. In this case the text is $STB$.
VOUT
U1
Logical Terminals
Here we have logical terminals which make a connection without
using a wire-the two STB terminals are deemed to be connected.
TIP31
UNREG
2
1
78L05
U6:B
GND
U6:A
Dashed/Blue
B
Merging Nets
8
D0
D1
D2
D3
Label 3
7
The syntax "J1 : 1" means pin 1 on connector J1 - this
is what we call a physical terminal. This feature means
that connector pins can be placed all over a design.
This aids neatness and clarity and avoids the need to
run wiresacross the diagram to reach a single
connector component.
Green
Label 2
Physical Terminals
Cyan
Label 1
Yellow
A
VDD
Magentha
VCC
PEND.TEK. ELEKTRONIKA S-1
FAKULTAS TEKNIK
UNIV. NEGERI YOGYAKARTA
SKL: -
DIP: M.Munir,M.Pd.
DIG: A Aziz STP
DIS: M.Munir,M.Pd.
KETERANGAN
A4
No. 08
NIM. 11502244001/A2