material impreso curso logo!_s
TRANSCRIPT
7/31/2019 Material Impreso Curso LOGO!_s
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SIMATIC –Totally Integrated Automation
Bienvenido
al Mundo de
Totally Integrated Automation!
L O G O !
L O G O !
Módulo Lógico LOGO!
SIMATIC –Totally Integrated Automation
Programación
Descripción de Funciones
Comunicación
Características Generales
Vista Rápida de Funciones
Modelos y Accesorios
Competencia
LogoSoft Comfort V3.1
Visión Global
Aplicaciones Logo!
Novedades 4º Generación
Contenido LOGO!
Ejemplos de Aplicación
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SIMATIC –Totally Integrated Automation
Detalles Tecnológicos
h t t p h t t p : / / : / / w
w w w w w. a d.. a d. s
i e m e n s
s i e m e n s. d
e/. d e/ l o g o l o g o
Web Logo! en Internet
SIMATIC –Totally Integrated Automation
Bienvenido
al Mundo de
Totally Integrated Automation!
L O G O ! L O G O !
F
Módulo Lógico LOGO!
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SIMATIC –Totally Integrated Automation
Usando contactores, relés, temporizadores, relés intermitentes, relésde impulso de corriente etc.?
Usando mayor espacio que 72x90x55mm para la aplicación?
Hay una emergencia y se necesita diseñar rápidamente algo que se
pueda poner en funcionamiento inmediatamente?
Buscando una solución sencilla para manejar señales y control que
sea flexible y de bajo costo?
LOGO! es laRespuesta para todas
estas preguntas!
¿Porqué Usar LOGO!?
SIMATIC –Totally Integrated Automation
Precio
Funcionalidad
SIMATIC S7-200
Micro PLC
LOGO!
Módulo lógico
Relé de tiempo
Contactor-Relé
Posicionamiento de LOGO!
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SIMATIC –Totally Integrated Automation
Funciones Funciones combinadas con
Contactor / Relé• Multiplicador de contactos• Enclavable• Lógica funcional única
Relés conmutadores• Adaptables a nivel y
separados eléctricamentedel Simatic
• Conmutación de pequeñascargas unipolares.
Relés temporizados• On retardados:
Para arranques secuenciales demotors suprimiendo interferencias.
• Off retardados: En paradas de motores(ventiladores) ,funciones claves :
• Estrella triángulo:Arranque seguro de motores conintervalos de conmutación de hasta50ms.
• Multi-funcion:Flexible para toda aplicación ,hasta8 o 16 funciones integradas.
• Relés con contactos de acción positiva:usados en circuitos de seguridad decategoría 2
• relés con contactos de oroduro en conjunto con PLCs ycontactos de señalización para
plc´s
Módulo Lógico• Construcción:
Control de iluminaciónControl de cerradoresControl de ventiladoresControl de accesosEquipamiento de seguridadPlantas elevadoras de presión.
• Industria:Bombas/CompresoresCabinas de controlControl de puertasEquipos de alimentaciónPlataformas de elevaciónControles secuencialesMonitorización de nivel
• Control de vávulasPlantas de filtradosPlantas de extracciónEquipamiento de transporte
Micro-PLC• Construcción:
Control de elevación y posición
• Industria:Máquinas de empaquetar y sunchar
• Máquinas textiles• Equipamiento mercante
Equipo para procesos alimenticiosMáquinas de aserradoPaneles o displays de avisosMáquinas para procesamiento demaderaMáquinas de roscado automáticoPrensado y fabricación de ladrillos
PintureríasTratamientos de residuosTelecontrolEquipamiento de esterilizaciónHornos de laboratoriosMáquinas de lavado.
LOGO! Entre Contactores y PLC‘S
SIMATIC –Totally Integrated AutomationF
LOGO! : ¿Qué tiene Incorporado?
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SIMATIC –Totally Integrated Automation
Casas y
Edificios
Construcción
Industria
LOGO! En Uso : Vista General
SIMATIC –Totally Integrated Automation
Control de iluminaciónej. vidrieras, filasde luminariasluminarias móviles, Intemperie• luminarias dependientes de la luz
del día
• Grupos de luminarias• control de pico de carga.
Monitorizaciónej. estacionamiento de autos,sistemas de alarmas, cabinas• Control de acceso• Simulaciones de presencia• Reportes
Control de puertasportones ,cortinas
ej. Puertas automáticas,Garages, Cabinas• Apertura / cierre de puertas -
elevac./cierre de portones
• Indicador lumínico/ Stop&Go• Control temporal• Control de temperatura• Sensores de viento o lluvia.
Irrigaciónej. viveros, jardines, fuenteshumidificadores dependientesdel tiempo.• Control grupal• Conmutación de• bombas de agua• Administración de energía.
Calentadores/Refrigeradores/Ventiladoresej Ventiladores, calenatdores,acondicionadores de aire.• Control de tiempo y• temperature• Administración de energía• Sensores de viento y lluvia
tambien se usa enbombeo de aguapotable, sistemas dealta presión, etc.
¿Cuál es su necesidaden la automatizciónde construcciones ?
LOGO! En Construcción (Privada - Industrial)
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SIMATIC –Totally Integrated Automation
Confiabilidad en la inversión
Ö producto estandar que puede ser
expandido en cualquier momento
ÖUtilizable con sistemas de bus
estandar AS-Interface
Mas flexibilidad
Ö30 funciones integradas listas
para usar -> 1 Modulo en vez de
varios diferentes
ÖTodos los voltages- DC12V,AC/DC24V,
AC/DC115/230V)
- Entradas análogas (0..10V,0..20mA)
ÖFuncionalidad/Programa
modificable directamente. Via
memoria o vía PC
Reducción de Costos
Ömenos costo de hardware
Ömenos espacio (gabinete, Stock)
Ömas eficiencia durante el diseñoy puesta en marcha
F
LOGO!: Ventajas para la Industria
SIMATIC –Totally Integrated Automation
LOGO!: Ventajas para la Industria
F
Ahorra
Costos
Ahorra
Tiempo
Ahorra
Espacio
Queda
Flexible
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SIMATIC –Totally Integrated Automation
LOGO! Es...
LOGO! es como un PLC...
LOGO! es mas que un PLC...
LOGO! Es un relé inteligente...
!Coneción con Funciones y ahoratambién con Ladder.
!Pero no tiene capacidad matemática
!Capacidad de control y visualización.
!Posibilidad de entrada de controldirecta en el dispositivo
!Posibilidad de visualización directa de
mensajes/variables etc.!Con salida de 10A
En 1996 Siemens creó una nueva categoría de producto con el LOGO!, El Módulo Lógico
LOGO! Vs PLC: ¿Que es LOGO!?
SIMATIC –Totally Integrated Automation
Salida Digital (4, expandiba 16)
Display LCD
• En Operacion:Muestra estado deentradas/salidas, fecha,hora etc.
• Muiestra mensajes• Para Parametros:
Valor actual(e.g. Tiempo/valor actual)
• Posibilidades de conexión12 Vdc24 Vac/Vdc115 ~ 230 Vac/Vdc
• Variante:Relais (10A, 230 Vac)Transistor (0,3 A, 12/ 24 Vdc)
Terminales de AlimentaciónEntrada Digital/Analoga: (8 expandible a 24 /
2 expandible a 8)
Interfase PC/Memory Card
Teclado
• Posibilidades de conexión12 Vdc, 24 Vac/Vdc115 ~ 230 Vac/Vdc
• Para ingreso de programa decontrol
• Usado para ingresar cambiode parámetros
• Para control
Interfase para módulos de expansión
Visión del Hardware (1)
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SIMATIC –Totally Integrated Automation
Max. I/O:
24 entradas digitales + 8 entradas analogicas + 16 salidas digitales
Alimentación Alimentación módulosde expansion
RUN/STOP
4 salidas
4 entradas2x4 entradas
Deslizador para conexión eléctrica
4 salidas
Visión del Hardware (2)
SIMATIC –Totally Integrated Automation
" LOGO! integra todo esto en una sola unidad:
" Controlador Integrado (CPU)
"Controles de Operación (Interruptor software) y Visualización
" Hasta 24 entradas / 16 salidas digitales + 8 entradas analógicas
" Módulo para esclavo AS-Interface 4DI y 4DO virtuales
" Interface para Módulo de memoria / Cable para PC
" Programación directa en LOGO! o vía Software en PC.
" EEPROM integrada para guardar el programa en memoria
no volátil, no necesita batería (Protección por Password).
" Módulos de memoria para hacer copias y protección ”Know How”.
" Diversos accesorios como: fuente de alimentación 110/220VAC a
5/12/15/24 o 48VDC, Contactor LOGO! etc.
Todo en una sola Unidad (1)
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SIMATIC –Totally Integrated Automation
" LOGO! integra todo esto en una sola unidad:" Alimentación en 110/220Vac/Vdc; 24Vac/Vdc y 12/24Vdc
" 8 entradas digitales y 4 salidas digitales (Opción
de 2 entradas análogas de 0-10Vdc).
" 4 entradas / 4 Salidas digitales virtuales vía AS-Interface
" 8 marcas internas (Incluye marca de primer ciclo M8)
" Opción Con/Sin Display Integrado (Para OEM)
" El Display permite visualización de Mensajes; alarmas y
datos de proceso durante el modo “RUN”.
" Listo para usar: 08 funciones básicas y 22 funciones especialesej. para temporización, conteo, reloj, relé de pulsos etc.
" Simulación gráfica “Offline” del programa (FBD o Ladder)
vía LOGO! Soft Comfort V3.1
Todo en una sola Unidad (2)
SIMATIC –Totally Integrated Automation
Ancho: 72 mm o 126 mm
Altura : 90 mm o 90 mm
Prof. :55 mm o 55 mm
01 Conectores de alimentación
02 Conectores de Entradas
03 Interface PC/Módulo de memoria
04 Panel de control de operador
05 Panel de visualización
06 Conectores de salidas
07 Conector para riel DIN 35mm
1 2
3
45
6
7
Diseño e Instalación
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SIMATIC –Totally Integrated Automation
" Alimentación L1, N (L+, M)115 / 230 Vac/Vdc
50 / 60 Hz
L1 = 85 ... 253 Vac/Vdc
" EntradasEntrada I1...I8
Estado 1 > 79 Vac/Vdc
Estado 0 < 40 Vac/Vdc
" SalidasSalida Q1 ..Q4 (Relé)
LOGO! 230RC / 230RCo
8 entradas
4 salidas
LOGO! 230RC
SIEMENS
ESC OK
Output 4x Relés / 8A2
Input 6xAC AC 115/120V230/240V
X
3 4
I1 I2 I3 I4 I5 I6L1 N
Q1 Q2 Q3 Q4
L1
N
L1, L2, L3
N
Voltaje dealimentación
Cableado Modelo LOGO! 230RC / 230RCo
SIMATIC –Totally Integrated Automation
" Alimentación L+, M
12/24 VdcL+ = 20,4...28,8 Vdc
10.8...15.6 Vdc
" EntradasEntrada I1...I6
Estado 1 > 8 Vdc
Estado 0 < 5 Vdc
Entrada I7, I8 (0-10Vdc)
" Salidas
Salida Q1 ..Q4 (Transistor/Relé)
LOGO! 24 / 12/24RC / 12/24RCo
8 entradas
4 salidas
LOGO! 230RC
SIEMENS
ESC OK
Output 4x Relés / 8A2
Input 6xAC AC 115/120V230/240V
X
3 4
I1 I2 I3 I4 I5 I6L1 N
Q1 Q2 Q3 Q4
L+
M
L1, L2, L3
N
Voltaje dealimentación
Cableado Modelo LOGO! 24 / 12/24RC / 12/24RCo
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SIMATIC –Totally Integrated Automation
" Alimentación L1, N24 Vac
L1 = 20,4...26,8 Vac/Vdc
" EntradasEntrada I1...I8
Estado 1 > 8 Vac/Vdc
Estado 0 < 5 Vac/Vdc
" SalidasSalida Q1 ..Q4 (Relé)
LOGO! 24RC / 24RCo
8 entradas
4 salidas
LOGO! 230RC
SIEMENS
ESC OK
Output 4x Relés / 8A2
Input 6xAC AC 115/120V230/240V
X
3 4
I1 I2 I3 I4 I5 I6L1 N
Q1 Q2 Q3 Q4
L+
M
L1, L2, L3
N
Voltaje dealimentación
Cableado Modelo LOGO! 24RC / 24RCo
SIMATIC –Totally Integrated Automation
Montaje y Cableado (Ejemplo)
N
K2
L1
K2
I : 0. , 1. , 2.
123456789
0123456789
01234
4
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SIMATIC –Totally Integrated Automation
Instalando y Desinstalando LOGO!
1
3
5
6
Instalando
Montar LOGO! En un riel DIN como sigue:
1. Ubicar el LOGO! Sobre el riel DIN.
2. Girar el LOGO! Alrededor del riel DIN hasta que encaje.
3. Remover la cuvierta del conector localizada en el lado derecho delLOGO! o del módulo de expansión.
4. Ubicar el módulo digital a la derecha del LOGO! (verpasos 1 y 2).
5. Deslice el módulo a la izquierda hacia el LOGO!.
6. Usando un desarmador, presione hacia abajo y mueva el deslizadorintegrado a la izquierdat. El módulo está instalado cuando el deslizadorengancha en su lugar en el LOGO!
Desintalando
Desintalar LOGO! Como sigue:
1. Usando un desarmador, presione abajo y mueva eldeslizador integrado a la derecha.
2. Deslice el módulo de expansión a la derecha
3. Inserte el desarmador en la grapa de sujeción al riel y tiregirando hacia arriba
4. Gire el módulo alejandolo del riel DIN.
5. Siga los pasos 3 y 4 para el módulo LOGO!.
1
2
1
2
3
4
SIMATIC –Totally Integrated Automation
Cableando LOGO!
ML+ I1 I2 I3 I4 I5
L1L+
NM
LOGO! ..... conAlimentación DC
LOGO! ..... conAlimentación AC
Protección con fusibles
Si se desea (recomendado para:
12/24 RC...: 0.8 A
24: 2.0 A
En caso de picos de voltaje, use
varistores (MOV) con un mínimo de 20%
mas de voltaje de trabajo que la tensión nominal
I1 I2 I3 I4L1 N
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SIMATIC –Totally Integrated Automation
L1
N
NL1 I1 I2 I3 I4 I5 I6
L3
L2
LOGO! 230 ...L+
M
ML+ I1 I2 I3 I4 I5 I8
ProgramaCiclo de
Programa
LOGO! 12/24 ...
Conectando las Entradas de LOGO!
Conctar los sensores a las entradas, los sensores incluyen:
• pulsadores, switches, sensores foteléctricos etc.
• Sensores de Temperatura, presión, o ultrasonido (Beros), etc., con salida de 0-10 V.
• Sensores con salida de 0/4 a 20mA
Las entradas están agrupadas en dos bloques de 4entradas cada uno. Fases diferentes son posibles sóloentre bloques y no dentro del mismo bloque
Para que LOGO! Detecte uncambio de estado a 0 o 1, el
estado debe estar presente por lomenos un ciclo de programa
Las entradas no són aisladas, por lo tanto requieren de unmismo potencial de referencia (Masa) de la fuente dealimentación
SIMATIC –Totally Integrated Automation
Conectando las Salidas de LOGO!
1 2Q1 Q2
1 2
Q5 Q61 2 1 2
DM8...R
Q1 Q2M M
Q5 Q6M M
DM8 24
Diferentes cargas pueden serconectadas a las salidas e.g.,
• Lamparas
• Motores
• Contactores, etc.
LOGO! con
salida de transistor
LOGO! consalidas de relé
Max. Corriente de conmutación es 0.3 A por salida
Max. Corriente de conmutación es 10A / 5A para salida de módulo deexpansión
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SIMATIC –Totally Integrated Automation
" Aprobación : VDE 0631, IEC 1131, UL , CSA, y FM
" Supresión de RI según : EN 55011 (Límite clase B)
" Grado de protección : IP 20(max. 95 % de humedad)
" Temperatura de operación : 0° to +55°C(En cualquier posición!)
" Aprobado para aplicaciones de uso marino
# American Bureau of Shipping# Bureau Veritas
# Det Norske Veritas
# Germanischer Lloyd
# Lloyds Register of Shipping
55°C
0°C
BB
Condiciones Ambientales para LOGO!
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SIMATIC –Totally Integrated Automation
! Antes:
! Ahora:
≥1L1
N
No1No2No3
L1
S1
L1
L1
L1 S1
N
“Cableado“ Standard vs LOGO!
SIMATIC –Totally Integrated Automation
La función Co se usa para conectar las entra-das y salidas o los diferentes niveles de voltajea los bloques.
Selección:
X
I1 I24
Q1 Q16
hi lo
B01
Q1
&I5
X
I1
XI1I2
I3I4I5I6Q1Q2Q3Q4hilo
Conectores (Co)
M1 M8 Marcas: M1...M8, Incluye marcade primer ciclo (M8)
Sin conexión, Entrada no usada.
Constantes: hi=1; lo=0.
Salidas: Q1...Q16.
Entradas: I1...I24. (En algunos modeloshay 02 analógicas de 0-10V)
AI1 AI8 Salidas: AI1...AI8.
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SIMATIC –Totally Integrated Automation
8 Funciones Básicas Integradas (GF)
AND OR NOT
NAND NOR XOR
&
&
≥1
≥1
1
=1
&"
AND flanco
NAND flanco
&#
SIMATIC –Totally Integrated Automation
22 Funciones Especiales Integradas (SF)
ON Delay
TrgT
OFF Delay
TrgR
T
Generador de Pulsos
EnT
No1No2
No3
Contador UP/Down
RCntDir Par
+/-
On Delay con Memoria
TrgRT
REnRalPar
h
Contador de Horas
TrgT
One Shot
Toggle
TrgR
Par
Relé Autoenclavado
SRPar
RS
FrePar
Switch de UmbralGenerador de pulsos
Asíncrono
EnInvPar
Reloj Semanal
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SIMATIC –Totally Integrated Automation
22 Funciones Especiales Integradas (SF)
Trg
Par
EN
Par
Pulso Aleatorio
Trg
T
Switch Off Intermitente Switch Confortable
Trg
T
One Shot Disparado. por Flanco
Ax
Par Q
A
Trigger Análogo
En
P
Par
Q
..
..
Mostrar Mensajes
AAx
Ay
Par
Q
Comparador Análogo
Trg Par
On / Off Delay Switch Anual
No
MMDD
F
Switch Software
En
Par Q
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SIMATIC –Totally Integrated Automation
LOGO! Pure LOGO! Basic
12/24RCo
24o (Trans)
12/24RC
24 (Trans) 24
24RCo (Vac)
230RCo (Vac/Vdc)
24RC (Vac)
230RC (Vac/Vdc) 230R (Vac/Vdc)
LOGO! : Variedad de Modelos
LOGO! DM8 LOGO! AM2 LOGO! ASI
12/24R
0-10Vdc / 0/4-20ma
AS-Interfac / EIBPt100 (-50...200ºC)
24R (Vac/Vdc)
SIMATIC –Totally Integrated Automation
LOGO! : Módulos Base
LOGO!Pure LOGO!Basic
LOGO! 24o 6ED1052-2CC00-0BA3
LOGO! 12/24RCo 6ED1052-2MD00-0BA3
LOGO! 24RCo 6ED1052-2HB00-0BA3
LOGO! 230RCo 6ED1052-2FB00-0BA3
LOGO! 24 6ED1052-1CC00-0BA3
LOGO! 12/24RC 6ED1052-1CC00-0BA3
LOGO! 24RC 6ED1052-1CC00-0BA3
LOGO! 230RC 6ED1052-1CC00-0BA3
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SIMATIC –Totally Integrated Automation
LOGO! : Módulo de Expansión Digital
DM8 230R 6ED1055-1FB00-0BA0! Alimentación 120/230Vac/Vdc! 4DI 120/230Vac/Vdc! 4DO Rele@5A cada uno! max. 20A cada módulo
DM8 24 6ED1055-1CB00-0BA0! Alimentación 24Vdc! 4DI 24Vdc! 4DO Transistor 0.3A
DM8 12/24R 6ED1055-1MB00-0BA0! Alimentación 12/24Vdc! 4DI 12/24Vdc! 4DO Rele@5A cada uno
! max. 20A cada módulo
DM8 24R 6ED1055-1HB00-0BA0! Alimentación 24Vac/Vdc! 4DI 24Vac/Vdc! 4DO Rele@5A cada uno! max. 20A cada módulo
SIMATIC –Totally Integrated Automation
LOGO! : Módulo Expansión Análoga
AM2 6ED1055-1MA00-0BA0!
Alimentación 12/24Vdc! 2AI 0..10V o 0/4...20ma! Resolución: 10 bit! Tiempo de muestreo: 50ms! Alimentación de Sensor: No tiene
AM2 Pt100 6ED1055-1MD00-0BA0! Alimentación 12/24Vdc! 2AI Pt100 (-50...200ºC)! Tiempo de muestreo: 50ms
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SIMATIC –Totally Integrated Automation
LOGO! : Módulo de Comunicación
AS-Interface 3RK1400-0CE10-0AA2! Alimentación 12/24Vdc! Protocolo: AS-Interface (Esclavo)! 4DI + 4DO Virtuales
Konnex (EIB) En Preparación! Alimentación 12/24Vdc
! Protocolo: EIB Instabus! 24DI + 16DO + 8AI
ASi
SIMATIC –Totally Integrated Automation
LOGO!12/24RCo
LOGO!24RCo
LOGO!230RCo
LOGO!12/24RC
LOGO!24
LOGO!24RC
LOGO!230RC
EntradasEntradas analógicas
62 (0 to 10 V)
62 (0 to 10 V)
8-
8-
8-
8-
Tensión de entrada
Rango permitido
Señal 0Señal 1
62 (0 to 10 V)
12/24 Vdc
12 Vdc:10,8 V - 15,6 Vdc24 Vdc:20,4 V - 28,8 Vdc
max. 5 Vdcmin. 8 Vdc
24 Vac
20,4 a26,4 Vac
max. 5 Vacmin. 12 Vac
115/230 Vac/Vdc
85 a265 Vac/Vdc
max. 40 Vac/Vdcmin. 79 Vac/Vdc
12/24 Vdc
12 V:10,8 V - 15,6 Vdc24 V:20,4 V - 28,8 Vdc
max. 5 Vdcmin. 8 Vdc
24 Vdc
20,4 V - 28,8 Vdc
max. 5 Vdcmin. 8 Vdc
24 Vac
20,4 V a26,4 Vac
max. 5 Vacmin. 12 Vac
115/230 Vac/Vdc
85 a265 Vac/Vdc
max. 40 Vac/Vdcmin. 79 Vac/Vdc
Corriente de entrada 1,5 mA 12 Vdc2,5 mA 24 Vdc
2,5 mA 0,08 mA 1,5 mA 12 Vdc2,5 mA 24 Vdc
1,5 mA 2,5 mA 0,08 mA
Salidas 4 relays 4 relays 4 relays 4 relays 4 Transistor 4 relays 4 relays
Corriente permanente10A Carga resistiva3A Carga inductiva
10A Carga resistiva3A Carga inductiva
10A Carga resistiva3A Carga inductiva
10A Carga resistiva3A Carga inductiva
10A Carga resistiva3A Carga inductiva
10A Carga resistiva3A Carga inductiva
0,3 A
Proteccion contracortocircuito
Se requiere fusibleexterno
Se requiere fusibleexterno
Se requiere fusibleexterno
Se requiere fusibleexterno
Se requiere fusibleexterno
Se requiere fusibleexterno
Electrónica (~ 1A)
Frecuencia de conmutación 2 Hz carga resistiva0,5 Hz carga inductiva
2 Hz carga resistiva0,5 Hz carga inductiva
2 Hz carga resistiva0,5 Hz carga inductiva
2 Hz carga resistiva0,5 Hz carga inductiva
2 Hz carga resistiva0,5 Hz carga inductiva
2 Hz carga resistiva0,5 Hz carga inductiva
10 Hz
Dispación de potencia 0,1 bis 1,2 W (12 V)0,2 bis 1,6 W (24 V)
0,1 to 1,2 W (12 V)0,2 to 1,6 W (24 V)
0,3 - 1,8 W 0,3 - 1,8 W1,1 to 3,5 W (115 V)2,3 to 4,6 W (230 V)
1,1 to 3,5 W (115 V)2,3 to 4,6 W (230 V)
0,2 to 0,5 W
Reloj integrado/ reserva 8/typ. 80 h 8/typ. 80 h 8/typ. 80 h 8/typ. 80 h 8/typ. 80 h 8/typ. 80 h-
Cables de conexión 2 x 1,5 mm2, 1 x 2,5 mm2
Dimensiones 72 (4TE) x 90 x 55mm (BxHxT)
LOGO! Basic: Datos Técnicos
LOGO!24o
62 (0 to 10 V)
24 Vdc
24 Vdc:20,4 V - 28,8 Vdc
max. 5 Vdcmin. 8 Vdc
4 Transistor
0,3A
Electrónica (~ 1A)
10 Hz
0,2 to 0,5 W
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SIMATIC –Totally Integrated Automation
LOGO! DM812/24R
LOGO! DM8230R
LOGO! DM824
LOGO! AM2 LOGO! FM1AS-I
EntradasEntradas analógicas
4-
4-
-2 (Pt100: -50...200ºC)
4 (DI Virtual AS-I)-
Tensión de entrada
Rango permitido
Señal 0Señal 1
4-
12/24 Vdc
12 Vdc:10,8 V - 15,6 Vdc24 Vdc:20,4 V - 28,8 Vdc
max. 5 Vdcmin. 8 Vdc
115/230 Vac/Vdc
85 a265 Vac/Vdc
max. 40 Vac/Vdcmin. 79 Vac/Vdc
24 Vdc
20,4 V - 28,8 Vdc
max. 5 Vdcmin. 8 Vdc
12/24 Vdc
12 Vdc:10,8 V - 15,6 Vdc24 Vdc:20,4 V - 28,8 Vdc
Comsumo: 25...50ma
Corriente de entrada 1,5 mA 12 Vdc2,5 mA 24 Vdc
0,08 mA 1,5 mA -
Salidas 4 relays 4 relays 4 Transistor - 4 (DO Virtual AS-I)
Corriente permanente10A Carga resistiva3A Carga inductiva
10A Carga resistiva3A Carga inductiva
0,3 A
Proteccion contracortocircuito
Se requiere fusibleexterno
Se requiere fusibleexterno
No AislamientoGalvánico
Electrónica (~ 1A)
Frecuencia de conmutación 2 Hz carga resistiva
0,5 Hz carga inductiva
2 Hz carga resistiva
0,5 Hz carga inductiva
10 Hz
Dispación de potencia 0,1 bis 1,2 W (12 Vdc)0,2 bis 1,8 W (24 Vdc)
12Vdc: 0,3 - 0.6 W
24Vdc: 0,6 - 1.2 W
1,1 to 3,5 W (115 Vac)2,3 to 4,6 W (230 Vac)
0.5 a 1.8 W (115 Vdc)1.2 a 2.4 W (230 Vdc)
0,8 to 1.1 W
Cables de conexión 2 x 1,5 mm2, 1 x 2,5 mm2
Dimensiones 36 (4TE) x 90 x 55mm (BxHxT)
LOGO! Basic: Datos Técnicos
12Vdc: 0,3 - 0.6 W
24Vdc: 0,6 - 1.2 W
12/24 Vdc
12 Vdc:10,8 V - 15,6 Vdc24 Vdc:20,4 V - 28,8 Vdc
Comsumo: 25...50ma
LOGO! AM2
-2 (0-10Vdc / 0/4-20ma)
12/24 Vdc
12 Vdc:10,8 V - 15,6 Vdc24 Vdc:20,4 V - 28,8 Vdc
Comsumo: 25...50ma
-
-
No AislamientoGalvánico
12Vdc: 0,3 - 0.6 W
24Vdc: 0,6 - 1.2 W
LOGO! DM824R
4-
24 Vac/Vdc
20,4 V - 28,8 Vac/Vdc
max. 5 Vdcmin. 8 Vdc
1,5 mA
4 relays
10A Carga resistiva3A Carga inductiva
Se requiere fusibleexterno
2 Hz carga resistiva
0,5 Hz carga inductiva
1,1 to 3,5 W (115 Vac)2,3 to 4,6 W (230 Vac)
0.5 a 1.8 W (115 Vdc)1.2 a 2.4 W (230 Vdc)
SIMATIC –Totally Integrated Automation
LOGO! PC-Cable• Para la transferencia del programa
PC <-> LOGO!
LOGO! Manual• Information detallada• Ejemplos de aplicación
LOGO! Power• Transforma los 120V/230V AC de la reda la tensión requerida
LOGO! Prom• Copia multiples Cards• Dscarga PC a Cards
LOGO! Contact• En 2 Variantes
(DC 24 V, AC 230 V)• Dimensiones compactas
36 x 72 x 55 mm (BxHxT)• Maniobra directa de cargas resistivas hasta
20A y motores hasta 4KW (8.4A)
LOGO! : Variedad de Accesorios
LOGO! Panel• Para montaje de LOGO! en puerta de Armario
• IP65 con Tapa / IP30 sin tapa
LOGO! Módulos de programa• Amarillo: Copia• Rojo: Know-How Protection y Copia
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SIMATIC –Totally Integrated Automation
Módulo de contactos capaz de maniobrar hasta 20A (AC1)
LOGO!Contact LOGO!Contact230 24
!Dimensiones 36 x 72 x 55 mm 36 x 72 x 55 mm
!Tensión operativa AC 230 V DC 24 V!Corriente nominal 20 A resistiva, 20 A resistiva,
8,4 A inductiva. 8,4 A inductiva,4kW Motores 4 k W Motores
LOGO! Contact : Contactor para LOGO!
SIMATIC –Totally Integrated Automation
Fuente de alimentación regulada para LOGO!24.. and LOGO! 12..
LOGO!Power 1.3 / 2.5 (24Vdc) 1.9 / 4.5 (12Vdc)!Dimensiones 72/126 x 90 x 55 mm 72/126 x 72 x 55 mm
!Tensión de entrada AC 85...264V AC 85...264V
!Tensión de salida DC 24V DC 12V
!Corriente válida 1.3/2.5Amp. 1.9/4.5Amp.
!Protección por corto circuito si si
Se ofrecen tambien las siguientes tensiones:• 5 Vdc 3.0 / 6.3Amp.
15 Vdc 1.85 / 4.0Amp.
48 Vdc 0.65 / 1.25Amp.
LOGO! Power : Alimentación para LOGO!
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SIMATIC –Totally Integrated Automation
LOGO! : Kit de Montaje en Panel Frontal
F
6AG1057-1AA00-0AA0
Proteción IP65 con Panel de Plexiglás
Protección IP30 sin Panel de Plaxiglás
Tamaño (AnchoxAlturaxProf) 79x95x57mm
SIMATIC –Totally Integrated Automation
LOGO! Prom : Hacer copias del Know How
F
Copiado de LOGO! A Memory cards
" via PC con LOGO!Soft Comfort
" via una Memory Card Maestra
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SIMATIC –Totally Integrated Automation
Nueva GeneraciónLOGO!
3. 0
LOGO! 4º Generación (0BA3)
SIMATIC –Totally Integrated Automation
3-hilos-serial- IO 3-hilos-serial- IO
Maestro Esclavo Tipo 1 Esclavo Tipo 2
LOGO! ..0BA3 : Módulos de Expansión
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SIMATIC –Totally Integrated Automation
•Adjuste de Tiempo Automático : Verano / Invierno! EU, US, GB, ninguno etc.
•Menú en vez de 2 y 3 teclas al mismo tiempo
•Protección por Password! 10 caracteres
! Los Parámetros pueden ser modificados
•Retentividad para OHC en conjunto con Card Red
•Valor Actual del OHC puede ser mostrado en el Software (V3.1)! Esto es importante para LOGO! sin display
•El rango I/O completo puede ser usado con cualquier tipo de LOGO!
•Funcionalidad de display mejorada.
LOGO! ..0BA3 : Mejoras en el Firmware
SIMATIC –Totally Integrated Automation
•Soporta los Sistemas Operativos:! Win 95/98/2000/ME/NT 4.0
! MAC-OS X
! Linux (min. V2.2.12 and glibc V2.1.2)
•Nueva Función Especial! Función “Switch Software” (Interruptor/Pulsador)
•Soporta una nueva Funcionalidad del Password! Chequea el password en caso de Upload
•Posibilidad de abrir mas de un proyecto al mismo tiempo (MDI)
•Ajustes para simulación se almacenan con el archivo de programa
•Programación Ladder como opción (LOGO!Soft Comfort V3.1)
LOGO!Soft Confort V3.1 : Características Adicionales
F
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SIMATIC –Totally Integrated Automation
! Antes:
! Ahora:
≥1L1
N
No1No2No3
L1
S1
L1
L1
L1 S1
N
“Cableado“ Standard vs LOGO!
SIMATIC –Totally Integrated Automation
LOGO! Respuesta a “Power ON“
• Whether a program is stored in the internal LOGO! memory
• Whether a program module is inserted
Program in theprogrammodule orprogram in theinternalmemory
LOGO!
No Program
Press ESC
No program in theprogram moduleand no program inthe internalmemory
SIEMENS
LOGO!
Program
PC/Card..
Clock..
Start
>
If there is a program in theprogram module, it isautomatically copied to theinternal LOGO! memory. Anyprogram already present in theinternal LOGO! memory isoverwritten.
SIEMENS
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SIMATIC –Totally Integrated Automation
LOGO! Respuesta a “Power ON“
• LOGO! Estado previo al Power OFF
Si una desconexión ocurre mientras el programa era entrado, el progrma se borra una vezque se recobra la tensión
Antes de Power OFF Después de Power ON
En mode edición
LOGO!
Q1
SIEMENS
LOGO!
No Program
Press ESC
SIEMENS
Antes de Power OFF
En modo RUN
Después de Power ON
LOGO!
I : 0. , 1. , 2.
123456789
0123456789
01234
SIEMENS
LOGO!
I : 0. , 1. , 2.
123456789
0123456789
01234
SIEMENS
SIMATIC –Totally Integrated Automation
Operando la Unidad LOGO!
Tenemos diseñado un circuito y queremos ingresarlo alLOGO! Cuál es el procedimiento?
Conectar el LOGO! A la alimentación y conectarla.El siguiente display aparece.
.
Presione ESC para accesar al menú princiapal
LOGO!
OKESC
No Program
Press ESC
SIEMENS
LOGO!
OKESC
Program ..
PC / Card ..
Clock ..
Start
>
SIEMENS
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SIMATIC –Totally Integrated Automation
Menú Principal / Menú Programa
In the first position of the first line, you see a “>“.Using the keys, you move the “>“ up and down.
Move the “>“ to Program and press . LOGO! switches to the program menu.OK
In addition, you can move the “>“ up and downusing the keys.
Move the “>“ to Edit Prg andpress the key.LOGO! now displays the first output (Q1).
OK
Using the keys, you can select the otheroutputs (Q1, Q2, Q3, etc.).
When entering your circuit, take into account the followingrules ....
LOGO! 12/24 RCOKESC
Program ..
PC / Card ..
Clock ..
Start
>
LOGO! 12/24 RCOKESC
Edit Prg
Prg Name
Clear Prg
Password
>
OKESC
Q1
SIEMENS
SIEMENS
SIEMENS
LOGO!
SIMATIC –Totally Integrated Automation
Reglas de Operación de LOGO! (1)
1. Always enter a circuit from the output tothe input.
2. You can connect one output to more thanone input.
3. However, you cannot connect an output to a input
preceding it in the same path (no feedback loops).
I
I1
Q
Q1
Q
Q1
&
I1
>
I2
&
Q1
Q
Q2
&
I1
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SIMATIC –Totally Integrated Automation
Programa Inicial
Refer to the following parallel circuit containing two switches.
Switch S1 and switch S2 switch the load.The parallel circuit of S1 and S2 is anOR operation in LOGO!, becauseS1 or S2 switches on the output.
>1
I1
I2
x
Q1
S1 S2
K1
K1
E1
v
SIMATIC –Totally Integrated Automation
Cableado
Switch S1 acts on input I1 and switch S2acts on input I2. The load is connected at
relay Q1.
You now enter the program (from theoutput to the input!). To start, LOGO!displays output Q1.
Below the Q of Q1, you see anunderscore (_). We refer to theunderscore as a cursor. The cursorindicates your current location in theprogram.
L1
N
S1
LOGO! 12/24 RCOKESC
Q1
I1 I2 I3 I4 I5 I6L1 N
Q1 Q2 Q3 Q4
S2
L
N
SIEMENS
I7 I8
••
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SIMATIC –Totally Integrated Automation
Ingresando un Programa (1)
Now, press the key. The cursormoves to the left.
The cursor indicates your location in the
program. You enter the first block (the OR
block) at this location.
Change to editing mode by pressing .OK
The cursor now appears as a solid block
Now, use the keys to select one of
the following:
• Connector (Co)
• Basic function (BF)
• Special function (SF)
LOGO! 12/24 RC
OKESC
Q1
LOGO! 12/24 RC
OKESC
Q1
LOGO!
OKESC
Q1Co
SIEMENS
SIEMENS
SIEMENS
SIMATIC –Totally Integrated Automation
Ingresando un Programa (2)Select the basic function using (GF) and confirmwith .
The first block on the list of basic functions (BF) is
the AND block.
Now use the keys to select one of the
following:
OK
• AND
• AND (Edge)
• NAND
• NAND (Edge)
• OR
• NOR
• XOR
• NOT
Select the OR block (>1
) and confirm with .OK
LOGO! 12/24 RC
OKESC
Q1BF
LOGO! 12/24 RC
OKESC
Q1
B01
&
LOGO!
OKESC
Q1
B01
>1
SIEMENS
SIEMENS
SIEMENS
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SIMATIC –Totally Integrated Automation
Arrancando un Programa
Now, all inputs of the block are connected.
LOGO! considers the program to be complete.
LOGO! jumps back to output Q1.
If you still want to view your initial program, you can move
the cursor through the program
using the keys.
In order to be able to start the program, you must
return to the main menu using the
key.ESC
Using the keys, move the cursor to
“Start“ and confirm with the
key.OK
LOGO! 12/24 RCOKESC
Q1B01
OKESC
Edit Prg
Prg Name
Clear Prg
Password
>
LOGO! 12/24 RC
LOGO!OKESC
Program ..
PC / Card ..
Clock ..
Start
>
SIEMENS
SIEMENS
SIEMENS
However, we now leave the program entering
step and return to the program menu
using the key.ESC
SIMATIC –Totally Integrated Automation
LOGO! En Modo RUNLOGO! displays the following in RUN mode:
Input states:
• State of input I = “1“
• State of input I = “0“
1
1Output states:
• State of output Q = “1“
• State of output Q = “0“
1
1
Refer to our example below:
If switch S1 is closed, input I1 is energized and the state of input I1 = “1“.
The LOGO! program determines the output states.
In this example, the state of output Q1 = “1“.
If the state of Q1 = “1“, LOGO! enables relay Q1 and the load at Q1 is energized.
L1
S1=1
S2=0
I :0.,1.,2.
23456789
0123456789
01234
N
Q1
=1
Mo 09:00
06.21.01
1
Q :0.,1.
23456789
0123456
1The window on the left shows the time of day
and the date.
The window in the center shows the input states
(I1 to I9; I10 to I19; I20 to I24).
The window on the right shows the output
states (Q1 to Q9; Q10 to Q16)
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SIMATIC –Totally Integrated Automation
Asignando Parametros en LOGO! (1)
Assigning parameters of functions:
You can assign the following:
• Time delays of time functions
• Switching times for timer switches
• Threshold for a counter
• Monitoring interval of an elapsed time counter
• On and off thresholds for the threshold switch
By assigning parameters, we mean the assignment of parameters of
functions.
You can assign parameters in the following operating modes:
• Programming
• Parameter assignment
You reach parameter assignment mode by pressing the
key in RUN mode, placing the cursor on Set Param,
and confirming with the key.OK
ESC
LOGO! 12/24 RC
LOGO!
OKESC
I :0.,1.,2.
123456789
0123456789
01234
SIEMENS
LOGO! 12/24 RC
LOGO!
OKESC
Stop
Set Param
Set Clock
Set Name
>
SIEMENS
SIMATIC –Totally Integrated Automation
Asignando Parametros en LOGO! (2)
When the setting for the required block has been made, press
the key. The cursor jumps to the first parameter
to be modified. You can now modify the value using the
keys.
OK
When the setting for the required value has been made,
press the key. The cursor jumps to the block
number. Using the keys, you can select the
next block to be changed, and so on.
OK
Select a block:
In “parameter assignment“ mode, select the appropriate block
using the keys.
LOGO! 12/24 RC
OKESC
B01:ParLim=005
Cnt=000000
LOGO! 12/24 RCLOGO! 12/24 RC
OKESC
B04: TT = 5.0s
Ta=0.0s
LOGO! 12/24 RCLOGO! 12/24 RC
LOGO!OKESC
B07: TT = 8.0s
Ta=0.0s
SIEMENS
SIEMENS
SIEMENS
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SIMATIC –Totally Integrated Automation
Asignando Parametros en LOGO! (3)
ESC Use the key to return to the menu.
ESC Use the key to return to RUN mode.
LOGO! 12/24 RCLOGO! 12/24 RC
LOGO!
OKESC
B07: TT = 8.0s
Ta=0.0s
SIEMENS
LOGO! 12/24 RC
LOGO!
OKESC
Stop
Set Param
Set Clock
Set Name
>
SIEMENS
LOGO! 12/24 RC
LOGO!
OKESC
I :0.,1.,2.
123456789
0123456789
01234
SIEMENS
SIMATIC –Totally Integrated Automation
Function RE
Basic function 0 0 0 0
ON delay 1 1 1 0
OFF delay 2 1 1 0Impulse relay 1 1 1 0
Pulse relay 1) 0 1 0 0
Pulse relay 2) 0 0 0 1
Clock 6 2 0 0
Latching relay 1) 0 1 0 0
Latching relay 2) 0 0 0 1
Clock-pulse generator 1 1 1 0
Latching ON delay 2 1 1 0
Counter 1) 2 2 0 0
Counter 2) 2 0 0 2
Operating hours counter 2 0 0 4Trigger 3 3 1 0
1) LOGO! - sin remanencia2) LOGO! - con remanencia
Temporizadores (Timer)
Set Points (Par)
Valores Actuales (RAM)
RE Remanencia
Memoria Disponible en LOGO!
F
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SIMATIC –Totally Integrated Automation
Conectores
Funciones Generales
F
Funciones Especiales-a
Funciones Especiales-b
Descripción Detallada de Funciones
SIMATIC –Totally Integrated Automation
Funciones Básicas (BF)
AND AND(Edge)
NAND NAND(Edge)
OR NOR XOR NOT
FuncionesBásicas
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SIMATIC –Totally Integrated Automation
(BF) NAND con Evaluación e Flanco
S1
S2
S3
H2
The state of the output of the NAND (Not And) with edgeevaluation operation = 1 only if the state of at least one
input = 0 and the state of all inputs during the previous
cycle = 1.
An unconnected input pin in this block is automatically
assigned state = 1.
&S1
S2
S3H2
NAND with edge evaluation
Electromechanical counter
S1 S3 S3
H2
5160
SIMATIC –Totally Integrated Automation
(BF) Operación Lógica NOR
The state of the NOR (Not OR) output = 1 only if the state
of all inputs = 0. As soon as any input is switched on (state
= 1), the output is switched off.An unassigned input pin in this block is automatically
assigned state = 0.
NOR (Not OR)
S1
S2
H1
Referring to the circuit diagram, it can be seen that lamp H1 isilluminated only if normally closed switches S1 and S2 are notactivated.
The circuit diagram shown on the right is referred to as a NOR (Not
OR) logic operation.
This means that if at least one of the switches S1 or S2 is activated,lamp H1 is not illuminated.
The symbol for this operation is .
Input 2 Input 3 Output
0 0 0 1
0 0 1 0
0 1 0 0
0 1 1 0
1 0 0 0
1 0 1 0
1 1 0 0
1 1 1 0
Logic Table for AND Block:
Input 1
Series circuit with normallyclosed switches
>1S1
S2
xH1
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SIMATIC –Totally Integrated Automation
Funciones Especiales
FuncionesEspeciales
On-Delay
Off-Delay
On/Off Delay
Retentive On-DelayLatching Relay
Pulse Relay
Internal Time-Delay Relay
Edge-Triggered InternalTime-Delay Relay
Weekly Timer
Yearly Timer
Up/Down Counter
Elapsed Time Counter
Clock PulseGenerator
Pulse Relay
Random Generator
Threshold Switch
Staircase LightingTime Delay
Multifunction Switch
Message TextAnalog Threshold Switch
Analog Comparator
Softkey
SIMATIC –Totally Integrated Automation
(SF) On-Delay
Function Description:
If the state at input Trg changes from 0 to 1, the timer starts running. If the state at input Trg =1 for a sufficient amount of time,
the output is set to 1 once time T expires. There is a delay in switching on the output as compared to the input. The output is reset
to 0 if the state at input Trg = 0.If the state at input Trg changes back to 0 before time T expires, the timer is reset.
The expired timer is reset after a power failure.
Referring to the circuit diagram, it can be seen that the motor startsrunning only after the set time delay expires.
This function is referred to as an on-delay.
This means that the motor is switched on after a set time delay.
The symbol for this function is .
S1
K1
K1
M
Diagram:
Trg
Q
Ta
T T
(Timer active)
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SIMATIC –Totally Integrated Automation
(SF) Relé de Pulso (Toggle)
Function Description
Each time that the state at input Trg changes from 0 to 1, output Q changes its state,
i.e., the output is switched on or off. The state of the latching relay is set to 0 using input R.
Referring to the circuit diagram, it can be seen that lamp H1 can beswitched on and off with momentary-contact pushbuttons S1 or S2.This function is referred to as a pulse relay.This means that lamp H1 is switched on and off by a brief pulse inS1 or S2, respectively.
The symbol for this operation is .K1
S1 K1S2
H1
Diagram:
Trg
R
Q
SIMATIC –Totally Integrated Automation
(SF) Intervalo-Delay Relé/Salida de Pulso
Referring to the circuit diagram, it can be seen that lamp H1 isilluminated only if maintained-contact switch S1 is closed, but atmost for the time period set on timer T1.
The symbol for this operation is .
T1
S1
H1
T1
Diagram:
Trg
Ta
Q
Function Description
If the state at input Trg = 1, the state at output Q immediately switches to 1. Simultaneously, the current time Ta
starts in LOGO!, and the output setting is retained. When Ta reaches the value set using T
(Ta =T), the state at output Q is reset to 0 (pulse output).If the state at input Trg changes from 1 to 0 before the specified time expires, the state at the output also changes immediately from 1
to 0.
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SIMATIC –Totally Integrated Automation
(SF) Intervalo delay Relé por Flanco
T1
S1
H1
T1
T1
Diagram:
Trg
Ta
Q
T T
Referring to the circuit diagram, it can be seen that lamp H1illuminates for a period of time set in timer T1 when maintained-contact switch S1 is activated.
The symbol for this operation is .
Function Description
If the state at input Trg = 1, the state at output Q switches to 1. Simultaneously, time Ta starts. When time Ta
reaches the value set using T (Ta=T), the state at output Q is reset to 0 (pulse output).
If the state at input Trg changes back from 0 to 1 before the specified time expires (retriggering), time Ta is reset
and the output remains switched on.
SIMATIC –Totally Integrated Automation
(SF) Temporizador SemanalThe output is controlled by means of an assignable on and
off date. Any combination of weekdays is supported. Active
weekdays are selected by removing inactive weekdays.
Wednesday
Monday Function Description
Each weekly timer has three cams which can be used
to assign parameters for each time window. The onand off times are specified using the cams.
Cam1
Cam2
Cam3
Lu Ma ViJu SaMi OnDo Off
07 : 30 16 05
08 : 00 12 00
10 : 00 12 30
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SIMATIC –Totally Integrated Automation
(SF) Termporizador Anual
Function Description
Each yearly timer has an on and off time. The yearly timer
switches the output on at a specified on time and switches it off
at a specified off time. The off date identifies the day when the
output is to be reset to 0.
Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec
On May 10 Off Oct 20
SIMATIC –Totally Integrated Automation
(SF) Contador Up/Down
Referring to the circuit diagram, it can be seen that the time pulse isgenerated with maintained-contact switch S1. Maintained-contactswitch S2 determines whether the counter counts up or down. If the counter content has a value >= 10, the lamp is switched on.
Function Description
For every rising edge at input Cnt, the internal counter counts up by
one (Dir = 0) or down by one (Dir = 1). If the internal counter value
is equal to or greater than the value specified using Par, output Q is
set to 1.
The internal counter value and the output can be reset to 0 using
input R.As long as R = 1, the output is 0, and pulses at input Cnt are not
counted.
C1
S1
S2
+-
>=5
H1Q
R
Par
Dir
Cnt
Diagram:
Q
RContador
Dir
Cnt
23
21
0
43
566
5
3
1
4
23
0
54
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SIMATIC –Totally Integrated Automation
(SF) Generador de Pulsos Asíncrono
The pulse form of the output can be modified by means of theassignable pulse/pause ratio.
The symbol for this function is .
Function Description
Pulse length and pause length can be set by means of parameters. The time base can be divided into seconds,
minutes, or hours. Both parameters have the same time basis, and a different setting is not possible. Input Inv causes
the output to be inverted if the block is enabled by means of EN.
Diagram:
En
Q
Pulse length/ Pause length
Inv
SIMATIC –Totally Integrated Automation
(SF) Generador Aleatorio
Function Description
If input En changes from 0 to 1, a random time of between 0 and 10 seconds is started. If En =1 for at least the
duration of the on-delay time, the output is set to 0 when the on-delay time expires. If the state at input En changes
back to 0 before the on-delay time expires, the time is reset.
If input En changes from 1 to 0, a random time (off-delay time) of between 0 and 15 seconds is started. If En = 0 for
at least the duration of the off-delay time, the output is set to 0 once the off-delay time expires. If the state at input Enchanges to 1 before the off-delay time expires, the time is reset.
The random generator switches the output on or off within an
assignable time.
The symbol for this function is .
Diagram:
En
Q
Maximum On-Delay/Maximum Off-Delay
Q
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SIMATIC –Totally Integrated Automation
(SF) Switch de Umbral de Frecuencia
The output is switched on and off depending on two assignable
frequencies.
The symbol for this function is .
Function Description
The threshold switch measures the signals at input Fre. The pulses are detected over an assignable time period
(peak time). If during the peak time, the measured values are greater than the upper threshold value, output Q
switches on. Output Q switches off again when the measured values are less than the lower threshold value.
SWOn is the on threshold. The permitted range is 0000 to 9999.
SWOff is the off threshold. The permitted range is 0000 to 9999.
Peak time is the time interval during which the pulses at Fre are measured. The permitted range is 0.05 seconds
to 99.95 seconds.
Diagram:
Fre
Q
Ventana
Fre > SWOn Fre > SWoff Fre < SWOff
Fre =12 Fre = 5 Fre = 3 Fre = 5
Fre < SWOn
SIMATIC –Totally Integrated Automation
(SF) Delay Alumbrado de Escalera
An assignable time runs following an input pulse (edge
triggering). The output is reset after the time expires. An
early shutdown warning is issued 15 seconds before the
time expires.
The symbol for this function is .
Function Description
If the state at input Trg changes from 0 to 1, the current time Ta runs and output Q is set to 1. Fifteen seconds
before Ta reaches time T, output Q is reset to 0 for 1 second.If Ta reaches time T, output Q is reset to 0.
Further switching actions at input Trg while Ta is running resets Ta (retrigger option).
Diagram:
Ta
Trg
Q
T (Off-delay)
1 s
15 s
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SIMATIC –Totally Integrated Automation
(SF) Switch de Umbral Análogo
Function DescriptionThe output is switched off if the analog value exceeds an assignable on threshold.
The output is switched off if the analog value is less than an assignable off
threshold (hysteresis).
The function reads analog value AI1 or AI2. The offset parameter is then added to
the analog value. This value is then multiplied by the gain parameter.
If this value exceeds the on
threshold (SW↑),
output Q is set to 1.
Q is reset to 0 if the value falls b
low the off threshold (SW↓).
Note: In the effective range,
the minimum and maximum
must be assigned the same
one‘s digit.
Diagram
Pinout
SIMATIC –Totally Integrated Automation
(SF) Comparador AnálogoFunction Description
This function generates the difference between the analog values Ax and Ay. The offset
parameter is then added to the difference. The difference is then multiplied by the gain parameter.
If the difference of this value exceeds the assigned threshold, output Q is set to 1.Output Q is reset to 0 if the valued falls below the threshold again.
Diagram
Pinout
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SIMATIC –Totally Integrated Automation
(SF) Softkey
Function Description
This logic function works like a mechanical momentary-contact pushbutton or a maintained-contact switch.If input En is set and the “switch“ parameter is switched to “On“ and confirmed with OK in parameterassignment mode, the output is switched on. Whether the function was configured as a maintained-contactswitch or a momentary-contact pushbutton is irrelevant.
The output is reset to 0 in the following three cases:
• If the state at input En changes from 1 to 0.• If the function was configured as a momentary-contact push-button and a cycle has run since it was switched on.
• If the “Switch“ parameter was switched to “Off“ and confirmedwith OK in parameter assignment mode.
Diagram
QEn
Par
Pinout
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SIMATIC –Totally Integrated Automation
Interfase bien conocida tipo Windows! Menus contextuales, Símbolos etc.
Programación confortable! En Bolque de Funciones (FBD) o Escalera (Ladder)
Programación usando “Drag and Drop“! Pruebe el Programa en pantalla - directamente
en la PC
Simulación del programa! con el estado de cada función (en color)
Impresión Profesional y función de documentaciónSelección del equipo! (0BA0, 0BA1, 0BA2, 0BA3 con chequeo de
capacidad de función)
LOGO!Soft Confort V3.1 Características
SIMATIC –Totally Integrated Automation
Inicio Rápido con LOGO! Soft Comfort V3.1
Barra de Título
Barra de Menú
Barra de Símbolos
Barra de Herramientas
Status bar
Ventana de Mensajes
Etiqueta de Progrma
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SIMATIC –Totally Integrated Automation
Funciones de Ayuda (1)
El Help es activado usando elcomando Help -> Content . Se
puede encontrar información
adicional ordenada por temas en el
directorio Contenido
Haciendo clik en un
tema de interes, se
obtiene información
detallada a ese respecto
SIMATIC –Totally Integrated Automation
Funciones de Ayuda (2)
Que es esto? Puede ser accesado
por medio del menú contextual
(click con boton derecho delmouse) para cada función
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SIMATIC –Totally Integrated Automation
Funciones de Ayuda (3)
Que es esto? Se activa también
usando el comando Help -> What‘s
This? . Los objetos sobre los cuales
se desea ayuda se apuntan con el
mouse
SIMATIC –Totally Integrated Automation
Funciones de Ayuda (4)
Usando el comando Help -> Update
Center , se puede instalar leguajes
adicionales, Upgrades y sevice packs
del programa
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SIMATIC –Totally Integrated Automation
Título
Lista de Menu
Barra de herramientas én íconos
Modo seleccionar para modificar
Texto libre para comentariosadicionales
Para una mejor vista , separar lasinterconexiones
Trazado de las líneas de interconexión
Mostrar Conectores (Co)
Mostrar funciones generales (GF)
Mostrar funciones especiales (SF)
Simulación offline
Standard-Windows
PC -> LOGO!
LOGO! -> PC!
LOGO!Soft Confort: Botones
SIMATIC –Totally Integrated Automation
Rango de
Medida
Ganancia (1 - 1000)
Offset -999
+999
UmbralDependiendo del
rango de medida
Cuadro : Comparador Análogo
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SIMATIC –Totally Integrated Automation
4 Líneas
Prioridad
Edición de
Texto
Selección de
Bloque Selección de
Parámetro
Cuadro : Mensajes
SIMATIC –Totally Integrated Automation
Selección de
7 Días
Hora de
Encedido
Hora de
Apagado
Leva 1,2,3
Cuadro : Reloj Semanal
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SIMATIC –Totally Integrated Automation
Fondo
Color “High“
Color “Low“
Slección de color
Vista previa
Cuadro : Personalización de Colores
SIMATIC –Totally Integrated Automation
Seleccíon de
pulsador
Valor min./max.
Para simulaciónde frecuencia
Valor min./max.
Para simulación
análoga
Cuadro : Parámetro de Simulación
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SIMATIC –Totally Integrated Automation
Página1, B55
Página2, Marca 1
Función Unir / Desunir Conexión
SIMATIC –Totally Integrated Automation
Seleccionar Hardware
F
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SIMATIC –Totally Integrated Automation
ComunicaciónLOGO!
LOGO!: COMUNICACIÓN
SIMATIC –Totally Integrated Automation
Comunicación de CampoComunicación de CampoComunicación de Campo
PROCESS FIELD BUS
Comunicación de DatosComunicación de DatosComunicación de Datos
PROCESS FIELD BUS PROCESS FIELD BUS
netnetnet
Comunicación - ITComunicación - ITComunicación - IT
AS-
Interface
Simatic NET: Posicionamiento de AS-I
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SIMATIC –Totally Integrated Automation
AS- Interface es la mejor alternativa en Busde Campo:
∇ De facil instalación y de bajo costo
∇ Sólo Actuadores y Sensores (Ahoratambien analógicos).
∇ Hasta 64 Esclavos AS-I: Sensores yActuadores Inteligentes, Standard y LOGO!
∇ Standard Universal (No SIEMENS).
∇ Flexible y Versátil en la configuración.
Que es AS-Interface?
SIMATIC –Totally Integrated Automation
Max. 100m y 03 ramas usando repetidores.
Concepto de Bus! Acceso Master/Slave
! Hasta 62 esclavos con 4 Bit bidireccionales
! Hasta 248 E/A en configuración máxima.
! Max. 5 Milisegundos de tiempo de acceso al Bus
Sistema de Bus abierto: SIEMENS es miembro de laAS-Interface Association
AS-Interface: Características
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SIMATIC –Totally Integrated Automation
Módulo de Acoplamiento Cable PerfiladoAS-Interface
Módulo Acoplado alCable AS-Interface
FijaciónMecánica
FijaciónEléctrica
AS-Interface: Componentes de Bus
SIMATIC –Totally Integrated Automation
PPI/MPISIMATIC S7-200 mit EM
TD 200
TP070
DruckerBarcode-
leser
LOGO!
AS-Interface
Motor Motor
AS-Interface con S7-200 y LOGO!
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SIMATIC –Totally Integrated Automation
Entrada Virtual AS-Interface (=Salida en el Maestro)
Salida Virtual AS-Interface (=Salida en el Maestro) y Salida Virutal AS-Interface (=Entrada en el Maestro)
Q1
B01
Q1Ia1
I2
I1
B01
Qa1B01
B01
Qa1Ia3
I2
B02
I/O Virtual para AS-Interface con LOGO!
F
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SIMATIC –Totally Integrated Automation
Aplicación Típica de LOGO!
If the water level drops below level (I1), the drinking watersupply is to switch on automatically.
If the water level reaches level (I2), the drinking water supply isto switch off automatically.
P
I3 (Pump off)
I1(Drinking water supply on)
I2
(Drinking water supply off)
I4(Pump off)
Q1(Drinking water supply line)
SIMATIC –Totally Integrated Automation
Paso 1: Insertando Conectores (CO)How many inputs and outputs are needed to solve this task?
1. The tool must be selected if you
want to place input blocks, output blocks,
memory bits, or constants (high, low) on the
programming interface.
2. Then, the specific function blocks are
selected using this
symbol bar:
3. The following symbol now appears in the
work area:
Now, move the mouse to the required position.The function is inserted by clicking the left
mouse button.1.
2.
3.
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SIMATIC –Totally Integrated Automation
Paso 2: Insertando Funciones Basicas (BF)
Which basic functions are needed to solve this task?
1. Select the tool if you want
to place simple basic logic elements of
Boolean algebra on the programming
interface.
2. A specific function block is selected using
the symbol bar.
3. The following symbol appears in the work
area:
Now, move the mouse to the required
position. The function is inserted by clicking
the left mouse key.1.
2.
3.
SIMATIC –Totally Integrated Automation
Paso 3: Insertando Funciones Especiales (SF)
2. A specific function block
is selected using the symbol
bar.
3. The following symbol now
appears in the work area:
Now, move the mouse to the
required position. The
function is inserted by
clicking the left mousebutton.
1. Select thetool if you want to place
additional functions on the
programming interface.
Which special functions are needed to solve this task?
1.
2.
3.
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SIMATIC –Totally Integrated Automation
Paso 7: Alineando los Bloques
To achieve a more attractive and easier-to-view appearance for your program, you can align the individualfunction blocks vertically or horizontally.
1. First, the function blocks
that are to be aligned must be
selected.
2. Activate the button to vertically align the
selected function blocks.
SIMATIC –Totally Integrated Automation
Paso 8: Asignando Parametros (1)In the case of special functions and basic functions, there us a tab for comments and one or more tabs for
parameters. Here, you can specify values or settings that are to be adopted by the function block in its circuit.
1.
Double-click
the function
using the leftmouse button.
3. Another address can be assigned for each individual
input and output block by means of block parameter
assignment. However, only the inputs and outputs not
already assigned in the circuit program are considered inthe selection.
1. Select function and
click using the right
mouse button.
2. Select the Block
Properties menu item.
or
2.
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SIMATIC –Totally Integrated Automation
Paso 8: Asignando Parametros (2)
In addition, you have the option of changing and checking all of the block properties centrally.
SIMATIC –Totally Integrated Automation
Paso 9: Asignando Nombres de ConexiónFor the sake of clarity, you can also assign symbolic names for the input and output
connectors in addition to the text fields in the program:
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SIMATIC –Totally Integrated Automation
Paso 10: Dar Formato a los Comentarios
SIMATIC –Totally Integrated Automation
Paso 11: Documentación (1)For purposes of program documentation, you can display all of the connectors, basic functions, and special
functions used in the program.
A list of all blocks used in the program is displayed using the
Edit -> Go to Block menu command. The list contains
information on the block number and the type of the block. For
example, you can display the special functions that you used. You
can enter the brief description of the block, I1, Q2, B02, etc., in
the search function, and you will be shown the position of theblock in the list. Clicking OK causes the block that you searched
for to be highlighted.
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SIMATIC –Totally Integrated Automation
Paso 11: Documentación (2)
You obtain additional information for program documentation from the information window. It isusually located at the lower edge of the screen.
The View -> Information Window menu
command displays program messages.
Following simulation of a circuit program,
the resources used along with the current date
and time of day are displayed in the
information window.
SIMATIC –Totally Integrated Automation
Paso 11: Documentación (3)Program or system data can be entered using the File -> Properties menu item in the General tab. These data
are displayed in the program printout in the parent window below.
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SIMATIC –Totally Integrated Automation
Paso 11: Documentación (4)
SIMATIC –Totally Integrated Automation
Paso 11: Documentación (5)You can define which documents are to be printed under Properties in the Print Preview window. The
circuit diagram, the parameter list, and the list of connector names are normally selected.
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SIMATIC –Totally Integrated Automation
Paso 11: Documentación (6)In the case of large or complex programs, it is often useful to divide up the circuit diagram onto severalpages.
SIMATIC –Totally Integrated Automation
Paso 11: Documentación (7)
Various connection lines must be separated when the program is divided onto several pages.
The connection lines can be easily separated using the selected cut tool. The interfaces are uniquely labeled by the
page number, block number, and input pin. By clicking on one of the interface wildcards again using the cut tool, the
separation is undone.
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SIMATIC –Totally Integrated Automation
Paso 12: Prueba del Programa (3)
As an additional aid for program testing, a particular switch functioncan be assigned to each input.
The context menu (right mouse click) can be used to assign an appropriate switch function to each of the inputs used
in the program. You can select from a momentary-contact switch, maintained-contact switch, and frequency input. For
frequency inputs, the simulated frequency setting in Hz can be entered. For analog inputs, the range and the starting
value is specified.
These parameters can also be changed and reviewed centrally using the Extras -> Simulation parameters menu
command.
SIMATIC –Totally Integrated Automation
Paso 13: Asignar un Password al ProgramaIn order to protect the program and the knowledge it contains, you can assign a 10-digit
password to be applicable to this program alone.
This password protects your program only on LOGO! Without the password,
you cannot change or view the program, only delete it. The password is also
needed to download a password-protected program to a PC.
To delete a previously assigned password, enter the old password and leave the
new password blank.
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SIMATIC –Totally Integrated Automation
Paso 14: Transferir Programa a LOGO! (1)When programming in LOGO!Soft Comfort 3, you have the option of first implementing your circuit program and thendetermining the required unit using the Extras -> Define LOGO! menu command,
or you can use the Extras -> Unit Selection menu command to first define the LOGO! unit for which you want to create
your circuit program.
The unit selection shows the available function blocks
and memory resources for each selected unit.
SIMATIC –Totally Integrated Automation
Paso 14: Transferir Programa a LOGO! (2)
Once a successful program test has been performed, the program should be transferred to the LOGO! Certain
requirements must be satisfied for this.
LOGO!
OK
ESC
Program ..
PC / Card ..
Clock ..
Start
>
SIEMENS
LOGO!
OK
ESC
SIEMENS
PC <->
-> Card
Card ->
>
LOGO!
OKESC
SIEMENS
PC <->
Stop?Press ESC
1. 2.
The LOGO! unit must be connected with the PC cable and prepared for the transfer using the PC/Card , PC <->
setting.
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SIMATIC –Totally Integrated Automation
Paso 14: Transferir Programa a LOGO! (3)
All preparations have been made. The program can now be transferred.
Select the function to transfer a
circuit program created in the PC with
LOGO! Soft Comfort to a LOGO! unit.
Prior to transferring, LOGO! identifies the
minimum version required for the created
circuit program. If the created circuit
program cannot be transferred to the
available LOGO! unit, an error message is
displayed and the transfer is canceled.
If LOGO! is not suitably prepared for the data
transfer, an error message is displayed.
A message is displayed in the status
bar indicating that the data transfer
was successful.
SIMATIC –Totally Integrated Automation
Paso 15: Poner LOGO! a RUN
LOGO!OKESC
SIEMENS
PC <->
Stop?Press ESC
LOGO!OKESC
Program ..
PC / Card ..
Clock ..Start
>SIEMENS
LOGO!OKESC
Program ..
PC / Card ..
Clock ..Start>
SIEMENS
1.2.
3.
P
I3 (Pump off)
I1
I2
I4
Q1LOGO! 12/24 RC
LOGO!
OKESC
SIEMENS
I :0.,1.,2.
23456789
0123456789
01234
1
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SIMATIC –Totally Integrated Automation
Paso 16: Ajustar Hora y Fecha (1)
The software can also be used to set the system clock in LOGO! Of course, the time of day can also be set directly on the unit.
To be able to use this function, theLOGO! must be placed in the
PC/Card , PC <-> transfer mode
again.
Pressing the Write button transfers the
time-of-day setting to the LOGO!
SIMATIC –Totally Integrated Automation
Paso 16: Ajustar Hora y Fecha (2)With LOGO! Modular, you have the option of configuring the system clock to automatically change for seasonal
time variations. This can be done by means of the software and directly on the device.
The LOGO! Must be placed in the PC/Card ,
PC <-> transfer mode for this function.
The time change in effect for the selected
region is applied.
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SIMATIC –Totally Integrated Automation
Control de Faja Trasnportadora
I1(ON)
I3 (OFF)I2(Fill)
Function Description
A bottle filling machine is to be controlled.
Part 2 When the sensor (I2) detects a bottle,the motor is switched off for 3
seconds (filling operation).Afterwards, the motor starts runningagain.
Part 1 The conveyor control is switched onor off using (I1).
When the conveyor control isswitched on, the motor for theconveyor belt (Q1) runs.
The motor is able to be switched off at any time by means of Off (I3).
SIMATIC –Totally Integrated Automation
Solución: Control de Faja Part 1 (1)
I1(ON)
I3 (OFF)I2(Fill)
Part 1 The conveyor control is switched onor off using (I1).
When the conveyor control isswitched on, the motor for the
conveyor belt (Q1) runs.
The motor is able to be switched off at any time by means of Off (I3).
OKESC
Edit Prg
Prg Name
Clear Prg
Password
>
LOGO! 12/24 RC
SIEMENS
Q1B01Q1B01Q1
B02B01
I1
x
&
Q1
B02B01
I1x
&
B01
B02
I3
1
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SIMATIC –Totally Integrated Automation
Solución: Control de Faja Part 1 (2)
I1(ON)
I3 (OFF)I2(Fill)Part 1 The conveyor control is switched on
or off using (I1).
When the conveyor control isswitched on, the motor for theconveyor belt (Q1) runs.
The motor is able to be switched off at any time by means of Off (I3).
SIMATIC –Totally Integrated Automation
Solución: Control de Faja Part 2
I1(ON)
I3 (OFF)I2(Fill)Part 2 When the sensor (I2) detects a bottle,
the motor is switched off for 3seconds (filling operation).Afterwards, the motor starts runningagain.
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SIMATIC –Totally Integrated Automation
a).- Programar el contador up-/down de 6-digitos Ej.:! Cuenta (Cnt) = I1
! Dirección (Dir) = I2
! Reset (R) = I3
! Limite (Par) = 10
Control del valor actual y cambio del límite con modo”Parametrización”
b).- Expandir el programa con I4! Contar sólo si I4 = 1
y
! Q1 = 1 si el valor del contador es <10 y I4 = 1
1).-Función Contador
SIMATIC –Totally Integrated Automation
Solución 1-a
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SIMATIC –Totally Integrated Automation
Solución 1-b
SIMATIC –Totally Integrated Automation
La función especial ”Generador de pulsos” tiene una proporciónOn/Off fija 1:1
Programar las siguientes funciones (Sin usar el generador depulsos asíncrono):! a).- Generador de pulsos con estado ”On” >50%
! b).- Generador de pulsos con estado ”On” <50%
! c).- Generador de pulsos con una proporción On/Off flexible
2).-Función Generador de Pulsos
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SIMATIC –Totally Integrated Automation
Solución 2-a
SIMATIC –Totally Integrated Automation
Solución 2-b
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SIMATIC –Totally Integrated Automation
Solución 2-c
SIMATIC –Totally Integrated Automation
La siguiente función debe ser programada:! Q1 (Lúz) debe ser cambiado entre On y Off con un pulsador
conectado a I1
! Si Q1 lleva encendido (On) 5 seg. Q2 (Ventilator) debe ser también encendido (ON)
! Si Q1 es apagado (Off) mientras Q2 está en On, Q2 debe ser apagado (Off) 10 seg. Después de Q1 (Off delay para ventilador)
3).- On/Off Delay: Sistema de Ventilación
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SIMATIC –Totally Integrated Automation
Alternancia de dos bombas dependiendo del nivel de líquido! Todas las entradas son “NO“.
! I1 = Nivel alto
! I2 = Nivel Medio
! I3 = Nivel bajo
! Manual/Auto y pulsadores On/Off manual de cada bomba son Switch Software
! Para arrancar Bomba1 (Q1) o Bomba2 (Q2) I3 debe estar en “On“, se indica mensaje“Bomba # Run“ y se indica el tiempo de trabajo. Las bombas trabajan intermitentes10seg. c/u, sin I3 apaga ambas (Los mensajes sólo operan en modo “Auto“).
! Si I1 es “On“, Bomba1 y Bomba2 tienen que trabajar, se indica mensaje “Nivel Alto“.La lámpara (Q3) debe hacerse intermitente y emitir una señal acústica (Q4)
! El “Reset“ (Vía Acuse Mensaje) debe apagar la señal acústica (Q4) y si I1 está en
“Off“, se puede apagar la lámpara (Q3), si no, sólo se detiene la intermitencia! Si I4 es “ON“, ninguna bomba debe funcionar, se indica mensaje “Nivel Bajo“.
5).- Programa de Control de Bombas
SIMATIC –Totally Integrated Automation
Simulación Offline
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SIMATIC –Totally Integrated Automation
Vista previa de Impresión
Vista Preliminar
SIMATIC –Totally Integrated Automation
Ejemplo: Alumbrado de OficinaRequerimientos y Representación Esquemática
1. El alumbrado de la oficina sonindividualmente conmutados entre
on y off directamente en el sitio.2. Si hay suficiente luz del dia, las
luces cerca a las ventanas sonapagados automáticamente por unswitch crepuscular.
3. A las 8.00pm las cuatro luces sonautomaticamente apagadas.
4. El alumbrado debe ser ahoraindividualmente controlable en elsitio y en cualquier momento.
Fluorescent lamp 2Fluorescent lamp 1
Fluorescent lamp 4Fluorescent lamp 3
Corridor
Office
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SIMATIC –Totally Integrated Automation
Ejemplo: Alumbrado de OficinaSolución Convencional
La luz es encendida y apagada via un relé de pulsos, es activado por el pulsador de la puerta. Independientemente de esto, Puede ser reseteado por medio de elrelog ó el switch crepuscular. La orden de apagado debe ser cortada por el reléde impulsos de manera que siempre despues de ser apagada, la luz pueda ser operada en el sitio.
B1
L1
N
E1
E1
lx> K6
E5
K5
E4
K4
E3
K3
E2K3 K4 K5 K6
S1 S2 S3 S4
K1 K2
K2K2K1
SIMATIC –Totally Integrated Automation
Ejemplo: Alumbrado de OficinaSolución con LOGO!
L1 N I1 I 2 I 3 I4 I5 I6
Q1 Q2 Q3 Q4
SIEMENS
L1
N
E2 E3 E4
B1
lx<
Fluorescent
lamp 1
E5
Fluorescent
lamp 2
Fluorescent
lamp 3
Fluorescent
lamp 4
S1 S2 S3 S4
LOGO! 230RC
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SIMATIC –Totally Integrated Automation
Ejemplo: Alumbrado de OficinaDiagrama de Circuito LOGO!
&
&
≥1
Q3: Luz 3cerca al Hall
Q1: Luz 1Cerca a la ventana
≥11
1Mo..Su20:0020:01Mo..Su21:0021:01
1sI3
I4
I1
I2
I5
1sx
I5
B01B02
B03B04B05
B06
B07B08B09
B10B11
B12B13
Q4: Luz 4cerca al hall
Q2: Luz 2Cerca a la ventana
B02
B02
B02
B09x
xB05
x
Ejemplo: Alumbrado de OficinaVentajas de la Solución con LOGO!
Las luces son directamente conectadas a LOGO!, verificando quela potencia de las salidas individuales no exceda la capacidad
de conmutación.